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Permit M16-0077 - KIZUKI RAMEN / ZAKAYA RESTAURANT - HOODS AND HVAC UNIT
KIZU RAMEN $a MA, rA414y,4% "41,13 - * It'V41 182 SOUTHCENTER MALL M16-0077 City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Inspection Request Line: 206-438-9350 Web site: http://www.TukwilaWA.gov MECHANICAL PERMIT Parcel No: 9202470130 Permit Number: M16-0077 Address: 182 SOUTHCENTER MALL Issue Date: 6/28/2016 WA Cities Electrical Code: 2014 Permit Expires On: 12/25/2016 Project Name: KIZUKI RAMEN / ZAKAYA RESTAURANT 2014 Owner: 2012 WA State Energy Code: Name: WESTFIELD PROPERTY TAX DEPT 2012 Address: PO BOX 130940, CARLSBAD, WA, 92013 Contact Person: Name: DAVID LEE Phone: (206) 817-6081 Address: 2126 NW 204TH ST, SHORELINE, WA, 98177 Contractor: Name: NEW CASTLE MECHANICAL LLC Phone: (360) 893-5974 Address: 2012 112TH ST E SUITE A, TACOMA, WA, 98445-3728 License No: NEWCACM9240D Expiration Date: 9/17/2016 Lender: Name: Address: DESCRIPTION OF WORK: HANG TWO HOODS WITH ONE MAKE-UP AIR UNIT. INSTALL ONE HVAC UNIT Valuation of Work: $35,000.00 Fees Collected: $650.92 Type of Work: NEW Electrical Service Provided by: PUGEST SOUND ENERGY Fuel type: GAS Water District: TUKWILA Sewer District: TUKWILA Current Codes adopted by the City of Tukwila: International Building Code Edition: 2012 National Electrical Code: 2014 International Residential Code Edition: 2012 WA Cities Electrical Code: 2014 International Mechanical Code Edition: 2012 WAC 296-466: 2014 Uniform Plumbing Code Edition: 2012 WA State Energy Code: 2012 International Fuel Gas Code: 2012 Permit Center Authorized Signature: Z2-��'� C'C /� Date: I hearby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or the performance of work. I am authorized to sign and obtain this development permit and agree to the conditions attached to this permit. Signature: Date: 1 Print Name: / This permit shall become null and void if the work is not commenced within 180 days for the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. PERMIT CONDITIONS: 1: Work shall be installed in accordance with the approved construction documents, and any changes made during construction that are not in accordance with the approved construction documents shall be resubmitted for approval. 2: All permits, inspection record card and approved construction documents shall be kept at the site of work and shall be open to inspection by the Building Inspector until final inspection approval is granted. 3: When special inspection is required, either the owner or the registered design professional in responsible charge, shall employ a special inspection agency and notify the Building Official of the appointment prior to the first building inspection. The special inspector shall furnish inspection reports to the Building Official in a timely manner. 4: A final report documenting required special inspections and correction of any discrepancies noted in the inspections shall be submitted to the Building Official. The final inspection report shall be prepared by the approved special inspection agency and shall be submitted to the Building Official prior to and as a condition of final inspection approval. 5: All construction shall be done in conformance with the Washington State Building Code and the Washington State Energy Code. 6: Remove all demolition rubble and loose miscellaneous material from lot or parcel of ground, properly cap the sanitary sewer connections, and properly fill or otherwise protect all basements, cellars, septic tanks, wells, and other excavations. Final inspection approval will be determined by the building inspector based on satisfactory completion of this requirement. 7: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206-431-3670). 8: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center. 9: VALIDITY OF PERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of the building code or of any other ordinances of the City of Tukwila. Permits presuming to give authority to violate or cancel the provisions of the code or other ordinances of the City of Tukwila shall not be valid. The issuance of a permit based on construction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. 10: ***MECHANICAL PERMIT CONDITIONS*** 11: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/431-3670). 12: Manufacturers installation instructions shall be available on the job site at the time of inspection. 13: Type 1 Hoods, the required grease duct leakage test and [light test shall be performed by a special inspection and testing agency in accordance with I.M.C. Chapter 5. 14: The attached set of mechanical plans have been reviewed by The Tukwila Fire Marshals Office and are acceptable with the following concerns: 15: H.V.A.C. units rated at greater than 2,000 cfm require auto -shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required. (City Ordinance #2437) 16: H.V.A.C. systems supplying air in excess of 2,000 cubic feet per minute to enclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished by interrupting the power source of the air -moving equipment upon detection of smoke in the main return -air duct served by such equipment. Smoke detectors shall be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation instructions. (IMC 606.1, 606.2.1) 17: Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #2437) 18: Duct smoke detectors shall be capable of being reset from a single point near the alarm panel. (City Ordinance #2437) 19: Duct detectors shall send a supervisory signal only upon activation. (City Ordinance #2437) 20: All new fire alarm systems or modifications to existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #2437) (IFC 901.2) 21: An electrical permit from the City of Tukwila Building Department Permit Center (206-431-3670) is required for this project. 22: A Type 1 hood shall be installed at or above all commercial cooking appliances and domestic cooking appliances used for commercial purposes that produce grease vapors. Each required commercial kitchen exhaust hood and duct system required by section 610 of the International Fire Code to have a Type 1 hood shall be protected with an approved automatic fire -extinguishing system installed in accordance with this code. (IFC 904.2.1 and IFC 904.11) Automatic fire -extinguishing systems shall comply with UL 300 or other equivalent standards and shall be installed in accordance with the requirements of the listing. (NFPA 96, 10.2.3) 23: Type I hood systems shall be designed and installed to automatically activate the exhaust fan whenever cooking operations occur. The activation of the exhaust fan shall occur through an interlock with the cooking appliances, by means of heat sensors or by means of other approved methods. (IMC 507.2.1.1) 24: All new automatic fire -extinguishing systems and all modifications to existing automatic fire -extinguishing systems shall have fire department review and approval of drawings prior to installation or modification. 25: Local U.L. central station supervision is required. (City Ordinance #2437) 26: All new fire alarm systems or modifications to existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #2437) (IFC 901.2) 27: An electrical permit from the City of Tukwila Building Department Permit Center (206-431-3670) is required for this project. 28: Portable fire extinguishers shall be provided within a 30 -foot (9144 mm) travel distance of commercial -type cooking equipment. Cooking equipment involving vegetable or animal oils and fats shall be protected by a Class K rated portable extinguisher. (IFC 904.11.5) 29: Portable fire extinguishers, not housed in cabinets, shall be installed on the hangers or brackets supplied. Hangers or brackets shall be securely anchored to the mounting surface in accordance with the manufacturer's installation instructions. Portable fire extinguishers having a gross weight not exceeding 40 pounds (18 kg) shall be installed so that its top is not more than 5 feet (1524 mm) above the floor. Hand- held portable fire extinguishers having a gross weight exceeding 40 pounds (18 kg) shall be installed so that its top is not more than 3.5 feet (1067 mm) above the floor. The clearance between the floor and the bottom of the installed hand-held extinguishers shall not be less than 4 inches (102 mm). (IFC 906.7 and IFC 906.9) 30: Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (City Ordinances #2436 and #2437) 31: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. 32: These plans were reviewed by Inspector 511. If you have any questions, please call Tukwila Fire Prevention Bureau at (206)575-4407. PERMIT INSPECTIONS REQUIRED Permit Inspection Line: (206) 438-9350 1400 FIRE FINAL 0703 MECH EQUIP EFF 1800 MECHANICAL FINAL 0609 PIPE/DUCT INSULATION 0705 REFRIGERATION EQUIP 0701 ROUGH -IN MECHANICAL 0702 SMOKE DETECTOR TEST CITY OF TUKW.—A • Community Development Department Permit Center • 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 httn://www.TukwilaWA. ov SITE LOCATION Site Adc Tenant Mechanical Permit No...H —007 Project No. -�-. Date Application Accepted:1.r% Date Application Expires:t ` I a"I9 (For office use only) MECHANICAL PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or by fax. **please print** King Co Assessor's Tax NO.: PROPERTY OWNER Name: Address: )61q FC1ty- 8 -CA) -e- ✓-e- 1V State: , , ,C1 Zip: �gOD CONTACT PERSON - person receiving all project communication Name: i/ J at//b Address: 2 12 b N 10 City: N �t State: Zip: l Phone: !�l rF x: k, V Email: O ClY 1 C Jr✓� Number: Floor: New Tenant: Q ..... Yes No n /ULwGas�1� ✓�,p�c1 en l ��! a MECHANICAL CONTRACTOR INFORMATION Company Name: Address: OI l V's 7't City: State: Zip: Cry, Phone: �S'3 n AFax: Contr Reg No.: Exp Date: Tukwila Business License No.: —v Valuation of project (contractor's bid price): $ q Describe the scope of work in detail: �- O( i-� I\o�o� S t.AII� �y / tin SJ4p (:m A)V)q-L t�v1f�- Use: Residential: Commercial New.......... ❑ Replacement........ ❑ New.......... ❑ Replacement........ ❑ Fuel Type: Electric...... ❑ Gas ........ q Other: H:\Applications\Forms-Applications On Line\2016 Applications\Mechanical Permit Application Revised 1-4-16.docx Revised: January 2016 bh Page 1 of 2 Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace <100k btu Residential, Nighttime Furnace >100k btu I Floor furnace 55 dB(A) Suspended/wall/floor mounted heater 57 dB(A) Appliance vent Commercial Repair or addition to heat/refrig/cooling system 47 dB(A) Air handling unit <I0,000 cfm 65 dB(A) Unit Type Qty Air handling unit >10,000 cfm Residential, Nighttime Evaporator cooler Industrial Ventilation fan connected to single duct 55 dB(A) Ventilation system 57 dB(A) Hood and duct Commercial Incinerator — domestic 47 dB(A) Incinerator — comm/industrial 65 dB(A) Unit Type Qty Fire damper Residential, Nighttime Diffuser Industrial Thermostat 55 dB(A) Wood/gas stove 57 dB(A) Emergency generator Commercial Other mechanical equipment 47 dB(A) 60 dB(A) 65 dB(A) Boiler/Compressor Qty 0-3 hp/100,000 btu 3-15 h /500,000 btu 15-30 hp/1,000,000 btu 30-50 hp/1,750,000 btu 50+ h /1,750,000 btu Noise: Mechanical units need to be in compliance with the Tukwila Noise Code. Maximum permissible sound levels are based on from where the sound is created and where the sound is heard. Additionally, if sound can be heard from within a house at night in a residential zone it may not be allowed. For more details, see TMC 8.22 District of Sound Producing Source District of Receiving Property Residential, Daytime* Residential, Nighttime Commercial Industrial Residential 55 dB(A) 45 dB(A) 57 dB(A) 60 dB(A) Commercial 57 dB(A) 47 dB(A) 60 dB(A) 65 dB(A) Industrial 60 dB(A) 50 dB(A) 65 dB(A) 70 dB(A) *Daytime means 7AM-10PM, Monday through Friday and 8AM-IOPM, Saturday, Sunday and State -recognized holidays. A few sounds are exempt from the noise code, including: Warning devices; Construction and property maintenance during the daytime hours (lam-IOpm); Testing of backup generators during the day. PERMIT APPLICATION NOTES - Value of construction — in all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the permit center to comply with current fee schedules. Expiration of plan review — applications for which no permit is issued within 180 days following the date of application shall expire by limitation. The building official may grant one extension of time for additional periods not to exceed 90 days each. The extension shall be requested in writing and justifiable cause demonstrated. Section 105.3.2 International Building Code (current edition). I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR Signature: AGENT: Print Name: r l LC'r /9")/") Mailing Address: 15-6 a & City Date: Telephone: L` 2 �-[+ INCDY State Zip H:\Applications\Forms-Applications On Linc\2016 Applicalions\Mechanical Permit Application Revised 1-4-16.docx Revised: January 2016 Page 2 of 2 bh DESCRIPTIONS ACCOUNT QUANTITY PAID PermitTRAK $650.92 M16-0077 Address: 182 SOUTHCENTER MALL Apn: 9202470130 $650.92 MECHANICAL $625.88 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $32.50 PERMIT FEE R000.322.100.00.00 0.00 $468.20 PLAN CHECK FEE R000.322.102.00.00 0.00 $125.18 TECHNOLOGY FEE $25.04 TECHNOLOGY FEE TOTAL/ BY RECEIPT: R8431 R000.322.900.04.00 0.00 $25.04 $650.92 Date Paid: Tuesday, May 10, 2016 Paid By: NURI LYDINEL Pay Method: CREDIT CARD 51011E Printed: Tuesday, May 10, 2016 1:11 PM 1 of 1 C11"If� SYSTEMS INSPECTION RECORD Retain a copy with permit AN, 7 INSPE ION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-367 Permit Inspection Request Line (206) 438-9350 Project: ?VAX � Type of Inspectio � L IiCj�✓i°fi9Gr Address: Date Called: Special Instructions: Date Wanted: a.m. p.m. Requester: Phone No: ® Approved per applicable codes. LJ Corrections required prior to approval. COMMENTS: nspector: REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit Mrd` 7 INSP CTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Pro'ect: Z Type of Inspection: Address: Z 'w- CCS LL Date Called: Special Instructions: Date Wanted-: Lla.m. 7 p. . Requester: Phone No: F1Approved per applicable codes. n Corrections required prior to approval. COMMENTS: Aga -AL d yaz � g P OIAL e REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION RECORD 4] � 0 Retain a copy with permit 1m)6 _ t o 7 INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 5outhcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Approved per applicable codes. El Corrections required prior to approval. I paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION RECORD -3, JRetain a copy with permit��'"Q��� INSPTrTION N0, PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd_, #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Project: Kl?—L#</ RA U V Type of Inspection: ^U6171-114 Addie s: i 82- -5f7; Pe,C/W� hL,L Date Called: Special Instructions: Date Wanted: a.m % :2.—z 7 p.m. Requester: 3 fR WV as Phone No: 17-&7/-l1 . Approved per applicable codes. LJ Corrections required prior to approval. I paid at 6300 Southcenter Blvd.. Suite 100. Gall to schedule reinspection. s INSPECTION RECORD Retain a copy with permit I M&- (X7 INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 nApproved per applicable codes. LJ Corrections required prior to approval. Inspector: /� IDate: ')� I REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. INSPECTION RECORD Retain a copy with permit 1 06 -00 7 -7 INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila: WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 ELApproved per applicable codes. LJ Corrections required prior to approval. nspector: REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. r INSPECTION RECORD i ' - ', r`Retain a copy with permit rr_.,, INSPECTION NUMBER PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT ?nA-1;7s-44n7 Project: j Fire Alarm: Type of ns ection: � p Address: _ Pre -Fire: F r, Contact Person: Suite #. /y/1 Special Instructions: Phone No.: LAIApproved per applicable codes. Corrections required prior to approval. CO ENTS: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: r Occu a cy Type: s , i "i- ' a tis + C- ..,..t- e,/Cd" S✓ s"� F 1"' tr.`' ��� Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occu a cy Type: Inspector:_ - Date:` ,, Hrs.: $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. tsming waaress Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 FILM Page 1 Commercial Heat Loss and Heat Gain Calculation 4/29/2016 Report Prepared By: NOTE: CALCULATION BA5ED ON EXTENDED TECHCRAFT CORP 1400 51' AREA WITH ALL KITCHEN EQUIPMENT For: KIZUKI KITCHEN AREA GENERATED HEAT CON5IDED. EXISTING G.8 TON5 SYSTEM ON EXISTING TUKWILA, WA 1800 51' SEATING AND RESTROOM NO CHANGE. Design Conditions: Seattle -Tacoma; Latitude: 47; Time 1:00 PM Indoor: Outdoor: Summer temperature: 68 Summer temperature: 68 Winter temperature: 68 Winter temperature: 68 Relative humidity: 50 Summer grains of moisture: 64 Daily temperature range: 22 Building Component Sensible Latent Total Total Gain Gain Heat Gain Heat Loss (BTUH) (BTUH) (BTUH) (BTUH) Miscellaneous 81,120 0 81,120 0 People 6,750 11,250 18,000 0 Ventilation 0 3,536 3,536 0 Infiltration 0 2,298 2,298 0 Lights 1,804 0 1,804 0 Door Leakage 0 796 796 0 Walls 62 0 62 0 Duct 0 0 0 0 Skylights 0 0 0 0 Ceilings 0 0 0 0 Partitions 0 0 0 0 Doors 0 0 0 0 Windows 0 0 0 0 Floors 0 0 0 0 o e Buil - All Com onents 89,736 17,880 107,616 0 REVIEWED FOR 1 9 tons ) CODE COMPLIANCE APPROVED CITY OF OF MAY 2 7 2016 MAY 10 2016 Clio Tukwila PERMIT CENTER BUILDING DIVISION HVAC -Calc Commercial 4.0 by HVAC Computer Systems Ltd. 888 736-1101 Load calculations are estimates only, actual loads may vary due to weather and construction differences. Structural Calculations Kizuki Restaurant TI 182 Southcenter Mall Tukwila, WA 98188 April 22, 2016 FILE RENEWED FOR CODE COMPLIANCE APPROVED MAY 2 7 2016 Ci of Tukwila BUILDING DIVISION Prepared 6 : RECEIVED CIT p Y Y OF TUKWILA A0(1(ft MAY 102016 MAY CENTER STRUCTURAL P.O. 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WA 98188 DAVID LEE (206)817-sosl �i d-id606109+>�UL - .�, -1n r N yy o y m = y m y h Q] 2 y PROJECT KIZUKI RAMEN & IZAKAYA RESTAURAN —HOOD SYSTEM 182 SOUMCENiER MALL, NKWIIq WA 88188 ;mN sn.� Nva m.��pN N acN wi 3 �� oz m0 g��H jp pFj yp 5N F-i"r'�, ip�Nz� inm 'dAFU dO O i- OA£ zr mOm mll� m - U vOm�CA 0 0o m P cOc, a� N o�KA =�o �zz 7. ro3 +e e P £ N fn N W m�ryv° o 0" A >� y O ppN O N m z °zo i O PPV m P g� �z °m> N> O L °i �N A �a m o �x> 0,D .N°J0 ili y O J A O� ?� ➢o ppb N zM- Ml IXRAUST DUCE om fff Aa ozyN Pmt �� o '79- O=e O oo Fn �N�N 9 =Q ni ® N i �r _ry ��iz pa �i 81 A -9 s ;kil`n °Ag on -8_ n mm p Ac np F+ gn ti9 G) - mp L+l ms Oyz p Noz �m� rL'Oa IIIII ��zi im9 a � Zym � IIIII Z'5-3 <D D Y� S i 0 o gn0 °gym^ ram m zNo F 0 o °o O Z 1 ~ D p AA U o A0 pp y O o Z N y O X � o O 9 O n 2 a O m O N `'3 D 9 7; C L N TECHCRAFT2ST DESlCN 2126 NBCONTACT: SHORELDAVID LEE (206)61david60 N yy o y m = y m y h Q] 2 y PROJECT KIZUKI RAMEN & IZAKAYA RESTAURAN —HOOD SYSTEM 182 SOUMCENiER MALL, NKWIIq WA 88188 = FIELD MEA5URE TRU55 5PACE Z c N A Z pyl ASSOCIATE WITIi FIELD ME/SURED TRU55 SPACE JU01 d. 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DESICN 2126 NW 2047H ST CONTACT. SHOREUNE. WA 98177 DAVID LEE (206)817-6081 d—WO810g—U.— vl N PROJECT: FIELD 5'6'S MEASURE TRU55 SPACE 53 S � � I ASSOCIATE WIM FIELD MEASURED TRU55 SPACE 182 SOUTHCENIER MALL, TUKWILA WA 88188 L•J 70 � L3%3%1I6 ' AN � TEEL 1 I a rn d ! Fi � zD� I Z O z p _ m m� on m �� 5\ ppN ��� C N m ° O Z L y tlS L3%3%1/0 'ANGLE STEEL (n o<rpa N PROJECT: KIZUKI RAMEN & IZAKAYA RESTAURANT STRUCTURAL DETAILS h 182 SOUTHCENIER MALL, TUKWILA WA 88188 L•J J 96,teff STRUCTURAL P.O. Box 28809 1 Seattle, WA 98118 msroichang@gmail.com I cell: 217.493.9293 eforct 1__ —� E Pageyof-19— Job Name: Kizuki Restaurant TI Date: 4/20/2016 STRUCTURAL Design Criteria Scope of Work: ❑❑e ❑-o❑e of DODO ®®[(e❑ ❑m ❑eEDa❑❑13m❑QTa❑am❑e❑Dilo❑FM Reference Standards: 2012 ®❑®❑110 ❑ 10 Component Weiahts: 00001 d ❑® 800 Ib Doo ❑2 El DIED 720 Ib ❑0❑a❑m❑❑o❑e❑ 950 lb ❑ ❑❑ 1031 Ib ❑❑❑❑ 1100 1036 Ib ❑ a® ❑ooCe❑ 800 Ib Live Load: 00of ❑To❑❑ 25 psf ❑COoDOD E e❑ ❑® 100 psf Wind Load: Seismic Controls Seismic Load: ❑❑❑ ❑ 0.972 a❑ ❑ 2.5 (ASCE 7-T13.6-1: HVAC, MAU, ❑❑ ❑ 6 DUCTS) ®0 1 = ❑ 1 (worst case at roof) ❑❑ ®am0 1.6*Sds*Ip*Wp = 1.5552 Wp ❑❑ ®0]❑❑ 0.3*Sds*Ip*Wp= 0.2916 Wp Fp = 0.4*ap*Sds*Wp*(1+2*z/h)/(Rp/Ip) = 0.49 Wp (ULT) 0.7*Fp = 0.34 Wp (ASD) Load Combinations: 1.4D (ULT) 1.2D+1.6L (ULT) 0.9D+E (ULT) 0.6D+0.7E (ASD) PageCof 19 Google Maps 182 Southcenter Mall Tukwila, WA 98188 47.458882,-122-259880 Page.Jof 19 Google Maps 182 Southcenter Mall 3 ® 3 Black River SSW Sunset8 D Riparian Forest H a, L. and Welland ON 1s�er v 9 o a a n sl4amst y i a7, Ra sw y Tukwila 41w 'lam_ 4 S7thSt mD S 146th St Q ' Walmart Supercenter A C A ® S 147th St s + dY WaY !S Stay r 5 a D Starfire Spotls'.� • r� King County Soulh f SW $I 50th St < a 2 6 Treatment Plant W Y N G SM SA 1211+ st L4 it D y -. S'Ir a-_._ S 164th St - Southcenvet� SW 16th St < �o 518 Sib �• _ - r1 NC e SW 19th St Rental Facility i51 ?182 L% S 160th St 0 Solrlficeriter Mall � m D N S 164th St S' S 164th St ` Stra der Blvdy D VBonney-Watson SIN 27th St S 166th St T In S 168th St N > N 9 169 0 m f f N S 170th St — S 170th St f° SOUTHCEN7ER N Sr a > .. 181 MinMer Blvd SW 34th St `t{ y S 173rd St N S 175th St •-S 176tfi St � Costco Wholesale e e' Tac Y� c 4,17gm-St I SW41stSt-- 5 IKEASeattle 167 S ,180th St -- S 180th St - Bow Lake 3 y y X N i S 188th St __ __ _ m > r( t 169 n S 192nd St Map data ©2016 Google 2000 ft Google Maps 182 Southcenter Mall Tukwila, WA 98188 47.458882,-122-259880 Page.Jof 19 �lM Design Maps Summary Report User=Specified Input Report Title Kizuki Restaurant TI Wed April 20, 2016 19:12:28 UTC Building Code Reference Document ASCE 7-10 Standard (which utilizes USGS hazard data available in 2008) Site Coordinates 47.458880N, 122.25988°W Site Soil Classification Site Class D - "Stiff Soil" Risk Category I/II/III USGS-Provided Output SS = 1.457 g Sr,s = 1.457 g SDS = 0.972 g S1 = 0.543 g SMI = 0.815 g SDl = 0.543 g For information on how the SS and S1 values above have been calculated from probabilistic (risk -targeted) and deterministic ground motions in the direction of maximum horizontal response, please return to the application and select the "2009 NEHRP" building code reference document. MCER Response Spectrum 1.65-- 1.50-- 1.35-- 1.20-- 1.05- .651.501.351.201.05 0.90 H 0.75- 0. Go .750.60 0.45-- 0.30-- 0.15 .450.300.15 0.00 0.00 0.20 0.40 0.60 O.BO 1.00 1.20 1.40 1.60 1.80 2.00 Period, T (sec) Design Response Spectrum 1.10-- 1.00-- 0.90-- 0.90-- 0.70-- cm .101.000.900.800.70cm 0.60 v M 0.50- 0.40- 0.30-- 0.20-- 0.10 .500.400.300.200.10 0.00 0.00 0.20 0.40 0.60 0.80 1.00 1.20 1.40 1.60 1.80 2.00 Period, T (sec) For PGAM, TU CRS, and CR, values, please view the detailed report. Page §of 19 tiQO i� �'1`T'�tCftM� �v -r 4) �� -A-3(o n -rte UN Is uy e ep- t4uT �Fd = I, 4 (6c OIL, )/ • 2 o Ib 9 t�_ 0 .1 31 016 3N e f r- TO F�;svo IJ N I'Q-rjz �� �f> {I � � u I l ► 1 a I e to los) - 's.q 5 t b 7 r w- 7k - b30(0je �9 G crne151'V Ot T o PZ:1v & BM CGAup carte 0 i r R 6E) BUNT- b A I L- V\i, = 3qZ [to wh Z,S IV L Ov I p15 I IN# I 4V,, b►S k of S -X = � I� , I%, 7 :k:� ( . �— to Gr -ZtL'd> V,,= © S(%U�x 2 = 2ZS 1� itolleff STRUCTURAL P.O. Box 28809 1 Seattle, WA 98118 msroichang@gmail.com I cell: 217.493.9293 ,, kizydi Ti. Roject No. Date �/ L ✓� li 9 s Sheet Page-9-of4g— 90(etf STRUCTURAL P.O. Box 28809 1 Seattle, WA 98118 msroichang@gmaii.com I cell: 217.493.9293 Proka ��I _ Rjw Nm oa,t zVi ' Dewe` P of 19 M-Aj _&F-Av 0 (Mhv) := M ISc 290 (b V 1 _-}- Z 6. z t ?'� + + x2 - {1'a L ?t6-1 '' a = I t Z31" z ' � Sir • a.s 6R N a cwt, • ��3,� �= - btL`� to,b V,- mss; isow- Z k 'n zy, Et b ` i 1,6.E I`t •�= -.7 _bbd a+� Ih oft, ak X12 = Lex t~ : x% al Z P x 2 60 3 p �1�,-5-� Otter �8>rI �• 1 Za)/y r Ito" �°T "�- LZ 1 Se MTV h! �,-,� dr t SIDE 6rl.i; "lit b iG (•Zo (4;� vuQ 90(cetf STRUCTURAL P.O. Box 28809 1 Seattle, WA 98118 msroichang@gmail.com I cell: 217.493.9293 Pr*allo. Dace Desi Sheet Page 11 of 19 1011 D14 - AVAC t - 16 �� 4 Y C� G T'v►I viJ '�`n+ �� Wb,f LI !b V 2C Ott ` ' � VAS a �'� Ca- p oil,��b 2 lbs Mti C�lrLl>) r r O,kbL`�t CA 7 - 1 Pit. it CMZ -- L 3x VA 6 "' Z z 16 r4 G btu= 017(V= 7 r✓. _ So t I %✓I l4 G J E� Fz�JlivGt +i M� A 0 (ttf STRIUCWRAL P.O. Box 28809 1 Seattle, WA 98118 msroichang@gmail.com I cell: 217.493.9293 Vi Zug -Tt Pmjecl No, Dme Nz,/t►� oesgwf "" Rage 12 of -U -- f pr*a ZDV—{ , •�• go i STRUCTURAL NU P.O. Box 28809 1 Seattle, WA 98118 msroichang@gmail.com I cell: 217.493.9293 Designer s— Pagsnee- Page 1: of 19 ` ' 1 *A mei � _ 00pyx, I4g0ly 7M T v G PIS Iii h �b Ui.T� �Z�v • (��.2 l� Ste) 3 AC�W L -SI S�'y42 441 i co 13 : VA: S&O 49 x3 = I o> 04=fu ((o) -ke� oo L' VA ISO 1e 0,-4-V pr*a ZDV—{ , •�• go i STRUCTURAL NU P.O. Box 28809 1 Seattle, WA 98118 msroichang@gmail.com I cell: 217.493.9293 Designer s— Pagsnee- Page 1: of 19 Self -Drilling Screws 3.6.2 3.6.2.7 Product Description 3.6.2.1 Product Description Hilti self -drilling screws are designed to drill their own hole in steel base materials up to 1/2" thick. These screws are available in a variety of head styles, thread lengths and drill -flute lengths for screw diameters #6 through 1/4". Hilti self -drilling screws meet ASTM C1513, ASTM C954 and SAE J78 standards, as applicable. Product Features: • Hex head for metal -to -metal applications • Flush head for wood -to -metal applications • For metal from 0.035" to 0.500" thick • Winged reamers for wood over 1/2" thick • Stitch screws for light gauge metal -to -metal • Sealing screws for water resistant fastenings 3.6.2.2 Material Specifications Material ASTM A510 Grade 1018-1022 Heat Treatment Case hardened and tempered • Sizes 8,10 and 12: MOW" to 0.009" case depth • Size 1/4": 0.005" to 0.011" case depth PWM Refer to Section 3.6.2.5 for screw coating information. Waming: Because of the potential for delayed hydrogen assisted stress corrosion cracking, many hardened steel fasteners are not recommended for use with dissimilar metals or chemically treated wood when moisture may be present or in corrosive environments. For further information, contact Hilti Technical Support at 1-877-749-6337. 3.6.2.3 Technical Data Ultimate Tensile Strengths - Pullout (Tension}, Ib (M)'.4.6,6.7 3.6.2.2 Material Specifications 3.6.2.3 Technical Data 3.6.2.4 installation Instructions 3.6.2.5 Ordering Information Ustinns/ADDrovals IMES (International Code Council) ESR -2196 COLA (City of Los Angeles) RR 25678 IMES ESR -2196, provides IBC rec- ognition of Hifti's Self -Drilling Screw fasteners for most common applica- tions (e.g. CFS connections, gypsum to CFS, etc.), including HWH, HHWH, PPH, PPFH, PBH, PWH, PTH, PPCH, TPCH and PFTH head style screws. Screw Nominal Thickness of steel member not in contact with the screw head, ga (n.) 20 18 16 14 12 10 Designation Diameter In. (0.036) (0.048) (0.060) (0.075) (0.105) (0.135) 06 0.138 1190 250 320 3951 555 715 (0.85) (1.11) (1.42) (1.76) (2.47) (3.18) #7 0.151 210 275 345 435 606 780 (0.93) (1.22) (1.53) (1.93) (2.69) (3.47) 08 0.164 225 300 375 470 660 845 (1.00) (1.33) (1.67) (2.09) (2.94) (3.76) 010 0.190 260 350 435 545 765 980 (1.16) (1.56) (1.93) (2.42) (3.40) (4.36) #12 0.216 295 395 495 620 870 1120 (1.31) (1.76) (2.20) (2.76) (3.87) (4.98) 1/4 in. 0.250 345 460 575 715 1000 1290 (1.53) (2.05) (2.58 (3.18) (4.45) 1 The lower of the ultimate pullout, pullover, and tension fastener strength of screw should be used for design. 2 Load values based upon calculations done In accordance with Swoon E4 of the AISI S100. 3 AISI S100 recommends a safety factor of 3.0 be applied for allowable strength design, a 41 factor of 0.5 be applied for LRFD design or ab factor of 0.4 be applied for LSD design. 4 ANSI/ASME standard screw diameters were used In the calculations and are listed In the tables. 5 The screw diameters in the table above are available In head styles of pan, flex washer, pancake, flat, wafer and bugle. 6 The load data In the table is based upon sheet steel with F. - 45 MI. For F" - 55 ksl steel, multiply values by 1.22. For F. a 65 ksi steel, muftiply values by 1.44. 7 Refer to Section 3.6.25 to ensure drilling capacities. Hilti, Inc. (US) I -SW -879•100 I www.ue.hlki.00m 1 an espanol 1.600-679-5000 t Hili (Canada) Corp. 1-800-363-4458 1 wwwAl ti ca I Direct Fastening Technical Guide 2015 161 Page 1gof 19 " /; a A-1 Uttimate Shear Strengths - Bearing (Shear), Ib (kN)1.2a.4.5ar Self -Drilling Screws 3.6.2 Screw Nominal Thickness of steel member in contact Thickness of steel member not in contact with the screw head, ga (in.) Designation Diameter with screw head in. 9a on.) 20 (0.036) 18 (0.048) 16 (0.060) 14 (0.075) i 12 (0.105) 20 (0.036) 500 (2.22) 660 (2.94) 660 (2.94) 660 (2.94) 660 (2.94) 07 0.151 18 (0.048) 500 (2.22) 660 (2.94) 880 (3.91) 880 (3.91) 880 (3.91) 2:16 (0.060) 500 (2.22) 660 (2.94) 890 (3.96) 890 (3.96) 890 (3.96) 20 (0.036) 525 (2.34) 715 (3.18) 715 (3.18) 715 (3.18) 715 (3.18) #8 0.164 18 (0.048) 525 (2.34) 805 (3.58) 955 (4.25) 955 (4.25) 955 (4.25) it 16 (0.060) 525 (2.34) 805 (3.58) 1120 (4.98) 1170 (5.20) 1170 (5.20) 20 (0.036) 565 (2.51) 830 (3.69) 830 (3.69) 830 (3.69) 830 (3.69) #10-12 0.190 18 (0.048) 565 (2.51) 865 (3.85) 1110 (4.94) 1110 (4.94) 1110 (4.94) 16 (0.060) 565 (2.51) 865 (3.85) 1210 (5.38) 1390 (6.18) 1390 (6.18) t 14 (0.075) 565 (2.51) 865 (3.85) 1210 (5.38) 1645 (7.32) 1645 (7.32) 20 (0.036) 565 (2.51) 830 (3.69) 830 (3.69) 830 (3.69) 830 (3.69) #10-16 0.190 18 (0.048) 565 (2.51) 865 (3.85) 1110 (4.94) 1110 (4.94) ilio (4.94) M 16 (0.060) 565 (2.51) 865 (3.85) 1210 (5.38) 1215 (5.40) 1215 (5.40) 20 (0.036) 565 (2.51) 830 (3.69) 830 (3.69) 830 (3.69) 830 (3.69) #10-18 0.190 18 (0.048) 565 (2.51) 865 (3.85) 1110 (4.94) 1110 (4.94) 1110 (4.94) 16 (0.060) 565 (2.51) 865 (3.85) 1210 (5.38) 1390 (6.18) 1390 (6.18) It 14 (0.075) 565 (2.51) 865 (3.85) 1210 (5.38) 1645 (7.32) 1645 (7.32) 20 (0.036) 600 (2.67) 9M (4.14) 945 (4.20) 945 (4.20) 945 (4.20) #12-14 0216 18 (0.048) 600 (2.67) 925 (4.11) 1260 (5.60) 1260 (5.60) 1260 (5.60) 16 (0.060) 600 (2.67) 925 (4.11) 1290 (5.74) 1570 (6.98) 1570 (6.98) t 14 (0.075) 600 (2.67) 925 (4.11) 1290 (5.74) 1800 (8.00) 1880 (8.36) 20 (0.036) 600 (2.67) 930 (4.14) 945 (4.20) 945 (4.20) 945 (4.20) 18 (0.048) 600 (2.67) 925 (4.11) 1260 (5.60) 1260 (5.60) 1260 (5.60) #12-24 0.216 16 (0.060) 600 (2.67) 925 (4.11) 1290 (5.74) 1570 (6.98) 1570 (6.98) 14 (0.075) 600 (2.67) 925 (4.11) 1290 (5.74) 18W (8.00) 1970 (8.76) 212(0.090) 600 (2.67) 925 (4.11) 1290 (5.74) 1600 (8.00) 2285 (10.16) 20 (0.036) 645 (2.87) 1020 (4.54) 1090 (4.85) 1090 (4.85) 1090 (4.85) 18 (0.048) 645 (2.87) 995 (4.43) 1400 (623) 1460 (6.49) 1460 (6.49) 1/4 in. 0250 16 (0.060) 645 (2.87) 995 (4.43) 1390 (6.18) 1820 (8.10) 1820 (8.10) 14 (0.075) 645 (2.87) 995 (4.43) 1390 (6.18) 1940 (8.63) 2280 (10.14) t 12 (0.090) 645 (2.87) 995 (4.43) 1390 (6.18) 1940 (8.63) 2440 (10.85) 1 The lower of the ultimate shear bearing and shear fastener strength of screw should be used for design. 2 Load values based upon calculations done In accordance with Section E4 of AISI S100. 3 AISI S100 recommends a safety factor of 3.0 be applied for allowable strength design, a m factor of 0.5 be applied for LRFD design or a 0 factor of 0.4 be applied for LSD design. 4 ANSVASME standard screw diameters were used in the calculations and are fisted in the tables. 5 Load values in table are for Hex Washer Head (HWH and HHWH), Phillips Pan Head (PPH), Phillips Truss Head (PTH), Phillips Pancake Head (PPCH), and Phillips Flat Truss Head (PF rH) We screws. Phillips Bugle Head (PSH) and Phillips Wafer Head (PWH) styles are not covered by this table because they are not Intended for attachment of steel to steel. 6 The bad date in the table Is based upon sheet steel with F. - 45 MI. For F. - 55 ksi steel, muttipy values by 122. For Fy 65 ksi steel, multiply values by 1.44. 7 Refer to Section 3.62.5 to ensure drilling capacities. 3.6.2.4 Installation Instructions For general discussion of HIM screw fastener installation, reference Section 3.6.1.7. For allowable diaphragm shear loads and stiffness values for steel roof or floor deck utilizing Hilti self -drilling screws as frame or sideiap fasteners, reference Section 3.5 and download Hilti's Profis DF software at www.us.hilti.com/ decking (US), or www.hilti.ca (Canada). To estimate the number of sidelap screws on a steel roof or floor deck project, reference Section 3.5.1.6. Warning: Because of the potential for delayed hydrogen assisted stress corrosion cracking, many hardened steel fasteners are not recommended for use with dissimilar metals or chemically treated wood when moisture may be present or in corrosive environments. For further information, contact Hilti Technical Support at 1-877-749-6337. Hilo, Inc. (US)1.M-879.8000 I www.us.hII11A om i en espanpl l -800-879-5000 1 H10 (Canada) Corp. 14800.383.4458 1 wwwhiltLes I Diect Fastening Technical Guide 2015 163 Page 1of 19 3 -11S KWI -CO'N 11+ Concrete and Masonry Screw 3.3.1:5.3 Technical data Table 11 - Tension and shear allowable loads in concrete 1.2 Nominal Non -Anal 2,000 psi f'F 4,000 osl �_ 0,000 Psi Teen show Tonsioll Shear anchor embedment Temiorn Shu dianneter lin. (nun) lb N" lb ice) Ib Imo! lb (IK) lb (W) Ib I rj 3J16 1 1100 260 125 260 185 280 750 1,150 44 .16 :70 0-1(11251 5 4.67 3116 13/4 - 2.75 260' 295 265 3251 300 11300 44 1.2 16 1,31 1.1 1.4 1.3 1/4 1 190 325 240 390 275 540 1,100 a C15 1.46 9.f 1.7 122 7.011 -- - - 1 /4 - 1-3J4 44 - - - 425 tLBif1 600 i2' - - - 622 5 - -- - 1 too 1 12.621 -- 650 112,8M -(2.40) - - - 800 (2,M 9 Screws irrdfaled lin hide§ deikd with Hilli TKO emUde bsa!;. 2 Allowable loans are based one safety factor of 4. Table 2 - Tension and shear ultimate loads In concrete' Nominal I Ailornma1 2000 psl f ", - 4,000 iasl I' 6,000 psi anchor eMbOdrelf n4 Tarlsion ShW Teen Shear Tension Shear diameter In. l {kftl) 6 (kN) b lb W lb W) Ib (ice 3J16 5 400 1,1150 500 1,050 750 1,150 1 25 :70 4.6 5 4.67 3N 5.4 3/16 13/4 1,1!00 1,050 1,180 1,070 11300 1,200 44 4,89 4,6 5- 4.7 .7 .345 1/4 1 760 1,300 870 1,576 1,100 2,175 5 38 .78 4.31 7.011 ,80 .66 114 13/4 1,700 2,250 2,500 i 2,400 2,600 2,400 44 .56 0. 11.11') (11A (11.6)---AI-O.-/)- 10:7) i Screws insla>ed in hates dMedvoith TKL bds. Tule S - Tension and shear allowable load(; In hallow block' - Nominal 140111*01 anchor embedment Tension Shur dimeler Int. (<fnm) Ib {kf4j lb 3/16 1 lu 5 3/16 b .6 1.05 3/16 13/44 '44 290 300 66) 1.28 ,33. 1 /4 1 165 27.5 5 .73 .22 1/4 1-3/4 310 400 1 f4 (1,38) 1138 1 All values for anchors frowlied In hollow concrete masonry with a rnin5murn pdam slrertoh of 1,500 psi. Canettle- block maybe 6gttweig if, rrgdiiunl- weirghl or normal -weight conforming to ASTM OW. 2 Screws insWed in hates dnn%d arith TKB bits. 3 Allowable loads calculated using a facsor of Way of 4. Table 4 - Tension and shear allowable loads In red brick''-: Nominal Non*w anchor embedt Tension Shear dlometer In. 0" lb *11j Ib (kM - --- - - ii i 25 23a - 3/16 5 .5 1.05 3/16 1-3/4 350 300 66) (11667)1 33 1 J4 1-- -- � -- 2055 ---4Y,� --- .91 .05 1/4 1-3/4 350 500 (11.56) 42.22) I This teat %vas performed on fndtvlduW sped irnems o4,A61M 062 conlrmn red Wick Me to the (Hide variations encounlered in the compressive slrength of brick. Uwe values should be considered guide vakW, 2 Allow;abte lords ane bated ants safety fWarof 4. The anchors are instadled a minfinten o! 1112 diarneers on center w th a mlin r utn edge distance of six diameters for 11911 percent anchor atficiamy. Spacing and edge distance may be reduced to six diameter spacing and three diameter edge distance, providing values are reduced 50 percent, Unear interpolation may ibe used for interrnle4ftte spacing and edge rmrgins. Combined shear and tension loading bas ) + ( Vd >i•0 3.3.15.4 Installation instructions Installation Instructions For Use (IFU) aro incWed with each product package. They can also be viewed or dlawrdoaded online at www.us.hilti.com (US) and w►w w.hilti,ca (Canada). Because of the possibii t~rj of charxgee, always, verify that downloaded IFU are current when used, Proper iinstallatkmi is critical to achieve full performance, Training is avaRable on request. Contact Hiiti Technical Services for applications and conditions not addressed in the IFU. 302 Httt, Inc (US) 1.908.13M@o o 1 www.rmM)Loom i 1 Hlb (tanndo Corp. I.BeU.3e3."58 I wwwNtd an I Anchor Fnstm nq TGehnlP&OO7 el9 E R , N P5500 1 41.3 i 2?f s" — # A 1 61.4 + 41 L � 3M L 29.0 2 2 PieTwd channels are found on (pages 60 and 61. Weight_ 247 Ltys/C Ft (368 kg/100 m) IP5501 Vileight., 494 Lbs/C Ft (735 kgf100 Im) MENEM ONE ■ENNEN ■t ■■ ■ENE MEN MEMOMMEMEM No�rMEMEME■ ■ MIME "����■ M�q ME ME ■ENNEN ■ 'Maximum alowaable uniform load. 24 36 48 60 72 84 96 108 120 132 144 156 168 180 192 204 216 228 240 SPAN On) Chanrret 'WeightAllowable 1'hic dal _ f,.en> Standard Flniahea - Other III Nlatsrlala L'bsiF1 11i Ind :N -m In mm 1W 20' PL GR NG PG - SS EA P5500 2.47 3.7 9.830 1110 .105 2.7 P55011 4.94 7.4 29,000 3280 .105 2.7 Nominal thickness of 12 gage strip steel is _105 inches.. Page 10 of 19 I/ B ! AM LOADING DATA Span Allowabl e Defi�l ain at fro rm Loa�diD �eflectlons Span/1180n' n� Channel uax. Iform Load UniformLoad Leat Lbs ikN In Mm Lbs kN Lbs kN Lbs kN In mm P65001 3280 14.6 0.04 1 3280 14.6 3280 14.6 3280 ' 14.6 24 610 P5501 4680* 20.8 0.01 0 4680' 20.8 4680* 20.8 4680* 20.8 P5500 2190 9.7 0.09 2 2190 9.7 2190 9.7 2190 91 36 914 IP5501 4680* 20.8 0.03 1 4680* 20.8 4680* 20.8 4680' 20.8 P5500 1640 7.3 0.15 4 1640 7.3 1640 7.3 1430 6.4 48 1219 P5501 4680* 20.8 0.08 2 4680* 20:8 4680* 20.8 4680' 20.8 P5500 1310 5.8 0.24 6 1310 5.8 1310 5.8 910 4:0 60 1524 P5501 3870 17.2 0.13 3 3870 172 3870 17.2 3870 17.2 P5500 1090 4:8 0.34 9 1090 4.8 950 4.2 630 2.8 72 1829 j P5501 3220 14.3 0.19 5 --- 3220 14.3 3220 14.3 3220 14.3 P5500' 940 4.2 0.47 12 930 4.1 700 3.1 470 ! 2.1 84 2134 P5501 2760 12.3 0.26 7 2760 12.3 2760 12.3 2510 11.2 P5500 820 3.6 0.61 16 710 32 540 2.4 360 1.6 96 2438 P5501 2420 10.8 0.34 9 2420 10.8 2420 10.8 1920 8.5 108 2743 P5500 730 3.2 0.78 20 560 2.5 420 1.9 280 1.2 P5501 2150 9.6 0.43 11 2150 9.6 2150 9.6 1520 6.8 P55001 660 2.9 0.96 24 460 2.0 340 1.5 230 1.0 120 3048 IP5501 1930 8.6 0.52 13 1930 8.6 1840 8.2 1230 5.5 P5500, 550 2..4 1.39 35 320 1.4 240 1.1 160 ' 0.7 144 3658 P5501 1610 7.2 0.75 19 1610 7.2 1280 5.7 - 850 3.8 P5500 470 2.1 1.88 48 230 1.0 170 0.8 120 0.5 168 4267 P5501 1380 6.1 1.03 26 1250 5.6 940 4.2 630 2.8 P5500 410 1.8 2.45 62 180 0.8 130 0:6 90 0.4 192 4877 P5501 1210 S.4 1.34 34 960 4.3 720 3.2 - 480 2.1 P5500 360 1.6 3.06 78 140 0.6 110 0.5 70 0.3 216 5486 P5501 1070 4.8 1.69 43 760 3.4 570 2.5 380 1.7 '5500 330 1.5 3.85 98 110 0.5 90 0.4 60 0.3 240 6096 P5501 970 4.3 2.11 53 610 1 2.7 460 2.0 310 1.4 *Load limited by spot weld shear. Notes: 1. ,Above loads Include the welght of the member. This weight must !be deducted to arrive at the net allowable load the (beam will support. 2- long .span beams should be supported In such a manner as to prevent rotation and Mist. 3. Allowable uniformly distributed loads are listed for various simple spans, that is. a beam on two supports_ If load is concentrated at the center of the span, muII4*y load from the fable by 0.5 and corresponding deflection by 0.8- 4- .&4_ See page 66 for lateral bracing load reduction charts. Page 1 I P2785 I:■■-■■■ n.■ ■1■■.■IMMI11■ ■ ('6T4) ® G 1111 ❑ �® (76.2) (85.7) ❑e0g❑ ❑oa❑ Da L11 1 ❑❑D 111U ODU11 m ❑ ❑Ce ®Pa®11011 00o0CIb❑®Elea ❑❑CD0oJ®C19C1❑❑aEge❑a000[ED ❑ Lia 0fle®P100CAP11 O❑LP2DDDE:P❑D700P❑DDDLPDDD1 ❑ P ❑DODEP ❑00'1 CP 01 ❑D❑a DD P D1 D1 ❑ ❑ ® ❑❑ ❑CIJ CIDC11ID Dg ❑ f P2824-6,-9,-12 P2786 Da❑0 EDB ❑ LEE (22.2) ■- Mr. ■ me. ■■.■■ ■■■ t■■ 111111 ■■ ■ ■■- III -.Illi■■all ODo❑DCe ❑®❑ea❑ D D❑ [b °md911 ❑0®0ge❑a11D ❑® ❑DaOIL, ®P1 DD1 EP1101 CP2001 D!PDOD1 CP❑DCODaOD PDa= ❑®92MOED1® Cg❑ D ❑e❑Dmb❑ 1®Oe(c❑Do❑a❑D ❑ Ll E1111 ❑o® Ile ❑.CALe© Part Number "A" WeighVC Design Load In mm Lbs kg Lbs kN P2824-6 21 [i ❑ ❑ ❑❑® ❑1 L2 ® 12 ❑ ❑= DOE) 22 P2824-9 C7 ® 09 1 E19 ® ❑22 ❑n 1 CO ❑❑® ❑1111 22 P2824-12 ❑' El d 2 21 ❑19 EIDD=1 1 ❑1 ❑❑11 1111❑ 2 [2 Page 19 of 19 0.0�10vsa om X16 Packaged Rooftop Air Conditioners Precedent"' — Cooling and Gas/Electric 3 to 10Tons - 60 Hz Mlb,&-0077 March 2016 RT PRCO23AL-EN 70 2 �,rra r o G �rv�S�pN 1p��prN RECEIVED CITY OF TUKWVILA MAY 10 2016 PERMIT CENTER (®R Ingersoll Rand Introduction Packaged Rooftop Air Conditioners Copyright Trademarks Trane customers demand products that provide exceptional reliability, meet stringent performance requirements, and are competitively priced.Trane delivers with PrecedentT11 Precedent features cutting edge technologies: reliable compressors, Trane engineered ReliaTel controls, computer-aided run testing, and Integrated ComfortTl Systems. So, whether you're the contractor, the engineer, or the owner you can be certain Precedent products are built to meet your needs. Through the years, Trane has designed and developed the most complete line of Packaged Rooftop products available in the market today. Trane was the first to introduce the Micro—microelectronic unit controls—and has continued to improve and revolutionize this design concept. Electromechanical controls are available for simpler applications, and for the more sophisticated, ReliaTelT"^ microprocessor controls. The ReliaTelTI control platform offers the same great features and functionality as the original Micro, with additional benefits for greater application flexibility. With its sleek, compact cabinet, Precedent continues to provide the highest standards in quality and reliability, comfort, ease of service, and the performance of Trane light commercial products. This document and the information in it are the property of Trane, and may not be used or reproduced in whole or in part without written permission. Trane reserves the right to revise this publication at any time, and to make changes to its content without obligation to notify any person of such revision or change. All trademarks referenced in this document are the trademarks of their respective owners. Revision History • AddedTrane®Air--Fill Wireless Communication Interface • General data, 3 to 5 tons, standard efficiency updates • General data, 6 to 71/2 tons, high efficiency updates • Electrical data updates • Mechanical specs, indoor fan update © 2016 Ingersoll Rand All rights reserved RT-PRCO23AL-EN 0 rRwE• Table of Contents Packaged Rooftop Air Conditioners ................................... 2 Features and Benefits ................................................... 4 Standard Features ................................................. 4 Options........................................................... 5 Other Benefits ..................................................... 6 Standard Features.................................................7 Variety of Options .................................................10 Factory Installed Options ...................................... 10 Factory or Field Installed Options ............................... 13 Field Installed Options ........................................ 15 Other Benefits.....................................................16 Application Considerations ............................................. 19 Selection Procedure ................................................... 21 Cooling Capacity ............................................. 21 Heating Capacity ............................................. 22 Air Delivery Selection ......................................... 22 Dehumidification Selection .................................... 23 Model Number Description ............................................. 25 Model Number Notes ......................................... 26 GeneralData.......................................................... 28 PerformanceData ..................................................... 44 Direct Drive - Evaporator Fan Performance ............................... 83 Evaporator Fan Performance ........................................... 89 Fan Performance .....................................................169 Controls.............................................................181 ReliaTelTM Controlled Units ................................... 181 Electrical Data ........................................................184 Jobsite Connections .................................................. 196 Dimensional Data.....................................................197 Weights............................................................. 214 Mechanical Specifications ............................................. 217 Factory Installed Options ..................................... 219 Factory or Field Installed Options .............................. 222 Field Installed Options ....................................... 223 RT-PRCO2ML-EN 3 Features and Benefits Standard Features • 5 -year Limited Compressor Warranty • 5 -year Limited Heat Exchanger Warranty • 1 -year Limited Parts Warranty • Anti -Short CycleTimer (Standard with ReliaTell"^ ) • Colored and Numbered Wiring • Convertible Airflow • Crankcase Heatersi • Direct Drive Plenum Fane • Easy Access Low Voltage TerminaI Board (LTB) • Electromechanical or ReliaTel Microprocessor Controls • Filters are Standard on all Units • Foil -Faced and Edge Captured Insulation • High Pressure Control • IAQ Dual Sloped, Plastic, Removable, Reversible Drain Pan • Liquid Line Refrigerant Drier • Low Ambient Cooling to 0°F on Microprocessor Models • Low Ambient Cooling to 40°F on Electromechanical Models • Low Pressure Control • Microchannel Coils3 • Multispeed Direct Drive Motors • Operating Charge of R -410A • Plastic Drain Pan • Patent -Pending Hybrid Condenser Coil for easy cleaning • Phase Loss Protection • Phase Monitor • Phase Reversal Protection • Phase Balance Protection • ProgressiveTubular Aluminized Steel Heat Exchanger • Provisions forThrough-the-Base Gas and Condensate Drain Connections • Quick Access Panels • Quick Adjust Fan Motor Mounting Plate • Single Point Power • Single Side Service • Standardized Components • Thermal Expansion Valve Crankcase heaters are optional on (TN)SC (033, 036, 043, 048, 060, 063, 072, 090, 102, 120); standard on (T/Y)HC (036, 048, 060, 072, 074, 092, 102, 120) 2 Standard on: (TN)SC120F, (T/Y)HC074, 092,102F, (T/Y)HC120F 3 The microchanneltype condenser coil isstandard for TNSC(072,090,092,102,120)F,TNHC(048,060,072,074,092,102,120)Fand (TN)SC (033,036,043,048,060,063)G models. 4 RT PRCO23AL-EN Optionsi Features and Benefits • Trane built Scroll Compressors Factory Installed Options • Air-FiTI Wireless Communication Interface • Belt Drive Motors2 (Three-phase) • Black Epoxy Pre -Coated Coils3 • CO2 Sensor (wiring only) • CompleteCoatT"" Condenser Coil • Condensate Overflow Switch • Crankcase Heaters • Dehumidification Option • Fault Detection & Diagnostics (FDD); Meets CATitle 24 Requirements • Hinged Access Doors • Human Interface - 5 inch ColorTouchscreen • Multiple Zone VAV (Variable Air Volume) • Novar Return Air Sensor • Novar Unit Controls • Powered or Unpowered Convenience Outlet • Single Zone Variable Air Volume (SZVAV) • Stainless Steel Drain Pan • Stainless Steel Heat Exchanger with 10 -year warranty • Supply, Return or Plenum Air Smoke Detector • Through -the -Base Electrical Access • Multi -Speed Indoor Fan System • Through -the -Base Electrical with Circuit Breaker • Through -the -Base Electrical with Disconnect Switch • 2" MERV 8 Filters or 2" MERV 13 Filters with Filter Removal Tool Factory or Field Installed Options • Barometric Relief • Clogged Filter/Fan Failure Switch • Demand Control Ventilation • Discharge AirTemperature Sensing Kit • Economizer: Standard and Low Leak • Electric Heaters • Frostat"I • LonTalk® Communications Interface (LCI) Refer to model number description for option availability. 2 Option on 3 to 5 ton high efficiency units 3 Not available on microchannel coils. RT-PRCO23AL-EN 5 Features and Benefits • BACnetO Communications Interface (BCI) • Reference or Comparative Enthalpy • Tool -less Hail Guards • Trane Communications Interface (TCI) Field Installed Options • CO2 Sensors • DualThermistor Remote Zone Sensor • Economizer: Low Leak • High Altitude Kit • High Static Drive • Humidity Sensor/Humidistat • LP Conversion Kit • Manual Outside Air Damper • Motorized Outside Air Dampers • Powered Exhaust • Quick Adapt Curbs • Quick Start Kit • Remote Potentiometer • Roof Curb • Thermostat • Ventilation Override Accessory • Wireless Zone Sensor • Zone Sensor Other Benefits • Cabinet design ensures water integrity • Ease of Service, Installation and Maintenance • Mixed model build enables "fastest in the industry" ship cycle times • Outstanding Airflow Distribution • ReliaTell" Controls • Unmatched Product Support is one of our finest assets. Trane Sales Representatives are a Support Group that can assist you with: • Product • Application • Service • Training • Special Applications • Specifications • Computer Programs and much more CO2 sensor always field installed; associated with demand control ventilation 6 RT-PRCO23AL-EN Features and Benefits Standard Features Anti -Short CycleTimer (Standard with ReliaTel) Provides a 3 minute minimum "ON" time and 3 minute "OFF" time for compressors to enhance compressor reliability by assuring proper oil return. Direct Drive Motors For additional static requirements, single-phase units offer multi -speed, direct drive motors. All 10 ton units and 6 to 81/2 ton high efficiency units offer variable speed direct drive motors. Colored And Numbered Wiring Save time and money tracing wires and diagnosing the unit. Compressors Precedent contains the r best compressor technology available to achieve the highest possible performance. Dual compressors are outstanding for humidity control, light load cooling 61 conditions and system back-up applications. Dual compressors are available on 6 to 10 ton models and allow for efficient cooling utilizing 3 -stages of compressor operation (high efficiency models only). Microchannel Coil Condenser Coil Precedent" boasts a patent -pending 1+1+1 condenser coil, permanently gapped for easy cleaning. Due to flat streamlined tubes with small ports, and metallurgical tube -to -fin bond, the microchannel coil has better heat transfer performance.The microchannel coil can reduce system refrigerant charge by up to 50% because of smaller internal volume, which leads to better compressor reliability. Compact all -aluminum microchannel coils also help to reduce the unit weight. These all aluminum coils are recyclable. Galvanic corrosion is also minimized due to all aluminum construction. Strong aluminum brazed structure provides better fin protection. In addition, flat streamlined tubes also make microchannel coils more dust resistant and easier to clean. Controls - ReliaTell" or Electromechanical ReliaTel TM microprocessor controls provide unit control for heating, cooling and ventilating utilizing inputfrom sensors that measure indoor and outdoor temperature and otherzone sensors. ReliaTel also provides outputs for building automation systems and expanded diagnostics. For a complete list of ReliaTelT"^ offerings, refer to the "Other Benefits" section within the Features and Benefits section of this catalog. For the simpler job that does not require a building automation system, or expanded diagnostics capabilities, Precedent"' offers electromechanical controls. This 24 -volt control includes the control transformer and contactor pressure lugs for power wiring. RT-PRCO23AL-EN Features and Benefits Convertible Units Cooling Standard or high efficiency cooling available. Crankcase Heatersi The units ship in a downflow configuration. They can be easily converted to horizontal by simply moving two panels. Units come complete with horizontal duct flanges so the contractor doesn't have to field fabricate them.These duct flanges are a time and cost saver. These band heaters provide improved compressor reliability by warming the oil to prevent migration during off -cycles or low ambient conditions. Easy Access Low Voltage Terminal Board M $ Precedent's low voltage AJ terminal board is external to the electrical control ' cabinet. It is extreme) s y M easy to locate and attach the thermostat wire and test operation of all unit fps,' functions.This is another x a=. cost and time saving installation feature. Heat Exchanger Foil Faced Insulation All panels in the evaporator section of the unit have cleanable foil -faced insulation. All edges are either captured or sealed to ensure no insulation fibers get into the airstream. The compact cabinet features a progressive tubular heat exchanger in low, medium and high heat capacities. The heat exchanger is fabricated using stainless steel burners and corrosion -resistant aluminized steel tubes as standard on all models. It has an induced draft blower to pull the gas mixture through the burner tubes. The heater has a direct spark ignition system which doubles as a safety device to prove the flame. High Pressure Control All units include high pressure control as standard. Every PrecedentT"^ unit has a plastic, removable, dual -sloped drain panthat's easyto clean and reversible to allow installation of drain trap on either side of the unit. Crankcase heaters are optional on (TN)SC (033, 0643, 063, 036, 048, 060, 072, 090,102,120); standard on (T/Y)HC (036, 048, 060, 072, 074, 092, 102, 120) RT PRCO23AL-EN Features and Benefits Variety of Options Factory Installed Optionsi Trane® Air-Fil Wireless Trane@Air-FiT"" wireless communication is a reliable, flexible solution that frees you from the hassles associated with wired components for your building controls system. With Air-FiTM wireless, you get easy problem solving, efficient performance, and cost savings over the life of the equipment. Belt Drive Motors (Three-phase) For additional static requirements, PrecedentT" 3 to 5 tons, high efficiency (15 SEER) units offer an optional belt drive motor to meet a wide range of airflow needs. Black Epoxy Pre -Coated Coils2 The pre -coated coils are an economical option for protection in mildly corrosive environments. CO2 Sensor Wiring, This unit wiring for field installed CO2 sensors. Factory -installed CO2 sensor wiring saves time and ensures proper unit connections for the field installed CO2 sensor kits. Comp leteCoatT"" Condenser Coil These coils provide excellent corrosion resistance as well as uniformity of coverage and coating thickness.This option is available for both fin -tube and microchannel condenser coils. Condensate Overflow Switch A condensate overflow switch is available to shut the unit down in the event that the condensate drain line becomes clogged.This option protects the unit from water overflowing from the drain pan and entering the base of the units. Fault Detection & Diagnostics (FDD) This offering meets the mandatory requirement of CATitle 24 of fully configurable diagnostics allowing fault history and reading fault codes at the unit. This option provides detection of the following faults: Air temperature sensor failure/fault and notification of acceptable economizer mode.The FDD system shall be certified by the Energy Commission as meeting the requirements. High Efficiency Filtration Precedent units offer a variety of high efficiency filtration options. MERV 8 and MERV 13 filters provide additional filtration beyond the capabilities of typical 2" throwaway filters. Also, when MERV 8 or MERV 13 filters are ordered, units come equipped with a filter removal tool. Novar Unit Controls Novar 3051 and 2024 are available for PrecedentIm gas and electric heat models. Refer to Model Number Description for option availability. 2 Not available on microchannel condenser coils. 10 RT-PRCO23AL-EN Dehumidification (Hot Gas Reheat) Option Human Interface - 5 Inch Color Touchscreen Features and Benefits This option allows for increased outdoor air ventilation. It reduces humidity levels while increasing comfort level in the air space. Cooling can operate without a demand for dehumidification.The hot gas reheat coil is designed to deliver maximum reheat temperatures. The 5 inch ColorTouchscreen Human Interface provides an intuitive user interface to the rooftop unit that speeds up unit commissioning, shortens unit troubleshooting times, and enhances preventative maintenance measures.The human interface includes several features. • Data trending capabilities by means of time series graphs • Historical alarm messages • Real-time sensor measurements • On board system setpoints • USB port that enables the downloading of component runtime information as well as trended historical sensor data • Customized reports Note: Refer to RT-SVX49*-EN for additional information. Disconnect Switch (Available on units equipped with Through -the -Base Electrical) Factory installed 3 -pole, molded case, disconnect switch for through -the -base electrical connections. Codes require a method of assured unit shutdown for servicing. Field -installed disconnects sometimes interfere with service access. Factory installation of unit disconnects reduces costs, assures proper mounting and provides the opportunity to upgrade to unit circuit breaker protection. Circuit Breaker (Available on units equipped with Through -the -Base Electrical) This option is a factory installed thermal magnetic, molded case, HACK circuit breakerwith provisions for through -the -base electrical connections. RT-PRCO23AL-EN Hinged Access Doors These doors permit easy access to the filter, fan/heat and compressor/control sections.They reduce the potential roof damage from screws or sharp access door corners. 11 Features and Benefits Multi -Speed Indoor Fan System Multi -speed indoor fan system is designed for use in applications for meeting the minimum requirement of CATitle 24. This system incorporates a multi -speed fan control to change the speed of the fan to 66% of full airflow based off of compressor stages. Multiple -Zone VAV Control A multiple -zone VAV (MZVAV) system consists of a packaged rooftop unit that serves several individually controlled zones. Each zone is equipped with a VAV terminal unit that varies the quantity of air delivered to maintain the desired temperature in that zone.The rooftop unit controller varies the speed of the indoor fan to maintain the static pressure in the supply ductwork at a setpoint, ensuring that all zones receive the necessary quantity of air. In addition, cooling capacity is cycled to maintain the supply air temperature at the desired setpoint. For decades,Trane has been an industry leader in rooftop VAV systems. Now, multiple -zone VAV control is available in the light commercial rooftop platform (3-25 tons). Powered or Unpowered Convenience Outlet This option is a GFCI, 120V/15amp, 2 plug, convenience outlet, either powered or unpowered.This option can only be ordered when through -the -base electrical with eitherthe disconnect switch or circuit breaker option is ordered. z Note: Not available on 575V units. a Note: Not available on 3 to 5 ton high efficiency units with ,. direct drive indoor motor. Single Zone VAV - One Zone Variable Air Volume Mode Single zone VAV is designed for use in single zone applications like gymnasiums, auditoriums, manufacturing facilities, retail box stores, and any large open spaces, where there is a lot of diversity in the load profile. Single Zone VAV (SZVAV) is an ideal replacement to "yesterday's" constant volume (CV) systems, by reducing operating costs while improving occupant comfort. SZVAV systems combineTrane application, control and system integration knowledge to exactly match fan speed with cooling and heating loads, regardless of the operating condition.Trane algorithms meet/exceed ASHRAE 90.1- 2010 SZVAV energy-saving recommendations, and those of CATitle 24.The result is an optimized balance between zone temperature control and system energy savings. Depending on your specific application, energy savings can be as much as 20+%. Note: Building system modeling in energy simulation software like TRACE is recommended to evaluate performance improvements for your application. SZVAV is fully integrated into the ReliaTell" control system and is available today. It provides the simplest and fastest commissioning in the industry through proven factory -installed, wired, and tested system controllers. All control modules, logic and sensors are factory installed, and tested to assure the highest quality and most reliable system available.This means no special programming of algorithms, or hunting at the jobsite for sensors, boards, etc. that need to be installed in the field. Single zone VAV is a quick and simple solution for many applications and is available from your most trusted rooftop VAV system solution provider -Trane. Stainless Steel Drain Pan For excellent corrosion and oxidation resistance, the optional stainless steel drain pan provides a cleanable surface that complement other IAQ solutions such as high efficiency filtration (MERV 8 or 13), demand control ventilation (CO2), and hot gas reheat. 12 RT-PRCO23AL-EN Features and Benefits Stainless Steel Heat Exchanger The optional stainless steel heat exchanger is constructed of 409 stainless steel. It is resistant to corrosion and oxidation and easy to clean.The high strength to weight ratio allows for high ventilation rates with gas units. It is an excellent option to complimentthe dehumidification option as a high outside air ventilation unit. With this option, a 10 -year stainless steel heat exchanger warranty is standard. Supply, Return, and Plenum Air Smoke Detector _ With this option installed, if smoke is detected, all unit operation will be shut down. Reset will be manual at the unit. In order for the supply air smoke detector or return air smoke detector to properly sense smoke in the supply air stream or the return air stream, the air velocity ' entering the smoke detector unit must be between 500 - 4000 feet per minute. Equipment covered in this manual will develop an airflow velocity that falls within these limits over the entire airflow range specified in the evaporator fan performance table. Supply and/or return smoke detectors may not be used with the plenum smoke detector. Through -the -Base Electrical Utility Access An electrical service entrance shall be provided allowing electrical access for both control and main power connections inside the curb and through -the -base of the unit. Option will allow for field installation of liquid -tight conduit and an external field installed disconnect switch. Factory or Field Installed Options Barometric Relief Factory provided through -the -base openings simplify wiring and piping. Because these utility openings frequently minimize the number of roof penetrations, the integrity of roofing materials is enhanced. Designed to be used on downflow units, barometric relief is an unpowered means of relieving excess building pressure. Clogged Filter/Fan Failure Switch A dedicated differential pressure switch is available to achieve active fan failure indication and/or clogged filter indication. These sensors allow a zone sensor service light or Integrated Comfort System to indicate a dirty filter or a fan that's not working.The field installation charges for these valuable feedback devices often eliminate them from consideration. Factory installation can make such features a good investment. 1 Refer to Model Number Description for option availability. RT-PRCO23AL-EN 13 Features and Benefits Discharge AirTemperature Sensing Kit Provides true discharge air temperature sensing in heating models.The kit is functional only with the ReliaTelTM options module. Economizer (Standard) This accessory shall be available with or without barometric relief.The assembly includes fully modulating 0-100 percent motor and dampers, minimum position setting, preset linkage, wiring harness with plug, spring return actuator and fixed dry bulb control.The barometric relief shall provide a pressure operated damper that shall be gravity closing and shall prohibit entrance of outside air during the equipment "off" cycle. Optional solid state or differential enthalpy control shall be available for either factory or field installation. The economizer arrives in the shipping position and shall be moved to the operating position by the installing contractor. Electric Heaters Electric heat modules are available within the basic unit. If ordering the through -the -base electrical option with an electrical heater, the heater must be factory installed. Fresh Air Options - Dampers and Economizer 0 - 25% manual or 0 - 50% motorized outside air hoods are available. Economizers are equipped with either dry bulb or reference or comparative enthalpy sensing. These economizers provide free cooling as the outdoor temperature and/or humidity decreases. Correctly installed, they offer a valuable energy savings. Factory -installed economizers save time and ensure proper installation. Low Leak Economizer This accessory meets low leak requirements for ASHRAE 90.1, IECC, and CATitle 24 standards (3 cfm/ftA2@1" wg exterior air, 4 cfm/ftA2@1" wg return air).This option allows 100% outdoor air supply from 0-100% modulating dampers and is standard with barometric relief. It can be paired with powered exhaust for additional building pressure relief. This option can be paired with or without fault detection & diagnostics (FDD) to meet current mandatory CATitle 24 requirements. Available on downflow units only. The economizers come with three control options, dry bulb and reference or comparative enthalpy (optional). Frostat' This capillary bulb embedded in the face of the evaporator coil or thermostat on the suction line monitorscoil temperatureto prevent evaporator icing and protectthe compressor. Recommended for applications with low leaving air temperatures, low airflow and or high latent load applications. Frostat'" is standard on all single -zone VAV and multiple -zone VAV models andT/YSC033 to 063G electromechanical control units. LonTalk@ Communications Interface The LonTalk@ communications interface allows the unitto communicate as aTracer@ LCI -V device or directly with the generic LonTalk Network Building Automation System Controls. BACnet@ Communications Interface The BACnet@ communications interface allows the unit to communicate directly with a generic open protocol BACnet@ MS/TP Network Building Automation System Controls. Reference or Comparative Enthalpy Measures and communicates humidity while maximizing comfort control. 14 RT-PRCO23AL-EN Features and Benefits Trane Communication Interface (TCI) Available factory or field installed. This module when applied with the ReliaTelT"' easily interfaces withTrane's Integrated ComfortT"^ System. Tool -less Hail Guards Field Installed Optionsi Tool -less, hail protection quality coil guards shall be either factory or field -installed for condenser coil protection.This option protects the condenser coil from vandalism and/or hail damage. CO2 Sensor - Demand Control Ventilation (DCV) Demand -controlled ventilation (DCV) is a control strategy that responds to the actual demand (need) for ventilation by regulating the rate at which the HVAC system brings outdoor air into the building.A CO2 sensor measures the concentration (parts per million, ppm) of CO2 (carbon dioxide) in the air. As the CO2 concentration changes, the outside air damper modulates to meet the current ventilation needs of the zone.The CO2 sensor kit is available as a field installed accessory.Two field installed kits are offered; CO2 sensor and wiring or CO2 sensor only.The CO2 Sensor only kit should be ordered with factory installed CO2 sensor wiring. Factory installed CO2 sensor wiring saves set- up time and ensures proper unit connections for the CO2 sensor. High Altitude Kit Recommended for units applied above 2000 feet, domestic contractors should consult with local authority on best practice. High altitude kits contain gas orifices that Berate the gas input rate (Btuh/ r) by 10%. High Static Drive Available on many models, this high static drive accessory extends the capability of the standard motor. Avoid expensive motors and operating costs by installing this optimized sheave accessory. Humidity Sensor/Humidistat The humidity sensor/humidistat, when used in conjunction with our dehumidification (hot gas reheat) units will provide outstanding humidity control and comfort. Humidity sensors can be wall or duct mounted.The humidity deadband can be set between 40% and 60% relative humidity. Low Leak Economizer This accessory meets low leak requirements for ASHRAE 90.1, IECC, and CATitle 24 standards (3 cfm/ftA2@1" wg exterior air, 4 cfm/ftA2@1" wg return air).This option allows 100% outdoor air supply from 0-100% modulating dampers and is standard with barometric relief. It can be paired with powered exhaust for additional building pressure relief. Available on downflow units only. LP Conversion Kit Provided for field conversion of gas/electric units from natural gas to propane. Quick Adapt Curbs Enables easy conversion of existing Voyager"' 3 to 10 ton units to Precedent" units on replacement jobs. 1 Refer to Model Number Description for option availability. RT-PRCO23AL-EN 15 Features and Benefits Quick Start Kits Single phase equipment to enable startup and prevent building lighting dimming during low voltage. Roof Curbs Available for downflow units. Only three roof curbs for the entire line simplifies curb selection. Remote Potentiometer When properly installed in the economizer control circuitry, this accessory provides a remote variable resistance to enable the operator to adjust the minimum damper position. Ventilation Override Accessory With the ventilation override accessory installed, the unit can be set to transition to up to 3 different pre-programmed sequences for smoke purge, pressurization, and exhaust.The transition occurs when a binary input on the RTOM is closed (shorted).This would typically be a hard wired relay output from a smoke detector orfire control panel.The ventilation override kit is available as a field installed accessory. Zone Sensors/Thermostats Available in programmable, automatic and manual styles. Other Benefits Easy to Install, Service and Maintain Because today's owners are very cost-conscious when it comes to service and maintenance, the PrecedentTM was designed with direct input from service contractors. This valuable information helped to design a product that would get the service person off the job quicker and save the owner money. PrecedentIm offers outstanding standard features enhanced by a variety of factory and field installed options, multiple control options, rigorously tested proven designs and superior product and technical support. Airflow Distribution Airflow is outstanding. PrecedentTM can replace an older machine with old ductwork and, in many cases, improve the comfort through better air distribution. Cabinet Integrity For added water integrity, Precedent" has a raised 1 1/8" lip around the supply and return of the downflow units to prevent water from blowing into the ductwork. Flexibility Precedent offers ultimate flexibility. Units are built to order in our standard "shortest in the industry" ship cycle time. 16 RT-PRCO23AL-EN ReliaTell Controls ReliaTel T"° controls provide unit control for heating, cooling and ventilating utilizing input from sensors that measure outdoor and indoor temperature. ReliaTel T"^ control logic enhances quality and reliability — prevents the unit from short cycling, considerably improving compressor life. Features and Benefits — ensures that the compressor will run for a specific amount of time which allows oil to return for better lubrication, enhancing the reliability of the compressor. _ PrecedentT"^ units with ReliaTelTI reduces the number ofcomponents re uiredtoo eratetheunit, ReliaTel thereby reducing possibilities for component failure. ReliaTel r' Makes Installing and Servicing Easy ReliaTelT"^ eliminates the need for field installed anti-shortcycle timer and time delay relays. ReliaTel controls provide these functions as an integral part of the unit.The contractor no longer has to purchase these controls as options and pay to install them. The wiring of the low voltage connections to the unit and the zone sensors is as easy as 1-1, 2-2, and 3-3.This simplified system makes wiring easier for the installer. ReliaTel I Makes Testing Easy ReliaTeIT"^ requires no special tools to run the PrecedentTl unit through its paces. Simply place a jumper betweenTest 1 andTest 2 terminals on the low voltage terminal board and the unit will walk through its operational steps automatically. The unit automatically returns control to the zone sensor after stepping through the test mode a single time, even if the jumper is left on the unit. As long as the unit has power and the "system on" LED is lit, ReliaTelT°" is operational.The light indicates that the controls are functioning properly. ReliaTel features expanded diagnostic capabilities when utilized withTrane Integrated ComfortT`" Systems. Some zone sensor options have central control panel lights which indicate the mode the unit is in and possible diagnostic information (dirty filters for example). Other ReliaTel I Benefits The ReliaTelT"^ built-in anti-shortcycle timer, time delay relay and minimum "on" time control functions are factory tested to assure proper operation. ReliaTelTI softens electrical "spikes" by staging on fans, compressors and heaters. Intelligent fallback is a benefit to the building occupant. If a component fails, the unit will continue to operate at predetermined temperature setpoint. Intelligent anticipation is a standard ReliaTel T"" feature. It functions continuously as ReliaTelT"" and zone sensor(s) work together in harmony to provide much tighter comfort control than conventional electro -mechanical thermostats. The same ReliaTeIT' board fits all packaged gas/electric and cooling with electric heat models.This provides standardization of partsfor contractors. Less money istied up in inventorywith ReliaTel TM RT-PRCO23AL-EN 17 Features and Benefits Unit Cabinet The compact cabinet with rounded corners takes up less room.The beveled and ribbed top is aesthetically pleasing and designed to prevent water from pooling. VariTrac® — Changeover -Bypass System A changeover -bypass system consists of a packaged rooftop unit that serves several individually controlled zones. Each zone is equipped with a damper that varies the quantity of air delivered to maintain the desired temperature in thatzone. However, unlike a conventional multiple -zone system, the fan inside the rooftop unit operates at a constant speed. Any unneeded air is diverted to the return air stream through a bypass damper. The term "changeover" refers to how this system handles the cooling and heating requirements of the building.The central rooftop unit can provide either cooled or heated air, and it makes this decision by periodically "polling" the zones. Note: VariTracO is for Precedent' units with constant -speed indoor fan control. It is not for use with multiple -speed indoor fan control, single -zone VAV control, or multiple -zone VAV control. RigorousTesting All of Precedent's designs were rigorously rain tested at the factory to ensure water integrity. Actual shipping tests were performed to determine packaging requirements. Units were test shipped around the country to determine the best packaging design. Factory shake and drop tests were used as part of the package design process to help assure that the unit arrives at the job site in top condition. Rigging tests include lifting a unit into the air and letting it drop one foot, assuring that the lifting lugs and rails hold up under stress. We perform a 100% coil leak test at the factory.The evaporator and condenser coils are leak tested at 600 psig.The assembled unit is leak tested to 465 psig. All parts are inspected atthe point of final assembly. Sub -standard parts are identified and rejected immediately. Every unit receives a 100% unit run test before leaving the production line to make sure it meets rigorous Trane requirements. 18 RT-PRCO23AL-EN Application Considerations Heating Operation The heat exchanger is manufactured with aluminized steel.To prevent condensation within the heat exchanger, do not exceed 50% outside air or a minimum mixed air temperature of 40°F. Low Airflow Operation Units equipped electric heat or staged gas heat may not be selected for supply airflow less than 320 cfm/ton. Cooling -only units can be used in applications designed for supply airflow below 320 cfm/ton.The units must be high -efficiency models with dehumidification (hot gas reheat) or be equipped with aTXV, FrostatT"^, and crankcase heaters. Units selected with multiple -speed indoor fan control, single -zone VAV control, or multiple -zone VAV control are capable of operating at supply airflows below 320 cfm/ton at part -load conditions, but design (or "full") airflow must be set to 320 cfm/ton or higher. Low Ambient Cooling The PrecedentTl line features, withReliaTelT"° microprocessor controls, low ambient cooling down to 0°F. With electromechanical controls, Precedent features low ambient cooling to 40°F.The following features or options need to be included/considered when low ambient applications are required: continuous fan operation, crankcase heaters, thermal expansion valves, FrostatT"" . Contact a local Trane representative for more assistance with low ambient cooling applications. Optional Stainless Steel Heat Exchanger The optional stainless steel heat exchanger is manufactured with 409 stainless steel.To prevent corrosion and prolong heat exchanger reliability, the minimum mixed air temperature allowed across the heat exchanger is 20°F. The stainless steel heat exchanger option is an excellent option that compliments the dehumidification package. Whenever high outside air or outside applications exist, these options should be utilized. VariTrac® VariTrac is for PrecedentTl units with constant -speed indoor fan control. It is not for use with Multiple -speed indoor fan control, single -zone VAV control, or multiple -zone VAV control. Unit Pitch The unit has a reversible sloped condensate drain pans.The unit must be installed level. Any unit slope must be toward the side of unit where condensate drain is connected. 20 RT-PRCO23AL-EN 10 7XIME' Selection Procedure Cooling Capacity Note: Cooling Capacity Procedure is the same for electric heat (T*C) and gas heat (Y*C). Step 1. Calculate the building's total and sensible cooling loads at design conditions. Use the Trane calculation methods or any other standard accepted method. Factors used in unit selection: • Packaged Cooling with Optional Electric Heat • Total Cooling Load: 57 MBh • Sensible Cooling Load: 40 MBh • Airflow: 2000 cfm • Electrical Characteristics: 460/60/3 • Summer Design Conditions: Entering Evaporator Coil: 80°F DB/67°F WB • Outdoor Ambient: 95°F • External Static Pressure: 0.34 in. wg • Downflow Configuration • Efficiency: 14 SEER • Economizer Step 2. As a starting point, a rough determination must be made of the size of the unit.The final selection will be made afterexamining the performance atthe given conditions. Dividethetotal cooling load by nominal Btuh per ton (12 MBh per ton); then round up to the nearest unit size. 59 MBh / 12 MBh = approx. 5 tons Step 3. Table 14, p. 49 shows that aTSC060G4 has a gross cooling capacity of 60.1 MBh and 49.4 MBh sensible capacity at 2000 cfm and 95°F DB outdoor ambient with 80°F DB, 67°FWB air entering the evaporator. To Find Capacity at Intermediate Conditions not in the table. When the design conditions are between two numbers that are in the capacity table, interpolation is required to approximate the capacity. Note: Extrapolation outside of the table conditions is not recommended. Step 4. In orderto selectthe correct unit which meetsthe building's requirements, the fan motor heat must be deducted from the gross cooling capacity.The amount of heat that the fan motor generates is dependent on the effort by the motor - cfm and static pressure.To determine the total unit static pressure: External Static Duct System 0.34 wg Standard Filter 2 in. from 0.049 wg Table 127, p. 172 Economizer from Table 128, P. 173 (100% Outside Air) 0.105 wg *worst case Electric Heater Size 6 kW 0.021 wg from Table 128, p. 173 (reference "Heating Capacity" section on this pagefor determination of heater size) Total Static Pressure 0.535 wg Note: The evaporator fan performance Table 34,. p. 83 has deducted the pressure drop for a filter already in the unit (see note below Table 34, p. 83). Therefore, the actual total static pressure is 0.515-0.049 (from Table 133, p. 178) = 0.466 wg. RT-PRCO23AL-EN 21 Selection Procedure With 2000 cfm and 0.47 wg. Table 34, p. 83 shows 0.58 bhp for this unit. Note: Below the table is the formula to calculate Fan Motor Heat 2.87 x bhp + 0.15 = MBh 2.87x0.575+0.15=1.8MBh Now subtract the fan motor heat from the gross cooling capacity of the unit: NetTotal Cooling Capacity =60 MBh-1.8=58.2 MBh Net Sensible Cooling Capacity = 49 MBh - 1.8= 47.2 MBh Subtracting Sensible from Total Capacity to find Latent Capacity Net Latent Capacity =60.5-46.3=11 MBh Step 5. Compare your resulting capacities to the building load. If the performance will not meet the required load of the building's total or sensible cooling load, try a selection at the next higher size unit. Heating Capacity Note: Heating capacity procedure DIFFERS for electric heat (T*C) and gas heat (Y*C) units Step 1. Calculate the building heating load using the Trane calculation form or other standard accepted method. Step 2. Size the system heating capacity to match the calculated building heating Ioad.The following are building heating requirements: Total heating load of 15 MBh 2000 cfm T*C units with optional electric heat: 460V/3 phase Power Supply The electric heat accessory capacities are listed in Table 131, p. 176. From the table, a 6 kW heater will deliver 20.48 MBh at 480 volts. In order to determine capacity at 460 volts, the heater voltage correction factor from Table 132, p. 177 must be used.Therefore, 20.48 MBh x 0.918 (voltage correction factor) = 18.8 MBh. Y*C units with gas heat: Fuel- natural gas. 60 MBh, 80 MBh, 120 MBh, and 130 MBh input models shown in Table 129, p. 174.The output capacities ofthesefurnaces are 49.2 MBh, 65.61VI13h, 98AM13h, and 106.6 MBh respectively.The low heat model with 49.2 MBh best matches the building requirements. Air Delivery Selection Note: Air Delivery procedure is the same for electric heat and gas heat units.) External static pressure drop through the air distribution system has been calculated to be 0.5 inches of water. Enter Table 34, p. 83 for aTSC060G4 at 2000 cfm and 0.47 static pressure.The standard direct drive motor will give the desired airflow at a rated bhp of 0.58 and 924 rpm. 22 RT-PRCO23AL-EN Selection Procedure Dehumidification Selection Note: Dehumidification selection procedure is the same for both electric heat (THC) and gas heat (YHC) models). Typical 5 tonTHC060E 2000 cfm Total Supply airflow 800 cfm Outside Air (40%) 1200 cfm Return Air 0.34" External Static Pressure OA Conditions Part load day and raining 68°F db 67°F wb 95% RH RA conditions 75°F db 63°F wb Step 1: Determine the mixed/entering air condition (MA) MA = (% outside air*outside air dry-bulb temperature) + (% return air*return air dry-bulb temperature) MA = (0.40*68°F) + (0.60*75°F) MA = 72.20°F db Repeat for wet -bulb temperature (wb) MA 72.2°F db 64.6°F wb Step 2: Determine the additional static pressure drop for a reheat unit Table 135, p. 179 shows a static pressure drop of 0.13" for the reheat coil and an additional 0.08 for the mandatory 2" pleated filters required when ordering the dehumidification option.Total static pressure = .34+0.08+0.13=0.55 Do not forget to also add any additional static from other accessories. This selection does not include additional accessories. Table 84, p. 133 (airflow table for 5 ton downflow unit) indicates that a standard motor and drive is needed for this airflow and static pressure range. Step 3a: Determine leaving evaporator temperature (SA') Leaving EvaporatorTemperature = SA' Utilizing the manual Cooling Capacity selection method as previously described, find the leaving evaporator temperatures with the formula: 0 Temp = gross sensible or gross latent cooling capacity in Btuh (cfm) (1.085) RT-PRCO23AL-EN 23 Selection Procedure Subtract your sensible A temp from the entering db and latent A temp from the entering wb to determine the leaving evaporator db & wb (temperatures without the addition of fan heat). 52.7°F db 52.7°F wb 52.7°F dp Step 3b: Determine leaving unit temperature in standard cooling mode Repeat Step 3a substituting net sensible or latent capacity for gross sensible or latent capacity to find the leaving unit temperature including fan heat. 53.7°F db 53.1°F wb Step 4: Determine reheat temperature rise Using the leaving evaporator temp (SA'), go to Table 135, p. 179 and determine the reheat temperature rise for that particular cfm: -19.0°F db Note: Reheat temperature rise is based on supply airflow and leaving evaporator coil temperature. Step 5: Determine leaving unit sensible temperature with reheat active (SA) Reheat temperature (obtained in step 4) + (SA' + fan heat) = SA (SA' + fan heat) = leaving unit temperature in standard cooling mode from step 3b. 19.0°F db + 53.7°F = 72XF db SA=72.7°F Since reheat adds only sensible heat, the dewpoint temperature will remain constant so follow the dewpoint temperature line across the psychrometric chart to find the new wb temperature. - 60.5°F wb 52.7 d p 49.9% RH If the space relative humidity is equal to or above the space relative humidity setpoint, the Dehumidification option will: • Energize compressor or both compressors (2 stage compressor units). • Hot gas reheat valve is energized and hot gas is diverted to the reheat coil. • Dehumidification/reheat is terminated when space humidity is reduced to 5% below relative humidity setpoint. At MA air enters the RTU.The RTU filters, cools, and dehumidifies the air as it moves through the evaporator coi I. Air leaves the evaporator coil saturated at the preset dew point condition (SA') and is reheated by the hot gas reheat coil to deliver 72.7°F (SA) supply air to the space. 24 RT-PRCO23AL-EN MAKE' Model Number Description Digit 1 - Unit Type T DX Cooling Digit 2 - Efficiency H High Efficiency Digit 3 - Airflow °,oft i1a1e: Digit 4,5,6 - Nominal Gross Cooling Capacity (MBh) 033 3Ton (13 SEER) 036 3Ton 043 4Ton (13 SEER) 048 4Ton 060 5Ton 063 5Ton (13 SEER) 072 6Ton 074 6Ton, Dual Compressor 090 71hTon, Single Compressor 092 71hTon, Dual Compressor 120 10Ton Digit 7 - Major Design Sequence E R -410A Refrigerant F MicrochannelType Condenser Coils24 G MicrochannelType Evaporator and Condenser Coils Digit 8 - Voltage Selection 1 208/230/60/1 4 460/6013, W 575/60/3 Digit 9 - Unit Controls R ReliaTeITM Microprocessor Digit 10 - Heating Capacity Note: Applicable to Digit 1, T models only 0 No Electric Heat A 5 kW (1 phase)' B 6 kW (3 phase) C 9 kW (3 phase) D 10 kW (1 phase)' E 12 kW (3 phase) F 14 kW (1 phase)' G 18 kW (1&3 phase) J 23 kW (3 phase) K 27 kW (3 phase) N 36 kW (3 phase) P 54 kW (3 phase) Note: Applicable to Digit 1, Y models only L Low Heat M Medium Heat H High Heat X Low Heat, Stainless Steel Heat Exchanger Y Medium Heat, Stainless Steel Heat Exchanger Z High Heat, Stainless Steel Heat Exchanger Digit 11 - Minor Design Sequence A First Sequence2l B Second Sequence20 Digit 12,13 - Service Sequence ** Factory Assigned Digit 14 - Fresh Air Selection 0 No Fresh Air A Manual Outside Air Damper 0-50%4 B Motorized Outside Air Damper 0-50°/%29 C Economizer, Dry Bulb 0-100% without Barometric Relief? D Economizer, Dry Bulb 0-100% with Barometric Relief? E Economizer, Reference Enthalpy 0-100% without Barometric Relief3,7 F Economizer, Reference Enthalpy 0-100% with Barometric Relief3,7 G Economizer, Comparative Enthalpy 0-100% without Barometric Relief3,7 H Economizer, Comparative Enthalpy 0-100% with Barometric Relief3.7 K Low Leak Economizer with Barometric Relief M Low Leak Economizer with Reference Enthalpy with Barometric Relief P Low Leak Economizer with Comparative Enthalpy with Barometric Relief Digit 15 - Supply Fan/Drive Type/ Motor 0 Standard Driver' 1 Oversized Motor 2 Optional Belt Drive Motor18 6 Single Zone VAV27,34 7 Multi -Speed Indoor Fan28 E VAV Supply AirTemperature Control Standard Motor34 Digit 16 - Hinged Service Access/ Filters 0 Standard Panels/Standard Filters A Hinged Access Panels/Standard Filters B Standard Panels/2" MERV 8 Filters C Hinged Access Panels/2" MERV 8 Filters D Standard Panels/2" MERV 13 Filters E Hinged Access Panels/2" MERV 13 Filters Digit 17 - Condenser Coil Protection 0 Standard Coil 1 Standard Coil with Hail Guard 2 Black Epoxy Pre -Coated Condenser Coi126 3 Black Epoxy Pre -Coated Condenser Coil with Hail Guard26 4 CompleteCoatT" Condenser Coil 5 CompleteCoatT" Condenser Coil with Hail Guard Digit 18 -Through-the-Base Provisions Note: Applicable to Digit 1,T orYmodels 0 NoThrough-the-Base Provisions A Through -the -Base Electric$ Note: Applicable to Digit 1, Y models only B Through -the -Base Gas Piping16 C Through -the -Base Electric and Gas Pipingt6 Digit 19 - Disconnect/Circuit Breaker (three-phase only) 0 No Disconnect/No Circuit Breaker 1 Unit Mounted Non -Fused Disconnect$ 2 Unit Mounted Circuit Breakers Digit 20 - Convenience Outlet 0 No Convenience Outlet A Unpowered Convenience Outlet B Powered Convenience Outlet (three-phase only)9 Digit 21 - Communications Options3 0 No Communications Interface 1 TraneOO Communications Interface 2 LonTalkOO Communications Interface 3 Novar 2024 Controls3l 4 Novar 3051 Controls without Zone Sensor3l 5 Novar 3051 Controls Interface with DCV31 6 BACnet® Communications Interface 7 Air-FiT"' Wireless Communications3' Digit 22 - Refrigeration System Option 0 Standard Refrigeration SystemlD B Dehumidification Option22,23 Digit 23 - Refrigeration Controls Note: Applicable to Digit 7 = E, F, G 0 No Refrigeration Controls 1 FrostatTM 11,30 2 Crankcase Heater2 3 FrostatTM 11.30 and Crankcase Heater2 Digit 24 - Smoke Detector17 0 No Smoke Detector A Return Air Smoke Detector12,13 B Supply Air Smoke Detector C Supply and Return Air Smoke Detectors12,13 D Plenum Smoke Detector RT-PRCO23AL-EN 25 m Model Number Description Digit 25 - System Monitoring Controls 0 No Monitoring ControI14 1 Clogged Filter Switch14 2 Fan Failure Switch14 3 Discharge Air SensingTube14 4 Clogged Filter Switch and Fan Failure Switchl4 5 Clogged Filter Switch and Discharge Air SensingTube14 6 Fan Failure Switch and Discharge Air SensingTube14 7 Clogged Filter Switch, Fan Failure Switch and Discharge Air SensingTube14 8 Novar Return Air Sensor (NOVAR 2024)15,31 9 Novar ZoneTemp Sensor (NOVAR 3051)19,31 A Condensate Drain Pan Overflow Switch B Clogged Filter Switch14 and Condensate Drain Pan Overflow Switch C Fan Failure Switch14 and Condensate Drain Pan Overflow Switch D Discharge Air Sensing14 and Condensate Drain Pan Overflow Switch E Clogged Filter Switch14, Fan Failure Switch14 and Condensate Drain Pan Overflow Switch F Clogged Filter Switch14, Discharge Air SensingTube14 and Condensate Drain Pan Overflow Switch G Fan Failure Switch, Discharge Air SensingTube14 and Condensate Drain Pan Overflow Switch H Clogged Filter Switch14, Fan Failure Switch14, Discharge Air Sensing14 and Condensate Drain Pan Overflow Switch Digit 26 - System Monitoring Controls 0 No Monitoring Controls A Demand Control Ventilation (CO2)32.33 B Low Leak Economizer with FDD (Fault Detection & Diagnostics) C FDD (Fault Detection & Diagnostics) with DCV (Demand Control Ventilation) Digit 27 - Unit Hardware Enhancements 0 No Enhancements 1 Stainless Steel Drain Pan Digit 31 - Advanced Unit Controls 0 Standard Unit Controls 1 Human Interface Model Number Notes 1. Available on 3 to 5 ton models. 2. Crankcase heaters are optional on (TY)SC (036, 048, 060, 072, 090, 102, 120); standard on (TY)HC (036, 048, 060, 072, 074, 092, 102, 120). 3. Not available with electromechanical controls. 4. Manual outside air damper will ship factory supplied within the unit, but must be field installed. 5. High pressure control is standard on all units. 6. Multi -speed, direct drive motor with no belt drive option is standard on 3 to 5 ton, standard efficiency, 13/14 SEER units. Multi - speed, direct drive motor with a belt drive option is available for 3 to 5 ton, 15 SEER units. On 6 to 10 tons, multispeed direct drive is standard on all 10 ton and 6 (074) to 81/2 ton high efficiency. Belt drive is standard on all other units. Digit 15 = 0 Standard Efficiency 3 Phase (3 to 5 Ton) = Multispeed Direct Drive Motor 3 Phase (6 to 81/2 Ton) = Belt Drive 3 Phase (10Ton) = Ultra High Efficiency Direct Drive Plenum Fan High Efficiency 1 Phase = High Efficiency Multispeed Direct Drive Motor 3 Phase (3 to 5 ton) = High Efficiency Multispeed Direct Drive Motor 3 Phase (3 to 5 ton w/Dehumidification) = Belt Drive Motor 3 Phase [6 (074) to 10 ton] = Ultra High Efficiency Direct Drive Plenum Fan 7. Economizer with barometric relief is for downflow configured units only. Order economizer without barometric relief for horizontal configuration. Barometric relief for horizontal configured units must be ordered as field installed accessory. 8. Through -the -base electric required when ordering disconnect/circuit breaker options. 9. Requires use of disconnect or circuit breaker. Not Available Standard Efficiency 3 to 5 Tons and 10 Ton w/575V High Efficiency 3 to 5 Tons w/Standard Indoor Motor w/460V High Efficiency 575V 10. Standard metering devices are TXVs. 11. FrostatTM cannot be field installed in electro -mechanical units. 12. The return air smoke detector may not fit up or work properly on the PrecedentTl units when used in conjunction with 3rd party accessories such as bolt on heat wheels, economizers and power exhaust. Do not order the return air smoke detectors when using this type of accessory. 13. Return air smoke detector cannot be ordered with Novar controls. 14. These options are standard when ordering Novar controls. 15. This option is used when ordering Novar controls. 16. Includes gas piping and shutoff (field assembly required). 17. Not available with high temperature duct sensor accessory. 18. Digit 15 = 2 Standard Efficiency 3 Phase = Not Available High Efficiency 1 Phase = Not Available 3 Phase (3 to 5 tons) = May be Ordered 3 Phase (3 to 5 tons w/dehumidification) _ Not Available 3 Phase (6 to 10 tons) = Not Available 19. Novar sensor utilized with Digit 21 = (4) Novar 3051 controls without zone sensor. 20. Available for gas/electric, 3 to 5 tons, high efficiency, single phase models. 21. Available for all models except gas/electric, 3 to 5 tons high efficiency, single phase. 22. Requires selection of 2" pleated filters (option B or C) for Digit 16. 26 RT PRCO23AL-EN Model Number Description 23. Not available on all single phase or standard efficiency. 24. Standard onTNSC 6, 71/2 (single and dual systems), 81/2, 10 ton standard efficiency models and T/YHC 4, 5, 6, 71/2, 81/2,10 ton MCHE high efficiency models (except for 4, 5, 6 ton dehumidification models). 25. Not available on high efficiency 575V. 26. Epoxy coil and epoxy with hail guard options are notavailablefor units with microchannel condenser coil. 27. Single zone VAV is only available on 6 to 10 tons high efficiency and 10 ton standard efficiency products with ReliaTelT"" controls. 28. Multi -speed indoor fan available only on 6, 71/2 & 81/2 tons high efficiency, and 10 ton products with ReliaTelTI controls. 29. Motorized outside air damper is not available on multi -speed or SZVAV (single zone variable air volume) products. 30. FrostatT" standard onY/TSC033 to 063G electromechanical, multi - speed and SZVAV (single zone variable air volume) products. 31. Novar is not available with SZVAV products. 32. Demand control ventilation not available with electromechanical controls. 33. Demand control ventilation option includes wiring only.The CO2 sensor is a field -installed only option. 34. Discharge air sensing is also standard equipment on units with single zone and supply air temperature control VAV. 35. Must be used with BACnet@ open protocol. RT-PRCO23AL-EN 27 10 rRAOVE' General Data Table 1. General data - 3 to 5 tons - standard efficiency continued on next page 28 RT-PRCO23AL-EN 3 Tons 4 Tons 5 Tons T/YSC033G3,4,W T/YSC043G3,4,W T/YSC063G3,4,W Cooling Performance(a) Gross Cooling Capacity 37,000 49,000 60,000 EER/SEER(b) 11.2/13.0 10.9/13.0 11.0/13.0 Nominal cfm/AHRI Rated cfm 1,200/1,200 1,600/1,600 2,000/2,000 AHRI Net Cooling Capacity 36,000 48,000 58,500 System Power (kW) 3.21 4.40 5.32 Compressor Number/Type 1/Scroll 1/Scroll 1/Scroll Sound Outdoor Sound Rating (dB)(0 79 80 80 Outdoor Coil - Type Microchannel Microchannel Microchannel Configuration Full Face Full Face Full Face Tube Size (in.) 0.63 0.63 0.63 Face Area (sq. ft.) 10.50 10.50 10.50 Rows/FPI 1/16 1/16 1/16 Indoor Coil - Type Microchannel Microchannel Microchannel Configuration Full Face Full Face Full Face Tube Size (in.) 0.63 0.63 0.63 Face Area (sq. ft.) 6.98 6.98 6.98 Rows/FPI 2/16 2/16 2/16 Refrigerant Control Thermal Expansion Valve Thermal Expansion Valve Thermal Expansion Valve Drain Connection Number/Size (in.) 13/4 NPT 13/4 NPT 13/4 NPT Outdoor Fan - Type Propeller Propeller Propeller Number Used/Diameter (in.) 1/22 1/22 1/22 Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 cfm 3600 4050 4050 Motor hp 0.25 0.33 0.33 Motor rpm 1100 1100 1100 Indoor Fan - Type (Standard) FC Centrifugal FC Centrifugal FC Centrifugal Number Used/Diameter (in.)/Width (in.) 1 1 1 Drive Type/No. Speeds/RPM 11x11 11x11 11x11 Number Motors Direct/5(d) Direct/5(d) Direct/5(d) Motor hp 0.75 1.0 1.0 Motor Frame Size 48/— 48/— 48/— Filters(e) Throwaway Throwaway Throwaway Type Furnished (2) 20x35x2 (2) 20x35x2 (2) 20x35x2 Number Size Recommended Refrigerant Charge(f) Pounds of R -410A 3.2 3.5 3.4 continued on next page 28 RT-PRCO23AL-EN General Data Table 1. General data - 3 to 5 tons - standard efficiency (continued) (a) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 210/240. (b) EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. (c) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (d) For multispeed direct drive rpm TSC values, reference Table 34, p. 83. For multispeed direct drive rpm YSC (low & medium gas heat) values reference Table 35, p. 84. For multispeed direct drive rpm YSC (high gas heat) values reference Table 36, p. 85. (e)Optional 2" MERV 8 and MERV 13 filters also available. (f) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (g) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (h)AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 29 3 Tons 4 Tons 5 Tons T/YSC033G3,4,W T/YSC043G3,4,W T/YSCO63G3,4,W Heating Performance(9) (Gas/Electric Only) Heating Input Low Heat Input (Btu) 60,000 60,000 60,000 Mid Heat Input (Btu) 80,000 80,000 80,000 High Heat Input (Btu) 120,000 120,000 130,000 Heating Output Low Heat Output (Btu) 49,200 49,200 49,200 Mid Heat Output (Btu) 65,600 65,600 65,600 High Heat Output (Btu) 98,400 98,400 106,600 AFUE%(h) Low Heat Input (Btu) — — — Mid Heat Input (Btu) — — — High Heat Input (Btu) — — — Steady State Efficiency% Low Heat Input (Btu) 82% 82% 82% Mid Heat Input (Btu) 82% 82% 82% High Heat Input (Btu) 82% 82% 82% No. Burners Low Heat Input (Btu) 2 2 2 Mid Heat Input (Btu) 2 2 2 High Heat Input (Btu) 3 3 3 No. Stages Low Heat Input (Btu) 1 1 1 Mid Heat Input (Btu) 1 1 1 High Heat Input (Btu) 1 1 1 Gas Supply Line Pressure Natural (minimum/maximum) 4.5/14.0 4.5/14.0 4.5/14.0 LP (minimum/maximum) 11.0/14.0 11.0/14.0 11.0/14.0 Gas Connection Pipe Size (in) Low Heat 1/2 1/2 1/2 Mid Heat 1/2 1/2 1/2 High Heat 1/2 1/2 1/2 (a) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 210/240. (b) EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. (c) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (d) For multispeed direct drive rpm TSC values, reference Table 34, p. 83. For multispeed direct drive rpm YSC (low & medium gas heat) values reference Table 35, p. 84. For multispeed direct drive rpm YSC (high gas heat) values reference Table 36, p. 85. (e)Optional 2" MERV 8 and MERV 13 filters also available. (f) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (g) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (h)AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 29 General Data Table 2. General data - 3 to 5 tons - standard efficiency (continued) (a) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 210/240. (b) EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. (c) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (d) For multispeed direct drive rpm TSC values, reference Table 34, p. 83. For multispeed direct drive rpm YSC (low & medium gas heat) values reference Table 35, p. 84. For multispeed direct drive rpm YSC (high gas heat) values reference Table 36, p, 85. (e) Optional 2" MERV 8 and MERV 13 filters also available. (f) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (g) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (h)AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 31 3 Tons 4 Tons 5 Tons T/YSC036G3,4,W T/YSC04SG3,4,W T/YSC060G3,4,W Heating Performance(9) (Gas/Electric Only) Heating Input Low Heat Input (Btu) 60,000 60,000 60,000 Mid Heat Input (Btu) 80,000 80,000 80,000 High Heat Input (Btu) 120,000 120,000 130,000 Heating Output Low Heat Output (Btu) 49,200 49,200 49,200 Mid Heat Output (Btu) 65,600 65,600 65,600 High Heat Output (Btu) 98,400 98,400 106,600 AFUE%(h) Low Heat Input (Btu) — — — Mid Heat Input (Btu) — — — High Heat Input (Btu) — — — Steady State Efficiency% Low Heat Input (Btu) 82% 82% 82% Mid Heat Input (Btu) 82% 82% 82% High Heat Input (Btu) 82% 82% 82% No. Burners Low Heat Input (Btu) 2 2 2 Mid Heat Input (Btu) 2 2 2 High Heat Input (Btu) 3 3 3 No. Stages Low Heat Input (Btu) 1 1 1 Mid Heat Input (Btu) 1 1 1 High Heat Input (Btu) 1 1 1 Gas Supply Line Pressure Natural (minimum/maximum) 4.5/14.0 4.5/14.0 4.5/14.0 LP (minimum/maximum) 11.0/14.0 11.0/14.0 11.0/14.0 Gas Connection Pipe Size (in) Low Heat 1/2 1/2 1/2 Mid Heat 1/2 1/2 1/2 High Heat 1/2 1/2 1/2 (a) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 210/240. (b) EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. (c) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (d) For multispeed direct drive rpm TSC values, reference Table 34, p. 83. For multispeed direct drive rpm YSC (low & medium gas heat) values reference Table 35, p. 84. For multispeed direct drive rpm YSC (high gas heat) values reference Table 36, p, 85. (e) Optional 2" MERV 8 and MERV 13 filters also available. (f) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (g) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (h)AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 31 C3 General Data Table 3. General data - 6 to 7'/2 tons - standard efficiency continued on next page 32 RT-PRCO23AL-EN 6 Tons 71/2 Tons 7% Tons T/YSC072F3,4,W T/YSC090F3,4,W T/YSC092F3,4,W Cooling Performance(a) Gross Cooling Capacity 75,000 89,000 94,000 EER(b) 11.2 11.2 11.2 Nominal cfm/AHRI Rated cfm 2,400/2,100 3,000/2,400 3,000/2,625 AHRI Net Cooling Capacity 71,000 83,000 89,000 IEER(0 13.0 12.2 13.0 System Power (kW) 6.36 7.48 7.97 Compressor Number/Type 1/Scroll 1/Scroll 2/Scroll Sound Outdoor Sound Rating (dB)(d) 89 89 91 Outdoor Coil - Type Microchannel Microchannel Microchannel Configuration Full Face Full Face Face -Split Tube Size (in.) 0.71 0.71 0.71 Face Area (sq. ft.) 16.91 16.91 17.31 Rows/FPI 1/23 1/23 1/23 Indoor Coil - Type Lanced Lanced Lanced Configuration Full Face Full Face Face -Split Tube Size (in.) 0.3125 0.3125 0.3125 Face Area (sq. ft.) 9.89 9.89 12.36 Rows/FPI 3/16 4/16 3/16 Refrigerant Control Thermal Expansion Valve Thermal Expansion Valve Thermal Expansion Valve Drain Connection Number/Size (in.) 13/4 NPT 13/4 NPT 13/4 NPT Outdoor Fan - Type Propeller Propeller Propeller Number Used/Diameter (in.) 1/26 1/26 1/26 Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 cfm 6,037 6,037 6,610 Motor hp 0.7 0.7 0.75 Motor rpm 1,100 1,100 1,100 Indoor Fan - Type FC Centrifugal FC Centrifugal FC Centrifugal Number Used/Diameter (in.)/Width (in.) 1/12x12 1/12x12 1/15x15 Drive Type/No. Speeds/rpm Belt/Variable/1,750 Belt/Variable/1,750 Belt/Variable/1,750 Motor hp (Standard/Oversized) 1.0/2.0 1.0/3.0 1.0/3.0 Motor Frame Size (Standard/Oversized) 56/56 56/56 56/56 Filters(e) Type Furnished Throwaway Throwaway Throwaway Number Size Recommended (4) 16x25x2 (4) 16x25x2 (4) 20x25x2 Refrigerant Charge M Pounds of R -410A 5.5 5.9 3.9/3.6 continued on next page 32 RT-PRCO23AL-EN General Data Table 3. General data - 6 to 7'/z tons - standard efficiency (continued) (a) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 340/360. (b) EER is rated at AHRI conditions and in accordance with DOE test procedures. (c) Integrated Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. The IEER rating requires that the unit efficiency be determined at 100%, 75%, 50% and 25% load (net capacity) at the specified in AHRI Standard. (d) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (e) Optional 2" MERV 8 and MERV 13 filters also available. (f) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (g) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (h)AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 33 6 Tons 71A Tons 71/2 Tons T/YSC072F3,4,W T/YSC090F3,4,W T/YSC092F3,4,W Heating Performance(9) (Gas/Electric Only) Heating Input Low Heat Input (Btu) 80,000 120,000 120,000 Mid Heat Input (Btu) 120,000 150,000/105,000 150,000/105,000 High Heat Input (Btu) 150,000/105,000 200,000/140,000 200,000/140,000 Heating Output Low Heat Output (Btu) 64,000 96,000 96,200 Mid Heat Output (Btu) 96,000 120,000/84,000 120,000/84,000 High Heat Output (Btu) 120,000/84,000 160,000/112,000 160,000/112,000 AFUEo/o(h) Low Heat Input (Btu) — — — Mid Heat Input (Btu) — — — High Heat Input (Btu) — — — Steady State Efficiency% Low Heat Input (Btu) 80 80 80 Mid Heat Input (Btu) 80 80 80 High Heat Input (Btu) 80 80 80 No. Burners Low Heat Input (Btu) 2 3 3 Mid Heat Input (Btu) 3 3 3 High Heat Input (Btu) 3 4 4 No. Stages Low Heat Input (Btu) 1 1 1 Mid Heat Input (Btu) 1 2 2 High Heat Input (Btu) 2 2 2 Gas Supply Line Pressure Natural (minimum/maximum) 4.5/14.0 4.5/14.0 4.5/14.0 LP (minimum/maximum) 11.0/14.0 11.0/14.0 11.0/14.0 Gas Connection Pipe Size (in) Low Heat 1/2 1/2 1/2 Mid Heat 1/2 3/4 3/4 High Heat 3/4 3/4 3/4 (a) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 340/360. (b) EER is rated at AHRI conditions and in accordance with DOE test procedures. (c) Integrated Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. The IEER rating requires that the unit efficiency be determined at 100%, 75%, 50% and 25% load (net capacity) at the specified in AHRI Standard. (d) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (e) Optional 2" MERV 8 and MERV 13 filters also available. (f) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (g) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (h)AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 33 General Data Table 4. General data - 81/2 to 10 tons - standard efficiency continued on next page 34 RT-PRCO23AL-EN 81/2 Tons 10 Tons T/YSC102F3,4,W T/YSC120F3,4,W Cooling Performance(a) Gross Cooling Capacity Wx 119,000 EER(b) 11.2 11.3 Nominal cfm/AHRI Rated cfm 3,400/2,720 4,000/3,500 AHRI Net Cooling Capacity 96,600 113,000 IEER(0 13.0 System Power (kW) an 10.0 Compressor Number/Type 2/Scroll 2/Scroll Sound Outdoor Sound Rating (dB)(d) 88 Outdoor Coil - Type Microchannel Microchannel Configuration Face -Split Face Split Tube Size (in.) 1 1 Face Area (sq, ft.) 20.77 20.77 Rows/FPI 1/20 1/20 Indoor Coil - Type Lanced Lanced Configuration Face -Split Intertwined Tube Size (in.) 0.3125 0.3125 Face Area (sq. ft.) 12.36 12.36 Rows/FPI 3/16 4/16 Refrigerant Control Thermal Expansion Valve Thermal Expansion Valve Drain Connection Number/Size (in.) 13/4 NPT 13/4 NPT Outdoor Fan - Type Propeller Propeller Number Used/Diameter (in.) 1/26 1/26 Drive Type/No. Speeds Direct/1 Direct/1 cfm 6,610 6,800 Motor hp 0.75 0.75 Motor rpm 1,100 1,100 Indoor Fan - Type FC Centrifugal BC Plenum Number Used/Diameter (in.)/Width (in.) 1/15x15 1/19.7x15 Drive Type/No. Speeds/rpm Belt/Variable/1,750 Direct/Variable(e) Motor hp (Standard/Oversized) 2.0/3.0 3.75/— Motor Frame Size (Standard/Oversized) 56/56 —/— Filters(f) Type Furnished Throwaway Throwaway Number Size Recommended (4) 20x25x2 (4) 20x25x2 Refrigerant Charge (9) Pounds ofW-M0 3.9 5.5/4.2 continued on next page 34 RT-PRCO23AL-EN General Data Table 4. General data - 81/2 to 10 tons - standard efficiency (continued) (a) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to f20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 340/360. (b) EER is rated at AHRI conditions and in accordance with DOE test procedures. (c) Integrated Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. The IEER rating requires that the unit efficiency be determined at 100%, 75%, 50% and 25% load (net capacity) at the specified in AHRI Standard. (d) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (e) For multispeed direct drive rpm T/YSC values, reference Table 125, p. 170. (f) Optional 2" MERV 8 and MERV 13 filters also available. (g) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (h) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (i) AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 35 81/2 Tons 10 Tons T/YSC102F3,4,W T/YSC120F3,4,W Heating Performance(h) (Gas/Electric Only) Heating Input Low Heat Input (Btu)MOW 150,000/105,000 Mid Heat Input (Btu) 150,000/105,000 200,000/140,000 High Heat Input (Btu) 200,000/140,000 250,000/175,000 Heating Output Low Heat Output (Bu) SM, 120,000/84,000 Mid Heat Output (Btu) 120,000/84,000 160,000/112,000 High Heat Output (Btu) 160,000/112,000 200,000/140,000 AFUE%(i) Low Heat Input (Btu) — — Mid Heat Input (Btu) — — High Heat Input (Btu) — — Steady State Efficiency% Low Heat Input (Btu) 80 80 Mid Heat Input (Btu) 80 80 High Heat Input (Btu) 80 80 No. Burners Low Heat Input (Btu) aw, 3 Mid Heat Input (Btu) 3 4 High Heat Input (Btu) 4 5 No. Stages Low Heat Input (Btu) 2 Mid Heat Input (Btu) 2 2 High Heat Input (Btu) 2 2 Gas Supply Line Pressure Natural (minimum/maximum) 4.5/14.0 LP (minimum/maximum) 11.0/14.0 11.0/14.0 Gas Connection Pipe Size (in) Low Heat 3/4 Mid Heat 3/4 3/4 High Heat 3/4 3/4 (a) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to f20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 340/360. (b) EER is rated at AHRI conditions and in accordance with DOE test procedures. (c) Integrated Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. The IEER rating requires that the unit efficiency be determined at 100%, 75%, 50% and 25% load (net capacity) at the specified in AHRI Standard. (d) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (e) For multispeed direct drive rpm T/YSC values, reference Table 125, p. 170. (f) Optional 2" MERV 8 and MERV 13 filters also available. (g) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (h) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (i) AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 35 General Data Table 5. General data - 3 to 4 tons - high efficiency 36 RT-PRCO23AL-EN 3 Tons 4 Tons T/YHC036E1 T/YHC036E3,4W(a),(b) T/YHC048F1 T/YHC048E3,4W(b) T/YHC048F3,4W(b) Cooling Performance(c) Gross Cooling Capacity 38,490 37,600 48,930 49,930 49,930 EER/SEER(d) 13.0/15.2 12.7/15.0(x) 12.55/15.0 14.2 13.35/15.0 Nominal cfm/AHRI Rated cfm 1,200/1,200 1,200/1,200 1,600/1,600 1,600/1,600 1,600/1,600 AHRI Net Cooling Capacity 37,000 37,000 48,000 49,000 49,000 System Power (kW) 2.93 2.99 3.83 3.67 3.67 Compressor Number/Type 1/Scroll 1/Scroll 1/Scroll 1/Scroll 1/Scroll Sound Outdoor Sound Rating (dB)(e) 81 81 87 87 87 Outdoor Coll - Type Lanced Lanced Microchannel Lanced Microchannel Configuration Full Face Full Face Full Face Full Face Full Face Tube Size (in.) 0.3125 0.3125 0.71 0.3125 0.71 Face Area (sq. ft.) 10.96 10.96 16.91 17.00 16.91 Rows/FPI 2/16 2/16 1/23 3/16 1/23 Indoor Coil - Type Lanced Lanced Lanced Lanced Lanced Configuration Full Face 0.3125 Full Face Full Face 0.3125 Full Face Full Face Tube Size (in.) 7.71 0.3125 9.27 0.3125 0.3125 Face Area (sq. ft.) 3/16 7.71 3/16 9.27 9.27 Rows/FPI Thermal 3/16 erma Thermal 3/16 3/16 Refrigerant Control Expansion Valve Thermal Thermal Expansion Valve Expansion Valve Th Expansion Valve Thermal Expansion Valve Drain Connection Number/Size (in.) 13/4 NPT 13/4 NPT 13/4 NPT 13/4 NPT 13/4 NPT Outdoor Fan - Type Propeller Propeller Propeller Propeller Propeller Number Used/Diameter (in.) 1/22 1/22 1/26 1/26 1/26 Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 Direct/1 Direct/1 cfm 3,064 3,064 3,986 3.982 3,982 Motor hp 0.2 0.2 0.4 0.4 0.4 Motor rpm 1,075 1,075 1,075 1,075 1,075 Indoor Fan - Type (Standard)(f) FC Centrifugal FC Centrifugal FC Centrifugal FC Centrifugal FC Centrifugal Number Used/Diameter (in.)/Width (in.) 1/11x11 1/11x11 1/11x11 1/11x11 1/11x11 Drive Type/No. Speeds/rpm Direct/59) Direct/5(9) Direct/5(M Direct/5(y) Direct/59) Number Motors 1 1 1 1 1 Motor hp (Standard/Oversized) 0.75 .75 1.0 1.0 1.0 Motor Frame Size (Standard/ 48 48 48 48 48 Oversized) Indoor Fan - Type (Optional) FC Centrifugal FC Centrifugal FC Centrifugal Number Used/Diameter (in.)/ Width (in.) 1/11x11 - 1/11x11 1/11x11 Drive Type/No. Speeds - Belt/Variable - Belt/Variable Belt/Variable Number Motors - 1 - 1 1 Motor hp (Standard/Oversized) - 1.0 - 1.0 1.0 Motor Frame Size (Standard/ - 56 - 56 56 Oversized) Filters(h) Type Furnished Throwaway Throwaway Throwaway Throwaway Throwaway Number Size Recommended (2) 20x3Ox2 (2) 20x3Ox2 (4) 16x25x2 (4) 16x25x2 (4) 16x25x2 Optional Hot Gas Reheat Coil (Type) Tube Size (in.) OD - 0.3125 - 0.3125 - Face Area (sq. ft.) - 5.23 - 6.28 - Rows/FPI - 1/16 - 1/16 - 36 RT-PRCO23AL-EN General Data Table 5. General data - 3 to 4 tons -high efficiency (continued) (a)YHC036EW: EER = 12.4; SEER = 14.4 (b)575V (W voltage) is only available as YHC. No THC models available with 575V (W voltage). (c) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to f20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 210/240. (d) EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. (e) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (f) Belt drive fan is standard on units with reheat option. (g) For multispeed direct drive rpm THC values, reference Table 37, p. 86. For multispeed direct drive rpm YHC (low & medium gas heat) values reference Table 38, p. 87. For multispeed direct drive rpm YHC (high gas heat) values reference Table 39, p. 88. (h)Optional 2" MERV 8 and MERV 13 filters also available. (i) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (j) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (k) AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 37 3 Tons 4 Tons T/YHC036E1 T/YHC036E3,4W(a),(b) T/YHC048F1 T/YHC048E3,4W(b) T/YHC048F3,4W(b) Refrigerant Charge (Lbs. of R-410A)(i) Standard 6.2 6.2 5.2 — 5.2 Optional Hot Gas Reheat Coil — 10.5 — 15.2 — Heating Performance(j) (Gas/Electric Only) Heating Input Low Heat Input (Btu) 60,000 60,000 60,000 60,000 60,000 Mid Heat Input (Btu) 80,000 80,000 80,000 80,000 80,000 High Heat Input (Btu) 100,000 120,000 120,000 120,000 120,000 Heating Output Low Heat Output (Btu) 49,200 48,000 49,200 49,000 49,000 Mid Heat Output (Btu) 65,600 64,000 66,400 64,000 64,000 High Heat Output (Btu) 82,000 96,000 98,400 96,000 96,000 AFUE%(k) Low Heat Input (Btu) 81 78 81 80 80 Mid Heat Input (Btu) 81 78 81 79 79 High Heat Input (Btu) 81 78 81 79 79 Steady State Efficiency% Low Heat Input (Btu) 82 80 82 81 81 Mid Heat Input (Btu) 82 80 83 80 80 High Heat Input (Btu) 82 8o 82 81 81 No. Burners Low Heat Input (Btu) 2 2 2 2 2 Mid Heat Input (Btu) 2 2 2 2 2 High Heat Input (Btu) 3 3 3 3 3 No. Stages Low Heat Input (Btu) 1 1 1 1 1 Mid Heat Input (Btu) 1 1 1 1 1 High Heat Input (Btu) 1 1 1 1 1 Gas Supply Line Pressure Natural (minimum/maximum) 4.5/14.0 4.5/14.0 4.5/14.0 4.5/14.0 4.5/14.0 LP (minimum/maximum) 11.0/14.0 11.0/14.0 11.0/14.0 11.0/14.0 11.0/14.0 Gas Connection Pipe Size (in) Low Heat 1/2 1/2 1/2 1/2 1/2 Mid Heat 1/2 1/2 1/2 1/2 1/2 High Heat 1/2 1/2 1/2 1/2 1/2 (a)YHC036EW: EER = 12.4; SEER = 14.4 (b)575V (W voltage) is only available as YHC. No THC models available with 575V (W voltage). (c) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to f20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 210/240. (d) EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. (e) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (f) Belt drive fan is standard on units with reheat option. (g) For multispeed direct drive rpm THC values, reference Table 37, p. 86. For multispeed direct drive rpm YHC (low & medium gas heat) values reference Table 38, p. 87. For multispeed direct drive rpm YHC (high gas heat) values reference Table 39, p. 88. (h)Optional 2" MERV 8 and MERV 13 filters also available. (i) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (j) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (k) AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 37 General Data Table 6. General data - 5 tons - high efficiency continued on next page 38 RT PRCO23AL-EN 5 Tons T/YH060F1 T/YHC060E3,4W(a) T/YHC060F3,4W(a) Cooling Performance(b) Gross Cooling Capacity 61,000 61,000 61,000 EER/SEER(c) 12.85/15.0 14.2 12.85/15.0 Nominal cfm/AHRI Rated cfm 2,000/2,000 2,000/2,000 2,000/2,000 AHRI Net Cooling Capacity 59,500 60,000 60,000 System Power (kW) 4.63 4.67 4.67 Compressor Number/Type 1/Scroll 1/Scroll 1/Scroll Sound Outdoor Sound Rating (dB)(d) 87 87 87 Outdoor Coil - Type Microchannel Lanced Microchannel Configuration Full Face Full Face Full Face Tube Size (in.) 0.71 0.3125 0.71 Face Area (sq. ft.) 16.91 17 16.91 Rows/FPI 1/23 3/16 1/23 Indoor Coil - Type Lanced Lanced Lanced Configuration Full Face Full Face Full Face Tube Size (in.) 0.3125 0.3125 0.3125 Face Area (sq. ft.) 9.89 9.89 9.89 Rows/FPI 4/16 4/16 4/16 Refrigerant Control Thermal Expansion Valve Thermal Expansion Valve Thermal Expansion Valve Drain Connection Number/Size (in.) 13/4 NPT 13/4 NPT 13/4 NPT Outdoor Fan - Type Propeller Propeller Propeller Number Used/Diameter (in.) 1/26 1/26 1/26 Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 cfm 3,953 3,953 3,953 Number Motors/hp 0.40 0.40 0.40 Motor rpm 1,075 1,075 1,075 Indoor Fan - Type (Standard)(e) FC Centrifugal FC Centrifugal FC Centrifugal Number Used/Diameter (in.)/Width (in.) 1/11x11 1/11x11 1/11x11 Drive Type/No. Speeds/rpm Direct/5(f) Direct/5(f) Direct/50 Motor hp 1.0 1.0 1.0 Motor Frame Size 48 48 48 Indoor Fan - Type (Optional) FC Centrifugal FC Centrifugal Number Used/Diameter (in.)/Width (in.) — 1/11x11 1/11x11 Drive Type/No. Speeds — Belt/Variable Belt/Variable Motor hp — 1.0 1.0 Motor Frame Size — 56 56 Filters(9) Type Furnished Throwaway Throwaway Throwaway Number Size Recommended (4) 16x25x2 (4) 16x25x2 (4) 16x25x2 Optional Hot Gas Reheat Coil - Type Tube Size (in.) OD — 0.3125 — Face Area (sq. ft.) — 6.28 — Rows/FPI — 1/16 — Refrigerant Charge (Lbs. of R -410A) (h) Standard 6.1 — 6.1 Optional Hot Gas Reheat Coil — 15.7 — continued on next page 38 RT PRCO23AL-EN General Data Table 6. General data - 5 tons - high efficiency (continued) (a) 575V (W voltage) is only available as YHC. No THC models available with 575V (W voltage). (b) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 210/240. (c) EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. (d) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 125, p. 170. (e) Belt drive is standard on units with reheat option. (f) For multispeed direct drive rpm THC values, reference Table 37, p. 86. For multispeed direct drive rpm YHC (low & medium gas heat) values reference Table 38, p. 87. For multispeed direct drive rpm YHC (high gas heat) values reference Table 39, p. 88. (g) Optional 2" MERV 8 and MERV 13 filters also available. (h) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (i) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (j) AFUE is rated in accordance with DOE test procedures. RT PRCO23AL-E N 39 5 Tons T/YH060F1 T/YHC060E3,4W(a) T/YHC060F3,4W(a) Heating Performance(i) (Gas/Electric Only) Heating Input Low Heat Input (Btu) 60,000 60,000 60,000 Mid Heat Input (Btu) 80,000 80,000 80,000 High Heat Input (Btu) 130,000 130,000 130,000 Heating Output Low Heat Output (Btu) 49,800 49,000 49,000 Mid Heat Output (Btu) 65,600 64,000 64,000 High Heat Output (Btu) 106,600 104,000 104,000 AFUE%(j) Low Heat Input (Btu) 81 80 80 Mid Heat Input (Btu) 81 79 79 High Heat Input (Btu) 81 80 80 Steady State Efficiency% Low Heat Input (Btu) 83 81 81 Mid Heat Input (Btu) 82 80 80 High Heat Input (Btu) 82 80 80 No. Burners Low Heat Input (Btu) 2 2 2 Mid Heat Input (Btu) 2 2 2 High Heat Input (Btu) 3 3 3 No. Stages Low Heat Input (Btu) 1 1 1 Mid Heat Input (Btu) 1 1 1 High Heat Input (Btu) 1 1 1 Gas Supply Line Pressure Natural (minimum/maximum) 4.5/14.0 4.5/14.0 4.5/14.0 LP (minimum/maximum) 11.0/14.0 11.0/14.0 11.0/14.0 Gas Connection Pipe Size (in) Low Heat 1/2 1/2 1/2 Mid Heat 1/2 1/2 1/2 High Heat 1/2 1/2 1/2 (a) 575V (W voltage) is only available as YHC. No THC models available with 575V (W voltage). (b) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 210/240. (c) EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. (d) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 125, p. 170. (e) Belt drive is standard on units with reheat option. (f) For multispeed direct drive rpm THC values, reference Table 37, p. 86. For multispeed direct drive rpm YHC (low & medium gas heat) values reference Table 38, p. 87. For multispeed direct drive rpm YHC (high gas heat) values reference Table 39, p. 88. (g) Optional 2" MERV 8 and MERV 13 filters also available. (h) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (i) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (j) AFUE is rated in accordance with DOE test procedures. RT PRCO23AL-E N 39 General Data Table 7. General data - 6 to 7'/2 tons - high efficiency continued on next page 40 RT-PRCO23AL-EN 6 Tons 6 Tons 71/2 Tons T/YHC072E/F3,4W(a) T/YHC074F3,4(a) T/YHC092F3,4W(a) Cooling Performance(b) Gross Cooling Capacity 72,000 73,000 92,000 EER() 12.6 13.1 12.6 Nominal cfm/AHRI Rated cfm 2,400/2,100 2,400/2,100 3,000/2,625 AHRI Net Cooling Capacity 68,000 71,000 89,000 IEER(d),(e),(f) 14.5 15.5(e),(f) 14.5 System Power (kW) 5.37 5.42 7.06 Compressor Number/Type 1/Scroll 2/Scroll 2/Scroll Sound Outdoor Sound Rating (dB)(9) 89 89 88 Outdoor Coil - Type Microchannel Microchannel Microchannel Configuration Full Face Face -Split Face -Split Tube Size (in.) 0.71 1 1 Face Area (sq. ft.) 20.77 20.77 20.77 Rows/FPI 1/23 1/20 1/20 Indoor Coil - Type Lanced Lanced Lanced Configuration Full Face Intertwined Intertwined Tube Size (in.) 0.3125 0.3125 0.3125 Face Area (sq. ft.) 12.36 12.36 12.36 Rows/FPI 4/16 4/16 4/16 Refrigerant Control Thermal Expansion Valve Thermal Expansion Valve Thermal Expansion Valve Drain Connection Number/Size (in.) 13/4 NPT 13/4 NPT 13/4 NPT Outdoor Fan - Type Propeller Propeller Propeller Number Used/Diameter (in.) 1/26 1/26 1/26 Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 cfm 5,900 5,750 6,800 Motor hp 0.7 0.7 0.75 Motor rpm 1,100 1,100 1,100 Indoor Fan - Type FC Centrifugal BC Plenum BC Plenum Number Used/Diameter (in.)/Width (in.) 1/15x15 1/19.7x15 1/19.7x15 Drive Type/No. Speeds/rpm Belt/Variable/1,750 Direct/Variable(h) Direct/Variable(h) Motor hp (Standard/Oversized) 1.0/2.0 3.75/— 3.75/— Motor Frame Size (Standard/Oversized) 56/56 —/— —/— Filters(i) Type Furnished Throwaway Throwaway Throwaway Number Size Recommended (4) 20x25x2 (4) 20x25x2 (4) 20x25x2 Optional Hot Gas Reheat Coil - Type Tube Size (in.) OD — — 0.3125 Face Area (sq. ft.) — — 8.652 Rows/FPI — — 1/16 Refrigerant Charge (Lbs. of R- 410A)I>> Standard 7.7 5.8/4.1 5.5/4.2 Optional Hot Gas Reheat Coil — — 6.2/4.3 continued on next page 40 RT-PRCO23AL-EN General Data Table 7. General data - 6 to 7'/2 tons - high efficiency (continued) (a) 575V (W voltage) is only available as YHC 072 (not available on YHC074). No THC models available with 575V (W voltage). (b) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 340/360. (c) EER is rated at AHRI conditions and in accordance with DOE test procedures. (d) Integrated Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. The IEER rating requires that the unit efficiency be determined at 100%, 75%, 50% and 25% load (net capacity) at the specified in AHRI Standard. (e) 15.0 IEER for multi -speed. (f) 16.0 IEER for multi -speed, SZVAV, and MZVAV. (g) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (h) For multispeed direct drive rpm THC/YHC values, reference Table 125, p. 170. (i) Optional 2" MERV 8 and MERV 13 filters also available. (j) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (k) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (1) AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 41 6 Tons 6 Tons 71/2 Tons T/YHC072E/F3,4W(a) T/YHC074F3,4(a) T/YHC092F3,4W(a) Heating Performance(k) (Gas/Electric Only) Heating Input Low Heat Input (Btu) 80,000 80,000 120,000 Mid Heat Input (Btu) 120,000 120,000 150,000/105,000 High Heat Input (Btu) 150,000/105,000 150,000/105,000 200,000/140,000 Heating Output Low Heat Output (Btu) 64,000 64,800 96,000 Mid Heat Output (Btu) 96,000 97,200 120,000/84,000 High Heat Output (Btu) 120,000/84,000 121,500/85,050 160,000/112,000 AFUE%(I) Low Heat Input (Btu) — — — Mid Heat Input (Btu) — — — High Heat Input (Btu) — — — Steady State Efficiency% Low Heat Input (Btu) 80 81 80 Mid Heat Input (Btu) 80 81 80 High Heat Input (Btu) 80 81 80 No. Burners Low Heat Input (Btu) 3 3 3 Mid Heat Input (Btu) 3 3 3 High Heat Input (Btu) 4 4 4 No. Stages Low Heat Input (Btu) 1 1 1 Mid Heat Input (Btu) 1 1 2 High Heat Input (Btu) 2 2 2 Gas Supply Line Pressure Natural (minimum/maximum) 4.5/14.0 4.5/14.0 4.5/14.0 LP (minimum/maximum) 11.0/14.0 11.0/14.0 11.0/14.0 Gas Connection Pipe Size (in) Low Heat 1/2 1/2 1/2 Mid Heat 1/2 1/2 3/4 High Heat 3/4 3/4 3/4 (a) 575V (W voltage) is only available as YHC 072 (not available on YHC074). No THC models available with 575V (W voltage). (b) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 340/360. (c) EER is rated at AHRI conditions and in accordance with DOE test procedures. (d) Integrated Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. The IEER rating requires that the unit efficiency be determined at 100%, 75%, 50% and 25% load (net capacity) at the specified in AHRI Standard. (e) 15.0 IEER for multi -speed. (f) 16.0 IEER for multi -speed, SZVAV, and MZVAV. (g) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (h) For multispeed direct drive rpm THC/YHC values, reference Table 125, p. 170. (i) Optional 2" MERV 8 and MERV 13 filters also available. (j) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (k) Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (1) AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 41 General Data Table 8. General data - 81/2 to 10 tons - high efficiency continued on next page 42 RT-PRCO23AL-EN 81/2 Tons 10 Tons T/YHC102F3,4W(a) T/YHC120F3,4,W(a) Cooling Performance(b) Gross Cooling Capacity 104,000 116,000 EER(0 12.5(e) 12.4 Nominal cfm/AHRI Rated cfm 3,400/2,720 4,000/3,350 AHRI Net Cooling Capacity 99,000 113,000 IEER(d) 14.7(f)(9) 14.7(h) System Power (kW) 7.92 9.11 Compressor Number/Type 2/Scroll 2/Scroll Sound Outdoor Sound Rating (d6)0) 89 87 Outdoor Coil - Type Microchannel Microchannel Configuration Face Split Face Split Tube Size (in.) 1 1 Face Area (sq. ft.) 20.77 26.77 Rows/FPI 1/20 1/23 Indoor Coil - Type Lanced Lanced Configuration Intertwined Intertwined Tube Size (in.) 0.3125 0.3125 Face Area (sq. ft.) 12.36 16.65 Rows/FPI 5/16 4/16 Refrigerant Control Thermal Expansion Valve Thermal Expansion Valve Drain Connection Number/Size (in.) 13/4 NPT 13/4 NPT Outdoor Fan - Type Propeller Propeller Number Used/Diameter (in.) 1/26 1/30 Drive Type/No. Speeds Direct/1 Direct/1 cfm 6,800 7,540 Motor hp 0.75 0.75 Motor rpm 1,100 1,100 Indoor Fan - Type BC Plenum BC Plenum Number Used/Diameter (in.)/Width (in.) 1/19.7x15 1/19.7x15 Drive Type/No. Speeds/rpm Direct/Variable(j) Direct/Variable()) Motor hp (Standard/Oversized) 3.75/— 3.75/— Motor Frame Size (Standard/Oversized) —/— —/— Filters(k) Type Furnished Throwaway Throwaway (3) 20x25x2 Number Size Recommended (4) 20x25x2 (2) 20x3Ox2 Optional Hot Gas Reheat Coil - Type Tube Size (in.) OD 0.3125 0.3125 Face Area (sq. ft.) 8.652 15.225 Rows/FPI 1/16 1/16 Refrigerant Charge (Lbs. of R -410A)(1) Standard 6.3/4.9 7.1/5.0 Optional Hot Gas Reheat Coil 6.6/4.7 8.0/5.0 continued on next page 42 RT-PRCO23AL-EN 10 fR4jW' General Data Table 8. General data - 81/2 to 10 tons - high efficiency (continued) (a) 575V (W voltage) is only available as YHC. No THC models available with 575V (W voltage). (b) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to t20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 340/360. (c) EER is rated at AHRI conditions and in accordance with DOE test procedures. (d) Integrated Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. The IEER rating requires that the unit efficiency be determined at 100%, 75%, 50% and 25% load (net capacity) at the specified in AHRI Standard. (e)YHC102FW: EER = 12.4 (f) 15.5 IEER for SZVAV. (g)YHC102FW IEER = 14.5 (h) 15.2 IEER for SZVAV. (i) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (j) For multispeed direct drive rpm THC/YHC values, reference Table 125, p. 170. (k) Optional 2" MERV 8 and MERV 13 filters also available. (1) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (m)Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (n)AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 43 81/2 Tons 10 Tons T/YHC102F3,4W(a) T/YHC120F3,4,W(a) Heating Performance(m) (Gas/Electric Only) Heating Input Low Heat Input (Btu) 120,000 150,000/105.000 Mid Heat Input (Btu) 150,000/105,000 200,000/140,000 High Heat Input (Btu) 200,000/140,000 250,000/175,000 Heating Output Low Heat Output (Btu) 96,000 120,000/84,000 Mid Heat Output (Btu) 120,000/84,000 160,000/112,000 High Heat Output (Btu) 160,000/112,000 200,000/140,000 AFUE%(n) Low Heat Input (Btu) — — Mid Heat Input (Btu) — — High Heat Input (Btu) — — Steady State Efficiency% Low Heat Input (Btu) 80 80 Mid Heat Input (Btu) 80 80 High Heat Input (Btu) 80 80 No. Burners Low Heat Input (Btu) 3 3 Mid Heat Input (Btu) 3 4 High Heat Input (Btu) 4 5 No. Stages Low Heat Input (Btu) 1 2 Mid Heat Input (Btu) 2 2 High Heat Input (Btu) 2 2 Gas Supply Line Pressure Natural (minimum/maximum) 4.5/14.0 4.5/14.0 LP (minimum/maximum) 11.0/14.0 11.0/14.0 Gas Connection Pipe Size (in) Low Heat 1/2 3/4 Mid Heat 3/4 3/4 High Heat 3/4 3/4 (a) 575V (W voltage) is only available as YHC. No THC models available with 575V (W voltage). (b) Cooling performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to t20% of nominal cfm. Units are certified in accordance with the Unitary Air -Conditioner Equipment certification program, which is based on AHRI Standard 340/360. (c) EER is rated at AHRI conditions and in accordance with DOE test procedures. (d) Integrated Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. The IEER rating requires that the unit efficiency be determined at 100%, 75%, 50% and 25% load (net capacity) at the specified in AHRI Standard. (e)YHC102FW: EER = 12.4 (f) 15.5 IEER for SZVAV. (g)YHC102FW IEER = 14.5 (h) 15.2 IEER for SZVAV. (i) Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. For additional information refer to Table 126, p. 171. (j) For multispeed direct drive rpm THC/YHC values, reference Table 125, p. 170. (k) Optional 2" MERV 8 and MERV 13 filters also available. (1) Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions. (m)Heating performance limit settings and rating data were established and approved under laboratory test conditions using American National Standards Institute standards. Ratings shown are for elevations up to 2000 feet. For elevations above 2000 feet, ratings should be reduced at the rate of 4% for each 1000 feet above sea level. Applicable to Gas/Electric units only. (n)AFUE is rated in accordance with DOE test procedures. RT-PRCO23AL-EN 43 10 nom. Performance Data Table 9. Gross cooling capacities 3 tons standard efficiency - three phaseT/YSC033G3,4,W 44 RT-PRCO23AL-EN Ambient Temperature ° Ambient Temperature Ambient Temperature 85 95 0 Air Ent Entering Wet Bu °F Entering Wet Bu F Entering Wet Bulb°F Flow DB 61 67 73 61 67 73n33 67 73 cfm (°F) MB SHC MB SHC MB SHC MB SHC MB SHC MB SHC MB HC MB SHC -960-75 37 1 15 5 0--4-1-14--- 1 4 8 1 960 960 80 33 33 37 27 43 20 32 32 36 26 41 20 34 25 38 19 960 85 34 34 38 33 42 26 33 33 36 32 40 25 34 31 38 24 960 90 37 37 38 38 42 31 35 35 36 36 40 31 34 34 38 30 1080 1080 75 80 34 34 30 34 38 29 43 43 15 21 32 32 29 32 36 28 41 21 31 30 34 27 39 20 1080 85 36 36 38 35 43 27 35 35 37 34 41 27 33 33 35 34 39 26 1080 90 38 38 39 39 43 34 37 37 37 37 41 33 35 35 35 35 39 32 0 0 35 22 40 14 1200 80 35 35 39 31 44 22 33 33 37 30 42 21 31 31 35 29 40 21 1200 85 37 37 39 38 44 29 36 36 37 37 42 28 34 34 35 35 40 28 1200 90 40 40 39 39 44 36 38 38 1 38 38 42 35 36 36 36 36 40 34 1320 75 35 34 -3-9-- 25 45 16 33 33 37 24 43 5--Tl----3f---3-5 4 1 1320 80 35 35 40 32 44 23 34 34 38 32 43 23 32 32 36 31 40 22 1320 85 38 38 40 40 45 31 37 37 38 38 42 30 35 35 36 36 40 29 1320 90 41 41 40 40 45 38 39 39 38 38 43 38 38 38 37 37 40 37 1440 75 35 5 4 26 45 16 34 33 38 25 43 5 32-3 2 36 24 41 14 1440 80 36 36 40 34 45 24 35 35 38 33 43 23 34 34 36 33 40 22 1440 85 39 39 40 40 45 32 38 38 38 38 43 32 36 36 36 36 41 31 1440 90 42 42 1 41 41 1 45 41 40 40 1 39 39 43 40 39 39 38 38 41 39 Ambient Temperature Ambient Temperature 215 125 Air Ent Entering Wet Bulb (IF)Entering Wet Bulb Flow DB 61 67 73 61 67 73 cfm (°F) B SHC MB H MB H MB H MB SHC MB H 960 75 29- 26 32 19 6 12 26 25 30 18 4 1 960 80 28 28 32 25 36 18 26 26 30 24 34 17 960 85 30 30 32 30 36 23 29 29 30 29 34 23 960 90 32 32 32 32 36 29 31 31 30 30 34 28 1080 75 28 28 32 20 37 1T- 27 30 19 35 12 1080 80 29 29 32 26 36 19 28 28 30 26 34 18 1080 85 32 32 33 33 37 25 30 30 31 31 34 24 1080 90 34 34 33 33 37 31 32 32 31 31 35 30 5 9 2 33 --2-F--2-7- 2 1 1200 80 30 30 33 28 37 20 29 29 31 27 34 19 1200 85 33 33 33 33 37 27 31 31 31 31 35 26 1200 90 35 35 34 34 38 34 33 33 33 33 35 33 1320 75 29 29 33 22 38 1 7 2 31 1 35 12 1320 80 31 31 33 30 37 21 30 30 31 29 35 20 1320 85 33 33 34 34 38 28 32 32 32 31 35 27 1320 90 36 36 36 36 38 36 34 34 34 34 36 35 1440 75 30 30 34 23 38 14 28 28 31 23 36 13 1440 80 32 32 34 32 38 22 30 30 32 31 35 21 1440 85 34 34 34 34 38 30 32 32 32 32 36 29 1440 90 37 37 37 37 41 41 35 35 35 35 36 36 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity 44 RT-PRCO23AL-EN m Performance Data Table 10. Gross cooling capacities 4 tons standard efficiency -three phaseT/YSC043G3,4,W RT-PRCO23AL-EN 45 Ambient emperature Ambient Temperature Ambient Temperature 85 95 105 Air Ent Entering Wet Bu °F Entering Wet Bu °F Entering Wet Bu °F Flow DB 1 7 73 7 73 61 67 73 Orn (°F) MB HC MB HC MB SHC MB HC MB SHC MB SHC MB SHC MB -4-5-72-6-4 SHC MB SHC 1__46_----3 5 1 4 47 5 1 1280 80 44 44 50 35 56 26 42 42 47 34 53 25 40 40 45 33 49 24 1280 85 47 47 50 42 56 33 45 45 48 41 53 32 43 43 45 40 50 31 1280 90 50 50 50 49 56 40 48 48 48 48 53 39 45 45 45 45 50 38 1440 80 45 45 51 37 56 27 43 43 48 36 53 26 42 42 45 35 50 25 1440 85 49 49 51 45 56 35 47 47 48 44 53 34 45 45 46 43 50 33 1440 90 52 52 51 51 57 43 50 50 49 49 54 42 47 47 47 47 50 41 9 0 17 1600 80 46 46 52 40 57 28 45 45 49 39 54 27 43 43 46 37 51 26 1600 85 50 50 52 49 57 37 48 48 49 47 54 36 46 46 46 46 51 35 1600 90 53 53 53 53 57 46 51 51 51 51 54 45 48 48 48 48 51 44 -17-6-0-- 75 46 44 52 5 20 --4-4---4-3- __4_9_____3 --5-4----19— 4 41 46 30 51 8 1760 80 49 49 52 42 58 30 47 47 50 41 55 28 44 44 47 40 51 27 1760 85 52 52 53 52 58 39 50 50 50 SO 55 38 47 47 47 47 51 37 1760 90 55 55 55 55 58 49 52 52 52 52 55 48 50 50 50 50 51 46 4 4 5 5 4 47 5 1920 80 50 50 53 44 58 31 48 48 50 43 55 30 45 45 47 42 52 29 1920 85 53 53 53 53 58 41 51 51 50 50 55 40 48 48 47 47 51 39 1920 90 56 56 56 56 1 59 52 53 53 53 53 55 51 50 50 50 50 52 49 Ambient emperature Ambient Temperature 115 125 Air Ent Entering Wet Bulb (OF) Entering Wet Bulb (IF) Flow DB 61 67 73 61 67 73 cfm (°F) MB HC MB HC MB HC MB SHC MB SHC MB S C 1280 75 37 33 42 24 46 15 34 32 38 23 --4T---f 4 1280 80 37 37 42 32 46 22 36 36 39 30 42 21 1280 85 41 41 42 39 46 30 38 38 39 37 42 28 1280 90 43 43 42 42 46 37 40 40 40 40 42 35 1 4 1 3 4 414 1440 80 40 40 42 34 46 24 37 37 39 32 42 22 1440 85 42 42 43 42 47 32 39 39 39 39 42 30 1440 90 44 44 44 44 47 39 41 41 41 41 42 38 1600 38 8 43 4 1600 80 41 41 43 36 47 25 38 38 39 35 42 23 1600 85 43 43 43 43 47 33 40 40 40 40 42 32 1600 90 45 45 45 45 47 42 42 42 42 42 43 41 1760 --75--39 38 43 47 16 36 36 39 27 42 15 1760 80 42 42 43 38 47 26 39 39 40 37 42 24 1760 85 44 44 44 44 47 35 41 41 41 41 43 34 1760 90 46 46 46 46 47 45 42 42 42 42 43 42 1920 75 39 39 43 30 47 16 37 37 40 2 42 15 1920 80 42 42 44 40 47 27 39 39 40 39 42 25 1920 85 45 45 45 45 47 37 41 41 41 41 43 36 1920 90 47 47 47 47 47 47 43 43 43 43 43 43 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity RT-PRCO23AL-EN 45 vo TRANS' Performance Data Table 11. Gross cooling capacities 5 tons standard efficiency - three phaseT/YSC063G3,4,W 46 RT PRCO23AL-EN Ambient Temperature Ambient Temperature Ambient Temperature 85 95 105 Air Ent Entering Wet Bu F Entering Wet Bu F Entering Wet Bu °F Flow DB 61 67 73 61 67 73 61 67 73 cfm (°F) MS SHC MB SHC MB SRC MB SH MB HC MB SHC MB SHC MB SHC MB SHC 7 54 61 5 4 6 44 5 1 1600 80 55 55 61 44 68 33 53 53 58 43 65 32 50 50 55 42 61 31 1600 85 58 58 61 54 68 42 56 56 58 52 64 41 53 53 55 51 61 39 1600 90 61 61 61 61 68 51 59 59 58 58 65 50 56 56 55 55 61 48 0 1800 80 56 56 62 48 69 35 54 54 59 46 66 33 51 50 56 45 62 32 1800 85 60 60 62 58 69 45 58 58 59 56 65 43 55 55 56 55 62 42 1800 90 63 63 63 63 69 55 61 61 60 60 66 54 58 58 58 58 62 52 00 9 0 6 2000 80 58 58 63 50 70 36 56 56 60 49 66 35 54 54 57 48 63 34 2000 85 62 62 64 62 70 47 59 59 60 60 66 46 57 57 57 57 63 45 2000 90 1 65 65 64 64 70 59 1 63 63 62 62 67 57 60 60 60 60 63 56 0 75 57 56 64 41 71 26 55 54 6 40 67 24 52 5 57 --6-3----13- 3 32200 2200 80 58 58 64 53 71 38 58 58 61 52 67 37 55 55 58 51 64 35 2200 85 64 64 64 64 71 50 61 61 61 61 67 49 58 58 58 58 66 51 2200 90 67 67 65 65 71 62 64 64 64 64 67 61 61 61 61 61 63 59 5 4 --5—S----5T— 2400 80 61 61 65 56 71 39 59 59 62 55 68 38 56 56 58 54 63 37 2400 85 65 65 65 65 71 53 62 62 62 62 68 51 59 59 59 58 64 50 2400 90 69 69 1 69 69 1 72 66 66 66 1 66 66 68 65 62 62 62 62 1 64 63 m lent Temperature m lent Temperature 115 125 Air Ent Entering Wet Bulb (OF) Entering Wet Bulb (OF) Flow DB 61 67 73 61 67 7 cfm (°F) MB HC MB K SHC MB K SHC MB SHC MB h SHC M SHC 16-- 75 47 43 52 32 5 20 44 4 48 30 53 19 1600 80 47 47 52 41 57 29 44 44 48 39 53 28 1600 85 51 51 52 50 57 38 48 48 49 48 53 37 1600 90 1 54 54 52 52 57 48 1 50 50 50 50 53 45 1800 75 47 465 4 1 1800 80 49 49 52 46 58 31 47 47 49 42 53 29 1800 85 52 52 53 53 58 41 49 49 49 49 53 39 1800 90 55 55 55 55 58 51 52 52 52 52 53 49 75 8--53-3 5 21 45 45 49 34 53 1 2000 80 51 51 53 46 58 32 48 48 50 45 53 31 2000 85 54 54 54 54 58 43 51 51 50 50 54 42 2000 90 57 57 57 57 59 54 53 53 53 53 54 53 2200 75 49 4 5 7 --59-21 46 45 50 36 53 20 2200 80 52 52 54 49 59 34 49 49 50 48 54 32 2200 85 55 55 54 54 59 46 51 51 51 51 54 44 2200 90 58 58 58 58 59 58 54 54 54 54 54 54 2400 75 49 49 54 39 59 22 46 6 50 37 54 20 2400 80 53 53 55 52 59 35 50 50 50 50 54 33 2400 85 56 56 55 55 59 48 52 52 52 52 54 47 2400 90 59 59 59 59 59 59 54 54 54 54 54 54 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity 46 RT PRCO23AL-EN Performance Data Table 12. Gross cooling capacities 3 tons standard efficiency - three phaseT/YSC036G3,4,W RT-PRCO23AL-EN 47 Ambient Temperature Ambient Temperature Ambient Temperature 85 95 105 Air Ent Entering Wet BulbEntering Wet BulbEntering Wet Bulb Flow DB 61 67 73 61 67 73 61 67 73 cfm (°F) MB SNC MB SHC MB SHC MB SHC MB SH MB SHC MB SHC MB SHC MBfi SHC 96 75 33 7 1 4 15 31 27 35 20 41 14 0 6 13 960 80 33 33 37 27 43 20 32 32 36 26 41 20 30 30 34 25 38 19 960 85 34 34 38 33 42 26 33 33 36 32 40 25 32 32 34 31 38 24 960 90 37 37 38 38 42 31 35 35 36 36 40 31 34 34 34 34 38 30 10 5 4 1 1 1 1080 80 34 34 38 29 43 21 32 32 36 28 41 21 31 30 34 27 39 20 1080 85 36 36 38 35 43 27 35 35 37 34 41 27 33 33 35 34 39 26 1080 90 1 38 38 39 39 43 34 37 37 37 37 1 41 33 35 35 35 35 39 32 1200 75 34 32 39 4 4 1 23 1 42 15 31 30 3 40 14 1200 80 35 35 39 31 44 22 33 33 37 30 42 21 31 31 35 29 40 21 1200 85 37 37 39 38 44 29 36 36 37 37 42 28 34 34 35 35 40 28 1200 90 40 40 39 39 44 36 38 38 38 38 42 35 36 36 36 36 40 34 1320 75 35 34 39 25 45 16 33 33 37 24 43 15 31 31 35 23 40 14 1320 80 35 35 40 32 44 23 34 34 38 32 43 23 32 32 36 31 40 22 1320 85 38 38 40 40 45 31 37 37 38 38 42 30 35 35 36 36 40 29 1320 90 41 41 40 40 45 38 39 39 6 38 43 38 38 38 37 37 40 37 1440 75 35 35 40 26 45 16 34 33 38 25 43 15 32 32 36 24 41 14 1440 80 36 36 40 34 45 24 35 35 38 33 43 23 34 34 36 33 40 22 1440 85 39 39 40 40 45 32 38 38 38 38 43 32 36 36 36 36 41 31 1440 90 1 42 42 1 41 41 1 45 41 40 4039 39 43 40 39 39 38 38 41 39 Ambient Temperature m ien Temperature fig— 125 Air Ent Entering Wet BulbEntering Wet Bulb Flow DB 61 67 73 61 6 cfm (°F) -MBh SHC MB SHC MB SHC MB HC MB H MB SHC 960 75 28 26 32 19 36 12 26 25 1 34 12 960 80 28 28 32 25 36 18 26 26 30 24 34 17 960 85 30 30 32 30 36 23 29 29 30 29 34 23 960 90 1 32 32 32 32 36 29 31 31 30 30 34 28 1080 75 28 28 20 37 13 27 26 30 19 35 12 1080 80 29 29 32 26 36 19 28 28 30 26 34 18 1080 85 32 32 33 33 37 25 30 30 31 31 34 24 1080 90 34 34 33 33 37 31 32 32 31 31 35 30 1 75 29 1 7 7 1 1200 80 30 30 33 28 37 20 29 29 31 27 34 19 1200 85 33 33 33 33 37 27 31 31 31 31 35 26 1200 90 35 35 34 34 38 34 33 33 33 33 35 33 1320 75 29 29 33 22 38 13 7 7 1 1 35 12 1320 80 31 31 33 30 37 21 30 30 31 29 35 20 1320 85 33 33 34 34 38 28 32 32 32 31 35 27 1320 90 36 36 36 36 38 36 34 34 34 34 36 35 —1440-75 30 30 34 23 38 14 28 28 31 23 36 13 1440 80 32 32 34 32 38 22 30 30 32 31 35 21 1440 85 34 34 34 34 38 30 32 32 32 32 36 29 1440 90 37 37 1 37 37 41 41 35 35 35 35 36 36 otes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity RT-PRCO23AL-EN 47 Performance Data Table 13. Gross cooling capacities 4 tons standard efficiency - three phaseT/YSCO48G3,4,W 48 RT PRCO23AL-EN Ambient Temperature Ambient Temperature Ambient Temperature 85 95 105 Air Ent Entering Wet Bu F Entering Wet Bu F Entering Wet Bu °F Flow DB 61 67 73 61 67 7 61 7 7 cfm (°F) MB S MB SHC MB SHC MB SHC MB SH MB S MB M SH BY C 1--2 9F 75 46 5 4 5 14 4 26 4 17 1280 80 44 44 50 35 56 26 42 42 47 34 53 25 40 40 45 33 49 24 1280 85 47 47 50 42 56 33 45 45 48 41 53 32 43 43 45 40 50 31 1280 90 50 50 50 49 56 40 48 48 48 48 53 39 45 45 45 45 50 38 9 1 1440 80 45 45 51 37 56 27 43 43 48 36 53 26 42 42 45 35 50 25 1440 85 49 49 51 45 56 35 47 47 48 44 53 34 45 45 46 43 50 33 1440 90 52 52 51 51 57 43 50 50 49 49 54 42 47 47 47 47 50 41 0 1600 80 46 46 52 40 57 28 45 45 49 39 54 27 43 43 46 37 51 26 1600 85 50 50 52 49 57 37 48 48 49 47 54 36 46 46 46 46 51 35 1600 90 53 53 53 53 57 46 51 51 51 51 54 45 48 48 48 48 51 44 1760 75 ---46-44 52 2 5 44 43 49 3 54 19 41 ---4-f— 46 30 51 18 1760 80 49 49 52 42 58 30 47 47 50 41 55 28 44 44 47 40 51 27 1760 85 52 52 53 52 58 39 50 50 50 50 55 38 47 47 47 47 51 37 1760 90 55 55 55 55 58 49 52 52 52 52 55 48 50 50 50 50 51 46 1920 75 47 44 42 5 1920 80 50 50 53 44 58 31 48 48 50 43 55 30 45 45 47 42 52 29 1920 85 53 53 53 53 58 41 51 51 50 50 55 40 48 48 47 47 51 39 1920 90 56 56 1 56 56 1 59 52 53 53 53 53 55 51 50 50 50 50 52 49 Ambient Temperature (-F) Amble t Temperature 115 125 Air Ent Entering Wet Bu Entering Wet Bulb Flow DB 61 67 73 61 67 73 cfm (°F) MB SHC MB HC —R—BK--S—H— MB HC MB H MB SHC 1280 75 37 33 42 24 46 15 4 32 38 23 42 14 1280 80 37 37 42 32 46 22 36 36 39 30 42 21 1280 85 41 41 42 39 46 30 38 38 39 37 42 28 1280 90 43 43 42 42 46 37 40 40 40 40 42 35 1440 75 38 36 4 1 4 9 14 1440 80 40 40 42 34 46 24 37 37 39 32 42 22 1440 85 42 42 43 42 47 32 39 39 39 39 42 30 1440 90 44 44 44 44 47 39 41 41 41 41 42 38 160V --7S---3-9----3-8-43 27 47 16 35 35 39 26 42 14 1600 80 41 41 43 36 47 25 38 38 39 35 42 23 1600 85 43 43 43 43 47 33 40 40 40 40 42 32 1600 90 45 45 45 45 47 42 42 42 42 42 43 41 1760 75 39 38 43 28 47 16 36 36 39 27 42 15 1760 80 42 42 43 38 47 26 39 39 40 37 42 24 1760 85 44 44 44 44 47 35 41 41 41 41 43 34 1760 90 46 46 46 46 47 45 42 42 42 42 43 42 1920 75 39 39 43 30 47 16 37 37 --40---29— 42 15 1920 80 42 42 44 40 47 27 39 39 40 39 42 25 1920 85 45 45 45 45 47 37 41 41 41 41 43 36 1920 90 47 47 1 47 47 47 47 43 43 43 43 43 43 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity 48 RT PRCO23AL-EN Performance Data Table 14. Gross cooling capacities 5 tons standard efficiency - three phaseT/YSC060G3,4,W RT PRCO23AL-E N 49 Ambient emperature Ambient Temperature Ambient Temperature 85 95 105 Air Ent Entering Wet Bu(OF)—Entering Wet Bu °F Entering Wet Bu °F Flow DB 61 67 73 61 67 73 61 67 73 cfm (°F) MB HC MB SHC MB SH MB HC MB SHC MB SHC MB SHC MB SH MB HC 6 75 54 46 60 35 1600 80 54 54 60 44 68 33 51 51 58 43 65 32 49 49 55 42 61 30 1600 85 56 56 61 54 67 42 54 54 58 52 64 41 52 52 55 51 61 39 1600 90 59 59 61 61 68 51 57 57 58 58 65 50 55 55 55 55 61 49 1800 80 55 55 62 48 69 35 53 53 59 46 66 33 50 50 56 45 61 32 1800 85 58 58 62 58 69 45 56 56 59 57 66 44 53 53 56 55 62 42 1800 90 1 61 61 62 62 69 55 59 59 1 60 59 66 54 57 57 57 57 62 53 8 0 0 2000 80 57 56 63 51 70 36 54 54 60 49 67 35 52 52 57 48 62 33 2000 85 60 60 63 62 70 48 58 58 60 60 67 46 55 55 57 57 63 45 2000 90 64 64 64 64 70 59 61 61 61 61 67 58 58 58 58 58 63 56 2700 —7-5----5-7-57 4 --T4-54 61 406-8----Z4---5T- 51 57 38 63 23 2200 80 58 58 64 54 71 38 56 56 61 52 67 36 53 53 57 51 63 35 2200 85 62 62 64 64 71 50 59 59 61 61 68 49 57 57 58 58 63 48 2200 90 65 65 65 65 71 63 63 63 63 63 68 62 60 60 60 60 64 60 55 55--64-----2T- 4 2400 2400 80 59 59 65 57 72 39 57 57 62 55 68 38 54 54 58 54 64 37 2400 85 63 63 65 65 72 53 61 61 62 62 68 52 58 58 59 58 64 50 2400 90 1 67 67 67 67 1 72 67 64 64 64 64 69 65 61 61 61 61 64 64 m lent emperature m lent emperature 115 125 Air Ent Entering Wet Bu FEntering Wet Bulb (OF) Flow DB 61 67 73 61 67 73 cfm (OF) MB SHC MB SHC MB SHC WON—SHC MB SHC MB SH 1 00 —75----45-43 51 31 57 20 42 41 47 29 51 1 1600 80 46 46 51 40 57 29 43 43 47 39 51 27 1600 85 49 49 51 50 56 38 46 46 47 47 51 36 1600 90 52 52 52 52 57 47 48 48 48 48 52 45 1 0 4 4 5 7 1 1800 80 47 47 51 46 57 30 44 44 48 42 52 29 1800 85 51 51 52 52 57 41 47 47 48 48 52 39 1800 90 1 54 54 53 53 58 51 50 50 50 50 52 49 0 75 47 47 3 4 2-T9- 9 2000 2000 80 49 49 53 46 58 32 45 45 48 45 52 30 2000 85 52 52 53 53 61 46 48 48 49 48 53 42 2000 90 55 55 55 55 58 55 51 51 51 51 53 53 2200 75 48 48 53 37 --T9-2I 44 44 48 35 5 19 2200 80 50 50 53 49 58 33 46 46 49 48 53 32 2200 85 53 53 54 54 59 46 49 49 49 49 53 44 2200 90 56 56 56 56 59 59 52 52 52 52 53 53 2400 75 48 48--54-39 59 21 44 44 49 37 53 19 2400 80 51 51 54 52 59 35 47 47 49 49 53 33 2400 85 54 54 54 54 59 49 50 50 50 50 53 47 2400 90 57 57 57 57 1 59 59 53 53 53 53 53 53 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity RT PRCO23AL-E N 49 Performance Data Table 15. Gross cooling capacities 6 tons standard efficiency - three phaseT/YSC072F3,4,W 50 RT PRCO23AL-EN Ambient Temperature Ambient Temperature Ambient Temperature 5 95 105 Air Ent Entering Wet Bu °F Entering Wet Bu °F Entering Wet Bu °F Flow DB 61 67 73n66.86 67 73 61 67 7 cfm (F) MB SHC MB HC -M--BK--S-WC-MB SH MB H MB SHC MB SHC MB SHC 19 75 5.1 1920 80 70.7 64.2 75.8 53.2 83.1 35.7 71.5 50.9 78.5 33.8 62.6 58.5 66.9 48.3 73.6 31.7 1920 85 73.0 71.4 76.9 63.8 83.1 49.8 72.7 61.3 78.5 47.6 65.1 65.1 68.2 58.5 73.7 45.3 1920 90 75.9 75.9 78.6 72.6 83.6 62.0 74.5 69.8 79.1 59.6 68.1 68.1 70.1 66.8 74.3 57.0 2160 80 73.0 66.6 77.8 55.2 84.9 37.4 68.9 63.8 73.4 52.8 80.1 35.4 64.6 60.7 68.7 50.2 75.1 33.2 2160 85 75.5 74.1 79.1 66.1 85.0 51.7 71.5 71.0 74.8 63.4 80.3 49.4 67.3 67.3 70.2 60.5 75.4 46.9 2160 90 78.5 78.5 81.0 75.1 85.7 64.1 74.6 74.6 76.7 72.2 81.1 61.6 70.5 70.5 72.2 69.1 76.3 58.9 75 2.8 9. 8. 8. .9 .8 8. 2400 80 74.9 68.9 79.5 57.1 86.3 38.8 70.8 65.9 75.0 54.5 81.5 36.7 66.4 62.7 70.2 51.8 76.4 34.4 2400 85 77.6 76.6 81.0 68.2 86.7 53.4 73.6 73.4 76.6 65.4 81.9 51.0 69.2 69.2 71.9 62.4 76.9 48.4 2400 90 80.9 80.9 83.1 77.5 87.6 66.0 76.9 76.9 78.8 74.4 82.9 63.4 -2f 72.7 72.7 74.2 71.2 77.9 60.6 2640 75 74.3 61.2 79.8 45.6 7.6 23.5 70.0 -5-8-.-T-75.1 43.2 2.5 .5 5.4 55.3 2640 80 76.7 71.0 81.0 58.8 87.6 40.1 72.4 67.9 76.4 56.1 82.6 37.9 67.9 64.6 71.5 53.3 77.4 35.5 2640 85 79.6 78.9 82.7 70.1 88.1 54.9 75.4 75.4 78.2 67.2 83.2 52.4 71.0 71.0 73.4 64.1 78.1 49.7 2640 90 83.0 83.0 85.0 79.6 89.2 67.7 78.9 78.9 80.5 76.5 84.4 65.0 74.6 74.6 75.8 73.1 -71.7G--4-I-.-6- 79.4 62.1 2 2 5 4 5 4.4 2880 80 78.1 72.9 82.2 60.3 88.6 41.3 73.8 69.7 77.5 57.5 83.5 38.9 69.2 66.3 72.5 54.6 78.2 36.4 2880 85 81.2 81.1 84.1 71.9 89.3 56.2 76.9 76.9 79.5 68.9 84.3 53.6 72.4 72.4 74.6 65.7 79.1 50.9 2880 90 84.9 84.9 86.6 81.6 1 90.6 69.3 80.7 80.7 82.0 78.3 85.7 66.5 76.2 76.2 77.2 74.9 80.5 63.5 Ambient Temperature m lent Temperature 115 125 Air Ent Entering Wet Bulb (OF)Entering Wet Bu F Flow DB 61 67 173 61 67 73 cfm (F) MB--H-C- Man SHC MBn S111C MBn SHC MB SHC MOR H 1920 75 56.2 46.9 61.3 33.8 68.8 14.3 51.4 43. 56.7 .2 3.3 12.0 1920 80 58.2 55.3 62.2 45.6 68.4 29.4 53.5 52.0 57.1 42.7 63.0 27.0 1920 85 60.7 60.7 63.5 55.5 68.6 42.8 56.1 56.1 58.6 52.4 63.3 40.1 1920 90 64.8 64.8 65.4 63.6 69.4 54.2 60.0 60.0 60.6 60.2 64.1 51.3 57.9 4 5 . 4 . 4.4 13.0 2160 80 60.1 57.4 63.8 47.3 69.9 30.8 55.3 54.0 58.7 44.3 64.4 28.2 2160 85 62.8 62.8 65.4 57.5 70.2 44.3 58.1 58.1 60.3 54.2 64.8 41.5 2160 90 1 66.8 66.8 67.5 65.8 71.2 56.0 61.9 61.9 62.5 62.3 65.9 52.9 2400 75 59.4 50.5 64.0 .6 6. 54.4 47.2 .3 13.8 2400 80 61.7 59.4 65.2 48.9 71.0 31.9 56.9 55.8 60.0 45.7 65.4 29.2 2400 85 64.7 64.7 67.0 59.2 71.6 45.7 59.9 59.9 61.8 55.9 66.1 42.7 2400 90 68.6 68.6 69.3 67.7 72.8 57.6 63.6 63.6 64.2 64.1 67.3 54.4 2640 75 60.6 52.1 65.0 37.7 71.7 17.0 5.5 48.6 59.6 34.8 65.9 14.4 2640 80 63.2 61.1 66.4 50.2 71.9 32.9 58.2 57.5 61.1 47.0 66.2 30.1 2640 85 66.3 66.3 68.4 60.8 72.7 46.9 61.4 61.4 63.1 57.4 67.1 43.8 2640 90 70.2 70.2 70.9 69.6 74.1 59.0 65.7 65.7 65.7 65.7 1 68.5 55.7 2880 75 61.5 53.4 65.7 38.7 72.2 17.5 56.3 49.9 60.2 35.6 66.3 14.9 2880 80 64.3 62.7 67.3 51.4 72.6 33.6 59.2 59.0 61.9 48.1 66.8 30.7 2880 85 67.6 67.6 69.5 62.3 73.6 47.9 62.6 62.6 64.1 58.7 67.9 44.7 2880 90 71.5 71.5 72.2 71.2 75.1 60.3 66.9 66.9 66.9 66.9 69.5 56.9 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity 50 RT PRCO23AL-EN Performance Data Table 16. Gross cooling capacities 71/2 tons standard efficiency - three phaseT/YSC090F3,4,W RT-PRCO23AL-EN 51 Ambient Temperature Ambient Temperature Ambient Temperature 85 95 105 Air Ent Entering Wet Bu °F Entering Wet Bu F Entering Wet Bu F Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MB SHC MB SHC MB SHC -M--BK-S--Ht--MB-H-SHC MB SHC MBK SHC MBK SHC Msh I SHC 2400 75 82.8 67.2 1. 2400 80 85.3 78.3 90.1 64.6 97.0 42.5 81.0 75.4 85.5 62.1 92.1 40.6 76.3 72.0 80.5 59.3 86.8 38.3 2400 85 88.4 87.2 91.9 77.8 97.5 60.0 84.2 83.9 100.8 10.6 83.3 83.3 79.4 79.4 82.3 72.0 87.4 55.3 2400 90 92.1 92.1 94.3 88.7 98.6 75.3 87.0 87.0 87.9 87.7 93.8 72.8 83.2 83.2 84.8 82.3 -go 88.6 69.9 2700 79 -T--46-5-.0 2700 80 87.6 81.2 92.1 67.1 98.6 44.7 83.2 78.1 87.4 64.5 93.7 42.6 78.4 74.6 82.2 61.6 88.2 40.2 2700 85 90.9 90.3 94.1 80.5 99.4 62.4 86.6 86.6 102.0 12.4 86.6 86.6 81.7 81.7 84.3 74.4 89.0 57.4 2700 90 94.8 94.8 96.7 91.7 100.7 77.9 90.5 90.5 92.1 88.5 95.8 75.3 85.7 85.7 87.0 85.0 90.5 72.3 000 75 8. 9 9. 8 0 3000 80 89.7 83.8 93.8 69.3 100.0 46.5 85.2 80.5 89.0 66.6 94.9 44.4 80.2 76.9 83.7 63.5 89.4 41.8 3000 85 93.2 93.1 96.0 83.0 101.0 64.5 94.9 44.4 103.0 13.8 96.0 62.0 83.8 83.8 86.1 76.6 90.5 59.2 3000 90 97.3 97.3 98.9 94.3 102.5 80.2 92.9 92.9 94.2 91.0 1 97.6 77.4 88.1 88.1 89.0 87.3 92.1 74.3 -330U--75--R.2 74.2 93.3 55.1 -1-0-0-.5--77--.6 83.6 7 T. T 88.4 52.5 5.3 5.6 -7-8-.-567.6 83.0 49.6 -8-9.6-2 3.2 3300 80 91.4 86.0 95.2 71.2 101.1 48.1 86.8 82.6 90.3 68.4 95.9 45.8 81.7 78.9 85.0 65.2 90.3 43.1 3300 85 95.2 95.2 97.7 85.1 102.3 66.3 95.9 45.8 103.6 14.8 97.2 63.7 85.6 85.6 87.5 78.4 91.6 60.7 3300 90 99.5 99.5 100.8 96.6 104.1 82.2 95.0 95.0 96.0 93.2 99.0 79.3 89.8 89.8 90.7 89.4 93.5 76.0 0 5 7 .7 3600 80 92.9 87.9 96.4 72.8 101.9 49.3 85.2 80.5 91.4 69.8 96.7 46.9 83.0 80.5 85.9 66.5 90.9 44.1 3600 85 96.9 96.9 99.1 86.9 103.4 67.7 96.7 46.9 104.1 15.6 98.2 65.0 87.1 87.1 88.7 79.9 90.5 59.2 3600 90 101.5 101.5 102.4 98.6 105.4 83.8 96.9 96.9 97.5 95.0 100.2 80.8 91.2 91.2 92.1 91.1 94.5 77.4 Ambient emperature Ambient Temperature 115 125 Air Ent Entering Wet Bu Entering Wet Bu °F Flow DB 61 67 73 61 67 73 cfm (F) MB SHC MB SHC MB HC MB SHC MB SHC MB SHC 2400 75 68.4 5 .0 7 .6 41.5 80.9 16.7 62.7 54.2 67.6 38.3 74.6 14. 2400 80 71.0 68.3 75.0 56.2 81.0 35.7 65.3 64.2 69.0 52.6 74.7 32.7 2400 85 74.2 74.2 76.9 68.5 81.6 52.3 68.5 68.5 70.9 64.7 75.4 49.1 2400 90 78.6 78.6 79.4 78.5 82.8 66.7 73.4 73.4 73.4 73.4 76.6 63.1 70 U 75 4 2. .3 4. .4 68.9 40.1 75.6--15-5-- 2700 80 73.0 70.8 76.6 58.3 82.3 37.5 67.2 66.6 70.5 54.6 76.0 34.3 2700 85 76.4 76.4 78.8 70.8 83.2 54.3 70.7 70.7 72.7 66.9 76.8 50.9 2700 90 80.7 80.7 81.5 81.1 84.6 68.9 75.5 75.5 75.5 75.5 78.3 65.2 3000 75 -7-F.-7--- 6= -76-. 45.0 82.9 19.5 65-.7-5-9-.2 70. 41.6 .4 3000 80 74.7 72.9 78.0 60.1 83.4 38.9 68.8 68.6 71.8 56.3 76.9 35.7 3000 85 78.4 78.4 80.4 72.9 84.5 56.0 72.5 72.5 74.2 68.8 78.1 52.5 3000 90 82.5 82.5 83.3 83.3 86.2 70.8 77.2 77.2 77.2 77.2 79.8 67.0 3300 75 7 .9 6 77.1 46.3 83.5 20.5 66.9 59. 70. 42.7 7679--17-,4- 3300 80 76.2 74.7 79.2 61.6 84.2 40.1 70.2 70.2 72.9 57.7 77.6 36.7 3300 85 80.1 80.1 81.7 74.6 85.5 57.4 74.1 74.1 75.5 70.3 79.0 53.7 3300 90 84.9 84.9 84.9 84.9 87.4 72.4 78.7 78.7 78.7 78.7 80.9 68.4 3600 75 -73.9-6 5.1 76.2 45.0 73.9 65.1 67.7 60.8 71.3 43.5 77.1 17.9 3600 80 77.4 76.2 80.0 62.8 84.7 40.9 71.3 71.3 73.6 58.7 78.1 37.4 3600 85 81.5 81.5 82.8 75.9 86.3 58.4 75.4 75.4 76.5 71.6 79.6 54.6 3600 90 86.2 86.2 86.2 86.2 88.4 73.6 79.9 79.9 79.9 79.9 81.8 69.5 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity RT-PRCO23AL-EN 51 Performance Data Table 17. Gross cooling capacities 71/2 tons standard efficiency - three phaseT/YSC092F3,4,W 52 RT PRCO23AL-EN Ambient Temperature Ambient Temperature Ambient Temperature 85 95 105 Air Ent Entering Wet Bulb (OF)Entering Wet Bu °F Entering Wet Bu °F Flow DB 61 67 7 73 61 7 7 cfm (F) MB SHC MB HC MBMB H MB SH MB SHC MB SHC MB HC -14W 75 7. 4. 1.4 7 64.7 4. 4 2400 80 88.8 81.7 95.0 68.8 104. r89. 90.0 66.1 98.6 46.1 79.3 74.9 84.6 63.0 92.8 43.5 2400 85 91.2 90.1 95.8 81.5 103. 90.8 78.4 97.9 62.6 81.8 81.8 85.6 75.1 92.2 59.7 2400 90 94.2 94.2 97.3 91.8 103.8 92.4 88.4 97.9 76.8 85.0 85.0 87.1 84.8 92.2 73.6 2700 80 91.4 84.7 97.3 71.5 106.0 50.6 86.7 81.4 92.1 68.6 100.4 48.2 81.7 77.7 86.6 65.4 94.5 45.5 2700 85 94.1 93.4 98.3 84.4 105.5 67.7 89.4 89.4 93.2 81.2 100.0 65.0 84.4 84.4 87.8 77.7 94.1 62.0 2700 90 97.3 97.3 100.0 94.9 1 105.7 82.4 92.7 92.7 95.0 91.4 100.2 79.4 87.8 87.8 89.6 87.6 94.4 76.0 000 9 98. 8. -8-6-T-= .8 8 8 9- 6- 7 T8-. 3000 80 93.8 87.6 99.3 73.9 107.7 52.7 88.9 84.1 94.0 70.9 102.0 50.1 83.7 80.3 88.4 67.6 95.9 47.3 3000 85 96.7 96.4 100.6 87.0 107.5 69.9 91.8 91.8 95.4 83.7 101.8 67.1 86.7 86.7 89.8 80.0 95.8 63.9 3000 90 100.1 100.1 102.5 97.7 107.8 84.8 95.4 95.4 97.4 94.1 102.2 81.7 90.9 90.9 91.8. 90.1 96.3 78.2 -33-0-0-75 3.4 78.7 100.2 60.5 109.8 34.7 88.4 75.4 94.7 57.7-10-3-.9-73-173- 8 71.8 54. 5 97.6 29.6 3300 80 95.9 90.1 101.1 76.1 109.2 54.5 90.9 86.5 95.6 73.0 103.3 51.8 85.5 82.6 89.8 69.5 97.1 48.8 3300 85 99.0 99.0 102.6 89.4 109.1 71.9 94.0 94.0 97.2 85.9 103.3 68.9 88.7 88.7 91.5 82.1 97.2 65.6 3300 1 90 102.7 102.7 104.8 100.3 109.8 87.0 97.8 97.8 99.4 96.5 1 104.0 83.7 92.8 92.8 1 93.8 92.4 1 97.9 80.1 0 0 5. 4. 7 . 55. 3600 80 97.7 92.4 102.6 78.0 110.3 56.0 92.5 88.7 97.0 74.7 104.3 53.1 87.0 84.6 91.0 71.1 98.0 50.0 3600 85 101.0 101.0 104.3 91.5 110.5 73.6 95.9 95.9 98.8 87.9 104.6 70.5 90.5 90.5 92.9 84.0 98.3 67.1 3600 90 105.0 105.0 106.7 102.6 111.4 88.9 99.9 99.9 101.3 98.7 105.5 85.5 94.5 94.5 95.5 94.5 99.3 81.8 Ambient emperature Ambient Temperature 1 IS 125 Air Ent Entering Wet Bulb (OF) Entering Wet Bu Flow DB 61 67 73 61 67 73 cfm (F) MB SHC MB SHC MB SHC MB HC MB h SHC MB H 2400 75 72.2 1.2 78.6 45.6 87.9 22.3 66.5 57.4 72.5 42.2 1.4 19.5 2400 80 74.1 71.1 78.9 59.7 86.7 40.6 68.5 66.9 72.9 56.0 80.3 37.4 2400 85 76.6 76.6 79.9 71.4 86.2 56.5 71.1 71.1 74.0 67.5 79.8 53.1 2400 90 80.8 80.8 81.6 80.8 86.3 70.1 75.7 75.7 75.7 75.7 79.9 66.3 2700 80 76.3 73.7 80.8 62.0 88.3 42.5 70.6 69.5 74.7 58.2 81.7 39.2 2700 85 79.1 79.1 82.1 73.9 87.9 58.6 73.4 73.4 76.0 69.8 81.4 55.0 2700 90 83.1 83.1 83.9 83.5 88.3 72.4 77.9 77.9 77.9 77.9 81.8 68.5 000 75 75. 6 6 90. 5.469.9 61.87 4 3. 2 .3 3000 80 78.2 76.2 82.4 64.0 89.5 44.1 72.3 71.8 76.1 60.1 82.8 40.7 3000 85 81.2 81.2 83.9 76.1 89.5 60.5 75.4 75.4 77.6 71.9 82.8 56.7 3000 90 85.1 85.1 86.0 85.9 90.0 74.5 79.8 79.8 79.8 79.8 1 83.4 70.4 3300 75 77. 67.8 2.7 51.0 91.0 26.6 71.1 6 .6 76.2 47.3 84.1 23.3 3300 80 79.8 78.3 83.7 65.7 90.5 45.5 73.8 73.8 77.3 61.7 83.7 41.9 3300 85 83.1 83.1 85.4 78.1 90.7 62.0 77.1 77.1 79.1 73.7 83.9 58.1 3300 90 87.8 87.8 87.8 87.8 91.5 76.2 81.5 81.5 81.5 81.5 84.7 72.0 3600 75 78.4 69.5 3.5 52.3 91. 27.5 72.1 65.1 76.8 48.4 8 .4 24.1 3600 80 81.2 80.2 84.8 67.2 91.3 46.6 75.1 75.1 78.2 63.0 84.3 42.9 3600 85 84.7 84.7 86.7 79.8 91.7 63.3 78.6 78.6 80.2 75.3 84.7 59.3 3600 90 89.3 89.3 89.3 89.3 92.7 77.7 82.9 82.9 82.9 82.9 85.8 73.4 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity 52 RT PRCO23AL-EN Performance Data Table 18. Gross cooling capacities 81/2 tons standard efficiency - three phaseT/YSC102F3,4,W RT-PRCO23AL-EN 53 Ambient Temperature Ambient Temperature Ambient Temperature 95 105 Air Ent Entering Wet Bu °F Entering Wet Bu F Entering Wet Bu °F Flow DS 61 67 73 61 67 73 1 67 73 cfm (F) MB SHC MB SH MB SHC MB SHC MB SHC SHC MB SH MB SHC MB SHC 7 77. 1 7. .1 4. 7 51. .4 2720 80 97.3 90.2 103.6 74.9 113.0 50.3 91.6 86.3 97.4 71.7 !06.3 47.8 85.6 82.0 90.9 68.2 99.4 44.9 2720 85 100.6 100.0 105.3 89.7 113.1 70.0 94.9 94.9 99.1 86.0 5 67.1 88.8 88.8 92.6 82.1 99.5 63.8 2720 90 104.6 104.6 107.8 101.8 114.0 87.1 98.9 98.9 101.6 97.7 4 83.7 94.2 94.2 95.1 93.3 100.4 80.0 3060 80 100.3 93.5 106.3 77.9 115.3 52.9 94.4 89.4 99.9 74.5 108.4 50.2 88.2 85.0 93.2 70.7 101.3 47.1 3060 85 103.8 103.6 108.2 93.0 115.7 72.9 97.9 97.9 101.9 89.1 108.8 69.8 91.7 91.7 95.2 84.9 101.7 66.3 3060 90 108.1 108.1 111.0 105.4 116.8 90.3 102.3 102.3 104.6 101.1 110.0 86.7 1 97.0 97.0 98.0 96.5 102.9 82.8 -3400 75 99.9-8375-07.1 .879.-6- -f n-. 5-59-.4 110.3 29.78 103.0 .9 3400 80 102.9 96.6 108.5 80.6 117.2 55.2 96.8 92.3 102.0 77.0 110.2 52.3 90.4 87.7 95.1 73.0 102.9 49.1 3400 85 106.7 106.7 110.8 96.0 117.9 75.6 100.6 100.6 104.3 91.9 110.9 72.2 94.3 94.3 97.4 87.6 103.6 68.5 3400 90 111.3 111.3 113.8 108.7 119.4 93.3 105.3 105.3 107.3 104.2 112.4 89.5 99.5 99.5 100.5 99.4 105.1 85.4 374 75 101. 86.0 108.8 4.7 118.7 .9 -9-5-.-6--8-1. -9To-2-.o--6-f. 3 111.5 89. 77.5 95.0--57-.-6 104.0 28.2 3740 80 105.2 99.4 110.5 83.0 118.8 57.3 98.9 94.9 103.8 79.2 111.7 54.1 92.3 90.0 96.7 75.1 104.2 50.7 3740 85 109.3 109.3 113.0 98.7 119.8 77.9 103.0 103.0 106.3 94.4 112.6 74.4 96.5 96.5 99.3 89.9 105.1 70.5 3740 90 114.2 114.2 116.3 111.7 121.5 95.9 107.9 107.9 109.6 107.0 114.4 91.9 101.6 101.6 102.6 102.1 106.9 87.7 -MC-6-2T. 4080 7 .4 97.179. 4080 80 107.1 101.9 112.1 85.1 120.1 59.0 100.7 97.2 105.2 81.1 112.8 55.7 93.9 92.2 98.0 76.8 105.1 52.1 4080 85 111.5 111.5 114.9 101.1 121.4 80.0 105.1 105.1 108.0 96.7 114.0 76.2 98.4 98.4 100.8 91.9 106.4 72.2 4080 90 116.7 116.7 118.5 114.5 123.4 98.3 110.3 110.3 111.7 109.6 116.1 94.1 103.4 103.4 104.5 104.4 108.4 89.6 Ambient emperature m lent emperature 115 125 Air Ent Entering Wet Bulb (OF) Entering Wet Bulb Flow DB 61 67 73 61 67 73 cfm (F) MB SH MB SH MB HC MB HC M HC MB SHC 2720 75 76.7 66.4 83.2 48.3 2.7 20.7 70.0 62.0 76.0 44.6 2720 80 79.2 77.5 84.1 64.4 92.1 41.8 72.5 72.5 77.0 60.3 84.5 38.4 2720 85 82.5 82.5 85.8 77.8 92.2 60.3 75.8 75.8 78.7 73.3 84.6 56.4 2720 90 1 88.4 88.4 88.4 88.4 93.2 76.0 81.2 81.2 81.2 81.2 85.6 71.8 -1060 5 78.8 68.8_77-.6---W.5-.4 19.3 3060 80 81.6 80.3 86.2 66.7 93.8 43.8 74.8 74.8 78.9 62.5 86.0 40.2 3060 85 85.2 85.2 88.2 80.5 94.3 62.6 78.4 78.4 80.9 75.8 86.5 58.6 3060 90 91.0 91.0 91.0 91.0 95.5 78.7 83.7 83.7 83.7 83.7 87.7 74.2 00 80. 7 6. 1 5.3 .3 2 67. 3400 80 83.7 82.8 88.0 68.8 95.2 45.6 76.7 76.7 80.5 64.4 87.3 41.8 3400 85 87.6 87.6 90.2 82.9 96.0 64.6 80.5 80.5 82.8 78.0 88.0 60.4 3400 90 93.3 93.3 93.3 93.3 97.5 81.0 85.9 85.9 85.9 85.9 89.5 76.4 3740 75 82.1 72.9 87.6 53.6 96.1 25.0 74.9 67.9 79.9 49.3 89.0-21.4 3740 80 85.5 85.0 89.4 70.7 96.3 47.0 78.2 78.2 81.7 66.0 88.2 43.0 3740 85 89.6 89.6 92.0 85.1 97.3 66.4 82.4 82.4 84.3 79.9 89.2 61.9 3740 90 95.3 95.3 95.3 95.3 99.1 83.1 87.7 87.7 87.7 87.7 91.0 78.2 400- 75 83.2 74.5 8.4 54.8 96.6 25.8 75.8 69.3-8-0.5-5 0.4 .3 22.1 4080 80 86.9 86.9 90.5 72.2 97.1 48.2 79.5 79.5 82.6 67.3 88.8 44.0 4080 85 91.3 91.3 93.3 86.9 98.4 67.8 83.9 83.9 85.5 81.6 90.1 63.2 4080 90 97.0 97.0 97.0 97.0 1 100.4 84.9 89.1 89.1 89.1 89.1 92.2 79.8 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity RT-PRCO23AL-EN 53 Performance Data Table 19. Gross cooling capacities 10 tons standard efficiency - three phase T/YSC 1 20F3,4,W 54 RT-PRCO23AL-EN Ambient Temperature Ambient Temperature Ambient Temperature 5 95 105 Air Ent Entering Wet Bu °F Entering Wet Bu F Entering Wet Bu °F Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MB SHC MB SHC -M-Bh--SH-C MB SH MB SHC MBIh SHC MB SHC MBh SHC MBh SHC 3200 80 113.5 106.1 120.8 89.5 131.8 62.6 107.4 102.0 114.2 86.1 124.7 59.9 100.9 97.4 107.2 82.2 117.1 56.7 3200 85 116.9 116.9 122.2 105.8 131.1 84.5 110.8 110.8 115.6 102.0 124.0 81.3 104.4 104.4 108.6 97.7 116.5 77.8 3200 90 121.1 121.1 124.4 119.0 131.3 103.2 115.1 115.1 117.9 114.8 124.3 99.7 109.8 109.8 110.9 110.1 116.8 95.7 0038.1 3600 80 116.7 110.2 123.5 93.3 134.1 66.0 110.4 105.8 116.8 89.6 126.8 63.0 103.8 101.0 109.6 85.5 119.1 59.6 3600 85 120.3 120.3 125.2 109.9 133.7 88.2 114.2 114.2 118.5 105.8 126.5 84.8 107.5 107.5 111.3 101.2 118.8 80.9 3600 90 124.9 124.9 127.7 123.4 134.2 107.2 118.7 118.7 121.0 118.8 127.0 103.4 112.8 112.8 113.9 113.8 119.3 99.1 0 99. 8109.9 95.2 117.9 73.0 129.5 40.60 . 4000 80 119.5 113.9 125.9 96.6 136.0 69.0 113.1 109.2 119.0 92.7 128.6 65.8 106.2 104.1 111.6 88.2 120.7 62.0 4000 85 123.4 123.4 127.9 113.5 136.0 91.5 117.1 117.1 121.0 109.1 128.5 87.8 110.3 110.3 113.7 104.3 120.7 83.7 4000 90 128.3 128.3 130.7 127.2 136.7 110.8 122.6 122.6 123.8 122.4 129.4 106.7 116.6 116.6 116.6 116.6 121.5 102.1 4400 75 118.5 02.4 6.5 79.2 138.345.8 11 .9 97. .4 75.4 MO.6 42.6 104. 2.9 Tiff.9 71. 122.5 39.0 4400 80 121.9 117.1 127.9 99.5 137.6 71.6 115.3 112.2 120.8 95.3 130.0 68.0 108.3 106.8 113.3 90.6 121.9 64.1 4400 85 126.2 126.2 130.2 116.7 137.8 94.3 119.7 119.7 123.1 112.0 130.2 90.3 112.7 112.7 115.6 106.9 122.2 85.9 4400 90 131.3 131.3 133.3 130.6 138.9 113.9 125.0 125.0 126.3 125.6 131.4 109.5 118.8 118.8 118.8 118.8 123.4 104.6 800 75-f 073-104-.T -f 77 -.T --9T--4- -f 39-Z-4-7 .5 4. 7 3. 3 4800 80 124.0 119.9 129.6 102.0 138.8 73.7 117.2 114.7 122.3 97.4 131.0 69.9 110.1 109.0 114.6 92.4 122.8 65.6 4800 85 128.5 128.5 132.1 119.4 139.3 96.7 121.9 121.9 124.9 114.4 131.6 92.4 114.7 114.7 117.2 109.0 123.4 87.7 4800 90 134.2 134.2 135.5 133.6 140.7 116.5 127.0 127.0 128.3 128.2 133.0 111.8 120.7 120.7 120.7 120.7 124.8 106.7 m len empera Yu ---TM m lent emperature 115 125 Air Ent Entering Wet Bulb (OF) Entering Wet Bulb (OF) Flow DB 61 67 73n86.686.6 67 73 cfm (F) MB SHC MB SHC . MB SHC MB SH MB SHC 3200 75 91. 79.7 99.1 59.7 110.5 29.3 91.1 55. 1 2.0 25.7 3200 80 94.0 92.4 99.7 77.9 109.1 53.1 91.8 73.2 100.7 49.0 3200 85 97.5 97.5 101.2 93.0 108.5 73.7 93.3 87.8 100.1 69.3 3200 90 103.5 103.5 103.5 103.5 108.9 91.2 95.7 95.7 100.5 86.4 1 3600 80 96.6 95.7 102.0 80.9 110.9 55.7 89.1 89.1 93.9 75.8 102.3 51.4 3600 85 100.4 100.4 103.7 96.2 110.7 76.6 92.9 92.9 95.7 90.8 102.1 71.9 3600 90 106.4 106.4 106.4 106.4 111.3 94.4 98.3 98.3 98.3 98.3 102.7 89.2 0 85.3 2.6 6 9. 104.4 2-9.-4-- 4000 80 99.0 98.5 103.8 83.4 112.4 57.9 91.2 91.2 95.6 78.1 103.6 53.3 4000 85 103.0 103.0 105.9 99.0 112.4 79.1 95.4 95.4 97.7 93.3 103.6 74.1 4000 90 108.8 108.8 108.8 108.8 113.3 97.1 100.6 100.6 100.6 100.6 104.6 91.7 4400 75 97.4 87.5 103.8 66.4 114.0 35.0 9.4 .6 -9-5-.4-66-1.2- 05.0 0.5 4400 80 100.9 100.9 105.3 85.4 113.4 59.6 93.0 93.0 96.9 79.8 104.5 54.7 4400 85 105.3 105.3 107.7 101.3 113.8 81.1 97.4 97.4 99.3 95.3 104.8 75.8 4400 90 110.9 110.9 110.9 110.9 114.9 99.4 102.6 102.6 102.6 102.6 106.1 93.7 4800 75 98.6 89.1 104.7 67.7 114.4 36.0 90.6 83.0 96.1 62.3 105.2 31.3 4800 80 102.5 102.5 106.5 87.0 114.1 60.9 94.4 94.4 97.9 81.2 105.0 55.7 4800 85 107.1 107.1 109.1 103.2 114.7 82.6 99.1 99.1 100.6 96.9 105.7 77.0 4800 90 112.6 112.6 112.6 112.6 116.2 101.2 104.1 104.1 104.1 104.1 107.2 95.2 otes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. Mi3h = Total Gross Capacity 3. SHC = Sensible Heat Capacity 54 RT-PRCO23AL-EN Performance Data Table 20. Gross cooling capacities 3 tons high efficiency - single phaseT/YHCO36EI continued on next page RT-PRCO23AL-EN 55 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 600 75 30.5 23.4 34.4 17.3 39.7 8.3 28.5 22.1 32.2 16.3 37.2 7.5 26.4 20.8 29.8 15.2 34.7 6.5 600 80 31.2 27.5 34.4 23.1 39.0 15.7 29.2 26.1 32.2 21.9 36.6 14.7 27.0 24.6 29.9 20.6 34.0 13.6 600 85 32.2 30.7 34.8 27.9 38.8 22.2 30.2 29.1 32.6 26.6 36.3 21.0 28.1 27.5 30.3 25.1 33.8 19.8 600 90 33.7 33.0 35.6 31.9 38.9 27.8 31.7 31.3 33.4 30.4 36.5 26.4 29.6 29.5 31.1 28.8 34.0 25.1 720 75 32.1 25.1 35.8 18.8 40.9 9.6 30.0 23.7 33.5 17.7 38.4 8.7 27.8 22.3 31.1 16.5 35.8 7.7 720 80 32.9 29.3 36.0 24.7 40.4 17.1 30.8 27.8 33.7 23.5 37.9 16.0 28.6 26.3 31.3 22.1 35.3 14.9 720 85 34.1 32.7 36.5 29.7 40.3 23.8 32.0 31.1 34.2 28.3 37.8 22.5 29.8 29.3 31.9 26.8 35.2 21.2 720 90 35.7 35.2 37.5 33.9 40.6 29.5 33.6 33.4 35.2 32.3 38.1 28.2 31.5 31.5 32.8 30.6 35.5 26.7 840 75 33.5 26.6 37.1 20.2 42.0 10.8 31.3 25.2 34.7 19.0 39.5 9.8 29.0 23.8 32.2 17.7 36.8 8.7 840 80 34.4 31.1 37.4 26.3 41.7 18.5 32.3 29.5 35.0 24.9 39.1 17.3 30.0 27.9 32.6 23.5 36.4 16.1 840 85 35.8 34.6 38.1 31.4 41.7 25.3 33.7 32.9 35.7 29.9 39.2 24.0 31.4 31.1 33.3 28.4 36.5 22.6 840 90 37.5 37.2 39.2 35.7 42.1 31.2 35.4 35.4 36.8 34.1 39.6 29.8 33.2 33.2 34.4 32.3 37.0 28.2 960 75 35.0 27.4 38.8 20.7 42.8 13.0 32.8 26.0 36.4 19.2 40.2 12.0 30.4 24.6 33.9 17.7 37.5 10.3 960 80 35.6 33.5 39.2 26.2 43.3 19.2 33.4 32.2 36.8 24.7 40.7 17.7 31.1 30.8 34.3 23.3 38.0 17.1 960 85 37.3 37.3 39.6 31.5 43.7 24.3 35.3 35.3 37.2 30.1 41.2 23.6 33.2 33.2 34.7 28.7 38.4 22.1 960 90 39.5 39.5 40.2 37.4 44.1 30.0 37.5 37.5 37.9 36.3 41.5 28.7 35.3 35.3 35.4 35.0 38.7 27.2 1080 75 36.0 29.3 39.8 21.8 43.8 13.2 33.7 28.0 37.3 20.4 41.1 11.6 31.2 26.7 34.7 19.0 38.3 10.5 1080 80 36.7 36.1 40.2 27.8 44.3 18.7 34.6 34.6 37.7 26.3 41.7 19.2 32.4 32.4 35.1 24.9 38.9 17.4 1080 85 39.0 39.0 40.7 34.0 44.8 26.2 36.9 36.9 38.2 32.6 42.1 24.9 34.7 34.7 35.6 31.4 39.2 23.3 1080 90 41.4 41.4 41.5 40.9 45.1 32.0 39.2 39.2 39.2 39.2 42.5 30.7 36.9 36.9 36.9 36.9 39.6 29.2 1200 75 36.8 31.3 40.6 22.7 44.6 13.1 34.5 30.2 38.0 21.4 41.8 12.1 31.9 28.8 35.3 19.9 38.9 10.7 1200 80 38.0 38.0 41.0 29.4 45.2 19.9 35.9 35.9 37.6 28.0 42.5 19.4 33.6 33.6 35.8 26.5 39.5 18.4 1200 85 40.4 40.4 41.6 36.5 45.6 27.7 38.3 38.3 39.1 35.3 42.8 26.2 36.0 36.0 36.4 34.2 39.9 24.6 1200 90 42.9 42.9 42.9 42.9 46.0 34.1 40.7 40.7 40.7 40.7 43.2 32.7 38.3 38.3 38.3 38.3 40.3 31.3 1320 75 37.6 33.6 41.2 23.7 45.2 13.3 35.1 32.2 38.7 21.9 42.4 12.2 32.6 30.9 35.9 20.8 39.5 10.6 1320 80 39.2 39.2 41.7 31.0 46.0 22.5 37.0 37.0 39.1 29.5 43.1 20.3 34.7 34.7 36.4 28.2 40.1 19.1 1320 85 41.8 41.8 42.4 39.2 46.3 29.0 39.5 39.5 39.9 38.0 43.5 27.4 37.1 37.1 37.2 36.5 40.5 25.7 1320 90 44.3 44.3 44.3 44.3 46.8 36.0 42.0 42.0 42.0 42.0 43.9 34.8 39.6 39.6 39.5 39.5 41.0 33.5 1440 75 38.2 35.6 41.8 24.5 45.9 13.7 35.8 34.2 39.2 23.6 42.9 12.1 33.2 32.5 36.4 21.7 39.9 10.8 1440 80 40.3 40.3 42.4 32.7 46.5 22.1 38.0 38.0 39.7 31.4 43.6 21.0 35.6 35.6 36.9 30.1 40.6 19.9 1440 85 42.9 42.9 43.3 41.8 46.9 30.2 40.6 40.6 40.7 40.1 44.0 28.9 38.1 38.1 38.1 38.1 41.0 27.4 1440 90 45.6 45.6 45.5 45.5 47.4 38.2 43.1 43.1 43.1 43.1 44.6 37.1 40.6 40.6 40.6 40.6 41.6 36.0 continued on next page RT-PRCO23AL-EN 55 Performance Data Table 20. Gross cooling capacities 3 tons high efficiency - single phaseT/YHC036E1 (continued) 56 RT PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Entering Wet Bulb (°F) Entering Wet Bulb (°F) Air Ent Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 600 75 24.1 19.4 27.4 14.0 32.0 5.5 21.7 17.9 24.8 12.6 29.2 4.4 600 80 24.8 23.0 27.4 19.2 31.4 12.4 22.4 21.4 24.8 17.8 28.6 11.2 600 85 25.9 25.8 27.9 23.6 31.2 18.4 23.6 23.6 25.3 22.0 28.4 17.0 600 90 28.4 28.4 28.7 27.1 31.3 23.6 25.9 25.9 26.2 25.3 28.6 22.0 720 75 25.4 20.8 28.6 15.2 33.0 6.6 23.0 19.3 25.9 13.8 30.2 5.4 720 80 26.3 24.6 28.8 20.6 32.6 13.6 23.9 22.9 26.1 19.1 29.7 12.3 720 85 27.5 27.5 29.4 25.2 32.5 19.8 25.1 25.1 26.7 23.5 29.7 18.4 720 90 30.0 30.0 30.3 28.9 32.8 25.1 27.5 27.5 27.7 27.0 30.0 23.5 840 75 26.7 22.2 29.6 16.4 34.0 7.5 24.1 20.5 26.9 14.9 31.0 6.3 840 80 27.7 26.2 30.0 22.0 33.7 14.8 25.2 24.3 27.3 20.4 30.7 13.4 840 85 29.1 29.1 30.7 26.7 33.7 21.1 26.6 26.6 28.0 24.9 30.8 19.6 840 90 31.5 31.5 1 31.9 30.5 34.2 26.6 28.9 28.9 29.2 28.6 31.3 24.9 960 75 28.0 23.3 31.2 16.5 34.6 8.9 25.2 21.7 27.8 15.9 31.8 7.0 960 80 28.9 28.9 31.6 21.8 35.1 15.1 26.4 25.7 28.3 21.5 31.6 14.3 960 85 30.9 30.9 32.0 27.3 35.5 20.4 27.9 27.9 29.2 26.2 31.9 20.7 960 90 33.0 33.0 33.0 33.0 35.8 25.6 30.2 30.2 30.5 30.1 32.5 26.1 1080 75 28.7 25.5 31.9 17.5 35.3 9.2 26.1 22.8 28.6 16.7 32.4 7.7 1080 80 30.1 30.1 32.3 23.4 35.9 16.2 27.4 26.9 29.2 22.5 32.4 15.1 1080 85 32.3 32.3 32.8 30.1 36.2 21.8 29.1 29.1 30.3 27.4 32.8 21.6 1080 90 34.5 34.5 34.5 34.5 36.6 27.7 31.4 31.4 31.7 31.4 33.6 27.3 1200 75 29.4 27.5 32.5 18.4 35.9 9.0 26.8 23.7 29.2 17.5 32.9 8.2 1200 80 31.2 31.2 33.0 25.1 36.5 16.5 28.3 28.0 30.0 23.4 33.0 15.8 1200 85 33.5 33.5 33.7 32.9 36.8 23.2 30.2 30.2 31.2 28.5 33.6 22.5 1200 90 35.8 35.8 35.8 35.8 37.3 29.8 32.5 32.5 32.8 32.6 34.5 28.3 1320 75 30.0 29.3 33.0 19.0 36.4 9.3 27.5 24.5 29.7 18.1 33.2 8.7 1320 80 32.2 32.2 33.5 27.0 37.0 17.3 29.1 29.0 30.6 24.2 33.5 16.4 1320 85 34.5 34.5 34.5 34.5 37.4 24.6 31.1 31.1 32.0 29.4 34.2 23.3 1320 90 36.9 36.9 36.9 36.9 37.9 32.4 33.7 33.7 33.7 33.7 35.3 29.3 1440 75 30.7 30.6 33.4 20.3 36.8 9.4 28.0 25.2 30.0 18.6 33.4 9.0 1440 80 33.0 33.0 34.0 28.9 37.4 18.3 29.8 29.8 31.2 24.9 33.9 16.9 1440 85 35.5 35.5 35.4 35.4 37.9 26.0 31.9 31.9 32.7 30.3 34.7 23.9 1440 90 37.9 37.9 37.9 37.9 38.5 34.9 34.6 34.6 34.6 34.6 36.0 30.1 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 56 RT PRCO23AL-EN Performance Data Table 21. Gross cooling capacities 3 tons high efficiency - three phaseT/YHC036E3,4,W continued on next page RT-PRCO23AL-EN 57 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 600 75 30.5 23.1 34.4 16.9 39.8 7.7 28.2 21.7 32.0 15.8 37.1 6.9 25.9 20.3 29.4 14.6 34.3 5.9 600 80 31.1 27.1 34.4 22.6 39.1 15.1 28.9 25.6 32.0 21.4 36.4 14.0 26.6 24.0 29.5 20.0 33.7 13.0 600 85 32.2 30.3 34.8 27.5 38.8 21.5 30.0 28.7 32.4 26.0 36.2 20.4 27.7 26.9 29.9 24.6 33.4 19.1 600 90 33.6 32.6 35.6 31.4 38.9 27.1 31.5 30.8 33.2 29.9 36.3 25.8 29.2 28.9 30.7 28.2 33.6 24.4 720 75 32.0 24.9 35.9 18.6 41.0 9.2 29.7 23.5 33.3 17.4 38.3 8.2 27.3 22.0 30.7 16.1 35.4 7.2 720 80 32.8 29.1 36.0 24.4 40.5 16.7 30.6 27.5 33.5 23.1 37.8 15.6 28.2 25.9 30.9 21.7 35.0 14.4 720 85 34.1 32.5 36.5 29.4 40.4 23.3 31.8 30.8 34.0 27.9 37.7 22.1 29.4 28.9 31.5 26.4 34.9 20.7 720 90 35.6 35.0 37.4 33.6 40.6 29.1 33.4 33.1 35.0 31.9 37.9 27.7 31.1 31.1 32.5 30.2 35.2 26.2 840 75 33.5 26.6 37.1 20.1 42.2 10.5 31.1 25.1 34.5 18.8 39.3 9.4 28.6 23.5 31.8 17.4 36.4 8.3 840 80 34.4 31.0 37.4 26.1 41.8 18.1 32.1 29.3 34.9 24.7 39.0 17.0 29.6 27.6 32.2 23.2 36.1 15.7 840 85 35.8 34.5 38.1 31.3 41.8 25.0 33.5 32.7 35.6 29.7 39.0 23.6 31.0 30.8 32.9 28.0 36.2 22.2 840 90 37.5 37.2 39.2 35.6 42.2 30.9 35.2 35.2 36.7 33.9 39.5 29.4 33.7 33.7 34.1 32.0 36.6 27.9 960 75 35.0 27.4 39.0 20.8 43.0 13.1 32.6 25.9 36.4 18.7 40.3 11.7 30.1 24.4 33.6 17.6 37.3 10.3 960 80 35.6 33.5 39.4 26.2 43.5 19.2 33.3 32.2 36.8 24.7 40.7 17.8 30.8 30.6 34.0 23.1 37.8 16.2 960 85 37.3 37.3 39.8 31.6 43.9 25.2 35.2 35.2 37.2 30.1 41.2 23.5 33.0 33.0 34.4 28.7 38.2 21.8 960 90 39.6 39.6 40.3 37.5 44.4 30.1 37.5 37.5 37.9 36.3 41.5 28.7 35.1 35.1 35.2 34.9 38.6 27.2 1080 75 36.0 29.2 39.9 21.9 44.0 13.3 33.6 28.0 37.2 19.7 41.1 12.0 31.0 26.6 34.4 18.6 38.1 10.4 1080 80 36.8 36.2 40.4 27.8 44.6 18.9 34.5 34.5 37.7 26.3 41.7 19.2 32.2 32.2 34.9 24.8 38.7 17.2 1080 85 39.1 39.1 40.9 34.0 45.0 26.3 36.9 36.9 38.2 32.6 42.1 24.9 34.5 34.5 35.4 31.3 39.0 23.3 1080 90 41.5 41.5 41.7 40.9 45.4 32.2 39.2 39.2 39.2 39.2 42.5 30.8 36.8 36.8 36.7 36.7 39.4 29.1 1200 75 36.9 31.4 40.8 22.8 44.8 13.2 34.4 30.1 38.0 21.3 41.9 12.1 31.6 28.7 35.1 19.7 38.7 10.5 1200 80 38.1 38.1 .41.2 29.4 45.4 21.7 35.8 35.8 3706 27.9 42.5 19.4 33.4 33.4 35.6 26.4 39.4 18.3 1200 85 40.6 40.6 41.8 36.5 45.9 27.8 38.3 38.3 39.0 35.2 42.9 26.3 35.8 35.8 36.2 34.0 39.7 24.6 1200 90 43.1 43.1 43.1 43.1 46.3 34.2 40.7 40.7 40.7 40.7 43.3 32.6 38.2 38.2 38.1 38.1 40.2 31.1 1320 75 37.7 33.7 41.4 23.6 45.5 13.2 35.0 32.2 38.6 21.9 42.5 12.3 32.4 30.9 35.7 20.8 39.3 10.6 1320 80 39.3 39.3 41.9 31.1 46.3 22.5 37.0 37.0 39.2 29.6 43.1 20.5 34.4 34.4 36.2 28.2 39.9 19.0 1320 85 41.9 41.9 42.6 39.2 46.6 29.2 39.5 39.5 39.9 38.0 43.5 27.5 36.9 36.9 37.1 36.4 40.4 26.0 1320 90 44.5 44.5 44.5 44.5 47.1 36.1 42.1 42.1 42.0 42.0 44.0 34.8 39.4 39.4 39.4 39.4 40.9 33.5 1440 75 38.3 35.6 42.0 24.6 46.1 13.8 35.7 34.2 39.2 23.6 43.0 12.2 33.0 32.4 36.1 21.7 39.7 10.8 1440 80 40.4 40.4 42.6 32.7 46.8 21.5 38.0 38.0 39.8 31.4 43.7 21.0 35.4 35.4 36.7 30.0 40.4 19.5 1440 85 43.1 43.1 43.5 41.9 47.3 30.6 40.6 40.6 40.8 40.2 44.1 28.9 37.9 37.9 38.0 37.9 40.9 27.3 1440 90 45.8 45.8 45.8 45.8 47.7 38.3 43.3 43.3 43.2 43.2 44.7 37.2 40.5 40.5 40.5 40.5 41.5 36.0 continued on next page RT-PRCO23AL-EN 57 Performance Data Table 21. Gross cooling capacities 3 tons high efficiency -three phaseT/YHC036E3,4,W (continued) 58 RT-PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 12S Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 600 75 23.4 18.8 26.8 13.4 31.4 4.9 20.9 17.2 24.0 12.0 28.5 3.8 600 80 24.2 22.4 26.8 18.6 30.8 11.8 21.7 20.6 24.2 17.1 27.9 10.5 600 85 25.3 25.1 27.3 23.0 30.6 17.8 22.9 22.9 24.7 21.3 27.8 16.4 600 90 27.9 27.9 28.2 26.5 30.8 22.9 25.3 25.3 25.5 24.7 28.0 21.3 720 75 24.8 20.3 28.0 14.8 32.5 6.1 22.2 18.7 25.2 13.3 29.5 4.9 720 80 25.7 24.1 28.2 20.2 32.1 13.1 23.2 22.3 25.4 18.6 29.1 11.8 720 85 27.0 27.0 28.8 24.7 32.0 19.3 24.5 24.5 26.1 23.0 29.0 17.8 720 90 29.5 29.5 29.8 28.4 32.3 24.6 26.9 26.9 27.1 26.5 29.4 23.0 840 75 26.0 21.8 29.0 16.0 33.4 7.1 23.4 20.0 26.2 14.5 30.3 5.9 840 80 27.1 25.7 29.4 21.6 33.1 14.4 24.5 23.8 26.6 19.9 30.1 12.9 840 85 28.5 28.5 30.2 26.3 33.2 20.7 25.9 25.9 27.4 24.5 30.2 19.1 840 90 31.0 31.0 31.4 30.1 33.7 26.2 28.3 28.3 28.6 28.2 30.7 24.5 960 75 27.3 23.0 30.7 16.4 34.1 8.8 24.4 21.2 27.0 15.5 31.0 6.7 960 80 28.4 28.4 31.1 21.6 34.5 13.9 25.6 25.2 27.6 21.1 30.9 13.9 960 85 30.5 30.5 31.5 27.2 35.1 20.2 27.3 27.3 28.6 25.8 31.2 20.3 960 90 32.7 32.7 32.6 32.6 35.4 25.5 29.6 29.6 29.9 29.7 31.9 25.8 1080 75 28.1 25.2 31.4 17.4 34.8 9.0 25.3 22.3 27.8 16.4 31.6 7.4 1080 80 29.7 29.7 31.8 23.2 35.4 16.0 26.7 26.4 28.5 22.1 31.7 14.8 1080 85 31.9 31.9 32.4 30.0 35.8 21.7 28.5 28.5 29.6 27.1 32.1 21.3 1080 90 34.1 34.1 34.1 34.1 36.2 27.5 30.8 30.8 31.1 31.1 32.9 27.0 1200 75 28.8 27.3 32.0 18.2 35.4 8.8 26.1 23.2 28.4 17.1 32.1 7.9 1200 80 30.8 30.8 32.5 25.0 36.0 16.4 27.6 27.5 29.3 23.0 32.3 15.5 1200 85 33.1 33.1 33.3 32.6 36.4 23.0 29.5 29.5 30.5 28.1 32.9 22.2 1200 90 35.4 35.4 35.4 35.4 36.9 29.8 32.2 32.2 32.2 32.2 33.8 28.1 1320 75 29.5 29.0 32.5 18.7 35.9 9.5 26.7 24.0 28.9 17.7 32.4 8.3 1320 80 31.8 31.8 33.0 26.8 36.5 17.2 28.4 28.4 29.9 23.8 32.8 16.1 1320 85 34.2 34.2 34.2 34.2 37.0 24.2 30.5 30.5 31.3 29.1 33.5 23.0 1320 90 36.6 36.6 36.5 36.5 37.5 32.2 33.1 33.1 33.1 33.1 34.6 29.0 1440 75 30.2 30.1 32.9 20.1 36.3 9.3 27.2 24.6 29.2 18.1 32.6 8.6 1440 80 32.6 32.6 33.5 28.8 36.9 17.9 29.0 29.0 30.4 24.4 33.1 16.5 1440 85 35.1 35.1 35.1 35.1 37.5 25.8 31.3 31.3 32.0 29.9 34.0 23.6 1440 90 37.5 37.5 37.5 37.5 38.1 34.8 33.9 33.9 33.9 33.9 35.3 29.8 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. Ml3h = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 58 RT-PRCO23AL-EN Performance Data Table 22. Gross cooling capacities 4 tons high efficiency - single phaseT/YHC048F1 continued on next page RT-PRCO23AL-EN 59 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 800 75 38.1 28.9 42.8 21.8 49.1 11.3 35.7 27.5 40.2 20.6 46.2 10.3 33.1 25.9 37.3 19.2 43.1 9.2 800 80 38.8 33.7 42.8 28.3 48.4 19.5 36.4 32.1 40.2 26.9 45.6 18.4 33.9 30.4 37.5 25.5 42.5 17.2 800 85 39.9 37.5 43.3 33.8 48.1 26.8 37.6 35.8 40.7 32.3 45.3 25.6 35.1 33.9 38.0 30.7 42.4 24.2 800 90 41.5 40.3 44.1 38.4 48.2 33.1 39.2 38.5 41.6 36.8 45.5 31.7 36.8 36.5 38.9 35.0 42.6 30.2 960 75 40.4 31.2 45.0 23.7 51.1 12.9 37.9 29.6 42.2 22.4 48.1 11.8 35.2 28.0 39.3 21.0 44.9 10.6 960 80 41.4 36.2 45.2 30.5 50.6 21.4 38.9 34.5 42.5 29.0 47.6 20.2 36.2 32.7 39.6 27.4 44.5 18.8 960 85 42.7 40.3 45.8 36.3 50.5 28.9 40.3 38.5 43.2 34.7 47.6 27.6 37.7 36.5 40.4 33.0 44.5 26.1 960 90 44.4 43.4 46.9 41.1 50.8 35.5 42.1 41.4 44.3 39.4 48.0 34.0 39.5 39.3 41.5 37.6 45.0 32.4 1120 75 42.5 33.2 46.9 25.4 52.8 14.2 39.9 31.6 44.0 24.0 49.7 13.1 37.1 29.8 41.0 22.5 46.4 11.8 1120 80 43.6 38.5 47.3 32.4 52.5 23.0 41.1 36.8 44.5 30.9 49.5 21.7 38.3 34.8 41.5 29.2 46.2 20.3 1120 85 45.2 42.9 48.1 38.5 52.6 30.8 42.7 41.0 45.4 36.8 49.6 29.4 40.0 38.9 42.5 35.0 46.5 27.8 1120 90 47.1 46.3 49.4 43.6 53.2 37.7 44.7 44.2 46.7 41.8 50.2 36.1 42.0 42.0 43.8 39.9 47.1 34.4 1280 75 44.3 35.1 48.5 26.9 54.2 15.4 41.6 33.4 45.6 25.4 51.0 14.1 38.7 31.5 42.4 23.8 47.7 12.7 1280 80 45.7 40.7 49.2 34.2 54.2 24.4 43.0 38.8 46.3 32.6 51.0 23.0 40.1 36.8 43.2 30.8 47.7 21.5 1280 85 47.4 45.3 50.2 40.6 54.5 32.5 44.8 43.3 47.3 38.8 51.4 31.0 42.0 41.1 44.3 36.9 48.1 29.3 1280 90 49.5 48.9 51.6 46.0 55.2 39.6 47.0 46.8 48.8 44.1 52.2 38.0 44.2 44.2 45.8 42.0 49.0 36.1 1440 75 45.9 36.8 49.9 28.2 55.4 16.4 43.1 34.9 46.8 26.6 52.1 15.0 40.0 32.9 43.6 24.9 48.6 13.5 1440 80 47.4 42.6 50.7 35.8 55.6 25.6 44.6 40.6 47.7 34.1 52.3 24.2 41.7 38.5 44.5 32.2 48.9 22.5 1440 85 49.4 47.5 52.0 42.4 56.1 34.0 46.6 45.3 49.0 40.5 52.9 32.4 43.7 43.1 45.9 38.5 49.5 30.6 1440 90 51.7 51.4 53.6 48.1 57.0 41.4 49.0 49.0 50.7 46.1 53.9 39.6 46.2 46.2 47.6 43.9 50.5 37.7 1600 75 47.2 38.2 51.0 29.3 56.4 17.1 44.2 36.3 47.8 27.6 53.0 15.6 41.1 34.2 44.5 25.8 49.4 14.0 1600 80 48.9 44.3 52.0 37.2 56.7 26.7 46.0 42.2 48.9 35.3 53.3 25.1 43.0 40.0 45.6 33.4 49.8 23.3 1600 85 51.1 49.4 53.5 44.0 57.4 35.3 48.2 47.2 50.4 42.1 54.1 33.6 45.2 44.9 47.2 40.0 50.6 31.7 1600 90 53.6 53.6 55.3 50.0 58.6 42.9 50.8 50.8 52.3 47.9 55.3 41.1 47.9 47.9 49.1 45.6 51.9 39.1 1760 75 48.2 39.4 51.9 30.2 57.0 17.7 45.2 37.4 48.6 28.4 53.5 16.1 41.9 35.2 45.1 26.5 49.8 14.4 1760 80 50.1 45.8 53.1 38.3 57.6 27.5 47.2 43.6 49.9 36.4 54.1 25.8 44.0 41.3 46.5 34.3 50.5 24.0 1760 85 52.5 51.2 54.7 45.5 58.5 36.4 49.6 48.9 51.6 43.4 55.1 34.5 46.4 46.4 48.2 41.2 51.5 32.6 1760 90 55.2 55.2 56.8 51.7 59.8 44.3 52.4 52.4 53.7 49.5 56.5 42.3 49.3 49.3 50.4 47.1 52.9 40.2 1920 75 49.0 40.5 52.4 30.9 57.4 18.0 45.8 38.3 49.1 29.0 53.8 16.3 42.5 36.1 45.5 27.0 50.0 14.-5- 1920 80 51.1 47.1 53.9 39.3 58.2 28.1 48.0 44.8 50.5 37.3 54.6 26.3 44.7 42.4 47.0 35.1 50.8 24.4 1920 85 53.6 52.8 55.7 46.7 59.3 37.2 50.6 50.4 52.4 44.5 55.8 35.3 47.4 47.4 49.0 42.2 52.1 33.2 1920 90 1 56.6 56.6 58.0 53.2 60.8 45.4 53.6 53.6 54.7 50.9 57.4 43.4 50.5 50.5 51.3 48.4 53.7 41.2 continued on next page RT-PRCO23AL-EN 59 Performance Data Table 22. Gross cooling capacities 4 tons high efficiency - single phaseT/YHC048F1 (continued) 60 RT-PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 800 75 30.3 24.2 34.3 17.8 39.9 8.0 27.3 22.3 31.1 16.1 36.4 6.6 800 80 31.2 28.5 34.5 23.8 39.3 15.8 28.2 26.5 31.3 22.1 35.9 14.3 800 85 32.5 31.9 35.1 29.0 39.2 22.7 29.6 29.6 32.0 27.1 35.9 21.0 800 90 34.2 34.2 36.1 33.1 39.5 28.6 32.7 32.7 33.0 31.1 36.2 26.8 960 75 32.3 26.1 36.2 19.4 41.5 9.3 29.2 24.2 32.9 17.6 38.0 7.8 960 80 33.4 30.7 36.6 25.7 41.2 17.3 30.4 28.6 33.3 23.9 37.7 15.7 960 85 34.9 34.4 37.3 31.1 41.3 24.5 31.9 31.9 34.1 29.1 37.8 22.7 960 90 36.8 36.8 38.5 35.6 41.8 30.7 35.0 35.0 35.4 33.4 38.4 28.8 1120 75 34.1 27.9 37.8 20.8 42.9 10.3 30.9 25.8 34.3 19.0 39.3 8.7 1120 80 35.4 32.8 38.3 27.4 42.8 18.7 32.3 30.6 35.0 25.4 39.2 16.9 1120 85 37.1 36.7 39.3 33.1 43.1 26.1 34.0 34.0 36.0 31.0 39.5 24.2 1120 90 39.2 39.2 40.7 37.8 43.8 32.5 37.1 37.1 37.5 35.5 40.3 30.5 1280 75 35.6 29.5 39.1 22.0 44.1 11.2 32.3 27.3 35.6 20.1 40.3 9.5 1280 80 37.1 34.6 39.9 28.9 44.2 19.8 33.9 32.3 36.4 26.8 40.5 18.0 1280 85 39.0 38.8 41.1 34.8 44.6 27.5 35.8 35.8 37.6 32.6 41.0 25.5 1280 90 41.3 41.3 42.7 39.8 45.5 34.2 38.9 38.9 39.3 37.5 41.9 32.1 1440 75 36.8 30.8 40.2 23.0 45.0 11.8 33.5 28.5 36.5 21.0 41.1 10.1 1440 80 38.5 36.2 41.1 30.2 45.2 20.7 35.2 33.8 37.6 28.0 41.4 18.8 1440 85 40.6 40.6 42.5 36.4 45.9 28.7 37.3 37.3 39.0 34.1 42.2 26.6 1440 90 43.1 43.1 44.3 41.6 47.0 35.7 40.4 40.4 40.9 39.2 43.3 33.5 1600 75 37.8 32.0 40.9 23.8 45.6 12.3 34.3 29.6 37.2 21.7 41.6 10.4 1600 80 39.7 37.6 42.1 31.2 46.1 21.5 36.3 35.1 38.5 29.0 42.1 19.4 1600 85 42.0 42.0 43.7 37.7 47.0 29.7 38.6 38.6 40.1 35.3 43.1 27.5 1600 90 44.7 44.7 45.7 43.2 48.2 36.9 41.7 41.7 42.2 40.7 44.4 34.6 1760 75 38.5 32.9 41.5 24.4 45.9 12.6 34.9 30.4 37.6 22.2 41.9 10.6 1760 80 40.6 38.8 42.9 32.1 46.6 22.0 37.1 36.2 39.1 29.7 42.6 19.8 1760 85 43.1 43.1 44.7 38.8 47.7 30.4 39.6 39.6 40.9 36.3 43.7 28.2 1760 90 46.0 46.0 46.9 44.6 49.2 38.0 42.8 42.8 43.2 42.0 45.3 35.6 1920 75 39.0 33.6 41.7 24.8 46.0 12.6 35.3 31.1 37.8 22.5 41.8 10.5 1920 80 41.3 39.9 43.3 32.8 46.9 22.3 37.6 37.2 39.4 30.3 42.8 20.1 1920 85 44.0 44.0 45.3 39.8 48.2 31.0 40.4 40.4 41.5 37.2 44.1 28.7 1920 90 47.3 47.3 47.7 45.8 49.9 38.8 43.5 43.5 44.0 43.1 45.9 36.3 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 60 RT-PRCO23AL-EN Performance. Data Table 23. Gross cooling capacities 4 tons high efficiency -three phaseT/YHC048E3,4,W continued on next page RT-PRCO23AL-EN 61 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 800 75 39.5 31.1 44.6 23.3 51.6 11.5 36.8 29.6 41.6 22.2 48.3 10.8 33.9 28.0 38.5 20.9 44.9 9.9 800 80 40.3 36.2 44.5 30.6 50.6 21.0 37.6 34.5 41.6 29.3 47.4 20.0 34.8 32.7 38.5 27.8 44.0 18.9 800 85 41.6 40.1 45.0 36.7 50.2 29.2 39.0 38.2 42.1 35.1 47.0 28.0 36.2 36.2 39.0 33.4 43.6 26.7 800 90 43.5 42.9 45.9 41.6 50.2 36.3 40.9 40.8 43.0 39.8 47.0 34.9 38.1 38.1 39.9 37.9 43.7 33.3 960 75 41.5 33.1 46.4 25.1 53.2 13.0 38.7 31.5 43.4 23.8 49.9 12.1 35.7 29.8 40.1 22.5 46.3 11.1 960 80 42.5 38.5 46.6 32.6 52.5 22.6 39.7 36.7 43.5 31.1 49.1 21.6 36.8 34.7 40.3 29.5 45.6 20.3 960 85 44.0 42.6 47.2 38.9 52.2 31.1 41.3 40.6 44.2 37.2 48.9 29.8 38.4 38.4 41.0 35.4 45.4 28.4 960 90 46.1 45.6 48.3 44.0 52.5 38.4 43.4 43.4 45.3 42.2 49.2 36.9 40.5 40.5 42.2 40.1 45.7 35.3 1120 75 43.3 35.0 48.1 26.7 54.7 14.3 40.4 33.3 44.9 25.3 51.3 13.3 37.4 31.5 41.6 23.8 47.6 12.2 1120 80 44.5 40.6 48.4 34.4 54.2 24.2 41.7 38.7 45.3 32.9 50.7 23.0 38.7 36.6 42.0 31.1 47.1 21.7 1120 85 46.3 45.0 49.2 41.0 54.1 32.9 43.4 42.9 46.1 39.2 50.7 31.5 40.4 40.4 42.8 37.3 47.1 29.9 1120 90 48.5 48.2 50.6 46.3 54.5 40.4 45.7 45.7 47.5 44.4 51.1 38.8 43.8 43.8 44.2 42.2 47.6 37.1 1280 75 45.4 36.1 50.5 26.4 55.8 16.0 42.5 34.5 47.2 24.7 52.3 15.2 39.3 32.9 43.8 22.9 48.7 13.1 1280 80 46.2 44.2 51.0 34.1 56.4 24.0 43.2 42.5 47.7 32.3 53.0 22.7 40.1 40.1 44.3 30.8 49.2 20.7 1280 85 48.3 48.3 51.5 41.7 56.9 31.7 45.7 45.7 48.2 40.0 53.4 30.0 42.8 42.8 44.8 38.4 49.7 28.3 1280 90 51.2 51.2 52.2 49.6 57.3 39.1 48.5 48.5 49.0 48.0 53.8 37.5 45.7 45.7 45.7 45.7 50.1 35.8 1440 75 46.7 38.9 51.7 27.7 57.1 16.8 43.6 37.3 48.4 26.5 53.5 15.0 40.4 35.7 44.9 24.2 49.7 13.3 1440 80 47.6 47.3 52.3 36.3 57.8 25.6 44.7 44.7 48.9 34.6 54.1 23.3 41.8 41.8 45.4 33.0 50.3 21.3 1440 85 50.5 50.5 52.9 45.0 58.3 33.4 47.7 47.7 49.5 43.3 54.6 31.9 44.8 44.8 46.0 41.8 50.8 30.3 1440 90 53.6 53.6 53.8 53.5 58.7 42.0 50.8 50.8 50.7 50.7 55.0 40.2 47.7 47.7 47.7 47.7 51.2 38.7 1600 75 47.8 41.6 52.8 29.5 58.2 16.6 44.6 40.0 49.4 27.3 54.5 15.0 41.3 38.3 45.8 25.9 50.6 13.4 1600 80 49.2 49.2 53.3 38.6 58.8 25.3 46.4 46.4 49.9 37.0 55.2 24.3 43.4 43.4 46.3 35.5 51.2 23.6 1600 85 52.4 52.4 54.0 48.2 59.4 35.5 49.5 49.5 50.6 46.7 55.7 33.8 46.4 46.4 47.1 45.3 51.7 32.3 1600 90 55.7 55.7 55.6 55.6 59.9 44.8 52.7 52.7 52.6 52.6 56.1 43.2 49.5 49.5 49.4 49.4 52.2 41.7 1760 75 48.8 44.2 53.7 30.6 59.2 16.8 45.5 42.6 50.2 28.8 55.4 15.2 42.1 40.8 46.5 27.3 51.4 13.6-- 1760 80 50.8 50.8 54.3 41.0 59.8 27.3 47.9 47.9 50.8 39.3 56.0 25.6 44.7 44.7 47.0 37.7 52.0 24.8 1760 85 54.1 54.1 55.1 51.6 60.3 37.5 51.1 51.1 51.7 50.1 56.5 35.9 47.9 47.9 48.0 47.8 52.5 34.3 1760 90 57.5 57.5 57.4 57.4 60.9 47.9 54.3 54.3 54.2 54.2 57.1 46.3 51.1 51.1 51.1 51.1 53.0 44.7 1920 75 49.6 46.9 54.5 31.8 60.0 16.9 46.3 45.0 50.9 30.2 56.1 15.5 42.9 42.6 47.1 28.6 52.0 13.7 1920 80 52.2 52.2 55.1 43.2 60.6 27.5 49.2 49.2 51.5 41.6 56.8 26.8 46.0 46.0 47.7 40.1 52.6 25.4 1920 85 55.6 55.6 56.1 54.7 61.2 39.5 52.5 52.5 52.7 52.5 57.2 37.9 49.2 49.2 49.2 49.2 53.1 36.3 1920 90 59.1 59.1 59.0 59.0 61.8 50.7 55.9 55.9 55.8 55.8 57.9 49.3 52.5 52.5 52.4 52.4 53.8 47.8 continued on next page RT-PRCO23AL-EN 61 Performance Data Table 23. Gross cooling capacities 4 tons high efficiency -three phaseT/YHC048E3,4,W (continued) 62 RT-PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Entering Wet Bulb (°F) Entering Wet Bulb (°F) Air Ent Flow DB 61 67 73 61 67 73 dm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 800 75 30.9 26.2 35.2 19.5 41.3 8.8 27.7 24.3 31.6 17.9 37.5 7.6 800 80 31.8 30.7 35.2 26.1 40.4 17.6 28.6 28.5 31.7 24.3 36.6 16.2 800 85 33.2 33.2 35.7 31.6 40.0 25.2 30.0 30.0 32.2 29.6 36.3 23.6 800 90 36.3 36.3 36.7 35.8 40.1 31.6 33.3 33.3 33.3 33.3 36.4 29.8 960 75 32.6 27.9 36.7 20.9 42.6 10.0 29.3 25.8 33.1 19.2 38.7 8.6 960 80 33.7 32.6 36.9 27.8 41.9 19.0 30.4 30.3 33.3 25.9 38.1 17.4 960 85 35.3 35.3 37.6 33.5 41.7 26.8 32.0 32.0 34.0 31.3 37.9 25.0 960 90 38.4 38.4 38.8 38.0 42.1 33.4 35.3 35.3 35.3 35.3 38.2 31.5 1120 75 34.2 29.5 38.1 22.2 43.8 10.9 30.8 27.3 34.4 20.4 39.9 9.5 1120 80 35.5 34.4 38.5 29.3 43.3 20.2 32.1 32.0 34.8 27.3 39.4 18.5 1120 85 37.2 37.2 39.4 35.2 43.3 28.2 33.9 33.9 35.7 33.0 39.4 26.4 1120 90 40.3 40.3 40.8 39.9 43.8 35.1 37.1 37.1 37.1 37.1 39.9 33.0 1280 75 35.9 31.2 40.1 21.3 44.7 11.5 32.1 28.6 35.5 21.4 40.8 10.2 1280 80 37.2 37.2 40.6 29.0 45.3 19.2 33.6 33.6 36.1 28.5 40.5 19.5 1280 85 39.8 39.8 41.1 36.7 45.7 26.7 35.6 35.6 37.2 34.5 40.7 27.6 1280 90 42.5 42.5 42.5 42.5 46.0 34.1 38.8 38.8 38.8 38.8 41.4 34.5 1440 75 36.9 34.0 41.1 22.7 45.7 11.6 33.2 29.8 36.5 22.3 41.6 10.8 1440 80 38.7 38.7 41.6 31.3 46.2 19.7 34.9 34.9 37.3 29.7 41.5 20.3 1440 85 41.6 41.6 42.2 40.2 46.7 28.7 37.1 37.1 38.5 35.8 41.9 28.7 1440 90 44.4 44.4 44.3 44.3 47.0 37.1 40.3 40.3 40.3 40.3 42.8 35.8 1600 75 37.7 36.6 41.8 24.1 46.4 11.8 34.2 30.9 37.2 23.1 42.2 11.3 1600 80 40.2 40.2 42.4 33.7 47.0 21.8 36.0 36.0 38.2 30.7 42.3 21.0 1600 85 43.1 43.1 43.3 43.0 47.5 30.7 38.4 38.4 39.7 37.1 42.9 29.6 1600 90 46.0 46.0 46.0 46.0 47.9 40.0 41.7 41.7 41.7 41.7 44.0 37.0 1760 75 38.5 38.4 42.5 25.6 47.1 12.0 35.0 31.8 37.9 23.7 42.6 11.6 1760 80 41.4 41.4 43.1 36.1 47.7 22.2 37.0 37.0 39.0 31.5 42.9 21.6 1760 85 44.4 44.4 44.4 44.4 48.1 32.7 39.6 39.6 40.7 38.2 43.7 30.4 1760 90 47.4 47.4 47.4 47.4 48.6 43.2 42.9 42.9 42.9 42.9 45.0 38.0 1920 75 39.3 39.3 43.0 26.9 47.7 12.5 35.6 32.6 38.3 24.2 42.9 11.8 1920 80 42.5 42.5 43.7 38.4 48.2 23.5 37.9 37.9 39.7 32.3 43.4 22.0 1920 85 45.6 45.6 45.5 45.5 48.7 34.7 40.6 40.6 41.6 39.1 44.4 31.1 1920 90 48.7 48.7 48.6 48.6 49.4 46.5 43.9 43.9 43.9 43.9 45.8 38.9 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 62 RT-PRCO23AL-EN C� Performance Data Table 24. Gross cooling capacities 4 tons high efficiency - three phaseT/YHC048F3,4,W continued on next page RT PRCO23AL-EN 63 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (OF) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 800 75 38.6 28.5 43.5 21.3 50.0 10.6 36.1 27.0 40.8 20.0 47.1 9.7 33.5 25.3 37.9 18.6 43.9 8.5 800 80 39.3 33.3 43.5 27.9 49.3 19.0 36.9 31.6 40.9 26.5 46.4 17.9 34.3 29.9 38.0 24.9 43.3 16.6 800 85 40.5 37.2 44.0 33.5 49.0 26.4 38.2 35.4 41.4 32.0 46.1 25.1 35.6 33.5 38.6 30.3 43.1 23.7 800 90 42.1 40.1 44.8 38.2 49.1 32.8 39.8 38.2 42.3 36.5 46.3 31.4 37.3 36.1 39.6 34.7 43.4 29.8 960 75 41.0 30.8 45.8 23.3 52.1 12.2 38.4 29.2 42.9 21.9 49.0 11.2 35.7 27.5 39.9 20.4 45.8 10.0 960 80 42.0 35.9 46.0 30.1 51.6 20.9 39.5 34.2 43.2 28.6 48.6 19.7 36.8 32.3 40.3 27.0 45.4 18.3 960 85 43.4 40.1 46.6 36.0 51.5 28.5 40.9 38.2 43.9 34.4 48.5 27.2 38.3 36.2 41.0 32.7 45.4 25.7 960 90 45.2 43.3 47.7 41.0 51.8 35.2 42.8 41.3 45.0 39.2 48.9 33.7 40.2 39.1 42.2 37.3 45.8 32.1 1120 75 43.2 32.9 47.7 25.0 53.9 13.6 40.5 31.3 44.8 23.6 50.7 12.5 37.6 29.4 41.7 22.0 47.4 11.2 1120 80 44.4 38.3 48.2 32.1 53.6 22.5 41.7 36.5 45.3 30.6 50.5 21.2 38.9 34.5 42.3 28.9 47.2 19.8 1120 85 46.0 42.8 49.0 38.3 53.7 30.5 43.4 40.8 46.2 36.6 50.6 29.0 40.6 38.7 43.2 34.8 47.4 27.4 1120 90 48.0 46.2 50.3 43.6 54.2 37.5 45.5 44.1 47.6 41.7 51.2 35.9 42.8 41.9 44.6 39.8 48.0 34.2 1280 75 45.1 34.8 49.5 26.5 55.4 14.8 42.3 33.1 46.4 25.0 52.1 13.5 39.3 31.1 43.2 23.4 48.7 12.1 1280 80 46.5 40.5 50.1 34.0 55.3 24.0 43.7 38.6 47.1 32.3 52.1 22.6 40.8 36.5 44.0 30.5 48.7 21.0 1280 85 48.3 45.2 51.2 40.4 55.6 32.2 45.6 43.2 48.2 38.6 52.5 30.7 42.7 41.0 45.1 36.7 49.1 29.0 1280 90 50.5 49.0 52.6 45.9 56.4 39.5 47.9 46.8 49.8 44.0 53.3 37.8 45.1 44.5 46.7 41.9 50.0 36.0 1440 75 46.7 36.5 50.9 27.9 56.7 15.7 43.8 34.7 47.8 26.2 53.3 14.4 40.7 32.6 44.4 24.5 49.7 12.9 1440 80 48.3 42.5 51.7 35.5 56.8 25.2 45.5 40.5 48.7 33.8 53.5 23.7 42.4 38.3 45.4 31.9 49.9 22.1 1440 85 50.3 47.5 53.0 42.3 57.3 33.7 47.5 45.3 50.0 40.4 54.0 32.1 44.6 43.0 46.8 38.4 50.6 30.3 1440 90 52.7 51.5 54.7 48.1 58.3 41.2 50.0 49.2 51.7 46.1 55.1 39.5 47.1 46.8 48.6 43.9 51.7 37.6 1600 75 48.1 38.0 52.1 28.9 57.7 16.4 45.0 36.0 48.8 27.2 54.2 15.0 41.9 33.9 45.4 25.4 50.5 13.4 1600 80 49.9 44.2 53.1 36.9 58.0 26.2 46.9 42.1 49.9 35.1 54.5 24.6 43.8 39.9 46.6 33.1 50.9 22.9 1600 85 52.1 49.5 54.6 43.9 58.7 34.9 49.2 47.2 51.5 42.0 55.3 33.2 46.1 44.9 48.2 39.8 51.8 31.4 1600 90 54.7 53.8 56.5 50.0 59.9 42.8 51.9 51.4 53.4 47.9 56.6 40.9 48.9 48.9 50.2 45.6 53.1 38.9 1760 75 49.1 39.2 53.0 29.8 58.4 16.9 46.0 37.1 49.6 28.0 54.8 15.4 42.7 35.0 46.1 26.1 51.0 13.7 1760 80 51.1 45.7 54.2 38.0 58.9 26.9 48.1 43.5 50.9 36.1 55.4 25.3 44.8 41.2 47.4 34.0 51.6 23.5 1760 85 53.6 51.2 55.9 45.3 59.8 36.0 50.6 48.9 52.7 43.3 56.4 34.2 47.4 46.5 49.2 41.1 52.7 32.2 1760 90 56.4 55.8 58.0 51.7 61.2 44.1 53.5 53.4 54.8 49.5 57.8 42.2 50.4 50.4 51.5 47.1 54.2 40.1 1920 75 49.9 40.2 53.6 30.4 58.8 17.2 46.7 38.1 50.1 28.5 55.1 15.6 43.3 35.8 46.5 26.5 51.2 13.8 1920 80 52.2 47.0 55.1 39.0 59.5 27.5 49.0 44.7 51.6 36.9 55.9 25.7 45.6 42.3 48.1 34.8 52.1 23.8 1920 85 54.8 52.8 57.0 46.5 60.7 36.8 51.7 50.4 53.6 44.4 57.1 34.9 48.4 47.8 50.1 42.1 53.3 32.9 1920 90 57.9 57.7 59.3 53.2 62.3 45.2 54.8 54.8 56.0 50.9 58.7 43.2 51.6 51.6 52.5 48.4 55.0 41.0 continued on next page RT PRCO23AL-EN 63 Performance Data Table 24. Gross cooling capacities 4 tons high efficiency - three phaseT/YHC048F3,4,W (continued) 64 RT PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 800 75 30.6 23.5 34.8 17.1 40.6 7.2 27.6 21.6 31.6 15.4 37.1 5.8 800 80 31.6 27.9 35.0 23.3 40.1 15.2 28.6 25.9 31.8 21.5 36.6 13.6 800 85 32.9 31.4 35.6 28.5 39.9 22.1 30.0 29.2 32.5 26.5 36.5 20.4 800 90 34.7 33.9 36.7 32.8 40.2 28.2 31.8 31.6 33.6 30.7 36.9 26.3 960 75 32.8 25.6 36.8 18.8 42.4 8.6 29.6 23.6 33.4 17.0 38.8 7.1 960 80 33.9 30.3 37.2 25.3 42.0 16.8 30.8 28.1 33.9 23.4 38.5 15.1 960 85 35.4 34.0 38.0 30.8 42.1 24.0 32.4 31.7 34.7 28.7 38.6 22.3 960 90 37.4 36.8 39.2 35.3 42.6 30.3 34.5 34.4 36.0 33.1 39.2 28.4 1120 75 34.6 27.4 38.4 20.3 43.8 9.7 31.4 25.3 35.0 18.4 40.1 8.1 1120 80 35.9 32.4 39.0 27.0 43.7 18.2 32.8 30.2 35.6 25.0 40.0 16.4 1120 85 37.7 36.4 40.1 32.8 44.0 25.7 34.6 34.1 36.7 30.7 40.4 23.8 1120 90 39.9 39.5 41.5 37.6 44.7 32.3 36.8 36.8 38.2 35.4 41.2 30.3 1280 75 36.2 29.1 39.8 21.6 45.0 10.6 32.8 26.9 36.2 19.6 41.2 8.9 1280 80 37.7 34.3 40.6 28.6 45.1 19.4 34.4 32.0 37.1 26.5 41.4 17.5 1280 85 39.7 38.6 41.9 34.6 45.6 27.2 36.5 36.1 38.4 32.4 41.9 25.2 1280 90 42.1 42.0 43.5 39.7 46.5 34.0 38.9 38.9 40.1 37.4 42.9 31.9 1440 75 37.5 30.5 40.9 22.6 46.0 11.3 34.0 28.2 37.2 20.5 42.0 9.5 1440 80 39.2 36.0 41.9 29.9 46.3 20.3 35.8 33.6 38.3 27.7 42.4 18.4 1440 85 41.4 40.6 43.4 36.2 47.0 28.4 38.1 38.0 39.8 33.9 43.1 26.3 1440 90 44.0 44.0 45.3 41.6 48.1 35.5 40.7 40.7 41.7 39.1 44.3 33.3 1600 75 38.5 31.7 41.8 23.4 46.6 11.7 34.9 29.3 38.0 21.3 42.6 9.8 1600 80 40.5 37.5 43.0 31.0 47.1 21.0 37.0 34.9 39.3 28.7 43.1 19.0 1600 85 42.9 42.3 44.7 37.6 48.0 29.4 39.4 39.4 41.0 35.2 44.1 27.2 1600 90 45.7 45.7 46.7 43.2 49.4 36.8 42.3 42.3 43.1 40.7 45.5 34.5 1760 75 39.2 32.6 42.3 24.0 47.0 11.9 35.6 30.1 38.4 21.8 42.9 9.9 1760 80 41.4 38.7 43.8 31.8 47.7 21.5 37.8 36.1 39.9 29.5 43.6 19.4 1760 85 44.0 43.8 45.6 38.7 48.8 30.1 40.5 40.5 41.9 36.2 44.8 27.9 1760 90 47.0 47.0 47.9 44.7 50.4 37.8 43.6 43.6 44.2 42.0 46.4 35.5 1920 75 39.7 33.3 42.6 24.3 47.1 11.9 36.0 30.8 38.6 22.0 42.9 9.8 1920 80 42.1 39.7 44.3 32.5 48.0 21.8 38.4 37.0 40.3 30.0 43.8 19.6 1920 85 44.9 44.9 46.4 39.6 49.4 30.7 41.3 41.3 42.5 37.0 45.2 28.4 1920 90 48.2 48.2 48.9 45.8 51.1 38.7 44.6 44.6 45.0 43.1 47.0 36.2 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 64 RT PRCO23AL-EN Performance Data Table 25. Gross cooling capacities 5 tons high efficiency - single phaseT/YHC060F1 continued on next page RT-PRCO23AL-EN 65 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DS 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1000 75 48.6 37.7 54.4 28.8 62.3 15.7 45.8 36.1 51.3 27.5 58.9 14.7 42.7 34.3 47.9 26.1 55.2 13.6 1000 80 49.3 43.5 54.2 36.8 61.2 25.9 46.6 41.7 51.3 35.4 58.0 24.8 43.7 39.8 48.0 33.9 54.4 23.6 1000 85 50.5 48.0 54.5 43.6 60.6 34.9 48.0 46.1 51.7 42.1 57.5 33.7 45.1 44.1 48.6 40.4 54.1 32.3 1000 90 52.1 51.2 55.2 49.1 60.4 42.6 49.7 49.3 52.5 47.4 57.4 41.3 47.0 47.0 49.6 45.6 54.1 39.8 1200 75 51.2 40.5 56.8 31.3 64.4 17.8 48.3 38.8 53.6 29.9 61.0 16.7 45.1 36.9 50.1 28.3 57.2 15.4 1200 80 52.2 46.6 56.9 39.6 63.6 28.3 49.4 44.7 53.8 38.1 60.3 27.1 46.4 42.7 50.5 36.4 56.6 25.7 1200 85 53.6 51.4 57.4 46.6 63.2 37.6 51.0 49.4 54.5 45.0 60.0 36.3 48.1 47.3 51.3 43.2 56.5 34.8 1200 90 55.4 55.0 58.3 52.4 63.2 45.6 53.0 52.9 55.5 50.6 60.2 44.1 50.2 50.2 52.5 48.7 56.8 42.5 1400 75 53.5 43.0 58.9 33.4 66.3 19.6 50.5 41.2 55.6 31.9 62.7 18.4 47.3 39.2 52.0 30.2 58.9 17.0 1400 80 54.7 49.4 59.2 42.1 65.7 30.4 51.9 47.5 56.1 40.4 62.3 29.1 48.7 45.3 52.6 38.6 58.5 27.6 1400 85 56.4 54.6 60.0 49.4 65.5 40.0 53.7 52.5 56.9 47.6 62.2 38.5 50.7 50.2 53.7 45.7 58.7 36.9 1400 90 58.5 58.4 61.1 55.5 65.8 48.3 55.9 55.9 58.3 53.6 62.7 46.7 53.1 53.1 55.1 51.5 59.2 45.0 1600 75 55.6 45.3 60.7 35.3 67.9 21.1 52.5 43.4 57.3 33.7 64.2 19.8 49.1 41.2 53.6 31.9 60.2 18.3 1600 80 57.0 52.0 61.2 44.3 67.5 32.2 54.1 49.9 58.0 42.5 64.0 30.8 50.8 47.7 54.5 40.6 60.2 29.2 1600 85 58.9 57.4 62.2 51.9 67.6 42.1 56.1 55.2 59.1 50.0 64.2 40.5 53.0 52.8 55.7 48.0 60.5 38.8 1600 90 61.2 61.2 63.7 58.3 68.1 50.7 58.6 58.6 60.7 56.3 64.8 49.0 55.6 55.6 57.4 54.1 61.3 47.2 1800 75 57.3 47.3 62.2 37.0 69.1 22.3 54.1 45.2 58.7 35.2 65.4 20.9 50.6 43.0 55.0 33.3 61.3 19.3 1800 80 59.0 54.3 63.0 46.2 69.0 33.8 55.9 52.1 59.6 44.3 65.4 32.2 52.6 49.7 56.0 42.2 61.5 30.5 1800 85 61.1 60.0 64.2 54.1 69.3 44.0 58.2 57.7 61.0 52.1 65.8 42.3 55.0 55.0 57.5 50.0 62.1 40.4 1800 90 63.7 63.7 65.9 60.8 70.1 52.9 60.9 60.9 62.8 58.7 66.7 51.1 57.9 57.9 59.5 56.4 63.1 49.1 2000 75 58.7 49.0 63.4 38.3 70.1 23.3 55.5 46.8 59.8 36.4 66.2 21.8 51.9 44.5 56.0 34.4 62.1 20.0 2000 80 60.7 56.3 64.4 47.8 70.2 35.1 57.5 54.0 61.0 45.8 66.5 33.4 54.1 51.5 57.3 43.7 62.5 31.5 2000 85 63.1 62.4 65.9 56.1 70.8 45.5 60.0 59.9 62.6 54.0 67.2 43.7 56.8 56.8 59.0 51.7 63.3 41.8 2000 90 65.9 65.9 67.8 63.1 71.8 54.8 63.0 63.0 64.7 60.8 68.3 52.8 59.9 59.9 61.2 58.4 64.6 50.7 2200 75 59.9 50.5 64.3 39.4 70.8 24.0 56.5 48.2 60.6 37.4 66.8 22.3 52.9 45.7 56.7 35.2 62.6 20.5 2200 80 62.1 58.1 65.6 49.2 71.2 36.1 58.8 55.6 62.1 47.1 67.3 34.3 55.3 53.0 58.3 44.8 63.2 32.3 2200 85 64.7 64.4 67.3 57.8 72.0 46.8 61.6 61.6 63.9 55.5 68.3 44.9 58.2 58.2 60.2 53.1 64.3 42.8 2200 90 67.7 67.7 69.4 65.1 73.2 56.4 64.8 64.8 66.2 62.7 69.7 54.3 61.5 61.5 62.7 60.1 65.8 52.1 2400 75 60.7 51.7 64.9 40.2 71.2 24.4 57.3 49.2 61.2 38.1 67.1 22.6 53.5 46.6 57.1 35.8 62.8 20.7 2400 80 63.2 59.5 66.4 50.3 71.8 36.8 59.8 57.0 62.8 48.1 67.9 34.9 56.2 54.3 58.9 45.7 63.7 32.8 2400 85 66.0 66.0 68.4 59.2 72.8 47.9 62.8 62.8 64.9 56.8 69.0 45.8 59.4 59.4 61.2 54.3 65.0 43.6 2400 90 69.3 69.3 70.8 66.8 74.3 57.7 66.3 66.3 67.4 64.3 70.7 55.5 62.9 62.9 63.8 61.6 66.8 53.2 continued on next page RT-PRCO23AL-EN 65 Performance Data Table 25. Gross cooling capacities 5 tons high efficiency - single phaseT/YHC060F1 (continued) 66 RT-PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 12S Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1000 75 39.3 32.4 44.3 24.5 51.3 12.3 35.7 30.3 40.3 22.7 47.0 10.8 1000 80 40.5 37.8 44.5 32.1 50.6 22.2 37.0 35.6 40.7 30.2 46.5 20.6 1000 85 42.1 41.9 45.2 38.5 50.4 30.8 38.7 38.7 41.6 36.4 46.4 29.0 1000 90 44.1 44.1 46.3 43.6 50.6 38.1 42.4 42.4 42.8 41.4 46.8 36.3 1200 75 41.7 34.8 46.4 26.6 53.1 14.0 37.9 32.6 42.3 24.7 48.8 12.4 1200 80 43.1 40.5 46.9 34.5 52.7 24.2 39.5 38.2 43.0 32.5 48.5 22.5 1200 85 44.9 44.9 47.8 41.2 52.7 33.1 41.4 41.4 44.0 39.0 48.7 31.2 1200 90 47.2 47.2 49.2 46.6 53.2 40.7 45.1 45.1 45.5 44.3 49.3 38.8 1400 75 43.7 37.0 48.2 28.4 54.7 15.5 39.9 34.7 44.1 26.4 50.3 13.8 1400 80 45.3 43.0 48.9 36.6 54.5 25.9 41.6 40.6 44.9 34.5 50.3 24.1 1400 85 47.4 47.4 50.1 43.6 54.8 35.1 43.9 43.9 46.2 41.3 50.7 33.2 1400 90 49.9 49.9 51.7 49.3 55.5 43.1 47.5 47.5 48.0 46.9 51.5 41.0 1600 75 45.4 38.9 49.7 29.9 56.0 16.6 41.5 36.5 45.5 27.8 51.5 14.8 1600 80 47.3 45.3 50.7 38.5 56.1 27.4 43.5 42.7 46.6 36.2 51.7 25.4 1600 85 49.6 49.6 52.1 45.7 56.6 36.9 46.0 46.0 48.1 43.3 52.3 34.8 1600 90 52.4 52.4 53.9 51.7 57.5 45.1 49.6 49.6 50.1 49.2 53.4 42.9 1800 75 46.9 40.6 50.9 31.2 57.0 17.5 42.9 38.0 46.6 28.9 52.4 15.6 1800 80 49.0 47.2 52.1 40.0 57.3 28.6 45.1 44.5 48.0 37.6 52.8 26.5 1800 85 51.6 51.6 53.8 47.6 58.0 38.4 47.8 47.8 49.8 45.1 53.7 36.2 1800 90 55.3 55.3 55.9 53.9 59.2 46.9 51.5 51.5 52.0 51.3 55.0 44.6 2000 75 48.1 42.0 51.8 32.2 57.7 18.1 43.9 39.3 47.4 29.8 53.0 16.1 2000 80 50.4 48.9 53.3 41.3 58.2 29.5 46.4 46.0 49.0 38.8 53.7 27.3 2000 85 53.2 53.2 55.2 49.2 59.2 39.6 49.4 49.4 51.1 46.6 54.8 37.3 2000 90 56.9 56.9 57.5 55.8 60.6 48.4 53.0 53.0 53.5 53.1 56.3 46.0 2200 75 48.9 43.0 52.5 32.9 58.1 18.5 44.7 40.2 48.0 30.4 53.3 16.3 2200 80 51.5 50.3 54.2 42.3 58.9 30.1 47.5 47.3 49.8 39.7 54.2 27.8 2200 85 54.6 54.6 56.3 50.5 60.1 40.6 50.6 50.6 52.1 47.8 55.6 38.1 2200 90 58.3 58.3 58.9 57.4 61.7 49.7 54.2 54.2 54.8 54.6 57.4 47.1 2400 75 49.5 43.9 52.8 33.3 58.2 18.5 45.2 40.9 48.2 30.7 53.3 16.2 2400 80 52.3 51.4 54.7 43.1 59.2 30.5 48.2 48.2 50.3 40.3 54.5 28.1 2400 85 55.6 55.6 57.1 51.6 60.7 41.2 51.6 51.6 52.8 48.7 56.1 38.7 2400 90 59.3 59.3 59.9 58.8 62.6 50.7 55.8 55.8 55.8 55.8 58.1 48.0 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 66 RT-PRCO23AL-EN Performance Data Table 26. Gross cooling capacities 5 tons high efficiency - three phaseT/YHC060E3,4,W continued on next page RT-PRCO23AL-EN 67 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1000 75 50.6 39.4 57.2 29.5 66.2 14.8 47.3 37.5 53.5 28.1 62.2 13.9 43.8 35.5 49.7 26.6 58.0 12.7 1000 80 51.5 45.7 57.0 38.5 64.8 26.5 48.2 43.6 53.3 36.9 60.8 25.2 44.8 41.4 49.5 35.1 56.6 23.8 1000 85 53.1 50.7 57.4 46.1 64.0 36.6 49.8 48.3 53.8 44.2 60.1 35.1 46.4 45.8 50.0 42.1 55.9 33.5 1000 90 55.3 54.1 58.5 52.1 64.0 45.3 52.1 51.5 54.9 50.0 60.0 43.6 48.7 48.7 51.1 47.6 55.9 41.7 1200 75 53.1 42.1 59.5 31.9 68.2 17.0 , 49.7 40.1 55.7 30.4 64.1 15.8 46.1 38.0 51.7 28.7 59.8 14.6 1200 80 54.3 48.7 59.5 41.2 67.0 28.9 50.8 46.5 55.7 39.4 62.9 27.5 47.3 44.1 51.8 37.5 58.7 26.0 1200 85 56.1 53.9 60.1 49.0 66.5 39.3 52.7 51.4 56.4 47.0 62.5 37.7 49.2 48.8 52.5 44.8 58.2 35.9 1200 90 58.5 57.6 61.4 55.4 66.7 48.3 55.2 54.9 57.7 53.1 62.6 46.4 51.7 51.7 53.9 50.6 58.5 44.3 1400 75 55.4 44.6 61.5 34.2 70.0 18.9 51.8 42.5 57.6 32.5 65.8 17.6 48.1 40.3 53.6 30.7 61.4 16.2 1400 80 56.8 51.5 61.7 43.7 69.1 31.1 53.3 49.2 57.9 41.8 64.9 29.6 49.6 46.7 53.9 39.7 60.5 27.9 1400 85 58.8 57.0 62.6 51.8 68.8 41.8 55.3 54.4 58.8 49.6 64.6 40.0 51.7 51.6 54.8 47.3 60.3 38.1 1400 90 61.5 61.0 64.2 58.4 69.2 51.0 58.1 58.1 60.4 56.0 65.1 49.0 54.5 54.5 56.4 53.4 60.8 46.8 1600 75 58.0 46.3 64.5 34.2 71.3 22.4 54.3 44.3 60.5 32.5 67.1 21.0 50.4 42.2 56.3 30.5 62.5 18.4 1600 80 58.7 55.9 64.8 43.5 71.8 31.7 55.0 53.9 60.9 41.7 67.6 29.9 51.3 51.3 56.7 39.7 63.1 27.9 1600 85 61.3 61.3 65.3 53.0 72.2 41.1 58.1 58.1 61.3 51.0 67.9 39.0 54.7 54.7 57.1 49.0 63.4 37.0 1600 90 64.9 64.9 65.8 62.4 72.6 50.2 61.6 61.6 61.9 60.6 68.3 47.9 58.1 58.1 58.0 58.0 63.7 46.0 1800 75 59.6 49.6 66.0 35.9 72.9 22.5 55.7 47.5 61.9 34.5 68.5 20.7 51.7 45.4 57.5 32.4 63.8 18.6 1800 80 60.5 60.3 66.4 46.6 73.5 33.3 57.1 57.1 62.3 44.5 69.0 31.2 53.5 53.5 58.0 42.6 64.3 29.3 1800 85 64.1 64.1 66.9 57.0 73.9 43.4 60.7 60.7 62.8 55.1 69.4 41.5 57.1 57.1 58.5 53.1 64.7 39.4 1800 90 67.8 67.8 67.9 67.7 74.2 53.6 64.3 64.3 64.3 64.3 69.8 51.4 60.6 60.6 60.6 60.6 65.1 49.6 2000 75 60.8 52.8 67.3 37.9 74.2 22.9 56.9 50.8 63.0 35.7 69.6 21.2 52.8 48.7 58.6 33.8 64.9 19.0 2000 80 62.6 62.6 67.7 49.4 74.8 34.6 59.1 59.1 63.5 47.3 70.2 32.6 55.4 55.4 59.0 45.4 65.4 30.5 2000 85 66.5 66.5 68.4 61.1 75.2 45.8 62.9 62.9 64.2 59.2 70.6 43.8 59.2 59.2 59.7 57.2 65.8 41.8 2000 90 70.4 70.4 70.3 70.3 75.5 57.1 66.8 66.8 66.7 66.7 71.0 55.2 62.9 62.9 62.8 62.8 66.2 53.2 2200 75 61.9 56.0 68.3 39.5 75.3 23.3 58.0 54.1 64.0 37.9 70.6 21.0 53.8 52.0 59.4 35.3 65.8 19.1 2200 80 64.5 64.5 68.8 52.2 75.9 35.9 60.9 60.9 64.6 50.2 71.2 33.9 57.2 57.2 60.0 48.2 66.3 31.9 2200 85 68.5 68.5 69.5 65.2 76.3 48.4 64.9 64.9 65.3 63.4 71.7 46.3 61.0 61.0 61.0 60.9 66.7 44.3 2200 90 72.6 72.6 72.6 72.6 76.8 60.8 68.9 68.9 68.8 68.8 72.1 58.8 64.8 64.8 64.8 64.8 67.2 56.9 2400 75 62.9 59.3 69.2 41.2 76.1 22.9 1 58.9 57.3 64.8 39.1 71.4 21.7 54.8 54.7 60.2 37.0 66.5 19-.5- 2400 80 66.2 66.2 69.8 55.0 76.9 37.1 62.5 62.5 65.4 53.0 72.1 35.1 58.6 58.6 60.8 51.0 67.1 33.0 2400 85 70.4 70.4 70.8 69.3 77.3 51.0 66.6 66.6 66.7 66.6 72.5 48.5 62.6 62.6 62.5 62.5 67.6 46.8 2400 90 74.6 74.6 74.5 74.5 77.8 64.3 70.7 70.7 70.7 70.7 72.9 62.5 66.6 66.6 66.5 66.5 68.2 60.7 continued on next page RT-PRCO23AL-EN 67 m Performance Data Table 26. Gross cooling capacities 5 tons high efficiency - three phaseT/YHC060E3,4,W (continued) 68 RT PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1000 75 40.1 33.4 45.7 24.9 53.6 11.4 36.3 31.1 41.5 23.0 49.0 10.0 1000 80 41.1 39.0 45.5 33.1 52.3 22.3 37.3 36.5 41.4 31.0 47.8 20.6 1000 85 42.8 42.8 46.0 39.8 51.6 31.7 39.0 39.0 41.9 37.5 47.2 29.7 1000 90 46.8 46.8 47.2 45.1 51.7 39.6 42.7 42.7 43.1 42.5 47.3 37.4 1200 75 42.3 35.7 47.6 26.9 55.3 13.2 38.3 33.3 43.3 24.9 50.7 11.6 1200 80 43.5 41.6 47.7 35.4 54.2 24.3 39.6 38.9 43.4 33.1 49.6 22.5 1200 85 45.5 45.5 48.4 42.4 53.8 33.9 41.6 41.6 44.2 39.9 49.3 31.9 1200 90 49.4 49.4 49.9 48.0 54.1 42.1 45.2 45.2 45.7 45.2 49.6 39.8 1400 75 44.2 37.9 49.3 28.7 56.8 14.7 40.2 35.3 44.9 26.6 52.0 13.0 1400 80 45.7 44.0 49.7 37.5 56.0 26.1 41.7 41.2 45.3 35.1 51.3 24.1 1400 85 47.9 47.9 50.7 44.8 55.8 36.0 43.9 43.9 46.3 42.1 51.1 33.8 1400 90 51.8 51.8 52.3 50.6 56.3 44.5 47.6 47.6 48.0 47.7 51.7 42.0 1600 75 46.3 40.0 51.8 28.3 57.7 16.5 41.9 37.1 46.4 28.1 53.2 14.2 1600 80 47.8 47.8 52.2 37.5 58.2 25.8 43.6 43.3 47.0 36.9 52.7 25.6 1600 85 51.0 51.0 52.6 46.9 58.5 35.0 46.1 46.1 48.2 44.2 52.8 35.6 1600 90 54.3 54.3 54.3 54.3 58.9 44.0 49.7 49.7 50.2 50.1 53.6 44.1 1800 75 47.4 43.3 52.9 30.0 58.9 16.7 43.3 38.7 47.6 29.4 54.2 15.2 1800 80 49.8 49.8 53.4 40.3 59.4 27.1 45.3 45.2 48.4 38.5 53.9 26.9 1800 85 53.3 53.3 54.0 51.0 59.8 37.2 48.0 48.0 49.9 46.1 54.3 37.2 1800 90 56.7 56.7 56.7 56.7 60.1 47.7 52.1 52.1 52.1 52.1 55.3 45.9 2000 75 48.5 46.5 53.8 31.6 59.8 17.0 44.6 40.2 48.6 30.6 55.0 16.1 2000 80 51.6 51.6 54.4 43.2 60.4 28.5 46.8 46.8 49.7 39.9 54.9 28.1 2000 85 55.2 55.2 55.3 55.1 60.7 40.2 49.7 49.7 51.4 47.8 55.5 38.6 2000 90 58.7 58.7 58.7 58.7 61.2 51.3 53.8 53.8 53.8 53.8 56.8 47.6 2200 75 49.4 49.3 54.6 33.2 60.6 17.3 45.6 41.5 49.4 31.6 55.6 16.8 2200 80 53.1 53.1 55.2 46.0 61.1 29.8 48.1 48.1 50.7 41.2 55.7 29.0 2200 85 56.8 56.8 56.8 56.8 61.6 42.5 51.2 51.2 52.7 49.3 56.5 39.8 2200 90 60.6 60.6 60.5 60.5 62.1 55.1 55.3 55.3 55.3 55.3 58.0 49.1 2400 75 50.7 50.7 55.3 35.0 61.3 17.5 46.4 42.6 50.0 32.4 55.9 17.3 2400 80 54.5 54.5 55.9 49.0 61.8 31.1 49.1 49.1 51.5 42.2 56.3 29.8 2400 85 58.3 58.3 58.2 58.2 62.3 44.9 52.5 52.5 53.7 50.7 57.4 40.8 2400 90 62.2 62.2 62.1 62.1 62.9 58.8 56.6 56.6 56.6 56.6 59.1 50.4 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 68 RT PRCO23AL-EN Performance Data Table 27. Gross cooling capacities 5 tons high efficiency - three phaseT/YHC060F3,4,W continued on next page RT-PRCO23AL-EN 69 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1000 75 48.4 37.7 54.4 28.8 62.5 15.5 45.5 35.9 51.2 27.3 59.1 14.3 42.3 34.0 47.8 25.7 55.4 13.0 1000 80 49.1 43.6 54.1 36.9 61.3 25.8 46.3 41.7 51.1 35.3 58.0 24.6 43.3 39.6 47.8 33.6 54.5 23.2 1000 85 50.3 48.3 54.3 43.8 60.5 34.9 47.6 46.2 51.4 42.0 57.4 33.5 44.8 44.1 48.4 40.2 54.1 32.0 1000 90 51.9 51.7 55.0 49.4 60.2 42.8 49.4 49.4 52.3 47.6 57.3 41.3 46.8 46.8 49.4 45.6 54.1 39.7 1200 75 51.1 40.5 56.8 31.2 64.7 17.6 48.0 38.6 53.5 29.6 61.2 16.3 44.8 36.6 50.0 27.9 57.4 15.0 1200 80 52.0 46.7 56.8 39.6 63.7 28.2 49.1 44.7 53.6 37.9 60.3 26.9 46.0 42.5 50.3 36.1 56.8 25.4 1200 85 53.4 51.7 57.2 46.8 63.2 37.6 50.7 49.5 54.3 45.0 60.0 36.1 47.8 47.2 51.1 43.0 56.6 34.5 1200 90 55.3 55.3 58.2 52.7 63.2 45.8 52.7 52.7 55.3 50.8 60.1 44.2 50.0 50.0 52.4 48.7 56.9 42.4 1400 75 53.4 43.1 58.9 33.4 66.6 19.4 50.3 41.1 55.6 31.7 63.0 18.1 47.0 39.0 52.0 29.9 59.2 16-.-6- 1400 80 54.6 49.6 59.2 42.1 65.9 30.3 51.6 47.4 55.9 40.3 62.4 28.9 48.5 45.2 52.5 38.4 58.7 27.3 1400 85 56.3 54.8 59.9 49.6 65.6 40.0 53.4 52.5 56.8 47.7 62.3 38.5 50.4 50.2 53.5 45.6 58.8 36.7 1400 90 58.4 58.4 61.0 55.8 65.8 48.5 55.7 55.7 58.1 53.8 62.7 46.8 52.9 52.9 55.0 51.6 59.3 45.0 1600 75 55.5 45.3 60.8 35.3 68.2 21.0 52.3 43.3 57.3 33.6 64.5 19.5 48.8 41.0 53.6 31.7 60.6 18.0 1600 80 56.9 52.1 61.2 44.3 67.7 32.2 53.8 49.9 57.9 42.4 64.1 30.6 50.6 47.6 54.4 40.4 60.4 29.0 1600 85 58.8 57.6 62.2 52.1 67.7 42.2 55.9 55.3 59.0 50.1 64.3 40.5 52.8 52.8 55.7 47.9 60.7 38.7 1600 90 61.2 61.2 63.6 58.6 68.1 50.9 58.5 58.5 60.6 56.5 64.9 49.1 55.6 55.6 57.4 54.2 61.5 47.2 1800 75 57.3 47.3 62.3 37.0 69.5 22.3 53.9 45.2 58.7 35.1 65.7 20.7 50.4 42.8 55.0 33.1 61.7 19.1 1800 80 58.9 54.4 63.0 46.2 69.2 33.8 55.8 52.1 59.6 44.3 65.6 32.1 52.4 49.6 56.0 42.2 61.8 30.3 1800 85 61.1 60.2 64.2 54.3 69.5 44.0 58.1 57.8 61.0 52.2 66.0 42.3 54.9 54.9 57.5 50.0 62.3 40.4 1800 90 63.7 63.7 65.9 61.1 70.2 53.1 60.9 60.9 62.8 58.9 66.9 51.2 57.9 57.9 59.6 56.5 63.4 49.2 2000 75 58.7 49.1 63.5 38.3 70.5 23.3 55.3 46.8 59.9 36.4 66.6 21.7 51.7 44.4 56.0 34.3 62.5 19.9 2000 80 60.6 56.4 64.5 47.9 70.5 35.1 57.4 54.0 61.0 45.8 66.8 33.3 54.0 51.5 57.3 43.6 62.9 31.5 2000 85 63.0 62.5 65.9 56.2 71.0 45.7 60.0 60.0 62.6 54.0 67.4 43.8 56.7 56.7 59.1 51.7 63.7 41.8 2000 90 65.9 65.9 67.9 63.3 71.9 55.0 63.0 63.0 64.7 61.0 68.5 53.0 59.9 59.9 61.4 58.6 65.0 50.9 2200 75 59.9 50.5 64.5 39.4 71.2 24.0 56.4 48.1 60.7 37.4 67.2 22.3 52.7 45.6 56.8 35.2 63.1 20.5 2200 80 62.1 58.1 65.7 49.3 71.4 36.1 58.7 55.7 62.1 47.1 67.6 34.3 55.2 53.0 58.4 44.8 63.6 32.3 2200 85 64.7 64.5 67.4 57.9 72.2 47.0 61.6 61.6 64.0 55.6 68.5 45.0 58.2 58.2 60.4 53.2 64.7 42.9 2200 90 67.9 67.9 69.5 65.3 73.4 56.6 64.9 64.9 66.3 62.9 69.9 54.5 61.7 61.7 62.9 60.4 66.2 52.3 2400 75 60.8 51.7 65.1 40.3 71.6 24.5 57.2 49.2 61.3 38.1 67.5 22.7 53.4 46.6 57.3 35.8 63.3 26.7- 2400 80 63.2 59.6 66.6 50.4 72.1 36.9 59.8 57.0 62.9 48.2 68.2 35.0 56.2 54.3 59.1 45.8 64.1 32.9 2400 85 66.1 66.1 68.5 59.3 73.1 48.0 62.8 62.8 65.0 57.0 69.4 46.0 59.4 59.4 61.3 54.4 65.4 43.8 2400 90 69.5 69.5 70.9 67.0 74.6 57.9 66.4 66.4 67.6 64.5 71.0 55.8 63.1 63.1 64.1 61.9 67.2 53.5 continued on next page RT-PRCO23AL-EN 69 Performance Data Table 27. Gross cooling capacities 5 tons high efficiency -three phaseT/YHC060F3,4,W (continued) 70 RT PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1000 75 39.0 31.9 44.2 23.9 51.6 11.6 35.5 29.7 40.5 22.0 47.6 10.1 1000 80 40.1 37.4 44.4 31.7 50.9 21.6 36.8 35.1 40.8 29.7 47.0 20.0 1000 85 41.8 41.7 45.1 38.2 50.6 30.4 38.6 38.6 41.7 36.1 46.9 28.6 1000 90 43.9 43.9 46.3 43.5 50.8 37.9 42.6 42.6 43.0 41.2 47.3 36.0 1200 75 41.4 34.4 46.4 26.1 53.5 13.4 37.8 32.1 42.5 24.1 49.4 11.8 1200 80 42.8 40.3 46.8 34.2 53.0 23.7 39.4 37.8 43.2 32.1 49.1 22.0 1200 85 44.7 44.7 47.8 41.0 53.0 32.8 41.4 41.4 44.3 38.7 49.2 30.9 1200 90 47.1 47.1 49.2 46.5 53.5 40.6 45.4 45.4 45.8 44.2 49.9 38.6 1400 75 43.5 36.7 48.2 28.0 55.2 15.0 39.8 34.3 44.3 25.9 51.0 13.3 1400 80 45.1 42.8 48.9 36.3 54.9 25.6 41.6 40.3 45.2 34.1 50.9 23.7 1400 85 47.3 47.3 50.1 43.4 55.1 34.9 43.9 43.9 46.5 41.1 51.3 32.9 1400 90 49.9 49.9 51.8 49.3 55.8 43.0 47.9 47.9 48.4 46.9 52.2 40.9 1600 75 45.3 38.7 49.8 29.6 56.5 16.3 41.5 36.2 45.8 27.5 52.2 14.4 1600 80 47.2 45.1 50.8 38.3 56.5 27.1 43.6 42.4 46.9 36.0 52.4 25.2 1600 85 49.6 49.6 52.2 45.7 57.0 36.8 46.1 46.1 48.5 43.2 53.0 34.7 1600 90 52.5 52.5 54.1 51.8 57.9 45.1 50.1 50.1 50.6 49.3 54.2 42.9 1800 75 46.8 40.4 51.1 31.0 57.5 17.3 42.9 37.8 47.0 28.7 53.2 15.3 1800 80 48.9 47.1 52.3 39.9 57.8 28.4 45.2 44.4 48.3 37.5 53.6 26.4 1800 85 51.6 51.6 54.0 47.6 58.5 38.3 48.1 48.1 50.2 45.1 54.5 36.2 1800 90 54.7 54.7 56.1 54.0 59.7 47.0 52.0 52.0 52.5 51.4 55.9 44.7 2000 75 48.0 41.8 52.0 32.1 58.3 18.0 44.0 39.1 47.9 29.7 53.9 16.0 2000 80 50.4 48.8 53.5 41.3 58.8 29.5 46.6 46.0 49.5 38.8 54.5 27.3 2000 85 53.3 53.3 55.4 49.3 59.7 39.7 49.7 49.7 51.6 46.7 55.6 37.4 2000 90 57.3 57.3 57.9 56.0 61.2 48.6 53.6 53.6 54.2 53.3 57.3 46.2 2200 75 48.9 43.0 52.7 32.9 58.7 18.5 44.9 40.2 48.5 30.4 54.2 16.4 2200 80 51.6 50.3 54.4 42.4 59.5 30.2 47.7 47.3 50.3 39.8 55.1 28.0 2200 85 54.7 54.7 56.6 50.7 60.7 40.7 51.0 51.0 52.7 48.0 56.5 38.3 2200 90 58.7 58.7 59.3 57.7 62.4 50.0 55.0 55.0 55.5 54.9 58.4 47.5 2400 75 49.5 43.9 53.1 33.4 58.9 18.7 45.4 41.0 48.8 30.9 54.3 16.4 2400 80 52.4 51.4 55.1 43.2 59.9 30.7 48.5 48.4 50.9 40.6 55.4 28.4 2400 85 55.8 55.8 57.5 51.8 61.3 41.5 52.0 52.0 53.5 49.0 57.1 39.0 2400 90 59.8 59.8 60.4 59.1 63.3 51.0 56.0 56.0 56.6 56.2 59.2 48.5 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 70 RT PRCO23AL-EN Performance Data Table 28. Gross cooling capacities 6 tons high efficiency -three phaseT/YHC072F3,4,W continued on next page RT-PRCO23AL-EN 71 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1200 75 57.38 45.11 64.42 34.56 73.89 18.95 54.03 43.15 60.77 33.00 69.96 17.80 50.35 40.96 56.80 31.22 65.70 16.42 1200 80 58.22 52.14 64.05 44.19 72.33 31.17 55.02 50.02 60.56 42.47 68.55 29.87 51.50 47.68 56.75 40.54 64.44 28.34 1200 85 59.60 57.69 64.23 52.33 71.31 41.91 56.56 55.42 60.90 50.46 67.68 40.46 53.19 52.92 57.24 48.38 63.73 38.78 1200 90 61.53 61.53 64.96 59.00 70.84 51.18 58.64 58.64 61.78 56.98 67.36 49.56 55.43 55.43 58.28 54.74 63.56 47.73 1440 75 60.55 48.45 67.30 37.48 76.48 21.46 57.11 46.38 63.56 35.82 72.45 20.20 53.35 44.08 59.51 33.93 68.10 18.73 1440 80 61.64 55.77 67.18 47.41 75.16 33.98 58.36 53.55 63.60 45.59 71.29 32.57 54.75 51.10 59.70 43.55 67.10 30.94 1440 85 63.28 61.62 67.62 55.85 74.40 45.02 60.15 59.24 64.19 53.88 70.68 43.46 56.69 56.64 60.44 51.68 66.63 41.67 1440 90 65.46 65.46 68.60 62.81 74.17 54.58 62.48 62.48 65.33 60.68 70.61 52.86 59.18 59.18 61.73 58.34 66.72 50.92 1680 75 63.35 51.47 69.80 40.09 78.69 23.66 59.82 49.29 65.98 38.32 74.57 22.30 55.97 46.89 61.83 36.33 70.13 20.71 1680 80 64.69 59.09 69.94 50.31 77.62 36.48 61.32 56.76 66.27 48.39 73.66 34.96 57.62 54.20 62.28 46.24 69.37 33.22 1680 85 66.58 65.23 70.62 59.05 77.10 47.81 63.36 62.74 67.11 56.97 73.30 46.14 59.82 59.82 63.27 54.67 69.16 44.25 1680 90 69.01 69.01 71.85 66.30 77.13 57.66 65.95 65.95 68.49 64.07 73.48 55.84 62.56 62.56 64.81 61.62 69.50 53.80 1920 75 65.78 54.17 71.93 42.38 80.52 25.54 62.16 51.88 68.01 40.51 76.31 24.07 58.22 49.38 63.78 38.41 71.78 22.38 1920 80 67.37 62.08 72.32 52.90 79.70 38.65 63.90 59.65 68.56 50.87 75.65 37.03 60.12 56.99 64.48 48.62 71.28 35.18 1920 85 69.51 68.52 73.25 61.93 79.44 50.28 66.19 65.93 69.65 59.75 75.54 48.51 62.56 62.56 65.72 57.34 71.32 46.51 1920 90 72.19 72.19 74.73 69.48 79.71 60.43 69.03 69.03 71.28 67.15 75.97 58.50 65.55 65.55 67.51 64.59 71.90 56.35 2160 75 67.82 56.56 73.67 44.36 81.97 27.11 64.11 54.16 69.67 42.38 77.67 25.53 60.08 51.55 65.35 40.17 73.05 23.73 2160 80 69.66 64.77 74.31 55.17 81.41 40.51 66.11 62.22 70.47 53.03 77.26 38.78 62.23 59.46 66.30 50.68 72.80 36.83 2160 85 72.05 71.50 75.50 64.50 81.39 52.44 68.65 68.65 71.81 62.21 77.40 50.56 64.93 64.93 67.79 59.70 73.09 48.45 2160 90 74.99 74.99 77.23 72.35 81.92 62.89 71.74 71.74 73.69 69.90 78.09 60.85 68.17 68.17 69.83 67.24 73.93 58.59 2400 75 69.49 58.62 75.05 46.02 83.04 28.36 65.69 56.13 70.95 43.93 78.66 26.67 61.57 53.41 66.54 41.62 73.95 24.77 2400 80 71.58 67.13 75.94 57.12 82.73 42.06 67.94 64.48 72.00 54.88 78.50 40.22 63.97 61.61 67.74 52.42 73.95 38.16 2400 85 74.22 74.16 77.37 66.75 82.97 54.28 70.73 70.73 73.59 64.35 78.89 52.29 66.92 66.92 69.48 61.74 74.49 50.08 2400 90 77.41 77.41 79.36 74.89 83.75 65.02 74.07 74.07 75.73 72.34 79.82 62.88 70.41 70.41 71.78 69.58 75.58 60.52 2640 75 70.78 60.38 76.04 47.36 83.74 29.29 66.89 57.78 71.86 45.17 79.26 27.50 62.68 54.95 67.36 42.75 74.47 25.49 2640 80 73.13 69.18 77.18 58.76 83.68 43.29 69.39 66.43 73.16 56.41 79.36 41.34 65.34 63.45 68.81 53.84 74.72 39.18 2640 85 76.02 76.02 78.87 68.68 84.17 55.80 72.44 72.44 75.00 66.18 80.00 53.71 68.53 68.53 70.80 63.46 75.51 51.39 2640 90 79.45 79.45 81.10 77.12 85.20 66.84 76.03 76.03 77.39 74.47 81.19 64.59 72.61 72.61 73.34 71.59 76.85 62.13 2880 75 71.69 61.82 76.66 48.39 84.06 29.90 67.72 59.11 72.39 46.09 79.50 28.01 63.42 56.18 67.79 43.56 74.61 25.89 2880 80 74.29 70.92 78.05 60.09 84.25 44.20 70.47 68.05 73.93 57.63 79.84 42.15 66.32 64.97 69.49 54.96 75.11 39.88 2880 85 77.43 77.43 79.99 70.30 84.99 57.01 73.76 73.76 76.03 67.69 80.73 54.81 69.77 69.77 71.74 64.87 76.15 52.39 2880 90 81.12 81.12 82.47 79.04 86.27 68.35 77.60 77.60 78.67 76.28 82.17 65.99 73.79 73.79 74.53 73.30 77.74 63.42 continued on next page RT-PRCO23AL-EN 71 Performance Data Table 28. Gross cooling capacities 6 tons high efficiency -three phaseT/YHC072F3,4,W (continued) 72 RT PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1200 75 46.36 38.55 52.51 29.22 61.11 14.83 42.04 35.93 47.90 27.00 56.20 13.02 1200 80 47.66 45.12 52.61 38.39 60.01 26.59 43.49 42.34 48.15 36.02 55.26 24.63 1200 85 49.50 49.50 53.26 46.07 59.45 36.88 45.49 45.49 48.95 43.55 54.85 34.76 1200 90 51.90 51.90 54.45 52.28 59.44 45.68 49.79 49.79 50.30 49.60 54.99 43.41 1440 75 49.26 41.57 55.13 31.83 63.43 17.03 44.85 38.84 50.42 29.50 58.43 15.11 1440 80 50.82 48.44 55.48 41.29 62.58 29.09 46.56 45.55 50.93 38.81 57.73 27.01 1440 85 52.91 52.91 56.37 49.27 62.27 39.67 48.81 48.81 51.98 46.64 57.58 37.44 1440 90 57.23 57.23 57.81 55.77 62.51 48.76 53.04 53.04 53.57 52.99 57.97 46.39 1680 75 51.80 44.27 57.36 34.12 65.37 18.91 47.30 41.43 52.57 31.69 60.28 16.88 1680 80 53.60 51.43 57.96 43.88 64.76 31.26 49.25 48.44 53.32 41.29 59.83 29.08 1680 85 55.95 55.95 59.11 52.15 64.71 42.14 51.76 51.76 54.62 49.42 59.93 39.81 1680 90 60.19 60.19 60.80 58.95 65.20 51.53 55.90 55.90 56.47 56.06 60.57 49.05 1920 75 53.95 46.66 59.22 36.09 66.93 20.47 49.36 43.71 54.34 33.55 61.75 18.34. 1920 80 56.00 54.11 60.07 46.15 66.58 33.12 51.57 51.02 55.34 43.45 61.55 30.84 1920 85 58.60 58.60 61.47 54.72 66.77 44.29 54.32 54.32 56.89 51.88 61.90 41.85 1920 90 62.78 62.78 63.41 61.81 67.51 53.98 58.40 58.40 58.99 58.82 62.80 51.39 2160 75 55.73 48.72 60.70 37.75 68.11 21.71 51.05 45.67 55.73 35.10 62.85 19.48 2160 80 58.03 56.48 61.80 48.10 68.01 34.66 53.51 53.27 56.98 45.30 62.90 32.27 2160 85 60.88 60.88 63.45 56.97 68.46 46.13 56.51 56.51 58.79 54.02 63.50 43.59 2160 90 64.99 64.99 65.64 64.36 69.45 56.12 61.13 61.13 61.13 61.13 64.65 53.42 2400 75 57.13 50.48 61.80 39.09 68.92 22.65 52.36 47.32 56.74 36.34 63.56 20.30 2400 80 59.68 58.52 63.16 49.74 69.07 35.89 55.07 55.07 58.25 46.83 63.87 33.39 2400 85 62.78 62.78 65.05 58.90 69.77 47.65 58.32 58.32 60.30 55.85 64.72 45.00 2400 90 66.82 66.82 67.50 66.59 71.01 57.94 62.90 62.90 62.90 62.90 66.12 55.13 2640 75 58.15 51.91 62.53 40.11 69.35 23.26 53.29 48.65 57.38 37.26 63.90 20.81 2640 80 60.96 60.26 64.13 51.06 69.75 36.80 56.25 56.25 59.13 48.05 64.46 34.20 2640 85 64.31 64.31 66.28 60.52 70.70 48.86 59.76 59.76 61.44 57.36 65.56 46.10 2640 90 68.29 68.29 68.98 68.50 72.19 59.44 64.29 64.29 64.29 64.29 67.21 56.53 2880 75 58.79 53.03 62.88 40.82 69.40 23.56 53.85 49.66 57.64 37.86 63.86 21.00 2880 80 61.85 61.67 64.73 52.06 70.05 37.39 57.06 57.06 59.64 48.95 64.67 34.68 2880 85 65.45 65.45 67.13 61.82 71.25 49.75 60.82 60.82 62.20 58.55 66.02 46.89 2880 90 70.08 70.08 70.08 70.08 72.99 60.62 65.30 65.30 65.30 65.30 67.92 57.61 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 72 RT PRCO23AL-EN Performance Data Table 29. Gross cooling capacities 6 tons high efficiency - three phaseT/YHC072E3,4,W continued on next page RT-PRCO23AL-E N 73 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1200 75 62.5 48.5 69.3 36.5 78.5 19.0 59.7 47.2 66.1 35.7 74.8 18.6 56.6 45.7 62.6 34.7 71.0 18.0 1200 80 63.6 55.8 69.3 46.8 77.3 32.3 60.9 54.3 66.1 45.8 73.8 31.6 57.9 52.6 62.7 44.5 70.0 30.8 1200 85 65.4 61.5 70.0 55.5 76.9 43.9 62.7 59.7 66.9 54.2 73.4 43.0 59.8 57.7 63.5 52.6 69.7 41.9 1200 90 67.9 65.5 71.3 62.5 77.1 53.9 65.3 63.5 68.3 60.9 73.7 52.7 62.4 61.3 65.0 59.1 70.0 51.4 1440 75 64.9 51.2 71.3 38.6 80.1 20.4 61.9 49.7 67.9 37.6 76.3 19.9 58.7 48.0 64.3 36.4 72.3 19.1 1440 80 66.5 59.0 71.7 49.4 79.4 34.2 63.5 57.3 68.4 48.1 75.6 33.4 60.3 55.3 64.8 46.7 71.7 32.3 1440 85 68.7 65.2 72.8 58.6 79.3 46.4 65.8 63.2 69.5 57.1 75.6 45.3 62.7 61.0 66.0 55.3 71.7 44.0 1440 90 71.5 69.8 74.5 66.1 79.9 56.9 68.7 67.5 71.3 64.3 76.3 55.5 65.7 65.1 67.9 62.3 72.5 53.9 1680 75 66.9 53.4 72.9 40.2 81.3 21.4 63.7 51.7 69.3 39.0 77.3 20.6 60.3 49.8 65.5 37.5 73.0 19.6 1680 80 68.8 61.7 73.7 51.5 80.9 35.7 65.7 59.8 70.1 50.0 77.0 34.7 62.3 57.6 66.4 48.3 72.8 33.4 1680 85 71.4 68.5 75.1 61.2 81.2 48.4 68.3 66.3 71.7 59.5 77.4 47.1 65.0 63.9 68.0 57.5 73.3 45.6 1680 90 74.6 73.5 77.3 69.3 82.2 59.4 71.7 71.1 73.9 67.3 78.5 57.8 68.4 68.4 70.3 65.0 74.4 56.0 1920 75 68.3 55.1 73.9 41.3 81.9 21.9 64.9 53.2 70.2 39.9 77.7 20.9 61.3 51.1 66.2 38.2 73.3 19-.-7- 1920 80 70.6 64.0 75.1 53.2 81.9 36.7 67.3 61.8 71.4 51.5 77.8 35.5 63.8 59.5 67.5 49.6 73.5 34.0 1920 85 73.6 71.2 76.9 63.4 82.7 49.9 70.4 68.8 73.3 61.4 78.6 48.4 66.9 66.2 69.4 59.2 74.4 46.7 1920 90 77.2 76.8 79.5 71.9 84.0 61.4 74.1 74.1 75.9 69.7 80.1 59.6 70.7 70.7 72.1 67.3 75.9 57.7 2160 75 69.2 56.4 74.4 41.9 82.0 21.9 65.7 54.2 70.5 40.3 77.7 20.7 61.9 51.9 66.3 38.4 73.1 19.3 2160 80 71.9 65.7 76.0 54.3 82.5 37.3 68.5 63.4 72.1 52.4 78.2 35.8 64.7 60.8 68.0 50.3 73.7 34.1 2160 85 75.3 73.5 78.2 65.0 83.6 50.9 71.9 70.9 74.4 62.9 79.4 49.2 68.2 68.1 70.4 60.5 74.9 47.3 2160 90 79.3 79.3 81.2 74.1 85.4 63.0 76.0 76.0 77.4 71.7 81.2 61.0 72.4 72.4 73.5 69.0 76.8 58.8 2400 75 69.7 57.1 74.5 42.1 81.7 21.5 65.9 54.8 70.4 40.2 77.1 20.0 62.0 52.3 66.0 38.2 72.4 18.4 2400 80 72.7 67.0 76.4 55.0 82.5 37.3 69.1 64.5 72.4 52.9 78.0 35.6 65.2 61.7 68.1 50.5 73.3 33.7 2400 85 76.5 75.3 79.1 66.2 84.0 51.5 72.9 72.5 75.1 63.8 79.6 49.6 69.1 69.1 70.9 61.2 75.0 47.4 2400 90 80.9 80.9 82.4 75.8 86.2 64.1 77.4 77.4 78.4 73.2 81.8 61.9 73.7 73.7 74.3 70.3 77.3 59.5 2640 75 69.6 57.4 74.0 41.8 80.8 20.5 65.7 54.9 69.7 39.7 76.1 18.9 61.5 52.2 65.2 37.4 71.1 17.0 2640 80 73.0 67.8 76.3 55.2 82.0 36.9 69.2 65.1 72.1 52.8 77.4 35.0 65.2 62.1 67.6 50.3 72.5 32.9 2640 85 77.2 76.6 79.4 66.9 83.9 51.6 73.4 73.4 75.2 64.3 79.3 49.4 69.4 69.4 70.8 61.5 74.5 47.1 2640 90 82.0 82.0 83.0 77.0 86.4 64.7 78.3 78.3 79.0 74.2 82.0 62.2 74.4 74.4 74.6 71.1 77.2 59.6 2880 75 69.0 57.2 73.0 41.0 79.4 19.1 64.9 54.5 68.5 38.7 74.5 17.2 60.6 51.6 63.8 36.2 69.4 15.2 2880 80 72.8 68.2 75.7 54.9 81.0 36.0 68.8 65.2 71.3 52.3 76.2 33.9 64.6 62.0 66.7 49.6 71.2 31.6 2880 85 77.4 77.4 79.1 67.1 83.3 51.2 73.4 73.4 74.8 64.3 78.5 48.8 69.3 69.3 70.2 61.3 73.6 46.3 2880 90 82.6 82.6 83.2 77.7 86.2 64.8 78.7 78.7 79.0 74.7 81.6 62.2 74.6 74.6 74.5 71.4 76.7 59.3 continued on next page RT-PRCO23AL-E N 73 Performance Data Table 29. Gross cooling capacities 6 tons high efficiency -three phaseT/YHC072E3,4,W (continued) 74 RT-PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Entering Wet Bulb (°F) Entering Wet Bulb (°F) Air Ent Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1200 75 53.3 44.1 58.9 33.5 66.9 17.3 49.7 42.2 54.9 32.0 62.5 16.3 1200 80 54.6 50.6 59.1 43.0 65.9 29.8 51.1 48.5 55.2 41.3 61.7 28.5 1200 85 56.6 55.5 60.0 50.9 65.7 40.6 53.2 53.2 56.2 48.9 61.5 39.1 1200 90 59.3 58.8 61.5 57.1 66.1 49.8 56.0 56.0 57.8 54.9 62.0 48.1 1440 75 55.2 46.1 60.4 34.9 68.0 18.1 51.5 44.0 56.3 33.3 63.4 16.9 1440 80 56.9 53.2 61.0 45.0 67.4 31.1 53.3 50.9 56.9 43.1 63.0 29.6 1440 85 59.3 58.6 62.3 53.4 67.6 42.5 55.7 55.7 58.3 51.2 63.2 40.8 1440 90 62.4 62.4 64.2 60.1 68.4 52.2 58.9 58.9 60.3 57.7 64.1 50.2 1680 75 56.6 47.7 61.4 35.9 68.6 18.4 52.7 45.4 57.1 34.0 63.9 17.0 1680 80 58.7 55.3 62.4 46.4 68.4 32.0 54.9 52.7 58.2 44.3 63.8 30.3 1680 85 61.5 61.2 64.1 55.4 69.0 43.8 57.8 57.8 59.9 53.0 64.4 41.9 1680 90 65.0 65.0 66.4 62.6 70.2 54.1 61.3 61.3 62.3 60.0 65.7 51.9 1920 75 57.5 48.8 61.9 36.4 68.7 18.3 53.4 46.3 57.4 34.3 63.8 16.7 1920 80 60.0 56.9 63.3 47.4 68.9 32.3 56.0 54.2 58.9 45.1 64.1 30.5 1920 85 63.2 63.2 65.3 56.9 69.9 44.7 59.3 59.3 61.0 54.3 65.1 42.6 1920 90 67.1 67.1 68.1 64.6 71.5 55.5 63.2 63.2 63.8 61.8 66.8 53.1 2160 75 57.9 49.4 61.9 36.4 68.3 17.7 53.6 46.7 57.3 34.1 63.2 15.9 2160 80 60.8 58.1 63.7 48.0 68.9 32.2 56.6 55.1 59.1 45.4 63.9 30.2 2160 85 64.4 64.4 66.1 57.9 70.2 45.1 60.3 60.3 61.6 55.1 65.3 42.8 2160 90 68.6 68.6 69.2 66.2 72.2 56.4 64.2 64.2 64.8 63.2 67.4 53.8 2400 75 57.8 49.6 61.4 35.9 67.4 16.6 53.3 46.6 56.6 33.4 62.1 14.5 2400 80 61.1 58.7 63.6 48.0 68.4 31.6 56.7 55.5 58.8 45.3 63.3 29.4 2400 85 65.0 65.0 66.4 58.4 70.1 45.1 60.7 60.7 61.7 55.5 65.0 42.5 2400 90 69.7 69.7 69.9 67.3 72.5 56.9 64.6 64.6 65.3 64.0 67.5 54.1 2640 75 57.2 49.2 60.4 34.9 66.0 15.0 52.6 46.1 55.4 32.2 60.6 12.8 2640 80 60.8 58.9 62.9 47.5 67.4 30.6 56.3 55.5 58.0 44.6 62.1 28.1 2640 85 65.2 65.2 66.2 58.5 69.5 44.5 60.7 60.7 61.3 55.3 64.2 41.8 2640 90 70.2 70.2 70.1 67.8 72.3 56.8 64.6 64.6 65.3 64.4 67.1 53.8 2880 75 56.0 48.4 58.9 33.5 64.1 12.9 51.3 45.1 53.7 30.6 58.5 10.5 2880 80 60.1 58.6 61.8 46.6 65.9 29.0 55.4 55.0 56.7 43.5 60.4 26.3 2880 85 64.9 64.9 65.4 58.1 68.4 43.5 60.2 60.2 60.4 54.7 62.9 40.5 2880 90 69.0 69.0 69.7 68.0 71.5 56.3 64.1 64.1 64.8 64.3 66.2 53.1 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 74 RT-PRCO23AL-EN Performance Data Table 30. Gross cooling capacities 6 tons high efficiency -three phaseT/YHC074F3,4 continued on next page RT-PRCO23AL-EN 75 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1200 75 58.7 43.3 68.2 35.5 76.0 27.1 56.9 41.2 64.2 33.4 71.6 25.0 53.1 39.0 60.0 31.2 67.1 22.9 1200 80 58.7 50.0 68.3 42.3 76.1 33.9 57.0 47.8 64.4 40.2 71.7 31.8 53.2 45.6 60.2 38.0 67.2 29.7 1200 85 60.4 56.0 68.4 48.9 76.2 40.7 57.1 53.6 64.5 46.8 71.9 38.6 53.6 51.2 60.4 44.6 67.4 36.5 1200 90 61.8 61.8 68.5 55.7 76.3 47.5 59.0 59.0 64.6 53.5 72.0 45.4 55.9 55.9 60.4 51.3 67.5 43.3 1440 75 63.9 47.8 71.5 38.2 79.0 27.9 60.0 45.6 67.3 36.0 74.3 25.8 55.8 43.3 62.8 33.8 69.4 23.6 1440 80 64.0 55.8 71.7 46.4 79.1 36.1 60.1 53.6 67.4 44.2 74.5 34.0 55.9 50.9 63.0 41.9 69.6 31.8 1440 85 64.7 62.2 71.9 54.3 79.2 44.2 61.1 59.7 67.6 52.1 74.6 42.1 57.4 57.4 63.1 49.8 69.7 39.9 1440 90 1 67.5 67.5 72.0 62.4 79.4 52.7 64.3 64.3 67.7 60.0 74.8 50.2 60.8 60.8 63.2 57.4 69.9 48.0 1680 75 66.4 52.0 74.0 40.7 81.1 28.6 62.2 49.8 69.4 38.5 76.1 26.4 57.9 47.4 64.8 36.2 70.9 24.2 1680 80 66.4 60.8 74.2 50.2 81.2 38.1 62.5 58.2 69.6 48.0 76.4 35.7 58.4 55.4 65.0 45.7 71.1 33.7 1680 85 68.3 68.3 74.3 59.3 81.4 47.5 64.9 64.9 69.8 57.1 76.4 45.3 61.2 61.2 65.2 54.8 71.2 43.1 1680 90 72.1 72.1 74.5 67.9 81.5 57.1 68.6 68.6 70.2 65.2 76.6 54.9 64.8 64.8 65.9 62.4 71.4 52.6 1920 75 68.4 56.1 75.8 43.1 82.6 29.2 64.0 53.8 71.1 40.8 77.4 27.0 59.5 51.4 66.2 38.5 72.0 24.8 1920 80 69.0 65.1 76.0 53.9 82.8 40.1 64.9 62.5 71.3 51.6 77.6 37.8 60.7 59.8 66.4 49.3 72.1 35.6 1920 85 72.0 72.0 76.1 64.2 82.9 50.8 68.3 68.3 71.5 61.9 77.7 48.6 64.3 64.3 66.6 59.6 72.3 46.3 1920 90 75.8 75.8 76.4 73.9 83.1 61.7 72.0 72.0 72.4 70.4 77.9 59.4 67.9 67.9 68.0 66.4 72.5 57.1 2160 75 69.9 60.1 77.1 45.3 83.7 29.8 65.5 57.7 72.3 43.1 78.4 27.6 60.6 54.9 67.3 40.8 72.3 27.2 2160 80 71.2 69.4 77.4 57.4 83.9 42.0 67.1 67.1 72.6 55.2 78.6 39.7 63.1 63.1 67.6 52.8 72.9 37.4 2160 85 74.9 74.9 77.5 69.0 84.1 54.0 71.0 71.0 72.7 66.6 78.7 51.7 66.9 66.9 67.7 64.0 73.1 49.4 2160 90 78.8 78.8 78.9 76.5 84.4 66.2 74.7 74.7 74.8 72.5 79.0 63.9 70.3 70.3 70.4 68.2 73.4 61.5 2400 75 71.0 63.6 78.2 47.5 84.7 30.4 66.6 60.8 73.3 45.2 79.2 28.1 62.0 57.8 68.2 42.9 72.9 28.5 2400 80 73.3 73.3 78.5 61.0 84.9 43.9 69.3 69.3 73.6 58.7 79.4 41.6 65.1 65.1 68.4 56.2 73.6 39.3 2400 85 77.4 77.4 78.6 73.5 85.2 57.1 73.2 73.2 73.7 70.4 79.6 54.8 68.8 68.8 69.2 67.1 73.8 52.4 2400 90 81.3 81.3 81.4 77.1 85.5 70.7 76.9 76.9 77.0 72.9 79.9 68.4 72.1 72.1 72.2 68.4 74.0 65.5 2640 75 72.4 66.5 79.1 49.6 85.5 30.9 67.9 63.6 74.1 47.3 79.9 28.7 63.2 60.7 68.8 44.9 73.9 29.8 2640 80 75.4 75.4 79.4 64.4 85.8 45.7 71.2 71.2 74.4 62.0 80.1 43.5 66.8 66.8 69.2 59.6 74.2 41.1 2640 85 79.4 79.4 79.5 76.6 86.0 60.2 75.1 75.1 75.2 73.5 80.3 57.9 70.4 70.4 70.5 69.1 74.4 55.5 2640 90 83.3 83.3 83.4 78.5 86.1 75.1 78.7 78.7 78.8 74.1 80.7 71.9 73.7 73.7 73.7 69.3 75.0 68.7 2880 75 73.6 69.3 79.8 51.7 86.2 31.5 69.0 66.5 74.7 49.4 80.5 29.3 64.3 64.3 69.4 47.0 74.4 31.1 2880 80 77.1 77.1 79.9 68.4 86.5 47.6 72.8 72.8 75.1 65.4 80.7 45.3 68.3 68.3 69.6 62.4 74.7 42.8 2880 85 81.2 81.2 81.3 79.5 86.7 63.3 76.6 76.6 76.7 75.0 80.9 60.9 71.7 71.7 71.8 69.6 74.8 58.4 2880 90 85.2 85.2 85.3 81.7 87.2 78.2 80.3 80.3 80.4 77.0 81.6 75.1 75.0 75.0 75.1 72.0 75.7 71.8 continued on next page RT-PRCO23AL-EN 75 m Performance Data Table 30. Gross cooling capacities 6 tons high efficiency -three phaseT/YHC074F3,4 (continued) 76 RT-PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1200 75 49.0 36.7 55.7 29.0 62.3 20.5 44.7 34.4 50.9 26.6 56.7 18.2 1200 80 49.2 43.4 55.8 35.7 62.3 27.5 45.9 40.7 51.1 33.4 56.9 25.1 1200 85 49.8 48.2 56.0 42.4 62.4 34.2 46.1 46.1 51.3 40.0 57.1 31.8 1200 90 52.6 52.6 56.2 49.2 62.6 41.0 49.1 49.1 52.8 46.4 57.2 38.7 1440 75 51.4 40.9 58.0 31.5 64.1 21.3 46.9 38.5 52.9 29.1 58.2 18.8 1440 80 51.7 48.2 58.3 39.7 64.2 29.5 47.4 45.3 53.2 37.2 58.4 27.0 1440 85 53.9 53.9 58.5 47.5 64.4 37.5 50.1 50.1 53.4 45.1 58.5 35.1 1440 90 57.2 57.2 58.8 54.6 64.5 45.7 53.2 53.2 54.1 51.6 58.7 43.2 1680 75 53.3 45.0 59.8 33.9 65.3 21.9 48.6 42.5 54.4 31.4 59.2 19.4 1680 80 54.2 52.6 60.0 43.3 65.4 31.3 49.8 49.8 54.6 40.8 59.3 28.8 1680 85 57.4 57.4 60.2 52.4 65.6 40.7 53.2 53.2 54.8 49.8 59.4 38.2 1680 90 60.8 60.8 61.2 59.6 65.7 50.2 56.3 56.3 56.4 55.2 59.6 47.6 1920 75 54.8 48.9 61.0 36.1 66.2 22.4 49.8 45.8 55.4 33.6 59.9 19.9 1920 80 56.6 56.6 61.3 46.9 66.4 33.2 52.2 52.2 55.7 44.3 59.9 30.7 1920 85 60.2 60.2 61.4 57.1 66.4 43.8 55.5 55.5 55.8 53.9 60.1 41.3 1920 90 63.4 63.4 63.5 62.0 66.6 54.7 58.4 58.4 58.4 57.1 60.2 52.0 2160 75 56.0 51.9 61.9 38.3 66.9 22.9 51.0 48.1 56.2 35.7 60.3 21.0 2160 80 58.8 58.8 62.2 50.3 67.0 35.0 54.2 54.2 56.5 47.7 60.5 32.5 2160 85 62.3 62.3 63.1 60.6 67.1 46.9 57.3 57.3 58.0 56.5 60.6 44.3 2160 90 65.4 65.4 65.5 63.5 67.2 59.0 59.8 59.8 59.9 58.1 60.9 55.4 2400 75 57.1 54.1 62.7 40.4 67.0 24.9 52.2 52.2 56.8 37.8 61.1 21.1 2400 80 60.6 60.6 63.0 53.7 67.5 36.9 55.7 55.7 57.0 50.8 61.2 34.2 2400 85 64.0 64.0 64.4 63.0 67.7 50.0 58.6 58.6 58.9 57.1 61.3 47.2 2400 90 66.9 66.9 67.0 64.9 68.1 62.1 61.0 61.0 61.1 61.1 61.5 58.5 2640 75 58.3 58.3 63.2 42.4 67.7 25.7 53.5 53.5 57.2 39.7 61.4 21.2 2640 80 62.1 62.1 63.5 56.7 68.0 38.6 56.9 56.9 57.6 53.2 61.6 36.0 2640 85 65.3 65.3 65.4 63.5 68.1 52.9 59.5 59.5 59.6 57.4 61.7 50.1 2640 90 68.2 68.2 68.3 65.9 68.8 65.3 61.9 61.9 62.0 62.0 62.0 59.3 2880 75 59.6 59.6 63.7 44.4 68.3 26.9 54.6 54.6 57.6 41.6 61.7 22.1 2880 80 63.3 63.3 64.1 59.0 68.4 40.3 57.8 57.8 58.1 55.5 61.9 37.7 2880 85 66.3 66.3 66.3 63.9 68.4 55.8 60.4 60.4 60.4 57.7 62.3 53.0 2880 90 69.2 69.2 69.3 66.4 69.3 66.3 62.5 62.5 62.6 62.6 62.6 59.9 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 76 RT-PRCO23AL-EN Performance Data Table 31. Gross cooling capacities 7'/2 tons high efficiency - three phaseT/YHC092F3,4,W continued on next page RT-PRCO23AL-EN 77 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1500 75 73.3 55.9 82.4 43.1 94.8 24.4 69.0 53.3 77.7 40.9 89.7 22.7 64.4 50.6 72.8 38.6 84.4 20.9 1500 80 74.0 64.4 81.6 54.6 92.4 39.1 69.8 61.6 77.1 52.3 87.5 37.1 65.4 58.6 72.3 49.7 82.3 35.0 1500 85 75.5 71.1 81.6 64.4 90.9 52.0 71.5 68.0 77.2 61.8 86.1 49.8 67.2 64.8 72.5 59.0 81.0 47.4 1500 90 77.7 76.0 82.3 72.4 90.1 63.1 73.8 72.6 78.0 69.5 85.4 60.6 69.7 69.2 73.5 66.5 80.5 58.0 1800 75 77.3 60.2 86.1 46.9 98.1 27.8 72.8 57.5 81.3 44.6 92.9 25.9 68.1 54.7 76.2 42.2 87.4 23.9 1800 80 78.3 69.1 85.6 58.9 96.1 42.9 74.0 66.1 80.9 56.3 91.0 40.7 69.5 63.0 76.0 53.6 85.7 38.4 1800 85 80.1 76.2 85.9 69.1 94.9 56.1 76.0 73.0 81.3 66.3 89.9 53.8 71.5 69.6 76.5 63.3 84.7 51.2 1800 90 82.7 81.5 86.9 77.5 94.4 67.6 78.7 78.0 82.5 74.4 89.6 65.0 74.4 74.4 77.9 71.2 84.5 62.2 2100 75 80.8 64.2 89.3 50.4 101.0 30.7 76.3 61.3 84.4 47.9 95.7 28.7 71.4 58.3 79.1 45.3 90.1 26.5 2100 80 82.2 73.5 89.2 62.7 99.3 46.2 77.8 70.3 84.4 60.0 94.1 43.9 73.1 67.1 79.3 57.2 88.6 41.5 2100 85 84.4 80.9 89.8 73.3 98.4 59.9 80.0 77.6 85.1 70.4 93.3 57.3 75.5 74.0 80.1 67.3 88.0 54.6 2100 90 87.2 86.6 91.1 82.1 98.3 71.8 83.1 83.0 86.6 78.9 93.3 69.0 78.6 78.6 81.8 75.5 88.1 66.0 2400 75 84.0 67.7 92.2 53.4 103.5 33.3 79.3 64.7 87.0 50.8 98.0 31.1 74.3 61.5 81.7 48.0 92.2 28.7 2400 80 85.7 77.4 92.3 66.2 102.1 49.1 81.1 74.1 87.3 63.3 96.8 46.7 76.2 70.7 82.1 60.3 91.1 44.1 2400 85 88.1 85.3 93.2 77.1 101.5 63.2 83.7 81.7 88.4 74.0 96.3 60.5 79.0 78.1 83.3 70.8 90.8 57.7 2400 90 91.4 91.4 94.9 86.3 101.7 75.5 87.0 87.0 90.2 83.0 96.6 72.5 82.5 82.5 85.3 79.4 91.3 69.4 2700 75 86.7 70.8 94.5 56.0 105.5 35.4 81.8 67.7 89.3 53.3 99.9 33.0 76.7 64.3 83.7 50.4 94.0 30.6 2700 80 88.7 80.9 95.0 69.2 104.5 51.6 84.0 77.5 89.9 66.2 99.0 49.0 79.0 73.9 84.5 63.0 93.2 46.3 2700 85 91.5 89.2 96.3 80.6 104.2 66.1 86.9 85.5 91.3 77.3 98.9 63.3 82.0 81.7 86.0 73.9 93.2 60.3 2700 90 95.0 95.0 98.3 90.1 104.7 78.8 90.6 90.6 93.4 86.6 99.5 75.7 85.8 85.8 88.3 83.0 94.0 72.4 3000 75 89.0 73.6 96.5 58.2 107.2 37.1 83.9 70.2 91.1 55.3 101.4 34.6 78.7 66.7 85.4 52.3 95.3 32.0 3000 80 91.3 84.0 97.3 71.8 106.4 53.7 86.4 80.4 92.0 68.6 100.8 51.0 81.3 76.7 86.5 65.3 94.9 48.1 3000 85 94.4 92.7 98.8 83.6 106.5 68.6 89.7 88.9 93.7 80.1 101.0 65.6 84.7 84.7 88.3 76.6 95.2 62.5 3000 90 98.3 98.3 101.2 93.6 107.3 81.7 93.7 93.7 96.2 89.9 101.9 78.4 88.8 88.8 90.9 86.0 96.2 75.0 3300 75 90.8 75.9 98.0 60.0 108.3 38.4 85.6 72.4 92.4 57.0 102.4 35.7 80.2 68.7 86.6 53.8 96.2 33.0 3300 80 93.5 86.7 99.1 74.0 107.9 55.4 88.4 83.0 93.7 70.7 102.1 52.5 83.1 79.1 88.0 67.2 96.1 49.5 3300 85 96.9 95.8 101.0 86.2 108.3 70.7 92.0 91.8 95.7 82.6 102.6 67.6 86.8 86.8 90.2 78.9 96.7 64.2 3300 90 101.1 101.1 103.6 96.5 109.4 84.2 96.3 96.3 98.5 92.7 103.9 80.8 91.3 91.3 93.1 88.7 98.1 77.2 3600 75 92.2 77.8 99.0 61.4 109.1 39.3 86.9 74.1 93.3 58.2 103.0 36.5 81.3 70.3 87.4 54.8 96.6 33.5 3600 80 95.2 89.0 100.5 75.8 109.0 56.7 90.0 85.1 94.9 72.3 103.0 53.7 84.6 81.1 89.1 68.7 96.8 50.5 3600 85 98.9 98.5 102.7 88.4 109.7 72.4 93.9 93.9 97.3 84.6 103.9 69.1 88.6 88.6 91.6 80.7 97.8 65.6 3600 90 103.4 103.4 105.7 99.1 111.1 86.3 98.5 98.5 100.4 95.1 105.4 82.7 93.4 93.4 94.8 91.0 99.5 79.0 continued on next page RT-PRCO23AL-EN 77 Performance Data Table 31. Gross cooling capacities 71/2 tons high efficiency - three phaseT/YHC092F3,4,W (continued) 78 RT-PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1500 75 59.6 47.7 67.6 36.2 78.8 18.8 54.5 44.7 62.1 33.6 72.9 16.7 1500 80 60.7 55.5 67.2 47.0 76.9 32.7 55.8 52.2 61.9 44.2 71.1 30.3 1500 85 62.6 61.4 67.6 56.0 75.7 44.9 57.8 57.8 62.4 52.9 70.1 42.2 1500 90 65.3 65.3 68.7 63.3 75.3 55.2 60.6 60.6 63.7 59.9 69.9 52.2 1800 75 63.2 51.6 70.8 39.6 81.7 21.7 57.9 48.5 65.2 36.8 75.7 19.4 1800 80 64.6 59.8 70.8 50.8 80.1 36.0 59.5 56.3 65.3 47.8 74.2 33.4 1800 85 66.9 66.1 71.5 60.2 79.3 48.5 61.9 61.9 66.1 57.0 73.5 45.7 1800 90 69.8 69.8 72.9 67.8 79.2 59.3 65.0 65.0 67.7 64.3 73.6 56.2 2100 75 66.3 55.1 73.6 42.6 84.2 24.2 60.9 51.8 67.9 39.7 78.0 21.7 2100 80 68.1 63.6 73.9 54.2 82.9 38.9 62.9 60.0 68.3 51.0 76.9 36.1 2100 85 70.6 70.3 74.9 64.0 82.4 51.8 65.6 65.6 69.4 60.6 76.5 48.8 2100 90 74.0 74.0 76.7 72.0 82.6 62.9 69.0 69.0 71.4 68.3 76.9 59.7 2400 75 69.0 58.2 76.0 45.1 86.2 26.3 63.5 54.7 70.1 42.1 79.9 23.6 2400 80 71.1 67.1 76.6 57.1 85.3 41.4 65.7 63.4 70.8 53.8 79.1 38.5 2400 85 74.0 74.0 77.9 67.3 85.1 54.7 68.8 68.8 72.3 63.8 79.0 51.5 2400 90 77.6 77.6 80.0 75.8 85.6 66.2 72.5 72.5 74.5 71.9 79.8 62.8 2700 75 71.3 60.9 77.9 47.3 87.8 27.9 65.6 57.2 71.9 44.1 81.4 25.1 2700 80 73.7 70.2 78.9 59.7 87.2 43.4 68.2 66.3 72.9 56.2 80.9 40.4 2700 85 76.9 76.9 80.5 70.3 87.3 57.1 71.5 71.5 74.7 66.6 81.2 53.8 2700 90 80.9 80.9 82.9 79.1 88.2 69.0 75.6 75.6 77.3 75.1 82.2 65.5 3000 75 73.1 63.1 79.4 49.0 89.0 29.2 67.3 59.3 73.3 45.7 82.4 26.2 3000 80 75.9 72.8 80.7 61.8 88.7 45.1 70.2 68.8 74.6 58.2 82.2 41.8 3000 85 79.4 79.4 82.7 72.8 89.1 59.2 73.9 73.9 76.7 69.0 82.8 55.7 3000 90 83.7 83.7 85.4 82.1 90.3 71.5 78.8 78.8 79.6 77.9 84.2 67.7 3300 75 74.5 64.9 80.5 50.4 89.7 30.0 68.6 61.0 74.2 46.9 83.0 26.9 3300 80 77.6 75.0 82.1 63.6 89.7 46.3 71.8 70.8 75.9 59.8 83.1 42.9 3300 85 81.4 81.4 84.4 75.0 90.5 60.8 75.8 75.8 78.3 70.9 84.1 57.2 3300 90 86.0 86.0 87.4 84.6 92.0 73.5 80.7 80.7 81.5 80.3 85.7 69.6 3600 75 75.5 66.4 81.1 51.3 90.0 30.4 69.4 62.3 74.7 47.6 83.1 27.2 3600 80 78.9 76.9 83.0 64.9 90.3 47.1 72.9 72.5 76.7 61.0 83.6 43.6 3600 85 83.0 83.0 85.6 76.7 91.4 62.0 77.2 77.2 79.4 72.5 84.8 58.2 3600 90 88.0 88.0 89.0 86.7 93.3 75.1 82.1 82.1 83.0 82.3 86.8 71.1 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 78 RT-PRCO23AL-EN Performance Data Table 32. Gross cooling capacities 81/2 tons high efficiency - three phaseT/YHC102F3,4,W continued on next page RT-PRCO23AL-EN 79 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1700 75 84.40 64.2 93.7 45.5 106.8 18.8 80.3 62.2 89.2 44.2 101.9 31.4 75.7 59.8 84.2 42.6 96.6 30.3 1700 80 85.75 74.8 92.9 60.7 103.8 38.6 81.7 72.4 88.4 59.0 98.9 37.5 77.1 69.6 83.5 56.9 93.6 36.2 1700 85 87.95 82.5 92.9 73.0 101.6 55.4 83.9 79.6 88.4 70.8 96.7 54.0 79.4 76.4 83.5 68.3 91.5 52.2 1700 90 91.00 87.2 93.7 82.3 100.3 69.4 87.0 83.9 89.3 79.7 95.4 67.5 82.5 80.3 84.4 76.8 90.2 65.2 2040 75 87.32 68.6 96.2 50.1 108.8 23.5 83.1 66.4 91.5 48.6 103.8 35.6 78.4 63.9 86.4 46.8 98.3 34.2 2040 80 88.93 79.4 95.6 65.4 106.0 43.4 84.7 76.7 90.9 63.5 101.0 42.2 80.1 73.7 85.9 61.2 95.6 40.6 2040 85 91.38 87.1 95.8 77.8 104.1 60.4 87.2 84.0 91.2 75.4 99.1 58.7 82.6 80.6 86.2 72.7 93.7 56.7 2040 90 94.68 92.0 96.9 87.2 103.0 74.4 90.5 88.5 92.4 84.4 98.1 72.3 86.0 84.6 87.4 81.3 92.7 69.9 2380 75 89.93 72.7 98.3 54.3 110.5 27.9 85.6 70.3 93.5 52.6 105.3 39.4 80.8 67.6 88.3 50.6 99.7 37.9 2380 80 91.79 83.5 97.9 69.8 107.9 47.9 87.5 80.7 93.2 67.6 102.8 46.5 82.7 77.5 88.1 65.1 97.3 44.7 2380 85 94.50 91.4 98.5 82.2 106.2 65.0 90.2 88.1 93.8 79.6 101.2 63.1 85.5 84.5 88.6 76.8 95.6 60.9 2380 90 98.05 96.3 99.8 91.8 105.4 79.1 93.8 92.6 95.2 88.7 100.4 76.8 89.1 88.6 90.1 85.4 94.9 74.2 2720 75 92.23 76.4 100.1 58.2 111.8 31.9 87.7 73.8 95.2 56.3 106.5 43.0 82.8 70.9 89.9 54.1 100.8 41.3 2720 80 94.34 87.3 100.0 73.7 109.5 52.0 89.9 84.3 95.2 71.4 104.3 50.4 85.0 80.9 89.9 68.7 98.6 48.5 2720 85 97.30 95.3 100.8 86.3 108.1 69.2 92.9 91.8 96.0 83.5 102.9 67.1 88.0 88.1 90.7 80.4 97.3 64.8 2720 90 101.11 100.4 102.4 95.9 107.5 83.4 96.7 96.5 97.6 92.7 102.3 80.9 91.9 92.2 92.4 89.2 96.7 78.1 3060 75 94.21 79.8 101.6 61.7 112.8 47.8 89.6 77.0 96.6 59.6 107.5 46.2 84.6 73.8 91.2 57.2 101.6 44.3 3060 80 96.57 90.8 101.8 77.3 110.8 55.8 92.0 87.6 96.8 74.8 105.5 54.0 87.0 84.0 91.4 72.0 99.7 51.8 3060 85 99.79 98.9 102.8 90.0 109.6 73.1 95.3 95.2 97.9 87.0 104.3 70.8 90.3 91.2 92.5 83.8 98.6 68.2 3060 90 103.85 104.0 104.7 99.7 109.3 87.4 99.3 99.9 99.8 96.3 104.0 84.7 94.4 95.5 94.4 92.6 98.3 81.7 3400 75 95.88 82.8 102.8 64.9 113.6 50.8 91.2 79.8 97.7 62.6 108.0 49.1 86.0 76.4 92.1 60.0 102.1 47.0 3400 80 98.49 93.9 103.2 80.6 111.8 69.2 93.8 90.5 98.1 77.9 106.3 67.0 88.7 86.7 92.6 74.8 100.4 64.6 3400 85 101.96 102.1 104.5 93.4 110.9 76.6 97.3 98.2 99.4 90.2 105.4 74.1 92.2 94.0 94.0 86.7 99.5 71.4 3400 90 106.28 107.3 106.6 103.2 110.8 91.0 101.7 103.0 101.6 99.6 105.4 88.1 96.6 98.4 96.2 95.7 99.5 84.9 3740 75 97.23 85.4 103.7 67.7 114.0 53.6 92.4 82.2 98.4 65.2 108.3 51.7 87.1 78.7 92.8 62.4 102.3 49.4 3740 80 100.10 96.6 104.4 83.5 112.4 72.1 95.3 93.0 99.2 80.6 106.8 69.8 90.1 89.1 93.5 77.3 100.8 67.1 3740 85 103.82 104.9 105.9 96.4 111.8 79.7 99.0 100.9 100.7 93.0 106.2 77.1 93.9 96.5 95.1 89.3 100.2 74.1 3740 90 108.39 110.3 108.3 106.3 111.9 94.3 103.6 105.8 103.1 102.5 106.4 91.2 98.5 101.0 97.6 98.4 100.5 87.8 4080 75 98.27 87.7 104.2 70.1 114.1 56.0 93.3 84.3 98.9 67.4 108.3 53.9 87.9 80.6 93.1 64.4 102.1 51.5 4080 80 101.39 99.0 105.2 86.0 112.8 74.7 96.5 95.2 99.8 82.9 107.1 72.2 91.1 91.0 94.1 79.5 100.9 69.4 4080 85 105.36 107.4 106.9 99.0 112.4 82.5 100.5 103.1 101.7 95.4 106.7 79.7 95.2 98.6 95.9 91.6 100.6 76.5 4080 90 110.19 112.9 109.6 104.7 112.8 97.1 105.3 108.2 104.3 105.0 107.1 93.9 100.0 103.2 98.6 100.7 101.1 90.3 continued on next page RT-PRCO23AL-EN 79 Performance Data Table 32. Gross cooling capacities 81/2 tons high efficiency - three phaseT/YHC102F3,4,W (continued) 80 RT-PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) 115 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 cfm (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 1700 75 70.8 57.2 78.9 40.6 90.8 16.0 65.4 54.2 73.1 38.3 84.6 14.4 1700 80 72.2 66.5 78.1 54.5 87.9 34.5 66.9 63.1 72.4 51.8 81.7 32.5 1700 85 74.5 72.9 78.2 65.5 85.8 50.1 69.2 69.0 72.5 62.4 79.7 47.6 1700 90 77.7 76.3 79.2 73.5 84.5 62.7 72.4 72.0 73.5 70.0 78.5 59.8 2040 75 73.3 61.0 81.0 44.6 92.4 20.1 67.8 57.8 75.1 42.1 86.1 18.4 2040 80 75.0 70.4 80.5 58.6 89.7 38.8 69.6 66.8 74.6 55.7 83.5 36.6 2040 85 77.6 76.9 80.8 69.7 87.9 54.4 72.1 72.9 75.0 66.4 81.7 51.8 2040 90 81.0 80.5 82.0 77.8 86.9 67.1 75.6 76.0 76.2 74.1 80.7 64.1 2380 75 75.6 64.5 82.7 48.3 93.7 23.9 69.9 61.1 76.7 45.6 87.3 22.0 2380 80 77.5 74.0 82.5 62.4 91.3 42.7 71.9 70.2 76.5 59.3 84,9 40.3 2380 85 80.3 80.6 83.1 73.5 89.7 58.4 74.8 76.4 77.2 70.0 83.4 55.6 2380 90 84.0 84.3 84.6 81.8 89.0 71.2 78.5 79.6 78.7 77.8 82.7 68.0 2720 75 77.5 67.6 84.2 51.5 94.7 27.4 71.8 64.1 78.1 48.7 88.2 25.2 2720 80 79.7 77.3 84.2 65.8 92.5 46.2 74.0 73.3 78.1 62.5 86.0 43.6 2720 85 82.8 83.9 85.1 77.0 91.2 62.1 77.1 79.5 79.0 73.3 84.7 59.0 2720 90 86.7 87.7 86.8 85.4 90.7 75.0 81.1 82.8 80.8 81.2 84.3 71.5 3060 75 79.1 70.4 85.3 54.5 95.4 30.5 73.3 66.6 79.1 51.4 88.7 28.1 3060 80 81.6 80.1 85.6 68.8 93.5 49.4 75.8 75.9 79.4 65.3 86.8 46.6 3060 85 84.9 86.9 86.7 80.2 92.4 65.3 79.1 82.3 80.5 76.2 85.8 62.1 3060 90 89.1 90.8 88.7 88.6 92.2 78.4 83.3 85.7 82.6 84.3 85.6 74.7 3400 75 80.4 72.8 86.2 57.0 95.8 44.7 74.5 68.9 79.8 53.8 89.0 30.7 3400 80 83.2 82.6 86.7 71.5 94.1 52.2 77.2 78.3 80.4 67.8 87.3 49.2 3400 85 86.7 89.5 88.1 82.9 93.3 68.3 80.8 84.7 81.8 78.8 86.5 64.9 3400 90 91.2 93.5 90.3 91.5 93.3 81.4 85.3 88.2 84.0 86.9 86:6 77.6 3740 75 81.4 74.9 86.7 59.2 95.8 46.9 75.3 70.7 80.2 55.8 88.9 32.8 3740 80 84.4 84.8 87.5 73.8 94.4 64.2 78.3 80.2 81.0 69.9 87.5 51.5 3740 85 88.2 91.8 89.1 85.3 93.8 70.8 82.2 86.8 82.7 81.0 87.0 67.2 3740 90 92.9 95.8 91.6 94.0 94.1 84.1 86.9 90.4 85.2 89.2 87.3 80.0 4080 75 82.1 76.6 86.9 61.1 95.5 48.8 75.9 72.2 80.3 57.5 88.5 34.6 4080 80 85.3 86.6 87.9 75.7 94.4 66.2 79.2 81.8 81.4 71.6 87.4 53.4 4080 85 89.4 93.7 89.8 87.4 94.0 73.0 83.3 88.5 83.3 82.9 87.1 69.3 4080 90 94.4 97.8 92.5 96.1 94.6 86.4 88.2 92.2 86.0 91.2 87.7 82.2 Notes: I. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 80 RT-PRCO23AL-EN Performance Data Table 33. Gross cooling capacities 10 tons high efficiency - three phase T/YHC1 20F3,4,W continued on next page RT-PRCO23AL-EN 81 Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 85 95 105 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 (cfm) (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 2000 75 98.6 77.6 109.1 58.6 123.7 31.1 93.5 74.5 103.6 56.2 117.7 29.4 88.2 71.1 97.7 53.6 111.3 27.5 2000 80 100.3 88.9 108.7 74.7 121.1 52.1 95.3 85.3 103.1 71.9 115.1 49.9 90.0 81.4 97.3 68.7 108.7 47.4 2000 85 103.1 97.2 109.3 87.9 119.6 70.1 98.1 93.1 103.8 84.6 113.6 67.4 92.9 88.8 98.0 80.9 107.2 64.5 2000 90 107.0 102.7 111.1 98.2 119.2 85.2 102.1 98.1 105.6 94.4 113.1 82.0 96.8 93.3 99.8 90.3 106.8 78.6 2400 75 102.7 83.1 112.6 63.9 126.6 36.2 97.4 79.7 106.8 61.3 120.3 34.2 91.9 76.2 100.8 58.4 113.7 32.0 2400 80 104.9 94.8 112.6 80.5 124.5 57.6 99.6 91.0 106.9 77.3 118.2 55.1 94.1 86.9 100.8 74.0 111.6 52.4 2400 85 108.1 103.7 113.7 94.1 123.4 76.0 102.9 99.3 108.0 90.5 117.1 73.1 97.4 94.8 101.9 86.7 110.5 70.0 2400 90 112.5 109.6 115.9 104.9 123.4 91.6 107.3 104.8 110.2 100.8 117.1 88.2 101.8 99.7 104.1 96.4 110.6 84.6 2800 75 106.3 88.1 115.6 68.7 129.0 40.7 100.8 84.5 109.6 65.8 122.5 38.5 95.0 80.7 103.3 62.6 115.7 36.0 2800 80 109.0 100.3 116.1 85.7 127.3 62.5 103.5 96.2 110.1 82.3 120.8 59.8 97.7 91.9 103.8 78.7 114.0 56.9 2800 85 112.7 109.6 117.6 99.8 126.7 81.5 107.2 105.0 111.6 95.9 120.2 78.3 101.4 100.2 105.4 91.8 113.4 74.9 2800 90 117.5 116.0 120.3 111.0 127.1 97.5 112.0 110.9 114.3 106.7 120.6 93.9 106.2 105.6 108.0 102.1 113.8 90.0 3200 75 109.5 92.6 118.2 72.9 130.9 44.6 103.7 88.7 111.9 69.7 124.2 42.2 97.7 84.6 105.4 66.3 117.1 39.5 3200 80 112.5 105.2 119.1 90.4 129.7 67.0 106.8 100.9 112.8 86.7 122.9 64.0 100.8 96.3 106.3 82.9 115.8 60.8 3200 85 116.7 115.0 121.0 105.0 129.5 86.4 111.0 110.2 114.8 100.8 122.7 83.0 105.0 105.0 108.3 96.5 115.7 79.3 3200 90 121.9 121.8 124.1 116.6 130.4 102.9 116.2 116.2 117.9 112.0 123.6 99.0 110.2 110.2 111.4 107.2 116.6 94.8 3600 75 112.1 96.5 120.2 76.6 132.4 48.1 106.1 92.4 113.7 73.2 125.3 45.4 99.9 88.1 106.9 69.5 118.0 42.4 3600 80 115.6 109.6 121.5 94.6 131.5 70.9 109.6 105.1 115.0 90.7 124.5 67.7 103.4 100.2 108.3 86.5 117.2 64.3 3600 85 120.2 119.9 124.0 109.6 131.8 90.8 114.3 114.3 117.5 105.2 124.8 87.1 108.0 108.0 110.7 100.6 117.5 83.2 3600 90 125.9 125.9 127.5 121.7 133.1 107.7 120.0.120.0 121.0 116.9 126.1 103.6 113.7 113.7 114.3 111.8 118.9 99.2 4000 75 114.3 99.9 121.7 79.8 133.3 51.0 108.0 95.6 115.0 76.1 126.0 48.1 101.5 91.0 108.0 72.2 118.5 44.9 4000 80 118.2 113.5 123.5 98.2 132.9 74.3 112.0 108.7 116.8 94.1 125.6 70.9 105.5 103.6 109.8 89.7 118.1 67.2 4000 85 123.3 123.3 126.4 113.7 133.6 94.6 117.1 117.1 119.7 109.1 126.4 90.7 110.6 110.6 112.7 104.2 118.8 86.5 4000 90 129.4 129.4 130.4 126.3 135.4 112.1 123.2 123.2 123.6 121.2 128.1 107.7 116.7 116.7 116.6 115.9 120.6 103.0 4400 75 115.9 102.8 122.8 82.4 133.7 53.4 109.5 98.3 115.8 78.5 126.2 50.2 102.7 93.4 108.5 74.4 118.4 46.8 4400 80 120.3 116.9 125.0 101.3 133.8 77.2 113.9 111.8 118.0 96.9 126.3 73.5 107.1 106.5 110.8 92.3 118.5 69.5 4400 85 125.8 125.8 128.3 117.3 134.9 98.0 119.4 119.4 121.4 112.4 127.4 93.8 112.6 112.6 114.1 107.3 119.7 89.4 4400 90 132.4 132.4 132.7 130.3 137.1 115.9 126.0 126.0 125.8 125.0 129.7 111.2 119.2 119.2 118.5 118.5 121.9 106.3 4800 75 117.1 105.2 123.3 84.6 133.7 55.3 110.4 100.4 116.1 80.4 125.9 51.9 103.4 95.3 108.6 76.0 117.9 48.2 4800 80 121.9 119.7 126.0 103.9 134.2 79.5 115.2 114.4 118.8 99.3 126.4 75.6 108.3 108.3 111.3 94.4 118.4 71.4 4800 85 127.9 127.9 129.8 120.3 135.7 100.8 121.2 121.2 122.6 115.2 128.0 96.4 114.2 114.2 115.1 109.9 120.0 91.7 4800 90 134.9 134.9 134.6 133.9 138.4 119.1 128.2 128.2 127.4 127.4 130.7 114.2 121.3 121.3 119.9 119.9 122.7 109.1 continued on next page RT-PRCO23AL-EN 81 Performance Data Table 33. Gross cooling capacities 10 tons high efficiency - three phase T/YHC1 20F3,4,W (continued) 82 RT PRCO23AL-EN Ambient Temperature (°F) Ambient Temperature (°F) Ambient Temperature (°F) 115 120 125 Air Ent Entering Wet Bulb (°F) Entering Wet Bulb (°F) Entering Wet Bulb (°F) Flow DB 61 67 73 61 67 73 61 67 73 (cfm) (F) MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC MBh SHC 2000 75 82.7 67.5 91.6 50.7 104.7 25.3 79.8 65.7 88.5 49.1 101.3 24.1 - - - - - - 2000 80 84.4 77.4 91.2 65.3 102.1 44.8 81.5 75.3 88.1 63.6 98.7 43.3 - - - - - - 2000 85 87.3 84.3 91.9 77.1 100.6 61.3 84.4 81.9 88.8 75.1 97.2 59.7 - - - - - - 2000 90 91.2 88.3 93.7 85.9 100.2 75.0 88.4 85.7 90.6 83.7 96.8 73.1 - - - - - - 2400 75 86.1 72.3 94.4 55.2 106.9 29.5 83.0 70.3 91.2 53.6 103.3 28.2 - - - - - - 2400 80 88.3 82.6 94.5 70.3 104.8 49.5 85.3 80.4 91.2 68.4 101.2 47.9 - - - - - - 2400 85 91.6 90.0 95.6 82.6 103.7 66.5 88.6 87.5 92.3 80.4 100.2 64.8 - - - - - - 2400 90 96.0 94.5 97.8 91.8 103.7 80.7 93.0 91.7 94.6 89.5 100.2 78.6 - - - - - - 2800 75 89.0 76.6 96.7 59.2 108.6 33.3 85.8 74.4 93.3 57.4 104.9 31.9 - - - - - - 2800 80 91.6 87.3 97.2 74.8 106.9 53.7 88.5 85.0 93.8 72.8 103.2 52.0 - - - - - - 2800 85 95.4 95.2 98.8 87.5 106.3 71.2 92.2 92.2 95.4 85.2 102.6 69.3 - - - - - - 2800 90 100.2 100.1 101.4 97.2 106.8 85.8 97.1 97.1 98.1 94.7 103.1 83.7 - - - - - - 3200 75 91.4 80.3 98.5 62.7 109.7 36.5 88.1 78.0 95.0 60.8 106.0 35.0 - - - - - - 3200 80 94.5 91.5 99.5 78.8 108.5 57.4 91.2 89.0 95.9 76.6 104.7 55.6 - - - - - - 3200 85 98.7 98.7 101.5 91.9 108.4 75.4 95.4 95.4 98.0 89.5 104.6 73.4 - - - - - - 3200 90 104.0 104.0 104.6 102.1 109.3 90.5 100.7 100.7 101.1 99.5 105.5 88.2 - - - - - - 3600 75 93.3 83.5 99.8 65.7 110.4 39.2 89.9 81.1 96.2 63.6 106.5 37.6 - - - - 102.6 35.8 3600 80 96.9 95.2 101.2 82.2 109.6 60.6 93.5 92.6 97.6 79.9 105.8 58.7 - - - - 101.8 56.7 3600 85 101.5 101.5 103.7 95.8 109.9 79.0 98.1 98.1 100.0 93.3 106.0 76.9 - - - - 102.1 74.6 3600 90 107.2 107.2 107.2 106.5 111.3 94.6 103.8 103.8 103.6 103.6 107.4 92.1 - - - - 103.5 89.7 4000 75 94.7 86.2 100.7 68.1 110.6 41.4 91.2 83.7 96.9 65.9 106.6 39.6 - - - - 102.5 37.8 4000 80 98.7 98.3 102.5 85.1 110.3 63.2 95.2 95.2 98.7 82.7 106.3 61.2 - - - - 102.2 59.1 4000 85 103.8 103.8 105.4 99.1 111.0 82.1 100.3 100.3 101.6 96.5 107.0 79.9 - - - - 102.9 77.5 4000 90 110.0 110.0 109.4 109.4 112.8 98.1 106.5 106.5 105.6 105.6 108.8 95.6 - - - - 104.8 93.0 4400 75 95.7 88.3 101.0 70.0 110.4 43.1 92.1 85.7 97.1 67.7 106.2 41.2 - - 93.1 65.4 102.0 39-.-2- 4400 80 100.1 100.1 103.2 87.4 110.4 65.4 96.5 96.5 99.4 84.9 106.3 63.2 - - 95.4 82.3 102.1 61.0 4400 85 105.6 105.6 106.6 102.0 111.6 84.7 102.0 102.0 102.7 99.2 107.5 82.3 - - 98.8 96.4 103.3 79.8 4400 90 112.2 112.2 111.0 111.0 113.9 101.2 108.6 108.6 107.2 107.2 109.8 98.5 - - 103.2 103.2 105.6 95.8 4800 75 96.1 90.0 100.8 71.4 109.6 44.2 92.4 87.2 96.8 69.0 105.3 42.2 - - 92.7 66.5 101.0 40.1 4800 80 101.0 101.0 103.5 89.3 110.1 67.0 97.3 97.3 99.5 86.7 105.9 64.7 - - 95.5 83.9 101.5 62.3 4800 85 107.0 107.0 107.3 104.3 111.7 86.8 103.2 103.2 103.3 101.4 107.5 84.3 - - 99.3 98.5 103.2 81.7 4800 90 114.0 114.0 112.2 112.2 114.4 103.7 110.3 110.3 108.2 108.2 110.2 100.9 - - 104.2 104.2 105.9 98.1 Notes: 1. All capacities shown are gross and have not considered indoor fan heat. To obtain NET cooling capacity subtract indoor fan heat. For indoor fan heat formula, refer to appropriate airflow table notes. 2. MBh = Total Gross Capacity 3. SHC = Sensible Heat Capacity * Unit applications below 320 CFM/ton are only applicable on THC models without electric heat. Electric and gas heat applications are restricted to applications 320 CFM/ton and above. 82 RT PRCO23AL-EN 0 rRAME° Direct Drive - Evaporator Fan Performance Table 34. Multispeed direct drive evaporator fan performance 3 to 5 tons - standard efficiency - no electric heat TSC033/036G3,4, W, TSCO43/048G3,4,W, TSCO60/063G3,4,W (a) For electric heat applications, minimum airflow is set to 320/ton, unless specified otherwise, values found in electric heat temperature rise table. (b) Data includes pressure drop due to wet coil and filters. RT PRCO23AL-EN 83 External Static Pressure (Inches of Water)Motor Power p Unit Model Speed Set I Speed Set 2 Speed Set 3 Speed Set 4 Spee Set Tons Number cfm ESP rpm p ESP rpm bhp ESP rpm bhp ESP rpm p ESP rpm bhp 960 0.36 699 0.17 0.75 859 0.29 1.12 1017 0.44 1.57 1157 0.61 - - - 1020 0.30 674 0.17 0.68 841 0.29 1.05 997 0.43 1.48 1139 0.60 - - - 1080 0.24 649 0.16 0.61 822 0.28 0.96 978 0.42 1.38 1121 0.59 - - - TSC(033, 036)G3,4,W 1140 0.18 624 0.15 0.54 804 0.27 0.88 958 0.42 1.29 1102 0.58 - - - 3 1200 0.11 599 0.15 0.47 785 0.27 0.79 939 0.41 1.20 1084 0.57 1.45 1148 0.71 D W 1260 0.05 574 0.14 0.40 767 0.26 0.71 919 0.40 1.10 1066 0.56 1.34 1127 0.70 Airflow Airflow 1320 - - - 0.34 749 0.25 0.62 899 0.39 1.01 1047 0.55 1.24 1106 0.68 1380 - - - 0.27 730 0.25 0.54 880 0.38 0.92 1029 0.54 1.13 1085 0.67 1440 - - - 0.20 712 0.24 0.45 860 0.37 0.82 1011 0.53 1.02 1064 0.66 9 676 0.17 0.70 828.28 1. 0. 3 1.46 -1106 0.58 - - - 1020 0.33 650 0.16 0.63 805 0.27 0.97 961 0.42 1.37 1085 0.57 - - - 1080 0.27 625 0.15 0.56 783 0.27 0.90 940 0.41 1.29 1064 0.56 - - - TSC(033, 036)G3,4,W 1140 0.22 599 0.15 0.49 761 0.26 0.82 919 0.40 1.20 1043 0.55 - - - 3 1200 0.16 574 0.14 0.43 739 0.25 0.75 898 0.39 1.11 1023 0.54 1.59 1171 0.72 Horizontal 1260 0.10 548 0.14 0.36 716 0.24 0.68 877 0.38 1.02 1002 0.53 1.48 1150 0.71 Airflow 1320 0.04 522 0.13 0.29 694 0.24 0.60 856 0.37 0.93 981 0.52 1.38 1128 0.70 1380 - - - 0.22 672 0.23 0.53 835 0.36 0.84 960 0.51 1.28 1107 0.68 1440 - - - 0.16 650 0.22 0.45 814 0.35 0.76 940 0.49 1.17 1085 0.67 1280 0.60 4 1023 0. - - - - - - - - - 1360 0.50 811 0.32 0.84 990 0.48 0.94 1112 0.65 1.17 1133 0.77 - - - 1440 0.39 781 0.30 0.70 956 0.46 0.80 1080 0.63 1.02 1098 0.74 - - - TSC(043, 048)G3,4,W 1520 0.29 750 0.29 0.56 922 0.45 0.65 1048 0.61 0.87 1063 0.72 1.30 1210 0.87 4 1600 0.18 719 0.28 0.43 889 0.43 0.51 1016 0.59 0.72 1028 0.70 1.19 1181 0.84 Downflow 1680 0.08 689 0.27 0.29 855 0.42 0.37 984 0.57 0.57 993 0.67 1.07 1151 0.82 Airflow 1760 - - - 0.15 821 0.40 0.23 952 0.55 0.42 958 0.65 0.96 1121 0.80 1840 - - - 0.01 787 0.38 0.08 919 0.54 0.28 923 0.63 0.85 1092 0.78 1920 - - - - - - - - - 0.13 888 0.60 0.73 1062 0.76 1290- 0.69 872 0.34 0.92 983 0.4 - - - - - - - - - 1360 0.58 839 0.33 0.81 950 0.46 1.14 1078 0.63 1.14 1190 0.81 - - - 1440 0.47 806 0.31 0.70 916 0.44 1.02 1046 0.61 1.01 1159 0.79 - - - TSC(043, 1520 0.35 773 0.30 0.59 883 0.43 0.90 1014 0.59 0.89 1128 0.77 1.42 1200 0.86 048)G3,4,W 4 Horizontal 1600 1680 0.24 0.13 739 706 0.29 0.28 0.48 0.37 850 817 0.41 0.40 0.79 0.67 982 950 0.57 0.55 0.77 0.64 1097 1066 0.74 0.72 1.31 1.20 1175 1150 0.84 0.82 Airflow 1760 0.02 673 0.26 0.26 784 0.38 0.55 918 0.54 0.52 1035 0.70 1.09 1125 0.80 1840 - - - 0.15 751 0.36 0.44 886 0.52 0.40 1004 0.68 0.98 1100 0.79 1920 - - - - - - 0.32 854 0.50 0.27 973 0.66 0.87 1075 0.77 600 0.79 998 0.57- -1.07 10830.68 1.31 11830.8 - - - - - - 1700 0.62 956 0.55 0.92 1043 0.66 1.12 1144 0.82 1.34 1208 0.97 - - - TSC(063, 1800 0.45 913 0.52 0.77 1004 0.63 0.93 1105 0.79 1.15 1176 0.94 - - - 060)G3,4,W 1900 0.28 870 0.50 0.62 964 0.61 0.74 1066 0.76 0.97 1143 0.92 1.24 1188 1.04 5 Downflow 2000 0.11 828 0.47 0.47 924 0.58 0.54 1027 0.73 0.78 1111 0.89 1.06 1150 1.01 Airflow 2100 - - - 0.32 885 0.56 0.35 987 0.71 0.60 1078 0.86 0.87 1111 0.97 2200 - - - 0.17 845 0.53 0.16 948 0.68 0.41 1046 0.84 0.69 1073 0.94 2300 - - - 0.02 805 0.51 - - - 0.22 1013 0.81 0.50 1035 0.91 2400 - - - - - - - - - 0.04 980 0.79 0.32 997 0.87 1600 0.89 1002 0.57 1.04 1049 0.66 1.32144 0.82 1.55 1159 0.93 - - - 1700 0.73 959 0.55 0.88 1008 0.63 1.16 1104 0.79 1.39 1119 0.90 - - - TSC(063, 1800 0.57 916 0.52 0.72 966 0.61 0.99 1064 0.76 1.22 1079 0.86 - - - 060)G3,4,W 1900 0.42 872 0.50 0.56 924 0.58 0.83 1024 0.73 1.06 1039 0.83 1.37 1213 1.06 5 Horizontal 2000 0.26 829 0.47 0.40 882 0.56 0.67 984 0.70 0.89 999 0.80 1.21 1148 1.00 Airflow 2100 0.11 769 0.44 0.24 840 0.53 0.51 944 0.68 0.72 959 0.77 1.04 1106 0.97 2200 - - - 0.08 799 0.50 0.34 904 0.65 0.56 918 0.74 0.87 1065 0.93 2300 - - - - - - 0.18 864 0.62 0.39 878 0.70 0.70 1023 0.90 2400 - - - - - - - - - - - - 0.53 982 0.86 For 036 mo a s, an motor eat MB = .72 x Fan B p + 0.16. For 04 & 0 0 mo a s, an motor eat MB = 7 x Fan B p +0.15. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) For electric heat applications, minimum airflow is set to 320/ton, unless specified otherwise, values found in electric heat temperature rise table. (b) Data includes pressure drop due to wet coil and filters. RT PRCO23AL-EN 83 Direct Drive - Evaporator Fan Performance Table 35. Multispeed direct drive evaporator fan performance 3 to 5 tons -standard efficiency - low & medium gas heat YSC033/036G3,4,W, YSC043/048G3,4,W, YSC060/063G3,4,W (a) Data includes pressure drop due to wet coil and filters. 84 RT PRCO23AL-EN External Static Pressure (Inches of Water Motor Power p Unit Model Speed Set 1 Speed Set 2 Speed Set 3 SpeedSet 4 Speed Set 5 Tons Number cfm ESP rpm p ESP rpm bhp, ESP rpm bhp ESP rpm p ESP rpm bhp 6U- 0.39 689 0.175 0.72 853.10-.4-3-1.53 1136 .6 - - - 1020 0.32 663 0.169 0.64 832 0.28 1.02 978 0.42 1.43 1117 0.60 - - - 1080 0.25 637 0.162 0.56 811 0.28 0.93 958 0.42 1.34 1099 0.59 - - - YSC(033, 036)G3,4,W 1140 0.18 612 0.156 0.48 790 0.27 0.84 938 0.41 1.24 1080 0.58 - - - 3 1200 0.11 586 0.149 0.40 769 0.26 0.75 918 0.40 1.15 1061 0.57 1.47 1162 0.71 D W 1260 0.04 561 0.143 0.32 748 0.25 0.67 898 0.39 1.05 1043 0.56 1.39 1143 0.69 Airflow irFlow 1320 - - - 0.25 726 0.25 0.58 878 0.38 0.96 1024 0.55 1.30 1123 0.68 1380 - - - 0.17 705 0.24 0.49 858 0.37 0.86 1005 0.54 1.22 1104 0.67 1440 - - - 0.09 684 0.23 0.41 838 0.36 0.77 987 0.53 1.13 1084 0.66 960 0.42 6810. 0.70 839 0-:29-7-.07-79-8-7. 9 - - - 1020 0.35 656 0.167 0.63 816 0.28 0.97 961 0.42 1.34 1080 0.58 - - - 1080 0.28 630 0.161 0.56 793 0.27 0.90 940 0.41 1.25 1061 0.57 - - - YSC(033, 036)G3,4,W 1140 0.22 605 0.154 0.49 770 0.26 0.82 919 0.40 1.17 1042 0.56 1.46 1152 0.70 3 1200 0.15 579 0.148 0.43 747 0.25 0.75 898 0.39 1.09 1023 0.55 1.39 1135 0.69 Horizontal 1260 0.08 554 0.141 0.36 724 0.25 0.68 877 0.38 1.01 1005 0.54 1.33 1117 0.68 Airflow 1320 0.01 528 0.135 0.29 701 0.24 0.60 856 0.37 0.93 986 0.53 1.26 1100 0.67 1380 - - - 0.22 678 0.23 0.53 835 0.36 0.85 967 0.52 1.19 1083 0.66 1440 - - - 0.16 655 0.22 0.45 814 0.35 0.77 948 0.51 1.12 1066 0.65 4 994 0.46- - - - - - - - - 1360 0.55 854 0.34 0.70 959 0.45 0.94 1049 0.56 1.17 1133 0.68 - - - 1440 0.44 821 0.33 0.57 924 0.43 0.80 1015 0.54 1.02 1098 0.66 - - - YSC(043, 048)G3,4,W 1520 0.32 788 0.32 0.44 889 0.41 0.65 980 0.52 0.87 1063 0.64 1.47 1210 0.87 4 1600 0.20 755 0.30 0.30 854 0.40 0.51 945 0.50 0.72 1028 0.61 1.32 1181 0.84 Downflow 1680 0.08 722 0.29 0.17 819 0.38 0.37 910 0.48 0.57 993 0.59 1.17 1151 0.82 Airflow 1760 - - - 0.03 783 0.37 0.23 876 0.47 0.42 958 0.57 1.03 1121 0.80 1840 - - - - - - 0.08 841 0.45 0.28 923 0.55 0.88 1092 0.78 1920 - - - - - - - - - 0.13 888 0.53 0.73 1062 0.76 12-90- 0.69 872 0.35 0.83 934 0.44 - - - - - - - - - 1360 0.58 839 0.34 0.72 902 0.42 0.91 980 0.52 1.09 1057 0.63 - - - 1440 0.47 806 0.32 0.62 869 0.41 0.80 948 0.50 0.97 1026 0.61 - - - YSC(043, 1520 0.35 773 0.31 0.51 837 0.39 0.69 915 0.49 0.86 994 0.59 1.47 1204 0.86 048)G3,4,W 4 1600 0.24 739 0.30 0.40 804 0.38 0.58 883 0.47 0.74 962 0.57 1.33 1173 0.84 Horizontal 1680 0.13 706 0.28 0.30 772 0.36 0.47 851 0.45 0.62 931 0.56 1.20 1142 0.82 Airflow 1760 0.02 673 0.27 0.19 739 0.34 0.36 819 0.44 0.51 899 0.54 1.06 1112 0.80 1840 - - - 0.09 707 0.33 0.25 787 0.42 0.39 868 0.52 0.93 1081 0.77 1920 - - - - - - 0.13 755 0.40 0.28 836 0.50 0.79 1051 0.75 00 0.79 998 0.58 1.07 10830. 1 18 - - - - - - 1700 0.62 956 0.55 0.92 1043 0.67 1.12 1144 0.80 1.21 1179 0.89 - - - YSC(063, 1800 0.45 913 0.53 0.77 1004 0.64 0.93 1105 0.77 1.01 1136 0.86 - - - 060)G3,4,W 1900 0.28 870 0.50 0.62 964 0.62 0.74 1066 0.75 0.82 1094 0.83 1.23 1188 1.02 5 Downflow 2000 0.11 828 0.48 0.47 924 0.59 0.54 1027 0.72 0.62 1052 0.80 1.03 1150 0.99 Airflow 2100 - - - 0.32 885 0.57 0.35 987 0.69 0.43 1009 0.76 0.82 1111 0.96 2200 - - - 0.17 845 0.54 0.16 948 0.66 0.23 967 0.73 0.61 1073 0.93 2300 - - - 0.02 805 0.52 - - - 0.04 924 0.70 0.40 1035 0.89 2400 - - - - - - - - - - - - 0.20 997 0.86 1 .57 0.97 1049 077- -1.16 11 G-. 0 1.32 1159 0.88- - - 1700 0.68 945 0.55 0.82 1008 0.65 1.00 1104 0.77 1.16 1119 0.85 - - - YSC(063, 1800 0.52 901 0.52 0.66 966 0.62 0.84 1064 0.74 1.00 1079 0.82 - - - 060)G3,4,W 1900 0.36 857 0.49 0.51 924 0.59 0.68 1024 0.72 0.84 1039 0.79 1.26 1189 1.03 5 Horizontal 2000 0.20 813 0.47 0.36 882 0.57 0.52 984 0.69 0.67 999 0.76 1.07 1148 0.99 Airflow 2100 0.04 769 0.44 0.21 840 0.54 0.36 944 0.66 0.51 959 0.73 0.89 1106 0.95 2200 - - - 0.05 799 0.51 0.20 904 0.63 0.35 918 0.70 0.70 1065 0.92 2300 - - - - - - 0.04 864 0.60 0.19 878 0.67 0.52 1023 0.88 2400 - - - - - - - - - 0.03 838 0.64 0.33 982 0.85 For 36 mo a s, an motor eat B = 2.72 x Fan Bhp + fi5. For 04 & 060 models, tan motor heat MB = 2.81 x Fan B p + 0.15. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Data includes pressure drop due to wet coil and filters. 84 RT PRCO23AL-EN Direct Drive - Evaporator Fan Performance Table 36. Multispeed direct drive evaporator fan performance 3 to 5 tons - standard efficiency - high gas heat YSC033/036G3,4,W, YSC043/048G3,4,W, YSC060/063G3,4,W (a) Data includes pressure drop due to wet coil and filters. RT-PRCO23AL-EN 85 External Static Pressure (Inches of Water)Motor Power p Unit Model Speed Set I Speed Set 2 Speed Set 3 Speedet 4 Speed Set 5 Tons Number cfm ESP rpm p ESP rpm bhp ESP rpm bhp ESP rpm p ESP rpm bhp 960- 0.40 699 0.178 0.74 865 0-.295- 1.14 1017 0.441 1.57 1157 0.62 - - - 1020 0.33 674 0.172 0.66 844 0.287 1.05 997 0.432 1.48 1139 0.61 - - - 1080 0.26 649 0.165 0.58 823 0.280 0.96 978 0.424 1.38 1121 0.60 - - - YSC(033, 1140 0.19 624 0.159 0.50 801 0.273 0.88 958 0.415 1.29 1102 0.59 - - - 036)G3,4,W 3 1200 0.12 599 0.152 0.43 780 0.266 0.79 939 0.407 1.20 1084 0.58 1.44 1154 0.70 D w 1260 0.05 574 0.146 0.35 759 0.258 0.71 919 0.398 1.10 1066 0.57 1.35 1135 0.69 Airflow Airflow 1320 - - - 0.27 737 0.251 0.62 899 0.390 1.01 1047 0.56 1.27 1117 0.68 1380 - - - 0.19 716 0.244 0.54 880 0.381 0.92 1029 0.55 1.18 1098 0.67 1440 - - - 0.11 695 0.236 0.45 860 0.373 0.82 1011 0.54 1.09 1079 0.66 -T6U- -074T 695 0.177 0 839 0.2-9- -1.05 982 0.43 1.43- - - 1020 0.35 671 0.171 0.63 816 0.28 0.97 961 0.42 1.35 1093 0.59 - - - 1080 0.29 646 0.165 0.56 793 0.27 0.90 940 0.41 1.27 1075 0.58 - - - YSC(033, 1140 0.22 622 0.158 0.49 770 0.26 0.82 919 0.40 1.19 1057 0.57 1.49 1165 0.71 036)G3,4,W 3 1200 0.15 597 0.152 0.43 747 0.25 0.75 898 0.39 1.11 1038 0.56 1.41 1147 0.70 Horizontal 1260 0.09 573 0.146 0.36 724 0.25 0.68 877 0.38 1.03 1020 0.55 1.34 1129 0.69 Airflow 1320 0.02 549 0.140 0.29 701 0.24 0.60 856 0.37 0.95 1002 0.54 1.26 1111 0.67 1380 - - - 0.22 678 0.23 0.53 835 0.36 0.87 983 0.53 1.18 1093 0.66 1440 - - - 0.16 655 0.22 0.45 814 0.35 0.79 965 0.52 1.10 1075 0.65 0.60 8420.88 1023 0.47-- - - - - - - - - 1360 0.50 811 0.33 0.74 990 0.45 1.18 1112 0.58 1.24 1141 0.66 - - - 1440 0.39 781 0.31 0.60 956 0.44 1.04 1080 0.56 1.09 1107 0.64 - - - YSC(043, 1520 0.29 750 0.30 0.47 922 0.42 0.90 1048 0.54 0.94 1074 0.62 - - - 048)G3,4,W 4 1600 0.18 719 0.29 0.33 889 0.41 0.76 1016 0.53 0.79 1040 0.60 1.28 1183 0.85 Downflow 1680 0.08 689 0.28 0.19 855 0.39 0.62 984 0.51 0.64 1007 0.58 1.13 1154 0.83 Airflow 1760 - - - 0.06 821 0.38 0.48 952 0.49 0.49 974 0.56 0.99 1126 0.81 1840 - - - - - - 0.34 919 0.48 0.34 940 0.54 0.84 1097 0.78 1920 - - - - - - 0.20 887 0.46 0.18 907 0.52 0.69 1068 0.76 1280 0.69 883 0.35 0.83 948 0.44 - - - - - - - - - 1360 0.58 850 0.34 0.72 916 0.42 0.94 1007 0.52 1.16 1091 0.63 - - - 1440 0.46 817 0.33 0.61 885 0.41 0.82 975 0.50 1.04 1060 0.61 - YSC(043, 1520 0.35 784 0.31 0.51 853 0.39 0.71 944 0.49 0.92 1029 0.59 _ _ 048)G3,4,W 4 1600 0.23 751 0.30 0.40 822 0.38 0.59 912 0.47 0.80 998 0.57 1.33 1181 0.84 Horizontal 1680 0.12 718 0.29 0.29 790 0.36 0.48 880 0.46 0.68 967 0.56 1.19 1150 0.82 Airflow 1760 0.01 685 0.27 0.18 759 0.35 0.37 849 0.44 0.56 936 0.54 1.04 1119 0.80 1840 - - - 0.08 727 0.33 0.25 817 0.42 0.44 905 0.52 0.90 1088 0.78 1920 - - - - - - 0.14 785 0.41 0.32 874 0.50 0.76 1057 0.76 1600 0.79 998 0.58 1.08 1115 0.72 1.31 1193 0.8 - - - - - - 1700 0.62 956 0.56 0.89 1074 0.70 1.11 1151 0.82 1.25 1165 0.91 - - - YSC(063, 1800 0.45 913 0.53 0.71 1032 0.67 0.92 1109 0.79 1.07 1123 0.87 - - - 060)G3,4,W 1900 0.28 870 0.51 0.52 991 0.64 0.73 1067 0.76 0.90 1081 0.84 1.17 1200 1.04 5 Downflow 2000 0.11 828 0.48 0.33 949 0.61 0.53 1025 0.73 0.73 1039 0.81 0.97 1158 1.00 Airflow 2100 - - - 0.14 908 0.59 0.34 983 0.70 0.56 997 0.77 0.77 1116 0.96 2200 - - - - - - 0.15 941 0.67 0.39 955 0.74 0.57 1074 0.93 2300 - - - - - - - - - 0.21 913 0.71 0.37 1032 0.89 2400 - - - - - - - - - 0.04 871 0.68 0.17 990 0.85 1600 0.84 1006 0.59 1.00 1061 0. 9 .20 32 0.81 1.42 207. 4 - - - 1700 0.67 962 0.56 0.84 1017 0.66 1.03 -1090 0.78 1.25 1165 0.91 - - - YSC(063, 1800 0.51 918 0.54 0.69 974 0.63 0.87 1047 0.75 1.07 1123 0.87 - - - 060)G3,4,W 1900 0.34 874 0.51 0.53 931 0.60 0.71 1005 0.72 0.90 1081 0.84 1.26 1205 1.04 5 Horizontal 2000 0.18 831 0.48 0.37 888 0.57 0.54 963 0.69 0.73 1039 0.81 1.06 1163 1.00 Airflow 2100 0.01 787 0.46 0.21 845 0.55 0.38 920 0.65 0.56 997 0.77 0.86 1120 0.97 2200 - - - 0.05 802 0.52 0.21 878 0.62 0.39 955 0.74 0.66 1077 0.93 2300 - - - - - - 0.05 836 0.59 0.21 913 0.71 0.46 1034 0.89 2400 - - - - - - - - - 0.04 871 0.68 0.26 991 0.86 For 036 mo a s, an motor eat MB = 2.72 x an B p + 0.16. For 4 0 mo a s, an motor eat B = 2.87 x Fan Bhp + 0.15. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Data includes pressure drop due to wet coil and filters. RT-PRCO23AL-EN 85 Direct Drive - Evaporator Fan Performance Table 37. Multispeed direct drive evaporator fan performance 3 to 5 tons - high efficiency - no electric heat THC036E1,3,4,W/THCO48 andTHC060E3,4W/THCO48F andTHC060F1,3,4W (a) For electric heat applications, minimum airflow is set to 320/ton, unless specified otherwise, values found in electric heat temperature rise table. (b) Data includes pressure drop due to wet coil and filters. 86 RT PRCO23AL-EN External Static Pressure Inches of Water & Motor Power bhp Unit Model Speed Set 1 Speed Set 2 Speed Set 3 Speed Set 4 Speed Set 5 Tons Number -cfm- ESP rpm bhp -E-9P- rpm bhp ESP rpm p ESP rpm p ESP rpm p 71 .7 1. .4 1053 0-.5-1- 1020 0.39 695 0.20 0.66 826 0.30 0.84 905 0.37 0.99 969 0.43 1.17 1030 0.50 1080 0.33 675 0.20 0.59 800 0.29 0.77 880 0.36 0.91 945 0.42 1.08 1007 0.49 THC036El,3,4,W 1140 0.27 654 0.19 0.51 774 0.28 0.69 855 0.35 0.83 921 0.41 1.00 985 0.48 3 Downflow 1200 0.21 634 0.18 0.43 749 0.27 0.61 831 0.34 0.75 898 0.40 0.91 962 0.47 Airflow 1260 0.15 614 0.18 0.35 723 0.26 0.53 806 0.33 0.67 874 0.39 0.83 939 0.46 1320 0.09 593 0.17 0.28 697 0.25 0.45 782 0.32 0.59 850 0.38 0.74 916 0.45 1380 0.03 573 0.17 0.20 671 0.24 0.37 757 0.31 0.51 826 0.37 0.66 893 0.44 1440 - - - 0.12 646 0.23 0.29 732 0.30 0.43 802 0.36 0.57 871 0.43 9 8 0-.1-1- 1020 0.39 689 0.20 0.63 811 0.29 0.81 890 0.36 0.96 957 0.43 1.13 1016 0.50 1080 0.32 667 0.19 0.56 787 0.28 0.73 868 0.35 0.88 935 0.42 1.04 996 0.49 THC036El,3,4,W 1140 0.26 644 0.19 0.48 763 0.28 0.65 845 0.34 0.80 913 0.41 0.95 975 0.48 3 Horizontal 1200 0.20 622 0.18 0.41 739 0.27 0.57 823 0.33 0.72 892 0.40 0.87 955 0.47 Airflow 1260 0.13 599 0.17 0.33 715 0.26 0.50 800 0.32 0.64 870 0.39 0.78 934 0.46 1320 0.07 577 0.17 0.26 691 0.25 0.42 777 0.32 0.56 848 0.38 0.69 913 0.45 1380 0.01 555 0.16 0.18 667 0.24 0.34 755 0.31 0.48 826 0.37 0.61 893 0.44 1440 - - - 0.11 642 0.23 0.26 732 0.30 0.40 805 0.36 0.52 872 0.43 5 .4 1.04 966 U. -4-T-7 1042 0.58 - - - 1360 0.55 769 0.30 0.76 866 0.38 0.94 934 0.46 1.17 1010 0.56 1.43 1113 0.68 1440 0.46 733 0.28 0.66 830 0.37 0.84 902 0.44 1.06 977 0.54 1.31 1078 0.66 THC048E3,4,W/ THC048F1,3,4,W 1520 0.36 696 0.27 0.56 794 0.35 0.74 869 0.43 0.95 944 0.52 1.20 1043 0.64 4 1600 0.27 660 0.25 0.46 758 0.33 0.63 837 0.41. 0.85 912 0.50 1.08 1009 0.62 Downflow 1680 0.17 624 0.24 0.36 722 0.32 0.53 805 0.40 0.74 879 0.49 0.97 974 0.60 Airflow Airflow 1760 - - - 0.26 686 0.30 0.43 772 0.38 0.63 847 0.47 0.85 939 0.58 1840 - - - 0.16 650 0.29 0.33 740 0.36 0.53 814 0.45 0.74 905 0.55 1920 - - - 0.06 614 0.27 0.23 707 0.35 0.42 782 0.43 0.62 870 0.53 1280 0.56 795 0.31 0.77 880 03-9 0.95 967 0.48 1.16 1040 0.57 - - - 1360 0.48 760 0.29 0.67 847 0.37 0.86 935 0.46 1.06 1010 0.56 1.26 1105 0.68 1440 0.39 725 0.28 0.58 814 0.36 0.76 903 0.44 0.96 980 0.54 1.16 1075 0.66 THC048E3,4,W/ THC048F1,3,4,W 1520 0.30 690 0.27 0.48 780 0.34 0.66 871 0.43 0.86 951 0.53 1.06 1045 0.64 4 Horizontal 1600 0.22 655 0.25 0.39 747 0.33 0.57 838 0.41 0.76 921 0.51 0.96 1016 0.62 1680 0.13 619 0.24 0.30 714 0.31 0.47 806 0.40 0.66 891 0.49 0.86 986 0.60 Airflow 1760 - - - 0.20 681 0.30 0.37 774 0.38 0.56 861 0.48 0.76 956 0.59 1840 - - - 0.11 647 0.29 0.28 742 0.37 0.46 831 0.46 0.66 926 0.57 1920 - - - 0.01 614 0.27 0.18 710 0.35 0.36 802 0.44 0.56 896 0.55 1600 0.82 918 1.04 1002 0.60 1.261 - - - - - - 1700 0.67 873 0.47 0.89 957 0.58 1.11 1043 0.69 - - - - - - 1800 0.53 828 0.45 0.74 913 0.55 0.96 1000 0.66 1.16 1083 0.78 - - - THC060E3,4,W/ THC060F1,3,4,W 1900 0.39 782 0.42 0.59 869 0.52 0.82 957 0.63 1.02 1041 0.75 1.17 1099 0.85 5 2000 0.25 737 0.40 0.45 824 0.50 0.67 914 0.60 0.87 999 0.72 1.02 1056 0.82 Downflow 2100 0.11 692 0.37 0.30 780 0.47 0.52 870 0.58 0.72 957 0.69 0.87 1014 0.78 Airflow 2200 - - - 0.15 735 0.44 0.37 827 0.55 0.57 914 0.66 0.71 971 0.75 2300 - - - 0.00 691 0.42 0.22 784 0.52 0.42 872 0.63 0.56 929 0.72 2400 - - - - - - 0.07 741 0.49 0.27 830 0.60 0.41 886 0.68 1600 0.71 918 0.50 0.91 1001 0.60 1.09 10701 - - - - - - 1700 0.59 875 0.47 0.78 959 0.58 0.96 1029 0.68 1.11 1102 0.79 - - - 1800 0.46 832 0.45 0.65 916 0.55 0.82 987 0.65 0.97 1063 0.77 - - - THC060E3,4,W/ THC060F1,3,4,W 1900 0.33 788 0.43 0.51 874 0.53 0.68 945 0.62 0.84 1023 0.74 1.01 1093 0.85 5 2000 0.21 745 0.40 0.38 831 0.50 0.54 903 0.60 0.71 984 0.71 0.87 1052 0.81 Horizontal 2100 0.08 701 0.38 0.25 788 0.47 0.41 861 0.57 0.57 944 0.68 0.73 1010 0.78 Airflow 2200 - - - 0.12 746 0.45 0.27 819 0.54 0.44 904 0.65 0.59 968 0.75 2300 - - - - - - 0.13 778 0.51 0.31 865 0.62 0.45 926 0.72 2400 - - - - - - - - - 0.17 825 0.59 0.31 884 0.68 For 03 mo a s, an motor eat MB = .7 x Fan B p + 0. 6. or 4 mo a s, an motor eat MB = 2. 7 x Fan B p + 0. 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) For electric heat applications, minimum airflow is set to 320/ton, unless specified otherwise, values found in electric heat temperature rise table. (b) Data includes pressure drop due to wet coil and filters. 86 RT PRCO23AL-EN m Direct Drive - Evaporator Fan Performance Table 38. Multispeed direct drive evaporator fan performance 3 to 5 tons - high efficiency - low & medium gas heat YHC036E1,3,4,W/YHCO48 and 060E3,4,W/YHCO48F andYHC060F1,3,4,W (a) Data includes pressure drop due to wet coil and filters. RT PRCO23AL-EN 87 External Static Pressure (Inches of Water Motor Power p Unit Model Speed Set 1 Speed Set 2 SpeedSet 3 Speed Set 4 Speed Set 5 Tons Number cfm ESP rpm Rip ESP rpm bhp ESP rpm p ESP rpm bhp ESP rpm bhp -Sy 6 0. 4 5 0.27 0.88 923 0-35- 1.12 1017A 1074 O. 1020 0.37 696 0.18 0.57 800 0.26 0.80 900 0.35 1.04 997 0.45 1.20 1053 0.51 1080 0.30 675 0.18 0.49 775 0.26 0.72 877 0.34 0.96 977 0.44 1.11 1033 0.50 3 YHC036E1,3,4,W*L,M 1140 0.24 654 0.17 0.42 749 0.25 0.64 854 0.33 0.87 957 0.43 1.03 1013 0.49 Downflow 1200 0.18 633 0.17 0.34 724 0.24 0.56 832 0.32 0.79 938 0.42 0.94 992 0.48 Airflow 1260 0.11 612 0.16 0.26 698 0.23 0.48 809 0.31 0.71 918 0.41 0.86 972 0.47 1320 0.05 590 0.16 0.19 673 0.22 0.39 786 0.30 0.63 898 0.40 0.77 951 0.46 1380 - - - 0.11 647 0.21 0.31 763 0.29 0.55 878 0.39 0.68 931 0.45 1440 - - - 0.03 622 0.21 0.23 740 0.28 0.47 859 0.38 0.60 910 0.44 0 O. G. 19 0. 0.-172��o.51 1020 0.37 695 0.18 0.61 819 0.27 0.83 916 0.35 1.07 1014 0.45 1.18 1047 0.50 1080 0.31 675 0.18 0.54 796 0.26 0.75 895 0.34 0.99 992 0.44 1.11 1032 0.50 3 YHC036El,3,4,W*L,M 1140 0.26 654 0.17 0.47 772 0.26 0.68 874 0.34 0.91 970 0.43 1.04 1017 0.49 Horizontal 1200 0.20 634 0.17 0.41 749 0.25 0.61 853 0.33 0.83 948 0.42 0.97 1002 0.48 Airflow 1260 0.14 614 0.16 0.34 725 0.24 0.54 832 0.32 0.75 926 0.41 0.90 987 0.48 1320 0.09 594 0.16 0.27 702 0.23 0.47 811 0.31 0.67 903 0.40 0.83 972 0.47 1380 0.03 574 0.15 0.20 678 0.22 0.40 789 0.30 0.59 881 0.39 0.76 957 0.46 1440 - - - 0.14 654 0.22 0.33 768 0.29 0.51 859 0.38 0.69 942 0.45 . 4f 1.07 969 0.49 1.07 969 0.497 1360 0.59 785 0.32 0.78 869 0.40 0.96 936 0.48 0.96 936 0.48 1.16 1007 0.56 1440 0.49 750 0.30 0.68 835 0.38 0.86 903 0.46 0.86 903 0.46 1.05 976 0.55 4 YHC048***L,M 1520 0.40 714 0.29 0.58 801 0.37 0.75 870 0.44 0.75 870 0.44 0.94 944 0.53 Downflow 1600 0.30 679 0.27 0.48 767 0.35 0.65 837 0.42 0.65 837 0.42 0.84 912 0.51 Airflow 1680 0.20 643 0.26 0.38 733 0.34 0.54 804 0.41 0.54 804 0.41 0.73 881 0.49 1760 0.10 608 0.25 0.28 699 0.32 0.44 771 0.39 0.44 771 0.39 0.62 849 0.48 1840 0.01 572 0.23 0.18 666 0.31 0.33 738 0.37 0.33 738 0.37 0.51 817 0.46 1920 - - - 0.08 632 0.29 0.23 705 0.36 0.23 705 0.36 0.41 786 0.44 1280 0.61 813 0.33 0.81 896 0.41 1.00 977 0 1.00 977 0.50 I.T7 1044 0.58 1360 0.51 777 0.31 0.70 862 0.40 0.89 944 0.48 0.89 944 0.48 1.06 1011 0.57 1440 0.42 742 0.30 0.60 828 0.38 0.79 911 0.46 0.79 911 0.46 0.95 979 0.55 4 YHC048***L,M 1520 0.32 707 0.28 0.50 794 0.36 0.68 878 0.45 0.68 878 0.45 0.84 946 0.53 Horizontal 1600 0.22 671 0.27 0.40 760 0.35 0.57 845 0.43 0.57 845 0.43 0.73 913 0.51 Airflow 1680 0.13 636 0.26 0.29 725 0.33 0.46 812 0.41 0.46 812 0.41 0.62 881 0.49 1760 0.03 600 0.24 0.19 691 0.32 0.36 779 0.40 0.36 779 0.40 0.51 848 0.47 1840 - - - 0.09 657 0.30 0.25 746 0.38 0.25 746 0.38 0.40 815 0.46 1920 - - - - - - 0.14 713 0.36 0.14 713 0.36 0.29 783 0.44 1600 0 9620.5 1.07 1027 1.28- - - - - - 1700 0.76 919 0.53 0.93 985 0.61 1.14 1060 0.72 - - - - - - 1800 0.62 875 0.50 0.78 943 0.59 0.99 1022 0.70 1.15 1092 0.81 - - - 5 YHC060***L,M 1900 0.48 832 0.48 0.64 900 0.56 0.84 984 0.67 1.00 1051 0.78 1.18 1116 0.89 Downflow 2000 0.34 788 0.45 0.49 858 0.53 0.70 945 0.65 0.86 1010 0.75 1.03 1076 0.86 Airflow 2100 0.20 745 0.43 0.35 815 0.51 0.55 907 0.62 0.71 969 0.72 0.88 1037 0.83 2200 0.06 701 0.40 0.20 773 0.48 0.41 868 0.59 0.56 928 0.69 0.73 997 0.80 2300 - - - 0.06 730 0.46 0.26 830 0.57 0.41 887 0.66 0.58 958 0.77 2400 - - - - - - 0.12 792 0.54 0.26 846 0.63 0.43 918 0.73 1600 0.75 4 4 1.1 - - - - - - 1700 0.61 899 0.52 0.77 969 0.60 0.96 1052 0.72 1.12 1114 0.82 - - - 1800 0.48 855 0.49 0.63 927 0.58 0.82 1011 0.69 0.97 1074 0.79 - - - 5 YHC060***L,M 1900 0.34 811 0.47 0.49 885 0.55 0.67 969 0.66 0.83 1035 0.76 1.01 1111 0.89 Horizontal 2000 0.20 766 0.44 0.35 843 0.53 0.53 928 0.63 0.68 995 0.74 0.87 1070 0.85 Airflow 2100 0.07 722 0.42 0.21 801 0.50 0.39 887 0.61 0.54 956 0.71 0.72 1028 0.82 2200 - - - 0.07 759 0.47 0.25 845 0.58 0.39 916 0.68 0.57 987 0.79 2300 - - - - - - 0.10 804 0.55 0.25 877 0.65 0.42 945 0.76 2400 - - - - - - - - - 0.10 837 0.62 0.27 904 0.72 For 0 models, an motor eat MB = .7 x Fan B p + 0. 6. For 48 0 mo a s, an motor eat MB = 2. 1 x Fan B p + 0. 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Data includes pressure drop due to wet coil and filters. RT PRCO23AL-EN 87 C=3 Direct Drive - Evaporator Fan Performance Table 39. Multispeed direct drive evaporator fan performance 3 to 5 tons -high efficiency -high heat YHC036E1,3,4,W/ YHC048 and 060E3,4,W/YHC048F andYHC060F1,3,4,W (a) Data includes pressure drop due to wet coil and filters. 88 RT-PRCO23AL-EN External Static Pressure (Inches of Water Motor Power p Unit Model Speed Set 1 Speed Set 2 Speed Set 3 Speed Set 4 Speed Set 5 Tons Number cfm ESP rpm b p ESP rpm bhp ESP rpm p ESP rpm bhp -E-9 P rpm bhp 96T_ 0.43 718 0.195 060.88 923 0734 1.12 1017.44 1.28 1074 0.5-1- 1020 0.37 696 0.19 0.57 800 0.26 0.80 900 0.34 1.04 997 0.43 1.20 1053 0.50 1080 0.30 675 0.18 0.49 775 0.25 0.72 877 0.33 0.96 977 0.42 1.11 1033 0.49 3 YHC036E1,3,4,W*H 1140 0.24 654 0.18 0.42 749 0.24 0.64 854 0.32 0.87 957 0.42 1.03 1013 0.48 Downflow 1200 0.18 633 0.17 0.34 724 0.23 0.56 832 0.31 0.79 938 0.41 0.94 992 0.47 Airflow 1260 0.11 612 0.16 0.26 698 0.22 0.48 809 0.30 0.71 918 0.40 0.86 972 0.46 1320 0.05 590. 0.16 0.19 673 0.21 0.39 786 0.29 0.63 898 0.39 0.77 951 0.45 1380 - - - 0.11 647 0.21 0.31 763 0.28 0.55 878 0.38 0.68 931 0.44 1440 - - - 0.03 622 0.20 0.23 740 0.28 0.47 859 0.37 0.60 910 0.43 960 0.44 7n O -Z0 0. 935 0. 0.51 1020 0.37 708 0.19 0.58 811 0.26 0.80 911 0.34 1.03 1010 0.44 1.17 1059 0.50 1080 0.31 684 0.18 0.51 787 0.25 0.72 886 0.33 0.95 987 0.43 1.09 1040 0.49 3 YHC036E1,3,4,W*H 1140 0.24 660 0.18 0.43 762 0.24 0.64 862 0.32 0.87 964 0.42 1.01 1021 0.48 Horizontal 1200 0.18 636 0.17 0.36 737 0.24 0.56 838 0.31 0.79 941 0.41 0.93 1002 0.47 Airflow 1260 0.11 612 0.16 0.29 712 0.23 0.48 814 0.30 0.70 918 0.40 0.85 983 0.47 1320 0.05 588 0.16 0.21 688 0.22 0.40 789 0.29 0.62 895 0.39 0.77 964 0.46 1380 - - - 0.14 663 0.21 0.32 765 0.28 0.54 872 0.38 0.69 945 0.45 1440 - - - 0.07 638 0.20 0.24 741 0.28 0.45 849 0.37 0.61 926 0.44 0. 7 1066 0.61 1360 0.60 796 0.33 0.80 889 0.42 0.97 956 0.50 0.97 956 0.50 1.17 1033 0.59 1440 0.50 759 0.32 0.71 855 0.40 0.87 922 0.48 0.87 922 0.48 1.06 1000 0.57 4 YHC048***H 1520 0.40 722 0.30 0.61 820 0.39 0.77 889 0.46 0.77 889 0.46 0.96 966 0.56 Downflow 1600 0.31 684 0.29 0.51 785 0.37 0.67 855 0.44 0.67 855 0.44 0.85 933 0.54 Airflow 1680 0.21 647 0.27 0.41 751 0.35 0.57 822 0.43 0.57 822 0.43 0.75 900 0.52 1760 0.12 610 0.26 0.31 716 0.34 0.47 788 0.41 0.47 788 0.41 0.64 867 0.50 1840 - - - 0.22 681 0.32 0.37 755 0.39 0.37 755 0.39 0.54 834 0.48 1920 - - - 0.12 647 0.30 0.27 721 0.37 0.27 721 0.37 0.43 801 0.46 -U:6F 1280 0.60 822 0. 4 0.8 0.43 0.97 0.51 0.97 986 0.51 1.18 1063 1360 0.51 787 0.33 0.70 876 0.41 0.87 952 0.49 0.87 952 0.49 1.07 1031 0.59 1440 0.41 752 0.31 0.60 840 0.40 0.76 918 0.48 0.76 918 0.48 0.96 998 0.57 4 YHC048***H 1520 0.31 718 0.30 0.49 805 0.38 0.66 885 0.46 0.66 885 0.46 0.84 966 0.56 Horizontal 1600 0.22 683 0.29 0.38 769 0.36 0.55 851 0.44 0.55 851 0.44 0.73 933 0.54 Airflow 1680 0.12 648 0.27 0.28 733 0.34 0.45 818 0.42 0.45 818 0.42 0.62 901 0.52 1760 0.03 613 0.26 0.17 697 0.33 0.34 784 0.41 0.34 784 0.41 0.51 868 0.50 1840 - - - 0.07 661 0.31 0.23 750 0.39 0.23 750 0.39 0.40 836 0.48 1920 - - - - - - 0.13 717 0.37 0.13 717 0.37 0.29 803 0.46 00 0.90 955 0. .0 022 0.66 1.25 TO -9-50-.77 - - - - - - 1700 0.76 910 0.54 0.92 977 0.63 1.11 1052 0.74 1.28 1113 0.85 - - - 1800 0.62 865 0.52 0.77 932 0.60 0.96 1009 0.71 1.13 1072 0.82 - - - 5 YHC060***H 1900 0.47 819 0.49 0.63 888 0.57 0.82 966 0.68 0.98 1031 0.79 1.18 1105 0.91 Downflow 2000 0.33 774 0.46 0.49 843 0.54 0.67 922 0.65 0.83 990 0.75 1.02 1062 0.87 Airflow 2100 0.19 729 0.44 0.34 798 0.52 0.52 879 0.62 0.68 949 0.72 0.87 1019 0.84 2200 0.04 683 0.41 0.20 754 0.49 0.38 836 0.59 0.54 908 0.69 0.71 976 0.80 2300 - - - 0.05 709 0.46 0.23 793 0.56 0.39 867 0.66 0.55 933 0.77 2400 - - - - - - 0.09 750 0.53 0.24 826 0.63 0.40 890 0.73 0 0.77 948 0.57 0.95 1016.1 - - - - - - 1700 0.63 903 0.54 0.80 973 0.63 0.96 1052 0.74 - - - - - - 1800 0.48 859 0.51 0.66 930 0.60 0.81 1012 0.71 1.00 1084 0.83 - - - 5 YHC060***H 1900 0.34 814 0.49 0.51 888 0.57 0.67 971 0.68 0.85 1042 0.79 1.01 1106 0.91 Horizontal 2000 0.20 770 0.46 0.36 845 0.55 0.52 931 0.65 0.70 1000 0.76 0.86 1063 0.87 Airflow 2100 0.06 725 0.43 0.22 803 0.52 0.38 890 0.62 0.55 959 0.73 0.70 1021 0.84 2200 - - - 0.07 760 0.49 0.23 850 0.60 0.39 917 0.70 0.54 979 0.80 2300 - - - - - - 0.09 809 0.57 0.24 875 0.67 0.39 937 0.77 2400 - - - - - - - - 0.00 0.09 833 0.63 0.23 894 0.73 For 0 mo a s, an motor eat MB = .7 x Fan Bhp + 0.16.For 48 0 mo a s, an motor eat B = 7 x Fan B p + 0. 5. Factory supplied motors, in all cataloged conditions. Using commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Data includes pressure drop due to wet coil and filters. 88 RT-PRCO23AL-EN Evaporator Fan Performance Table 40. Belt drive evaporator fan performance - 6 tons standard efficiency-TSC072F3,4,W downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 1920 - - - - 588 0.35 643 0.43 693 0.50 738 0.57 782 0.65 823 0.73 862 0.81 900 0.89 2160 - - 564 0.37 618 0.44 672 0.52 721 0.60 765 0.68 806 0.76 847 0.85 885 0.93 922 1.02 2400 - - 602 0.47 652 0.54 701 0.63 750 0.72 794 0.81 834 0.90 873 0.98 909 1.08 945 1.17 2640 589 0.50 642 0.59 690 0.67 734 0.76 779 0.85 822 0.95 864 1.05 901 1.15 936 1.24 971 1.34 2880 634 0.63 682 0.74 728 0.82 770 0.91 810 1.01 851 1.11 892 1.22 930 1.33 965 1.44 999 1.54 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) 1920 937 0.98 971 1.06 1004 1.14 1037 1.22 1068 1.30 1097 1.38 1127 1.47 1154 1.55 1182 1.64 1210 1.74 2160 957 1.12 991 1.21 1024 1.30 1057 1.40. 1087 1.49F-11171.58 1146 1.67 1174 1.76 1201 1.85 1227 1.95 2400 980 1.27 1013 1.37 1046_L.4711076 1.57 1106 1.68 1137 1.78 1166 1.89 1194 1.99 1220 2.08 1248 2.19 2640 1004 1.44(b) 1036 1.55 1067 1.65 1098 1.77 1129 1.88 1158 1.99 1185 2.10 1214 2.22 - - - - 2880 1030 1.64 1061 1.75 1092 1.86 1123 1.98 1151 2.09 1181 2.22 - - - - - - - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000. S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horse power range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) RT PRCO23AL-EN 89 Evaporator Fan Performance Table 41. Belt drive evaporator fan performance - 6 tons standard efficiency-TSC072F3,4,W horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 1920 - - 580 0.33 641 0.41 692 0.47 738 0.54 783 0.63 827 0.71 870 0.79 912 0.88 951 0.96 2160 578 0.37 623 0.43 679 0.51731 0.59 775 0.67 817 0.74 857 0.83 896 0.93 935 1.02 974 1.12 2400 633 0.49 673 0.56 718 0.63 769 0.72 814 0.82 855 0.90 893 0.98 929 1.08 965 1.18 999 1.29 2640 688 0.64 725 0.71 762 0.79 808 0.87 853 0.98 894 1.09 931 1.17 966 1.26 1000 1.36 1032 1.47(b) 2880 743 0.81 778 0.90 811 0.98 848 1.06 891 1.16 932 1.28 970 1.40 ri664 1.49 1037 1.59 1068 1.69 17hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) 1920 990 1.05 1026 1.14 1062 1.24 1096 1.33 1130 1.43 1160 1.52 1190 1.61 1218 1.71 1247 1.80 1273 1.90 2160 1010 1.21 1047 1.31 1082 1.40 1116 1.50 1150 1.61 1182 1.71 1211 1.81 1242 1.92 1271 2.03 1298 2.14 2400 1035 1.39 1070 1.50 1104 1.60 1137 1.70 1168 1.81 1201 1.92 1232 2.03 1261 2.14 1291 2.26 - - 2640 1065 1.59 1097 1.71 1129 1.82 1161 1.93 1192 2.05 1223 2.16 1252 2.27 - - - - - - 2880 1099 1.80 1130 1.93 1159 2.05 1188 2.18 1217 2.30 - - - - - - - - - - 2 -hp Oversized Motor & Drive 2 -hp Oversized Motor & Field Supplied Drive(c) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000. 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 2 -hp Oversized Motor & Field Supplied Drive (c) Field Supplied Fan Sheave AK56 and Belt AX30. 90 RT PRCO23AL-EN m Evaporator Fan Performance Table 42. Belt drive evaporator fan performance - 6 tons standard efficiency with gas heat-YSC072F3,4,W*L,M low & Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) RT PRCO23AL-EN 91 medium heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Driven 1 -hp Standard Motor & Drive 1920 - - - - 597 0.37 652 0.44 700 0.51 745 0.58 788 0.66 829 0.74 869 0.82 906 0.91 2160 - - 575 0.38 629 0.46 683 0.54 730 0.62 774 0.70 815 0.78 854 0.86 893 0.95 929 1.04 2400 561 0.41 615 0.49 664 0.57 714 0.65 762 0.74 805 0.83 844 0.92 882 1.01 918 1.10 954 1.20 2640 606 0.53 657 0.62 703 0.70747 0.79 792 0.88 835 0.98 875 1.08 912 1.18 947 1.27 980 1.37 2880 651 0.67 699 0.77 0.85 785 0.94 825 1.05 867 1.15 906 1.26 943 1.37 978 1.47 1 1010 1.58 r43 2 -hp Oversized Motor & Drive Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) 1920 941 0.99 977 1.07 1009 1.15 1041 1.23 1073 1.32 1103 1.40 1132 1.49 1159 1.57 1187 1.66 1213 1.75 2160 964 1.13 997 1.23 1031 1.32 1061 1.41 1093 1.50 1123 1.60 1151 1.69 1179 1.78 1207 1.87 1234 1.97 2400 988 1.29 1020 1.39 1054 1.50 F1085 1.60 1114 1.70 1143 1.80 1171 1.90 1200 2.01 1227 2.11 1254 2.21 2640 1014 1.47(b) 1046 1.58 1077 1.69 1107 1.80 1138 1.91 1166 2.02 1193 2.13 1222 2.25 - - - - 2880 1042 1.68 1073 1.79 1103 1.90 1132 2.02 1162 2.14 1190 2.26 - - - - - - - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) RT PRCO23AL-EN 91 Evaporator Fan Performance Table 43. Belt drive evaporator fan performance - 6 tons standard efficiency with gas heat-YSC072F3,4,W*L,M low & medium heat horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 1920 - - 591 0.34 649 0.42 699 0.48 745 0.56 789 0.64 834 0.72 877 0.81 918 0.89 957 0.97 2160 587 0.38 633 0.44 690 0.52 740 0.61 784 0.68 825 0.76 865 0.85 904 0.95 943 1.04 981 1.13 2400 643 0.51 682 0.58 732 0.65 781 0.75 825 0.84 864 0.92 902 1.01 938 1.11 974 1.21 1010 1.32(6) 2640 700 0.66 736 0.74 775 0.81 822 0.90 866 1.01 906 1.11 942 1.20 976 1.29 1009 1.40 1042 1.51 2880 756 0.84 790 0.93 823 1.01 864 1.09 907 1.20 947 1.32 983 1.43 1017 1.53 1048 1.62 1080 1.73 2 -hp Oversized Motor & Drive Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) 1920 996 1.06 1033 1.16 1067 1.25 1102 1.35 1134 1.44 1165 1.53 1195 1.63 1223 1.72 1251 1.82 1277 1.91 2160 1018 1.23 1054 1.32 1090 1.42 1123 1.52 1156 1.63 1188 1.73 1218 1.84 1247 1.94 1276 2.05 1304 2.16 2400 1044 1.42 1079 1.52 1112 1.62 1145 1.73 1177 1.83 1208 1.94 1240 2.06 1268 2.17 1298 2.29 - - 2640 1075 1.62 1107 1.74 1139 1.85 1170 1.96 1201 2.08 1232 2.19 - - - - - - - - 2880 1111 1.85 1140 1.97 1169 2.09 1200 2.22 - - - - - - - - - - - - 2 -hp Oversized Motor & Drive 2 -hp Oversized Motor & Field Supplied High Static Drive(c) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000. S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 1 -hp Standard Motor & High Static Drive (or 2 -hp Oversized Motor) (c) Field Supplied Fan Sheave AK56 and Belt AX30 required. 92 RT-PRCO23AL-EN Evaporator Fan Performance Table 44. Belt drive evaporator fan performance - 6 tons standard efficiency with gas heat-YSC072F3AW*H high heat Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor) RT PRCO23AL-EN 93 downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drivem 1 -hp Standard Motor & Drive 1920 - - 574 0.34 631 0.41 681 0817 27 0.55 771 0.63 814 0.71 853 0.79 892 0.87 928 0.95 2160 S62 0.36 616 0.44 671 0.52 719 063 0.68 805 0.76 845 0.84 884 0.93 921 1.02 957 1.11 2400 612 0.48 662 0.56 711 0.65 759 0.74 802 0.83 842 0.91 879 1.00 916 1.09 951 1.19 986 1.29 2640 663 0.63 709 0.71 754 0.80 798 0.90 842 1.00 881 1.10 917 1.19 951 1.29 986 1.39 1018 1.49(b) 2880 715 0.80 758 0.88 799 0.98 840 1.08 880 1.19 920 1.30 955 1.41 9901.51 1022 1.62 1053 1.72 2 -hp Oversized Motor & Drive Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) 1920 963 1.04 997 1.12 1028 1.20 1061 1.28 1090 1.36 1119 1.45 1149 1.54 1177 1.63 1203 1.71 1229 1.80 2160 990 1.21 1023 1.30 1055 1.39 1086 1.48 1115 1.57 1144 1.66 1173 1.76 1200 1.85 1227 1.95 1253 2.04 2400 1019 1.39 1051 1.49 1083 1.60 1113 1.70 1141 1.80 1171 1.90 1199 2.01 1225 2.10 1252 2.20 - - 2640 1050 1.59 1081 1.70 1111 1.81 1141 1.93 1170 2.04 1198 2.15 1226 2.27 - - - - - - 2880 1084 1.83 1114 1.94 1143 2.06 1172 2.18 1199 2.30 - - - - - - - - - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor) RT PRCO23AL-EN 93 Evaporator Fan Performance Table 45. Belt drive evaporator fan performance - 6 tons standard efficiency with gas heat-YSC072F3AW*H high heat horizontal airflow Continued External Static Pressure (Inches of Water) External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 0.10 cfm 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1181 1.71 1211 1.81 1241 1.92�12972.28 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1076 1.51 1 -hp Standard Motor & Drive 1176 1.83 1206 1.94 1238 2.05 1267 2.16- - - - 1920 565 0.31 627 0.39 680 0.46 1 727 0.52 772 0.61 816 0.69 859 0.77 902 0.86 942 0.94 981 1.03 2160 621 0.43 677 0.50 729 0.59 774 0.66 816 0.74 856 0.83 895 0.93 934 1.02 973 1.11 1 1009 1.21(b) 2400 680 0.57 729 0.65 778 0.74 823 0.84 862 0.92 900 1.00 936 1.10 972 1.20 1006 1.31 1041 1.41 2640 741 0.75 782 0.82 828 0.92 872 1.03 911 1.13 947 1.21 981 1.31 F1014 1.41 1048 1.53 1079 1.64 2880 802 0.95 837 1.04 880 1.13 921 1.24 960 1.36 995 1.47 1.56 1060 1.66 1091 1.77 1122 1.89 r28 2 -hp Oversized Motor & Drive Continued Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000. S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor). (c) Field Supplied Fan Sheave AK56 and Belt AX30 required. 94 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor & Drive) 1920 1018 1.12 1054 1.21 1089 1.31 1122 1.40 1154 1.50 1184 1.59 1212 1.69 1241 1.78 1268 1.88 1293 1.97 2160 1045 1.30 1081 1.40 1114 1.50 1149 1.61 1181 1.71 1211 1.81 1241 1.92�12972.28 1298 2.13 1324 2.24 2400 1076 1.51 1110 1.62 1143 1.72 1176 1.83 1206 1.94 1238 2.05 1267 2.16- - - - 2640 1111 1.75 1144 1.87 1174 1.98 1205 2.09 1236 2.21 - - - - - - - - - - 2880 1151 2.02 1180 2.14 1209 2.27 - - - - - - - - - - - - - - 2 -hp Oversized Motor & Drive 2 -hp Oversized Motor & Field Supplied High Static Drive(c) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 3.000 x Fan bhp +.5000. S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK84 and Belt AX36 required. (b) 1 -hp Standard Motor & High Static Drive Kit (or 2 -hp Oversized Motor). (c) Field Supplied Fan Sheave AK56 and Belt AX30 required. 94 RT-PRCO23AL-EN Evaporator Fan Performance Table 46. Belt drive evaporator fan performance - 7'/z tons standard efficiency-TSC090F3,4,W downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 2400 613 0.42 668 0.50 711 0.57 756 0.65 798 0.72 838 0.80 875 0.88 911 0.96 945 1.04 978 1.12 2700 676 0.56 733 0.69 767 0.74 808 0.83 848 0.91 886 1.00 922 1.09 956 1.18 989 1.27 1021 1.36 3000 741 0.75 793 0.89 832 0.98 863 1.04 901 1.14 936 1.24 971 1.33 1003 1.43 1036 1.53 1067 1.63 3300 807 0.98 849 1.10 897 1.26 925 1.32 954 1.40 989 1.51 1022 1.62 1053 1.73 1084 1.83 1113 1.94 3600 874 1.25 909 1.36 957 1.55 990 1.67 1015 1.73 1042 1.82 1074 1.95 1104 2.07 1134 2.18 1163 2.30 3 -hp Oversized Motor & Drive Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive 2400 1011 1.20 1041 1.28 1070 1.36 1099 1.44 1127 1.52 1153 1.60 1178 1.68 1203 .1.76 1229 1.84 1252 1.92 2700 1051 1.45 1082 1.54 1111 1.63 1139 1.72 1166 1.81 1192 1.90 1217 1.98 1243 2.08 1268 2.17 1291 2.25 3000 1096 1.73 1124 1.83 1153 1.93 1180 2.03 1207 2.13 1233 2.23 1258 2.33 1283 2.43 1308 2.53 1331 2.63 3300 1142 2.05 1170 2.16 1197 2.27 1223 2.37 1249 2.48 1275 2.59 1300 2.71 1324 2.82 1347 2.92 1371 3.03 3600 1191 2.41 1218 2.53 1244 2.65 1269 2.77 1294 2.89 1319 3.01 1342 3.12 1366 3.24 1389 3.36 - - 3 -hp Oversized Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 RTPRCO23AL-EN 95 Evaporator Fan Performance Table 47. Belt drive evaporator fan performance - 71/2 tons standard efficiency-TSC090F3,4,W horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 3 -hp Oversized Motor & Drive 1 -hp Standard Motor & Drive 2400 681 0.52 726 0.60 770 0.69 811 0.77F-852 1185 0.85 892 0.94 931 1.02 969 1.11 1007 1.20 1046 1.31 2700 754 0.72 796 0.81 835 0.90 874 0.99 910 1.08 947 1.18 983 1.27 1018 1.37 1052 1.47 1087 1.57 3000 828 0.97 868 1.07 903 1.17 938 1.27 973 1.37 1005 1.47 1039 1.57 1072 1.68 1103 1.78 1135 1.90 3300 904 1.26 940 1.37 974 1.48 1004 1.59 1037 1.71 1069 1.82 1098 1.93 1129 2.04 1159 2.15 1188 2.27 3600 979 1.62 1013 1.74 1045 1.86 1074 1.98 1103 2.10 1133 2.22 1162 2.35 1189 2.46 1217 2.58 1245 2.71 3 -hp Oversized Motor & Drive Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 96 RT-PRCO23AL-EN 1 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive 2400 1083 1.42 1119 1.52 1153 1.63 1185 1.73 1218 1.84 1249 1.95 1278 2.06 1307 2.16 1337 2.28 1364 2.38 2700 1120 1.67 1154 1.79 1188 1.91 1220 2.02 1252 2.14 1283 2.26 1313 2.39 1342 2.51 1370 2.63 1397 2.74 3000 1166 2.00 1197 2.12 1227 2.23 1256 2.34 1288 2.47 1318 2.61 1347 2.73 1377 2.87 1406 3.01 1433 3.14 3300 1217 2.39 1246 2.51 1274 2.63 1302 2.75 1330 2.88 1357 3.00 1384 3.13 1413 3.27 1441 3.42 - - 3600 1272 2.83 2.96 1326 3.09 1352 3.22 1378 3.35 - - - - - - - - - - 11299 3 -hp Oversized Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 96 RT-PRCO23AL-EN Evaporator Fan Performance Table 48. Belt drive evaporator fan performance - 7'/z tons standard efficiency with gas heat-YSC090F3,4,W low & medium gas heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 drn rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 2400 655 0.47 707 0.55 758 0.�10.. 5 0.80 886 0.88 925 0.97 961 1.05 997 1.14 1028 1.22 2700 724 0.64 770 0.73 817 0.0 1.02 '939 1.11 976 1.20 1011 1.30 1045 1.39 1077 1.49 3000 794 0.86 837 0.96 878 1.06 920 1.17 958 1.27 994 1.38 1029 1.48 1063 1.58 1096 1.69 1128 1.79 3300 865 1.12 905 1.23 942 1.34 980 1.45 1018 1.57 1053 1.69 1085 1.80 1117 1.92 1148 2.03 1179 2.14 3600 937 1.43 973 1.55 1008 1.67 1042 1.79 1077 1.91 1112 2.05 1144 2.18 1174 2.30 1203 2.42 1232 2.55 3 -hp Oversized Motor & Drive Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive 2400 1060 1.30 1091 1.39 1120 1.48 1150 1.57 1178 1.65 1204 1.74 1231 1.83 1256 1.91 1281 2.00 1304 2.09 2700 1109 1.58 1139 1.68 1167 1.77 1195 1.86 1223 1.96 1249 2.06 1275 2.16 1301 2.26 1325 2.35 1349 2.45 3000 1158 1.90 1188 2.00 1216 2.11 1244 2.21 1271 2.32 1296 2.42 1321 2.53 1346 2.64 1371 2.75 1393 2.85 3300 1209 2.26 1238 2.37 1265 2.49 1293 2.61 1319 2.72 1344 2.84 1369 2.95 1393 3.07 1416 3.18 1441 3.30 3600 1261 2.67 1289 2.80 1316 2.92 1342 3.04 1368 3.17 1393 3.30 1419 3.43 - - - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 RT PRCO23AL-E N 97 Evaporator Fan Performance Table 49. Belt drive evaporator fan performance - 71/2 tons standard efficiency with gas heat-YSC090F3,4,W low & medium gas heat - horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) I1 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive 2400 739 0.61 783 0.69 825 0.77 1 866 0.85 903 0.93 941 1.02 978 1.11 1013 1.20 1046 1.28 1078 1.37 2700 821 0.85 861 0.94 898 1.03 935 1.12 972 1.21 1005 1.30 1038 1.39 1072 1.49 1104 1.59 1135 1.69 3000 904 1.14 940 1.24 974 1.34 1008 1.44 1042 1.54 1075 1.65 1105 1.74 1135 1.85 1164 1.95 1195 2.06 3300 987 1.49 1020 1.60 1052 1.71 1083 1.82 1113 1.93 1144 2.04 1174 2.16 1203 2.27 1230 2.38 1257 2.49 3600 1071 1.92 1101 2.04 1131 2.15 1160 2.27 1188 2.39 1216 2.51 1244 2.64 1272 2.76 1298 2.88 1323 3.00 3.38 - - - - - - 3 -hp Oversized Motor & Drive - - - - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(b) 3 -hp Oversized Motor & Field Supplied Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 98 RT-PRCO23AL-EN 3 -hp Oversized Motor & Drive 2400 1110 1.46 1140 1.55 1169 1.64 1198 1.73 1225 1.82 1251 1.91 1277 2.01 1301 2.10 1326 2.19 1350 2.28 2700 1165 1.78 1195 1.88 1223 1.98 1251 2.08 1277 2.18 1304 2.29 1330 2.39 1355 2.49 1378 2.59 1402 2.70 3000 1224 2.17 1252 2.28 1279 2.39 1306 2.49 1332 2.60 1358 2.71 1383 2.83 1407 2.94 1430 3.05 1454 3.16 3300 1283 2.61 1311 2.73 1338 2.85 1364 2.97 1389 3.09 1413 3.21 1439 3.33 - - - - - - 3600 1349 3.13 1373 3.25 1398 3.38 - - - - - - - - - - - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 98 RT-PRCO23AL-EN Evaporator Fan Performance Table 50. Belt drive evaporator fan performance - 71/2 tons standard efficiency with gas heat-YSC090F3,4,W high gas heat downflow airflow 3 -hp Oversized Motor & Drive External Static Pressure (Inches of Water) 1074 1.371105 1.46 1136 1.55 1165 1.64 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1238 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 2.17 2400 675 0.51 727 0.60 772 0.68 815 0.76 857 0.85 896 0.93 935 1.02 971 1.11 1006 1.19 1041 1.29 2700 748 0.70793 0.80 837 0.89 877 0.98 915 1.08 952 1.17 988 1.27 1022 1.37 1056 1.47 1089 1.57 3000 821 0.94F862 1.04 903 1.15 941 1.25 976 1.35 1011 1.46 1045 1.57 1077 1.67 1109 1.78 1140 1.89 3300 895 1.23 932 1.34 970 1.46 1007 1.58 1040 1.69 1072 1.79 1104 1.91 1134 2.03 1164 2.15 1194 2.27 3600 969 1.57 1004 1.70 1038 1.82 1073 1.95 1106 2.07 1136 2.19 1166 2.32 1195 2.44 1223 2.57 1251 2.70 3.21 1383 3.34 3 -hp Oversized Motor & Drive - - - Continued - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(b) External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 1.27, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 RT PRCO23AL-EN 99 3 -hp Oversized Motor & Drive 3 -hp Oversized Motor & Drive 2400 1074 1.371105 1.46 1136 1.55 1165 1.64 1194 1.73 1222 1.83 1250 1.92 1275 2.00 1301 2.10 1326 2.18 2700 1121 1.66 1151 1.76 1181 1.86 1211 1.97 1238 2.06 1266 2.17 11292 2.27 1318 2.37 1344 2.47 1369 2.57 3000 1170 2.00 1199 2.11 1229 2.22 1256 2.33 1285 2.44 1311 2.55 1336 2.66 1363 2.77 1388 2.89 1413 3.00 3300 1223 2.39 1251 2.50 1279 2.62 1305 2.74 1333 2.87 1358 2.98 1384 3.11 1408 3.23 1434 3.35 - - 3600 1279 2.83 1305 2.95 1331 3.08 1357 3.21 1383 3.34 - - - - - - - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 1.27, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 RT PRCO23AL-EN 99 Evaporator Fan Performance Table 51. Belt drive evaporator fan performance - 7'/2 tons standard efficiency with gas heat-YSC090F3AW high gas heat horizontal airflow Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3 -hp Oversized Motor & Drive 1 2400 1132 1.58 1161 1.68 1189 1.77 1216 1.86 1242 1.95 1268 2.04 1293 2.13 1318 2.23 1342 2.33 1364 2.42 2700 1194 1.95 1222 2.05 1249 2.16 1276 2.26 1301 2.37 1327 2.48 1350 2.57 1374 2.68 1398 2.78 1421 2.88 3000 1260 2.39 1286 2.50 1312 2.61 1337 2.72 1363 2.84 1387 2.96 1410 3.07 1434 3.19 1457 3.31 - - 3300 1328 2.90 1353 3.02 1378 3.14 1402 3.26 1426 3.39 - - - - - - - - - - 3600 - - - - - - - - - - - - - - - - - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 100 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 2400 776 0.70 819 0.79 859 0.87 898 0.96 936 1.05 972 1.13 1007 1.22 1039 1.31 1071 1.40 1102 1.49 2700 863 0.97 901 1.07 938 1.16 974 1.26 1009 1.36 1043 1.46 1075 1.55 1106 1.65 1136 1.75 1165 1.85 3000 951 1.31 985 1.42 1019 1.52 1052 1.63 1084 1.73 1116 1.84 1146 1.95 1176 2.06 1205 2.17 1232 2.28 3300 1039 1.72 1071 1.84 1102 1.95 1132 2.07 1162 2.18 1191 2.30 1220 2.42 1248 2.54 1275 2.66 1302 2.78 3600 1128 2.21 1157 2.34 1186 2.46 1214 2.59 1242 2.71 1269 2.84 F1296 2.97 1322 3.10 1348 3.23 1373 3.36 3 -hp Oversized Motor & Drive 3 -hp Oversized Motor & Field Supplied High Static Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3 -hp Oversized Motor & Drive 1 2400 1132 1.58 1161 1.68 1189 1.77 1216 1.86 1242 1.95 1268 2.04 1293 2.13 1318 2.23 1342 2.33 1364 2.42 2700 1194 1.95 1222 2.05 1249 2.16 1276 2.26 1301 2.37 1327 2.48 1350 2.57 1374 2.68 1398 2.78 1421 2.88 3000 1260 2.39 1286 2.50 1312 2.61 1337 2.72 1363 2.84 1387 2.96 1410 3.07 1434 3.19 1457 3.31 - - 3300 1328 2.90 1353 3.02 1378 3.14 1402 3.26 1426 3.39 - - - - - - - - - - 3600 - - - - - - - - - - - - - - - - - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74 and Belt AX35 (b) Field Supplied Fan Sheave BK52 and Belt BX30 100 RT-PRCO23AL-EN Evaporator Fan Performance Table 53. Belt drive evaporator fan performance - 71/2 tons standard efficiency-TSC092F3,4,W horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 2400 478 0.36 528 0.43 576 0.52 626 0.62F-68 1 0.75 731 0.88 778 1.02 821 1.15 862 1.29 901 1.43 2700 526 0.49 570 0.57 614 0.66 1 656 0.76 701 0.88 751 1.02 797 1.17 840 1.32 880 1.47 920 1.63 3000 575 0.65 615 0.74 655 0.84 694 0.94 731 1.05 770 1.17 817 1.34 859 1.50 900 1.67 938 1.83 3300 624 0.84 661 0.94 698 1.04 734 1.15 768 1.27802 1.39 838 1.52 878 1.69 919 1.87 957 2.05 3600 675 1.07 709 1.17 742 1.28 776 1.41 809 1.53 840 1.65 871 1.79 903 1.92 939 2.10 977 2.29 3 -hp Oversized Motor & Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3 -hp Oversized Motor & Drive(b) 2400 938 1.57 973 1.71 1007 1.86 1038 1.99 1070 2.14 1101 2.29 1130 2.44 1159 2.59 1187 2.74 1214 2.89 2700 956 1.78 991 1.93 1024 2.08 1057 2.25 1088 2.40 1119 2.56 1149 2.73 1177 2.89 1206 3.06 1233 3.22 3000 975 2.00 1009 2.16 1044 2.34 1075 2.51 1108 2.69 1138 2.86 1167 3.03 1195 3.21 1222 3.38 - - 3300 994 2.24 1028 2.42 1063 2.61 1094 2.79 1126 2.98 1155 3.16 1185 3.35 - - - - - - 3600 1013 2.49 1048 2.69 1081 2.88 1114 3.09 1145 3.29 - - - - - - - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(c) Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 1.69. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a)BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave 102 RT PRCO23AL-EN GT�3" Evaporator Fan Performance Table 54. Belt drive evaporator fan performance - 71/2 tons standard efficiency with gas heat-YSC092F3,4,W low & medium heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor Drive 1 -hp Standard Motor & Drive 2400 - - 500 0.39 549 0.47 594 0.55 636 0.63 674 0.71 709 0.80 742 0.88 772 0.96 800 1.04 2700 493 0.44 533 0.50 584 0.60 626 0.69666 1.60 0.78 704 0.87 739 0.96 772 1.05 802 1.15 830 1.24 3000 536 0.58 575 0.65 620 0.75 661 0.86 698 0.95 734 1.05 769 1.15 802 1.25 832 1.35 861 1.46 3300 580 0.75 620 0.84 653 0.91 696 1.05 732 1.16 766 1.26 799 1.37 831 1.48 862 1.59 891 1.70 3600 625 0.96 665 1.07 693 1.13 730 1.25 768 1.39 800 1.51 832 1.62 861 1.74 891 1.86 920 1.98 3 -hp Oversized Motor & Field Supplied High Static Drive(c) 3 -hp Oversized Motor & Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 3.100 x Fan bhp +.200. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave RT-PRCO23AL-EN 103 1 -hp Standard Motor Drive 3 -hp Oversized Motor & Drive(b) 2400 828 1.12 855 1.20 881 1.29 905 1.37 928 1.45 952 1.53 974 1.61 996 1.69 1017 1.77 1038 1.86 2700 858 1.33 884 1.42 909 1.51 933 1.60 957 1.69 980 1.79 1002 1.88 1024 1.97 1044 2.06 1066 2.15 3000 888 1.56 913 1.66 939 1.77 963 1.87 986 1.97 1008 2.07 1032 2.17 1053 2.27 1073 2.37 1093 2.47 3300 918 1.82 944 1.93 969 2.04 994 2.16 1016 2.26 1039 2.38 1061 2.49 1082 2.60 1103 2.71 1123 2.83 3600 948 2.10 974 2.22 1000 2.35 1024 2.47 1046 2.59 1069 2.72 1091 2.84 1112 2.96 1133 3.08 1152 3.20 3 -hp Oversized Motor & Field Supplied High Static Drive(c) Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 3.100 x Fan bhp +.200. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave RT-PRCO23AL-EN 103 Evaporator Fan Performance Table 55. Belt drive evaporator fan performance - 71/2 tons standard efficiency with gas heat-YSC092F3,4,W low & medium heat horizontal airflow Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) External Static Pressure (Inches of Water) 2400 873 1.31 899 0.10 923 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1074 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 951 1 -hp Standard Motor & Field Supplied Low Static Drivel81 1000 1 -hp Standard Motor & Drive 1023 2.20 2400 527 0.43 573 0.51 61!5__!O..59 2.86 656 0.68 693 0.77 728 0.86 760 0.95 791 1.04 819 1.13 847 1.22 2700 581 0.59 624 0.68 663 0.77 699 0.86 736 0.96 770 1.07 801 1.17 830 1.27 859 1.37 886 1.47 3000 636 0.78 675 0.88 712 0.98 747 1.09 779 1.19 812 1.30 843 1.42 872 1.53 899 1.64 926 1.75 3300 692 1.02 728 1.13 763 1.24 795 1.35 827 1.47 856 1.58 886 1.70 915 1.83 942 1.95 968 2.08 3600 748 1.30 782 1.42 814 1.54 845 1.66 874 1.78 903 1.91 929 2.04 957 2.17 985 2.30 1010 2.44 3 -hp Oversized Motor & Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave 104 RT-PRCO23AL-EN 1 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) 2400 873 1.31 899 1.40 923 1.48 946 1.57 969 1.66 992 1.75 1013 1.84 1034 1.93 1054 2.02 1074 2.11 2700 912 1.57 937 1.67 961 1.77 984 1.87 1007 1.97 1028 2.07 1050 2.17 1071 2.27 1090 2.36 1110 2.47 3000 951 1.86 976 1.97 1000 2.09 1023 2.20 1045 2.31 1067 2.42 1088 2.53 1107 2.64 1128 2.75 1147 2.86 3300 992 2.20 1016 2.32 1040 2.44 1062 2.57 1084 2.68 1105 2.81 1126 2.93 1147 3.06 1166 3.17 1186 3.30 3600 1034 2.57 1057 2.70 1081 2.84 1103 2.98 1124 3.11 1145 3.24 1165 3.37 - - - - - - 3 -hp Oversized Motor & Field Supplied High Static Drive(c) Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave 104 RT-PRCO23AL-EN Evaporator Fan Performance Table 56. Belt drive evaporator fan performance - 71/2 tons standard efficiency with gas heat-YSC092F3,4,W high heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 2400 - - 508 0.40 556 0.48 603 0.56645 0.65 683 0.73 718 0.81 751 0.90 782 0.98 811 1.06 2700 500 0.45 549 0.54 592 0.61 635 0.70 676 0.80 714 0.89 749 0.99 782 1.08 812 1.17 842 1.27 3000 545 0.60 591 0.70 630 0.78 669 0.87 707 0.97 744 1.08 780 1.18 812 1.28 843 1.39 873 1.49 3300 591 0.77 632 0.88 672 0.98 706 1.07 741 1.18 776 1.29 810 1.40 842 1.52 1 874 1.63 903 1.75 3600 637 0.98 675 1.10 713 1.22 747 1.32 778 1.42 810 1.53 843 1.65 874 1.78 904 1.90 933 2.03 3 -hp Oversized Motor & Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 1.27, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave RT-PRCO23AL-EN 105 1 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(e) 2400 839 1.15 866 1.23 891 1.31 916 1.39 941 1.48 963 1.56 986 1.64 1008 1.73 1029 1.81 1050 1.89 2700 869 1.36 895 1.45 921 1.54 946 1.64 969 1.73 992 1.82 1015 1.92 1037 2.01 1058 2.11 1078 2.20 3000 900 1.59 926 1.70 952 1.80 975 1.90 999 2.01 1022 2.11 1044 2.22 1066 2.32 1088 2.43 1108 2.53 3300 930 1.86 957 1.98 983 2.09 1007 2.21 1029 2.31 1053 2.43 1075 2.55 1096 2.66 1117 2.77 1137 2.88 3600 961 2.15 987 2.28 1013 2.41 1037 2.53 1061 2.65 1083 2.78 1105 2.90 1127 3.03 1147 3.15 1168 3.28 3 -hp Oversized Motor & Field Supplied High Static Drive(c) Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 1.27, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave RT-PRCO23AL-EN 105 Evaporator Fan Performance Table 57. Belt drive evaporator fan performance - 71/2 tons standard efficiency with gas heat-YSC092F3AW high heat Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave 106 RT-PRCO23AL-EN horizontal airflow External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 External Static Pressure (Inches of Water) 1.70 1.80 1.90 2.00 cfm rpm bhp 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 rpm bhp 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 917 1 -hp Standard Motor & Field Supplied Low Static Drivem 1.57 1 -hp Standard Motor & Drive 989 1.76 1012 1.85 2400 548 0.47 593 0.56 635 0.64 1 674 0.74 709 0.82 744 0.92 777 1.01 808 1.10 837 1.20 865 1.29 2700 605 0.65 647 0.74 686 0.84 721 0.94 756 1.04 787 1.14 818 1.24 849 1.35 878 1.45 905 1.56 3000 663 0.86 702 0.97 737 1.08 772 1.18 803 1.29 834 1.41 1 864 1.52 891 1.63 919 1.74 946 1.86 3300 722 1.12 757 1.24 791 1.36 823 1.48 853 1.59 882 1.72 911 1.85 938 1.97 964 2.09 988 2.21 3600 782 1.44 814 1.56 846 1.69 875 1.82 905 1.95 933 2.08 959 2.21 985 2.35 1010 2.49 1034 2.62 11127 3 -hp Oversized Motor & Field Supplied High Static Drive(c) 3 -hp Oversized Motor & Drive(b) Continued Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave 106 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) 2400 892 1.38 917 1.48 942 1.57 966 1.66 989 1.76 1012 1.85 1034 1.94 1055 2.04 1076 2.14 1096 2.23 2700 931 1.66 957 1.77 982 1.87 1005 1.98 1027 2.08 1050 2.19 1072 2.29 1093 2.40 1113 2.50 1133 2.61 3000 972 1.98 997 2.10 1021 2.21 1044 2.33 1067 2.45 1089 2.56 1111 2.68 1131 2.80 1152 2.91 1171 3.03 3300 1014 2.34 1038 2.46 1062 2.59 1085 2.72 1107 2.85f1129 2.98 1151 3.11 1171 3.24 1192 3.37 - - 3600 1058 2.75 1081 2.88 1105 3.02 3.16 1149 3.30 1171 3.45 - - - - - - - - 11127 3 -hp Oversized Motor & Field Supplied High Static Drive(c) Notes: 1. For Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp -.3800 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT400A (c) Field Supplied AK56 x 1" Fan Sheave 106 RT-PRCO23AL-EN m Evaporator Fan Performance Table 58. Belt drive evaporator fan performance - 81/2 tons standard efficiency-TSC102F3,4,W downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Field Supplied Low Static Drivem 2720 - - - - 550 0.51 592 0.59 629 0.67 665 0.76 698 0.84 729 0.92 758 1.00 787 1.08 3060 - - 546 0.57 588 0.65 627 0.75 663 0.83 697 0.93 729 1.02 760 1.11789 1.20 817 1.30 3400 548 0.65 589 0.74 628 0.83 664 0.93 698 1.03 731 1.13 763 1.23 792 1.34 820 1.44 847 1.54 3740 594 0.84 633 0.94 668 1.04 703 1.15 735 1.25 766 1.36 796 1.47 825 1.58 853 1.70 880 1.82 4080 640 1.07 678 1.19 711 1.29 743 1.40 774 1.51 804 1.63 832 1.75 860 1.87 887 1.99 912 2.11 2 -hp Standard Motor & Drive Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.S0 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Drive 2720 814 1.16 839 1.23 864 1.31 889 1.39 911 1.47 933 1.54 955 1.62 977 1.70 997 1.78 1017 1.85 3060 844 1.39 869 1.48 893 1.56 918 1.66 940 1.74 962 1.83 985 1.92 1005 2.00 1025 2:09 1045 2.18 3400 874 1.64 900 1.74 924 1.85 947 1.94 970 2.04 992 2.14 1014 2.24 1034 2.34 1055 2.44 1073 2.53 3740 905 1.93 931 2.04 954 2.15 978 2.26 1000 2.37 1022 2.48 1043 2.59 1064 2.70 1084 2.81 1104 2.92 4080 938 2.24 962 2.37 986 2.49 1009 2.62 1031 2.74 1052 2.86 1074 2.98 1094 3.10 1114 3.22 1133 3.34 3 -hp Oversized Motor & Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) _ 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a) BAYLSDR009A required. (b) BAYHSMT097A required. RT-PRCO23AL-EN 107 Evaporator Fan Performance Table 59. Belt drive evaporator fan performance - 81/2 tons standard efficiency-TSC102F3,4,W horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Field Supplied Low Static Drive Accessory Kit(a) 2720 528 0.46 571 0.54 616 0.63 669 0.75 711 0.86 752 0.98 788 1.09 821 1.20 851 1.31 880 1.42 3060 583 0.63 623 0.72 660 0.81 702 0.92 750 1.06 788 1.19 824 1.32 859 1.45 891 1.57 920 1.69 3400 639 0.84 676 0.94 709 1.04 743 1.14 783 1.27 827 1.43 862 1.57 896 1.72 928 1.86 959 2.00 3740 696 1.09 730 1.20 761 1.31 792 1.42 823 1.53 860 1.68 900 1.85 933 2.02 964 2.17 994 2.33 4080 753 1.39 785 1.52 815 1.64 843 1.75 870 1.87 899 2.00 933 2.16 969 2.34 1003 2.53 1032 2.70 2 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) 2720 908 1.53 933 1.64 959 1.75 984 1.87 1007 1.98 1031 2.09 1053 2.20 1075 2.32 1096 2.44 1116 2.55 3060 947 1.81 972 1.93 998 2.06 1023 2.19 1046 2.31 1068 2.43 1092 2.57 1113 2.69 1134 2.82 1155 2.95 3400 986 2.13 1013 2.27 1038 2.41 1062 2.54 1085 2.68 1108 2.82 1130 2.96 1152 3.10 1172 3.24 1192 3.37 3740 1024 2.50 1051 2.65 1078 2.80 1103 2.94 1126 3.09 1148 3.24 1170 3.39 - - - - - - 4080 1061 2.88 1087 3.05 1114 3.22 1140 3.39 - - - - - - - - - - - - Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 1 hp Fan Motor Heat (MBh) = 2.829 x Fan bhp +.4024. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) _ 2.900 x Fan bhp+.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a) BAYLSDR009A required. (b) BAYHSMT097A required. 108 RT PRCO23AL-EN Evaporator Fan Performance Table 60. Belt drive evaporator fan performance - 81/2 tons standard efficiency with gas heat-YSC102F3,4,W*L low heat downflow airflow External Static Pressure (Inches of Water) 2720 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 977 1.70 997 2 -hp Standard Motor & Low Static Drive(a) 1017 1.85 3060 844 2720 - - - - 550 0.51 592 0.59 629 0.67 665 0.76 698 0.84 729 0.92 758 1.00 787 1.08 3060 - - 546 0.57 588 0.65 627 0.75 663 0.83 697 0.93 729 1.02 760 1.11 789 1.20 817 1.30 3400 548 0.65 589 0.74 628 0.83 664 0.93 698 1.03 731 1.13 763 1.23 1 792 1.34 820 1.44 847 1.54 3740 594 0.84 633 0.94 668 1.04 703 1.15 735 1.25 766 1.36 7% 1.47 825 1.58 853 1.70 880 1.82 4080 640 1.07 678 1.19 711 1.29 743 1.40 804 1.63 832 1.75 860 1.87 887 1.99 912 2.11 3740 905 1.93 2 -hp Standard Motor & = Drive 954 2.15 Continued 2.26 1000 2.37 1022 2.48 1043 2.59 1064 2.70 External Static Pressure (Inches of Water) 2.81 1104 2.92 4080 938 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 1.27, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b) BAYHSMT097A RT-PRCO23AL-EN 109 2 -hp Standard Motor & Drive 2720 814 1.16 839 1.23 864 1.31 889 1.39 911 1.47 933 1.54 955 1.62 977 1.70 997 1.78 1017 1.85 3060 844 1.39 869 1.48 893 1.56 918 1.66 940 1.74 962 1.83 985 1.92 1005 2.00 1025 2.09 1045 2.18 3400 874 1.64 900 1.74 924 1.85 947 1.94 970 2.04 992 2.14 1014 2.24 1034 2.34 1055 2.44 1073 2.53 3740 905 1.93 931 2.04 954 2.15 978 2.26 1000 2.37 1022 2.48 1043 2.59 1064 2.70 1084 2.81 1104 2.92 4080 938 2.24 962 2.37 986 2.49 1009 2.62 1031 2.74 1052 2.86 1074 2.98 1094 3.10 1114 3.22 1133 3.34 3 -hp Oversized Motor & Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 1.27, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b) BAYHSMT097A RT-PRCO23AL-EN 109 Evaporator Fan Performance Table 61. Belt drive evaporator fan performance - 81/2 tons standard efficiency with gas heat-YSC102F3,4,W*L low heat 2 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) 2720 914 1.53 941 1.64 966 1.75 991 1.86 1015 1.97 1039 2.08 1061 2.19 1082 2.29 1104 2.41 1125 2.52 3060 954 1.82 981 1.94 1006 2.07 1030 2.19 1054 2.31 1078 2.43 1099 2.55 1121 2.68 1142 2.80 1163 2.92 3400 998 2.19 1023 2.30 1047 2.42 1071 2.55 1095 2.69 1116 2.82 1139 2.96 1160 3.10 1182 3.24 1202 3.37 3740 1043 2.59 1068 2.74 1091 2.88 1114 3.00 1136 3.13 1158 3.26 1180 3.41 - - - - - - 4080 1092 3.06 1114 3.20 1136 3.35 - - - - - - - - - - - - - - Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT097A 110 RT-PRCO23AL-EN horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Low Static Drive(a) 2 -hp Standard Motor & Drive 2720 577 0.55 619 0.64 657 0.73 696 0.82 732 0.92 765 1.02 797 1.12 828 1.21 858 1.31 887 1.42 3060 639 0.75 677 0.85 712 0.95 747 1.06 781 1.16 813 1.27 843 1.38 873 1.50 901 1.61 928 1.71 3400 701 1.00 737 1.12 770 1.23 800 1.34 832 1.46 863 1.57 892 1.69 920 1.81 946 1.94 972 2.07 3740 764 1.31 797 1.44 828 1.56 857 1.68 884 1.81 914 1.93 942 2.06 969 2.19 995 2.32 1019 2.46 4080 827 1.67 859 1.81 888 1.95 915 2.08 941 2.22 966 2.36 992 2.49 1019 2.62 1045 2.77 1069 2.92 3 -hp Oversized Motor & Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) 2720 914 1.53 941 1.64 966 1.75 991 1.86 1015 1.97 1039 2.08 1061 2.19 1082 2.29 1104 2.41 1125 2.52 3060 954 1.82 981 1.94 1006 2.07 1030 2.19 1054 2.31 1078 2.43 1099 2.55 1121 2.68 1142 2.80 1163 2.92 3400 998 2.19 1023 2.30 1047 2.42 1071 2.55 1095 2.69 1116 2.82 1139 2.96 1160 3.10 1182 3.24 1202 3.37 3740 1043 2.59 1068 2.74 1091 2.88 1114 3.00 1136 3.13 1158 3.26 1180 3.41 - - - - - - 4080 1092 3.06 1114 3.20 1136 3.35 - - - - - - - - - - - - - - Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT097A 110 RT-PRCO23AL-EN Evaporator Fan Performance Table 62. Belt drive evaporator fan performance - 81/2 tons with gas heat-YSC102F3,4,W*M medium heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Continued 2 -hp Standard Motor & Low Static Drive(a) 2720 - - 538 0.48 583 0.56 624 0.65 662 0.73 697 0.82 730 0.91 761 1.00 789 1.08 817 1.17 3060 539 0.54 583 0.63 624 0.73 663 0.82 700 0.92 734 1.01 766 1.11 796 1.21 825 1.31 852 1.41 3400 588 0.72 630 0.82 668 0.92 704 1.03 739 1.14 772 1.25 803 1.35 833 1.45 861 1.56 888 1.68 3740 639 0.93 678 1.05 713 1.16 747 1.27 780 1.39 812 1.51 841 1.63 870 1.75 898 1.86 924 1.97 4080 689 1.18 726 1.31 760 1.44 792 1.55 822 1.68 853 1.81 881 1.94 909 2.07 936 2.20 962 2.33 1.98 1016 2.07 1038 2.17 1057 2.26 1078 2 -hp Standard Motor & Drive 3400 3 -hp Oversized Motor & Drive(b) 939 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Drive 2720 843 1.25 869 1.33 894 1.42 917 1.50 940 1.59 962 1.67 984 1.76 1004 1.84 1025 1.92 1044 2.00 3060 878 1.50 904 1.60 928 1.69 951 1.79 974 1.88 995 1.98 1016 2.07 1038 2.17 1057 2.26 1078 2.36 3400 914 1.79 939 1.89 962 2.00 986 2.11 1008 2.21 1030 2.32 1050 2.42 1071 2.53 1092 2.63 1111 2.74 3740 950 2.10 974 2.22 1 998 2.34 1021 2.46 1042 2.57 1064 2.69 1085 2.81 1106 2.93 1125 3.04 1144 3.16 4080 987 2.45 1011 2.58 1034 2.71 1057 2.85 1079 2.98 1099 3.11 1121 3.24 1141 3.37 - - - - 3 -hp Oversized Motor & Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009A (b) BAYLHSMT097A RT-PRCO23AL-E N 111 Evaporator Fan Performance Table 63. Belt drive evaporator fan performance - 8t/z tons with gas heat-YSC102F3,4,W*'M medium heat horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Low Static Drive(a) 2 -hp Standard Motor & Drive 2720 580 0.57 621 0.65 660 0.74 698 0.83 732 0.92 765 1.02 796 1.11 826 1.21 856 1.31 886 1.42 3060 642 0.78 680 0.88 714 0.97 749 1.07 1 783 1.18 814 1.28 843 1.38 872 1.49 900 1.60 927 1.71 3400 705 1.05 740 1.15 773 1.26 803 1.36 835 1.48 865 1.60 894 1.71 920 1.82 946 1.94 972 2.06 3740 768 1.37 801 1.49 832 1.60 860 1.71 888 1.83 916 1.96 945 2.09 971 2.21 996 2.34 1020 2.47 4080 832 1.76 863 1.89 891 2.01 919 2.13 944 2.25969 2.38 996 2.53 1022 2.67 1046 2.80 1070 2.94 3 -hp Oversized Motor & Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) 2720 912 1.53 939 1.64 965 1.75 990 1.87 1014 1.98 1037 2.09 1060 2.21 1082 2.32 1104 2.44 1125 2.55 3060 953 1.82 979 1.94 1004 2.07 1029 2.19 1053 2.31 1076 2.44 1098 2.56 1120 2.69 1141 2.82 1162 2.95 3400 997 2.18 1022 2.30 1046 2.43 1069 2.56 1093 2.70 1114 2.82 1136 2.96 1158 3.10 1180 3.24 1200 3.38 3740 1043 2.60 1067 2.73 1090 2.86 1112 2.99 1135 3.13 1156 3.27 1177 3.42 - - - - - - 4080 1093 3.08 1115 3.22 1136 3.36 - - - - - - - - - - - - - Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are.definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009A (b)BAYLSDR097A 112 RT PRCO23AL-EN Evaporator Fan Performance Table 64. Belt drive evaporator fan performance - 81/2 tons standard efficiency with gas heat-YSC102F3,4,W*H high heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Continued 2 -hp Standard Motor & Low Static Drive(a) 2720 - - 543 0.49 588 0.58 627 0.67 665 0.75 699 0.83 731 0.92 762 1.01 790 1.09 816 1.17 3060 545 0.56 589 0.65 630 0.74 668 0.85 704 0.94 738�1.2 769 1.13 798 1.23 827 1.32 853 1.42 3400 595 0.74 637 0.85 675 0.95 711 1.05 745 1.17 777807 rpm 1.37 837 1.48 864 1.59 891 1.70 3740 646 0.95 685 1.08 721 1.19 754 1301 787 1.42 818 1.55 847 1.67 875 1.78 902 1.89 928 2.01 4080 698 1.21 734 1.35 979 1.48 800 1.60 830 1.72 860 1.85 888 1.99 915 2.13 941 2.25 967 2.37 903 1.61 926 1.70 949 1.80 r68 992 1.99 2 -hp Standard Motor & Drive 2.08 1034 3 -hp Oversized Motor & Drive(b) 2.27 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Drive 2720 842 1.26 867 1.34 891 1.43 914 1.51 936 1.60 957 1.68 979 1.77 999 1.85 1019 1.93 1038 2.02 3060 878 1.51 903 1.61 926 1.70 949 1.80 971 1.89 992 1.99 1013 2.08 1034 2.18 1053 2.27 1073 2.37 3400 916 1.81 939 1.91 963 2.02 985 2.12 1007 2.22 1029 2.33 1049 2.44 1069 2.54 1089 2.65 1108 2.76 3740 953 2.13 977 2.25 1000 2.36 1023 2.48 1044 2.60 1065 2.72 1085 2.83 1105 2.95 1124 3.06 1143 3.18 4080 991 2.49 1015 2.62 1038 2.75 1060 2.88 1082 3.01 1102 3.14 1122 3.26 1142 3.40 - - - - 3 -hp Oversized Motor & Drive(b) Notes: 1. For Standard Evaporator Fan,Speed (rpm), reference 'fable 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 1.72 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009A (b) BAYHSMT097A RT PRCO23AL-EN 113 Evaporator Fan Performance Table 65. Belt drive evaporator fan performance - 81/2 tons standard efficiency with gas heat-YSC102F3,4,W*H high heat horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Low Static Drivem 2 -hp Standard Motor & Drive 2720 573 0.53 629 0.65 675 0.77 710 0.86 744 0.96 776 1.05 806 1.14 835 1.23 863 1.33 892 1.43 3060 631 0.71 683 0.86 729 1.00 766 1.11 797 1.21 827 1.33 856 1.43 884 1.53 911 1.63 936 1.74 3400 688 0.94 738 1.10 781 1.26 822 1.42 852 1.53 880 1.65 907 1.77 934 1.89 960 2.00 985 2.11 3740 747 1.21 793 1.39 835 1.56 873 1.74 909 1.91 936 2.03 962 2.16 986 2.29 1011 2.42 1035 2.55 4080 807 1.53 850 1.73 890 1.92 926 2.11 961 2.30 993 2.49 1018 2.62 1041 2.75 1064 2.89 1087 3.04 3 -hp Oversized Motor & Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2 -hp Standard Motor & Drive 3 -hp Oversized Motor & Drive(b) 2720 919 1.53 946 1.64 971 1.75 995 1.86 1020 1.98 1044 2.10 1065 2.21 1087 2.33 1108 2.44 1130 2.56 3060 961 1.85 987 1.96 1012 2.07 1036 2.19 1060 2.31 1082 2.44 1105 2.57 1126 2.69 1147 2.82 1168 2.95 3400 1009 2.23 1033 2.35 1055 2.47 1077 2.59 1100 2.71 1123 2.84 1145 2.96 1166 3.10 1187 3.24 1207 3.38 3740 1059 2.68 1082 2.80 1104 2.93 1125 3.06 1145 3.19 1166 3.32 1186 3.45 - - - - - - 4080 1109 3.19 1132 3.33 - - - - - - - - - - - - - - - - Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. 2 -hp Fan Motor Heat (MBh) = 2.000 x Fan bhp +.5000. 3 -hp Fan Motor Heat (MBh) = 2.900 x Fan bhp +.4750 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009A (b)BAYHSMT097A 114 RT PRCO23AL-EN FT�3 Evaporator Fan Performance Table 66. Direct drive evaporator fan performance - 10 tons standard efficiency-TSC120F3,4,W downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1028 0.67 1054 0.74 1079 0.81 1105 0.88 1131 0.96 1157 1.04 1184 1.12 1209 1.21 1234 1.30 1258 1.38 3600 1150 0.93 1173 1.01 1196 1.09 1219 1.17 1242 1.25 1265 1.34 1288 1.43 1312 1.52 1335 1.61 1357 1.71 4000 1272 1.25 1294 1.34 1315 1.43 1335 1.52 1356 1.61 1376 1.70 1397 1.80 1418 1.90 1440 2.00 1460 2.09 4400 1395 1.65 1415 1.75 1435 1.84 1453 1.94 1472 2.04 1490 2.14 1509 2.24 1528 2.34 1547 2.45 1566 2.56 4800 1518 2.12 1537 2.23 1555 2.33 1572 2.44 1590 2.54 1606 2.65 1623 2.76 1641 2.87 1657 2.98 1675 3.10 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1280 1.46 1302 1.54 1324 1.63 1347 1.71 1370 1.80 1392 1.89 1414 1.99 1436 2.09 1458 2.19 1479 2.28 3600 1379 1.80 1401 1.90 1422 2.00 1441 2.09 1461 2.18 1480 2.27 1501 2.36 1521 2.46 1542 2.57 1561 2.67 4000 1481 2.20 1501 2.30 1522 2.41 1542 2.52 1561 2.63 1579 2.73 1597 2.84 1614 2.94 1631 3.04 1649 3.14 4400 1585 2.67 1604 2.78 1623 2.89 1642 3.01 1660 3.12 1679 3.25 1696 3.36 - - - - - - 4800 1693 3.22 - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Evaporator Fan Speed (rpm), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. RT PRCO23AL-EN 115 Evaporator Fan Performance Table 67. Direct drive evaporator fan performance - 10 tons standard efficiency-TSC120F3,4,W horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1016 0.65 1044 0.72 1070 0.79 1097 0.87 1123 0.95 1148 1.03 1173 1.10 1197 1.18 1221 1.26 1245 1.34 3600 1137 0.91 1162 0.99 1185 1.07 1209 1.15 1232 1.24 1256 1.32 1279 1.41 1301 1.49 1323 1.58 1344 1.66 4000 1258 1.22 1280 1.31 1302 1.40 1323 1.49 1344 1.58 1366 1.68 1387 1.78 1408 1.87 1428 1.97 1448 2.06 4400 1379 1.60 1400 1.70 1420 1.80 1439 1.90 1459 2.00 1478 2.10 1497 2.21 1517 2.32 1535 2.42 1554 2.52 4800 1501 2.06 1520 2.17 1538 2.28 1557 2.38 1575 2.49 1592 2.60 1609 2.71 1627 2.83 1646 2.94 1663 3.06 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1269 1.43 1293 1.52 1317 1.61 1339 1.70 1361 1.78 1383 1.87 1404 1.96 1425 2.05 1447 2.14 1468 2.24 3600 1366 1.75 1386 1.84 1408 1.94 1429 2.04 1451 2.15 1472 2.25 1492 2.35 1513 2.45 1532 2.54 1551 003 4000 1467 2.15 1487 2.25 1506 2.34 1525 2.44 1544 2.55 1563 2.65 1582 2.76 1602 2.89 1620 3.00 1639 3.12 4400 1573 2.63 1591 2.73 1609 2.84 1626 2.94 1643 3.04 1661 3.15 1679 3.26 1696 3.37 - - - - 4800 1681 3.18 1698 3.29 - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Evaporator Fan Speed (rpm), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. 116 RT-PRCO23AL-EN m RT-PRCO23AL-EN 117 Evaporator Fan Performance Table 68. Direct drive evaporator fan performance - 10 tons standard efficiency with gas heat-YSC120F3,4,W*L,M low & medium heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1055 0.73 1081 0.81 1105 0.88 1128 0.94 1152 1.01 1177 1.09 1202 1.17 1225 1.25 1249 1.33 1273 1.42 3600 1181 1.02 1204 1.10 1226 1.19 1248 1.27 1268 1.34 1289 1.42 1311 1.50 1333 1.59 1355 1.68 1376 1.77 4000 1307 1.38 1328 1.47 1348 1.56 1368 1.65 1388 1.74 1406 1.82 1425 1.91 1444 2.00 1464 2.10 1483 2.20 4400 1433 1.82 1453 1.92 1472 2.02 1490 2.12 1508 2.22 1525 2.32 1542 2.40 1559 2.49 1577 2.59 1594 2.69 4800 1560 2.34 1578 2.45 1595 2.56 1613 2.67 1629 2.77 1646 2.89 1662 2.99 1677 3.09 1692 3.18 - - Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1296 1.51 1319 1.61 1343 1.70 1366 1.81 1390 1.91 1415 2.02 1438 2.11 1461 2.21 1484 2.31 1506 2.41 3600 1397 1.86 1418 1.95 1439 2.05 1460 2.16 1480 2.27 1501 2.38 1522 2.49 1543 2.61 1564 2.72 1585 2.83 4000 1503 2.30 1522 2.39 1542 2.49 1561 2.60 1579 2.70 1598 2.81 1616 2.93 1635 3.05 1654 3.17 1673 3.29 4400 1612 2.80 1630 2.91 1647 3.02 1665 3.13 1683 3.24 1700 3.34 - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Evaporator Fan Speed (rpm), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT-PRCO23AL-EN 117 :mss Evaporator Fan Performance Table 69. Direct drive evaporator fan performance - 10 tons standard efficiency with gas heat-YSC120F3,4,W*L,fVI low 4400 1615 2.81 1633 2.91 1650 3.02 1667 3.14 1685 3.26 1700 3.38 - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Evaporator Fan Speed (rpm), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 118 RT-PRCO23AL-EN & medium heat horizontal airflow External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 External Static Pressure (Inches of Water) 1.90 2.00 - cfm rpm bhp rpm bhp 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1043 0.70 1072 0.78 1099 0.85 1128 0.94 1154 1.02 1179 1.10 1203 1.17 1227 1.26 1250 1.35 1274 1.44 3600 1166 0.98 1192 1.06 1217 1.14 1241 1.23 1267 1.33 1291 1.42 1314 1.51 1335 1.59 1356 1.68 1378 1.78 4000 1290 1.32 1314 1.41 1337 1.50 1359 1.60 1381 1.69 1404 1.80 1426 1.91 1447 2.01 1467 2.10 1486 2.20 4400 1415 1.73 1436 1.83 1458 1.94 1478 2.04 1498 2.14 1518 2.25 1539 2.37 1560 2.49 1579 2.60 1597 2.70 4800 1540 2.23 1560 2.34 1579 2.45 1598 2.56 1617 2.67 1635 2.79 1653 2.90 1672 3.03 1692 3.16 - - Continued 4400 1615 2.81 1633 2.91 1650 3.02 1667 3.14 1685 3.26 1700 3.38 - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Evaporator Fan Speed (rpm), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 118 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 - cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1298 1.53 1323 1.63 1347 1.72 1370 1.82 1394 1.92 1416 2.02 1437 2.12 1459 2.22 1482 2.33 1503 2.43 3600 1398 1.88 1419 1.98 1440 2.08 1462 2.19 1484 2.30 1505 2.40 1527 2.52 1547 2.62 1568 2.74 1587 2.84 4000 1505 2.30 1524 2.41 1542 2.51 1562 2.63 1581 2.74 1600 2.85 1619 2.97 1639 3.09 1658 3.20 1677 3.32 4400 1615 2.81 1633 2.91 1650 3.02 1667 3.14 1685 3.26 1700 3.38 - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Evaporator Fan Speed (rpm), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 118 RT-PRCO23AL-EN RT-PRCO23AL--EN 119 Evaporator Fan Performance Table 70. Direct drive evaporator fan performance -10 tons with standard efficiency gas heat-YSC1 20F3AW* H high heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1055 0.70 1082 0.79 1109 0.87 1132 0.93 1156 1.01 1180 1.09 1205 1.17 1228 1.25 1252 1.33 1275 1.41 3600 1180 0.98 1205 1.07 1229 1.16 1252 1.25 1272 1.33 1293 1.40 1315 1.49 1337 1.59 1358 1.68 1379 1.77 4000 1305 1.32 1328 1.42 1350 1.52 1372 1.63 1392 1.73 1410 1.80 1429 1.89 1448 1.99 1468 2.09 1488 2.19 4400 1432 1.73 1452 1.84 1473 1.96 1493 2.07 1512 2.19 1530 2.29 1547 2.38 1564 2.47 1581 2.57 1599 2.68 4800 1558 2.22 1577 2.34 1596 2.47 1615 2.59 1633 2.72 1650 2.84 1667 2.96 1683 3.06 1698 3.15 - - Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1298 1.49 1322 1.59 1348 1.69 1374 1.81 1398 1.91 1421 2.00 1443 2.10 1465 2.20 1488 2.30 1511 2.41 3600 1400 1.86 1421 1.95 1441 2.04 1462 2.14 1483 2.24 1507 2.36 1530 2.48 1552 2.61 1574 2.72 1594 2.83 4000 1507 2.29 1526 2.39 1544 2.49 1563 2.59 1582 2.69 1601 2.79 1619 2.90 1639 3.01 1657 3.13 1678 3.26 4400 1617 2.79 1635 2.91 1652 3.02 1669 3.13 1687 3.23 - - - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Evaporator Fan Speed (rpm), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT-PRCO23AL--EN 119 Evaporator Fan Performance Table 71. Direct drive evaporator fan performance -10 tons standard efficiency with gas heat-YSC120F3,4,W*H high heat horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1054 0.72 1084 0.79 1112 0.86 1141 0.95 1168 1.04 1193 1.12 1218 1.20 1242 1.28 1266 1.38 1289 1.48 3600 1179 1.00 1205 1.08 1231 1.16 1256 1.24 1282 1.35 1306 1.45 1329 1.54 1352 1.63 1374 1.72 1395 1.82 4000 1304 1.35 1328 1.44 1352 1.53 1375 1.62 1397 1.71 1420 1.83 1442 1.94 1463 2.04 1484 2.14 1504 2.24 4400 1429 1.78 1452 1.88 1474 1.98 1495 2.07 1515 2.17 1536 2.27 1556 2.40 1577 2.53 1597 2.64 1616 2.75 4800 1555 2.29 1576 2.40 1596 2.51 1616 2.61 1635 2.72 1654 2.82 1673 2.93 1692 3.07 - - - - Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1314 1.57 1338 1.65 1362 1.74 1385 1.84 1407 1.93 1430 2.02 1453 2.12 1477 2.22 1498 2.32 1521 2.44 3600 1416 1.92 1436 2.03 1458 2.14 1480 2.24 1501 2.33 1522 2.43 1543 2.54 1563 2.64 1583 2.74 1604 2.85 4000 1524 2.35 1543 2.46 1562 2.56 1581 2.68 1600 2.80 1619 2.93 1638 3.04 1658 3.15 1677 3.26 1695 3.37 4400 1635 2.87 1653 2.97 1671 3.09 1689 3.21 - - - - - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Evaporator Fan Speed (rpm), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 127, p. 172 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 120 RT-PRCO23AL-EN Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 5. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 600, 720, and 840 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 121 1 -hp Standard Motor & Drive 600* 934 0.41 968 0.45 Evaporator Fan Performance Table 72. Belt drive evaporator fan performance - 3 tons high efficiency-THC036E3,E4 downflow airflow 1034 0.54 1066 0.59 720* 965 0.46 999 External Static Pressure (Inches of Water) 0.56 1065 0.61 1095 0.66 0.10 0.20 0.30 0.40 0.50 0.60 0.63 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 0.72 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1146 0.84 1 -hp Standard Motor & Drive 1200 1058 0.72 600* - - 468 0.07 547 0.1 616 0.13 677 0.17 729 0.21 776 0.24 819 0.28 860 0.32 898 0.36 720* 386 0.05 490 0.08 570 0.12 638 0.16 697 0.12 752 0.24 802 0.28 848 0.33 889 0.37 928 0.42 840* 416 0.06 511 0.10 593 0.14 661 0.19 719 0.23 773 0.28 823 0.32 870 0.37 914 0.42 954 0.47 960 449 0.08 534 0.12 614 0.17 683 0.22 742 0.27 795 0.32 845 0.37 891 0.42 935 0.47 977 0.53 1080 483 0.11 561 0.15 635 0.20 704 0.25 765 0.30 818 0.36 868 0.42 913 0.47 957 0.53 998 0.59 1200 518 0.14 592 0.18 658 0.23 725 0.29 786 0.35 842 0.41 891 0.47 936 0.53 979 0.59 1019 0.66 1320 555 0.17 625 0.22 686 0.27 747 0.33 807 0.39 862 0.46 914 0.53 959 0.59 1002 0.66 1043 0.73 1440 592 0.21 658 0.27 717 0.32 772 0.38 828 0.44 882 0.51 933 0.58 980 0.66 1025 0.73 1065 0.80 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 5. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 600, 720, and 840 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 121 1 -hp Standard Motor & Drive 600* 934 0.41 968 0.45 1001 0.49 1034 0.54 1066 0.59 720* 965 0.46 999 0.51 1032 0.56 1065 0.61 1095 0.66 840* 992 0.53 1029 0.58 1063 0.63 1096 0.68 1125 0.74 960 1016 0.59 1054 0.65 1089 0.70 1124 0.76 1155 0.82 1080 1036 0.65 1075 0.72 1111 0.78 1146 0.84 1180 0.91 1200 1058 0.72 1095 0.78 1131 0.85 1167 0.92 1201 0.99 1320 1082 0.80 1119 0.87 1153 0.94 1188 1.01 1221 1.08 1440 1104 0.88 1141 0.95 1176 1.03 1211 1.10 1243 1.18 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 5. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 600, 720, and 840 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 121 Evaporator Fan Performance Table 73. Belt drive evaporator fan performance - 3 tons high efficiency-THC036E3,E4 horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1 -hp Standard Motor & Drive 600* 372 0.04 472 0.06 552 0.09 619 0.12 678 0.15 730 0.18 778 0.22 823 0.25 865 0.29 904 0.32 720* 398 0.05 496 0.08 575 0.11 643 0.15 702 0.18 756 0.22 805 0.26 849 0.29 892 0.33 931 0.37 840* 422 0.06 524 0.10 598 0.13 665 0.17 726 0.22 780 0.26 829 0.30 875 0.34 918 0.39 957 0.43 960 449 0.08 552 0.12 626 0.16 689 0.20 748 0.25 802 0.30 852 0.35 898 0.39 942 0.44 982 0.49 1080 482 0.10 576 0.14 654 0.19 716 0.24 F772 0.29 825 0.34 874 0.39 921 0.45 964 0.50 1005 0.55 1200 517 0.13 600 0.17 681 0.23 744 0.28 1 799 0.33 850 0.39 898 0.44 943 0.50 987 0.56 1028 0.62 1320 554 0.16 627 0.20 705 0.27 773 0.33 828 0.38 877 0.44 923 0.50 967 0.56 1010 0.62 1052 0.69 1440 590 0.20 657 0.24 7. 0.30 797 0.37 855 0.44 904 0.50 950 .0.56 993 0.63 1034 0.69 1074 0.76 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 600* 941 0.36 977 0.4 1010 0.44 1042 0.48 1074 0.53 720* 969 0.41 1005 0.45 1040 0.5 1073 0.54 1105 0.5 840* 995 0.47 1031 0.52 1066 0.56 1100 0.61 1131 0.66 960 1020 0.54 1057 0.59 1092 0.64 1126 0.69 1158 0.74 1080 1045 0.61F11500.90 16 0.72 1151 0.77 1183 0.83 1200 1067 0.6841 0.80 1174 0.86 1207 0.92 1320 1091 0.7563 0.88 1198 0.95 1230 1.02 1440 1112 0.8386 0.97 1221 1.04 1254 1.11 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 600, 720, and 840 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton (a) BAYLSDR006AB (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. 122 RT-PRCO23AL-EN Evaporator Fan Performance Table 74. Belt drive evaporator fan performance - 3 tons high efficiency-YHC036E3,E4,EW*L,M low & medium gas heat 1 -hp Standard Motor & Drive(b) downflow airflow 960 1004 0.50 1039 0.55 1073 0.59 1105 0.64 1137 0.69 1080 External Static Pressure (Inches of.Water) 0.56 1063 0.61 1098 0.66 1132 0.72 1163 0.77 1200 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 0.94 1 -hp Standard Motor & Field Supplied Low Static Drive(a) - 1 -hp Standard Motor & Drive 1 -hp Standard Motor & Field Supplied High Static Drive(b) 960 - - - - 605 0.15 671 0.19 730 0.23 784 0.27 835 0.31 881 0.36 924 0.41 965 0.45 1080 - - 563 0.14 630 0.17 693 0.22 751 0.26 804 0.31 854 0.35 901 0.40 946 0.46 986 0.50 1200 - - 596 0.17 659 0.21 718 0.25 773 0.30 825 0.35 875 0.40 921 0.45 964 0.51 1005 0.56 1320 555 0.16 629 0.20 689 0.25 745 0.29 797 0.34 848 0.40 897 0.45 941 0.51 984 0.56 1026 0.62 1440 593 0.20 663 0.25 721 0.29 775 0.34 824 0.39 873 0.45 919 0.51 963 0.57 1006 0.63 1046 0.69 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 5. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK71x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 123 1 -hp Standard Motor & Drive(b) 960 1004 0.50 1039 0.55 1073 0.59 1105 0.64 1137 0.69 1080 1025 0.56 1063 0.61 1098 0.66 1132 0.72 1163 0.77 1200 1046 0.62 1082 0.67 1119 0.73 1153 0.79 1187 0.85 1320 1064 0.68 1103 0.74 1139 0.80 1174 0.86 1207 0.93 1440 1085 0.75 1123 0.81 1159 0.88 1193 0.94 - - 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 5. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK71x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 123 Evaporator Fan Performance Table 75. Belt drive evaporator fan performance - 3 tons high efficiency-YHC036E3,E4,EW*L,M low & medium gas heat Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK71x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. 124 RT-PRCO23AL-EN horizontal airflow 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 960 1014 0.53 1051 0.58 1087 0.63 1121 0.68 1155 0.74 External Static Pressure (Inches of Water) 1142 0.75 1177 0.81 1200 1049 0.63 1087 0.69 1124 0.75 1161 0.82 1195 0.88 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 960 - - - - 613 0.15 679 0.20 736 0.24 788 0.28 837 0.32 886 0.37 930 0.42 973 0.47 1080 - - 561 0.14 636 0.18 702 0.23 761 0.28 812 0.32 860 0.37 904 0.42 947 0.47 991 0.52 1200 - - 589 0.16 661 0.21 726 0.26 784 0.31 836 0.37 884 0.42 929 0.47 970 0.52 1011 0.58 1320 - - 619 0.20 687 0.25 750 0.30 807 0.36 859 0.41 909 0.47 953 0.53 995 0.59 1034 0.65 1440 585 0.19 651 0.24 715 0.29 775 0.35 831 0.40 883 0.47 931 0.53 976 0.59 1019 0.66 1058 0.72 Continued Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK71x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. 124 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 960 1014 0.53 1051 0.58 1087 0.63 1121 0.68 1155 0.74 1080 1031 0.58 1071 0.64 1108 0.69 1142 0.75 1177 0.81 1200 1049 0.63 1087 0.69 1124 0.75 1161 0.82 1195 0.88 1320 1071 0.70 1107 0.76 1143 0.82 1178 0.89 1213 0.96 1440 1095 0.78 1130 0.84 1166 0.91 1199 0.97 - - 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK71x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. 124 RT-PRCO23AL-EN Evaporator Fan Performance Table 76. Belt drive evaporator fan performance - 3 tons high efficiency-YHC036E3,E4,EW*H high gas heat downflow Continued airflow External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 ' 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 960 1004 0.52 1041 0.58 1076 0.63 1109 0.68 ii 1142 0.73 1080 1026 0.58 1063 0.64 1098 0.69 1133 0.75 1165 0.81 1200 1046 0.64 1083 0.70 External Static Pressure (Inches of Water) 1320 1065 0.71 1103 0.77 1139 0.83 1175 0.90 1207 0.96 1440 1086 0.78 1123 0.84 1160 0.91 1194 0.98 1227 1.05 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 960 - - - - 609 0.15 671 0.19 730 0.24 785 0.28 835 0.33 881 0.37 924 0.42 966 0.47 1080 - - 572 0.14 638 0.18 697 0.23 752 0.27 805 0.32 855 0.37 900 0.42 945 0.47 986 0.53 1200 - - 606 0.18 668 0.22 725 0.26 778 0.31 827 0.36 876 0.42 922 0.47 964 0.52 1007 0.58 1320 573 0.17 641 0.22 700 0.26 754 0.31 805 0.36 853 0.41 898 0.47 942 0.53 985 0.59 1026 0.65 1440 613 0.21 677 0.27 733 0.31 786 0.36 835 0.42 881 0.47 925 0.53 966 0.59 1007 0.65 1047 0.71 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 ' 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 960 1004 0.52 1041 0.58 1076 0.63 1109 0.68 ii 1142 0.73 1080 1026 0.58 1063 0.64 1098 0.69 1133 0.75 1165 0.81 1200 1046 0.64 1083 0.70 1120 0.76 1154 0.82 1187 0.88 1320 1065 0.71 1103 0.77 1139 0.83 1175 0.90 1207 0.96 1440 1086 0.78 1123 0.84 1160 0.91 1194 0.98 1227 1.05 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 5. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK710/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. RT PRCO23AL-EN 125 Evaporator Fan Performance Table 77. Belt drive evaporator fan performance - 3 tons high efficiency-YHC036E3,E4,EW*H high gas heat horizontal 1 -hp Standard Motor & Drive 960 1012 0.52 1048 0.57 1082 0.62 1116 0.67 1148 0.72 1080 1039 0.59 1075 0.64 11090.69 1142 0.74 1173 0.80 1200 1063 0.65 1100 0.71 1134 0.77 1168 0.83 1199 0.88 1320 1085 0.72 1122 0.78 1159 0.85 1193 0.91 1226 0.98 1440 1107 0.79 1145 0.86 1181 0.93 1216 1.00 1248 1.07 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 5. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK710/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 126 RT-PRCO23AL-EN airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 960 - - - - 621 0.15 685 0.20 745 0.24 799 0.29 849 0.33 894 0.38 936 0.42 975 0.47 1080 - - 580 0.14 649 0.19 711 0.23 768 0.28 821 0.32 871 0.38 917 0.43 960 0.48 1000 0.53 1200 - - 613 0.18 679 0.22 738 0.27 793 0.32 845 0.37 892 0.42 939 0.48 982 0.53 1024 0.59 1320 574 0.17 647 0.22 710 0.26 767 0.31 820 0.37 870 0.42 917 0.48 962 0.53 1004 0.59 1046 0.66 1440 612 0.21 682 0.26 742 0.31 797 0.37 849 0.42 897 0.48 943 0.54 986 0.60 1028 0.66 1068 0.72 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 960 1012 0.52 1048 0.57 1082 0.62 1116 0.67 1148 0.72 1080 1039 0.59 1075 0.64 11090.69 1142 0.74 1173 0.80 1200 1063 0.65 1100 0.71 1134 0.77 1168 0.83 1199 0.88 1320 1085 0.72 1122 0.78 1159 0.85 1193 0.91 1226 0.98 1440 1107 0.79 1145 0.86 1181 0.93 1216 1.00 1248 1.07 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 5. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK710/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 126 RT-PRCO23AL-EN Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 5. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 800, 960, and 1120 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary RT-PRCO23AL-EN 127 Evaporator Fan Performance Table 78. Belt drive evaporator fan performance - 4 tons high efficiency-THC048E3,E4,EW, F3, F4, FW downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1 -hp Standard Motor & Drive 800* - - 444 0.06 526 0.09 598 0.13 663 0.16 720 0.20 772 0.24 820 0.28 863 0.32 905 0.36 960* - - 462 0.08 542 0.12 610 0.15 672 0.19 731 0.23 785 0.27 835 0.32 881 0.36 923 0.41 1120* 399 0.07 485 0.11 559 0.14 626 0.18 687 0.22 743 0.26 795 0.31 846 0.36 893 0.41 937 0.46 1280 429 0.10 510 0.14 581 0.17 644 0.21 703 0.26 757 0.30 809 0.35 857 0.40 903 0.45 947 0.51 1440 459 0.12 537 0.17 604 0.21 665 0.26 722 0.30 774 0.35 823 0.40 871 0.45 916 0.51 959 0.56 1600 492 0.16 567 0.21 630 0.26 689 0.31 742 0.36 793 0.41 842 0.46 887 0.51 932 0.57 974 0.63 1760 526 0.20 597 0.26 658 0.31 713 0.36 765 0.42 814 0.47 860 0.53 905 0.58 947 0.64 989 0.70 1920 561 0.25 627 0.31 687 0.37 739 0.43 790 0.49 838 0.55 882 0.60 924 0.66 966 0.72 1006 0.79 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 800* 942 0.40 980 0.44 1015 0.48 1047 0.53 1079 0.569 960* 964 0.46 1002 0.50 1038 0.55 1072 0.60 1105 0.65 1120* 979 0.51 1019 0.56 1055 0.62 1091 0.67 1125 0.725 1280 990 0.56 1031 0.62 1069 0.68 1105 0.74 1140 0.80 1440 999 0.62 1040 0.68 1079 0.75 1115 0.81 1152 0.87 1600 1014 0.69 1051 0.75 1089 0.82 1125 0.88 1162 0.95 1760 1028 0.77 1066 0.83 1104 0.90 1139 0.96 1175 1.04 1920 1044 0.85 1083 0.92 1118 0.99 1155 1.06 1188 1.13 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 5. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 800, 960, and 1120 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary RT-PRCO23AL-EN 127 Evaporator Fan Performance Table 79. Belt drive evaporator fan performance - 4 tons high efficiency-THC048E3,E4,EW, F3, F4, FW horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 800* 950 0.46 986 0.51 1024 0.56 1057 0.602 1090 0.65 960* 972 0.53 1009 0.58 1045 0.64 1080 0.692 1111 0.74 1120* 994 0.61 10310.67 1067 0.73 1101 0.786 1134 0.85 1280 1023 0.70 1057 0.76 1090 0.82 1123 0.89 1157 0.95 1440 1057 0.80 1091 0.86 1123 0.93 1155 1.00 1184 1.07 1600 1087 0.90 1123 0.97 1156 1.05 1187 1.12 1217 1.20 1760 1113 1.00 1150 1.08 1184 1.17 1219 1.25 1250 1.34 1920 1135 1.10 1174 1.19 1210 1.29 1244 1.38 1278 1.47 1 -hp Standard Motor & Field Supplied High Static Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 5. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 800, 960, and 1120 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 128 RT-PRCO23AL-EN 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1 -hp Standard Motor & Drive 800* 368 0.05 481 0.08 562 0.12 623 0.16 677 0.20 730 0.24 780 0.28 825 0.32 870 0.37 911 0.41 960* 392 0.06 501 0.10 587 0.15 655 0.20 711 0.24 759 0.29 804 0.33 848 0.38 891.1 0.43 932 0.48 1120* 420 0.08 519 0.13 607 0.18 679 0.23 740 0.29 792 0.34 837 0.39 879 0.45 918 0.50 955 0.55 1280 449 0.11 541 0.16 625 0.21 700 0.27 764 0.33 819 0.40 868 0.46 912 0.52 951 0.58 989 0.64 1440 482 0.14 567 0.19 644 0.25 718 0.32 783 0.38 841 0.45 892 0.52 939 0.59 982 0.66 1022 0.73 1600 518 0.18 596 0.24 668 0.30 736 0.36 801 0.44 861 0.51 915 0.59 963 0.67 1007 0.74 1048 0.82 1760 555 0.23 625 0.29 694 0.35 757 0.42 820 0.50 879 0.58 933 0.66 984 0.74 1030 0.83 1072 0.91 1920 593 0.28 657 0.35 723 0.42 783 0.49 840 0.57 897 0.65 951 0.74 1001 0.83 1049 0.92 1093 1.01 1 -hp Standard Motor & Field Supplied High Static Drive(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 800* 950 0.46 986 0.51 1024 0.56 1057 0.602 1090 0.65 960* 972 0.53 1009 0.58 1045 0.64 1080 0.692 1111 0.74 1120* 994 0.61 10310.67 1067 0.73 1101 0.786 1134 0.85 1280 1023 0.70 1057 0.76 1090 0.82 1123 0.89 1157 0.95 1440 1057 0.80 1091 0.86 1123 0.93 1155 1.00 1184 1.07 1600 1087 0.90 1123 0.97 1156 1.05 1187 1.12 1217 1.20 1760 1113 1.00 1150 1.08 1184 1.17 1219 1.25 1250 1.34 1920 1135 1.10 1174 1.19 1210 1.29 1244 1.38 1278 1.47 1 -hp Standard Motor & Field Supplied High Static Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 5. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 800, 960, and 1120 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 128 RT-PRCO23AL-EN Evaporator Fan Performance Table 80. Belt drive evaporator fan performance - 4 tons high efficiency-YHC048E3,E4,EW,F3,F4,FW*L,M low & medium 1 -hp Standard Motor & Drive 1280 993 0.58 1032 0.64 1070 0.70 1107 0.76 1143 0.82 1440 1003 0.65 1043 0.71 1082 0.77 1118 0.84 1154 0.90 1600 1017 0.72 1054 0.78 1092 0.85 1129 0.92 1165 0.98 1760 1036 0.81 1073 0.88 1108 0.94 1142 1.01 1177 1.08 1920 1056 0.91 1092 0.98 1127 1.04 1160 1.11 1193 1.19 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 129 gas heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 1280 - - - - 589 0.18 652 0.23 710 0.27 763 0.32 812 0.37 858 0.42 905 0.47 949 0.53 1440 - - 546 0.18 614 0.22 675 0.27 731 0.32 782 0.37 830 0.42 876 0,48 919 0.53 961 0.59 1600 - - 575 0.22 641 0.27 699 0.32 752 0.37 803 0.43 851 0.49 895 0.54 938 0.60 978 0.66 1760 538 0.21 606 0.27 668 0.32 725 0.38 776 0.44 826 0.50 872 0.56 916 0.62 958 0.68 997 0.75 1920 574 0.27 638 0.32 696 0.38 752 0.45 802 0.51 850 0.57 895 0.63 938 0.70 978 0.77 1018 0.84 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1280 993 0.58 1032 0.64 1070 0.70 1107 0.76 1143 0.82 1440 1003 0.65 1043 0.71 1082 0.77 1118 0.84 1154 0.90 1600 1017 0.72 1054 0.78 1092 0.85 1129 0.92 1165 0.98 1760 1036 0.81 1073 0.88 1108 0.94 1142 1.01 1177 1.08 1920 1056 0.91 1092 0.98 1127 1.04 1160 1.11 1193 1.19 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 129 Evaporator Fan Performance External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm Table 81. Belt drive evaporator fan performance - 4 tons high efficiency-YHC048E3,E4,EW,F3,F4,FW*L,M low & medium gas heat horizontal airflow rpm bhp 1 -hp Standard Motor & Drive 1280 1012 0.65 1052 0.72 1090 0.78 External Static Pressure (Inches of Water) 1440 1032 0.73 1070 0.80 1107 0.87 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drivem 1 -hp Standard Motor & Field Supplied 1 -hp Standard Motor & Drive 1280 - - 554 0.16 622 0.21 685 0.26 741 0.31 794 0.36 842 0.42 888 0.47 931 0.53 973 0.59 1440 - - 590 0.21 652 0.26 712 0.31 767 0.36 818 0.42 866 0.48 911 0.54 953 0.60 995 0.67 1600 561 0.21 628 0.26 686 0.32 741 0.37 794 0.43 844 0.49 890 0.55 935 0.62 976 0.68 1017 0.75 1760 602 0.27 667 0.33 722 0.38 773 0.44 822 0.50 871 0.57 917 0.63 960 0.70 1001 0.77 1040 0.84 1920 644 0.33 706 0.40E-760 0.46 809 0.52 855 0.59 900 0.66 944 0.73 987 0.80 1027 0.871066 0.95,h) Continued Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 130 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1280 1012 0.65 1052 0.72 1090 0.78 1127 0.84 1162 0.91 1440 1032 0.73 1070 0.80 1107 0.87 1142 0.94 1175 1.01 1600 1055 0.82 1093 0.89 1128 0.96 1162 1.03 1195 1.11 1760 1078 0.91 1114 0.99 1150 1.06 1183 1.14 1217 1.22 1920 1103 1.02 1139 1.10 1174 1.18 1207 1.26 1239 1.34 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 130 RT-PRCO23AL-EN m Evaporator Fan Performance Table 82. Belt drive evaporator fan performance - 4 tons high efficiency-YHC048E3,E4,F3,EW,F4,FW*H high gas heat External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1280 1003 0.60 1045 0.66 1083 0.71 1121 0.77 1156 0.83 1440 1013 0.66 1054 0.73 1094 0.79 1132 0.86 1168 0.92 1600 1029 0.74 1069 0.81 1106 0.87 1142 0.94 1177 1.01 1760 1046 0.82 1084 0.89 1121 0.96 1156 1.03 1191 1.11 1920 1066 0.92 1103 0.99 1139 1.06 1174 1.14 1206 1.21 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK740/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 131 downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 1280 - - 528 0.15 600 0.19 661 0.23 717 0.28 771 0.33 821 0.38 870 0.43 915 0.48 959 0.54 1440 - - 556 0.18 626 0.23 687 0.28 740 0.33 790 0.38 839 0.43 886 0.49 930 0.54 974 0.61 1600 - - 586 0.22 651 0.28 712 0.34 766 0.39 814 0.44 860 0.50 904 0.55 947 0.61 990 0.68 1760 554 0.22 619 0.28 680 0.33 738 0.39 792 0.46 841 0.52 884 0.58 926 0.63 967 0.69 1007 0.76 1920 592 0.28 653 0.34 710 0.39 765 0.46 817 0.53 866 0.60 912 0.67 953 0.73 992 0.79 1028 0.85 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1280 1003 0.60 1045 0.66 1083 0.71 1121 0.77 1156 0.83 1440 1013 0.66 1054 0.73 1094 0.79 1132 0.86 1168 0.92 1600 1029 0.74 1069 0.81 1106 0.87 1142 0.94 1177 1.01 1760 1046 0.82 1084 0.89 1121 0.96 1156 1.03 1191 1.11 1920 1066 0.92 1103 0.99 1139 1.06 1174 1.14 1206 1.21 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK740/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 131 Evaporator Fan Performance External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm Table 83. Belt drive evaporator fan performance - 4 tons high efficiency -YHC048E3,E4,EW,F3,F4,FW*H high gas heat horizontal airflow 1 -hp Standard Motor & Drive 1280 1018 0.62 1058 0.68 1095 0.74 1131 0.81 1166 0.87 External Static Pressure (Inches of Water) 1036 0.69 1075 0.76 1113 0.82 1148 0.89 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 drn rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) High Static Drive(b) 1 -hp Standard Motor & Drive 1280 - - 561 0.16 626 0.20 684 0.25 739 0.29 792 0.34 842 0.39 890 0.45 935 0.50 977 0.56 1440 - - 595 0.20 659 0.25 715 0.30 766 0.35 1 816 0.40 864 0.45 909 0.51 953 0.57 995 0.63 1600 561 0.20 628 0.25 694 0.31 748 0.36 798 0.41 843 0.47 888 0.52 932 0.58 974 0.64 1015 0.71 1760 603 0.26 665 0.31 727 0.37 1 782 0.43 830 0.49 875 0.54 917 0.60 958 0.67 998 0.73 1038 0.80 1920 646 0.32 705 0.38F-761 0.44 816 0.52 864 0.58 908 0.63 949 0.70 988 0.76 1026 0.831063 0.90!ha Continued Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 132 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1280 1018 0.62 1058 0.68 1095 0.74 1131 0.81 1166 0.87 1440 1036 0.69 1075 0.76 1113 0.82 1148 0.89 1183 0.96 1600 1055 0.77 1093 0.84 1130 0.91 1166 0.98 1201 1.05 1760 1075 0.86 1113 0.93 1149 1.00 1184 1.08 1219 1.15 1920 1100 0.97 1135 1.04 1171 1.11 1204 1.19 1237 1.26 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK74x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 132 RT-PRCO23AL-EN Evaporator Fan Performance Table 85. Belt drive evaporator fan performance - 5 tons high efficiency-THC060E3,E4,EW,F3,F4,FW horizontal airflow cfm 0.10 rpm bhp 0.20 rpm bhp 0.30 rpm bhp External Static Pressure (Inches of Water) 0.40 0.50 0.60 0.70 rpm bhp rpm bhp rpm bhp rpm bhp 0.80 rpm bhp 0.90 rpm bhp 1.00 rpm bhp 0.49 1014 0.53 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1118 0.68 1 -hp Standard Motor & Drive 1000* 412 0.07 517 0.10 601 0.15 664 0.19 716 0.23 764 0.27 810 0.31 853 0.35 897 0.40 939 0.44 1200* 456 0.10 542 0.14 631 0.19 702 0.24 758 0.29 808 0.33 851 0.38 892 0.43 932 0.48 970 0.53 1400* 502 0.14 580 0.18 654 0.23 730 0.29 795 0.35 848 0.41 893 0.46 936 0.52 974 0.58 1010 0.63 1600 550 0.19 622 0.24 688 0.29 753 0.35 F820 0.41 881 0.49 930 0.55 975 0.62 1015 0.68 1052 0.75 1800 598 0.25 668 0.31 728 0.37 785 0.42 843 0.49 903 0.56 960 0.64 1010 0.72 1053 0.80 1092 0.87 2000 648 0.33 714 0.39 771 0.46 824 0.52 875 0.58 927 0.66 982 0.74 1034 0.83 1082 0.91 1126 1.00 2200 699 0.42 762 0.50 816 0.57 866 0.63 914 0.70 960 0.77 1006 0.85 1056 0.94 1106 1.03 1152 1.13 2400 750 0.54 810 0.61 863 0.69 911 0.77 956 0.84 999 0.92 1042 1.00 1084 1.08 1130 1.171176 1.27 1 -hp Standard Motor & Field Supplied High Static Drive (b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 1000, 1200, and 1400 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 134 RT-PRCO23AL-EN 1 -hp Standard Motor & Drive 1000* 977 0.49 1014 0.53 1049 0.58 1084 0.63 1118 0.68 1200* 1006 0.58 1042 0.63 1078 0.69 1112 0.74 1145 0.80 1400* 1045 0.69 1078 0.74 1111 0.8 1144 0.86 1174 0.92 1600 1087 0.81 1121 0.88 1152 0.94 1182 1.00 1213 1.07 1800 1129 0.95 1163 1.02 1195 1.09 1226 1.16 1255 1.23 2000 1165 1.08 1201 1.17 1236 1.25 1268 1.33 1298 1.41 2200 1196 1.23 1237 1.33 1271 1.42 1305 1.51 1338 1.60 2400 1219 1.37 1261 1.48 1301 1.58 1339 1.69 1373 1.79 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. Data does not include pressure drop due to reheat coil. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 1000, 1200, and 1400 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton (a)BAYLSDR006AB (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. 134 RT-PRCO23AL-EN Evaporator Fan Performance Table 86. Belt drive evaporator fan performance - 5 tons high efficiency-YHC060E3,E4,F3,EW,F4,FW*L,M low & medium External Static Pressure (Inches of Water) gas heat downflow airflow 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive External Static Pressure (Inches of Water) 1024 0.71 1061 0.77 1099 0.83 1136 0.90 1170 0.96 1800 1044 0.81 1081 0.87 1118 0.94F1155 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drivem 1 -hp Standard Motor & Drive 1600 - - 583 0.22 648 0.27 705 0.32 755 0.37 804 0.42 852 0.47 897 0.53 941 0.59 982 0.65 1800 - - 623 0.28 683 0.34 740 0.40 790 0.45 835 0.50 879 0.56 922 0.62 964 0.68 1004 0.74 2000 605 0.30 665 0.36 721 0.42 774 0.48 824 0.55 870 0.61 911 0.66 951 0.73 991 0.79 1028 0.86 2200 653 0.39 709 0.45 762 0.51 812 0.58 859 0.65 905 0.72 948 0.79 986 0.86 1022 0.92 1057 0.99 2400 701 0.49 756 0.56 803 0.63 851 0.70 896 0.77 939 0.85 982 0.93 1022 1.00 1057 1.07 1092 1.14 Continued Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 5. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK690/4" required. Field Supplied Belt may be necessary (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary RT-PRCO23AL-EN 135 External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1600 1024 0.71 1061 0.77 1099 0.83 1136 0.90 1170 0.96 1800 1044 0.81 1081 0.87 1118 0.94F1155 1.01 1188 1.08 2000 1067 0.93 1103 1.00 1139 1.07 1175 1.14 1209 1.22 2200 1094 1.06 1129 1.13 F1163 1.21 1197 1.29 1229 1.36 2400 1124 1.21 1157 1.29 1189 1.37 1222 1.45 - - 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 5. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK690/4" required. Field Supplied Belt may be necessary (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary RT-PRCO23AL-EN 135 Evaporator Fan Performance Table 87. Belt drive evaporator fan performance - 5 tons high efficiency-YHC060E3,E4,F3,EW,F4,FW*L,M low & medium gas heat horizontal airflow 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1600 External Static Pressure (Inches of Water) 1169 0.98 1203 1.04 1800 1090 0.89 1126 0.96 1161 1.04 1195 1.11 1229 1.19 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 1600 566 0.21 633 0.26 694 0.31 747 0.36 798 0.41 848 0.47 895 0.52 939 0.58 981 0.65 1021 0.71 1800 621 0.28 681 0.33 739 0.39 790 0.45 837 0.51 884 0.57 929 0.63 971 0.69 1013 0.76 1052 0.82 2000 676 0.37 731 0.43 785 0.49 836 0.56 880 0.62 923 0.69 966 0.75 1006 0.82 1046 0.89 1084 0.96 2200 732 0.48 784 0.54 832 0.61 881 0.68 927 0.75 967 0.83 1005 0.90 1044 0.97 1082 1.04 1118 1.12 2400 789 0.61 838 0.68 882 0.75 927 0.82 972 0.90 1012 0.98 1049 1.06 1085 1.14 1121 1.22 F1155 1.30(h) Continued Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at ail cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK690/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. 136 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1600 1060 0.78 1097 0.84 1135 0.91 1169 0.98 1203 1.04 1800 1090 0.89 1126 0.96 1161 1.04 1195 1.11 1229 1.19 2000 1121 1.03 1156 1.10 1192 1.18 1224 1.26 1257 1.34 2200 1155 1.19 1189 1.27 1223 1.34 1256 1.42 - - 2400 1190 1.38 1223 1.46 - - - - - - 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at ail cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK690/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. 136 RT-PRCO23AL-EN Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK69x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 137 External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 Evaporator Fan Performance Table 88. Belt drive evaporator fan performance - 5 tons high efficiency-YHC060E3,E4,EW,F3,F4,FW*H high gas heat downflow airflow 1600 1037 0.72 1076 0.78 1114 0.85 1151 0.91 1184 0.98 1800 1058 0.82 1096 0.88 1133 0.95 1169 1.02 1204 1.10 External Static Pressure (Inches of Water) 1083 0.93 1120 1.001155 1.07 1189 1.15 1224 1.23 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1 -hp Standard Motor & Drive 1600 - - 595 0.22 658 0.27 716 0.32 768 0.37 817 0.42 864 0.47 910 0.53 954 0.59 996 0.65 1800 - - 637 0.29 697 0.34 752 0.40 802 0.45 849 0.51 893 0.56 936 0.62 979 0.68 1019 0.75 2000 621 0.31 680 0.36 737 0.42 790 0.49 838 0.55 884 0.61 927 0.67 967 0.73 1007 0.80 1046 0.86 2200 671 0.40 726 0.46 779 0.52 1 829 0.59 876 0.66 919 0.72 962 0.79 1002 0.86 1039 0.93 1076 1.00 2400 721 0.50 773 0.57 822 0.64 870 0.71 916 0.78 957 0.86 998 0.93 1036 1.00 1074 1.08 1109 1.15 Continued Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK69x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 137 External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1600 1037 0.72 1076 0.78 1114 0.85 1151 0.91 1184 0.98 1800 1058 0.82 1096 0.88 1133 0.95 1169 1.02 1204 1.10 2000 1083 0.93 1120 1.001155 1.07 1189 1.15 1224 1.23 2200 1111 1.07 1146 1.14 1181 1.22 1214 1.29 1248 1.37 2400 1144 1.23 1177 1.30 1210 1.38 1241 1.46 1274 1.54 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK69x3/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK41x3/4" required. Field Supplied Belt may be necessary. RT-PRCO23AL-EN 137 Evaporator Fan Performance Table 89. Belt drive evaporator fan performance - 5 tons high efficiency-YHC060E3,E4,EW,F3,F4,FW*H high gas heat horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Continued 1 -hp Standard Motor & Field Supplied Low Static Drive(a) 1.10 1.20 1.30 1-hp Standard Motor & Drive cfm 1600 570 0.21 639 0.26 703 0.32 760 0.37 809 0.41 854 0.46 894 0.52 936 0.58 977 0.64 1019 0.70 1800 620 0.28 689 0.34 746 0.40 801 0.46 851 0.52 896 0.57 937 0.62 974 0.68 1011 0.75 1048 0.81 2000 671 0.36 741 0.44 792 0.50 844 0.57 893 0.64 939 0.71 980 0.76 1019 0.82 1054 0.88 1087 0.95 2200 723 0.46 791 0.55 843 0.62 889 0.69 936 0.77 981 0.85 1022 0.92 1061 0.99 1097 1.05 1131 1.11 2400 776 0.58 r841 0.68 895 0.76 937 0.84 981 0.91 1023 1.00 1064 1.09 1103 1.17 1140 1.25 F1173 1.31(6) Continued Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK690/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. 138 RT-PRCO23AL-EN External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.SO cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1600 1057 0.76 1096 0.83 1133 0.90 1167 0.96 1201 1.03 1800 1086 0.88 1123 0.95 1159 1.02 1192 1.09 1226 1.17 2000 1119 1.02 1153 1.09 1188 1.17 1221 1.24 1253 1.32 2200 1162 1.18 1193 1.25 1223 1.33 1253 1.41 1284 1.49 2400 1206 1.38 1236 1.44 1266 1.52 1294 1.61 1320 1.69 1 -hp Standard Motor & Field Supplied High Static Drive(b) Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. No accessories or options are included in pressure drop data. 3. Data does not include pressure drop due to reheat coil. 4. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. S. 1 -hp Fan Motor Heat (MBh) = 2.7672 x Fan bhp + 0.4705. 6. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) Field Supplied Fan Sheave AK690/4" required. Field Supplied Belt may be necessary. (b) Field Supplied Fan Sheave AK410/4" required. Field Supplied Belt may be necessary. 138 RT-PRCO23AL-EN Evaporator Fan Performance Table 90. Belt drive evaporator fan performance - 6 tons high efficiency-THC072E3,E4,EW,F3,F4,FW downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1920 - - 437 0.23 491 0.29 545 0.36 594 0.44 637 0.51 677 0.58 715 0.65 750 0.72 784 0.80 2160 407 0.22 465 0.29 513 0.36 563 0.43 610 0.51 654 0.60 694 0.68 731 0.76 766 0.84 799 0.92 2400 439 0.29 494 0.37 540 0.44 583 0.51 628 0.60 671 0.69 711 0.78 748 0.87 783 0.96 817 1.05 2640 472 0.36 523 0.45 568 0.54 609 0.62 647 0.70 688 0.79[746 8 0.89 765 0.99 801 1.09 834 1.19 2880 505 0.45 553 0.55 597 0.65 637 0.74 673 0.82 708 0.91 1.01 782 1.12 817 1.23 851 1.34 1 h Standard Motor & Drive Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1920 815 0.87 847 0.94 875 1.01 903 1.08 930 1.16 958 1.23 984 1.31 1008 1.38 1033 1.46 1056 1.53 2160 832 1.00 863 1.08 891 1.16 920 1.24 947 1.32 974 1.41 999 1.49 1024 1.57 1048 1.65 1071 1.73 2400 848 1.14 878 1.23 908 1.32 935 1.41 963 1.50 989 1.59 1015 1.68 1040 1.77 1064 1.86 1088 1.95 2640 865 1.29 895 1.39 924 1.48 953 1.59 979 1.68 1006 1.78 1031 1.88 1056 1.98 1080 2.08 1104 2.18 2880 882 1.45 912 1.56 941 1.66 969 1.77 996 1.88 1021 1.98 1047 2.09 1072 2.20 - - - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a)BAYLSDR009AA RT-PRCO23AL-E N 139 m Evaporator Fan Performance Table 91. Belt drive evaporator fan performance - 6 tons high efficiency-THC072E3,E4,EW,F3,F4,FW horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1 -hp Standard Motor & Drive 1920 422 0.21 490 0.28 551 0.37 595 0.44 634 0.51 670 0.59 704 0.66 735 0.74 765 0.82 794 0.89 2160 461 0.28 514 0.35 581 0.46 629 0.55 667 0.62702 0.70 735 0.78 767 0.87 796 0.96 824 1.04 2400 501 0.37 547 0.44 604 0.54 661 0.66 701 0.75 735 0.84 768 0.93 798 1.02 827 1.11 855 1.21 2640 541 0.47 584 0.55 629 0.64 685 0.77 1 734 0.90 769 1.00 800 1.09 831 1.19 860 1.29 886 1.39 2880 582 0.59 623 0.69 661 0.76 708 0.88 759 1.03 803 1.17 834 1.28 864 1.39 892 1.49 919 1.59(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1920 821 0.98 847 1.06 873 1.14 896 1.22 920 1.30 943 1.39 965 1.47 986 1.55 1006 1.64 1028 1.73 2160 851 1.13 876 1.22 902 1.31 925 1.39 949 1.49 971 1.58 993 1.67 1014 1.76 1035 1.85 1055 1.95 2400 881 1.30 907 1.40 932 1.49 955 1.59 978 1.69 1001 1.79 1022 1.88 1043 1.98 1064 2.09 1084 2.19 2640 913 1.49 938 1.59 962 1.70 986 1.80 1009 1.91 1030 2.02 1052 2.12 1074 2.23 - - - - 2880 944 1.70 969 1.81 993 1.92 1016 2.04 1040 2.15 1061 2.26 - - - - - - - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 1.28, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 6. For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. (a)BAYLSDR009AA (b) 2 -HP Oversized Motor & Drive 140 RT PRCO23AL-EN Im Evaporator Fan Performance Table 92. Belt drive evaporator fan performance - 6 tons high efficiency-YHC072E3,E4,EW,F3,F4,FW low & medium gas heat downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1 -hp Standard Motor & Drive 1920 393 0.18 450 0.23 503 0.29 549 0.35 590 0.41 628 0.47 663 0.53 696 0.59 726 0.65 755 0.71 2160 427 0.24 480 0.30 529 0.37 574 0.43 615 0.50 652 0.57 687 0.63 719 0.70 750 0.77 779 0.84 2400 463 0.31 511 0.38 557 0.45 601 0.52 641 0.60 678 0.67 712 0.75 744 0.82 774 0.90 803 0.97 2640 500 0.39 544 0.47 587 0.55 627 0.63 666 0.71 703 0.79 737 0.87 769 0.96 798 1.04 827 1.12 2880 538 0.50 579 0.58 618 0.66 656 0.75 693 0.84 729 0.93 762 1.01 794 1.10 824 1.19 852 1.28 Continued 1 -hp Standard Motor & Drive External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 1.73 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009AA RT PRCO23AL-EN 141 1 -hp Standard Motor & Drive 1920 783 0.77 811 0.84 836 0.90 861 0.96 885 1.02 908 1.08 930 1.14 953 1.20 973 1.26 995 1.33 2160 806 0.90 833 0.97 859 1.04 883 1.11 907 1.18 931 1.25 952 1.31 974 1.38 996 1.45 1016 1.52 2400 830 1.05 856 1.12 883 1.20 906 1.27 930 1.35 952 1.42 976 1.50 998 1.58 1018 1.65 1039 1.73 2640 854 1.20 880 1.29 906 1.37 930 1.45 953 1.53 976 1.62 998 1.70 1020 1.78 1041 1.86 1062 1.95 2880 879 1.37 905 1.47 929 1.55 953 1.64 977 1.73 1000 1.83 1022 1.91 1044 2.01 1063 2.09 1084 2.18 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 1.73 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009AA RT PRCO23AL-EN 141 Evaporator Fan Performance Table 93. Belt drive evaporator fan performance - 6 tons high efficiency-YHC072E3,E4,EW,F3,F4,FW low & medium gas heat horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1 -hp Standard Motor & Drive 1920 462 0.25 517 0.32 565 0.38 609 0.45 648 0.52 684 0.59 719 0.66 751 0.73 782 0.80 811 0.87 2160 503 0.33 557 0.41 602 0.49 644 0.56 682 0.64 718 0.71 751 0.79 783 0.87 813 0.95 842 1.03 2400 546 0.43 598 0.53 641 0.61 680 0.69 717 0.78 753 0.86 785 0.95 815 1.03 845 1.12 873 1.21 2640 590 0.56 640 0.66 681 0.76 719 0.85 754 0.94 788 1.03 820 1.12 850 1.21 879 1.31 906 1.41 2880 636 0.71 681 0.82 722 0.93 758 1.02 793 1.13 824 1.22 855 1.32 885 1.42 913 1.52 940 1.62(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1 -hp Standard Motor & Drive 1920 838 0.94 865 1.01 890 1.08 915 1.16 939 1.23 962 1.30 985 1.37 1007 1.45 1027 1.52 1049 1.59 2160 870 1.11 895 1.19 920 1.27 945 1.35 969 1.43 991 1.51 1014 1.59 1035 1.67 1057 1.75 1077 1.83 2400 901 1.30 926 1.38 952 1.47 975 1.56 999 1.65 1022 1.74 1044 1.82 1066 1.91 1086 2.00 1108 2.09 2640 933 1.51 959 1.60 982 1.69 1007 1.79 1029 1.89 1053 1.99 1075 2.08 1096 2.18 1116 2.27 - - 2880 966 1.73 991 1.84 1015 1.94 1039 2.05 1062 2.16 1084 2.26 - - - - - - - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009AA (b) 2 -hp Oversized Motor & Drive 42 RT-PRCO23AL-E N Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009AA RT-PRCO23AL-EN 143 Evaporator Fan Performance Table 94. Belt drive evaporator fan performance - 6 tons high efficiency-YHC072E3,E4,EW,F3,F4,FW high gas heat, downflow airflow 1 -hp Standard Motor & Drive External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1.18 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1.25 1 -hp Standard Motor & Drive 1920 412 0.20 472 0.26 524 0.32 571 0.38 612 0.44 651 0.51 686 0.57 719 0.64 1 750 0.71 779 0.77 2160 454 0.27 504 0.33 553 0.40 599 0.47 640 0.54 678 0.61 712 0.68 745 0.75 776 0.83 805 0.90 2400 495 0.36 534 0.41 585 0.50 627 0.57 668 0.65 705 0.73 739 0.81 771 0.88 802 0.96 831 1.05 2640 535 0.46 570 0.52 617 0.61 657 0.69 696 0.77 732 0.86 767 0.95 799 1.03 829 1.12 858 1.20 2880 575 0.58 612 0.65 646 0.72 690 0.83 725 0.92 761 1.01 795 1.11 827 1.20 857 1.29 884 1.38 Continued 886 1.21 912 1.29 936 External Static Pressure (Inches of Water) 1.54 1007 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009AA RT-PRCO23AL-EN 143 1 -hp Standard Motor & Drive 1920 808 0.84 835 0.91 862 0.97 887 1.04 910 1.11 935 1.18 957 1.25 979 1.32 1001 1.39 1022 1.46 2160 834 0.98 860 1.05 886 1.13 911 1.20 935 1.28 959 1.35 982 1.43 1004 1.51 1025 1.58 1046 1.66 2400 859 1.13 886 1.21 912 1.29 936 1.37 960 1.45 984 1.54 1007 1.63 1028 1.71 1050 1.79 1071 1.88 2640 885 1.29 911 1.38 937 1.47 962 1.56 985 1.65 1009 1.74 1032 1.84 1054 1.93 1074 2.01 1095 2.11 2880 913 1.48 938 1.57 963 1.67 988 1.77 1012 1.86 1035 1.96 1057 2.06 1079 2.16 1099 2.26 - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a)BAYLSDR009AA RT-PRCO23AL-EN 143 Evaporator Fan Performance Table 95. Belt drive evaporator fan performance - 6 tons high efficiency-YHC072E3,E4,EW,F3,F4,FW high gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 2160 2400 2640 2880 1 -hp Standard Motor & Low Static Drive Accessory Kit(a) 1 -hp Standard Motor & Drive 1920 476 0.27 528 0.34 575 0.40 619 0.47 660 0.54 697 0.62 731 0.69 763 0.77 793 0.84 821 0.92 2160 520 0.36 571 0.44 614 0.51 655 0.59 694 0.67 731 0.75 765 0.83 796 0.91 826 1.00 854 1.08 2400 566 0.47 615 0.56 656 0.65 694 0.73 730 0.81 765 0.90 799 0.99 830 1.08 860 1.17 888 1.27 2640 612 0.61 659 0.71 698 0.81 1 734 0.89 769 0.98 802 1.08 834 1.17 865 1.27 894 1.37 922 1.47 2880 660 0.77 703 0.88F-742 0.99 777 1.09 808 1.18 840 1.28 870 1.38 899 1.49 F929 1.60 957 1.70(b) Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 2160 2400 2640 2880 1.53 1037 1.61 1057 1.69 1.76 1067 1.85 1088 1.94 2.02 1099 2.11 1119 2.21 2.29 - - - - 983 1.81 1009 1.92 1034 2.03 1056 2.14 1080 2.26 - - - - - - - - - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009AA (b) 2 -hp Oversized Motor & Drive 144 RT-PRCO23AL-EN 1 -hp Standard Motor & Drive 849 0.99 876 1.07 900 1.14 925 1.22 949 1.30 972 1.38 994 1.45 1015 881 1.17 908 1.25 933 1.34 957 1.42 980 1.51 1003 1.59 1026 1.68 1046 915 1.36 941 1.46 966 1.55 990 1.64 1012 1.73 1035 1.83 1057 1.92 1079 949 1.57 975 1.67 999 1.78 1023 1.88 1045 1.98 1068 2.09 1090 2.19 1110 1.53 1037 1.61 1057 1.69 1.76 1067 1.85 1088 1.94 2.02 1099 2.11 1119 2.21 2.29 - - - - 983 1.81 1009 1.92 1034 2.03 1056 2.14 1080 2.26 - - - - - - - - - - 2 -hp Oversized Motor & Drive Notes: 1. For Standard Evaporator Fan Speed (rpm), reference Table 120, p. 169. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. 1 -HP Fan Motor Heat (MBH) = 2.829 x Fan BHP +.4024. 2 -HP Fan Motor Heat (MBH) = 3.000 x Fan BHP +.5000. S. Factory supplied motors, in equipment, are definite purpose motors, specifically designed and tested to operate at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. (a) BAYLSDR009AA (b) 2 -hp Oversized Motor & Drive 144 RT-PRCO23AL-EN RT-PRCO23AL-EN 145 Evaporator Fan Performance Table 96. Direct drive evaporator fan performance - 6 tons high efficiency-THC074F3,F4 downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1200* 445 0.06 507 0.09 566 0.13 622 0.17 672 0.21 718 0.25 760 0.30 800 0.35 836 0.39 873 0.45 1440* 508 0.09 565 0.12 614 0.16 664 0.21 712 0.25 756 0.30 798 0.35 838 0.40 874 0.46 909 0.51 1680* 575 0.12 625 0.17 671 0.21 713 0.25 756 0.31 797 0.36 839 0.41 877 0.47 913 0.52 948 0.58 1920 644 0.17 687 0.22 730 0.27 769 0.32 807 0.37 844 0.42 881 0.48 917 0.54 953 0.60 988 0.67 2160 715 0.23 753 0.28 792 0.33 830 0.39 863 0.45 896 0.50 930 0.56 963 0.63 996 0.70 1028 0.76 2400 786 0.30 820 0.36 855 0.42 890 0.48 923 0.54 954 0.61 984 0.67 1014 0.73 1044 0.80 1074 0.87 2640 858 0.39 889 0.45 921 0.51 952 0.58 984 0.65 1015 0.72 1043 0.79 1069 0.85 1097 0.92 1125 1.00 2880 931 0.50 960 0.56 988 0.63 1017 0.70 1046 0.77 1075 0.84 1103 0.92 1129 1.00 1154 1.07 1178 1.14 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1200* 905 0.50 938 0.55 969 0.61 998 0.66 1028 0.72 1055 0.78 1083 0.85 1110 0.91 1134 0.97 1160 1.04 1440* 942 0.57 974 0.62 1006 0.69 1035 0.75 1064 0.81 1092 0.87 1118 0.94 1145 1.00 1169 1.07 1195 1.14 1680* 981 0.65 1012 0.71 1043 0.77 1073 0.84 1100 0.90 1128 0.97 1155 1.04 1181 1.11 1205 1.18 1230 1.25 1920 1020 0.73 1051 0.80 1081 0.87 1111 0.94 1139 1.01 1166 1.08 1193 1.15 1219 1.23 1243 1.30 1268 1.38 2160 1060 0.83 1091 0.90 1120 0.97 1150 1.05 1177 1.12 1204 1.20 1231 1.28 1256 1.36 1281 1.44 1306 1.52 2400 1103 0.95 1132 1.02 1162 1.09 1190 1.17 1217 1.25 1244 1.33 1269 1.41 1295 1.50 1319 1.58 1345 1.67 2640 1151 1.07 1178 1.15 1205 1.23 1231 1.31 1258 1.39 1284 1.48 1309 1.56 1334 1.65 1360 1.74 1383 1.83 2880 1204 1.22 1229 1.30 1254 1.38 1278 1.47 1303 1.56 1328 1.65 1351 1.73 1375 1.82 1400 1.92 1424 2.01 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 1200, 1440, and 1680 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * TXV with Frostat" and Crankcase Heaters are required on applications below 320 CFM/Ton. RT-PRCO23AL-EN 145 Evaporator Fan Performance Table 97. Direct drive evaporator fan performance - 6 tons high efficiency-THC074F3,F4 horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1200* 441 0.06 504 0.09 560 0.12 615 0.16 664 0.20 709 0.24 749 0.27 788 0.31 824 0.35 860 0.38 1440* 505 0.09 559 0.12 611 0.16 658 0.20 704 0.25 748 0.29 789 0.34 827 0.38 863 0.43 897 0.47 1680* 571 0.12 619 0.16 665 0.21 709 0.25 750 0.30 789 0.35 829 0.40 866 0.45 902 0.51 936 0.56 1920 638 0.17 682 0.21 723 0.26 763 0.31 802 0.36 838 0.42 873 0.47 908 0.53 942 0.59 975 0.65 2160 708 0.23 747 0.28 785 0.33 820 0.38 856 0.44 .891 0.50 924 0.56 956 0.62 986 0.68 1017 0.74 2400 778 0.30 814 0.35 849 0.41 882 0.47 914 0.53 946 0.59 977 0.66 1008 0.73 1037 0.79 1065 0.85 2640 849 0.38 881 0.44 914 0.51 945 0.57 975 0.63 1004 0.70 1032 0.76 1061 0.84 1090 0.92 1118 0.99 2880 921 0.49 951 0.55 980 0.62 1009 0.69 1038 0.76 1064 0.82 1091 0.89 1118 0.97 1145 1.05 1171 1.14 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1200* 892 0.42 924 0.45 955 0.49 984 0.52 1011 0.56 1039 0.59 1065 0.63 1091 0.66 1117 0.69 1140 0.73 1440* 930 0.51 961 0.56 991 0.60 1020 0.64 1048 0.69 1076 0.73 1102 0.77 1128 0.82 1152 0.86 1176 0.90 1680* 969 0.61 1000 0.66 1029 0.72 1058 0.77 1086 0.82 1113 0.87 1139 0.92 1164 0.97 1189 1.02 1212 1.07 1920 1008 0.71 1039 0.77 1068 0.83 1096 0.89 1124 0.95 1151 1.01 1176 1.07 1201 1.13 1226 1.18 1251 1.25 2160 1048 0.81 1078 0.88 1108 0.95 1136 1.02 1163 1.09 1189 1.15 1214 1.22 1241 1.29 1264 1.35 1288 1.42 2400 1093 0.92 1120 0.99 1149 1.07 1176 1.15 1204 1.22 1229 1.30 1256 1.38 1280 1.45 1303 1.52 1328 1.60 2640 1144 1.06 1170 1.13 1195 1.21 1220 1.28 1245 1.37 1270 1.45 1295 1.53 1320 1.62 1343 1.70 1368 1.78 2880 1197 1.21 1222 1.29 1246 1.37 1269 1.45 1293 1.53 1315 1.61 1338 1.70 1361 1.78 1385 1.88 1409 1.97 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 1200, 1440, and 1680 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton. 146 RT-PRCO23AL-EN RT PRCO23AL-EN 147 Evaporator Fan Performance Table 98. Direct drive evaporator fan performance - 6 tons high efficiency-YHC074F3,F4 low & medium gas heat, downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 660 0.19 699 0.23 740 0.28 779 0.33 818 0.39 858 0.45 896 0.51 933 0.57 969 0.64 1002 0.70 2160 733 0.25 768 0.30 804 0.35 840 0.40 874 0.46 909 0.53 944 0.60 979 0.67 1013 0.73 1045 0.80 2400 806 0.33 839 0.39 870 0.44 903 0.50 935 0.56 966 0.62 997 0.70 1029 0.77 1061 0.85 1092 0.92 2640 880 0.43 911 0.49 939 0.55 968 0.61 998 0.67 1027 0.74 1056 0.81 1084 0.89 1112 0.97 1141 1.06 2880 955 0.55 983 0.61 1009 0.67 1036 0.74 1063 0.81 1090 0.88 1116 0.95 1143 1.02 1169 1.11 1195 1.20 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 1034 0.77 1065 0.84 1095 0.91 1124 0.98 1151 1.06 1178 1.13 1205 1.21 1231 1.29 1256 1.36 1280 1.44 2160 1076 0.88 1108 0.95 1137 1.02 1165 1.10 1193 1.18 1220 1.26 1246 1.34 1271 1.42 1296 1.51 1321 1.59 2400 1121 1.00 1151 1.07 1180 1.15 1209 1.24 1235 1.32 1262 1.40 1288 1.49 1314 1.58 1338 1.66 1361 1.75 2640 1170 1.14 1199 1.22 1226 1.31 1253 1.39 1279 1.47 1306 1.56 1330 1.65 1355 1.74 1379 1.83 1403 1.92 2880 1221 1.29 1246 1.38 1273 1.47 1299 1.56 1325 1.65 1350 1.74 1375 1.83 1399 1.93 1422 2.02 1446 2.12 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT PRCO23AL-EN 147 Evaporator Fan Performance Table 99. Direct drive evaporator fan performance - 6 tons high efficiency-YHC074F3,F4 high gas heat, downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 662 0.18 702 0.23 742 0.28 781 0.33 823 0.39 862 0.45 899 0.51 936 0.57 971 0.64 1005 0.70 2160 734 0.25 770 0.30 806 0.35 841 0.40 876 0.46 913 0.53 950 0.60 983 0.66 1015 0.73 1048 0.80 2400 807 0.32 841 0.38 873 0.44 905 0.50 937 0.56 967 0.62 1001 0.69 1035 0.77 1066 0.84 1095 0.92 2640 881 0.42 914 0.49 942 0.54 971 0.61 1000 0.67 1029 0.74 1057 0.80 1086 0.88 1118 0.97 1148 1.06 2880 955 0.53 985 0.60 1013 0.67 1039 0.73 1066 0.80 1093 0.88 1119 0.95 1145 1.02 1171 1.10 1198 1.18 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 1038 0.76 1069 0.83 1099 0.89 1127 0.95 1156 1.02 1182 1.08 1209 1.14 1235 1.20 1260 1.26 1283 1.32 2160 1080 0.88 1111 0.95 1141 1.02 1170 1.09 1197 1.16 1224 1.24 1250 1.31 1275 1.37 1300 1.45 1325 1.52 2400 1125 0.99 1155 1.07 1184 1.16 1213 1.24 1240 1.32 1266 1.40 1293 1.48 1317 1.55 1342 1.63 1366 1.71 2640 1175 1.13 1202 1.21 1230 1.30 1257 1.39 1283 1.47 1311 1.57 1335 1.65 1360 1.74 1384 1.83 1409 1.92 2880 1227 1.28 1255 1.38 1281 1.47 1305 1.55 1329 1.64 1354 1.73 1380 1.83 1404 1.93 1428 2.02 1452 2.12 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 1.25, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 148 RT PRCO23AL-EN Evaporator Fan Performance Table 100. Direct drive evaporator fan performance - 6 tons high efficiency-YHC074F3,F4 low & medium gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 656 0.18 701 0.23 741 0.28 781 0.33 821 0.39 858 0.45 894 0.51 932 0.58 969 0.65 1005 0.72 2160 727 0.24 768 0.30 805 0.35 840 0.41 876 0.47 912 0.53 946 0.60 978 0.67 1011 0.74 1045 0.82 2400 799 0.32 836 0.38 872 0.44 904 0.50 936 0.57 967 0.63 1000 0.70 1032 0.78 1062 0.85 1091 0.93 2640 872 0.41 905 0.48 940 0.54 970 0.61 999 0.67 1028 0.75 1056 0.82 1087 0.90 1116 0.98 1144 1.06 2880 945 0.52 976 0.59 1007 0.66 1038 0.74 1065 0.81 1091 0.88 1118 0.96 1144 1.04 1171 1.12 1198 1.21 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 1039 0.78 1071 0.85 1103 0.91 1133 0.98 1162 1.04 1190 1.09 1218 1.16 1245 1.21 1270 1.27 1296 1.33 2160 1078 0.89 1109 0.97 1141 1.05 1171 1.12 1200 1.19 1228 1.27 1255 1.34 1282 1.41 1309 1.48 1333 1.55 2400 1120 1.01 1151 1.09 1180 1.18 1210 1.26 1239 1.35 1267 1.43 1294 1.52 1321 1.60 1346 1.68 1371 1.76 2640 1170 1.14 1197 1.22 1224 1.31 1251 1.40 1279 1.50 1306 1.59 1333 1.69 1358 1.78 1385 1.87 1410 1.97 2880 1225 1.30 1251 1.39 1275 1.48 1299 1.56 1323 1.66 1348 1.75 1373 1.85 1398 1.96 1423 2.06 1447 2.16 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT-PRCO23AL-E N 149 Evaporator Fan Performance Table 101. Direct drive evaporator fan performance - 6 tons high efficiency-YHC074F3,F4 high gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 664 0.18 709 0.23 750 0.28 790 0.34 829 0.39 868 0.45 905 0.51 942 0.58 980 0.66 1017 0.73 2160 735 0.25 777 0.30 816 0.36 851 0.42 886 0.48 921 0.54 955 0.60 990 0.67 1023 0.74 1056 0.82 2400 808 0.33 846 0.38 882 0.45 916 0.51 947 0.58 979 0.65 1011 0.71 1042 0.78 1073 0.85 1103 0.93 2640 881 0.42 916 0.48 950 0.55 982 0.62 1012 0.69 1041 0.76 1069 0.84 1099 0.92 1128 0.99 1155 1.06 2880 955 0.54 988 0.60 1019 0.67 1049 0.75 1078 0.82 1105 0.90 1131 0.98 1158 1.07 1185 1.15 1211 1.23 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1920 1051 0.80 1085 0.87 1118 0.94 1148 1.01 1179 1.08 1208 1.14 1235 1.21 1264 1.27 1290 1.33 1317 1.40 2160 1089 0.90 1122 0.98 1155 1.06 1186 1.15 1214 1.22 1244 1.30 1271 1.38 1299 1.45 1326 1.53 1351 1.60 2400 1133 1.01 1163 1.09 1193 1.18 1223 1.27 1252 1.36 1281 1.45 1309 1.54 1336 1.63 1363 1.72 1387 1.80 2640 1183 1.14 1212 1.23 1238 1.31 1265 1.40 1291 1.50 1319 1.60 1348 1.70 1373 1.80 1400 1.90 1425 2.00 2880 1237 1.31 1263 1.39 1288 1.48 1314 1.57 1339 1.66 1364 1.76 1388 1.85 1413 1.96 1439 2.07 1463 2.18 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p: 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 150 RT-PRCO23AL-EN RT PRCO23AL-EN 151 Evaporator Fan Performance Table 102. Direct drive evaporator fan performance - 71/2 tons high efficiency-THC092F3,F4,FW downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1500* 525 0.10 580 0.13 628 0.17 675 0.22 722 0.26 767 0.31 808 0.36 847 0.42 884 0.47 919 0.53 1800* 609 0.15 656 0.19 701 0.24 740 0.28 780 0.33 820 0.39 858 0.44 897 0.50 933 0.56 968 0.63 2100* 697 0.21 736 0.26 776 0.32 814 0.37 848 0.43 883 0.48 917 0.54 951 0.61 984 0.67 1018 0.74 2400 786 0.30 820 0.36 855 0.42 890 0.48 923 0.54 954 0.61 984 0.67 1014 0.73 1044 0.80 1074 0.87 2700 876 0.42 907 0.48 937 0.54 968 0.61 999 0.68 1030 0.75 1058 0.82 1084 0.89 1110 0.96 1137 1.03 3000 967 0.56 995 0.62 1022 0.69 1050 0.76 1078 0.84 1106 0.91 1133 0.99 1159 1.07 1184 1.15 1207 1.23 3300 1058 0.73 1084 0.80 1108 0.87 1133 0.95 1159 1.03 1184 1.11 1209 1.19 1235 1.28 1259 1.37 1283 1.46 3600 1150 0.93 1173 1.01 1196 1.09 1219 1.17 1242 1.25 1265 1.34 1288 1.43 1312 1.52 1335 1.61 1357 1.71 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1500* 952 0.59 983 0.64 1015 0.71 1043 0.77 1072 0.83 1101 0.90 1127 0.96 1154 1.03 1179 1.10 1203 1.16 1800* 1000 0.69 1032 0.75 1063 0.82 1091 0.88 1119 0.95 1147 1.02 1173 1.09 1200 1.17 1225 1.24 1249 1.32 2100* 1050 0.80 1080 0.87 1111 0.95 1139 1.02 1167 1.09 1194 1.17 1222 1.25 1246 1.32 1271 1.40 1296 1.48 2400 1103 0.95 1132 1.02 1162 1.09 1190 1.17 1217 1.25 1244 1.33 1269 1.41 1295 1.50 1319 1.58 1345 1.67 2700 1164 1.11 1191 1.19 1217 1.27 1243 1.35 1268 1.43 1295 1.52 1321 1.61 1346 1.69 1369 1.78 1393 1.87 3000 1231 1.30 1255 1.38 1280. 1.47 1304 1.56 1328 1.65 1351 1.74 1375 1.83 1397 1.92 1420 2.01 1443 2.10 3300 1305 1.54 1326 1.63 1348 1.71 1369 1.80 1391 1.88 1413 1.98 1435 2.08 1456 2.18 1479 2.28 1500 2.38 3600 1379 1.80 1401 1.90 1422 2.00 1441 2.09 1461 2.18 1480 2.27 1501 2.36 1521 2.46 1542 2.57 1561 2.67 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 1500, 1800, and 2100 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found'in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton. RT PRCO23AL-EN 151 Evaporator Fan Performance Table 103. Direct drive evaporator fan performance - 71/2 tons high efficiency-THC092F3,F4,FW horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1500* 521 0.09 573 0.13 624 0.17 670 0.21 714 0.26 758 0.31 799 0.35 837 0.40 873 0.45 906 0.49 1800* 604 0.14 650 0.19 693 0.23 736 0.28 775 0.33 813 0.38 850 0.43 887 0.49 922 0.55 956 0.61 2100* 691 0.21 731 0.26 769 0.31 806 0.36 842 0.42 878 0.48 912. 0.54 943 0.59 974 0.65 1007 0.72 2400 778 0.30 814 0.35 849 0.41 882 0.47 914 0.53 946 0.59 977 0.66 1008 0.73 1037 0.79 1065 0.85 2700 867 0.41 899 0.47 930 0.53 961 0.60 990 0.66 1019 0.73 1047 0.79 1076 0.87 1104 0.95 1131 1.02 3000 956 0.54 985 0.61 1014 0.68 1042 0.75 1069 0.83 1096 0.90 1122 0.97 1147 1.04 1173 1.12 1198 1.21 3300 1046 0.71 1073 0.78 1099 0.86 1125 0.94 1150 1.02 1175 1.09 1199 1.17 1222 1.25 1246 1.33 1269 1.41 3600 1137 0.91 1162 0.99 1185 1.07 1209 1.15 1232 1.24 1256 1.32 1279 1.41 1301 1.49 1323 1.58 1344 1.66 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1500* 939 0.54 970 0.58 1000 0.63 1029 0.67 1058 0.72 1085 0.76 1110 0.81 1137 0.85 1162 0.90 1185 0.94 1800* 987 0.66 1019 0.72 1048 0.77 1077 0.83 1104 0.88 1131 0.94 1157 0.99 1183 1.05 1208 1.10 1231 1.16 2100* 1038 0.79 1069 0.85 1098 0.92 1127 0.99 1153 1.05 1180 1.12 1205 1.18 1231 1.25 1254 1.31 1279 1.38 2400 1093 0.92 1120 0.99 1149 1.07 1176 1.15 1204 1.22 1229 1.30 1256 1.38 1280 1.45 1303 1.52 1328 1.60 2700 1157 1.09 1182 1.17 1207 1.24 1231 1.32 1257 1.40 1281 1.49 1307 1.57 1331 1.66 1354 1.74 1378 1.83 3000 1223 1.29 1248 1.38 1272 1.46 1295 1.54 1318 1.62 1341 1.70 1362 1.79 1384 1.87 1406 1.97 1429 2.06 3300 1292 1.50 1316 1.60 1339 1.69 1361 1.78 1383 1.87 1405 1.96 1427 2.05 1446 2.14 1467 2.23 1488 2.33 3600 1366 1.75 1386 1.84 1408 1.94 1429 2.04 1451 2.15 1472 2.25 1492 2.35 1513 2.45 1532 2.54 1551 2.64 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 12.8, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 1500, 1800, and 2100 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton. 152 RT PRCO23AL-EN RT-PRCO23AL-EN 153 Evaporator Fan Performance Table 104. Direct drive evaporator fan performance - 71/2 tons high efficiency-YHC092F3,F4,FW low & medium gas heat, downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2400 788 0.29 821 0.35 858 0.41 892 0.48 925 0.54 958 0.61 989 0.68 1019 0.75 1048 0.82 1074 0.89 2700 877 0.40 907 0.47 939 0.54 971 0.60 1001 0.67 1031 0.75 1061 0.82 1090 0.90 1117 0.98 1143 1.06 3000 966 0.53 996 0.61 1022 0.68 1052 0.76 1081 0.83 1108 0.91 1134 0.99 1162 1.07 1188 1.16 1214 1.25 3300 1055 0.69 1086 0.77 1108 0.85 1134 0.94 1162 1.02 1187 1.10 1212 1.19 1237 1.28 1261 1.37 1286 1.46 3600 1145 0.88 1175 0.97 1198 1.06 1219 1.15 1244 1.24 1269 1.33 1292 1.42 1315 1.51 1337 1.60 1360 1.70 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2400 1101 0.97 1126 1.04 1151 1.12 1174 1.20 1198 1.28 1221 1.36 1242 1.44 1264 1.53 1285 1.61 1306 1.69 2700 1169 1.14 1193 1.22 1217 1.30 1240 1.39 1262 1.47 1285 1.56 1307 1.65 1327 1.73 1348 1.82 1368 1.91 3000 1238 1.33 1262 1.42 1285 1.51 1308 1.60 1330 1.69 1352 1.78 1372 1.87 1392 1.97 1413 2.07 1432 2.16 3300 1309 1.55 1333 1.65 1355 1.74 1378 1.84 1398 1.93 1419 2.03 1440 2.14 1460 2.23 1479 2.33 1498 2.44 3600 1382 1.80 1404 1.90 1426 2.01 1447 2.11 1469 2.21 1489 2.32 1509 2.42 1529 2.53 1548 2.64 1567 2.75 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT-PRCO23AL-EN 153 Evaporator Fan Performance Table 105. Direct drive evaporator fan performance - 71/2 tons high efficiency-YHC092F3,F4,FW low & medium gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2400 765 0.27 815 0.35 854 0.42 892 0.49 930 0.57 966 0.65 1004 0.74 1039 0.83 1073 0.92 1106 1.01 2700 847 0.37 895 0.45 934 0.53 967 0.61 1002 0.69 1036 0.78 1067 0.87 1101 0.97 1133 1.06 1166 1.17 3000 931 0.48 975 0.57 1014 0.67 1046 0.75 1077 0.84 1108 0.94 1139 1.03 1168 1.13 1196 1.23 1227 1.34 3300 1015 0.62 1056 0.72 1095 0.82 1127 0.92 1156 1.02 1183 1.12 1211 1.22 1239 1.32 1267 1.43 1293 1.54 3600 1100 0.79 1138 0.90 1175 1.01 1207 1.12 1236 1.22 1262 1.33 1287 1.43 1313 1.54 1338 1.66 1365 1.77 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2400 1137 1.11 1166 1.21 1195 1.31 1224 1.41 1251 1.51 1278 1.62 1303 1.72 1328 1.83 1352 1.94 1376 2.05 2700 1196 1.27 1225 1.37 1254 1.48 1281 1.59 1308 1.70 1334 1.81 1359 1.92 1384 2.04 1408 2.15 1431 2.27 3000 1256 1.45 1285 1.56 1313 1.67 1339 1.79 1366 1.90 1392 2.03 1417 2.15 1441 2.27 1465 2.39 1487 2.51 3300 1319 1.65 1346 1.77 1373 1.89 1401 2.01 1427 2.14 1452 2.27 1475 2.39 1500 2.52 1523 2.65 1545 2.78 3600 1389 1.89 1412 2.01 1436 2.13 1462 2.26 1487 2.39 1511 2.52 1535 2.66 1559 2.79 1581 2.93 1605 3.07 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 154 RT PRCO23AL-EN CD RT-PRCO23AL--EN 155 Evaporator Fan Performance Table 106. Direct drive evaporator fan performance - 71/2 tons high efficiency-YHC092F3,F4,FW high gas heat, downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2400 789 0.29 820 0.35 857 0.41 892 0.47 924 0.54 956 0.60 987 0.67 1017 0.74 1046 0.81 1073 0.88 2700 879 0.40 907 0.47 938 0.54 970 0.60 1001 0.67 1030 0.74 1059 0.82 1088 0.89 1114 0.97 1141 1.05 3000 969 0.53 998 0.61 1022 0.68 1051 0.76 1080 0.83 1107 0.91 1134 0.99 1160 1.07 1186 1.15 1212 1.23 3300 1059 0.70 1088 0.77 1109 0.86 1134 0.94 1161 1.02 1186 1.10 1212 1.18 1236 1.27 1260 1.36 1284 1.45 3600 1149 0.89 1178 0.97 1200 1.06 1219 1.15 1243 1.24 1267 1.33 1291 1.42 1314 1.51 1337 1.60 1359 1.70 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2400 1099 0.96 1125 1.03 1150 1.11 1174 1.19 1197 1.26 1219 1.34 1241 1.43 1263 1.51 1284 1.59 1304 1.67 2700 1167 1.13 1192 1.21 1216 1.29 1238 1.37 1262 1.46 1283 1.54 1304 1.62 1326 1.72 1347 1.81 1366 1.89 3000 1236 1.32 1260 1.40 1283 1.49 1306 1.58 1328 1.67 1350 1.76 1370 1.85 1391 1.95 1411 2.04 1431 2.14 3300 1307 1.54 1330 1.63 1353 1.73 1375 1.82 1397 1.92 1417 2.02 1438 2.11 1458 2.21 1477 2.31 1496 2.41 3600 1380 1.79 1402 1.89 1424 1.99 1445 2.09 1466 2.19 1486 2.29 1507 2.40 1526 2.50 1545 2.61 1564 2.72 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT-PRCO23AL--EN 155 Evaporator Fan Performance Table 107. Direct drive evaporator fan performance - 7'/2 tons high efficiency-YHC092F3,F4,FW high gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 dm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2400 768 0.28 818 0.35 858 0.42 897 0.50 936 0.58 973 0.66 1011 0.75 1046 0.84 1080 0.93 1112 1.03 2700 851 0.37 898 0.46 937 0.54 972 0.62 1007 0.71 1042 0.79 1075 0.89 1109 0.98 1142 1.08 1173 1.18 3000 935 0.49 979 0.58 1018 0.67 1050 0.76 1082 0.86 1114 0.95 1145 1.05 1176 1.15 1205 1.25 1236 1.36 3300 1020 0.63 1060 0.73 1098 0.83 1131 0.93 1160 1.03 1188 1.14 1217 1.24 1246 1.35 1275 1.46 1301 1.56 3600 1105 0.80 1143 0.91 1178 1.02 1212 1.13 1240 1.24 1267 1.35 1293 1.46 1319 1.57 1346 1.69 1372 1.81 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2400 1143 1.12 1172 1.22 1202 1.32 1229 1.42 1255 1.53 1282 1.63 1307 1.74 1333 1.85 1356 1.96 1379 2.07 2700 1203 1.28 1232 1.39 1260 1.50 1288 1.61 1315 1.72 1340 1.83 1365 1.95 1388 2.05 1412 2.17 1437 2.30 3000 1266 1.47 1294 1.59 1321 1.70 1348 1.81 1374 1.93 1399 2.05 1424 2.17 1448 2.29 1472 2.42 1495 2.54 3300 1329 1.68 1356 1.80 1383 1.92 1410 2.04 1435 2.17 1460 2.29 1484 2.42 1508 2.55 1531 2.68 1553 2.81 3600 1398 1.92 1423 2.04 1448 2.17 1474 2.30 1498 2.43 1523 2.57 1547 2.70 1569 2.83 1592 2.97 1614 3.11 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 156 RT PRCO23AL-EN RT-PRCO23AL-EN 157 Evaporator Fan Performance Table 108. Direct drive evaporator fan performance - 81/2 tons high efficiency-THC102F3,F4,FW downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1700* 583 0.13 632 0.17 678 0.22 722 0.26 762 0.32 799 0.37 834 0.42 867 0.48 897 0.53 927 0.59 2040* 677 0.19 730 0.25 762 0.30 801 0.35 840 0.41 874 0.47 908 0.53 940 0.60 969 0.66 998 0.72 2380* 775 0.29 819 0.35 861 0.42 887 0.47 920 0.53 954 0.60 985 0.67 1016 0.74 1044 0.81 1073 0.88 2720 874 0.41 912 0.48 953 0.55 986 0.63 1009 0.69 1034 0.76 1066 0.83 1094 0.91 1122 0.99 1149 1.07 3060 974 0.56 1008 0.64 1042 0.72 1079 0.80 1108 0.89 1129 0.96 1148 1.03 1175 1.11 1202 1.20 1228 1.28 3400 1075 0.75 1106 0.84 1136 0.92 1167 1.01 1201 1.11 1227 1.20 1247 1.28 1264 1.36 1284 1.44 1309 1.54 3740 1177 0.99 1204 1.07 1232 1.17 1259 1.26 1288 1.36 1319 1.47 1345 1.57 1364 1.67 1380 1.75 1395 1.84 4080 1279 1.27 1304 1.36 1330 1.46 1355 1.56 1381 1.66 1407 1.77 1436 1.90 1461 2.01 1479 2.11 1495 2.21 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1700* 956 0.65 983 0.71 1009 0.77 1034 0.84 1058 0.90 1083 0.97 1107 1.04 1129 1.10 1151 1.17 1172 1.24 2040* 1026 0.79 1052 0.86 1078 0.93 1102 0.99 1128 1.07 1150 1.14 1173 1.21 1195 1.28 1217 1.36 1238 1.44 2380* 1099 0.95 1124 1.03 1150 1.10 1173 1.18 1198 1.26 1220 1.33 1242 1.41 1264 1.50 1286 1.58 1306 1.66 2720 1175 1.15 1200 1.23 1224 1.31 1247 1.39 1270 1.48 1292 1.56 1314 1.65 1336 1.74 1356 1.82 1377 1.91 3060 1253 1.37 1277 1.46 1301 1.55 1323 1.64 1345 1.73 1367 1.82 1389 1.92 1409 2.01 1429 2.10 1450 2.20 3400 1333 1.63 1357 1.73 1379 1.83 1402 1.93 1423 2.02 1444 2.12 1465 2.22 1485 2.32 1504 2.42 1524 2.52 3740 1414 1.93 1437 2.03 1460 2.14 1481 2.25 1503 2.36 1522 2.46 1542 2.56 1563 2.67 1582 2.78 1601 2.89 4080 1510 2.30 1524 2.40 1541 2.50 1562 2.61 1583 2.73 1603 2.84 1623 2.96 1642 3.07 1661 3.19 1679 3.31 Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 1700, 2040, and 2380 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton RT-PRCO23AL-EN 157 Evaporator Fan Performance Table 109. Direct drive evaporator fan performance - 81/2 tons high efficiency-THC102F3,F4,FW horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1700* 603 0.14 665 0.20 726 0.27 781 0.33 833 0.41 880 0.48 924 0.55 966 0.63 1006 0.72 1043 0.80 2040* 695 0.21 749 0.28 804 0.36 856 0.44 903 0.51 948 0.60 991 0.68 1032 0.77 1070 0.86 1107 0.95 2380* 791 0.31 846 0.40 888 0.47 935 0.56 979 0.65 1022 0.74 1061 0.83 1100 0.93 1137 1.03 1173 1.13 2720 888 0.44 938 0.53 981 0.62 1018 0.71 1059 0.81 1099 0.91 1137 1.02 1174 1.13 1207 1.23 1242 1.34 3060 987 0.60 1032 0.69 1075 0.81 1109 0.90 1143 1.00 1179 1.11 1216 1.23 1250 1.35 1284 1.47 1316 1.59 3400 1087 0.80 1128 0.90 1168 1.02 1206 1.15 1233 1.24 1264 1.36 1297 1.48 1330 1.60 1363 1.74 1392 1.87 3740 1188 1.04 1224 1.15 1262 1.27 1298 1.41 1332 1.55 1355 1.65 1382 1.76 1413 1.90 1442 2.04 1473 2.18 4080 1290 1.32 1323 1.45 1358 1.57 1391 1.71 1423 1.87 1454 2.01 1476 2.12 1498 2.24 1527 2.40 1554 2.54 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 1700* 1078 0.88 1113 0.97 1145 1.06 1177 1.15 1209 1.25 1238 1.34 1266 1.43 1295 1.54 1322 1.63 1349 1.74 2040* 1142 1.05 1175 1.14 1207 1.24 1239 1.34 1269 1.44 1299 1.54 1327 1.65 1355 1.76 1382 1.86 1409 1.97 2380* 1207 1.23 1240 1.34 1272 1.44 1303 1.55 1333 1.67 1362 1.78 1390 1.89 1416 2.00 1444 2.12 1469 2.23 2720 1276 1.45 1308 1.57 1340 1.69 1370 1.80 1399 1.92 1427 2.04 1454 2.16 1481 2.28 1507 2.41 1534 2.54 3060 1347 1.71 1378 1.83 1408 1.95 1437 2.08 1466 2.21 1493 2.33 1521 2.47 1548 2.60 1574 2.73 1600 2.87 3400 1423 2.00 1453 2.13 1481 2.27 1507 2.39 1535 2.53 1562 2.67 1590 2.81 1616 2.96 1641 3.10 1667 3.25 3740 1501 2.33 1528 2.47 1557 2.62 1584 2.76 1610 2.91 1636 3.06 1660 3.20 1685 3.35 - - - - 4080 1582 2.69 1609 2.85 1635 3.01 1661 3.17 1686 3.32 - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 1700, 2040, and 2380 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton 158 RT-PRCO23AL-EN RT-PRCO23AL-EN 159 Evaporator Fan Performance Table 110. Direct drive evaporator fan performance - 81/2 tons high efficiency-YHC102F3,F4,FW low & medium gas heat, downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2720 913 0.48 950 0.55 984 0.63 1017 0.70 1047 0.77 1073 0.85 1100 0.92 1128 0.99 1154 1.07 1180 1.15 3060 1017 0.66 1052 0.74 1084 0.83 1113 0.91 1143 1.00 1169 1.08 1194 1.16 1217 1.24 1241 1.32 1266 1.40 3400 1122 0.88 1155 0.98 1184 1.07 1212 1.16 1239 1.25 1265 1.35 1290 1.44 1312 1.53 1334 1.62 1355 1.71 3740 1227 1.15 1259 1.26 1286 1.36 1312 1.46 1337 1.56 1362 1.66 1386 1.77 1409 1.87 1430 1.97 1450 2.07 4080 1333 1.47 1363 1.59 1389 1.70 1414 1.81 1437 1.92 1460 2.03 1482 2.14 1504 2.26 1526 2.37 1547 2.48 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1..90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2720 1206 1.23 1231 1.31 1254 1.39 1277 1.47 1299 1.55 1322 1.63 1343 1.71 1364 1.80 1384 1.89 1404 1.97 3060 1290 1.49 1313 1.58 1337 1.67 1359 1.75 1380 1.84 1401 1.93 1422 2.02 1443 2.12 1463 2.21 1482 2.30 3400 1376 1.80 1398 1.89 1421 1.99 1442 2.08 1463 2.18 1483 2.28 1503 2.37 1524 2.48 1543 2.58 1563 2.68 3740 1469 2.16 1489 2.26 1508 2.36 1528 2.46 1548 2.57 1568 2.67 1587 2.78 1606 2.88 1625 2.99 1644 3.10 4080 1566 2.59 1583 2.69 1601 2.80 1619 2.91 1636 3.01 1654 3.12 1673 3.24 1692 3.35 - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT-PRCO23AL-EN 159 Evaporator Fan Performance Table 111. Direct drive evaporator fan performance - 81/2 tons high efficiency-YHC102F3,F4,FW low & medium gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2720 925 0.49 975 0.60 1020 0.70 1061 0.80 1098 0.90 1141 1.02 1179 1.13 1218 1.26 1259 1.40 1296 1.53 3060 1028 0.67 1074 0.79 1117 0.90 1155 1.02 1191 1.13 1226 1.25 1262 1.37 1297 1.50 1331 1.63 1366 1.77 3400 1133 0.89 1175 1.02 1213 1.15 1251 1.28 1286 1.40 1317 1.53 1351 1.66 1379 1.78 1415 1.94 1445 2.08 3740 1239 1.16 1276 1.29 1313 1.44 1348 1.58 1381 1.72 1413 1.86 1441 2.00 1472 2.15 1499 2.28 1528 2.43 4080 1344 1.48 1379 1.62 1414 1.78 1446 1.93 1479 2.09 1508 2.24 1537 2.39 1564 2.54 1591 2.70 1619 2.86 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2720 1332 1.66 1369 1.80 1403 1.94 1437 2.08 1470 2.23 1502 2.38 1533 2.53 1564 2.69 1594 2.84 1623 3.00 3060 1402 1.93 1436 2.08 1469 2.22 1501 2.37 1533 2.53 1564 2.68 1596 2.85 1625 3.01 1654 3.18 1685 3.36 3400 1476 2.22 1507 2.38 1539 2.54 1571 2.71 1602 2.88 1631 3.04 1660 3.21 - - - - - - 3740 1559 2.60 1586 2.75 1615 2.91 1643 3.08 1672 3.25 - - - - - - - - - - 4080 1642 3.00 1669 3.17 1699 3.36 - - - - - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 160 RT-PRCO23AL-EN CTi.�3^ Evaporator Fan Performance Table 112. Direct drive evaporator fan performance - 81/2 tons high efficiency-YHC102F3,F4,FW high gas heat, downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2720 917 0.49 957 0.56 993 0.64 1021 0.71 1050 0.78 1077 0.85 1105 0.93 1132 1.00 1159 1.08 1184 1.16 3060 1022 0.67 1059 0.76 1092 0.84 1122 0.92 1147 1.01 1173 1.09 1197 1.17 1221 1.25 1246 1.33 1271 1.42 3400 1128 0.90 1161 0.99 1192 1.09 1222 1.18 1248 1.27 1270 1.36 1294 1.46 1316 1.55 1338 1.63 1360 1.72 3740 1235 1.18 1264 1.28 1294 1.38 1322 1.49 1349 1.59 1372 1.69 1392 1.79 1413 1.89 1435 1.99 1455 2.09 4080 1342 1.51 1368 1.62 1397 1.73 1423 1.84 1448 1.96 1472 2.07 1494 2.18 1512 2.29 1531 2.40 1551 2.51 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2720 1209 1.24 1233 1.32 1256 1.41 1279 1.49 1301 1.57 1323 1.66 1344 1.75 1364 1.83 1384 1.92 1404 2.01 3060 1295 1.51 1318 1.60 1340 1.69 1362 1.78 1384 1.87 1404 1.96 1424 2.05 1444 2.15 1465 2.25 1483 2.34 3400 1382 1.82 1405 1.91 1426 2.01 1447 2.11 1468 2.21 1488 2.31 1507 2.41 1528 2.51 1547 2.62 1565 2.72 3740 1474 2.18 1494 2.28 1515 2.39 1534 2.49 1555 2.60 1574 2.70 1593 2.81 1612 2.92 1630 3.03 1648 3.14 4080 1571 2.62 1589 2.72 1607 2.83 1625 2.93 1643 3.05 1662 3.16 1680 3.27 - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT PRCO23AL-EN 161 Evaporator Fan Performance Table 113. Direct drive evaporator fan performance - 81/2 tons high efficiency-YHC102F3,F4,FW high gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2720 932 0.50 984 0.61 1030 0.72 1072 0.83 1119 0.95 1157 1.06 1196 1.18 1236 1.31 1277 1.45 1314 1.59 3060 1035 0.68 1083 0.81 1127 0.93 1166 1.05 1204 1.17 1244 1.30 1282 1.44 1315 1.56 1351 1.71 1387 1.86 3400 1140 0.91 1184 1.04 1225 1.18 1264 1.32 1297 1.44 1332 1.58 1367 1.72 1405 1.88 1436 2.02 1466 2.16 3740 1245 1.18 1286 1.32 1324 1.47 1360 1.62 1395 1.78 1426 1.91 1456 2.06 1489 2.22 1523 2.39 1556 2.56 4080 1351 1.50 1389 1.66 1425 1.82 1459 1.98 1492 2.15 1524 2.31 1552 2.47 1578 2.61 1608 2.79 1639 2.96 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2720 1349 1.72 1383 1.86 1415 1.99 1447 2.13 1477 2.27 1506 2.41 1536 2.56 1564 2.70 1592 2.85 1618 2.99 3060 1423 2.01 1457 2.16 1489 2.31 1520 2.46 1549 2.61 1579 2.76 1608 2.92 1634 3.07 1663 3.23 - - 3400 1497 2.32 1529 2.48 1562 2.66 1593 2.82 1625 3.00 1652 3.16 1681 3.33 - - - - - - 3740 1582 2.70 1608 2.85 1638 3.03 1667 3.21 - - - - - - - - - - - - 4080 1669 3.15 1699 3.33 - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 162 RT-PRCO23AL-EN RT PRCO23AL-E N 163 Evaporator Fan Performance Table 114. Direct drive evaporator fan performance - 10 tons high efficiency-THC120F3,F4 downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2000* 666 0.19 713 0.24 756 0.29 799 0.35 836 0.41 876 0.47 916 0.54 953 0.62 988 0.69 1021 0.77 2400* 780 0.29 822 0.35 860 0.42 895 0.48 933 0.55 966 0.62 997 0.69 1030 0.77 1063 0.85 1096 0.93 2800* 897 0.44 933 0.51 969 0.58 1001 0.65 1031 0.73 1063 0.81 1094 0.90 1122 0.98 1148 1.05 1176 1.14 3200 1014 0.63 1047 0.71 1079 0.79 1110 0.88 1138 0.96 1164 1.04 1191 1.13 1219 1.22 1247 1.32 1272 1.42 3600 1133 0.87 1163 0.96 1191 1.06 1220 1.15 1247 1.24 1272 1.33 1296 1.42 1319 1.52 1343 1.62 1368 1.73 4000 1252 1.17 1280 1.28 1306 1.38 1332 1.48 1356 1.58 1381 1.68 1404 1.78 1426 1.89 1447 1.99 1468 2.10 4400 1372 1.54 1397 1.65 1422 1.76 1445 1.87 1468 1.99 1491 2.10 1514 2.21 1535 2.32 1555 2.44 1575 2.55 4800 1492 1.98 1516 2.10 1538 2.22 1560 2.34 1582 2.47 1603 2.59 1624 2.71 1644 2.83 1665 2.95 1684 3.08 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2000* 1053 0.84 1084 0.92 1114 1.00 1142 1.09 1170 1.17 1197 1.25 1224 1.34 1248 1.43 1273 1.52 1297 1.61 2400* 1127 1.02 1158 1.11 1187 1.20 1215 1.29 1242 1.38 1268 1.47 1294 1.57 1319 1.66 1343 1.76 1367 1.86 2800* 1205 1.23 1234 1.32 1262 1.42 1290 1.52 1317 1.62 1342 1.72 1367 1.83 1392 1.93 1416 2.04 1439 2.14 3200 1295 1.51 1317 1.59 1342 1.69 1368 1.79 1393 1.90 1418 2.01 1443 2.12 1468 2.24 1491 2.35 1514 2.47 3600 1393 1.84 1418 1.96 1438 2.06 1458 2.15 1478 2.25 1500 2.35 1522 2.47 1545 2.59 1569 2.71 1591 2.83 4000 1490 2.21 1512 2.33 1535 2.45 1558 2.58 1578 2.70 1597 2.81 1615 2.92 1634 3.03 1652 3.14 1672 3.26 4400 1594 2.67 1613 2.79 1632 2.90 1653 3.03 1673 3.16 1694 3.31 - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 2000, 2400, and 2800 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat'" and Crankcase Heaters are required on applications below 320 CFM/Ton RT PRCO23AL-E N 163 Evaporator Fan Performance Table 115. Direct drive evaporator fan performance - 10 tons high efficiency-THC120F3,F4 horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2000* 685 0.20 740 0.27 796 0.34 847 0.42 894 0.50 940 0.58 984 0.67 1024 0.75 1063 0.84 1099 0.93 2400* 797 0.32 852 0.40 894 0.48 940 0.57 984 0.66 1027 0.75 1066 0.85 1105 0.94 1141 1.04 1177 1.14 2800* 911 0.47 961 0.57 1005 0.67 1039 0.75 1079 0.85 1119 0.96 1155 1.06 1193 1.18 1226 1.28 1259 1.40 3200 1029 0.68 1072 0.77 1114 0.89 1151 1.00 1179 1.09 1215 1.21 1250 1.33 1285 1.45 1316 1.57 1348 1.70 3600 1147 0.93 1185 1.04 1224 1.16 1260 1.30 1293 1.42 1316 1.51 1349 1.65 1379 1.78 1410 1.91 1442 2.05 4000 1267 1.25 1300 1.38 1335 1.49 1370 1.64 1402 1.79 1433 1.93 1453 2.02 1479 2.16 1509 2.31 1535 2.45 4400 1386 1.64 1417 1.77 1449 1.90 1481 2.04 1512 2.21 1541 2.37 1569 2.53 1591 2.65 1609 2.76 1637 2.93 4800 1506 2.09 1536 2.24 1563 2.40 1593 2.53 1622 2.69 1651 2.88 1677 3.06 - - - - - - Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 2000* 1135 1.03 1169 1.12 1201 1.22 1233 1.32 1262 1.42 1292 1.52 1321 1.62 1349 1.73 1376 1.84 1402 1.94 2400* 1212 1.25 1245 1.35 1277 1.46 1307 1.57 1338 1.68 1367 1.79 1394 1.91 1421 2.02 1448 2.14 1473 2.25 2800* 1292 1.51 1324 1.62 1355 1.74 1386 1.87 1415 1.99 1443 2.11 1471 2.23 1497 2.35 1523 2.48 1550 2.61 3200 1380 1.83 1408 1.95 1437 2.07 1466 2.20 1495 2.34 1522 2.47 1550 2.61 1577 2.75 1602 2.88 1628 3.02 3600 1470 2.19 1498 2.32 1527 2.47 1554 2.61 1579 2.75 1605 2.89 1631 3.03 1657 3.18 1681 3.33 - - 4000 1564 2.60 1592 2.76 1618 2.91 1644 3.07 1670 3.22 1695 3.38 - - - - - - - - 4400 1661 3.09 1687 3.25 - - - - - - - - - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. * For 2000, 2400, and 2800 CFM, unit application below 320 CFM/Ton are only applicable on T_C models only (No Gas Heat). See below for restrictions. * For electric heat applications, minimum airflow is set to 320 cfm/ton, unless specified otherwise, values found in electric heat temperature rise table. * Dehumidification (Hot Gas Reheat) or TXV with Frostat- and Crankcase Heaters are required on applications below 320 CFM/Ton 164 RT-PRCO23AL-EN Evaporator Fan Performance Table 116. Direct drive evaporator fan performance - 10 tons high efficiency-YHC120F3,F4,FW low & medium gas heat, downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 dm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1036 0.65 1065 0.73 1088 0.81 1116 0.89 1143 0.98 1169 1.06 1195 1.14 1218 1.23 1244 1.32 1268 1.41 3600 1156 0.91 1186 1.00 1208 1.08 1229 1.17 1253 1.27 1278 1.36 1301 1.45 1325 1.54 1346 1.63 1368 1.73 4000 1277 1.22 1307 1.32 1329 1.42 1348 1.51 1367 1.62 1389 1.72 1411 1.82 1432 1.93 1453 2.03 1474 2.13 4400 1399 1.60 1427 1.71 1450 1.82 1469 1.93 1485 2.03 1503 2.15 1522 2.26 1543 2.37 1562 2.49 1582 2.60 4800 1521 2.06 1547 2.18 1571 2.30 1590 2.41 1606 2.53 1621 2.65 1636 2.77 1655 2.89 1674 3.02 1692 3.14 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1292 1.50 1317 1.59 1339 1.69 1361 1.78 1383 1.87 1403 1.97 1425 2.07 1445 2.17 1465 2.27 1484 2.37 3600 1391 1.83 1413 1.94 1435 2.04 1456 2.14 1477 2.25 1497 2.35 1517 2.46 1537 2.56 1555 2.67 1575 2.78 4000 1494 2.23 1514 2.34 1533 2.45 1553 2.56 1573 2.67 1592 2.79 1612 2.91 1631 3.02 1650 3.14 1668 3.26 4400 1602 2.71 1620 2.82 1638 2.93 1655 3.05 1673 3.17 1691 3.29 - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S.Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT PRCO23AL-E N 165 Evaporator Fan Performance Table 117. Direct drive evaporator fan performance - 10 tons high efficiency-YHC120F3,F4,FW low & medium gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1014 0.62 1054 0.72 1092 0.82 1125 0.92 1153 1.01 1180 1.11 1209 1.21 1237 1.32 1265 1.42 1291 1.53 3600 1131 0.86 1167 0.97 1202 1.08 1235 1.19 1263 1.30 1289 1.41 1313 1.52 1338 1.63 1364 1.74 1388 1.86 4000 1248 1.14 1281 1.27 1314 1.39 1345 1.51 1374 1.64 1400 1.76 1423 1.88 1445 2.00 1467 2.12 1490 2.25 4400 1367 1.49 1397 1.63 1427 1.77 1456 1.90 1484 2.04 1510 2.17 1534 2.31 1556 2.44 1576 2.58 1597 2.71 4800 1485 1.91 1514 2.06 1541 2.21 1568 2.35 1595 2.50 1620 2.65 1645 2.80 1667 2.95 1687 3.10 - - Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1317 1.65 1345 1.76 1372 1.88 1398 2.00 1423 2.12 1448 2.25 1472 2.38 1496 2.50 1519 2.63 1541 2.76 3600 1413 1.98 1437 2.10 1460 2.22 1484 2.35 1509 2.49 1532 2.62 1555 2.75 1579 2.89 1602 3.03 1623 3.17 4000 1512 2.37 1535 2.50 1557 2.63 1579 2.77 1600 2.90 1621 3.04 1642 3.19 1664 3.33 1686 3.48 - - 4400 1616 2.84 1637 2.98 1658 3.12 1678 3.26 1698 3.40 - - - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 5. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 166 RT PRCO23AL-EN RT-PRCO23AL-EN 167 Evaporator Fan Performance Table 118. Direct drive evaporator fan performance - 10 tons high efficiency-YHC120F3,F4,FW high gas heat, downflow airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1051 0.68 1081 0.76 1102 0.84 1126 0.92 1153 1.00 1179 1.08 1204 1.17 1229 1.25 1252 1.34 1276 1.42 3600 1175 0.95 1203 1.03 1225 1.12 1243 1.21 1266 1.31 1289 1.39 1313 1.49 1336 1.58 1358 1.67 1380 1.77 4000 1299 1.27 1326 1.37 1348 1.47 1366 1.57 1382 1.67 1403 1.77 1424 1.87 1445 1.97 1466 2.07 1487 2.18 4400 1423 1.67 1448 1.78 1471 1.89 1490 2.00 1505 2.11 1519 2.22 1538 2.33 1557 2.44 1577 2.55 1596 2.66 4800 1548 2.15 1571 2.27 1593 2.38 1612 2.50 1629 2.62 1642 2.74 1655 2.86 1672 2.99 1689 3.11 - - Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1300 1.52 1323 1.61 1346 1.71 1368 1.80 1389 1.90 1410 1.99 1430 2.09 1450 2.19 1470 2.29 1489 2.38 3600 1401 1.87 1423 1.97 1444 2.07 1464 2.17 1485 2.27 1505 2.38 1524 2.48 1545 2.59 1563 2.70 1582 2.81 4000 1506 2.28 1526 2.39 1546 2.50 1564 2.60 1583 2.71 1602 2.82 1622 2.94 1640 3.06 1659 3.18 1676 3.29 4400 1615 2.77 1633 2.89 1652 3.01 1670 3.12 1687 3.24 - - - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. RT-PRCO23AL-EN 167 Evaporator Fan Performance Table 119. Direct drive evaporator fan performance - 10 tons high efficiency-YHC120F3,F4,FW high gas heat, horizontal airflow External Static Pressure (Inches of Water) 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1002 0.60 1043 0.70 1081 0.80 1113 0.89 1142 0.99 1171 1.09 1200 1.19 1230 1.30 1259 1.41 1287 1.52 3600 1118 0.83 1155 0.94 1190 1.05 1222 1.15 1250 1.26 1276 1.38 1302 1.49 1328 1.60 1354 1.72 1381 1.84 4000 1234 1.11 1268 1.23 1300 1.35 1331 1.47 1359 1.59 1385 1.71 1408 1.83 1431 1.96 1454 2.08 1478 2.21 4400 1350 1.45 1382 1.58 1412 1.72 1440 1.85 1468 1.98 1494 2.11 1517 2.24 1539 2.38 1560 2.52 1581 2.65 4800 1467 1.85 1497 2.00 1524 2.15 1551 2.29 1578 2.43 1603 2.57 1626 2.72 1648 2.87 1669 3.01 1688 3.16 Continued External Static Pressure (Inches of Water) 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 cfm rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp rpm bhp 3200 1315 1.63 1344 1.75 1370 1.87 1398 2.00 1424 2.12 1449 2.25 1473 2.38 1497 2.50 1521 2.64 1543 2.76 3600 1406 1.96 1432 2.08 1456 2.20 1482 2.33 1507 2.47 1531 2.60 1555 2.74 1579 2.88 1602 3.02 1623 3.16 4000 1502 2.34 1526 2.47 1549 2.60 1573 2.74 1595 2.88 1617 3.01 1640 3.16 1663 3.31 1685 3.46 - - 4400 1602 2.79 1624 2.92 1645 3.06 1667 3.21 1689 3.36 - - - - - - - - - - 4800 - - - - - - - - - - - - - - - - - - - - Notes: 1. For Direct Drive Fan Speed (RPM), reference Table 125, p. 170. 2. Data includes pressure drop due to standard filters and wet coils. 3. Refer to Table 128, p. 173 to determine additional static pressure drop due to other options/accessories. 4. Direct Drive Fan Motor Heat (MBH) = 2.8623 x Fan BHP - 0.1504 S. Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product's warranty will not be affected. 168 RT-PRCO23AL-EN �0 TANVE, Fan Performance Table 120. Standard motor & sheave/fan speed (rpm) Tons Unit Model Number Fan Sheave 6 Turns Open 5 Turns Open 4 Turns Open 3 Turns Open 2 Turns Open 1 Turn Open Closed 6 T/YSC072F AK64x1" N/A 723 779 835 890 946 1002 7 Y T/YSC090F AK59x1" N/A 805 865 925 985 1045 1105 71/2 T/YSC092F AK59x1" N/A 639 696 753 810 867 924 81/2 T/YSC102F AK64x1" N/A 767 807 847 888 928 1036 3 T/YHC036E AK510/4" N/A 765 835 905 975 1045 1115 4 T/YHC048E AK54x3/4" N/A 729 794 860 926 911 1057 4 T/YHC048F AK54x3/4" N/A 729 794 860 926 911 1057 5 T/YHC060E AK49x3/4" N/A 801 871 942 1012 1083 1154 5 T/YHC060F AK490/4" N/A 801 871 942 1012 1083 1154 6 T/YHC072* AK64x1" N/A 728 784 840 896 952 1008 Note: Factory set at 3 turns open. THC060E,F AK99x3/4" N/A 385 424 462 501 Table 121. Standard motor & low static drive accessory sheave/fan speed (rpm) Tons Unit Model Number Fan Sheave 6 Turns Open 5 Turns Open 4 Turns Open 3 Turns Open 2 Turns Open 1 Turn Open Closed 71/2 T/YSC090F AK74x1" N/A 602 650 698 746 794 842 71/2 TSC092F AK99x1" N/A 462 498 533 569 604 640 71/2 TSC092F AK79x1" N/A 614 657 700 743 786 829 81/2 TSC102F AK99x1" N/A 512 548 583 619 654 690 81/2. TSC102F AK79x1" N/A 631 676 721 766 811 856 3 YHC036E AK71x3/4" N/A 556 607 657 707 758 808 3 THC036E AK990/4" N/A 385 424 462 501 539 578 4 YHC048E,F AK71x3/4" N/A 556 607 657 707 758 808 4 THC048E,F AK990/4" N/A 385 424 462 501 539 578 5 YHC060E,F AK71x3/4" N/A 556 607 657 707 758 808 5 THC060E,F AK99x3/4" N/A 385 424 462 501 539 578 6 YHC072E,F AK79x1" N/A 581 626 671 716 761 805 6 THC072E,F AK99x1" N/A 462 497 533 569 604 640 Note: Factory set at 3 turns open. Table 122. Standard motor & high static drive accessory sheave/fan speed (rpm) Tons Unit Model Number Fan Sheave 6 Turns Open 5 Turns Open 4 Turns 3 Turns 2 Turns Open Open Open 1 Turn Open Closed 6 T/YSC072F AK56x1" N/A 831 895 959 1022 1086 1150 3 T/YHC036E AK41x3/4" N/A N/A 967 1040 1113 1187 N/A 4 T/YHC048E,F AK41x3/4" N/A N/A 966 1048 1132 1215 N/A 5 T/YHC060E,F AK41x3/4" N/A N/A 961 1041 1122 1203 N/A Note: Factory set at 3 turns open. RT-PRCO23AL-EN 169 Fan Performance Table 123. Oversized motor & drive sheave/fan speed (rpm) Tons Unit Model Number 6 Turns Open 5 Turns Open 4 Turns Open 3 Turns 2 Turns Open Open 1 Turn Open Closed 6 T/YSC072F AK56x1" N/A 958 1022 1086 1150 1214 71/2 T/YSC090F AK56x1" N/A 958 1022 1086 1150 1214 71/2 T/YSC092F AK64x1" 860 910 960 1010 1060 1110 81/2 T/YSC102F AK56x1" 998 1050 1103 1155 1207 1260 6 T/YHC072E,F AK56x1" N/A 885 948 1010 1073 1135 Notes: Factory set at 3 turns open. * Indicates both standard and high efficiency units and both ReliaTel'" and Electromechanical controls. Table 124. Oversized motor & high static drive sheave/fan speed (rpm) Tons Unit Model Number 6 Turns Open 5 Turns Open 4 Turns Open 3 Turns 2 Turns 1 Turn Open Open Open Closed 6 T/YSC072F AK54x1" N/A 995 1061 1128 1194 1261 71/2 T/YSC090F BK52x1" N/A 1127 1197 1268 1338 1409 71/2 T/YSC092F AK56x1" 986 1043 1099 1156 1212 1269 Notes: Factory set at 3 turns open. * Indicates both standard and high efficiency units and both ReliaTel— and Electromechanical controls. Table 125. Direct drive plenum fan settings (rpm vs. voltage)(a),(b) T/YHC074F, T/YHC092F, T/YHC102F, T/YSC120F, T/YHC120F Potentiometer Voltage Motor RPM 1.25 217 1.5 312 1.75 362 2.0 427 2.25 479 2.50 543 2.75 605 3.00 668 3.25 732 3.50 797 3.75 863 4.00 929 4.25 995 4.50 1061 4.75 1126 5.00 1191 5.25 1253 5.50 1315 5.75 1374 6.00 1432 6.25 1487 6.50 1539 170 RT-PRCO23AL-EN Fan Performance Table 125. Direct drive plenum fan settings (rpm vs. voltage)(a),(b) (continued) T/YHC074F, T/YHC092F, T/YHC102F, T/YSC120F, T/YHC120F Potentiometer Voltage Motor RPM 6.75 1588 7.00 1633 7.25 1675 7.50 1700 (a) See fan tables for unit rpm and cfm units. (b) Factory setting is 5V. Table 126. Outdoor sound power level - dB (ref. 10 - 12 W) Tons Unit Model Number 63 125 250 Octave 500 Center Frequency 1000 2000 4000 8000 Overall dBA 3 T/YSCO(33,036)G 85 86 79 76 73 69 65 63 79 4 T/YSCO(43,48)G(a) 90 82 79 76 75 70 66 64 80 5 T/YSC060G 84 80 80 79 77 72 67 65 81 6 T/YSC072F 91 95 90 87 84 79 75 68 89 71/2 T/YSC090F 91 95 90 87 84 79 75 68 89 71/2 T/YSCO92F 92 96 92 89 85 80 76 69 91 81/2 T/YSC102F 91 95 90 87 84 79 75 68 89 10 T/YSC120F 91 86 90 86 82 78 73 67 88 3 T/YHC036E 79 85 79 79 77 71 67 58 81 4 T/YHC048E 80 86 84 85 83 79 73 67 87 4 T/YHC048F 80 86 84 85 83 79 73 67 87 5 T/YHC060E 80 86 84 85 83 79 73 67 87 5 T/YHC060F 80 86 84 85 83 79 73 67 87 6 T/YHC072E,F 91 95 90 87 84 79 75 68 89 6 T/YHC074F 91 95 90 87 84 79 75 68 89 71/2 T/YHC092F 91 86 90 86 82 78 73 67 88 81/2 T/YHC102F 83 85 85 86 84 78 74 70 88 10 T/YHC120F 89 87 91 85 80 77 73 66 87 Note: Tests follow ARI270-95. (a) T/YSC063G models have same sound ratings as T/YSCO(43,48)G. RT-PRCO23AL-EN 171 Fan Performance Table 127. Static pressure drop through accessories (inches water column) - 3 to 10 tons (a) OA = Outside Air and RA = Return Air. (b) Nominal kW ratings at 240, 480, 600 volts. Heaters only available on T units. (c) Electric heaters restricted on applications below 320 cfm/Ton. (d)Tested with standard filters. Difference in pressure drop should be considered when utilizing optional 2" MERV 8 and MERV 13 filters. (e) Low Leak - Downflow only. 172 RT-PRCO23AL-EN Electric Heater Economizer with OA/RA Dampers(a) Accessory (kW)(b),(c) 2" 2"MERV 100% 100% 100% 100% 100%1100% Unit Model Standard MERV 8 13 OA RA OA RA OA I RA 5-6 9-18 23-36 54 Tons Number cfm Filters(d) Filter Filter Downflow Low Leak(e) Horizontal 3 T/YSC033/036G 960 0.01 0.03 0.04 0.04 0.01 0.11 0.04 0.04 0.01 0.01 0.01 0.01 - 3 T/YSC033/036G 1200 0.02 0.04 0.05 0.06 0.01 0.17 0.07 0.06 0.01 0.02 0.02 0.02 - 3 T/YSC033/036G 1440 0.03 0.05 0.06 0.08 0.02 0.23 0.09 0.08 0.01 0.02 0.03 0.03 - 4 T/YSC043/048G 1280 0.03 0.05 0.06 0.09 0.02 0.08 0.04 0.09 0.01 0.02 0.03 0.03 - 4 T/YSC043/048G 1600 0.04 0.07 0.07 0.13 0.04 0.13 0.08 0.13 0.02 0.04 0.05 0.05 - 4 T/YSC043/048G 1920 0.06 0.10 0.08 0.17 0.06 0.20 0.09 0.17 0.02 0.05 0.06 0.08 - 5 T/YSC060/063G 1600 0.04 0.07 0.07 0.13 0.04 0.14 0.08 0.13 0.02 0.04 0.05 0.05 - 5 T/YSC060/063G 2000 0.06 0.10 0.09 0.18 0.07 0.22 0.10 0.18 0.02 0.06 0.07 0.08 - 5 T/YSC060/063G 2400 0.08 0.13 0.10 0.25 0.11 0.31 0.11 0.25 0.03 0.08 0.10 0.12 - 6 T/YSC072F 1920 0.04 0.07 0.10 0.10 0.01 0.20 0.09 0.06 0.02 - 0.01 0.02 - 6 T/YSC072F 2400 0.06 0.09 0.13 0.11 0.02 0.31 0.11 0.08 0.02 - 0.02 0.03 - 6 T/YSC072F 2880 0.09 0.12 0.15 0.13 0.04 0.46 0.19 0.10 0.04 - 0.03 0.05 - 7'/z T/YSC090F 2400 0.04 0.06 0.12 0.11 0.02 0.20 0.09 0.08 0.02 - 0.02 0.02 - 71/z T/YSC090F 3000 0.06 0.09 0.13 0.14 0.05 0.31 0.11 0.12 0.05 - 0.03 0.03 - 7Yz T/YSC090F 3600 0.09 0.13 0.15 0.21 0.07 0.46 0.19 0.25 0.08 - 0.04 0.05 - 71/2 T/YSC092F 2400 0.04 0.06 0.12 0.11 0.02 0.20 0.11 0.08 0.02 - 0.02 0.02 - 71/2 T/YSC092F 3000 0.06 0.09 0.13 0.14 0.05 0.31 0.20 0.12 0.05 - 0.03 0.03 - 71/z T/YSC092F 3600 0.09 0.13 0.15 0.21 0.07 0.46 0.30 0.25 0.08 - 0.04 0.05 - 8'/z T/YSC102F 2720 0.05 0.08 0.13 0.12 0.03 0.42 0.18 0.09 0.04 - 0.02 0.03 - 81/z T/YSC102F 3400 0.08 0.11 0.14 0.19 0.06 0.63 0.21 0.18 0.06 - 0.03 0.04 - 8'/2 T/YSC102F 4080 0.12 0.16 0.16 0.30 0.07 0.91 0.34 0.31 0.09 - 0.05 0.06 - 10 T/YSC120F 3200 0.07 0.10 0.14 0.17 0.05 0.42 0.18 0.14 0.05 - 0.02 0.03 0.05 10 T/YSC12017 4000 0.11 0.15 0.16 0.26 0.07 0.63 0.21 0.30 0.08 - 0.02 0.03 0.05 10 1 T/YSC120F 4800 0.16 0.20 0.18 0.34 0.09 0.91 0.34 0.35 0.10 - 0.03 0.04 0.06 (a) OA = Outside Air and RA = Return Air. (b) Nominal kW ratings at 240, 480, 600 volts. Heaters only available on T units. (c) Electric heaters restricted on applications below 320 cfm/Ton. (d)Tested with standard filters. Difference in pressure drop should be considered when utilizing optional 2" MERV 8 and MERV 13 filters. (e) Low Leak - Downflow only. 172 RT-PRCO23AL-EN Fan Performance Table 128. Static pressure drop through accessories (inches water column) - 3 to 10 tons (a) OA = Outside Air and RA = Return Air. (b) Nominal kW ratings at 240, 480, 600 volts. Heaters only available on T units. (c) Electric heaters restricted on applications below 320 cfm/Ton. (d)Tested with standard filters. Difference in pressure drop should be considered when utilizing optional 2" MERV 8 and MERV 13 filters. (e) Low Leak - Downflow only. RT-PRCO23AL-EN 173 Electric Heater Accessory Economizer with OA/RA Dampers(a) (kW)(b),(c) 2" 2" 100% 100% 100%1100% 100% 100% 9- 23- Unit Model Std. MERV 8 MERV 13 Reheat OA I RA OA I RA OA RA 5-6 18 36 54 Tons Number cfm Filters(d) Filter Filter Coil Downflow Low Leak(e) Horizontal 3 T/YHC036E3,4,W 600 0.01 0.02 0.03 0.04 0.03 0.01 0.04 0.01 0.03 0.01 - - - - 3 T/YHC036E3,4,W 960 0.01 0.03 0.04 0.08 0.04 0.01 0.11 0.04 0.04 0.01 0.01 0.010.01 - 3 T/YHC036E3,4,W 1200 0.02 0.04 0.05 0.10 0.06 0.01 0.17 0.07 0.06 0.01 0.02 0.02 0.02 - 3 T/YHC036E3,4,W 1440 0.03 0.05 0.06 0.14 0.08 0.02 0.23 0.09 0.08 0.01 0.02 0.03 0.03 - 4 T/YHC048E/ 800 0.01 0.03 0.04 0.03 0.06 0.00 0.02 0.03 0.03 0.01 - - - - F3,4, W 4 T/YHC048E/ 1280 0.02 0.04 0.03 0.07 0.08 0.00 0.08 0.04 0.04 0.01 0.01 0.00 0.01 - F3,4, W 4 T/YHC048E/ 1600 0.03 0.06 0.05 0.09 0.09 0.01 0.13 0.08 0.05 0.02 0.02 0.01 0.02 - F3,4, W 4 T/YHC048E/ 1920 0.05 0.08 0.07 0.12 0.10 0.01 0.20 0.09 0.07 0.02 0.02 0.01 0.03 - F3,4, W 5 T/YHC060E/ 1000 0.01 0.04 0.03 0.05 0.06 0.01 0.04 0.03 0.06 0.01 - - - - F3,4,W 5 T/YHC060E/ 1600 0.03 0.06 0.08 0.09 0.09 0.01 0.14 0.08 0.05 0.01 0.02 0.01 0.02 - F3,4, W 5 T/YHC060E/ 2000 0.05 0.08 0.11 0.13 0.11 0.01 0.22 0.10 0.07 0.02 0.02 0.02 0.03 - F3,4, W 5 T/YHC060E/ 2400 0.07 0.10 0.13 0.17 0.12 0.03 0.31 0.11 0.09 0.04 0.03 0.02 0.04 - F3,4, W 6 T/YHC072E/F 1920 0.04 0.070.10 0.03 0.10 0.01 0.20 0.09 0.06 0.02 - 0.01 0.02 - 6 T/YHC072E/F 2400 0.06 0.09 0.13 0.07 0.11 0.02 0.31 0.11 0.08 0.02 - 0.02 0.03 - 6 T/YHC072E/F 2880 0.09 0.12 0.15 0.12 0.13 0.04 0.46 0.19 0.10 0.04 - 0.03 0.05 - 6 T/YHC074F 1920 0.03 0.04 0.10 - 0.09 0.01 0.13 0.08 0.06 0.01 - 0.01 0.01 - 6 T/YHC074F 2400 0.04 0.06 0.12 - 0.11 0.02 0.20 0.11 0.08 0.02 - 0.01 0.01 - 6 T/YHC074F 2880 0.06 0.08 0.13 - 0.13 0.04 0.29 0.18 0.11 0.04 - 0.01 0.02 - 71/z T/YHC092F 1500 0.02 0.03 0.08 0.03 0.07 0.01 0.07 0.05 0.04 0.01 - - - - 71/2 T/YHC092F 2400 0.04 0.06 0.12 0.06 0.11 0.02 0.20 0.11 0.08 0.02 - 0.01 0.01 - 71/2 T/YHC092F 3000 0.06 0.09 0.13 0.08 0.14 0.05 0.31 0.20 0.12 0.05 - 0.01 0.02 - 71/2 T/YHC092F 3600 0.09 0.13 0.15 0.11 0.21 0.07 0.46 0.30 0.25 0.08 - 0.02 0.03 - 81/2 T/YHC102F 1700 0.02 0.05 0.11 0.04 0.07 0.01 0.16 0.09 0.05 0.02 - - - - 81/2 T/YHC102F 2720 0.05 0.08 0.13 0.07 0.12 0.03 0.42 0.18 0.09 0.04 - 0.01 0.02 - 81/2 T/YHC102F 3400 0.08 0.11 0.14 0.10 0.19 0.06 0.63 0.21 0.18 0.06 - 0.02 0.02 - 81/2 T/YHC102F 4080 0.12 0.16 0.16 0.13 0.30 0.07 0.91 0.34 0.31 0.09 - 0.03 0.03 - 10 T/YHC120F 2000 0.03 0.06 0.11 0.05 0.08 0.03 0.22 0.10 0.07 0.02 - - - - 10 T/YHC120F 3200 0.07 0.10 0.14 0.09 0.17 0.05 0.57 0.20 0.14 0.05 - 0.02 0.03 0.05 10 T/YHC120F 4000 0.11 0.15 0.16 0.12 0.26 0.07 0.87 0.33 0.30 0.08 - 0.02 0.03 0.05 10 T/YHC120F 4800 0.16 0.20 0.18 0.16 0.34 0.09 1.23 0.49 0.35 0.10 - 0.03 0.04 0.06 (a) OA = Outside Air and RA = Return Air. (b) Nominal kW ratings at 240, 480, 600 volts. Heaters only available on T units. (c) Electric heaters restricted on applications below 320 cfm/Ton. (d)Tested with standard filters. Difference in pressure drop should be considered when utilizing optional 2" MERV 8 and MERV 13 filters. (e) Low Leak - Downflow only. RT-PRCO23AL-EN 173 Fan Performance Table 129. Gas fired heating capacities - standard efficiency (a) For two stage heaters (input or output), Second stage is total heating capacity. Second Stage/First Stage. 174 RT-PRCO23AL-EN Unit Model Heating Heating Air Temp. Tons Number Input MBh(a) Output MBh Rise, F 3 YSC(033,036)G(3,4,W)*(L,X) 60 49.2 25-55 3 YSC(033,036)G(3,4,W)*(M,Y) 80 65.6 35-65 3 YSC(033,036)G(3,4,W)*(H,Z) 120 98.4 55-85 4 YSC(043,048)G(3,4,W)*(L,X) 60 49.2 15-45 4 YSC(043,048)G(3,4,W)*(M,Y) 80 65.6 20-50 4 YSC(043,048)G(3,4,W)*(H,Z) 120 98.4 40-70 5 YSC(060,063)G(3,4,W)*(L,X) 60 49.2 10-40 5 YSC(060,063)G(3,4,W)*(M,Y) 80 65.6 15-45 5 YSC(060,063)G(3,4,W)*(H,Z) 130 106.6 35-65 6 YSC072F(3,4, W)*(L,X) 80 64 15-45 6 YSC072F(3,4,W)*(M,Y) 120 96 20-50 6 YSC072F(3,4,W)*(H,Z) 150/105 120/84 25-55 71/2 YSC090F(3,4,W)*(L,X) 120 96 20-50 71/2 YSC090F(3,4,W)*(M,Y) 150/105 120/84 25-55 71/2 YSC090F(3,4,W)*(H,Z) 200/140 160/112 35-65 71/2 YSC092F(3,4,W)*(L,X) 120 96 15-45 71/2 YSC092F(3,4,W)*(M,Y) 150/105 120/84 20-50 71/2 YSC092F(3,4,W)*(H,Z) 200/140 160/112 35-65 81/2 YSC102F(3,4,W)*(L,X) 120 96 15-45 81/2 YSC102F(3,4,W)*(M,Y) 150/105 120/84 20-50 81/2 YSC102F(3,4,W)*(H,Z) 200/140 160/112 35-65 10 YSC120F(3,4,W)*(L,X) 150/105 120/84 20-50 10 YSC120F(3,4,W)*(M,Y) 200/140 160/112 25-55 10 YSC120F(3,4,W)*(H,Z) 250/175 200/140 35-65 Note: Ratings shown are for elevations up to 2,000 ft. For higher elevations, reduce ratings at a rate of 4% per 1,000 ft. elevation. (a) For two stage heaters (input or output), Second stage is total heating capacity. Second Stage/First Stage. 174 RT-PRCO23AL-EN Fan Performance Table 130. Gas fired heating capacities - high efficiency RT-PRCO23AL-EN 175 Unit Model Heating Heating Air Temp. Tons Number Input MBh Output MBh Rise, F 3 YHC036El*(L,X) 60 48 25-55 3 YHC036E1*(M,Y) 80 65 35-65 3 YHC036El*(H,Z) 100 80 45-75 3 YHC036E(3,4,W)*(L,X) 60 48 25-55 3 YHC036E(3,4,W)*(M,Y) 80 64 35-65 3 YHC036E(3,4,W)*(H,Z) 120 96 55-85 4 YHC048Fl*(L,X) 60 49 10-40 4 YHC048Fl*(M,Y) 80 64 20-50 4 YHC048Fl*(H,Z) 120 96 40-70 4 YHC048E(3,4,W)*(L,X) 60 48 10-40 4 YHC048E(3,4,W)*(M,Y) 80 64 20-50 4 YHC048E(3,4,W)*(H,Z) 120 96 40-70 4 YHC048F(3,4,W)*(L,X) 60 48 10-40 4 YHC048F(3,4,W)*(M,Y) 80 64 20-50 4 YHC048F(3,4,W)*(H,Z) 120 96 40-70 5 YHC060F1*(L,X) 60 49 10-40 5 YHC060F1*(M,Y) 80 64 15-45 5 YHC060F1*(H,Z) 130 104 35-65 5 YHC060E(3,4,W)*(L,X) 60 48 10-40 5 YHC060E(3,4,W)*(M,Y) 80 64 15-45 5 YHC060E(3,4,W)*(H,Z) 130 104 35-65 5 YHC060F(3,4,W)*(L,X) 60 48 10-40 5 YHC060F(3,4,W)*(M,Y) 80 64 15-45 5 YHC060F(3,4,W)*(H,Z) 130 104 35-65 6 YHC072*(3,4,W)*(L,X) 80 64 15-45 6 YHC072*(3,4,W)*(M,Y) 120 96 20-50 6 YHC072*(3,4,W)*(H,Z) 150/105 120/84 25-55 6 YH C074*(3,4)*(L,X) 80 64.8 15-45 6 YHC074*(3,4)*(M,Y) 120 97.2 20-50 . 6 YH C074*(3,4)*(H,Z) 150/105 121.5/85.1 25-55 71/2 YHC092F(3,4,W)*(L,X) 120 96 20-50 71/2 YHC092F(3,4,W)*(M,Y) 150/105 120/84 20-50 71/2 YHC092F(3,4,W)*(H,Z) 200/140 160/112 35-65 81/2 YHC102F(3,4,W)*(L,X) 120 96 20-50 81/2 YHC102F(3,4,W)*(M,Y) 150/105 120/84 20-50 81/2 YHC102F(3,4,W)*(H,Z) 200/140 160/112 35-65 10 YHC120F(3,4,W)*(L,X) 150/105 120/84 20-50 10 YHC120F(3,4,W)*(M,Y) 200/140 160/112 25-55 10 YHC120F(3,4,W)*(H,Z) 250/175 200/140 35-65 Note: Ratings shown are for elevations up to 2,000 ft. For higher elevations, reduce ratings at a rate of 4% per 1,000 ft. elevation. RT-PRCO23AL-EN 175 Fan Performance Table 131. Auxiliary electric heat capacity 176 RT-PRCO23AL-EN Total(a) Stagel Stage 2 Unit Model No. of kW MBh kW MBh kW MBh Tons Number Input(b) Output Stages Input Output Input Output 3 THC036E1 5.00 17.07 1 5.00 17.07 - - 3 THC036E1 10.00 34.14 2 5.00 17.07 5.00 17.07 3 THC036E1 13.80 47.11 2 5.00 17.07 8.80 30.04 3 TSC033G3,4,W 6.00 20.48 1 6.00 20.48 - - 3 TSC033G3,4,W 12.00 40.97 2 6.00 20.48 6.00 20.48 3 TSC033G3,4,W 17.40 59.40 2 8.70 29.70 8.70 29.70 3 T*C036*3,*4,*W 6.00 20.48 1 6.00 20.48 - - 3 T*C036*3,*4,*W 12.00 40.97 2 6.00 20.48 6.00 20.48 3 T*C036*3,*4,*W 17.40 59.40 2 8.70 29.70 8.70 29.70 4 THC048*1 5.00 17.07 1 5.00 17.07 - - 4 THC048*1 10.00 34.14 2 5.00 17.07 5.00 17.07 4 THC048*1 13.80 47.11 2 5.00 17.07 8.80 30.04 4 THC048*1 17.60 60.09 2 8.80 30.04 8.80 30.04 4 TSC043G3,4,W 6.00 20.48 1 6.00 20.48 - - 4 TSC043G3,4,W 12.00 40.97 2 6.00 20.48 6.00 20.48 4 TSC043G3,4,W 17.40 59.40 2 8.70 29.70 8.70 29.70 4 T*C048*3,*4,*W 6.00 20.48 1 6.00 20.48 - - 4 T*C048*3,*4,*W 12.00 40.97 2 6.00 20.48 6.00 20.48 4 T*C048*3,*4,*W 17.40 59.40 2 8.70 29.70 8.70 29.70 5 THC060*1 5.00 17.07 1 5.00 17.07 - - 5 THC060*1 10.00 34.14 2 5.00 17.07 5.00 17.07 5 THC060*1 13.80 47.11 2 5.00 17.07 8.80 30.04 5 THC060*1 17.60 60.09 2 8.80 30.04 8.80 30.04 5 TSC063G3,4,W 6.00 20.48 1 6.00 20.48 - - 5 TSC063G3,4,W 12.00 40.97 2 6.00 20.48 6.00 20.48 5 TSC063G3,4,W 17.40 59.40 2 8.70 29.70 8.70 29.70 5 TSC063G3,4,W 23.00 78.52 2 8.70 29.70 14.30 48.82 5 T*C060*3,*4,*W 6.00 20.48 1 6.00 20.48 - - 5 T*C060*3,*4,*W 12.00 40.97 2 6.00 20.48 6.00 20.48 5 T*C060*3,*4,*W 17.40 59.40 2 8.70 29.70 8.70 29.70 5 T*C060*3,*4,*W 23.00 78.52 2 8.70 29.70 14.30 48.82 6 TSC072F3,4,W 9.00 30.73 1 9.00 30.73 - - 6 TSC072F3,4,W 18.00 61.45 1 18.00 61.45 - - 6 TSC072F3,4,W 27.00 92.18 2 18.00 61.45 9.00 30.73 6 TSC072F3,4,W 36.00 122.90 2 18.00 61.45 18.00 61.45 6 THC072*3,4,W 9.00 30.73 1 9.00 30.73 - - 6 THC072*3,4,W 18.00 61.45 1 18.00 61.45 - - 6 THC072*3,4,W 27.00 92.18 2 18.00 61.45 9.00 30.73 6 THC072*3,4,W 36.00 122.90 2 18.00 61.45 18.00 61.45 6 THC074*3,4 9.00 30.73 1 9.00 30.73 - - 6 THC074*3,4 18.00 61.45 1 18.00 61.45 - - 6 THC074*3,4 27.00 92.18 2 18.00 61.45 9.00 30.73 176 RT-PRCO23AL-EN Fan Performance Table 131. Auxiliary electric heat capacity (continued) (a) Heaters are rated at 240V,380V,480V and 600V. For other than rated voltage, CAP= (voltage/rated voltage)z x rated cap. (b) All input/output does not include indoor fan power or heat. Table 132. Electric heater voltage correction factors (applicable to auxiliary heat capacity) Nominal Distribution Total(a) Voltage Stages Multiplier Stage 2 kW MBh kW MBh kW MBh 240 Unit Model No. of Tons Number Input(b) Output Stages Input Output Input Output 6 THC074*3,4 36.00 122.90 2 18.00 61.45 18.00 61.45 71/2 TSC090F3,4,W 9.00 30.73 1 9.00 30.73 - - 71/2 TSC090F3,4,W 18.00 61.45 1 18.00 61.45 - - 71/2 TSC090F3,4,W 27.00 92.18 2 18.00 61.45 9.00 30.73 71/2 TSC090F3,4,W 36.00 122.90 2 18.00 61.45 18.00 61.45 71/2 TSC092F3,4,W 9.00 30.73 1 9.00 30.73 - - 71/2 TSC092F3,4,W 18.00 61.45 1 18.00 61.45 - - 71/2 TSC092F3,4,W 27.00 92.18 2 18.00 61.45 9.00 30.73 71/2 TSC092F3,4,W 36.00 122.90 2 18.00 61.45 18.00 61:45 71/2 THC092F3,4,W 9.00 30.73 1 9.00 30.73 - - 71/2 THC092F3,4,W 18.00 61.45 1 18.00 61.45 - - 71/2 THC092F3,4,W 27.00 92.18 2 18.00 61.45 9.00 30.73 71/2 THC092F3,4,W 36.00 122.90 2 18.00 61.45 18.00 61.45 81/2 TSC102F3,4,W 9.00 30.73 1 9.00 30.73 - - 81/2 TSC102F3,4,W 18.00 61.45 1 18.00 61.45 - - 81/2 TSC102F3,4,W 27.00 92.18 2 18.00 61.45 9.00 30.73 81/2 TSC102F3,4,W 36.00 122.90 2 18.00 61.45 18.00 61.45 81/2 THC102F3,4,W 9.00 30.73 1 9.00 30.73 - - 81/2 THC102F3,4,W 18.00 61.45 1 18.00 61.45 - - 81/2 THC102F3,4,W 27.00 92.18 2 18.00 61.45 9.00 30.73 81/2 THC102F3,4,W 36.00 122.90 2 18.00 61.45 18.00 61.45 10 TSC120F3,4,W 18.00 61.45 1 18.00 61.45 - - 10 TSC120F3,4,W 27.00 92.18 2 18.00 61.45 9.00 30.73 10 TSC120F3,4,W 36.00 122.90 2 18.00 61.45 18.00 61.45 10 TSC120F3,4,W 54.00 184.36 2 36.00 122.90 18.00 61.45 10 THC120F3,4 18.00 61.45 1 18.00 61.45 - - 10 THC120F3,4 27.00 92.18 2 18.00 61.45 9.00 30.73 10 THC120F3,4 36.00 122.90 2 18.00 61.45 18.00 61.45 10 THC120F3,4 54.00 184.36 2 36.00 122.90 18.00 61.45 (a) Heaters are rated at 240V,380V,480V and 600V. For other than rated voltage, CAP= (voltage/rated voltage)z x rated cap. (b) All input/output does not include indoor fan power or heat. Table 132. Electric heater voltage correction factors (applicable to auxiliary heat capacity) Nominal Distribution Capacity Voltage Voltage Multiplier 240 208 0.751 240 230 0.918 240 240 1.000 480 440 0.840 480 460 0.918 480 480 1.000 600 540 0.810 RT-PRCO23AL-EN 177 C Fan Performance Table 132. Electric heater voltage correction factors (applicable to auxiliary heat capacity) (continued) Nominal Distribution Capacity Voltage Voltage Multiplier 600 575 0.918 600 600 1.000 Table 133. 3 to 5 tons air temperature rise across electric heaters (°F) (a)The minimum allowable airflow for a 3 ton with a 17.4 kW heater is 1080 cfm. (b)The minimum allowable airflow for a 5 ton unit with a 23.0 kW heater is 1900 cfm. Table 134.6 to 10 tons air temperature rise across electric heaters (°F) 3 Tons(a) 4 Tons 5 Tons(b) 10 Tons 1200 cfm 1600 cfm 2000 cfm 3400 cfm 4000 cfm(a) Single TSC072F3,4,W TSC090F3,4,W Phase Three Phase Single Phase Three Phase Single Phase Three Phase kW Stages THC036E1 T*C036E3,E4,EW THC048E/Fl T*C048E/F3, E/F4, EW THC060E/Fl T*C060E/F3, E/F4, EW 5.00 1 13.8 - 10.5 - 8.5 - 6.00 1 - 18.5 - 10.5 - 11.4 10.00 2 26.8 - 20.3 - 16.3 - 12.00 2 - 36.2 - 22.3 - 21.5 13.80 2 36.9 - 27.8 - 22.3 - 17.40 2 - 48.2 - 33.0 - 30.0 17.60 2 - - 35.5 - 28.3 - 23.0 2 - - - - - 38.8 Notes: 1. For minimum design airflow, see airflow performance table for each unit. 2. To calculate temp rise at different airflow, use the following formula: Temp. rise across Electric Heater = kWx3414/1.08xCFM. (a)The minimum allowable airflow for a 3 ton with a 17.4 kW heater is 1080 cfm. (b)The minimum allowable airflow for a 5 ton unit with a 23.0 kW heater is 1900 cfm. Table 134.6 to 10 tons air temperature rise across electric heaters (°F) (a) Minimum allowable airflow with a 54 kW heater for the TSC120F and THC120F is 3400 cfm. 178 RT-PRCO23AL-EN 6 Tons 71/2 Tons 8'/2 Tons 10 Tons 2000 cfm 3000 cfm 3400 cfm 4000 cfm(a) TSC072F3,4,W TSC090F3,4,W THC072F3,4,W TSC092F3,4,W TSC102F3,4,W TSC120F3,4,W kW Stages THC074F3,4 THC092F3,4,W THC102F3,4,W THC120F3,4 9.0 1 14.2 9.5 8.4 - 18.0 1 28.5 19.0 16.7 14.2 27.0 2 42.7 28.5 25.1 21.3 36.0 2 56.9 37.9 33.5 28.5 54.0 2 - - - 42.7 Notes: 1. For minimum design airflow, see airflow performance table for each unit. 2. To calculate temp rise at different airflow, use the following formula: Temp. rise across Electric Heater = kWx3414/1.08xcfm. (a) Minimum allowable airflow with a 54 kW heater for the TSC120F and THC120F is 3400 cfm. 178 RT-PRCO23AL-EN m Fan Performance Table 135. Reheat temperature rise table Leaving Evaporator Dry Bulb Unit Model Tons No. CFM 35 40 45 50 55 60 65 3 THC 600 26.3 24.6 22.8 21.0 19.2 17.5 15.8 3 THC 720 24.4 22.8 21.1 19.4 17.7 16.1 14.6 3 THC 840 22.8 21.3 19.8 18.3 16.7 15.2 13.7 3 T/YHC 960 21.3 20.0 18.6 17.2 15.7 14.3 13.0 3 T/YHC 1080 20.0 18.8 17.5 16.2 14.9 13.6 12.3 3 T/YHC 1200 18.9 17.7 16.5 15.3 14.1 12.9 11.7 3 T/YHC 1320 17.9 16.8 15.7 14.6 13.4 12.2 11.1 3 T/YHC 1440 17.0 16.0 14.9 13.9 12.8 11.7 10.6 4 THC 800 18.1 16.7 15.4 14.1 12.8 11.6 10.6 4 THC 960 16.5 15.3 14.1 12.9 11.7 10.6 9.6 4 THC 1120 15.1 14.0 12.9 11.9 10.8 9.8 8.8 4 T/YHC 1280 14.0 13.0 12.0 11.0 10.0 9.1 8.2 4 T/YHC 1440 13.1 12.2 11.3 10.3 9.4 8.5 7.7 4 T/YHC 1600 12.3 11.4 10.6 9.7 8.8 8.0 7.2 4 T/YHC 1760 11.6 10.8 10.0 9.2 8.4 7.6 6.8 4 T/YHC 1920 10.9 10.2 9.4 8.7 7.9 7.2 6.4 5 THC 1000 24.4 22.9 21.5 20.1 18.8 17.4 16.1 5 THC 1200 22.4 21.1 19.8 18.5 17.3 16.1 14.9 5 THC 1400 20.8 19.6 18.4 17.2 16.1 15.0 13.9 5 T/YHC 1600 19.4 18.3 17.2 16.1 15.0 14.0 13.0 5 T/YHC 1800 18.1 17.1 16.1 15.1 14.2 13.2 12.2 5 T/YHC 2000 17.0 16.1 15.2 14.3 13.4 12.4 11.5 5 T/YHC 2200 16.1 15.3 14.4 13.5 12.6 11.8 10.9 5 T/YHC 2400 15.2 14.4 13.7 12.8 12.0 11.2 10.4 6 THC 1200 27.4 25.3 23.5 21.8 20.3 18.9 17.7 6 THC 1680 22.7 20.9 19.3 17.9 16.6 15.4 14.4 6 THC 1920 21.0 19.3 17.8 16.4 15.2 14.1 13.1 6 T/YHC 2160 19.4 17.8 16.4 15.2 14.1 13.1 12.2 6 T/YHC 2400 18.0 16.5 15.3 14.1 13.1 12.2 11.3 6 T/YHC 2640 16.8 15.5 14.3 13.2 12.3 11.4 10.6 6 T/YHC 2880 12.7 11.8 11.0 10.4 9.7 9.2 8.7 71/2 THC 1500 36.7 39.1 41.2 43.1 44.9 46.4 47.8 71/2 THC 1800 30.2 32.2 33.9 35.3 36.3 37.0 37.3 71/2 THC 2100 25.4 27.1 28.6 29.8 30.7 31.3 31.7 71/2 T/YHC 2400 21.9 23.4 24.7 25.8 26.6 27.3 27.7 71/2 T/YHC 2700 19.3 20.6 21.8 22.8 23.6 24.3 24.8 71/2 T/YHC 3000 17.1 18.3 19.4 20.3 21.1 21.7 22.2 71/2 T/YHC 3300 15.5 16.6 17.6 18.5 19.3 19.9 20.4 71/2 T/YHC 3600 14.1 15.1 16.0 16.7 17.5 18.1 18.6 81/2 THC 1700 34.4 36.8 39.0 41.0 42.8 44.5 46.0 81/2 THC 2040 28.3 30.4 32.2 33.8 35.2 36.4 37.4 81/2 THC 2380 24.0 25.9 27.5 29.0 30.2 31.3 32.2 RT-PRCO23AL-EN 179 Controls ReliaTell" Controlled Units Zone Sensors are the building occupant's comfort control devices.The following zone sensor options are available for Precedent units with ReliaTelTM control: Differential Enthalpy Differential Enthalpy replaces the standard dry bulb control with two enthalpy sensors that compare total heat content of the indoor air and outdoor air to determine the most efficient air source.This control option offers the highest level of comfort control, plus energy efficiency, available. Differential Pressure Switches This factory or field -installed option allows individual fan failure and dirty filter indication.The fan failure switch will disable all unit functions and "flash" the Service LED on the zone sensor.The dirty filter switch will light the Service LED on the zone sensor and will allow continued unit operation. Manual Changeover Heat, Cool or Off System Switch. Fan Auto or Off Switch. One temperature setpoint lever. Manual/Automatic Changeover 0 Auto, Heat, Cool or Off System Switch. Fan Auto or Off Switch. Two temperature setpoint levers. Manual/Automatic Changeover Auto, Heat, Cool or Off System Switch. Fan Auto or Off Switch Two temperature setpoint levers. Remote Sensor Sensors) available for all zone sensors to provide remote sensing capabilities. Manual/Automatic Changeover m m m m Auto, Heat, Cool or Off System Switch. Fan Auto or Off Switch. Two temperature setpoint levers. Status Indication LED lights, System On, Heat, Cool, or Service. Integrated Comfort' System Sensor(s) available with optional temperature adjustment and override buttons to provide central control through aTrane Integrated ComfortTl system. RT-PRCO23AL-EN 181 Controls Digital Display Programmable Digital Display Thermostat Digital Display Thermostat (1H/1C) (3H/2C) Programmable Thermostat (3H/2C) One heat/One Cool Auto changeover Three Heat,Two Cool Auto Three Heat/Two Cool Auto digital display thermostat. changeover digital display changeover digital display Not compatible with VAV units. thermostat. thermostat. 7 -day programmable Not compatible with VAV units. stat with night setback is available. Not compatible with VAV units. Programmable Night Setback Wireless Zone Sensor Auto or manual changeover with seven-day programming. Keyboard selection of Heat, Cool, Fan, Auto, or On. All programmable sensors have System On, Heat, Cool, Service LED/indicators as standard. Night Setback Sensors have one (1) Occupied, one (1) Un- occupied, and one (1) Override program per day. LCD display that provides heat, cool, auto or off. Includes two temperature setpoints and a lockable setting with °F or °C indicators. CO2 Sensing The CO2 sensor shall have the ability to monitor the concentration (parts per million, ppm) of CO2 (Carbon Dioxide) in the air. As the CO2 concentration changes, the outside air damper modulates to meet the current ventilation needs of the zone. Humidity Sensor Field installed, wall - mounted orduct-mounted humidity sensor is used to control activation of the hot gas reheat dehumidification option. The humidity sensor can be set for humidity levels between 40% and 60% relative humidity by adjusting the ReliaTelT^^ Options Module. 182 RT PRCO23AL-EN Touchscreen Programmable Thermostat (2H/2C) Two Heat,Two Cool programmable thermostat with touch screen digital display. Menu -driven programming. Effortless set-up. Program each day separately with no need to copy multiple days. All programming can be done on one screen. Easy to read and use. Large, clear backlit digital display. Not compatible with VAV units. Economizer Controls Controls Digital Display Programmable Thermostat with Built -In Relative Humidity Sensing (3H/2C) Three Heat,Two Cool digital display thermostat with built-in humidity control and display.This thermostat combines both humidity and dry bulb into one. Not compatible with VAV units. The standard equipment offering is a fixed dry bulb changeover control. In addition, there are two optional controls, Enthalpy and Differential Enthalpy Control. Enthalpy Control Replaces the dry bulb control with a wet bulb changeover controller which has a fully adjustable setpoint. Enthalpy control offers a higher level of comfort control, along with energy savings potential, than the standard dry bulb control.This is due to the additional wet bulb sensing capability. RA Remote Sensor Return Air Remote Sensor which can be mounted in the return air duct to report return air temperature. Room Remote Sensor Space Remote Sensor which can be mounted on the wall to report/control from a remote location in the space. Remote Potentiometer Minimum position setting of economizer can be remotely adjusted with this accessory. Trane® Communication Interface (TCI) This factory or field -installed micro -processor interface allows the unit to communicate toTrane's Integrated Comfort"' system.TCI communication is only for constant volume units. Multi -speed and VAV units require either a BACnet® or LON communication if a BAS is used for control. BACnet® Communication Interface This option shall be provided to allowthe unitto communicate directly with a generic open protocol BACnet MS/TP Network Building Automation System Controls. RT-PRCO23AL-EN 183 Electrical Data Table 136. Unit wiring - standard efficiency (a) No optional motors available for 3 to 5 tons. The standard motor is a multispeed, direct drive motor. The standard motor for 3-phase (6 to 81/2 ton models) is a belt drive motor. (b) Dual refrigeration system. 184 RT PRCO23AL-EN Standard Indoor Fan Motor(a) Oversized Indoor Fan Motor Max Fuse Size or Max Fuse Size or Max Circuit Max Circuit Tons Unit Model Number Voltage Range MCA Breaker MCA Breaker 3 T/YSC033G3 187-253 19.9 30.0 - - 3 T/YSC033G4 414-506 9.5 15.0 - - 3 T/YSC033GW 517-633 7.6 15.0 - - 4 T/YSC043G3 187-253 25.4 35.0 - - 4 T/YSC043G4 414-506 11.0 15.0 - - 4 T/YSC043GW 517-633 9.4 15.0 - - 5 T/YSC063G3 187-253 28.3 40.0 - - 5 T/YSC063G4 414-506 12.9 20.0 - - 5 T/YSC063GW 517-633 10.6 15.0 - - 3 T/YSC036G3 187-253 19.9 30 - - 3 T/YSC036G4 414-506 9.5 15 - - 3 T/YSC036GW 517-633 7.6 15 - - 4 T/YSC048G3 187-253 25.4 35 - - 4 T/YSC048G4 414-506 11.0 15 - - 4 T/YSC048GW 517-633 9.4 SS - - 5 T/YSC060G3 187-253 28.2 40 - - 5 T/YSC060G4 414-506 12.0 15 - - 5 T/YSC060GW 517-633 9.9 15 - - 6 T/YSC072F3 187-253 36.5 50 37.8 60 6 T/YSC0721`4 414-506 18.2 25 19.4 25 6 T/YSC072FW 517-633 12.7 20 13.5 20 7'/2 T/YSC090F3 187-253 38.2 60 44.0 60 71/2 T/YSC090174 414-506 19.5 30 22.4 35 71/2 T/YSC090FW 517-633 14.7 20 16.7 25 71/2(b) T/YSC092F3 187-253 39.3 50 45.1 50 71/2(b) T/YSC092F4 414-506 18.5 20 21.4 25 71/2(b) T/YSC092FW 517-633 15.5 20 17.8 20 81/2 .,; ,n ` 46.4 60 81/2 r/YSC 02F4 Y!1 505' 21.4'i! 25: 22.4':' 25' 81/2 T/YSC102FW 517-633 16.8 20 18.0 20 10 T/YSC120F3 187-253 50.1 60 - - 10 T/YSC1201`4 414-506 23.5 30 - - 10 T/YSC120FW 517-633 19.5 25 - - (a) No optional motors available for 3 to 5 tons. The standard motor is a multispeed, direct drive motor. The standard motor for 3-phase (6 to 81/2 ton models) is a belt drive motor. (b) Dual refrigeration system. 184 RT PRCO23AL-EN Electrical Data Table 137. Unit wiring with electric heat (single point connection) - standard efficiency RT-PRCO23AL-EN 185 Standard Indoor Motor Oversized Indoor Motor Max Fuse Size or Max Fuse Size or Unit Model Heater Model Heater kW Control Max Circuit Max Circuit Tons Number Number Rating(a) Stages MCA Breaker MCA Breaker 208/230 Volts Three Phase 3 TSC033G3 BAYHTRE306* 4.5/6.0 1 22.8/25.1 30/30 — — 3 TSC033G3 BAYHTRE312* 9.0/12.0 2 38.4/43.3 40/45 — — 3 TSC033G3 BAYHTRE318* 13.1/17.4 2 52.5/59.5 60/60 — — 4 TSC043G3 BAYHTRE306* 4.5/6.0 1 25.4/26.6 35/35 — — 4 TSC043G3 BAYHTRE312* 9.0/12.0 2 39.9/44.8 40/45 — — 4 TSC043G3 BAYHTRE318* 13.1/17.4 2 54.0/61.0 60/70 — — 5 TSC063G3 BAYHTRE306* 4.5/6.0 1 28.3/28.3 40/40 — — 5 TSC063G3 BAYHTRE312* 9.0/12.0 2 39.9/44.8 40/45 — — 5 TSC063G3 BAYHTRE318* 13.1/17.4 2 54.0/61.0 60/70 — — 5 TSC063G3 BAYHTRE323* 17.3/23.0 2 68.6/77.8 70/80 — — 3 TSC036G3 BAYHTRE306* 4.5/6.0 1 22.8/25.1 30/30 — — 3 TSC036G3 BAYHTRE312* 9.0/12.0 2 38.4/43.3 40/45 — — 3 TSC036G3 BAYHTRE318* 13.1/17.4 2 52.5/59.5 60/60 — — 4 TSC048G3 BAYHTRE306* 4.5/6.0 1 25.4/26.6 35/35 — — 4 TSC048G3 BAYHTRE312* 9.0/12.0 2 39.9/44.8 40/45 — — 4 TSC048G3 BAYHTRE318* 13.1/17.4 2 54.0/61.0 60/70 — — 5 TSC060G3 BAYHTRE306* 4.5/6.0 1 28.2/28.2 40/40 — — 5 TSC060G3 BAYHTRE312* 9.0/12.0 2 39.9/44.8 40/45 — — 5 TSC060G3 BAYHTRE318* 13.1/17.4 2 54.0/61.0 60/70 — — 5 TSC060G3 BAYHTRE323* 17.3/23.0 2 68.6/77.8 70/80 — — 6 TSC072F3 BAYHTRS309* 6.8/9.0 1 36.5/36.5 50/50 37.8/37.8 60/60 6 TSC072F3 BAYHTRS318* 13.5/18.0 1 53.1/60.4 60/70 54.8/62.0 60/70 6 TSC072F3 BAYHTRS327* 20.3/27.0 2 76.6/87.5 80/90 78.3/89.1 80/90 6 TSC072F3 BAYHTRS336* 27.0/36.0 2 100.1/114.5 110/125 101.8/116.1 110/125 7'/2. TSC090F3 BAYHTRW309* 6.8/9.0 1 38.2/38.2 60/60 44.0/44.0 60/60 71/2 TSC090F3 BAYHTRW318* 13.5/18.0 1 51.4/58.6 60/60 58.6/65.9 60/70 71/2 TSC090F3 BAYHTRW327* 20.3/27.0 2 74.9/85.8 80/90 82.1/93.0 90/100 71/2 TSC090F3 BAYHTRW336* 27.0/36.0 2 98.4/112.8 100/125 105.6/120.0 110/125 71/2(b) TSC092F3 BAYHTRT309* 6.8/9.0 1 39.3/39.3 50/50 45.1/45.1 50/50 71/2(b) TSC092F3 BAYHTRT318* 13.5/18.0 1 51.4/58.6 60/60 58.6/65.9 60/70 71/2(b) TSC092F3 BAYHTRT327* 20.3/27.0 2 74.9/85.8 80/90 82.1/93.0 90/100 71/2(b) TSC092F3 BAYHTRT336* 27.0/36.0 2 98.4/112.8 100/125 105.6/120.0 110/125 81/2 TSC102F3 BAYHTRT309* 6.8/9.0 1 43.3/43.3 50/50 46.4/46.4 60/60 81/2 TSC102F3 BAYHTRT318* 13.5/18.0 1 54.8/62.0 60/70 58.6/65.9 60/70 8'/2 TSC102F3 BAYHTRT327* 20.3/27.0 2 78.3/89.1 80/90 82.1/93.0 90/100 8'/2 TSC102F3 BAYHTRT336* 27.0/36.0 2 101.8/116.1 110/125 105.6/120.0 110/125 10 TSC120F3 BAYHTRA318* 13.5/18.0 1 57.5/64.8 60/70 —/— —/- 10 TSC120F3 BAYHTRA327* 20.3/27.0 2 81.0/91.9 90/100 —/— —/- 10 TSC120F3 BAYHTRA336* 27.0/36.0 2 104.5/118.9 110/125 —/— —/- 10 TSC120F3 BAYHTRA354* 40.6/54.0 2 151.4/140.5 175/150 —/— —/— RT-PRCO23AL-EN 185 Electrical Data Table 137. Unit wiring with electric heat (single point connection) - standard efficiency (continued) 186 RT-PRCO23AL-EN Standard Indoor Motor Oversized Indoor Motor Max Fuse Size or Max Fuse Size or Unit Model Heater Model Heater kW Control Max Circuit Max Circuit Tons Number Number Rating(a) Stages MCA Breaker MCA Breaker 460 Volts Three Phase 3 TSC033G4 BAYHTRE406* 6.0 1 11.1 15.0 - - 3 TSC033G4 BAYHTRE412* 12.0 2 20.1 25.0 - - 3 TSC033G4 BAYHTRE418* 17.4 2 28.3 30.0 - - 4 TSC043G4 BAYHTRE406* 6.0 1 12.1 15.0 - - 4 TSC043G4 BAYHTRE412* 12.0 2 21.1 25.0 - - 4 TSC043G4 BAYHTRE418* 17.4 2 29.3 30.0 - - 5 TSC063G4 BAYHTRE406* 6.0 1 12.9 20.0 - - 5 TSC063G4 BAYHTRE412* 12.0 2 21.1 25.0 - - 5 TSC063G4 BAYHTRE418* 17.4 2 29.3 30.0 - - 5 TSC063G4 BAYHTRE423* 23.0 2 37.8 40.0 - - 3 TSC036G4 BAYHTRE406* 6.0 1 11.1 15.0 - - 3 TSC036G4 BAYHTRE412* 12.0 2 20.1 25.0 - - 3 TSC036G4 BAYHTRE418* 17.4 2 28.3 30.0 - - 4 TSC048G4 BAYHTRE406* 6.0 1 12.1 15.0 - - 4 TSC048G4 BAYHTRE412* 12.0 2 21.1 25.0 - - 4 TSC048G4 BAYHTRE418* 17.4 2 29.3 30.0 - - 5 TSC060G4 BAYHTRE406* 6.0 1 12.1 15.0 - - 5 TSC060G4 BAYHTRE412* 12.0 2 21.1 25.0 - - 5 TSC060G4 BAYHTRE418* 17.4 2 29.3 30.0 - - 5 TSC060G4 BAYHTRE423* 23.0 2 37.8 40.0 - - 6 TSC072F4 BAYHTRS409* 9.0 1 18.2 25 19.3 25 6 TSC072F4 BAYHTRS418* 18.0 1 30.3 35 31.6 35 6 TSC072F4 BAYHTRS427* 27.0 2 43.8 45 45.1 50 6 TSC072F4 BAYHTRS436* 36.0 2 57.3 60 58.6 60 71/2 TSC090F4 BAYHTRW409* 9.0 1 19.5 30 22.4 35 71/2 TSC090F4 BAYHTRW418* 18.0 1 29.3 30 32.9 35 71/2 TSC090F4 BAYHTRW427* 27.0 2 42.8 45 46.4 50 71/2 TSC090F4 BAYHTRW436* 36.0 2 56.3 60 59.9 60 71/2(b) TSC092F4 BAYHTRT409* 9.0 1 18.5 20 21.4 25 71/2(b) TSC092F4 BAYHTRT418* 18.0 1 29.3 30 32.9 35 71/2(b) TSC092F4 BAYHTRT427* 27.0 2 42.8 45 46.4 50 T/2(b) TSC092F4 BAYHTRT436* 36.0 2 56.3 60 59.9 60 81/2 TSC102F4 BAYHTRT409* 9.0 1 21.4 25 22.4 25 81/2 TSC102F4 BAYHTRT418* 18.0 1 31.6 35 32.9 35 81/2 TSC102F4 BAYHTRT427* 27.0 2 45.1 50 46.4 50 81/2 TSC102F4 BAYHTRT436* 36.0 2 58.6 60 59.9 60 10 TSC120F4 BAYHTRA418* 18.0 1 32.5 35 - - 10 TSC120F4 BAYHTRA427* 27.0 2 46.0 50 - - 10 TSC120F4 BAYHTRA436* 36.0 2 59.5 60 - - 10 TSC120F4 BAYHTRA454* 54.0 2 70.4 80 - - 186 RT-PRCO23AL-EN Electrical Data Table 137. Unit wiring with electric heat (single point connection) - standard efficiency (continued) (a) No optional motors available for 3 to 5 tons. The standard motor is a multispeed, direct drive motor. The standard motor for the 3-phase (6-81/2 ton models) is a belt drive motor. (b) Dual refrigeration system. RT-PRCO23AL-EN 187 Standard Indoor Motor Oversized Indoor Motor Max Fuse Size or Max Fuse Size or Unit Model Heater Model Heater kW Control Max Circuit Max Circuit Tons Number Number Rating(a) Stages MCA Breaker MCA Breaker 575 Volts Three Phase 3 TSC033GW BAYHTREW06* 6.0 1 10.2 15.0 - - 3 TSC033GW BAYHTREWI2* 12.0 2 17.3 20.0 - - 3 TSC033GW BAYHTREWI8* 17.4 2 23.8 25.0 - - 4 TSC043GW BAYHTREW06* 6.0 1 10.9 15.0 - - 4 TSC043GW BAYHTREWI2* 12.0 2 18.0 20.0 - - 4 TSC043GW BAYHTREWI8* 17.4 2 24.5 25.0 - - 5 TSC063GW BAYHTREW06* 6.0 1 10.9 15.0 - - 5 TSC063GW BAYHTREWI2* 12.0 2 18.0 20.0 - - 5 TSC063GW BAYHTREWI8* 17.4 2 24.5 25.0 - - 5 TSC063GW BAYHTREW23* 23.0 2 31.2 35.0 - - 3 TSC036GW BAYHTREW06* 6.0 1 10.2 15.0 - - 3 TSC036GW BAYHTREWI2* 12.0 2 17.3 20.0 - - 3 TSC036GW BAYHTREWI8* 17.4 2 23.8 25.0 - - 4 TSC048GW BAYHTREW06* 6.0 1 10.9 15.0 - - 4 TSC048GW BAYHTREWI2* 12.0 2 18.0 20.0 - - 4 TSC048GW BAYHTREWI8* 17.4 2 24.5 25.0 - - 5 TSC060GW BAYHTREW06* 6.0 1 10.9 15.0 - - 5 TSC060GW BAYHTREWI2* 12.0 2 18.0 20.0 - - 5 TSC060GW BAYHTREWI8* 17.4 2 24.5 25.0 - - 5 TSC060GW BAYHTREW23* 23.0 2 31.2 35.0 - - 6 TSC072FW BAYHTRSW09* 9.0 1 13.0 20 14.0 20 6 TSC072FW BAYHTRSW 18* 18.0 1 23.8 25 24.8 25 6 TSC072FW BAYHTRSW27* 27.0 2 34.6 35 35.6 40 6 TSC072FW BAYHTRSW36* 36.0 2 45.4 50 46.4 50 71/2 TSC090FW BAYHTRWWI8* 18.0 1 23.4 25 25.9 30 71/2 TSC090FW BAYHTRWW27* 27.0 2 34.3 35 36.8 40 71/2 TSC090FW BAYHTRWW36* 36.0 2 45.0 45 47.5 50 71/2(b) TSC092FW BAYHTRTWI8* 18.0 1 23.4 25 26.3 30 7yz(h) TSC092FW BAYHTRTW27* 27.0 2 34.3 35 37.1 40 71/2(e) TSC092FW BAYHTRTW36* 36.0 2 45.0 45 47.9 50 81/2 TSC102FW BAYHTRTWI8* 18.0 1 24.8 25 26.3 30 81/2 TSC102FW BAYHTRTW27* 27.0 2 35.6 40 37.1 40 81/2 TSC102FW BAYHTRTW36* 36.0 2 46.4 50 47.9 50 10 TSC120FW BAYHTRAWI8* 18.0 1 27.0 30 - - 10 TSC120FW BAYHTRAW36* 36.0 2 48.6 50 - - 10 TSC120FW BAYHTRAW54* 54.0 2 57.4 60 - - (a) No optional motors available for 3 to 5 tons. The standard motor is a multispeed, direct drive motor. The standard motor for the 3-phase (6-81/2 ton models) is a belt drive motor. (b) Dual refrigeration system. RT-PRCO23AL-EN 187 Electrical Data Table 138. Electrical characteristics - compressor motor and condenser motor QNXSW (a) Amp draw for each motor; multiply value by number of motors to determine total amps. (b) hp for each compressor. Table 139. Electrical characteristics - standard evaporator fan motor F; efficiency(a),(b) Unit Model Direct or Belt Compressor Motors Condenser Fan Motors Unit Model Tons Number Drive No. Volts Phase Amps(a) FLA LRA 3 Amps(a) Tons Number No. Volts Phase hp(b) rpm No. Volts Phase hp RLA LRA FLA LRA 3 T/YSCO(33,36)G3 1 208-230 3 2.8 3500 12.8 95.0 1 208-230 3 .25 1.1 3.6 3 T/YSCO(33,36)G4 1 460 3 2.8 3500 6.4 45.0 1 460 3 .25 .55 1.8 3 T/YSCO(33,36)GW 1 575 3 2.8 3500 5.4 38.0 1 575 3 .25 .45 1.4 4 T/YSCO(43,48)G3 1 208-230 3 3.6 3500 13.7 83.1 1 208-230 3 .33 1.4 4.6 4 T/YSCO(43,48)G4 1 460 3 3.6 3500 6.2 41.0 1 460 3 .33 0.7 2.3 4 T/YSCO(43,48)GW 1 575 3 3.5 3500 4.8 33.0 1 575 3 .33 0.55 1.8 5 T/YSC060G3 1 208-230 3 4.3 3500 15.9 110.0 1 208-230 3 .40 1.4 5.2 5 T/YSC060G4 1 460 3 4.3 3500 7.1 52.0 1 460 3 .40 0.7 2.6 5 T/YSC060GW 1 575 3 4.3 3500 5.1 39.5 1 575 3 .40 0.6 2.1 5 T/YSC063G3 1 208-230 3 4.3 3500 16.0 110.0 1 208-230 3 .33 1.4 5.2 5 T/YSC063G4 1 460 3 4.3 3500 7.8 52.0 1 460 3 .33 0.7 2.6 5 T/YSC063GW 1 575 3 4.3 3500 5.7 39.5 1 575 3 .33 0.6 2.1 6 T/YSC072F3 1 208-230 3 5.6 3500 22.4 149.0 1 208-230 1 .70 3.5 10.9 6 T/YSC072F4 1 460 3 5.6 3500 10.6 75.0 1 460 1 .70 2.4 6.6 6 T/YSC072FW 1 575 3 5.6 3500 7.7 54.0 1 575 1 .70 1.4 3.6 71/2 T/YSC090F3 1 208-230 3 6.7 3500 25.0 164.0 1 208-230 1 .70 3.3 9.5 71/2 T/YSC090F4 1 460 3 6.7 3500 12.8 100.0 1 460 1 .70 1.8 5.5 71/2 T/YSC090FW 1 575 3 6.7 3500 9.6 78.0 1 575 1 .70 1.3 3.2 7'/2 T/YSC092F3 1 208-230 3 3.7/3.1 3500/3500 14.5/13.6 98.0/83.0 1 208-230 1 .75 4.0 9.3 71/2 T/YSC092F4 1 460 3 3.7/3.1 3500/3500 6.3/6.1 55.0/41.0 1 460 1 .75 2.8 6.2 7'/2 T/YSC092FW 1 575 3 3.7/3.1 3500/3500 6.0/4.2 41.0/33.0 1 575 1 .75 2.4 6.2 81/2 T/YSC102F3 2 3500/3500 ' - 110.0/83.0 1 9.3 8'/2 T/Yk102r4 2 460 " '3 1' 3.7,/3'';7: 3500/3500 7,1f6.1 52.0/41.0 1 64605 175 `2.8 6.2 8'/2 T/YSC102FW 2 575 3 3.7/3.7 3500/3500 6.0/4.4 41.0/33.0 1 575 1 .75 2.4 6.2 10 T/YSC120F3 2 208-230 3 4.8/3.7 3500/3500 19.6/13.1 136.0/83.0 1 208-230 1 .75 4.0 9.3 10 T/YSC120F4 2 460 3 4.8/3.7 3500/3500 8.2/6.1 66.0/41.0 1 460 1 .75 2.8 6.2 10 T/YSC120FW 2 575 3 4.8/3.7 3500/3500 6.7/4.4 54.0/33.0 1 575 1 .75 2.4 6.2 (a) Amp draw for each motor; multiply value by number of motors to determine total amps. (b) hp for each compressor. Table 139. Electrical characteristics - standard evaporator fan motor F; efficiency(a),(b) 188 RT PRCO23AL-EN Unit Model Direct or Belt Amps Tons Number Drive No. Volts Phase hp FLA LRA 3 T/YSCO(33,36)G3 Direct Drive 1 208-230 1 .75 5.7 - 3 T/YSCO(33,36)G4 Direct Drive 1 460 1 .75 1.7 - 3 T/YSCO(33,36)GW Direct Drive 1 575 1 .75 2.4 - 4 T/YSCO(43,48)G3 Direct Drive 1 208-230 1 1.00 6.9 - 4 T/YSCO(43,48)G4 Direct Drive 1 460 1 1.00 2.5 - 4 T/YSCO(43,48)GW Direct Drive 1 575 1 1.00 2.9 - 5 T/YSC060G3 Direct Drive 1 208-230 1 1.00 6.9 - 5 T/YSC060G4 Direct Drive 1 460 1 1.00 2.5 - 188 RT PRCO23AL-EN Electrical Data Table 139. Electrical characteristics - standard evaporator fan motor - 60 cycle - direct or belt drive standard efficiency(a),(b) (continued) (a) Precedent 575V rated units utilize a 208-230V evaporator fan motor powered through a 575/230V transformer assembly. Motor voltage/FLA rated at transformer input. (b) Precedent 575V rated units utilize a 380-480V evaporator fan motor powered through a 575/480V transformer assembly. Motor voltage/FLA rated at transformer input. Table 140. Electrical characteristics - oversized evaporator fan motor - 60 cycle - belt drive - standard efficiency Unit Model Direct or Belt Amps Amps FLA LRA Tons Number Drive No. Volts Phase hp 5 T/YSC060GW Direct Drive 1 575 1 1.00 2.9 - 5 T/YSC063G3 Direct Drive 1 208-230 1 1.00 6.9 32.2 5 T/YSC063G4 Direct Drive 1 460 1 1.00 2.5 16.1 5 T/YSC063GW Direct Drive 1 575 1 1.00 2.9 13.2 6 T/YSC072F3 Belt Drive 1 208-230 3 1.00 5.0 32.2 6 T/YSC072F4 Belt Drive 1 460 3 1.00 2.5 16.1 6 T/YSC072FW Belt Drive 1 575 3 1.00 1.7 13.2 71/2 T/YSC090F3 Belt Drive 1 208-230 3 1.00 3.6-3.5 12.5 7 Y T/YSC090F4 Belt Drive 1 460 3 1.00 1.7 12.5 7'/2 T/YSC090FW Belt Drive 1 575 3 1.00 1.4 10.0 71/2 T/YSC092F3 Belt Drive 1 208-230 3 1.00 3.6-3.5 12.5 71/2 T/YSC092F4 Belt Drive 1 460 3 1.00 1.7 12.5 7'/2 T/YSC092FW Belt Drive 1 575 3 1.00 1.4 10.0 81/2 , .,,.. :, 48.0 81/2 T/YSC102. Belt Drive 1 45p d 3 2 00 -. A. .376"24.0 8'/2 T/YSC102FW Belt Drive 1 575 3 2.00 2.5 18.2 10 T/YSC120F3 Direct Drive 1 208-230 3 3.80 8.5-8.5 - 10 T/YSC120F4 Direct Drive 1 460 3 3.60 4.3 - 10 T/YSC120FW Direct Drive 1 575 3 3.60 4.3 - (a) Precedent 575V rated units utilize a 208-230V evaporator fan motor powered through a 575/230V transformer assembly. Motor voltage/FLA rated at transformer input. (b) Precedent 575V rated units utilize a 380-480V evaporator fan motor powered through a 575/480V transformer assembly. Motor voltage/FLA rated at transformer input. Table 140. Electrical characteristics - oversized evaporator fan motor - 60 cycle - belt drive - standard efficiency RT-PRCO23AL-EN 189 Unit Model Amps Tons Number No. Volts Phase hp FLA LRA 6 T/YSC072F3 1 208-230 3 2.00 6.30 48.0 6 T/YSC072F4 1 460 3 2.00 3.6 24.0 6 T/YSC072FW 1 575 3 2.00 2.50 18.2 71/2 T/YSC090F3 1 208-230 3 3.00 9.40-9.20 52.4 71/2 T/YSC090F4 1 460 3 3.00 4.60 26.3 7'/2 T/YSC090FW 1 575 3 3.00 3.40 29.4 71/2 T/YSC092F3 1 208-230 3 3.00 9.40 83.0 71/2 T/YSC092F4 1 460 3 3.00 4.60 42.0 71/2 T/YSC092FW 1 575 3 3.00 3.70 31.0 81/2 T/YSC102F3 1 208-230 3 3.00 9.40 83.0 81/2 T/YSC102F4 1 460 3 3.00 4.60 42.0 81/2 T/YSC102FW 1 575 3 3.00 3.70 31.0 RT-PRCO23AL-EN 189 m Electrical Data Table 141. Electrical characteristics - power exhaust (cooling and gas/electric) Tons Volts Phase hp rpm FLA LRA 3-5 208-230 1 0.33 1075 2.2 3.9 3-5 460 1 0.33 1075 1.1 2.0 3-5 575 1 0.33 1075 1.0 1.8 6-10 208-230 1 0.87 1075(a) 5.7 13.6 6-10 460 1 0.87 1075(a) 3.3 6.8 6-10 575 1 0.87 1075(a) 2.3 5.4 (a)Two speed. Table 142. Electrical characteristics - inducer motor Unit Model Number Stages hp rpm Volts Phase LRA YSC(036-060)G**(L,M,X,Y) 1 1/35 3000 208-230 1 0.6 YSC(036-060)G**(H,Z) 1 1/15 3300 208-230 1 0.4 YSC072F**(L,M,X,Y) 1 1/35 3000 208-230 1 0.6 YSC(090-102)F**(L,X) 28.3 45 (a) (a) 3 T/YHC036E3 YSC072F**(H,Z) 20.6 30 19.6 25 3 T/YHC036E4 YSC(090-102)F**(M,H,Y,Z) 2 1/15 2800/3350 208-230 1 0.4 YSC120F 7.9 15 7.2 15 4 T/YHC048F1 Table 143. Unit wiring - high efficiency 190 RT-PRCO23AL-EN Standard Indoor Fan Motor Optional Belt Drive Indoor Fan Motor(a) Max Fuse Size or Unit Model Voltage Max Circuit Max Fuse Size or Max Tons Number Range MCA Breaker MCA Circuit Breaker 3 T/YHC036E1 187-253 28.3 45 (a) (a) 3 T/YHC036E3 187-253 20.6 30 19.6 25 3 T/YHC036E4 414-506 11.0 15 10.3 15 3 YHC036EW 517-633 7.9 15 7.2 15 4 T/YHC048F1 187-253 37.3 50 (a) (a) 4 T/YHC048E_F3 187-253 27.2 40 24.6 35 4 T/YHC048E_F4 414-506 12.8 15 11.3 15 4 YHC048FW 517-633 9.8 15 8.5 15 5 T/YHC060F1 187-253 41.4 60 (a) (a) 5 T/YHC060E_F3 187-253 30.0 45 27.4 40 5 T/YHC060E_F4 414-506 13.8 20 12.3 15 5 YHC060E FW 517-633 10.2 15 8.9 15 6 T/YHC072E_F3 187-253 32.3 50 33.6 50 6 T/YHC072E_F4 414-506 15.1 20 15.7 20 6 YHC072E FW 517-633 12.7 15 13.5 20 6 T/YHC074F3 187-253 37.4 50 - - 6 T/YHC074F4 414-506 18.7 25 - - 71/2 T/YHC092F3 187-253 42.4 50 - - 71/2 T/YHC092F4 414-506 20.7 25 - - 71/2 YHC092FW 517-633 15.6 20 - - 81/2 T/YHC102F3 187-253 42.0 50 - - 190 RT-PRCO23AL-EN m Electrical Data Table 143. Unit wiring - high efficiency (continued) (a) No optional motors available for 3-5 tons. The standard motor for the 1 -phase models is a Multispeed Direct Drive Motor. Table 144. Unit wiring with electric heat (single point connection) - high efficiency - 3 to 5 tons Standard Indoor Fan Motor Optional Belt Drive Indoor Fan Motor(a) Optional Belt Drive Indoor Max Fuse Size or Standard Indoor Motor Unit Model Voltage Max Circuit Max Fuse Size or Max Tons Number Range MCA Breaker MCA Circuit Breaker 81/2 T/YHC102F4 414-506 21.6 25 — — 81/2 YHC102FW 517-633 16.5 20 — — 10 T/YHC120F3 187-253 46.1 60 — — 10 T/YHC120F4 414-506 21.9 30 — — 10 1 YHC120FW 1 517-633 1 16.4 120 1— — (a) No optional motors available for 3-5 tons. The standard motor for the 1 -phase models is a Multispeed Direct Drive Motor. Table 144. Unit wiring with electric heat (single point connection) - high efficiency - 3 to 5 tons RT PRCO23AL-EN 191 Optional Belt Drive Indoor Standard Indoor Motor Motor Max Fuse Size Max Fuse Size Unit Model Heater Model Heater kW Control or Max Circuit or Max Circuit Tons Number Number Rating(a) Stages MCA Breaker MCA Breaker 208/230 Volts Single Phase 3 THC036E1 BAYHTRE105* 3.8/5.0 1 30.1/33.5 45/45 — — 3 THC036E1 BAYHTRE110* 7.5/10.0 2 52.6/59.6 60/60 — — 3 THC036E1 BAYHTRE114* 10.4/13.8 2 69.8/79.4 70/80 — — 4 THC048F1 BAYHTRX105* 3.8/5.0 1 37.3/37.3 50/50 — — 4 THC048F1 BAYHTRX110* 7.5/10.0 2 54.6/61.6 60/70 — — 4 THC048F1 BAYHTRX114* 10.4/13.8 2 71.8/81.4 80/90 — — 4 THC048F1 BAYHTRX118* 13.2/17.6 2 89.0/101.1 90/110 — — 5 THC060F1 BAYHTRX105* 3.8/5.0 1 41.1/41.4 60/60 — — 5 THC060F1 BAYHTRX110* 7.5/10.0 2 54.6/61.6 60/70 — — 5 THC060F1 BAYHTRX114* 10.4/13.8 2 71.8/81.4 80/90 — — 5 THC060F1 BAYHTRX118* 13.2/17.6 2 89.0/101.1 90/110 — — 208/230 Volts Three Phase 3 THC036E3 BAYHTRE306* 4.5/6.0 1 23.1/25.5 30/30 21.9/24.3 30/30 3 THC036E3 BAYHTRE312* 9.0/12.0 2 38.8/43.6 40/45 37.5/42.4 40/45 3 THC036E3 BAYHTRE318* 13.1/17.4 2 52.9/59.9 60/60 51.6/58.6 60/60 4 THC048E_F3 BAYHTRX306* 4.5/6.0 1 27.2/27.5 40/40 24.6/24.6 35/35 4 THC048E_F3 BAYHTRX312* 9.0/12.0 2 40.8/45.6 45/50 37.5/42.4 40/45 4 THC048E_F3 BAYHTRX318* 13.1/17.4 2 54.9/61.9 60/70 51.6/58.6 60/60 5 THC060E_F3 BAYHTRX306* 4.5/6.0 1 30.0/30.0 45/45 27.4/27.4 40/40 5 THC060E_173 BAYHTRX312* 9.0/12.0 2 40.8/45.6 45/50 37.5/42.4 40/45 5 THC060E_F3 BAYHTRX318* 13.1/17.4 2 54.9/61.9 60/70 51.6/58.6 60/60 5 THC060E_F3 BAYHTRX323* 17.3/23.0 2 69.5/78.6 70/80 66.3/75.4 70/80 460 Volts Three Phase 3 THC036E4 BAYHTRE406* 6.0 1 13.0 15 12.1 15 3 THC036E4 BAYHTRE412* 12.0 2 22.0 25 21.1 25 3 THC036E4 BAYHTRE418* 17.4 2 30.1 35 29.3 30 4 THC048E F4 BAYHTRX406* 6.0 1 14.0 15 12.1 15 4 THC048E F4 BAYHTRX412* 12.0 2 23.0 25 21.1 25 RT PRCO23AL-EN 191 Electrical Data Table 144. Unit wiring with electric heat (single point connection) - high efficiency - 3 to 5 tons (continued) (a) Heater kW ratings are at 208/240V for 208/230V units, 480V for 460V units. Table 145. Unit wiring with electric heat (single point connection) - high efficiency - 6 to 10 tons Standard Indoor Motor Oversized Indoor Motor Optional Belt Drive Indoor Standard Indoor Motor Max Fuse Size Motor Unit Model Heater Model Heater kW Control or Max Circuit Max Fuse Size or Max Circuit Max Fuse Size Number Unit Model Heater Model Heater kW Control Breaker or Max Circuit Breaker or Max Circuit Tons Number Number Rating(a) Stages MCA Breaker MCA Breaker 4 THC048E F4 BAYHTRX418* 17.4 2 31.1 35 29.3 30 5 THC060E F4 BAYHTRX406* 6.0 1 14.0 20 12.3 15 5 THC060E F4 BAYHTRX412* 12.0 2 23.0 25 21.1 25 5 THC060E F4 BAYHTRX418* 17.4 2 31.1 35 29.3 30 5 THC060E F4 BAYHTRX423* 23.0 2 39.6 40 37.8 40 (a) Heater kW ratings are at 208/240V for 208/230V units, 480V for 460V units. Table 145. Unit wiring with electric heat (single point connection) - high efficiency - 6 to 10 tons 192 RT-PRCO23AL-EN Standard Indoor Motor Oversized Indoor Motor Max Fuse Size Max Fuse Size Unit Model Heater Model Heater kW Control or Max Circuit or Max Circuit Tons Number Number Rating(a) Stages MCA Breaker MCA Breaker 208/230 Volts Three Phase 6 THC072E/F3 BAYHTRU309* 6.8/9.0 1 32.3/33.4 50/50 33.6/35.0 50/50 6 THC072*3 BAYHTRU318* 13.5/18.0 1 53.1/60.4 60/70 54.8/62.0 60/70 6 THC072*3 BAYHTRU327* 20.3/27.0 2 76.6/87.5 80/90 78.3/89.1 80/90 6 THC072*3 BAYHTRU336* 27.0/36.0 2 100.1/114.5 110/125 101.8/116.1 125/110 6 THC074F3 BAYHTRA309* 6.8/9.0 1 37.4/37.8 50/50 -/- -/- 6 THC074F3 BAYHTRA318* 13.5/18.0 1 57.5/64.8 60/70 -/- -/- 6 THC074F3 BAYHTRA327* 20.3/27.0 2 81.0/91.9 90/100 -/- -/- 6 THC074F3 BAYHTRA336* 27.0/36.0 2 104.5/118.90 110/125 -/- -/- 71/2 THC092F3 BAYHTRA309* 6.8/9.0 1 42.4/42.4 50/50 -/- -/- 71/2 THC092F3 BAYHTRA318* 13.5/18.0 1 57.5/64.8 60/70 -/- -/- 71/2 THC092F3 BAYHTRA327* 20.3/27.0 2 81.0/91.9 90/100 -/- -/- 71/2 THC092F3 BAYHTRA336* 27.0/36.0 2 104.5/118.9 110/125 -/- -/- 81/2 THC102F3 BAYHTRA309* 6.8/9.0 1 42.0/42.0 50/50 -/- -/- 81/2 THC102F3 BAYHTRA318* 13.5/18.0 1 57.5/64.8 60/70 -/- -/- 81/2 THC102F3 BAYHTRA327* 20.3/27.0 2 81.0/91.9 90/100 -/- -/- 8Y2 THC102F3 BAYHTRA336* 27.0/36.0 2 104.5/118.9 110/125 -/- -/- 10 THC120F3 BAYHTRD318A 13.5/18.0 1 57.5/64.8 60/70 -/- -/- 10 THC120F3 BAYHTRD327A 20.3/27.0 2 81.0/91.9 90/100 -/- -/- 10 THC120F3 BAYHTRD336A 27.0/36.0 2 104.5/118.9 110/125 -/- -/- 10 THC120F3 BAYHTRD354A 40.6/54.0 2 151.4/140.5 175/150 -/- -/- 460 Volts Three Phase 6 THC072*4 BAYHTRA409* 9.0 1 16.6 20 17.4 20 6 THC072*4 BAYHTRA418* 18.0 1 30.3 35 31.0 35 6 THC072*4 BAYHTRA427* 27.0 2 43.8 45 44.5 45 6 THC072*4 BAYHTRA436* 36.0 2 57.3 60 58.0 60 6 THC074F4 BAYHTRA409* 9.0 1 18.9 25 - - 6 THC074F4 BAYHTRA418* 18.0 1 32.5 35 - - 6 THC074F4 BAYHTRA427* 27.0 2 46.0 50 - - 192 RT-PRCO23AL-EN C7� Electrical Data Table 145. Unit wiring with electric heat (single point connection) - high efficiency - 6 to 10 tons (continued) (a) Heater kW ratings are at 208/240V for 208/230V units, 480V for 460V units. Table 146. Electrical characteristics - compressor motor and condenser fan motor - 60 cycle - high efficiency Unit Model Compressor Motors Standard Indoor Motor Oversized Indoor Motor Phase hp rpm RLA LRA Volts Max Fuse Size hp Max Fuse Size LRA Unit Model Heater Model Heater kW Control 3 or Max Circuit 1 or Max Circuit Tons Number Number Rating(a) Stages MCA Breaker MCA Breaker 6 THC074F4 BAYHTRA436* 36.0 2 59.5 60 - - 71/2 THC0921`4 BAYHTRA409* 9.0 1 20.7 25 - - 71/2 THC092F4 BAYHTRA418* 18.0 1 32.5 35 - - 71/2 THC092F4 BAYHTRA427* 27.0 2 46.0 50 - - 71/2 THC092F4 BAYHTRA436* 36.0 2 59.5 60 - - 81/2 THC102F4 BAYHTRA409* 9.0 1 21.6 25 - - 81/2 THC102F4 BAYHTRA418* 18.0 1. 32.5 35 - - 81/z THC102F4 BAYHTRA427* 27.0 2 46.0 50 - - 81/2 THC102F4 BAYHTRA436* 36.0 2 59.5 60 - - 10 THC120F4 BAYHTRD418A 18.0 1 32.5 35 - - 10 THC120F4 BAYHTRD427A 27.0 2 46.0 50 - - 10 THC120F4 BAYHTRD436A 36.0 2 59.5 60 - - 10 THC120F4 BAYHTRD454A 54.0 2 70.4 80 - - (a) Heater kW ratings are at 208/240V for 208/230V units, 480V for 460V units. Table 146. Electrical characteristics - compressor motor and condenser fan motor - 60 cycle - high efficiency RT-PRCO23AL-EN 193 Unit Model Compressor Motors Condenser Fan Motors Volts Phase hp rpm RLA LRA Volts Phase hp FLA LRA Tons Number No. No. 3 T/YHC036E1 1 208-230 1 2.7 3500 16.7 79.0 1 208-230 1 0.20 1.5 2.4 3 T/YHC036E3 1 208-230 3 2.7 3500 12.8 95.0 1 208-230 1 0.20 1.5 2.4 3 T/YHC036E4 1 460 3 2.7 3500 6.4 45.0 1 460 1 0.20 0.6 1.3 3 T/YHC036EW 1 575 3 2.7 3500 5.4 38.0 1 575 1 0.40 0.8 2.0 4 T/YHC048F1 1 208-230 1 3.6 3500 21.8 117.0 1 208-230 1 0.40 2.5 6.6 4 T/YHC048E_F3 1 208-230 3 3.5 3500 13.7 83.1 1 208-230 1 0.40 2.5 6.6 4 T/YHC048E_F4 1 460 3 3.5 3500 6.2 41.0 1 460 1 0.40 1.0 2.8 4 YHC048FW 1 575 3 3.5 3500 4.8 33 1 575 1 0.40 0.8 2.0 5 T/YHC060F1 1 208-230 1 4.4 3500 25.0 134.0 1 208-230 1 0.40 2.5 6.6 5 T/YHC060E_F3 1 208-230 3 4.3 3500 15.9 110.0 1 208-230 1 0.40 2.5 6.6 5 T/YHC060E_F4 1 460 3 4.3 3500 7.1 52.0 1 460 1 0.40 1.0 2.8 5 YHC060FW 1 575 3 4.1 3500 5.1 39.5 1 575 1 0.40 0.8 2.0 6 T/YHC072E/F3 1 208-230 3 4.9 3500 19.2 136.0 1 208-230 1 0.70 3.3 9.5 6 T/YHC072E/F4 1 460 3 4.9 3500 8.7 66.0 1 460 1 0.70 1.8 5.5 6 YHC072E/FW 1 575 3 4.8 3500 6.9 55.0 1 575 1 0.75 2.4 6.2 6 T/YHC074F3 2 208-230 3 5.0/2.3 3500/2900 14.6/7.1 83.0/55.0 1 208-230 1 0.70 3.5 10.9 6 T/YHC074F4 2 460 3 5.0/2.3 3500/2900 6.8/3.5 41.0/28.0 1 460 1 0.70 2.4 6.6 71/2 T/YH C092F3 2 208-230 3 4.1/2.4 3500/3500 15.9/10.0 110.0/71.0 1 208-230 1 0.75 4.0 9.3 71/2 T/YHC092F4 2 460 3 4.1/2.4 3500/3500 7.1/4.7 52.0/38.0 1 460 1 0.75 2.8 6.2 71/2 YHC092FW 2 575 3 3.8/2.4 3500/3500 5.1/3.7 40.0/28.0 1 575 1 0.75 2.4 6.2 81/2 T/YH C102F3 2 208-230 3 4.5/2.4 3500/3500 15.6/10.0 110.0/71.0 1 208-230 1 0.75 4.0 9.3 81/2 T/YHC102F4 2 460 3 4.5/2.4 3500/3500 7.8/4.7 52.0/38.0 1 460 1 0.75 2.8 6.2 81/2 YHC102FW 2 575 3 4.6/2.4 3500/3500 5.8/3.7 39.0/28.0 1 575 1 0.75 2.4 6.2 10 T/YHC120F3 2 208-230 3 5.1/2.7 3500/3500 19.6/10.4 136.0/73.0 1 208-230 3 0.75 2.7 9.8 RT-PRCO23AL-EN 193 C=�J Electrical Data Table 146. Electrical characteristics - compressor motor and .condenser fan motor - 60 cycle - high efficiency Tons Unit Model Number No. Compressor Motors No. Condenser Fan Motors Volts Phase hp rpm RLA LRA Volts Phase hp FLA LRA 10 10 T/YHC120F4 YHC120FW 2 2 460 575 3 3 5.1/2.7 5.1/2.7 3500/3500 3500/3500 8.2/5.8 6.6/3.8 66.0/38.0 55.0/37.0 1 1 460 575 3 3 0.75 0.75 1.5 1.2 4.8 4.8 Table 147. Electrical characteristics - evaporator fan motor - 60 cycle - direct drive - high efficiency(a) Tons Unit Model Number Volts Hz Motor Phase No. FLA LRA bhp 3 T/YHC036E1 208-230 60 1 1 6.0 - 0.75 3 T/YHC036E3 208-230 60 1 1 6.0 - 0.75 3 T/YHC036E4 460 60 1 1 3.2 - 0.75 3 YHC036EW 575(b) 60 1 1 2.4 - 0.75 4 T/YHC048F1 208-230 60 1 1 7.6 - 1.00 4 T/YHC048E_F3 208-230 60 1 1 7.6 - 1.00 4 T/YHC048E_F4 460 60 1 1 4.0 - 1.00 4 YHC048FW 575(b) 60 1 1 3.0 - 1.00 5 T/YHC060F1 208-230 60 1 1 7.6 - 1.00 5 T/YHC06OE_F3 208-230 60 1 1 7.6 - 1.00 5 T/YHC06OE_F4 460• 60 1 1 4.0 - 1.00 5 YHC060FW 575(b) 60 1 1 3.0 - 1.00 (a) Belt drive indoor motor is standard equipment on T/YHC036E-T/YHCO60E with optional dehumidification. (b) 575V rated units utilize a high efficiency 230 evaporator fan motor powered through a 575/230V transformer. Motor voltage/FLA rated at transformer input. Table 148. Electrical characteristics - evaporator fan motor - 60 cycle - optional belt drive - high efficiency(a) (a) Belt drive indoor motor is standard equipment on T/YHC036E-T/YHCO60E with optional dehumidification. 194 RT PRCO23AL-EN Unit Model Tons Number Volts Hz Phase No. FLA LRA bhp 3 T/YHC036E3 208-230 60 3 1 5.0 32.2 1.00 3 T/YHC036E4 460 60 3 1 2.5 16.1 1.00 3 YHC036EW 575 60 3 1 1.7 13.2 1.00 4 T/YHC048E3 208-230 60 3 1 5.0 32.2 1.00 4 T/YHC048E4 460 60 3 1 2.5 16.1 1.00 4 T/YHC048F3 208-230 60 3 1 5.0 32.2 1.00 4 T/YHC048E4 460 60 3 1 2.5 16.1 1.00 4 YHC048FW 575 60 3 1 1.7 13.2 1.00 5 T/YHC060E3 208-230 60 3 1 5.0 32.2 1.00 5 T/YHC060E4 460 60 3 1 2.5 16.1 1.00 5 T/YHC060F3 208-230 60 3 1 5.0 32.2 1.00 5 T/YHC060F4 460 60 3 1 2.5 16.1 1.00 5 YHC060FW 575 60 3 1 1.7 13.2 1.00 (a) Belt drive indoor motor is standard equipment on T/YHC036E-T/YHCO60E with optional dehumidification. 194 RT PRCO23AL-EN m Electrical Data Table 149. Electrical characteristics - standard evaporator fan motor- 60 cycle - direct or belt drive - high efficiency (a) Precedent- 575V rated units utilize a high efficiency 380-48OV evaporator fan motor powered through a 575/48OV transformer assembly. Motor voltage/ FLA rated at transformer input. Table 150. Electrical characteristics - oversize evaporator fan motor- 60 cycle - direct or belt drive - high efficiency Tons Unit Model Direct or Volts Hz Phase hp FLA LRA Tons Number Belt Drive Volts Hz Phase hp FLA LRA 6 T/YHC072*3 Belt Drive 208-230 60 3 1.0 4.0-5.0 24.5 6 T/YHC072*4 Belt Drive 460 60 3 1.0 2.5 12.3 6 YHC072*W Belt Drive 575(x) 60 3 1.5 1.7 - 6 T/YHC074F3 Direct Drive 208-230 60 3 3.8 8.5 - 6 T/YHC074F4 Direct Drive 460 60 3 3.6 4.3 - 71/2 T/YHC092F3 Direct Drive 208-230 60 3 3.8 8.5-8.5 - 71/2 T/YHC092F4 Direct Drive 460 60 3 3.6 4.3 - 71/2 YHC092FW Direct Drive 575(x) 60 3 3.4 3.1 - 81/z T/YHC102F3 Direct Drive 208-230 60 3 3.8 8.5-8.5 - 81/2 T/YHC102F4 Direct Drive 460 60 3 3.6 4.3 - 81/2 YHC102FW Direct Drive 575`x) 60 3 3.4 3.1 - 10 T/YHC120F3 Direct Drive 208-230 60 3 3.8 8.5-8.5 - 10 T/YHC120F4 Direct Drive 460 60 3 3.6 4.3 - 10 YHC120FW Direct Drive 575(x) 60 3 3.6 3.1 - (a) Precedent- 575V rated units utilize a high efficiency 380-48OV evaporator fan motor powered through a 575/48OV transformer assembly. Motor voltage/ FLA rated at transformer input. Table 150. Electrical characteristics - oversize evaporator fan motor- 60 cycle - direct or belt drive - high efficiency Tons Unit Model Number Direct or Belt Drive Volts Hz Phase hp FLA LRA 6 T/YHC072*3 Belt Drive 208-230 60 3 2.0 6.3-6.2 48.0 6 T/YHC072*4 Belt Drive 460 60 3 2.0 3.1 24.0 6 YHC072*W Belt Drive 575 60 3 2.0 2.5 18.2 Table 151. Electrical characteristics - inducer motor Unit Model Number Stages hp rpm Volts Phase LRA YHC(048-060)E/F*(L,M,H,X,Y,Z) 1 1/35 3000 208-230 1 0.6 YHC(036)E*(L,M,X,Y) 1 1/35 3000 208-230 1 0.6 YHC(036)E*(H,Z) 1 1/35 3300 208-230 1 0.4 YHC(072,074)**(L,M,X,Y) 1 1/35 3000 208-230 1 0.6 YHC (092,102)**(L,X) YHC(072,074)**(H,Z) YHC(092-102)**(M,H,Y,Z) 2 1/15 3350 208-230 1 0.4 YHC120 RT PRCO23AL-EN 195 0 MWEI Jobsite Connections Table 152.Typical Number of Wires DISCONNECT SWITCH (BY OTHERS) DB—JI ZONE SENSOR OR THERMOSTAT ROOFTOP UNIT For specific wiring information, see the installation instructions. All wiring except power wire is low voltage. All customer supplied wiring to be copper and must conform to applicable electrical codes (such as NEC or CEC) and local electric codes. Wiring shown dotted is to be furnished and installed by the customer. 196 RT-PRCO23AL-EN Zone Sensors A Manual Changeover .............................. 4 Manual/Auto Changeover ..................... 5 Manual/Auto Changeover with Status Indication LED's ......................... 10 Programmable Night Setback with Status Indication LED's ................... 7 Thermostats A 3 Wires, 24V, Cooling only 4 Wires, 24V, with Electric Heat B 3 Power Wires + 1 Ground Wire (3-phase) 2 Power Wires + 1 Ground Wire (1 -phase) DISCONNECT SWITCH (BY OTHERS) DB—JI ZONE SENSOR OR THERMOSTAT ROOFTOP UNIT For specific wiring information, see the installation instructions. All wiring except power wire is low voltage. All customer supplied wiring to be copper and must conform to applicable electrical codes (such as NEC or CEC) and local electric codes. Wiring shown dotted is to be furnished and installed by the customer. 196 RT-PRCO23AL-EN Dimensional Data Figure 1. Cooling and gas/electric - 3 to 5 tons standard efficiency Notes: 1. All dimensions are in inches/millimeters. 2. I/2 NPT Gas Connection = (Y_C Models only); 2" Electrical Connection: Single Point Power When Heat Installed (T_C Models only.) TOP PANEL EVAPORATOR SECTION ACCESS PANEL OCONDENSER FAN 407/8- 1038 07/8"1038 MM 4 1/4" 108 MM ALTERNATE CONDENSATE DRAIN 3/4 - 14 NPT DIA. HOLE CONDENSER COIL ® UNIT CONTROL WIRE 23 9/16" 20 1/4' 7/8" (22 MM) DIA. HOLE 598 MM 51 SERVICE GAUGE PORT ACCESS 1 3/8" (35 MM) DIA. HOLE 697/8 42 1/4" 41/4- 1749 MM 1073 MM 108 MM UNIT CONTROL WIRE 5 9/16" 2" (51 MM) DIA. HOLE 141 MM 5 5/8" 7 5/8" 143 MM 194 MM 95/8- 44 1/4- 1/2 NPT GAS CONNECTION 244 MM 1124 MM CONTROL AND COMPRESSOR ACCESS PANEL Figure 2. Cooling and gas/electric - 3 tons high efficiency Notes: 1. All dimensions are in inches/millimeters. 2. 1/2 NPT Gas Connection = (Y_C Models only); 2" Electrical Connection: Single Point Power When Heat Installed (T_C Models only.) TOP PANEL EVAPORATOR SECTION ACCESS PANEL � �\ \\\� CONDENSER FAN V / 921 MM 4 1/4' 108 M ALTERNATE � CONDENSATE DRAIN 3/4 -14 NPT DIA HOLE }/ CONDENSER COIL UNIT CONTROL VARE 7W (22MM) DIA HOLE � 23 9/16" 81 1/4" 598 MM_SERVICE GAUGE PORT ACCESS j� 41/4' 19/8' (35MM) DIA HOLE d2 S 4° 691/8° .1 108MM• 1749 MM 107 MM UNIT POWER WIRE _ 1 9/16" 1 jV(23MM) DIA HOLE 14f MM 5 5/6" 15/6" 143 MM194'' MM 9 5/8° 1125 MM 244 MM 12 NPT OAS CONNECTION / — CONTROL AND COMPRESSOR ACCESS PANEL RT-PRCO23AL-EN 197 TRAI . Dimensional Data Figure 3. Cooling and gas/electric - 3 to 5 tons standard efficiency, 3 tons high efficiency downflow airflow supply/return - through -the -base utilities Note: All dimensions are in inches/millimeters. Note: All dimensions are in inches/millimeters. 3 5/8" 14" 9 1/4" 15 1/2" 92 MM 356 MM 235 MM 1 394 MM 4" 102 MM 7MM 61024" MM RETURN TBU 23 12 5971MM THROUGH THROUGH �5 THE BASE GAS THE BASE 129 m ELECTRICAL (Y_C MODELS ONLY) 253 /M M Figure 4. Cooling and gas/electric - 3 to 5 tons standard efficiency, 3 tons high efficiency horizontal airflow supply/ return Note: All dimensions are in inches/millimeters. 9/4-14 NPT DRAIN CONNECTION 198 RT-PRCO23AL--EN Dimensional Data Figure 5. Cooling and gas/electric - 3 to 5 tons standard efficiency, 3 tons high efficiency unit clearance and roof opening Note: All dimensions are in inches/millimeters. CLEARANCE CLEARANCE 36" (914 MM) HORIZONTAL FLOW - 18" (457 MM) DOWNFLOW 36" (914 MM) TYPICAL ROOF OPENING CLEARANCE FROM TOP OF UNIT 72" 40" 37" (6 32 MM) (1016 MM) (940 MM) \ 441/2 (1930 MM) CLEARANCE 48" (1219 MM) \ CLEARANCE 36" (914 MM) Figure 6. Cooling and gas/electric - 3 to 5 tons standard efficiency, 3 tons high efficiency - roof curb Note: All dimensions are in inches/millimeters. C\�r�r\vll 37 7.36 \ 443MM '36e 951 MM 25 3/16' 14 9/16• 49. r9% 640 MM . 370 MM >3/ � 61 13/16 26 3 MM 65 3/16' 356 MM �25 MM 1656 MM M 4n -O 1 3/4 S tt yO�10�1Y 477M� 17 9q� C 65 13/16• 40 7/8' 1670 MM (F9�/ 1030 MM 417/ 16- C 2' 1053 MM AB� 51 MM C`1 I MM RT-PRCO23AL-EN 199 Dimensional Data Figure Z Cooling and gas/electric - 3 to 5 tons standard efficiency, 3 tons high efficiency downflow duct connections - field fabricated Note: All dimensions are in inches/millimeters. --14 1/16" (357 MM). �c 24 3/8" (619 MM) 1, 3566 4 /. 16 3/16" / lAll MAN Figure 8. Cooling and gas/electric - 3 to 5 tons standard efficiency, 3 tons high efficiency, economizer, manual or motorized fresh air damper; power exhaust Note: All dimensions are in inches/millimeters. ANGES 1 1/4" (32 MM) Figure 9. Cooling and gas/electric - 3 to 5 tons standard efficiency, 3 tons high efficiency economizer & barometric relief damper hood Note: All dimensions are in inches/millimeters. 200 RT-PRCO23AL-EN Dimensional Data Figure 10. Cooling and gas/electric models - 3 to 5 tons Figure 11. Gas/electric models - 3 to 5 tons standard standard efficiency, 3 tons high efficiency, efficiency, 3 tons high efficiency height of gas swing diameter for hinged door(s) option pipe required from inside base of unit to gas shut off assembly (factory provided) -Y_C models only Note: All dimensions are in inches/millimeters. Note: All dimensions are in inches/millimeters. 17 718' 1.6" {454 MMI (406 MMI ` npgtcanlc:o 21 114" Y_c mdnn: only (565 MM) Figure 12. Cooling and gas/electric - 6, 71/Z (single) tons standard efficiency, 4 to 5 tons high efficiency Note: All dimensions are in inches/millimeters. ,—TOP PANEL. EVAPORATORSECTION / \\ ACCESS PANEL. �'•\ \` ALTERNATE CONDENSATE DRAIN CONNECTION 314 - 14 NPT DIA. HOLE 88 S'8' 2251 MM 112 NPT GAS CONNECTION (80 mbh, 120 bhl, 3!4 NPT GAS CONNECTION (150 mbh, 7.00 mbh. 250 mbh) CONTROLAND COMPRESSOR ACCESS PANEL CONOENSERFAN 40 7.8 1038 AAM �—CONDENSER COIL –�_UNITCONTROLORE 7?8" (22MM) DIA. HOLE SERVICE GAUGE PORT ACCESS 1 V8' (35MM) DIA. HOLE 4"4 108 MM UNIT POWER WIRE 5 518 1 3/8' (35MM) DIA, HOLE T43 MM -17518 94 MM / 53 114' 13533 MVA RT-PRCO23AL-EN 201 Dimensional Data Figure 13. Cooling and gas/electric - 6, 71/2 (single) tons standard efficiency, 4 to 5 tons high efficiency downf low airflow supply/retum - through -the -base utilities Note: All dimensions are in inches/millimeters. 3 5/B' I 92 NN 1 yI I_`— 144 MN 112- _�_I`251 9 71 8'_I-'— 4447th _I 4' 102 MM RETURN SUPPLY MM (1II THROUGH THE BASE C/ONBENSOTE - / 40 3/4' 1035 411 (] 1 71 MM I6 1/2- 4118, ] 3/4• 165 MM IOANM 9] MM 27 5/8• ` 701 MM TWERJGH THE –`7 NM BASE ELECTRICAL 5 7/88. 149 HM 10 7/8 276 4M Figure 14. Cooling and gas/electric - 6, 71/2 (single) tons standard efficiency, 4 to 5 tons high efficiency horizontal airflow supply and return Note: All dimensions are in inches/millimeters. 4 1/4" 108 Mt 3 74L 98 MM 93/81, 238 MM T Return _ 3211/4' I 63 832 MM supply -4MM 191/4 23 7/8" 489 MM 606 MM 3/4-14 NPT DIA. HOLE CONDENSATE DRAIN 27 5/8" 701 MM 120 202 RT-PRCO23AL-EN Dimensional Data Figure 15. Cooling and gas/electric - 6, 71/2 (single) tons standard efficiency, 4 to 5 tons high efficiency unit clearance and roof opening Note: All dimensions are in inches/millimeters. CLEARANCE 36" (914 MM) CLEARANCE HORIZONTAL FLOW - 18" (457 MM) DOWNFLOW 36" (914 MM) TYPICAL ROOF OPENING CLEARANCE FROM TOP OF UNIT 72" \ \ 46"46.. 885/81, (1168 MM) (1168 MM) (2251 MM) 531/4 (1352 MM) CLEARANCE 48" (1219 MM) \' CLEARANCE 36" (914 MM) Figure 16. Cooling and gas/electric - 6, 71/2 (single) tons standard efficiency, 4 to 5 tons high efficiency - roof curb Note: All dimensions are in inches/millimeters. 36. 19\A MAI LEPRPNC� ,1178 /►I� g C <973 /i1 (356 MM) R! (vRN 1 3/4, aA 144) C� 9 QIA6 2.1 Cz ti 9 <83MM)gfg.9 c16e5 %A� (-9S�y M o �&1 (2045�1M� 83 lie• f` 3MM) (2130 MM) MM� r 1y�0/y�A1,, c23MM) Q / <Q Sv ce73i Oti�glY 98. c91 MfA� r,,:9 MMi So 3/8 C(a�A 280 W) 36' z(s1MM) CL�PRPNC RT-PRCO23AL-EN 203 m Dimensional Data Figure 17. Cooling and gas/electric - 6, 7'/2 (single) tons standard efficiency, 4 to 5 tons high efficiency - downflow duct connections field fabricated Note: All dimensions are in inches/millimeters. Note: See "Clearance required from duct to combustible surfaces (inches)," p. 19 for duct clearance to combustible materials. 17 3/4" 7—� 45 1 MM y 17 3/4" 451 MM 33 314" / 857 MA7 i 33 3/4" 857 MM ALL FLANGES 1 1/4" (31 MM) Figure 18. Cooling and gas/electric - 6, 71/2 (single) tons standard efficiency, 4 to 5 tons high efficiency - economizer, manual or motorized fresh air damper Note: All dimensions are in inches/millimeters. BAROMETRIC REL 1 Dimensions extends to 21 518, 549 MM when powered exhaust Is coupled wph low leak eoonomlzw ECONOMIZER HOOD 204 RT-PRCO23AL-EN Dimensional Data Figure 19. Cooling and gas/electric - 6, 71/z (single) tons standard efficiency, 4 to 5 tons high efficiency - swing diameter for hinged door(s) option Note: All dimensions are in inches/millimeters. 17" (432 MM) 21 3/8" (543 MM) 34 5/8" (879 MM) Figure 20. Cooling and gas/electric - 71/2 tons (dual compressor standard efficiency) - 10 tons standard efficiency, 6 to 81/2 tons high efficiency Note: All dimensions are in inches/millimeters. TOP PANEL CONDENSER FAN EVAPORATOR SECTION ACCESS PANEL /j 46716' 1190 MM 4 IA 108 Kim ALTERNATE CONDENSATE DRAIN 24 NNECTION 3M 1,1 NPT DIA. HOLE 6221 M12M' + 4 -- —71011-M M.—CONDENSEP. COIL -_ 0000 UNIT CONTROL WIRE "I 718' (22MM.) DIA. HOLE 86 5%8.1216 KDA" 9518 _SERVICE GAUGE 11 FIT ACCESS 2251 MM XtL 4 114 138' (35MM) DIA. HOLE 5518 — A', —108 MIA UN T POWER WIRE 43 MM -155/8 1 (35MM) DIA, HOLE 43 MM 7 5`8 194 MM 53 112NPT GAS CONNECTION 1 353 MM (80 mbh 120 mbh) 314 NPT GA CONNECTION , F 5 ' 050 mbfi, 2S mbh mbh, fy, MODEL CONTROL AND COMPRESSOR ACCESS PANEL RT-PRCO23AL-EN 205 Dimensional Data Figure 21. Cooling and gas/electric - 71/2 tons (dual compressor standard efficiency) - 10 tons standard efficiency, 6 to 81/2 tons high efficiency; downflow airflow supply/return through -the -base utilities Note: All dimensions are in inches/millimeters. 3 9/8' 7a1 K1 THRUR31 TIE - —1127 1 BASE ELECTRICAL 1 7/8• 149 MM E76 MM 6 1/2' MS MM Figure 22. Cooling and gas/electric - 71/2 tons (dual compressor standard efficiency) - 10 tons standard efficiency, 6 to 81/2 tons high efficiency; horizontal airflow supply and return Note: All dimensions are in inches/millimeters. 4 1/4" 108 W 93181, 238 MM Return 32 11/4" i 425 1631, 3MM 832r I � MM supplyF66 89 M /8" 489 MM MM 3/4-14 NPT DIA, HOLE CONDENSATE DRAIN 27 5/8" 701 MM 120 206 RT-PRCO23AL-EN SUPPLY 32 IS - 816 W 63 MN (II( 11 IIjjIIIIi7{{jj7 +/ ' \ 111 �— _ill -- 7a1 K1 THRUR31 TIE - —1127 1 BASE ELECTRICAL 1 7/8• 149 MM E76 MM 6 1/2' MS MM Figure 22. Cooling and gas/electric - 71/2 tons (dual compressor standard efficiency) - 10 tons standard efficiency, 6 to 81/2 tons high efficiency; horizontal airflow supply and return Note: All dimensions are in inches/millimeters. 4 1/4" 108 W 93181, 238 MM Return 32 11/4" i 425 1631, 3MM 832r I � MM supplyF66 89 M /8" 489 MM MM 3/4-14 NPT DIA, HOLE CONDENSATE DRAIN 27 5/8" 701 MM 120 206 RT-PRCO23AL-EN Dimensional Data Figure 23. Cooling and gas/electric - 71/2 tons (dual compressor standard efficiency), 10 tons standard efficiency, 6 to 81/2 tons high efficiency; unit clearance and roof opening Note: All dimensions are in inches/millimeters. CLEARANCE CLEARANCE 36" (914 MM) HORIZONTAL FLOW - 18" (457 MM) DOWNFLOW 36" (914 MM) TYPICAL ROOF OPENING CLEARANCE FROM TOP OF UNIT 72" 46\ \ 885/81, (1168 MM) (1168 MM) i \ (2251 MM) \\� \✓/ 531/4 � (1352 MM) CLEARANCE 48" (1219 MM) \� CLEARANCE 36" (914 MM) Figure 24. Cooling and gas/electric - 71/2 tons (dual compressor standard efficiency), 10 tons standard efficiency, 6 to 81/2 tons high efficiency; roof curb Note: All dimensions are in inches/millimeters. �A MMS c�F 36, c� QFq 9�qN 46 3/8 ,1, C ��PRP 1178 MM) 1- ('ii0'MM) 9rCFF "6• C �(873'iNM> (23MM> y (lee A ,8� r'9f (3516 MM) ,` VCT70'161 (2045so /MM) 83 7/8'21 , ��,9J R`� 5MM) (2130 MM) (44 /MM) SVQQL <B73MM 4% (21A6 �g (2146/ M) c126i'MM> 98. A MMS c51 La1� 508 c'f9 36' MMJ (51HM) C\pzR NCE RT-PRCO23AL-EN 207 Dimensional Data Figure 25. Cooling and gas/electric - 71/2 tons (dual compressor standard efficiency), 10 tons standard efficiency downflow, 6 to 81/2 tons high efficiency; duct connections field fabricated Note: All dimensions are in inches/millimeters. Note: See "Clearance required from duct to combustible surfaces (inches);' p. 19 for duct clearance to combustible materials. 17 3/4" 7--. 451 MM �' �- 417 51MM 3�y 33 3/4" / ! 857 MM i 33 3/4" 857 MM i ALL FLANGES 1 1/4" (31 MM). Figure 26. Cooling and gas/electric - 71/2 tons (dual Figure 22 Cooling and gas/electric - 71/2 tons (dual compressor compressor standard efficiency), 10 tons standard efficiency), 10 tons standard efficiency, standard efficiency, 6 to 81/2 tons high 6 to 81/2 tons high efficiency; swing diameter for efficiency; power exhaust hinged door(s) option Note: All dimensions are in inches/millimeters. Note: All dimensions are in inches/millimeters. 6.73- j 16.5" ' 170 MM 419 MM 43 MM vU MM = d VC s _f, modelsuMy 3 SR 8/9MM 208 RT-PRCO23AL-EN Figure 28. Cooling and gas/electric - 6 to 10 tons standard efficiency, 4 to 6 tons high efficiency, 71/2 to 81/2 tons high efficiency; economizer, manual or motorized fresh air damper Note: All dimensions are in inches/millimeters. BAROMETRIC 1 Dlme aWm wbn0e b 21518'. 549 MM when powerededaWIecooped whh low "soonon*w Dimensional Data Figure 29. Gas/electric - 6 to 10 tons standard efficiency, 4 to 6 tons high efficiency, 71/2 to 81/2 tons high efficiency; height of gas pipe required from inside base of unit to gas shut off assembly (factory provided) -Y_C models only Note: All dimensions are in inches/millimeters. I- _j Figure 30. Cooling and gas/electric -10 tons high efficiency Notes: 1. All dimensions are in inches/millimeters. 2. 1/2 or 3/4 NPT Gas Connection = (Y C Models only); 2" Electrical Connection: Single Point Power When Heat Installed (T_C Models only.) INDOOR. TOP PANEL Via OUTDOOR TOP PSN[l. UNITCONTROLWIRE J.R (nMM) DIA HOLE CON CCE SEC PON ACCESS PANEL C \�^`.. �y /�` '.� 50 W 1[v241M EVAPORATOR SECTION .ACCESS PANEL ALT ERNA TE UUNDENSAI E DRAIN CONNECTION) -14 N1 ON, R.EE T CONDENSER C- 701 NIM,/ f 4718 \ 1213 MM 3532 / RJ J1t6' \. !R. NPT GAS CONNECTION 3, bh) JfA NPi GAS CONNECTION I60mh1.2 o 0,, PSOmbhl C. PRESSOR ACCESS PANEL UNITPCWER WINE SERVICE GAUGE PORI t Se'136MM1 DIA HOLE ACCESS I3IR'I:IRNIMj DIA HOLE RT-PRCO23AL-EN 209 111110 rRINAW4 Dimensional Data Figure 31. Cooling and gas/electric - 10 tons high efficiency; downflow airflow supply/return, through -the -base utilities Notes: 1. All dimensions are in inches/millimeters. 2. 1/2 or 3/4 NPT Gas Connection = (Y—C Models only); 2" Electrical Connection: Single Point Power When Heat Installed (T—C Models only.) 3 510" 92 MM 970 y 17 112 251 MM 17 1l2 11 444 MM 444 MM 4" 0, lit 0, Rrhnn �1� �1I SuPPIY 1!0" A'MM 011 6 MM A 03/0" i 163 MM 104 MM 701 MM T BASE GAS HROUGH E 7491Mf t 51 1116, MM27 W8- _ Figure 32. Cooling and gas/electric - 10 tons high efficiency; horizontal airflow supply/return Notes: 1. All dimensions are in inches/millimeters. 2. 1/2 or 3/4 NPT Gas Connection = (Y—C Models only); 2" Electrical Connection: Single Point Power When Heat Installed (T—C Models only.) 3 718" 9B MM 210 RT-PRCO23AL-EN THROUGH THF BASE ELECTRICAL '�`,.,, THROUGH THE 23!4" BASE CONDENSATE 71 MN 03/0" i 163 MM 104 MM 701 MM T BASE GAS HROUGH E 7491Mf t 51 1116, MM27 W8- _ Figure 32. Cooling and gas/electric - 10 tons high efficiency; horizontal airflow supply/return Notes: 1. All dimensions are in inches/millimeters. 2. 1/2 or 3/4 NPT Gas Connection = (Y—C Models only); 2" Electrical Connection: Single Point Power When Heat Installed (T—C Models only.) 3 718" 9B MM 210 RT-PRCO23AL-EN m Dimensional Data Figure 33. Cooling and gas/electric - 10 tons high efficiency; unit clearance and roof opening Notes: 1. All dimensions are in inches/millimeters. 2. 1/2 or 3/4 NPT Gas Connection = (Y_C Models only); 2" Electrical Connection: Single Point Power When Heat Installed (T_C Models only.) CLEARANCE CLEARANCE 36" (914 MM) HORIZONTAL FLOW - 18" (457 MM) 40, DOWNFLOW 36"(914 MM) TYPICAL ROOF OPENING CLEARANCE FROM TOP OF UNIT 72" \ \ 46" 46" 9911/16" (1168 MM) (1168 MM) \ (2532 MM) 63 3/16"1"-' (1605 MM) CLEARANCE 48" (1219 MM) \� CLEARANCE 36" (914 MM) Figure 34. Cooling and gas/electric - 10 tons high efficiency - roof curb Notes: 1. All dimensions are in inches/millimeters. 2. 1/2 or 3/4 NPT Gas Connection = (Y_C Models only); 2" Electrical Connection: Single Point Power When Heat Installed (T_C Models only.) 14' 1358 MIA) \ 1 3 4' (44 Mh11 c(� N c2EgR� cF3s (910 ��te•(gs MA�JFpR DO M'UlpoRyOONTq(w 1 410 M1.1) 65.8' B3218' f168 MM) 12130 MM) 66316' 34 L8' (25 MM) (1432 MM) 1873 MM) 181/2' 1lf\ / 1• (4]0 MMj (204045 MM) 125 MM) T \�\ \ 64 (2116 Mh1) 2- (51 AIM) W 343W (8]3 MM to 60 318' (1 534 MM) RT-PRCO23AL-EN 211 Figure 38. Cooling and gas/electric - 10 tons high efficiency - economizer, manual or motorized fresh air damper Note: All dimensions are in inches/millimeters. Dimensional Data Figure 39. Gas/electric - 10 tons high efficiency - height of gas pipe required from inside base of unit to gas shut off assembly (factory provided) -Y-C models only Note: All dimensions are in inches/millimeters. RT-PRCO23AL-EN 213 Weights Table 153. Maximum unit & comer weights (lbs) and center of gravity dimensions (in.) - cooling models Tons Unit Model No. Maximum Model Weights(a) Shipping Net A Corner Weights(b) B C D Center of Length Gravity (in.) Width 3 TSC033G 537 431 201 155 25 50 29 8 3 TSC036G 537 431 201 155 25 50 29 8 4 TSC043G 557 452 213 159 27 53 29 8 4 TSC048G 557 452 213 159 27 53 29 8 5 TSC060G 603 498 218 140 50 90 27 12 5 TSC063G 562 457 215 160 27 54 29 8 6 TSC072F 762 667 218 186 131 132 44 21 71/2 TSC090F 781 686 222 195 136 134 44 21 71/2 TSC092F 940 797 249 235 163 149 46 21 81/2 TSC102F 999 856 264 239 177 175 45 22 10 TSC120F 1058 960 320 218 233 189 40 24 3 THC036E 555 481 157 122 95 107 31 19 4 THC048E 787 692 220 178 132 163 40 23 4 THC048F 737 642 208 177 128 130 44 22 5 THC060E 841 746 241 193 139 173 39 22 5 THC060F 774 679 219 189 135 137 43 21 6 THC072E 943 845 274 172 186 213 41 24 6 THC072F 883 740 228 219 155 138 47 21 6 THC074F 1016 918 309 207 223 178 40 24 71/2 THC092F 1026 928 315 209 224 180 40 24 81/2 THC102F 1035 937 316 212 227 181 49 24 10 THC120F 1326 1132 326 326 258 222 53 27 (a) Weights are approximate. (b) Corner weights are given for information only. CENTER OF GRAVITY If— LENGTH — A CENTER OF GRAVITY WIDTH 1Q CENTER OF GRAVITY 214 RT-PRCO23AL-EN Weights Table 154. Maximum unit & corner weights (lbs) and center of gravity dimensions (in.) - gas/electric models Tons Unit Model No. Maximum Model Weights(a) Shipping Net A Corner Weights(b) B C D Center of Length Gravity (in.) Width 3 YSC033G 577 472 193 178 45 55 33 9 3 YSC036G 577 472 193 178 45 55 33 9 4 YSC043G 598 492 205 183 46 58 33 9 4 YSC048G 598 492 205 183 46 58 33 9 5 YSC060G 627 522 214 193 52 63 33 10 5 YSC063G 602 497 208 184 47 59 32 9 6 YSC072F 805 710 222 217 121 150 41 22 71/2 YSC090F 862 767 243 221 155 149 45 21 71/2 YSC092F 990 847 265 249 173 160 46 21 81/2 YSC102F 1047 904 279 252 187 186 44 22 10 YSC120F 1156 1058 345 1 242 258 213 41 23 3 YHC036E 607 532 165 137 95 134 31 19 4 YHC048E 858 763 238 200 148 176 40 23 4 YHC048F 806 711 226 199 144 143 44 22 5 YHC060E 917 822 261 218 156 187 40 22 5 YHC060F 850 755 239 214 152 151 44 21 6 YHC072E 1025 927 296 198 205 228 41 24 6 YHC072F 965 822 250 245 174 153 47 21 6 YHC074F 1114 1016 334 231 248 202 41 23 71/2 YHC092F 1124 1026 340 233 249 204 41 23 81/2 Y#i 102f._.r. �� amu,. 1 33 , 103 - 341`:.x. , .36 253;. , 205..:...x_.., 49. ;��?3z 10 YHC120F 1453 1259 356 371 289 242 54 27 (a) Weights are approximate. (b) Corner weights are given for information only. Table 155. Factory installed options (fiops)/accessory net weights (Ibs)(a)•(b) Accessory T/YSCO33G-O63G T/YSCO36G-O6OG T/YHCO36E Net Weight T/YHCO48E-O6OE T/YHCO48F-0601' Net Weight T/YSCO72F- 1O2F T/YHCO72E/F Net Weight T/YSC12OF T/YHC074F- 1O2F Net Weight TIYHC12OF Net Weight 3 to 5 Tons 4 to 5 Tons 6 to 8'/z Tons 6, 71/2, 81/2, 10 10 Barometric Relief 7 10 10 10 10 Belt Drive Option (3 phase only) 31 31 — — — Coil Guards 12 20 20 20 30 Economizer 26 36 36 36 36 Electric Heaters(c) 15 30 30 44 50 Hinged Doors 10 12 12 12 12 Low Leak Economizer 68 93 93 93 93 Manual Outside Air Damper 16 26 26 26 26 Motorized Outside Air Damper 20 30 30 30 30 Novar Control 8 8 8 8 8 Oversized Motor 5 8 8 — — Powered Convenience Outlet 38 38 38 38 50 RT-PRCO23AL-EN 215 Weights Table 155. Factory installed options (fiops)/accessory net weights (lbs)(a)•(b) (continued) Accessory T/YSC033G-063G T/YSC036G-06OG T/YHC036E Net Weight T/YHC048E-060E T/YHC048F-060F Net Weight T/YSC072F- 102F T/YHC072E/F Net Weight T/YSC120F T/YHC074F- 102F T/YHC120F Net Weight Net Weight 3 to 5 Tons 4 to 5 Tons 6 to 81/2 Tons 6, 71/2, 81/2, 10 10 Powered Exhaust 40 40 80 80 80 Reheat Coil 12(d) 14 15 20(e) 30 Roof Curb 61 78 78 78 89 Smoke Detector, Supply 5 5 5 5 5 Smoke Detector, Return 7 7 7 7 7 Stainless Steel Heat Exchanger(f) 4 6 6 6 6 Through -the -Base Electrical 8 13 13 13 13 Through -the -Base Gas 5 5 5 5 5 Unit Mounted Circuit Breaker 15 5 5 5 5 Unit Mounted Disconnect 5 5 5 5 5 (a) Weights for options not listed are <5 lbs. (b) Net weight should be added to unit weight when ordering factory -installed accessories. (c) Applicable to cooling units only. (d) Reheat weight here is only applicable to T/YHC036E models. (e) Reheat weight for this value only applicable to 7.5 and 8.5 Ton High Efficiency' F" models. (f) Applicable to gas/electric units only. 216 RT PRCO23AL-EN 10 nom. Mechanical Specifications General The units shall be convertible airflow.The operating range shall be between 115°F and 0°F in cooling as standard from the factory for units with microprocessor controls. Operating range for units with electromechanical controls shall be between 115°F and 40°F. Cooling performance shall be rated in accordance with AHRI testing procedures. All units shall be factory assembled, internally wired, fully charged with R -410A, and 100 percent run tested to check cooling operation, fan and blower rotation, and control sequence before leaving the factory.Wiring internal to the unit shall be colored and numbered for simplified identification. Units shall be cULus listed and labeled, classified in accordance for Central Cooling Air Conditioners. Casing Unit casing shall be constructed of zinc coated, galvanized steel. Exterior surfaces shall be cleaned, phosphatized, and finished with a weather -resistant baked enamel finish. Unit's surface shall be tested 672 hours in a salt spraytest in compliance with ASTM 8117. Cabinet construction shall allow for all maintenance on one side of the unit. Service panels shall have lifting handles and be removed and reinstalled by removing two fasteners while providing a water and air tight seal. All exposed vertical panels and top covers in the indoor air section shall be insulated with a cleanable foil -faced, fire -retardant permanent, odorless glass fiber material.The base of the unit shall be insulated with 1/8 inch, foil -faced, closed -cell insulation. All insulation edges shall be either captured or sealed.The unit's base pan shall have no penetrations within the perimeter of the curb other than the raised 1 1/8 inch high downflow supply/return openings to provide an added water integrity precaution, if the condensate drain backs up.The base of the unit shall have provisions for forklift and crane lifting, with forklift capabilities on three sides of the unit. Compressors All units shall have direct -drive, hermetic, scroll type compressors with centrifugal type oil pumps. Motor shall be suction gas-cooled and shall have a voltage utilization range of plus or minus 10 percent of unit nameplate voltage. Internal overloads shall be provided with the scroll compressors. Crankcase heaters are optional on 3 to 10 ton standard efficiency units and standard on 3 to 10 ton high efficiency units. Dual compressors are outstanding for humidity control, light load cooling conditions and system back-up applications. Dual compressors are available on 6 to 10 ton models and allow for efficient cooling utilizing 3 -stages of compressor operation for all high efficiency models. Controls Unit shall be completely factory -wired with necessary controls and contactor pressure lugs or terminal block for power wiring. Unit shall provide an external location for mounting a fused disconnect device. A choice of microprocessor or electromechanical controls shall be available. Microprocessor controls provide for all 24V control functions.The resident control algorithms shall make all heating, cooling, and/or ventilating decisions in response to electronic signals from sensors measuring indoor and outdoor temperatures.The control algorithm maintains accurate temperature control, minimizes drift from set point, and provides better building comfort. A centralized microprocessor shall provide anti -short cycle timing and time delay between compressors to provide a higher level of machine protection. 24 -volt electromechanical control circuit shall include control transformer and contactor pressure lugs for power wiring. Units shall have single point power entry as standard. Evaporator and Condenser Coils Internally finned, 5/16" coppertubes mechanically bonded to a configured aluminum plate fin shall be standard. Evaporator coils are standard for all 3 to 10 ton standard efficiency models. RT-PRCO23AL-E N 217 CTW'3 Mechanical Specifications Microchannel condenser coils are standard for all 3 to 10 ton standard efficiency models and 4,5,6, 71/2, 81/2 ton high efficiency models.The microchannel type condenser coil is not offered on the 4 and 5ton dehumidification model. Due to flat streamlined tubes with small ports, and metallurgical tube -to -fin bond, microchannel coil has better heat transfer performance. Microchannel condenser coil can reduce system refrigerant charge by up to 50% because of smaller internal volume, which leads to better compressor reliability. Compact all -aluminum microchannel coils also help to reduce the unit weight.These all aluminum coils are recyclable. Galvanic corrosion is also minimized dueto all aluminum construction. Strong aluminum brazed structure provides betterfin protection. In addition, flat streamlined tubes also make microchannel coils more dust resistant and easier to clean. Coils shall be leak tested at the factory to ensure the pressure integrity.The evaporator coil and condenser coil shall be leaktested to 600 psig.The assembled unit shall be leak tested to 465 psig.The condenser coil shall have a patent pending 1+1+1 hybrid coil designed with slight gaps for ease of cleaning. A plastic, dual -sloped, removable and reversible condensate drain pan with through -the -base condensate drain is standard. Filters Throwaway filters shall be standard on all units. Optional 2 -inch MERV 8 and MERV 13 filters shall also be available. Gas Heating Section The heating section shall have a progressive tubular heat exchanger design using stainless steel burners and corrosion resistant steel throughout. An induced draft combustion blower shall be used to pull the combustion products through the firing tubes.The heater shall use a direct spark ignition (DSI) system. On initial call for heat,the combustion blower shall purgethe heatexchanger for 20 seconds before ignition After three unsuccessful ignition attempts, the entire heating system shall be locked out until manually reset at the thermostat/zone sensor. Units shall be suitable for use with natural gas or propane (field -installed kit) and also comply with the California requirement for low NOx emissions (Gas/Electric Only). High Pressure Control All units include high pressure cutout as standard. Indoor Fan The following units shall be equipped with a direct drive plenum fan design (TNSC120F,TNHCO74F, TNHC092F,TNHC102F, 120F). Plenum fan design shall include a backward -curved fan wheel along with an external rotor direct drive variable speed indoor motor. All plenum fan designs will have a variable speed adjustment potentiometer located in the control box. 3 to 5 ton units (high efficiency 3-phase with optional motor) and 6 to 81/2 tons, standard efficiency units are belt driven, FC centrifugal fans with adjustable motor sheaves. 3 to 5 ton units (standard and high efficiency 3-phase) have multispeed, direct drive motors. All motors shall be thermally protected. All 10 tons, 6 ton (074), 71/2 to 81/2 (high efficiency) units have variable speed direct drive motors. All indoor fan motors meet the U.S. Energy Policy Act of 1992 (EPACT). Outdoor Fans The outdoor fan shall be direct -drive, statically balanced, draw -through in the vertical discharge position.The fan motor shall be permanently lubricated and shall have built-in thermal overload protection. Phase Monitoring Protection PrecedentTl units with 3-phase power are equipped with phase monitoring protection as standard. These devices protect motors and compressors against problems caused by phase loss, phase imbalance and phase reversal indication. 218 RT-PRCO23AL-E N Mechanical Specifications Plenum Fan All 10 tons, 6 ton (074), 71/2 to 81/2 ton high efficiency units shall be equipped with a direct drive plenum fan design. Plenum fan design shall include a backward -curved fan wheel along with an external rotor direct drive variable speed indoor motor. All plenum fan designs will have a variable speed adjustment potentiometer located in the control box. Refrigerant Circuits Each refrigerant circuit offer thermal expansion valve as standard. Service pressure ports, and refrigerant line filter driers are factory -installed as standard. An area shall be provided for replacement suction line driers. Unit Top The top cover shall be one piece construction or where seams exist, it shall be outside the indoor air-conditioned section.The ribbed top adds extra strength and prevents water from pooling on unit top. Factory Installed Options Black Epoxy Pre -Coated Coilsi The black epoxy coils have a thermoset vinyl coating that is bonded to the aluminum fin stock prior to the fin -stamping process.The pre -coated coils are an economical option for protection in mildly corrosive environments. CO2 Sensor Wiring The unit wiring for field installed CO2 sensors. Factory -installed CO2 sensor wiring saves time and ensures proper unit connections for the field installed CO2 sensor kits. CompleteCoatT' Coils The cathodic epoxy type electrodisposition coating is formulated for high edge build to plate fin and tube heat exchangers.The coating is selected to provide excellent resistance and durability to corrosive effects of alkalies, acids, alcohols, petroleum, seawater, salt air and corrosive environments. This option is available for the plate fin -tube condenser coil and the microchannel type condenser coil. Condensate Overflow Switch This option shall shut the unit down in the event that a clogged condensate drain line prevents proper condensate removal from the unit. Heat Exchanger The compact cabinet features a tubular heat exchanger in low, medium and high heat capacities. The heat exchanger is fabricated using stainless steel burners and corrosion -resistant aluminized steel tubes as standard on all models. It has an induced draft blowerto pull the gas mixture through the burner tubes.The heater has a direct spark ignition system which doubles as a safety device to prove the flame. Gas/Electric Precedent" models exceed all California seasonal efficiency requirements.They also perform better than required to meet the California NOx emission requirements. Hinged Access Doors Sheet metal hinges are available on the filter/evaporator, supply fan/heat, and the compressor/ control access doors. 1 Not available on microchannel condenser coils. RT-PRCO23AL-EN 219 m Mechanical Specifications Human Interface The Human Interface shall have a 5 inch color touchscreen display that conforms to FCC Part 15 Class B with an Ingress Protection Rating of IP24.The display text shall be readable by a person with 20/20 vision at a distance of 3 feet and 60° angle at lighting levels ranging from 100 lux - 25,000 lux. Also, the display shall operate at temperatures of -40° C to 70° C. Firmware and unit configurations shall be able to be restored via a USB storage device. Fault Detection & Diagnostics (FDD) This offering meets the mandatory requirement of CATitle 24 of fully configurable diagnostics allowing fault history and reading fault codes at the unit.This option provides detection of the following faults: Air temperature sensor failure/fault and notification of acceptable economizer mode.The FDD system shall be certified by the Energy Commission as meeting the requirements. Novar Return Air Zone Sensor This option, when used in conjunction with Novar Controls, will contain a factory provided and wired zone temperature sensor located in the return air stream. Novar Unit Controls Optional Novar rooftop unit controls shall be installed and tested.The Novar electronic thermostat module will interface to the unit microprocessor and will control the unit to the desired stage of cooling or heating. Powered or Unpowered Convenience Outlet This is a GFCI, 120V/15amp, 2 plug, convenience outlet, either powered or unpowered. When the convenience outlet is powered, a service receptacle disconnect will be available.The convenience outlet is powered from the line side of the disconnect or circuit breaker, and therefore will not be affected by the position of the disconnect or circuit breaker.This option can only be ordered when the through -the -base electrical with either the disconnect switch or circuit breaker option is ordered. Single Zone VAV1- One Zone Variable Air Volume Mode Single-zoneVAV shall varythe indoorfan speed as the zone cooling or heating load changes, while cooling capacity is cycled to maintain the supply air temperature at setpoint.The indoor fan shall operate at maximum speed whenever the heater operating. Note: SZVAV requires the use of a zone temperature sensor. If a unit is configured for SZVAV, but is connected to a conventional thermostat, the unit will revert to multiple -speed (two -speed) indoor fan control. Multi -Speed Indoor Fan System The multiple -speed (two -speed) indoor fan control option shall automatically switch operation of the indoorfan between high speed and low speed, based on the number of compressors operating. The indoor fan shall operate at high speed whenever the gas or electric heater is operating. Multiple -Zone VAV Control Multiple-zoneVAV control shall varythe speed of the indoorfan to maintain the duct static pressure at a setpoint. In cooling mode, the compressors shall be cycled (or economizer modulated) to maintain the supply air temperature (SAT) at the desired setpoint. In heating mode, the indoorfan shall operate at maximum speed whenever the heater operating. VAV units cannot be controlled by a thermostat. Single -Zone VAV requires the use of a zone temperature sensor. If a unit is configured for SZVAV, but is connected to a conventional thermostat, the unit will revert to multiple -speed (two -speed) indoor fan control 220 RT-PRCO23AL-EN ;mss Mechanical Specifications Stainless Steel Drain Pan This option provides excellent corrosion and oxidation resistance. Drain pan shall be reversible and constructed of 304 stainless steel. Stainless Steel Heat Exchanger The optional stainless steel heat exchanger is constructed of 409 stainless steel. It is resistant to corrosion and oxidation and easy to clean. The high strength to weight ratio allows for high ventilation rates with gas units. It is an excellent option to compliment the dehumidification option as a high outside air ventilation unit. With this option, a 10 -year stainless steel heat exchanger warranty is standard. Supply, Return and Plenum Air Smoke Detector With this option installed, if smoke is detected, all unit operation will be shut down. Reset will be manual at the unit. In order for the supply air smoke detector or return air smoke detector to properly sense smoke in the supply air stream or the return air stream, the air velocity entering the smoke detector unit must be between 500 - 4000 feet per minute. Equipment covered in this manual will develop an airflow velocity that falls within these limits over the entire airflow range specified in the evaporator fan performance table. Supply and/or return smoke detectors may not be used with the plenum smoke detector. Thermal Expansion Valve Thermal expansion valve is standard for all models. Through -the -Base Electrical Access An electrical service entrance shall be provided allowing electrical access for both control and main power connections inside the curb and through -the -base of the unit. Option will allow for field installation of liquid -tight conduit and an external field -installed disconnect switch. Through -the -Base Electrical with Circuit Breaker This option is a thermal magnetic, molded case, HACR Circuit Breaker with provisions for through - the -base electrical connections.The circuit breaker will be installed in a watertight enclosure in the unit with access through a swinging door. Wiring will be provided from the switch to the unit high voltage terminal block.The circuit breakerwill provide overcurrent protection, be sized per NEC and cULus guidelines, and be agency recognized by cULus. Through -the -Base Electrical with Disconnect Switch This 3 -pole, molded case, disconnect switch with provisions for through -the -base electrical connections are available.The disconnect switch will be installed in the unit in a watertight enclosure with access through a swinging door. Wiring will be provided from the switch to the unit high voltage terminal block.The switch will be cULus agency recognized. Note: The disconnect switch will be sized per NEC and cULus guidelines but will not be used in place of unit overcurrent protection. Through -the -Base Gas Piping The unit shall include a standard through -the -base gas provision.This option shall have all piping necessary including, black steel, manual gas shut-off valve, elbows, and union.The manual shut- off valve shall include a 1/8" NPT pressure tap.This assembly will require minorfield laborto install (Gas/Electric only). Trane® Air-FiT"' Wireless Trane®Air--Fi... wireless communication shall be factory installed and pre -wired. Air-Fi must also be Zigbee0 Building Automation certified and the system communicates using standard BACnet® open protocol. RT-PRCO23AL-EN 221 Mechanical Specifications Two -Inch Filters Two-inch MERV 8 and MERV 13 media filters shall be available on all models. Factory or Field Installed Options Clogged Filter/Fan Failure Switch A dedicated differential pressure switch is available to achieve active fan failure indication and/or clogged filter indication.These indications will be registered with either a zone sensor with status indication lights or an Integrated ComfortTl System.This option is available for microprocessor controlled units. Differential Pressure Switches These sensors allow individual fan failure and dirty filter indication for microprocessor controlled units.The fan failure switch will disable all unit functions and "flash" the Service LED on the zone sensor.The dirty filter switch will light the Service LED on the zone sensor and will allow continued unit operation. DischargeAirTemperature Sensing This option provides true discharge air temperature sensing in heating models.This sensor is a status indicator readable throughTracer@ orTrackerTI This option is available for microprocessor controlled units. Economizer (Standard) This accessory shall be available with or without barometric relief.The assembly includes fully modulating 0-100 percent motor and dampers, minimum position setting, preset linkage, wiring harness with plug, spring return actuator and fixed dry bulb control.The barometric relief shall provide a pressure operated damper that shall be gravity closing and shall prohibit entrance of outside air during the equipment 'off" cycle. Optional solid state or differential enthalpy control shall be available for either factory or field installation. The economizer arrives in the shipping position and shall be moved to the operating position by the installing contractor. Electric Heaters Electric heat modules shall be available for installation within basic unit. Electric heater elements shall be constructed of heavy-duty nickel chromium elements internally delta connected for 240V, wye connected for 480V and 600V. Staging shall be achieved through ReliaTelTI. Each heater package shall have automatically reset high limit control operating through heating element contactors. All heaters shall be individually fused from the factory, where required, and shall meet all NEC and CEC requirements when properly installed. Power assemblies shall provide single - point connection. Electric heat modules shall be cULus listed. FrostatTM' This option is to be utilized as a safety device. The FrostatTl opens when temperatures on the evaporator coil fall below 10°F.The temperature will need to rise to 50°F before closing.This option should be utilized in low airflow or high outside air applications (cooling only). LonTalk@ Communication Interface This option shall be provided to allow the unit to communicate as aTracer@ LCI -R device or directly with generic LonTalk@ Network Building Automation System Controls. Low Leak Economizer This accessory meets low leak requirements for ASHRAE 90.1, IECC, and CATitle 24 standards (3 cfm/ftA2@ 1" wg exterior air, 4 cfm/ftA2@ 1" wg return air).This option allows 100% outdoor air supply from 0-100% modulating dampers and is standard with barometric relief. It can be paired with powered exhaust for additional building pressure relief.This option can be paired with or 222 RT-PRCO23AL-EN C-Ti�7 Mechanical Specifications without Fault Detection & Diagnostics (FDD) to meet current mandatory CATitle 24 requirements. Available on downflow units only. The economizers come with three control options, dry bulb and reference or comparative enthalpy (optional). BACnet@ Communication Interface This option shall be provided to allowthe unitto communicate directly with a generic open protocol BACnet@ MS/TP Network Building Automation System Controls. Reference or Comparative Enthalpy Reference enthalpy is used to measure and communicate outdoor humidity.The unit receives and uses this information to provide improved comfort cooling while using the economizer. Comparative enthalpy measures and communicates humidity for both outdoor and return air conditions, and return airtemperature.The unit receives and usesthis information to maximize use of economizer cooling, and to provide maximum occupant comfort control. Reference or comparative enthalpy option shall be available when a factory or field installed downflow economizer is ordered.This option is available on all downflow models. Tool -less Hail Guards Tool -less, hail protection guards are available for condenser coil protection. Trane@ Communication Interface This option shall be provided to interface ReliaTelT"' controlled units with the Trane@ Integrated ComfortT"^ systems. Field Installed Options CO2 Sensor The CO2 sensor shall have the ability to monitor the concentration (parts per million, ppm) of CO2 (Carbon Dioxide) in the air. As the CO2 concentration changes, the outside air damper modulates to meet the current ventilation needs of the zone. Two field installed kits are offered; CO2 sensor and wiring or CO2 sensor only.The CO2 sensor only kit should be ordered with factory installed CO2 sensor wiring. Factory installed CO2 sensor wiring saves set-up time and ensures proper unit connections for the CO2 sensor. Duct Mounted Humidity Sensor This duct -mounted humidity sensor is used to control activation of the hot gas reheat dehumidification option.The humidity sensor can be set for humidity levels between 40% and 60% relative humidity by adjusting the ReliaTelT" options module. High Static Drive The high static drive option shall allowthe standard motorto operatewith improved external static capabilities. Low Leak Economizer This accessory meets low leak requirements for ASHRAE 90.1, IECC, and CATitle 24 standards (3 cfm/ftA2@1" wg exterior air, 4 cfm/ftA2@1" wg return air).This option allows 100% outdoor air supply from 0-100% modulating dampers and is standard with barometric relief. It can be paired with powered exhaust for additional building pressure relief. Available on downflow units only. Manual Outside Air Damper This rain hood and screen shall provide up to 50 percent outside air. RT-PRCO23AL-EN 223 I Mechanical Specifications Motorized Outside Air Damper Manually set outdoor air dampers shall provide up to 50 percent outside air. Once set, outdoor air dampers shall open to set position when indoor fan starts.The damper shall close to the full closed position when indoor fan shuts down. Powered Exhaust The powered exhaust, available for 3 to 10 ton units, shall provide exhaust of return air, when using an economizer, to maintain better building pressurization. Programmable Night Setback Auto or manual changeover with seven-day programming. Keyboard selection of Heat, Cool, Fan, Auto, or On. All programmable sensors have System On, Heat, Cool, Service LED/indicators as standard. Night Setback Sensors have one (1) Occupied, one (1) Un -occupied, and one (1) Override program per day. Remote Potentiometer The minimum position setting of the economizer shall be adjusted with this accessory. Roof Curb The roof curb shall be designed to mate with the unit's downflow supply and return and provide support and a water tight installation when installed properly.The roof curb design shall allow field -fabricated rectangular supply/return ductworkto be connected directlyto the curb. Curb shall be shipped knocked down for field assembly and shall include wood nailer strips. Thermostat Two stage heating and cooling operation or one stage heating and cooling shall be available in either manual or automatic changeover. Automatic programmable electronic with night set back shall also be available. Ventilation Override Accessory With the ventilation override accessory installed, the unit can be set to transition up to 3 different pre-programmed sequences for smoke purge, pressurization, and exhaust.The transition occurs when a binary input on the RTOM is closed (shorted).This would typically be a hard wired relay output from a smoke detector or fire control panel.The ventilation override accessory shall be available as field installed. Wall Mounted Humidity Sensor This wall -mounted humidity sensor is used to control activation of the hot gas reheat dehumidification option.The humidity sensor can be setfor humidity levels between 40% and 60% relative humidity by adjusting the ReliaTelTM options module. Wireless Zone Sensor LCD display that provides heat, cool, auto or off. Includes two temperature setpoints and a lockable setting with OF or °C indicators. Zone Sensor This control shall be provided to interface with the micro equipped units and shall be available in either manual, automatic programmable with night setback, with system malfunction lights, or remote sensor options. 224 RT-PRCO23AL-EN sc �a y n.i CERTIFIED° .. ; �� r wv7w �hritlire6taYy orq IN. is . 'N�� I "` ..:,,,.7 Ingersoll Rand (NYSE:IR) advances the quality of life by creating comfortable, sustainable and efficient environments. Our people and our family of brands—including Club Car@O, Ingersoll RandOO,Thermo King® and Trane@—work together to enhance the quality and comfort of air in homes and buildings; transport and protect food and perishables; and increase industrial productivity and efficiency. We are a $13 billion global business committed to a world of sustainable progress and enduring results. For more information, visit www.ingersolIrand.com. Ingersoll Rand has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice. The AHRI Certified mark indicates Ingersoll Rand's participation in the AHRI Certification program. For verification of individual certified products, go to www.ahridirectory.org. © 2016 Ingersoll Rand All rights reserved � RT-PRCO23AL-EN 23 March 2016 We are committed to using environmentally [/.R Ingersoll Rand. Supersedes RT-PRCO23AK-EN (01 Oct 2015) conscious print practices that reduce waste. 11/1/2016 City of Tukwila Allan Ekberg, Mayor Department of Community Development Jack Pace, Director DAVID LEE 2126 NW 204TH ST SHORELINE, WA 98177 RE: Permit No. M 16-0077 KIZUKI RAMEN / ZAKAYA RESTAURANT 182 SOUTHCENTER MALL Dear Permit Holder: In reviewing our current records, the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or the National Electric Code, every permit issued by the Building Division under the provisions of these codes shall expire by limitation and become null and void if the building or work authorized by such permit has not begun within 180 days from the issuance date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work has begun for a period of 180 days. Your permit will expire on 12/25/2016. Based on the above, you are hereby advised to: 1) Call the City of Tukwila Inspection Request Line at 206-438-9350 to schedule for the next or final inspection. Each inspection creates a new 180 day period, provided the inspection shows progress. -or- 2) Submit a written request for permit extension to the Permit Center at least seven(7) days before it is due to expire. Address your extension request to the Building Official and state your reason(s) for the need to extend your permit. The Building Code does allow the Building Official to approve one extension of up to 180 days. If it is determined that your extension request is granted, you will be notified by mail. In the event you do not call for an inspection and/or receive an extension prior to 12/25/2016, your permit will become null and void and any further work on the project will require a new permit and associated fees. Thank you for your cooperation in this matter. Sincerely, Bill Rambo Permit Technician File No: M 16-0077 6300 Southcenter Boulevard Suite #100 • Tukwila, Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 PERMIT COORQ COPY PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M16-0077 DATE: 05/10/16 PROJECT NAME: KIZUKI RAMEN / ZAKAYA RESTAURANT SITE ADDRESS: 182 SOUTHCENTER MALL X Original Plan Submittal Revision # before Permit Issued Response to Correction Letter # Revision # after Permit Issued DEPARTMENTS: Building :Division Public Works ❑ PRELIMINARY REVIEW: Not Applicable ❑ (no approval/review required) REVIEWER'S INITIALS: APPROVALS OR CORRECTIONS: Approved ❑ Corrections Required ❑ (corrections entered iinJReviews) � Notation: k5 M REVIEWER'S INITIALS: Fire Prevention Planning Division Structural ❑ Permit Coordinator 10 DATE: 05/12/16 Structural Review Required ❑ DATE: DUE DATE: 06/09/16 Approved with Conditions 1� Denied ❑ (ie: Zoning Issues) DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: 12/18/2013 NEW CASTLE MECHANICAL LT C Page 1 of 3 Home Espanol Contact A -'L Index Help My L&I Safety & Health Claims & Insurance Workplace Rights Trades & Licensing Washington State Department of Labor & Industries NEWCASTLE MECHANICAL LLC Owner or tradesperson Principals GIVENS, JAMES DONALD JR, PARTNER/MEMBER GIVENS, TAMERA S, PARTNER/MEMBER (End: 09/09/2014) Doing business as NEW CASTLE MECHANICAL LLC 2012112TH ST E Suite A TACOMA, WA 98445 253-503-7390 PIERCE County WA UBI No. Business type 602 858 734 Limited Liability Company Governing persons JAMES DONALD GIVENS JR TAMERA SUE GIVENS; License Verify the contractor's active registration / license / certification (depending on trade) and any past violations. Construction Contractor Active. .................. Meets . Meets current requirements. License specialties HeatingNenVAir-Conditioning and Refrig (HVAC/R) License no. NEWCACM9240D Effective — expiration 09/04/2008— 09/17/2016 Bond ................. $1,000,000.00 WESTERN SURETY CO $6,000.00 Bond account no. 24801593 Effective date Received by L&I Effective date 09/03/2010 09/03/2010 Expiration date Until Canceled Bond history Insurance Colony Ins Co $1,000,000.00 Policy no. GL -4185067 Received by L&I Effective date 06/10/2016 06/10/2016 Expiration date 06/10/2017 https://secure.Ini.wa.gov/verify/Detail.aspx?UBI=602858734&LIC=NEWCACM924OD&SAW= 06/28/2016 unnn TArsn D IX A mTn Ar - T., I, 1171z^19�74n rTnnT\ TAT L�nDllA TTn AT f V vY TAG FILTER(S) LIGHT(S) MAX EXHAUST PLENUM TOTAL HOOD NO. HOOD CONFIG. TOTAL RISER(S) END T❑ ROW HOOD NO, TAG MODEL LENGTH COOKING SUPPLY HOOD CONSTRUCTION SYSTEM PIPING ANGIN WGHT800 20' SIZE MODEL # TEMP. EXH, CFM WIDTH LEND. DIA. CFM S.P. CFM 20' 16'MICRONS END 5 Screw In Halogen N❑ 5430 45 1/2' -�- 45 1/2' 10' 19' 2025 -0.693' N❑ 430 SS 2 1 Captrate Soto Filter IND 15' 0.00' 600 Deg. 4050 3038 e ALONE ALONE 10' 19' 2025 -0.693' Light 1 Fan NO -2 -PSP -F, Where Exposed 5430 10' 25' 2700 -0.839' 430 SS 2 10' 0.00' 600 Deg. 2700 2970 ALONE ALONE ND -2 -PSP - F Where Exposed rTnnT\ TAT L�nDllA TTn AT f V vY TAG FILTER(S) LIGHT(S) UTILITY CABINET(S) FIRE HOOD HOOD NO. TAG TYPE QTY, HEIGHT LENGTH EFFICIENCY @ 9 QTY. TYPE WIRE GUARDTYPE MUA 12' 24' 759 0.252' FIRE SYSTEM ELECTRICAL SWITCHES SYSTEM PIPING ANGIN WGHT800 20' SIZE MODEL # QUANTITY 1 MUA 12' 24' 742 0.241' Captrate Solo Filter 20' 16'MICRONS 93% See Filter Spec, 5 Screw In Halogen N❑ 9LOCATION11 45 1/2' -�- 45 1/2' 15' 0.00'Non./15' N❑ LBS 2 Captrate Soto Filter 7 20' 16'1 93% See Fitter Spec. 3 Screw In Halogen NO e DCV-1111 Light 1 Fan NO 720 LBS unnn r1DmTn ATC' HOOD NO. TAG OPTION LENGTH WIDTH LEFT END STANDOFF (FINISHED) i' Wide 54' Long Insulated RISERS) TYPE WIDTH LENG. DIA. CFM S.P. RIGHT END STANDOFF (FINISHED) 1' Wide 54' Long Insulated 1 Front BALANCE DAMPERS 16' 6' STRUCTURAL FRONT PANEL MUA 12' 24' 759 0.252' MUA 12' 24' 759 0.252' INSULATION FOR BACK OF HOOD 2 16• BALANCE DAMPERS 2 20' STRUCTURAL FRONT PANEL MUA 12' 24' 742 0.241' MUA 12' 24' 742 0.241' INSULATION FOR BACK OF HOOD D1PPh1n7?A'Ph'T1 C'TTDATY DT77ATTTA,f/c1 HOOD NO TAG POS. LENGTH WIDTH HE RISERS) TYPE WIDTH LENG. DIA. CFM S.P. 1 19. Front 182' 16' 6' MUA 12' 24' 759 0.252' MUA 12' 24' 759 0.252' MUA 12' 24' 759 0.252' MUA 12' 24' 759 0.252' 2 16• Front 132' 20' 6' MUA 12' 24' 742 0.241' MUA 12' 24' 742 0.241' MUA 12' 24' 742 0.241' MUA 12' 24' 742 0.241' 1' LAYER OF INSULATION FACTORY INSTALLED IN 1.00' END STANDOFF MEETS 0' REQUIREMENTS CLEARANCE 2 1/4' TO COMBUSTIBLE SURFACES. 1'7--7- 1' LAYER OF INSULATION FACTORY INSTALLED IN INTERNAL BACK STANDOFF. MEETS 0 INCH REQUIREMENTS FOR CLEARANCE TO COMBUSTIBLE SURFACES. 87 3/4' 87 3/4' 3 3' O T— 9' O i p q• 10' -10' LA o J_ q• O - -- U.L. Listed Screw In Halogen Bulb 19' �I 19. 54' U.L. Listed Screw In Halogen Bulb 1 --------------:---- - ----- - - - - - - - - - - - - 10' 100j-!0' 10' O 24' 24' c 24' 24' O 16• ..1�- --- - --- 12— --- - --- -�- 12— ---- - - --- 1 11�---=--- 17 1/4 ----� 32 1/2' 32 1/2' 32 1/2' -� 12' 10' 0.00'Non./10' 0.00'OD �CjV 45' ( 90' I 45' 22 3/4' 45 1/2' -�- 45 1/2' -�- 45 1/2' 15' 0.00'Non./15' 0.00'OD 15-2.00' Overall Length PLAN VIEW - Hood 11 15' 0.00" LONG 543OND-2-PSP-F NOTE, Additional hanging angles provided for hoods 12' and longer. V LAYER OF INSULATION FACTORY INSTALLED IN 1.00' END STANDOFF MEETS 0' REQUIREMENTS CLEARANCE TO COMBUSTIBLE SURFACES, SPECIFICATI❑N: CAPTRATE° GREASE -,STOP* SOLD FILTER THE CAPTRATE GREASE -STOP SOLO FILTER IS A SINGLE -STAGE FILTER FEATURING A UNIQUE S -BAFFLE DESIGN IN CONJUNCTION WITH A SLOTTED REAR BAFFLE DESIGN, TO DELIVER EXCEPTIONAL FILTRATION EFFICIENCY. FILTER IS STAINLESS STEEL CONSTRUCTION, AND SIZED TO FIT INTO STANDARD 2 -INCH DEEP HOOD CHANNEL(S), UNITS SHALL INCLUDE STAINLESS STEEL HANDLES AND A FASTENING DEVICE TO SECURE THE TWO COMPONENTS WHEN ASSEMBLED. GREASE EXTRACTION EFFICIENCY PERFORMANCE SHALL REMOVE AT LEAST 75% OF GREASE PARTICLES FIVE MICRONS IN SIZE, AND 90% GREASE PARTICLES SEVEN MICRONS IN SIZE AND LARGER, WITH A CORRESPONDING PRESSURE DROP NOT TO EXCEED 1.0 INCHES OF WATER GAUGE. THE CAPTRATE GREASE -STOP SOLO WAS TESTED TO ASTM STANDARD ASTM F2519-05. FILTER COLLECTION EFFICIENCYr app G -6 4s.&. ra- o n L RESISTANCE VS. AIRIWW-rapm:°G- Srop—Fit= u v PARTICLE i)tL" {TER (um) m AIRFLOW (cfm) CAPTRATE FILTERS ARE BUILT IN COMPLIANCE WITH:. NEPA #96, NSF STANDARD #2 0% .cceanaxc UL STANDARD #1046 f�Ji I( lI1V/q INT. MECH. CODE (IMC) �IIJI/ I' LAYER OF INSULATION FACTORY INSTALLED IN INTERNAL BACK STANDOFF. MEETS 0 INCH REQUIREMENTS FOR CLEARANCE TO COMBUSTIBLE SURFACES. G 10' 0.00"NLO GW 543OND- 2 PSP -F RECEIVED CITY OF TUKWILA 4 ' 2016 0 f, 077 PERMIT REVISIONS 1 S d 00 Q' 00 -P .--i L CO U --P �, Q :3 U 3 O S :5 LLJ 0 J Q :3 00 LL1 �z c--1 0 DATE: 2/22/2016 DWG.#: 2573510 DRA� JDC-85 SCALE: 3/4" = 1 '-0" MASTER DRAWING 3' O T— 9' O i 10 ---- L j- — 25' -- -� U.L. Listed Screw In Halogen Bulb 54' Utility Cabinet 4' 24' 24' 24' O 1 --------------:---- - ----- - - - - - - - - - - - - 10' 100j-!0' 10' 20' 60' -I 60' 17 1/4 ----� 32 1/2' 32 1/2' 32 1/2' -� 12' 10' 0.00'Non./10' 0.00'OD �CjV 11-0.00' Overall Length G 10' 0.00"NLO GW 543OND- 2 PSP -F RECEIVED CITY OF TUKWILA 4 ' 2016 0 f, 077 PERMIT REVISIONS 1 S d 00 Q' 00 -P .--i L CO U --P �, Q :3 U 3 O S :5 LLJ 0 J Q :3 00 LL1 �z c--1 0 DATE: 2/22/2016 DWG.#: 2573510 DRA� JDC-85 SCALE: 3/4" = 1 '-0" MASTER DRAWING BALANCE DAMPERS HANGING ANGLE 20' CAPTRATE SOLD FILTER WITH HOOK V LAYER OF INSULATION FACTORY INSTALLED IN 3' INTERNAL STANDOFF. MEETS 0 INCH REQUIREMENTS FOR CLEARANCE TO COMBUSTIBLE SURFACES IT IS THE RESPONSIBILITY OF THE ARCHITECT/OWNER TO ENSURE THAT THE HOOD CLEARANCE FROM LIMITED—COMBUSTIBLE AND COMBUSTIBLE MATERIALS IS IN COMPLIANCE WITH LOCAL CODE REQUIREMENTS GREASE DRAIN WITH REMOVABLE CUP SECTION VIETY — MODEL 543OND-2—PSP—F HOOD — #1 J BULB, L55 SERIES E26 TURE — HIGH TEMP ASSEMBLY, 'HERMAL AND SHOCK RESISTANT CHING PLATES 'LY RISER WITH UME DAMPER 23.5% OPEN STAINLESS STEEL PERFORATED PANEL RENCE BALANCE DAMPERS HANGING ANGLE 20' CAPTRATE SOLO FILTER WITH HOOK 1' LAYER OF INSULATION FACTORY INSTALLED IN 3' INTERNAL STANDOFF. MEETS Q INCH REQUIREMENTS FOR CLEARANCE TO COMBUSTIBLE SURFACES IT IS THE RESPONSIBILITY OF THE ARCHITECT/OWNER TO ENSURE THAT THE HOOD CLEARANCE FROM LIMITED—COMBUSTIBLE AND COMBUSTIBLE MATERIALS IS IN COMPLIANCE WITH LOCAL CODE REQUIREMENTS GREASE DRAIN WITH REMOVABLE CUP SECTION VIEW — MODEL 5430ND-2—PSP—F HOOD — #2 1LB, L55 SERIES E26 — — HIGH TEMP ASSEMBLY, MAL AND SHOCK RESISTANT ACHING PLATES 'LY RISER WITH UME DAMPER 23.5% OPEN STAINLESS STEEL PERFORATED PANEL CE REVISIONS 9 p { F s 3 EE 66 33 tp co UJ 1- t Ej 1,ui�{I 1-1 pm �3 � x w co { Ir € I i cli CD cb N _ r € j N I ,r3,R j{ A ; i W Z f tL + r w 9 RY17ATT.4T FAN TATFnPMATTnAT - Jnh42.57.R.51 n FAN UNIT TAG FAN UNIT MODEL # CFM ESP. RPM H.P. B.H.P. 0 VOLT FLA DISCHARGE WEIGHT SUNES NO. BURNER NO 1 - Utility Set Grease Cup 1 YES 1 - Utility Set - Spring Vibration Isolators - BI27 Thru BI30 / Equivalent Sized Utility Set - Indoor/Outdoor use. 2 2 324432 298477 VELOCITY (LBS.) Natural 1 (LBS.) USBI30BD-RM 6750 2.000 822 5.000 3.8060 3 208 15.0 1296 FPM 950 23 MITA FAN INFORMATION - Jnh,42.57,R510 FAN UNIT TAG FAN UNIT MODEL # BLOWER HOUSING CFM ESP. RPM H.P. B.H.P. 0 VOLT FLA WEIGHT SONES BURNER NO 1 - Utility Set Grease Cup 1 YES 1 - Utility Set - Spring Vibration Isolators - BI27 Thru BI30 / Equivalent Sized Utility Set - Indoor/Outdoor use. 2 2 324432 298477 46 deg F 7 in. w,c, - 14 in, w.c. Natural F � (LBS.) 2 EFFICIENCY(%) 2 a A3 -D,750 -G18 G18 -PB A3 -D.750 6008 1.000 866 5.000 3.6200 3 208 15.0 1031 15.9 92 /_'AQ-TPP(T) AdAk7 -TTP ATR TTATTT/Q) FAN TAG INPUT OUTPUT FAN REQUIRED INPUT GAS UNIT TAG UNIT TAG 2 BTUs TEMP. RISE PRESSURE GAS TYPE NO.BTUs CUP DAMPER MOUNT 1 - Utility Set Grease Cup 1 YES 1 - Utility Set - Spring Vibration Isolators - BI27 Thru BI30 / Equivalent Sized Utility Set - Indoor/Outdoor use. 2 2 324432 298477 46 deg F 7 in. w,c, - 14 in, w.c. Natural FAAT nPTTn]V.Q FAN UNIT NO. TAG OPTION (Qty. - Descr.) (6) ISOLATORS = FAN 1 - BI30 - 24' Discharge Extension. UNIT TAG # 1 1 - BI - Discharge Orientation Vertical Upper Left - CW Inlet Side. 2 NO. 1 - BI30 - Inlet Connection Standard 24' Flanged Grease Duct, 1 SIDE GRAVITY MOTORIZED WALL 1 - Extra Set of Belts CUP DAMPER MOUNT 1 - Utility Set Grease Cup 1 YES 1 - Utility Set - Spring Vibration Isolators - BI27 Thru BI30 / Equivalent Sized Utility Set - Indoor/Outdoor use. 2 1 - AC Interlock Relay - 24VAC Coil --- 60' i YES 1 - Motorized Backdraft Damper for A3 -D Housing w 1:0514 F � 1 - Low Fire Start 2 18' BURNER. 1 - Inlet Pressure Gauge, 0-35' a 2. 1 - Manifold Pressure Gauge, -5 to 15' we LL 1 - Extra Set of Belts 3. DOWN DISCHARGE - AIR FLOW RIGHT -> LEFT 1 - Separate 120V Wiring Package (Required and used only for DCV or Prewire with VFD) - Three Phase Only 77AAT Arr P QQnPTT+'Q FAN EXHAUST SUPPLY (6) ISOLATORS = FAN W UNIT TAG # 1 31 LBS Curb 4.000'W x 60.000'L x 10.000'H 2 NO. GREASE GRAVITY WALL SIDE GRAVITY MOTORIZED WALL a h'd fI CUP DAMPER MOUNT DISCHARGE DAMPER DAMPER MOUNT 1 YES q, 3 2 -I 4' --- 60' i YES ('TTI7T? A QQTPAJRT TTi'Q NO. i=�°A�RNII; WEIGHT ITEM SIZE (6) ISOLATORS = FAN W 1 # 1 31 LBS Curb 4.000'W x 60.000'L x 10.000'H 2 # 2 82 LBS Curb 35.000'W x 84.000'L x 20.000'H Insulated 0 Direct Fired (DF) Profile Plate Assembly DI ert F' d Profile Plate Soec'ficatlons: ➢irect fired burners shall have patented (US Potent Noy US662952382), self-adjusting profile plates designed to ensure proper air velocity and pressure drop across the burner. Profile plates shall allow burners to achieve clean combustion by limiting by -P aduct levels to a maximum of 5ppm of carbon monoxide (CO), and 0.5ppm of nitrogen dioxide (1,102). A-tication. Spring-loaded burner profile plates ore engineered to automatically react to the momentum of fresh air stream, •Ithout the need for any motors or actuators to mechanically adjust then. Vith this feature, oil IF units are designed for demand control ventilation (DCV) requirements. Certiflcations: All profile plate assemblies shall be Included In the DF unit's ETL Ilsting and comply with combined safety standards ANSI Z83.4 and CSA 3.7 (non -recirculating DF heaters) and ANSI Z83.18 (recirculating DF heaters). t Cti -Profile plates shop be formed from G90 galvanized steel. -Profile plates shall vary In size per unit. -Profile plates shall be mounted along the same plane as the discharge of the burner. -Design shut[ Incorporate properly torqued, permanently mounted spring hinges. -Spring hinges shall be made from plated steel. FAN #1 USBI30BD-RM - EXHAUST FAN i- 57 I/2' EXTENSION 61 7/8' 1 15/16' SHAFT DIA. 24' 1 2' DRAIN 31 1/4' 56 1/2' LIFTING LUG L 5 1/- T 20' EQUIPMENT CURB 1---- 35' ROOF OPENING 2' SMALLER THAN CURB DIMENSION. CURB OUTER DISCHARGE OPEI 20 14 3/4' 6 1/2' FEATURES: - ROOF MOUNTED FANS - RESTAURANT MODEL - UL705 - UL762 - HIGH HEAT OPERATION DIRECT DRIVE 350'F (176'C) - HIGH HEAT OPERATION BELT DRIVE 350'F (176'C) - HEAT SLINGER - GREASE CLASSIFICATION TESTING - 2' DRAIN - MOTOR WEATHER COVER - FULLY SEALED SCROLL HOUSING - SCROLL ACCESS DOOR - FLANGE 1 1/4' - 11 THRU 20. - FLANGE 2' - 24 THRU 36, OPTIONS BI30 - 24' DISCHARGE EXTENSION. BI - DISCHARGE ORIENTATION VERTICAL UPPER LEFT - CW INLET SIDE. BI30 - INLET CONNECTION STANDARD 24' FLANGED GREASE DUCT. EXTRA SET OF BELTS UTILITY SET GREASE CUP UTILITY SET - SPRING VIBRATION ISOLATORS - BI27 THRU BI30 / EQUIVALENT SIZED UTILITY SET - INDOOR/OUTDOOR USE. NORMAL TEMPERATURE TEST BELT DRIVE EXHAUST FAN MUST OPERATE CONTINUOUSLY WHILE EXHAUSTING AIR AT 350'F (176'C) UNTIL ALL FAN PARTS HAVE REACHED THERMAL EQUILIBRIUM, AND WITHOUT ANY DETERIORATING EFFECTS TO THE FAN WHICH WOULD CAUSE UNSAFE OPERATION. 43 3/8' 14 3/4' 1 uM1WIRING 93 3/4' - 45 1/8• 42 1/8' SERVICE DIRECT FIRED MODULE_ DISCONNECT SWITCH AIRFLOW BLOWER/MOTOR ACCESS DOOR 24' SERVICE CLEARANCE REQ. 84' 39 9/16' 1' NPT C== F 9 1/2' o AIRFLOW a- REVISIONS i=�°A�RNII; L 0) (6) ISOLATORS = USBI18 THRU 36 W C+3�ry7i' ���31y V ' }C O� • I ICA p�vs� C, SUPPORT RAILS S o W 10' 8 a h'd fI � Q f,7, m I) 1 X N I1 �J Ut]iin� a in n I I- q, 3 [[ �7i o -I 4' --- 60' FAN #2 A3 -D.750 -G18 - HEATER } s'(l w 1:0514 F � 1. DIRECT GAS FIRED HEATED MAKE UP AIR UNIT WITH 18' BLOWER AND 18' BURNER. 1 i a 2. INTAKE HOOD WITH EZ FILTERS LL L 3. DOWN DISCHARGE - AIR FLOW RIGHT -> LEFT Cril3 t { N N 4. COOLING INTERLOCK RELAY. 24VAC COIL. 120V CONTACTS. LOCKS OUT BURNER CIRCUIT WHEN AC IS ENERGIZED. 5. MOTORIZED BACK DRAFT DAMPER 30' X 30' FOR SIZE 3 STANDARD & MODULAR DIRECT FIRED HEATERS W/EXTENDED SHAFT, 1 � - STANDARD GALVANIZED CONSTRUCTION, 3/4' REAR FLANGE, NFBUP-S ACTUATOR INCLUDED d � r _ 6. LOW FIRE START. ALLOWS THE BURNER CIRCUIT TO ENERGIZE WHEN THE MODULATION CONTROL IS IN A LOW FIRE POSITION. 7. GAS PRESSURE GAUGE, 0-35', 2.5' DIAMETER, 1/4' THREAD SIZE SUPPLY SIDE HEATER INFORMATION - B. GAS PRESSURE GAUGE, -5 TO +15 INCHES WC., 2.5' DIAMETER, 1/4' THREAD SIZE 9.EXTRA SET OF V -BELTS. ONLY TO BE ORDERED AS FAN OPTION AT TIME FAN IS ORDERED. WINTER TEMPERATURE = 29'F. TEMP. RISE = 46'F. 10. SEPARATE 120VAC WIRING PACKAGE FOR MAKE-UP AIR UNITS. OPTION MUST BE SELECTED WHEN MOUNTING VFD IN PREWIRE BTUs CALCULATED OFF STANDARD AIR DENSITY PANEL OR WITH DCV PACKAGE. PROVIDES SEPARATE 120VAC INPUT TO SUPPLY FAN. THIS 120V SIGNAL MUST BE RUN BY OUTPUT BTUs AT ALTITUDE OF 0.0 Ft. = 298477 ELECTRICIAN FROM DCV TO MUA SWITCH. INPUT BTUs AT ALTITUDE OF 0.0 ft. = 324432 LIFTING LUG L 5 1/- T 20' EQUIPMENT CURB 1---- 35' ROOF OPENING 2' SMALLER THAN CURB DIMENSION. CURB OUTER DISCHARGE OPEI 20 14 3/4' 6 1/2' FEATURES: - ROOF MOUNTED FANS - RESTAURANT MODEL - UL705 - UL762 - HIGH HEAT OPERATION DIRECT DRIVE 350'F (176'C) - HIGH HEAT OPERATION BELT DRIVE 350'F (176'C) - HEAT SLINGER - GREASE CLASSIFICATION TESTING - 2' DRAIN - MOTOR WEATHER COVER - FULLY SEALED SCROLL HOUSING - SCROLL ACCESS DOOR - FLANGE 1 1/4' - 11 THRU 20. - FLANGE 2' - 24 THRU 36, OPTIONS BI30 - 24' DISCHARGE EXTENSION. BI - DISCHARGE ORIENTATION VERTICAL UPPER LEFT - CW INLET SIDE. BI30 - INLET CONNECTION STANDARD 24' FLANGED GREASE DUCT. EXTRA SET OF BELTS UTILITY SET GREASE CUP UTILITY SET - SPRING VIBRATION ISOLATORS - BI27 THRU BI30 / EQUIVALENT SIZED UTILITY SET - INDOOR/OUTDOOR USE. NORMAL TEMPERATURE TEST BELT DRIVE EXHAUST FAN MUST OPERATE CONTINUOUSLY WHILE EXHAUSTING AIR AT 350'F (176'C) UNTIL ALL FAN PARTS HAVE REACHED THERMAL EQUILIBRIUM, AND WITHOUT ANY DETERIORATING EFFECTS TO THE FAN WHICH WOULD CAUSE UNSAFE OPERATION. 43 3/8' 14 3/4' 1 uM1WIRING 93 3/4' - 45 1/8• 42 1/8' SERVICE DIRECT FIRED MODULE_ DISCONNECT SWITCH AIRFLOW BLOWER/MOTOR ACCESS DOOR 24' SERVICE CLEARANCE REQ. 84' 39 9/16' 1' NPT C== F 9 1/2' o AIRFLOW a- REVISIONS Rpjj�®f ' ' ��+ /'• 0� i=�°A�RNII; L 0) co co CO I5 y?y� k pp3j W C+3�ry7i' ���31y V ' }C O� • I ICA p�vs� C, -� S o W {1 L 8 a h'd fI � Q f,7, m I) 1 X N I1 �J Ut]iin� a in n a q, 3 [[ �7i o Sic 4 i } s'(l w 1:0514 F � LO N 1 i a CR v 1 f LL L 2' [n Cril3 t { N N >J tit N 'A _ # k N 1 � - co 5 d � r _ r3' CD >LLJ Rpjj�®f ' ' ��+ /'• 0� (( _P L 0) co co CO . W V ' }C O� • I ICA p�vs� C, -� S o W F3U1�0 � �' � Q � w RECEIVED CITY OF TUKWILA DATE: 2/22/2016 DWG.#: 2573510 DRAWN JDC-85 SCALE: 3/4" = 1'-0" MASTER DRAWING SHEET NO. 3 REVISIONS DESCRIPTION DATE: JOB 2573510 Ku K. Southcenter D' t F' d H t W' ' JOB 2573510 - Ku Kai Southcenter I tall t W' JOB 2573510 - Ku Kd Southcenter Q 0 n�l 1 s J s3 4j U 1= 1i fj IN 3 I s T� !n `T _ o �Eit� I Fr1 8 $ i U Ttfi �fj Q M l 14 x GO €jr rEl c0 J W rl rM T Pt ui E1 t �1 'fit 1 V 1; L .may N r.-a ' j ..1 ilt N 5 C. t C ^* a c 1 r :q t3 { 9 i m -.T ti, -'1 C s' . 7-. t. s d 00 Q1 � -F' � � p CO 0) s s 4 u 3 o s LLJ � � 0 DATE: 2/22/2016 DWG.#: 2573510 aRAB1N JDC-85 SCALE: RECEIVED 3/4„ = 1'-011 CITY OF TUKWiLA MASTER DRAWING MAY 10 2016 07Mlb 0 7 MAY CENTER SHEET NO. 4 Exhaust Fan Wiring - DRAVING NUMBER EXH2573510-1 SHIP DATE 2/22/2016 MODEL vs'BI3oeD-RY n.toilra Darren•DROP 1 fV 3 3 �---� Latsl ne Lcsatkm KT-nl Fen R¢tar C21 1 SV-01 )IOYe ehca.4et snitch 721 s 7 9 ID u Iz 13 11 13 PDiDR D.TD !6 EXHAUST SFP-208v-3P-IS.BFLA 1] 1n TG /CTRL NOPE 3S1 19 --- nE7iiiEi F� lD VDtDIF 21 !E'lWTE3 1KTW11l VDtIIL � vTRE L[noa Pl - $AIX w - TE11IN BL - BLUE Ti! - l7EQ! BR - 7!R[IVIN GT - (3AT � Qt - QtAi(d PR - PURPLE RD -RED PK - PINK VN - WHITE Direct ire Heater lring DRAWING NUMBER DF2573510-2 SHiP DATE 2/22/2016 MODEL A3-D.v5o-D18 ATTENTION ELELTRILTAN )�.tettra oat:^ FOR atscDlREer cuaserTw y[Rr p w„rxrwe meper IS FACTORY SUPPLIED IW /rNDT6.IB—��-nV-1 M°foYira H•W tract Lroea>ECT POWER To THE DROP IN Dev o- (D36 D7 IN ENSPLVS) MOarpe Tbp Canbd 1 SV-011 2 Cdl DCV VKp ---J a-IJ Mr-6 IE EM 01 21v AC IntMode Rely DtoCv �'1 3 CB-➢1 o— DSV M) Bit tD�4a 1 tTL9 Myr fC DFI4 5 RE-DV OM t S3 Sl SV-n3 •• RClj OR LL 3 to 7 B a:-4 Ac Br..m a+.s wan �-01 1✓0 PS-02 � R -10-t Rn 9 B% � 10 TB- L SVS M d�r.ce rren 0 sv-n o____ [a u •• lz a-Irr£ o 13 B Rn n-�m B�a'r"°irr zr1w � 2 � ISi3 .aM1ep AF Swv @l 11 3 Y � uWN � TR-02 � t. A { 13 ]J, TR-03 VA-01 VH v4�a �ev4 W w.r [2�a IL M4)TLQ D6a l6 �� SUPPLY SNP-2JBV-32-iSOiLA �ml7 NV�e�olP l�w�ee rN�cost�vw FSC-01 �ro FR-GO 20 s. 01 IB n,ECTRi[4L ],yF(+�N4Ti(AI BR m 1f11 TDaigC7R[[[T�I[jIT�ri�C�13Ci�_ w H TR-04 �VICIRCUIi 15A aa' 19 VA-02 — DF)nTE FS�RLD VIRDG 21 nE)i1tE5 INTERNAL YDtD1G HL TERMDYiS Ss M0 S6 USED ON 22 VA-03 � NF t AF SERIES ALTWT6tS •� 11 PfmVIIES COOLING 2 vnr m m 1t-4IQ - t[LLAi m - _ � TS -0 ns a Ion Wiring DRAWING NUMBER RP2573570-2 SHIP DATE 2/22/2076 MODEL AD -D.730 -c19 120 V 1 PH. 240 V 1 PH. 208/460/600 V 3 PH. d:eannret n:seexv,¢et m:ea.x,¢et SMtch Gat-fl¢z Conduit Srttch Cpl -flex CaMult S•Itch Gel -flex conWt On WU O (In uNt) � lin emit) O nC/ [o•rctkz4 Factory Factory Foctory .ring .o-inq HIQvH®R• tl \ (RD waf a � � H BK R GR �� �1 ��iWprar o -q PRYER FRDM DEDICATED BREAKER Power Connection See above details. e o D3 IN HEATER 70 ILIA W DCV D7 IN NEATER TD ILIB IN DLV VIRE TD��� acv (�___--__�_ [SES VIRF �Dl ra EK - BLACK w - rEunv BL - BLI£ [R - Q✓£ni PR - BRaVM aT - f3G1T - PIrBIE RD -RID PK:P PDK 1IN - VHRE 3 �-•� Q - teEpl N7 - east[ mF'-}'fj R - lldaAl LY - (i4r Q - p4M(i IR - Pt4iL ns a Ion Wiring DRAWING NUMBER RP2573570-2 SHIP DATE 2/22/2076 MODEL AD -D.730 -c19 120 V 1 PH. 240 V 1 PH. 208/460/600 V 3 PH. d:eannret n:seexv,¢et m:ea.x,¢et SMtch Gat-fl¢z Conduit Srttch Cpl -flex CaMult S•Itch Gel -flex conWt On WU O (In uNt) � lin emit) O nC/ [o•rctkz4 Factory Factory Foctory .ring .o-inq HIQvH®R• tl \ (RD waf a � � H BK R GR �� �1 ��iWprar o -q PRYER FRDM DEDICATED BREAKER Power Connection See above details. e o D3 IN HEATER 70 ILIA W DCV D7 IN NEATER TD ILIB IN DLV VIRE TD��� acv (�___--__�_ [SES VIRF �Dl ra EK - BLACK w - rEunv BL - BLI£ [R - Q✓£ni PR - BRaVM aT - f3G1T - PIrBIE RD -RID PK:P PDK 1IN - VHRE REVISIONS DESCRIPTION DATE: 0 ELECTRICAL PACKAGES — Job#257351 0 0 5"_f r �C��I Fled Corvrectbn to Router or Ethernet S.Itch _ 4T (U 1HE DESCRIPTION OF OPERATION: Ii 6 OR Factor V) -ed Cora,ectron to CeUuor at DCV -1111 --STALL eeES a v.,.<.am., .. _ E < 1 w,wr ..�. Eav . r, , �y�t�e,t ., rr., r.,i, FACTORY VIKING 3� c 2573510 SCHEMATIC mm. for flNe ruwem.v..(fY °a.e°,vw«m muonaN crtcr. co,w .cqrelm a 4 1 Nae Ka S..thc. KM' 222/2016 E[P Rl-I CIRCUIT BOARDS �• ] I p$ 1 DCV R ,LI p II MQ•G Re V, 2A5 d s� 1� «Q 8 z HOr rD $Hlwr cPnl cob Izo vAC 24 -� " to BREAKER PANEL TO CONTROL PANEL CONTROL PANEL TO ACCESSORY ITEMS tarRa P �---- $� RELAY R[ur + v ResporlsbNtyl Electrkkn Respcwsm0.1ty1 Electrician SIGNAL FOR h_UTLD RAL FROM �MNT4Ol,� --- NO 4 3 14 NO bT EK ERNAL ST TERMINAL IS ENERGIZED NC 2 1 12 NC i3 rl BRFN(ERE AKER $ IZE $fB1WL'i IS THE MAXIIAIM ALJ.ADP CIARRQ PANEL SHUNT TRIP IN FIRE CONDITION. COR 6 ] i COC k,� # T tt� 1+a CROSWTCN l COY 6 S 11 NY 14 ,A I F'{; ?� ( - - CONi(� PANi1. 4N0 �t, COUROL P _ _ [CNGH - BREAKER 1PH - _ _ _ _ - = SNa•A*2 - - - - - A9R/ALLY MIEN {.. I20V-_-_--_____-_- �.pq T° ---------- IS�%N[-T SPARE FIREiSSPO$CQ°PCTSVILMAkEC2T0-- tAgy1<TRroTio1 S ISA _�•1 FIRE SYSTEMDARI _ _ _ _ _ _ _ - - -- J SYSTEM DRY �AR2 WHEN SYSTEM IS ARMED. THEY Si -Y SSi:rr , '-' ,3 +,1 { CINNTRUL PDVER DO NDT VIRE MTCROSVITCH VIRirCl i0 C T7N m CONTACT TARE USED TO DISABLE EQUIPMENT -+ � m CASlink Monitor and Control TO SHUNT TRIP BREAKER. Vas Ml TO YMAt.LY CLOSED (2L I BUILDING FIRE SIGNALS. WHICHFOR MUHPSD7OST CI TO ARi SHOULD HAVE MS -I 4tE7 < RE V.ING IRE AL TO THE PNUS OL I P� tea t A UST 1� LIGHT BREAKER SNARED V/ CONTINITY WHEN ARMED. !n 1 Xood control panel to support communications to cl0ad-based Building EONTROL POVOL SVRCH 41 _-- __--___ I %i•:C ALARM �1I SVIi[H LOCATED CI Cm � Y Ps -N Pi*Q $.Q zavoc far) iti ipr1 i • t, W .I Management System. _ _ - - - - _ _ _ _ _ Ens tr MORE THAN DIE w: ra-zu-s� Hood Contrat Panel to aitow cloud -based Building Management System to T Id2EAKER P. - yprJ, FIRE SYSTEM, VIRE r �_2 4_F✓D COMttlf! -. i p p - - - - - - _ -[� IN SERIES AS SHOWN �y y[ CONTROL P I NORM%v L =N - monitor real time ammeters outlined as MONITOR in the points list. 208 v --- ----- _ - t Pc;x� a Nry Mym I .--____- - ---� PRT CONTACT - R L 1 AM = { Hood Control Panel to allow cloud -based Building MnTlagement System to MCN 18.8 A ------- - —�----------- 1 +I < p ill control parameters outlined as CONTROL in the points list a MGCP� 30 A OI/OFF Y[rH 1---_-_-- - cDNReN - .�. 2.Z, .V3 ar fes, (a i 1+ co Mme 5 t EXH-1 SM -1 NH SUPPLY FAN I -- - NCQMALLY OPEN - � '' � VIRE TO VFD QUICK CONNECTOR CROUP I CP�NCEN K SSLILL� E tv°/5-w-u•-00. i !}}} 1 (%'• t _ _ _ _ _ _ _ _ _ _ CiDUR0. PANEL VIRE DIRECTLY TO CONTROL 8a<RD - i 3 f N T° J4 CAT -5 COOERION ----- I WHEN SLFPLT FAH 12 ON X31 BREAKER 3PH _ _ _ _ _ _ _ _REMOTE MONITORING AND CONTROL POINTS LIST Zoe V _ _ _ _ _ _ _ _ _ _ _ _ s QED PLACE END Cr LIRE PLW r-'----`— _ _ _ _ _ _ _ E t i 3 b N D MCN IBBA --- -__ __-C.�e3 SNITCHES IN EMPTY JACK. PN EOLI204 LEOt,T20A 2� DCV SPEED �_+L�`=--_-- -- -TO TMS " 19CR 30 A SUP -2 SM -2 D -]OV OUTPUT=- NIRS TO EVn tEP"mS ( (� j N VIRE TO VFD QUICK CONNECTOR HIED LIGHTS I COFIQRA E OITPIIT. ! v CONTROL P _ _ - _ _ _ _ _NATE _ , (TOTAU SEE ECPH03 OWNERS MANU L D TO VFD ANALOG t HOOD LIGHTS __- __ GREEN ---J 0-lOV OUT --- _ ---_ _ III PMS i "�I I i LL Q 1400 V MAX Was TO J-BOK ON TOP Or HMD IN VFD VIRE i0 VFD TERMINAL STRIP. t CONTROL PANEL TO FANS ROUTER SEE V rww. tD FREarErxY. eX- _tIh ,.. av 1 3 (EACH VFD) SEE VFD OVNRS MAtAUl. s ResponsMity, Etectriclan ONTROE PNET � CATCOMM ETHERNET COdE[T@N - ^ P -- - !? CN -IIhJu11' YI ro �`� —__ __----_T__ r _ ti PAWL FANS TO vaE DIRECTLY TO COMMUNICATION SIG'4AL SWITCH THROUGH BMS SHORED VIDE ImIEE SEE CASEIN( OWNERS EXTERNAL 04 WILL ACTNATE ZOEI FANS AND i � L Loatl Virhg _tYLUAriA_ -FAN 01 - oI d `E6 MAYUAL FOR rURTlER INSTRUCTIONS LIGHTS In 'ETCH SM-1-E�,eJu e _ _ �.o i.na v r- 6 VIRE 7D _-__ --------- VFD CONNECTOR --2Jffi- _ IR CDNNROL P -L F E ^w COHNECTCK VIRE TO I TO VW TD-CiFilifiCBSf•RG _ _ _ -RIM TEMP -- �� (� LLL MUST HAVE ITS OWN CONDUIT DISCONNECT KITCHEN TEMP SENSOR M°LNTED IH RWM AVAT —rxTRY W=G I t^' `) Z DO NOT SHARE CUNWITI f BENSON FROM NEAT SOIAiCEi SEE NNtIAL 8(- R-kK FAN o2 SUP -2 m �-'AYN ELLE ,CRE,1.E 1 d Loatl Vwg — +�-'— — a �`"� caNIINa P O(-w+ea RD -$EO £ 1 f • 7 -- PCE, _ _ VIRE TO _ JMT.Soiii - Bt1 v DUCT SENSOR A Y V A RISER I DI - 3lD STi.� T °LL` 5 Cd BOSON. IOJNTED W ONAUST DST e VFD QUICK - - � - ROT3H "Vol sr -CE { j3 ., O CUNNTCT11R JtL _ � v+VEL- VWl Sl7C E E\� __UP'a9_ _ A am I IIS EGNTROLP -__ __ --- _ Q B �0 ViRi Y[F[6/iTiR B3ARff----il�¢3i1 t MIST HAVE ITS OWN METAL DUCT SENSOR SEHSGN MDI.NTEO IN EINAUST DST RISER I 1 i CONDUIT. VIRE TO PROVIDED [OmlllT DROP.Ku Smrftmt, i 1LD 2) CONTROL P0. _-______--_ _ _ LANCE lF AIR ON PCB -�� }� [N WA al TO T}i(�T�CTY(tFO. &Kii3--- ---w y DAMPER _ _ _ --- IYCT SENSOR SENSOR MOUNTED DN EIIWIST DCT RISER 2 �� LU Grata a,tra y y r PROVING I __-_--___ LgNb uha INTERLOCK L VOLTAGE COlOECTION FOR LTnNR0.P------__--- fE.nauft .1,- - , DAMPER INTERLOCK. SH!X$-D ewy:�A HAVE CONTINUITY WHEN DAMPER a ^" " TO J-- S e U A VIRE-111- Tk� !diAM - _ _ NEED 2 Trw¢ vuATc Ha*Dt Baaea m a,<t NOT RELVIRED FOR ALL UNITS. SENSOR IGUHED IN $LPPLT te•Pe.atw� 0 M ,) V [S PROVEN OPEN PSP SENSOR PSP TEMP RCoutR@ Peon � SEE —E -UP AIR SCHEMATIC. TE F'RLWOiG COVECTII?IS aNkoea bo °Io- Fwe S 4 1 'x lO D d maew.v.rMY 2 a MAY IR MAY It1T !E ;*•- O REOUIREDSPECIFICATIONS ASEDTSITE dsta.�e �.rA°�erL n l I ECP il-2 o Yqi } T Z' 00 ��p� ��� � -}-) Q) Q U 3 °1-�ut ��N ' �° s 0 � eve'- C5 � W DATE: 2/22/2016 DWG.#: 2573510 DRAWN JDC-85 RECEIVED SCALE: CITY OF TUKWiLA 3/4" = 1'-0°' MAY 10 2016 MASTER DRAWING 00 7 7 PERINIT CENTER SHEET NO. 5 NO. TAG PACKAGE # LOCATION SWITCHES OPTION FANS CONTROLLED LOCATION QUANTITY TYPE 0 H.P. VOLT FLA Ship Loose w/ 1 Light Exhaust 3 5.000 208 15.0 i DCV -1111 Utility Cabinet Left prewire Snort Controls DCV 1 Fan Supply 3 5.000 208 15.0 DCV Pactagsr ]Ymet(an Room Trmperatwe YOMTDR Ducf TempanaMv(e) MONITOR YUA Diecharye TempeNature YOR770R Kitchen Rift DLxAmge Tvmperahtn YONTITIR Fan Seed YOMTi1R Pan Amperage MONITOR Pan Poroer YOMIDR PPD fault YOM70R Coral+eller fault YON1T)R Pan Faults YORISDR ran seatm YORtTDR PCU Paulo MONITOR PCV filter Cloy Pert+Nagu YON77Y1R Fin Condtfian MONITOR CORE Ayre System YONITYIR 8uifding Pnaauna MONITOR CONTROL A B C D E F G H I UNLESS SPECIFIED OTHIRVISE, ALL FACTORY AC VIKING 16 AVG. ALL FACTIIRY DC WIRING IB AVG. Pili END OF LINE PLUG IN MOTOR POWER CIRCUIT SNITCHES EMPTY RJ45 JACKS. PN Ell -120A NOTFi IF Vi -0 HAS ]R1 240V INPUT. USE V L L2 ONLY. 1 J9 120V n n CAT -5 CAKE LENGTH AS REQUIRED. IF VFD HAS IPM I20V INPUT, USE Ll L N DIIIT, pK� 2 CONTROL INPUT v � -_ 120V H1=LINE, �8 � n J 3 3PH l2 AVGI p � Um FMIyESU 1 EK _ _ NI=NEUTRAL, 15A � o iF�x 2jD A � FaSv� �'S.Doo BREAKER. ➢0 � I 24V 8 9'��1•��'�, (R P10moI ® NOT CONNECT Plo],oD m TO SHUNT TRIP �V J 1 2 -mea � PpijS�Op( 2 PK D SK l2 P19F225 �},—��-- BREAKER. SEE Ps -D] Master (urs O INSTALLATION j C ➢C� - a RJC 1pF aPWaaae) pl-EL3M P4tmn BK ° SCHEMATIC FOR _ Wrmlrv4sDDzr>esn ADDITIONAL REO. L1 L1 fCgT-S PPt�L `J - TP�!a 3PHF�uiso� )1'. 208 V �VR2 3 NOTE, NJ kens an ECPN03 J3 IM <a M <bsy dnMe 3 30 A W �3Y/T3 P Iron Ont caparcnt tlw r�eK, eNtn E3112CA At erd ', PIO✓D90 of LLM. Place PN EOL12M h epty RJ46 part PISmOi 12 P19422$ ECTtW32A1ST OWN p�^L3M P41a21 IF-�� VFmEry/02v02TIB5%I �fi>t� 4 ���STF� 'ITK-2 J7 120V'U`' RD-���a 5 BK HDlila�4D]fIS�AO�tN -ll 6 AR B. NI DC+��B _ PR ROl SFI � >a-STDO-11, � 7 $ MAKE W AIR INTERLOCK. EFIC=BK Pa`EL Cm➢:G S DRY CONTACTS (SHOWN DE -ENERGIZED) u AVG sc Packages nmae(on Room Tampenlun(a) MONITOR Duct fempervliae(e) MONITOR YVA Dtscharge TempeYature MONITOR Raah.n RTU DiscAarge T perolvn MONITOR CaritrNler Taulta MONITOR Fan Jau[tr MONITOR Fan Slatm YONIIT/tt PCO Fault YOMfOR PCO f'iiter Cloy Percenfagu MONITOR Firs Condition MONITOR mFe Tin sytfem YoxrroR BvOding Prvaswea YOM70A Tarr Button(a) YOXITUR d CONTROL Eight. Button(.) MONITOR d CONTROL ►ash Bulten MONITOR d Prep 7time Button YOM70R d CONTROL Pam Button YONLrYNR d CONTROL Lights Button YONIfOR d LbMROL ImA Button YONJ7ITR d CONTROL sc Packages nmae(on Room Tampenlun(a) MONITOR Duct fempervliae(e) MONITOR YVA Dtscharge TempeYature MONITOR Raah.n RTU DiscAarge T perolvn MONITOR CaritrNler Taulta MONITOR Fan Jau[tr MONITOR Fan Slatm YONIIT/tt PCO Fault YOMfOR PCO f'iiter Cloy Percenfagu MONITOR Firs Condition MONITOR mFe Tin sytfem YoxrroR BvOding Prvaswea YOM70A Tarr Button(a) YOXITUR d CONTROL Eight. Button(.) MONITOR d CONTROL ►ash Bulten MONITOR d • RA -i-1 01C/OMP Hp HRH P� 9 YV 14 AVG RA -2-1 Yom, 0.Y/0}T - Na I *� SW YV 14 AVG RA -2-2 0 SC -20 x 1 x 8.62 HO System Design Verification (SDV) If ordered, CAS Service will perform a System Design Verification (SDV) once all equipment has had a complete start up per the Operation and Installation Manual, Typically, the SDV will be performed after all inspections are complete, Any field related discrepancies that are discovered during the SDV will be brought to the attention of the general contractor and corresponding trades on site. These issues will be documented and forwarded to the appropriate sales office. If CAS Service has to resolve a discrepancy that is a field issue, the general contractor will be notified and billed for the work. Should a return trip be required due to any field related discrepancy that cannot be resolved during the SDV, there will be additional trip charges, During the SDV, CAS Service will address any discrepancy that is the fault of the manufacturer, Should a return trip be required, the general contractor and appropriate sales office will be notified. There will be no additional charges for manufacturer discrepancies, ID Op oVED 14 k I TUO RECEIVED CITY OF TUKWILA MAY 10 2016 PERMIT CENTER REVISIONS C5 L n� +_> 0) S O 00 r --i ME �� 1•• 1116 •• 6 R co W m a a DATE: 2/22/2016 DWG.#: 2573510 DRABY JDC-85 SCALE: 3/4" = 1'-0" MASTER DRAWING SHEET NO. 6 PROJECT SITE- 3200 ITE3200 5F GFA (SUITE 182) EQUIPMENT FLOOR PLAN SEARS MACY5 r, 1 SITE PLA 1 KL III q 111 x r - PROJECT RELATED BUILDING PERMIT #D I G-0068 THI5 MECHANICAL PERMIT APPLICATION INCLUDING: 1. WALK-IN COOLER SET UP. 2. KITCHEN HOOD SYSTEM (HOOD FIRE SUPPRESSION SYSTEM BY OTHER PERMIT) 3. ADDING ONE NEW HVAC SYSTEM (8.5 TONS). ALL MECHANICAL SYSTEM ELECTRICAL, PLUM5ING, FIRE SUPPRESSION SYSTEM, FIRE SPRINKLER AND FIRE ALARM SYSTEM MODIFICATIONS WILL HAVE SEPARATE PERMIT APPLICATIONS BY PROJECT CONTRACTORS. I J \ l �� g � • , `b PROPERTY PARCEL: 2098007820 • - V 10 Woom I©K A041PLIANC RaVEb MAY 2 7 2016 : k�tO f EUILpINGT� calla DIVISION 40 be made to the scope of work withc ut prior approval of Tukwila Building Division. require a new plan submittal and may include aj icutional pian review fees. PROPERTY ADDRESS: 182 50UTHCENTER MALL, TUKWILA, WA 98188 BUILDING CONSTRUCTION TYPE: Ii -B, FULL SPRINKLER A • �, 0 O G) 0) U ti o � 6) .oma �@ W wco� —\'Z3 Q r C9C�� l y N 06w z •• t U W = q Q U) N q _N r, 1 SITE PLA 1 KL III q 111 x r - PROJECT RELATED BUILDING PERMIT #D I G-0068 THI5 MECHANICAL PERMIT APPLICATION INCLUDING: 1. WALK-IN COOLER SET UP. 2. KITCHEN HOOD SYSTEM (HOOD FIRE SUPPRESSION SYSTEM BY OTHER PERMIT) 3. ADDING ONE NEW HVAC SYSTEM (8.5 TONS). ALL MECHANICAL SYSTEM ELECTRICAL, PLUM5ING, FIRE SUPPRESSION SYSTEM, FIRE SPRINKLER AND FIRE ALARM SYSTEM MODIFICATIONS WILL HAVE SEPARATE PERMIT APPLICATIONS BY PROJECT CONTRACTORS. I J \ l �� g � • , `b PROPERTY PARCEL: 2098007820 • - V 10 Woom I©K A041PLIANC RaVEb MAY 2 7 2016 : k�tO f EUILpINGT� calla DIVISION 40 be made to the scope of work withc ut prior approval of Tukwila Building Division. require a new plan submittal and may include aj icutional pian review fees. PROPERTY ADDRESS: 182 50UTHCENTER MALL, TUKWILA, WA 98188 BUILDING CONSTRUCTION TYPE: Ii -B, FULL SPRINKLER PROJECT TENANT SPACE GLA: GFA 3,200 SF; 3,001 5T NET I I I REVISIONS PROPOSED USE AND OCCUPANT: GROUP A-2, RESTAURANT. OCCUPANT LOAD: 122 NEW BUSINESS OWNER: KIZUKI RAMEN * IZAKAYA RESTAURANT LLC CONTACT: BRANDON TING, 20G-313-0449 DRAWING INDEX: M I . 51TE AND TENANT FLOOR PLAN- MECHANICAL EQUIPMENT the LOCATION of a M2. HOOD SYSTEM NOTES AND CALCULATIONS, DUCTING PLAN, SECTION DETAIL A. M3. HOOD SYSTEM SECTION DETAIL B, DETAILS M4. HVAC SYSTEM DUCTING AND CALCULATIONS 51 . EXISTING ROOF FRAMING PLAN AND ROOF TOP UNITS LOCATION. 52. SECTION AND DETAILS. CODE COMPLYING: LANDU5E CITY OF TUKWILA LANDU5E CODE BUILDING CODE: IBC 2012 AND CITY OF TUKWILA AMENDMENT MECHANICAL CODE: IMC 2012 FIRE CODE: IFC 2012 AND CITY OF TUKWILA AMENDMENT PLUMBING AND GAS CODE: IFGC 2012, UPC 2012 ENERGY CODE: WSEC 2012 AND CITY OF TUKWILA AMENDMENT tai R _ �1WIr/A review approvel la suf4ect to errors and of oval of construction documents does not € dation of any adopted Dodo or ordinance. roved field Copy and conditions 1 ackno, BF.tt! W Date: I z City Of Tukwila BUILDING DIVISION Y OF TUK CITWILA MAY 10 2016 PERMIT CENTER WET TITLE Pt SITE PLAN d: P ROJ ECT DATA -- FLOOR PLAN (MECHANICAL EQUIPMENT LOCATION DATE: 3/4/201 G SHEET )U A • �, 0 O G) 0) U ti o � 6) .oma �@ W wco� —\'Z3 Q r C9C�� J J N 06w z •• z U W = q Q U) N q PROJECT TENANT SPACE GLA: GFA 3,200 SF; 3,001 5T NET I I I REVISIONS PROPOSED USE AND OCCUPANT: GROUP A-2, RESTAURANT. OCCUPANT LOAD: 122 NEW BUSINESS OWNER: KIZUKI RAMEN * IZAKAYA RESTAURANT LLC CONTACT: BRANDON TING, 20G-313-0449 DRAWING INDEX: M I . 51TE AND TENANT FLOOR PLAN- MECHANICAL EQUIPMENT the LOCATION of a M2. HOOD SYSTEM NOTES AND CALCULATIONS, DUCTING PLAN, SECTION DETAIL A. M3. HOOD SYSTEM SECTION DETAIL B, DETAILS M4. HVAC SYSTEM DUCTING AND CALCULATIONS 51 . EXISTING ROOF FRAMING PLAN AND ROOF TOP UNITS LOCATION. 52. SECTION AND DETAILS. CODE COMPLYING: LANDU5E CITY OF TUKWILA LANDU5E CODE BUILDING CODE: IBC 2012 AND CITY OF TUKWILA AMENDMENT MECHANICAL CODE: IMC 2012 FIRE CODE: IFC 2012 AND CITY OF TUKWILA AMENDMENT PLUMBING AND GAS CODE: IFGC 2012, UPC 2012 ENERGY CODE: WSEC 2012 AND CITY OF TUKWILA AMENDMENT tai R _ �1WIr/A review approvel la suf4ect to errors and of oval of construction documents does not € dation of any adopted Dodo or ordinance. roved field Copy and conditions 1 ackno, BF.tt! W Date: I z City Of Tukwila BUILDING DIVISION Y OF TUK CITWILA MAY 10 2016 PERMIT CENTER WET TITLE Pt SITE PLAN d: P ROJ ECT DATA -- FLOOR PLAN (MECHANICAL EQUIPMENT LOCATION DATE: 3/4/201 G SHEET )U z 00 I--- 6) U) W Q J J N 06w z •• z U W = Q U) N _N PROJECT TENANT SPACE GLA: GFA 3,200 SF; 3,001 5T NET I I I REVISIONS PROPOSED USE AND OCCUPANT: GROUP A-2, RESTAURANT. OCCUPANT LOAD: 122 NEW BUSINESS OWNER: KIZUKI RAMEN * IZAKAYA RESTAURANT LLC CONTACT: BRANDON TING, 20G-313-0449 DRAWING INDEX: M I . 51TE AND TENANT FLOOR PLAN- MECHANICAL EQUIPMENT the LOCATION of a M2. HOOD SYSTEM NOTES AND CALCULATIONS, DUCTING PLAN, SECTION DETAIL A. M3. HOOD SYSTEM SECTION DETAIL B, DETAILS M4. HVAC SYSTEM DUCTING AND CALCULATIONS 51 . EXISTING ROOF FRAMING PLAN AND ROOF TOP UNITS LOCATION. 52. SECTION AND DETAILS. CODE COMPLYING: LANDU5E CITY OF TUKWILA LANDU5E CODE BUILDING CODE: IBC 2012 AND CITY OF TUKWILA AMENDMENT MECHANICAL CODE: IMC 2012 FIRE CODE: IFC 2012 AND CITY OF TUKWILA AMENDMENT PLUMBING AND GAS CODE: IFGC 2012, UPC 2012 ENERGY CODE: WSEC 2012 AND CITY OF TUKWILA AMENDMENT tai R _ �1WIr/A review approvel la suf4ect to errors and of oval of construction documents does not € dation of any adopted Dodo or ordinance. roved field Copy and conditions 1 ackno, BF.tt! W Date: I z City Of Tukwila BUILDING DIVISION Y OF TUK CITWILA MAY 10 2016 PERMIT CENTER WET TITLE Pt SITE PLAN d: P ROJ ECT DATA -- FLOOR PLAN (MECHANICAL EQUIPMENT LOCATION DATE: 3/4/201 G SHEET )U 16'& 10' TYPE -1 CANOPY COMPENSATING HOOD SYSTEM CALCULATIONS: I G' TYPE -1 HOOD EXHAUST/MAKE-UP CALCULATIONS SONES HOOD (LF) RATE (CFM/LF) REQUIRED CFM DUCT 51ZE DUCT AREA FPM EXHAUST I G' 270 4320 2x(I 0"x20") 2.78 5F 1555 MAKE-UP 90% OF EXHAUST 1 3888 3x 12110 2.37 5FI G40 I O' TYPE -1 HOOD EXHAUST/MAKE-UP CALCULATIONS SONES HOOD (LF) RATE (CFM/LF) REQUIRED CFM DUCT SIZE DUCT AREA FPM EXHAUST 10' 270 2700 1 G"x I G" 1.78 5F 1518 MAKE-UP 90% OF EXHAUST 1 2,430 1 15"X 15" 1 I .5G 5F 1555 UNDER HOOD COOKING EQUIPMENT CLASSIFIED AS HEAVY-DUTY, CAPTIVE -AIR LISTED AND TESTED HOOD EXHAUST RATING AS 270 CFM/LF FOR G00°F COOKING ON BOTH TYPE -I COMPENSATING HOOD. NOISE ITEMS SONES dAB EXHAUST BLOWER 23.0 71 .G MAKE-UP UNIT < 15.9 DUCT SIZE AREA FPM BOTH HOOD EXHAUST EXHAUST MAIN DUCT SIZE AND FPM (PROVIDE TO BOTH HOODS' TEMPERED MAKE-UP AIR) TOTAL MAIN MAIN DUCT MAIN DUCT MAIN DUCT CFM DUCT SIZE AREA FPM BOTH HOOD EXHAUST 7020 24"X24" 4.0 SF 1755 CONNECT TO MAIN DUCT (90% OF EXHAUST) 4 FIN15H AT EXPOSED SURFACE; EXHAUST PLENUM: I G GA. STEEL ALL LIQUID TIGHT WELDED CONSTRUCTION. MAKE-UP AIR MAIN DUCT SIZE AND FPM (PROVIDE TO BOTH HOODS' TEMPERED MAKE-UP AIR) EXHAUST BLOWER TOTAL MAIN MAIN DUCT MAIN DUCT 720 CFM DUCT 51ZE AREA FPM MAKE-UP AIR 6318 24"X24" 4.0 5F 1579 (90% OF EXHAUST) 4 FIN15H AT EXPOSED SURFACE; EXHAUST PLENUM: I G GA. STEEL ALL LIQUID TIGHT WELDED CONSTRUCTION. GALVANIZED STEEL ALL WELDED; FILTER BASK: SUPPLIED UNITS WEIGHTS LIST ITEMS NET WEIGHT (LB) EXHAUST BLOWER 950 MAKE-UP UNIT 1031 10' TYPE -1 HOOD (INCLUDING CONTROL BOX) 720 I G' TYPE -1 HOOD 800 20 GA. GLAV. METAL WEATHER FLASHING W/ I " AIR VENT — ONE HR SHAFT (DETAIL MK -M2). BASE TRACK W/ # 10 SHEET METAL SCREW TIGHT TO EACH CORRUGATED METAL CORRUGATION AND G" O.C. ON OTHER DIRECTION. SEAL EXHAUST DUCT PENETRATION W/ 22 GA. GLAV. SHEET METAL. CAULKING ANY GAS W/ 3M FIRE CAULKING LOCATE ALL ATTACHMENTS CORRUGATED METAL <G" FROM TRUSS PANEL ROOF DECKING-, POINTS OR PROVIDE REINFORCEMENT PER TRUSS ROOF INSULA MFR SPECIFICATIONS 12"0 MAKE-UP AIR DUCT TO I� MAKE-UP AIR PLENUM. TYP. (3) TYP. HOOD HANGER: 1-5/8"x2-7/8" P5500 UNI5TRUT TO CROSS (2) ROOF TRUSSES 0 MIN. 5/8"0 A3G (Fy=3G k50 THREADED ROD WITH LOCK NUT AND WASHER ON TOP AND BOTTOM. MIN. (4) PER UNIT. KITCHEN NON-COMBUSTIBLE CEILING L4X4X I G GA. CONTINUOUS ANGLE W/ (1) # 12 SELF -DRILLING SCREW AT EA STUD. TYP. ON HOOD BACK LEFT SIDE ON I G' HOOD. ATTACH HOOD MFR HGR TO I G DA ANGLE W/ MIN. (3) # 12 SELF DRILLING / SCREWS. PROVIDE CFS BLOCKING BETWEEN STUDS AT HOOD ATTACHMENT j - LOCATIONS. TYP. /.0 MIN. G0051 G2-43 STUDS @ I G" O.C. SEAL ANY GAP ON HOOD ' BACK WALL W/ 20 GA 22 GA. 5.5. OR CERAMIC TILE WALL FLASHING; 18" MIN. OVER HOOD ANY 0 EDGE5. TYP. 2 52 I O' MIN. TO ANY AIR INTAKE, PROPERTY LINE, SAME OR ADJACENT BUILDING. 24"X24" EXHAUST MAIN DUCT CLEAN OUT - a n MAKE-UP AIR PLENUM (4) DOUBLE STOCKPOT RANGE 0 0 10 0 10 0 1 0 0 1 G' TYPE -1 HOOD DESIGN NOTES: (1) HOODS: (4) EXHAUST DUCTS ONE I G' AND ONE 10' CAPTIVE -AIRF MODEL 5430 AIR BLOWER ND-2-P5P-F TYPE 15.5 CANOPY COMPENSATING HOOD. NO AIRFLOW BRANCH DUCTS ON EACH SIDE OF I G' HOOD: I 0"X20". CLEARANCE REQUIRED TO NON-COMBU5TOLE. UL LISTED I G' HOOD 1 of C20" j BRANCH DUCT ON 10' HOOD: I G"X I G". (#710, #7G2) AND CSA Std. C22.2 No. 1 13. 20 GA. TYPE i MAIN DUCT: 24"X24" 304 OR TYPE 430 STAINLESS STEEL CON-TRUCTION WITH # ll ALL GREASE EXHAUST DUCT SHALL BE I G GA. GALVANIZED 4 FIN15H AT EXPOSED SURFACE; EXHAUST PLENUM: I G GA. STEEL ALL LIQUID TIGHT WELDED CONSTRUCTION. GALVANIZED STEEL ALL WELDED; FILTER BASK: SUPPLIED (5) GREASE DUCT ENCLOSURE: WITH UL. CLASSIFIED 20X 12X2 REMOVABLE BAFFLE TYPE; EXISTING BUILDING CONSTRUCTION TYPE AS II -B, ALL GREASE RECEPTACLE: PROVIDE ONE REMOVABLE GREASE EXHAUST DUCT HAVE CLEARANCE 3" MIN. TO ANY RECEPTACLE. NON-COMBUSTIBLE STRUCTURE AND NOT IN ANY (2) EXHAUST FAN: CONCEALED SPACE. ONE HOUR RATED SHAFT ENCLOSURE PROVIDED GREASE CAPTIVE -AIR U5B124BD-RM BLOWER. 7020 CFM @ 2.00 DUCT PENETRATING ROOF. THE ONE HOUR SHAFT DETAIL ESP, 1 I RPM, MOTOR: 208 V, 3 PHASE, 5.0 HP. PROVIDED ON SHEET M2, DETAIL "MK" NOISE: 23 SONES (71 .G dBA), (6) MAKE-UP AIR DUCTS: WEIGHT: 727 Lb. ALL MAKE-UP DUCT SHALL BE 2G GA. MIN. GALVANIZED (3) MAKE-UP AIR UNIT: STEEL, ALL JOINT SEALED WITH LISTED DUCT SEALER. CAPTIVE -AIR A3 -D.500 -G 18, WITH MAU- I AIR HEATING UNIT, (7) EXHAUST FAN, MAKE-UP AIR DAMPER AND GAS LINE TO BE G318 CFM @ 0.750 ESP, 723 RPM, 5.0 HP, 3 PH, ELECTRICALLY INTERLOCKED; 208V.HEATING UNIT TEMPERATURE RISE: 55°F. 3 16,047 BTU INPUT, 290,763 BTU OUTPUT, REQUIRED NATURAL GAS (8) INSTALL CONTROL DEVICE TO AUTOMATICALLY ACTIVE HOOD INPUT PRESSURE: 7" - 14" WC, THEP. RISE: 55 F, SYSTEM WHENEVER COOKING OPERATIONS OCCUR. (201 2 NOISE: 15.9 50NE5 (GG.5 dBA). IMC 507.2. 1. 1) WEIGHT: 101 G LBS NOTES: 1. BUILDING ENGINEER TO APPROVE ALL ATTACHMENTS TO EXISTING STRUCTURE. 2. CONTRACTOR TO VERIFY ALL EXISTING CONDITIONS AND DIMENSIONS PRIOR TO CONSTRUCTION. ALL ROOF SEAL BY LANDLORD'S ROOFER -1 ll -611 (10' MIN. ) MAKE-UP AIR UNIT BASE FRAMING AND CONNECTION PER STRUCTURAL DETAIL 5/52 IG"XI G" EXHAUST DUCT FROM 10, HOOD CLEAN OUT 71 G X I G MAKE-UP AIR DUCT MAU ROOF CURB 1'-6" MOTORIZED DAMPER aRFLOW P\�0 I0' MIN. FROM AN" HAZARDOUS OR N+DXIOU5 CONTAMINATION SOURCES LOCATE ALL ATTACHMENTS <G" FROM TRUSS PANEL POINTS OR PROVIDE REINFORCEMENT PEP, TRUSS MFR SPECIFICATIONS I 0"X20" EXHAUST DUCT. ANY HORIZONTAL DUCT W/ 1/4:12 SLOPE MIN. TYP. (2) 24"X24" MAKE-UP MAIN AIR DUCT SEAL ANY GAP W/22GA5.5. 0 TYP. 3'-7" 6"MIN. 24" GRILL' 8 BURNER RANGE 2 BURNER W/ OVEN RANGE 00 0 0 00 0 0 ®® 0000 1i 10' HOOD FRONT ELEVATION/SECTION DETAIL SCALE: 1/2"=1'-0" V NO CLEARANCE REQUIRED FOR HOOD ATTACH TO NON-COMBUSTIBLE GWB WALL WITH 5TAINLE55 OR GAV, STEEL FLASHING PROTECTION EXTENDING 18" MIN. FORM HOOD IN ALL DIRECTIONS. (IMC SEC. 507.9.EXCEPTION) (9) GREASE DUCT LEAKAGE TEST: GREASE DUCT LEAKAGE TEST SHALL BE PERFORMED FOR THE ENTIRE DUCT AND JOINT SYSTEM PER IMC 2012 SEC. 506.3.2.5. (10) HOOD SYSTEM PERFORMANCE TEST: HOOD SYSTEM PERFORMANCE TEST SHALL BE CONDUCTED UPON COMPLETION AND BEFORE FINAL APPROVAL. THE CAPTURE AND CONYAINMENT TEST SHALL BE COMPLY WITH IMC -1 2 SEC. 507. 1 G (11) FIRE SUPPRESSION SYSTEM BY OTHERS. SHOULD PROVIDE SEPARATE PLAN FOR APPROVAL. WORK WILL CONFORM TO UL 300, NFPA9G, IBC03, IMC03 AND ALL LOCAL, STATE CODES AND INSURANCE REQUIREMENT; (12) ALL DESIGN AND WORK WILL CONFORM TO IMC -2012, UL 300, NFPA9G, ALL LOCAL, STATE CODES AND INSURANCE REQUIREMENT. --,--------------------- !7 )v I O'�_IOOD AND ! ME UP AIR PLENUM j II 51X I'�%fA _Url I� BRgNCN f CTS 24"' `�24"i v`I MAILUL� �\ G I HOOD AN Di MAKE -l1 -, ' AIR PLENUM I �/- I _ _! � I r k ' AWr ----i �--,i ---- MAKE-UP AIR I I 11 NIT ON ROOF I MAKE-UP j MAKE-UP' AIR BLOWER AIR HEATER AIRFLOW (I It 7 o 0 o 0 I G' HOOD 1 of C20" j � EXHAUST PLENUMS —1 I i IG"XI G" EXHAUST DUCT FROM 10, HOOD CLEAN OUT 71 G X I G MAKE-UP AIR DUCT MAU ROOF CURB 1'-6" MOTORIZED DAMPER aRFLOW P\�0 I0' MIN. FROM AN" HAZARDOUS OR N+DXIOU5 CONTAMINATION SOURCES LOCATE ALL ATTACHMENTS <G" FROM TRUSS PANEL POINTS OR PROVIDE REINFORCEMENT PEP, TRUSS MFR SPECIFICATIONS I 0"X20" EXHAUST DUCT. ANY HORIZONTAL DUCT W/ 1/4:12 SLOPE MIN. TYP. (2) 24"X24" MAKE-UP MAIN AIR DUCT SEAL ANY GAP W/22GA5.5. 0 TYP. 3'-7" 6"MIN. 24" GRILL' 8 BURNER RANGE 2 BURNER W/ OVEN RANGE 00 0 0 00 0 0 ®® 0000 1i 10' HOOD FRONT ELEVATION/SECTION DETAIL SCALE: 1/2"=1'-0" V NO CLEARANCE REQUIRED FOR HOOD ATTACH TO NON-COMBUSTIBLE GWB WALL WITH 5TAINLE55 OR GAV, STEEL FLASHING PROTECTION EXTENDING 18" MIN. FORM HOOD IN ALL DIRECTIONS. (IMC SEC. 507.9.EXCEPTION) (9) GREASE DUCT LEAKAGE TEST: GREASE DUCT LEAKAGE TEST SHALL BE PERFORMED FOR THE ENTIRE DUCT AND JOINT SYSTEM PER IMC 2012 SEC. 506.3.2.5. (10) HOOD SYSTEM PERFORMANCE TEST: HOOD SYSTEM PERFORMANCE TEST SHALL BE CONDUCTED UPON COMPLETION AND BEFORE FINAL APPROVAL. THE CAPTURE AND CONYAINMENT TEST SHALL BE COMPLY WITH IMC -1 2 SEC. 507. 1 G (11) FIRE SUPPRESSION SYSTEM BY OTHERS. SHOULD PROVIDE SEPARATE PLAN FOR APPROVAL. WORK WILL CONFORM TO UL 300, NFPA9G, IBC03, IMC03 AND ALL LOCAL, STATE CODES AND INSURANCE REQUIREMENT; (12) ALL DESIGN AND WORK WILL CONFORM TO IMC -2012, UL 300, NFPA9G, ALL LOCAL, STATE CODES AND INSURANCE REQUIREMENT. --,--------------------- !7 )v I O'�_IOOD AND ! ME UP AIR PLENUM j II 51X I'�%fA _Url I� BRgNCN f CTS 24"' `�24"i v`I MAILUL� �\ G I HOOD AN Di MAKE -l1 -, ' AIR PLENUM I �/- I _ _! � I r k ' AWr ----i �--,i ---- MAKE-UP AIR I I 11 NIT ON ROOF I j ' Ir I —_ II -II (I It 7 I G' HOOD 1 of C20" j EXHAUST PLENUMS —1 I i N ! ll , h 12"X22" 10' HOO[ ; ! ,�� �— C" I EXHAUST PLENUM { —a ' �I , i , , 1 0 I 0 i II� i j 0 it i I I I — I I G"X I G" I O' HOOD EXHAUST DUCT �; I h� I G"X I G" BRAND MAKE-UP AIR DCT _ - `--,, 1211 P AIR DUCT CON QCT TO FOOD -(MAKE-UP AIR PLENU !TYP. (5) y , y -------- 1�V , __ -- ---;-_ _ -- -s I 24X24 EXHAU�T5 MAIN DUC-T-, PENROOF r, I i r �I i(0't i! I� EXHAUST BLOWER ON R I O' MIN. TO ANY AIR I1 AK; OR ADJACENT 5TRUCTCRE' off/ \ I — , F777ce. L 1i ;B, , I r) 0 I' I �Lj U�J_,� ' }� �jEll ----T==--------------------- '-------✓ --------4--------- j \ REFLECT CEILING DUCTING PLAN RENEWED FOR CODE COMPLIANCE APPROVED MAY 2 7 2016 City of TukWIa BUILDING DIVISION RECEIVED CITY OF TUICWILA MAY 10 20% PERMIT CENTER �m o 04 U h o -o co c� W co I ccW coro lei Q4-� �o� � 471nt �-d �j W N W �� q qv q I - Z Q00 I- rn W :$Y J W J N U) 06� � z Lij :O Q0 O � _rCD co N REVISIONS SHEET TITLE -- HOOD SYSTEM NOTES & CALCULATIONS -- SECTION A -- DUCTING PLAN DATE: 3/4/2016 SHEET LOCATE ALL ATTACH M ENT5 <G" FROM TRUSS PANEL POINTS OR PROVIDE REINFORCEMENT PER TRU55 MFR SPECIFICATIONS 2 52 TYP. HOOD HANGER: ---�- 1-5/8"x2-7/8" (P5500) UNI5TRUT TO CROSS (2) ROOF TRUSSES MIN. 5/8110 A3G (Fy=3G ksi) THREADED ROD WITH LOCK NUT AND WASHER ON TOP AND BOTTOM. MIN. (4) PER UNIT. 20GA. 5.5. INCLO5URE PENAL 12"0 MAKE-UP AIR DUCT TYP. (2) AT 10' HOOD AND (3) ON I G' HOOD -- 1 2"x22" TO I G"x I G" EXHAUST PLENUM — 22 GA. 5.5. OR CERAMIC TILE WALL FLASHING; 18" MIN. OVER HOOD ANY G EDGES. TYP. E:3 1 G GA. GALV. TRANSACTION 24"X24" TO 24"0 ADAPTER. M I N BOTTOM SLOPE 114:12 . GREASE DUCT SHALL BE FLANGED, CA5KETED� AND BOLTED TO THE INLET OF EXHAUST FAN —� HORIZONTAL GREA5E DUCT W/ MIN. 1 /4": 1 2" 5LOPE 20 GA. GLAV. METAL WEATHER FLA5H I NG WITH 1 " AIR VENT --\ ROOF INSULATION 3 52 HORIZONTAL GREASE DUCT W/ MIN, 1/4": 1 2" SLOPE CLEAN OUT 1511x 15" BRANCH I G"x I G" MAKE-UP DUCT EXHAUST i114vw k MAKEJ-JrAIR PLENUM MAKE-UP AIR PLENUM I O' TYPE -I HOOD 6"MIN. (3) DEEP FRYER o a RANG GRILL 00 1 00 6"MIN. (2) NOODLE COOKER Ct1EAN OUT CLEAN OUT 0 I G' TYPE -I HOOD "-6"MIN. 3'-7" 10' HOOD FRONT & 16' HOOD SECTION / ELEVATION DETAIL SCALE: 1/2"=1'-0" "X24" I G GA. GALV. STEEL 1AU5T DUCT PER PLAN 8 GA. GALV. STEEL STUDS -RAMS 5/8" TYPE X GWB ON BOTH SIDE W/ FIRE TAPING MIN. AIR SPACE ALL ,OUND DUCT PRESCRIPTIVE FIRE RESISTANCE PER 2012 IBC SECTION 720, TABLE 720.1(2) MK I TYP. I HR SHAFT SECTION DETAIL 0 0 X % C� 10' MIN. TO ANY AIR INTAKE, PROPERTY LINE, SAME OR ADJACENT BUILDING. ALL ROOF SEAL BY LANDLORD'S ROOFER 2"0 DRAIN W/ GREASE TRAP VIBRATION REDUCTION DEVICES INSTALLATION PER MFR SPECS 2. y _ , _:V CORRUGATED ROOF DECKING SEAL EXHAUST DUCT PENETRATION W/ 22 GA. GLAV. SHEET METAL. CAULKING ANY GAS W/ 3M FIRE CAULKING 20"X20" MAIN MAKE-UP AIR DUCT CLEAN OUT I 0"X20" BRANCH DUCT ON EACH SIDE OF MAIN EXHAUST DUCT ROOF INSULATION BASE MTL SUPPORT FRAMING AND CONNECTIONS PER DETAIL 4/53 L4X4X I G GA. CONTINUOUS ANGLE W/ (1) # 12 SELF -DRILLING SCREW AT EA STUD. ATTACH HOOD MFR HGR TO I G GA ANGLE W/ MIN. (3) # 12 SELF DRILLING SCREWS. PROVIDE CF5 BLOCKING BETWEEN STUDS AT HOOD ATTACHMENT LOCATIONS. TYP. ON EACH HOOD BACK SIDE. MIN. 00051 G2-43 STUDS @ I G" O.C.. NON-COMBUSTIBLE WALL 22 GA. 5.5. OR CERAMIC 0 TILE WALL PLASHING; 18" MIN. OVER HOOD ANY EDGE5. TYP. E# REVIEUVED FOR .CODE COMPLIANCE APPROVED MAY 2 7 2016 I C11Y Of la BUILDING DIV iSIO Type I Hood Special Inspections Type I hoods and ducts shall be inspected by approved inspection agencies that satisfy the requirements as to qualifications and reliability. Final inspection reports from such approved agencies of the Type I hood and duct shall be accepted by the code official after the special inspections of hood and duct have been completed. (2012 IMC 107.2.4 & IMC 506.3.2.5) NOTES: 1. BUILDING ENGINEER TO APPROVE ALL ATTACHMENT5 TO EXISTING STRUCTURE. 2. CONTRACTOR TO VERIFY ALL EXISTING CONDITIONS AND DIMENSIONS PRIOR TO CONSTRUCTION. 2012 IMC 507.2.1.1 OPERATION. Type I Hood systems shall be designed and installed to automatically activate the exhaust fan whenever cooking operations occur. The activation of the exhaust fan shall occur through an interlock with the cooking appliance, by means of heat sensors or by means of other approved methods. 508.1 MAKEUP AIR. For mechanical makeup air systems, the exhaust and makeup air systems shall be electrically interlocked to insure that makeup air is provided whenever the exhaust system is in operation. Makeup air intake opening locations shall comply with Section 401.4. RECEIVED CITY OF TUKWILA MAY 10 2015 PERMIT CENTER Z Q I-- U) 00 W � <c g G Y Q t- F - N fn 06 c� Z IC) W •. p W O co co N_ 4 1 REVISIONS I SHEET TITLE 1 -- SECTION B -- DETAILS DA TE: 3/4/2016 SHEET CQ 0 U °- co � W co© Ngo W 0010 �o 6 C/) w q p "::V' w q q Z Q I-- U) 00 W � <c g G Y Q t- F - N fn 06 c� Z IC) W •. p W O co co N_ 4 1 REVISIONS I SHEET TITLE 1 -- SECTION B -- DETAILS DA TE: 3/4/2016 SHEET 51'-5" ' /v - EXISTING - ' EXISTING HVAC #I i �' 44uu i - RTU ON ROOF '::.... � .�.-- ..:..-,.-. .,- ... a.l..-_,.:-� .. ...: .:.-. ;; �.....4 .,.•.mac... '.t. ,.-�> - 4 Y `...'4 ...�„=_•1,..:. .... _ _�_ �.�: �. _- _�.:.:; _:..: = ;�.�-�.. w...r :: :; _ � .�_. .�� :_: _:.: �.. � , 28� CFM v � �� �I 2�30� CFM ! •: : • ; 2801=M n 280 CFM 280 CFM / , a � ' " 10"0 DIF. 10"0 DIF. 10"0 DIF. o �n �s n Wtr' /� �I ,� FF - ! - X,, , , �. I . L. -� GOS ROT'I IY�)IGX2I I3i 9I iARW0.FPI R �Jl I ► __! I II �� i I �>- I ' i�_� {Il it Gz IYLjC11� 9_0 ' O_ 0 C,FM I I 10" DIF.`- �I' Q„O DIF. d iII ... .. �. . . . �I'� Jill, II NEW HVAC #2 RTU ON ROOF • I'J-il �:22"X22" (I 0 12 FBF 341 O _280 CFM UL U"� ' .. • I �, - , / I I 1! ��{,�I L- _ I ;III - J� l� 280 CFM _\`_ �`'_\` _ 280 CFM 1 � •� - - - ��� - - - � - - _ �_%%% - '290 CF I 1 �.._�,�'� _'_��� � �,�� � � �,���.,��• 10"0 DIF. I O O DIF. i ( I �`.-tip- �`\ i� `� i '� i i\ T�\i: \ `yi, =1� `\�,i I I / I ✓ {"�7(I I 1U IIDI lye I ILT ! I !/.---------------------------I ;I • ; •� ! I-01 OR�IF. 300 CFM 300 CFM I 300 CFM ! FSII�TG1C r•• `'r 10"O'DIF ' 10"O IF 10"O DIF --T Y ,v IIX- Lj L --J) II �I I Ob CFM G'I DIF. 1.LL Li�G D)II Ml I ill --------------- Q ! J - c - :- .' • %' • :• I I ' I 'i { ,+ ��f . ���-�' i i � lam; ';: ' W I ,;, 1, N �-A 0 F ISTI G I' C # I FRESH AIR INTAKE O ROOF 'DIF. 00 { 300 CFM 300 CFM 300 CFM I. ✓ ' r 10"0 DIF. 10"0 DIF. 10"0 DIF. 1`�' r�_✓ _ 1 200 CFM) 150 CFM .{ GSI I' � I / F I -=- a Lj :w a u_ -, • _..--------------------- ---- --- -- ------------------------- HVAC DUCTING PLAN N SCALE: I /4" = I '-0" 62'-6" �rT�11 �7 24X24 T -BAR CEILING MOUNT RETURN AIR REGISTER T1 HVAC # I THERMAL STATE 24X24 T -BAR CEILING MOUNT DIFFUSER TZ HVAC #2 THERMAL STATE /� INSULATED FLEXIBLE DUCT, SIZE PER PLAN ~ --- 24X24 WALL MOUNT RETURN AIR REGISTER F7SUPPLY AIR C3 DOWNWARD ROUND DIFFUSER. O GWB CEILING MOUNT SUPPLY AIR DIFFUSER z RETURN AIR r•®- DUCT CONNECTOR W/ ADJUSTABLE AIR FLOW DAMPER NOTES: 1. ALL DINING AREA SUPPLY AIR DIFFUSERS HEIGHT: 1 1'-0" AFF. ALL DIFFUSERS SHALL BE ABLE TO ADJUST AIR FLOW RATE FOR AIR BALANCE PER PLAN 2. ALL RETURN AIR REGISTER SHALL MOUNTED ON SOFFIT WALL AT 14' AFF (TO THE TOP OF REGISTER) EQUIPMENT SIZING: SEE ATTACHED SOFTWARE CALCULATION REPORT PROJECT DISCRETION: PROJECT TENANT SPACE COMBINED EXISTING SPACE # 182 (1800 SF) AND 1400 SF OF EXISTING SPACE # I G2. TOTAL FLOOR AREA 3200 SF. EXISTING RETAIL TENANT SPACE # 182 (1800 5F) HAVE ONE G.8 TON H N VAC UNIT. THIS UNIT WILL REMAIN ANDR EPLACE ANDECONFI F R GURE DUCTS AND DI FUSERS LOCATION WITHIN C THE SAME AREA. PROJECT WILL ADDING ONE HVAC UNIT (UNIT #2) IN ADDITIONAL 1400 SF. THIS AREA WILL HAVE RESTAURANT ', OPEN KITCHEN AND SEATING AREA. WITH RADIO HEAT TRANSFER, CALCULATED NEW UNIT SHALL BE 9 TONS. PROVIDE WITH AN 8.5 TONS TRANS YSC 102AD UNIT. HVAC SYSTEM REQUIREMENTS NOTES: 1. HVAC SYSTEM AND INSTALLATION SHALL COMPLY WITH 2012 WASHINGTON STATE ENERGY CODE SEC. C403. 2. CONDITIONED AREA OCCUPANT LOAD IS 187, REQUIRED MIN. O.S.A.: 2740 CFM (SEE ABOVE CALCULATIONS). PROVIDE WITH (2) 5 TON UNIT WITH TOTAL 3,500 CFM CAPACITY ( 1750 CFM PER UNIT) 3. SYSTEM DUCTS SHALL BE CLASSIFIED AS LOW-PRESSURE DUCT SYSTEM (STATIC PRESSURE LESS THEN OR EQUAL TO 2" W.G.). ALL DUCT JOINTS, SEAMS AND CONNECTIONS SHALL BE SECURELY FASTENED AND SEALED WITH APPROVED MASTIC DUCT SEALER. ALL DUCT AND PIPE INSULATION SHALL BE R -G MIN. DUCT AND PIPE INSTALLATION AND SEAL SHALL BE COMPLY WITH SEC. C403.2.7 4. HVAC SYSTEM SCHEDULE: (OCCUPANCY GROUP A-2) ALL 7 DAYS 9:00PM -- 9:00 AM SYSTEM OFF; 9:00 AM -- 9:OOPM SYSTEM ON. 5. HVAC SYSTEM CONTROL PER 2012 WSEC C403.2.4 G. DEMAND CONTROLLED VENTILATION (DCV) (C403.2.5. 0: PROVIDED BY AIR -SIDE ECONOMIZERS 7. ALL SUPPLY AIR DIFFUSERS SHALL EQUIP WITH ADJUSTABLE DAMPER OR LOUVER TO OBTAIN THE EXHAUST RATE PER PLAN. (5. ALL OTHER RELATED PERMIT (ELECTRICAL, GAS LINE, FIRE ALARM AND ANY OTHER PERMIT REQUIRED FOR SYSTEM INSTALLATION ) SHALL BE APPLIED SEPARATELY BY CONTRACTORS. 9. CONNECT BUILDING FIRE ALARM TO NEW HVAC UNIT. MOTOR EFFICIENCY: MOTORS FOR FANS THAT ARE 1/ 12 HP OR GREATER AND LESS THAN I HP SHALL BE ELECTRONICALLY COMMUTATED MOTORS OR SHALL HAVE A MINIMUM MOTOR EFFICIENCY OF 70 PERCENT (WSEC C403.2.10.3) REQUIRED MIN. EFFICENCY: 13.00 SEER (WSEC TABLE C403.2.3(1)C, <G5,000 BTUH CONTROL SEQUENCES: GENERAL OPERATING 5CHEDULE5 SHALL BE CONFIRMED AND ADJUSTED AS NECESSARY. ALL SETPOINTS SHALL BE ADJUSTABLE. OPTIMUM START-UP: SYSTEM SHALL BE STARTED TO ESTABLISH SPACE TEMPERATURE PRIOR TO OCCUPANCY. SCHEDULES SHALL BE CONFIRMED AND ADJUSTED TO CLIENT'S REQUIREMENTS. DURING THE OPTIMUM START-UP PROCESS, DAMPERS SHALL REMAIN IN FULL RE -CIRCULATION POSITION. OCCUPIED MODE: BASED ON TIME OF DAY SCHEDULE. SYSTEM SHALL MAINTAIN MINIMUM OUTDOOR AIR VENTILATION CFM DURING OCCUPIED MODE ON CALL FOR HEATING, MINIMUM OUTDOOR VENTILATION CFM SHALL BE MAINTAINED. GAS FIRED SECTION SHALL BE ENERGIZED AS REQUIRED TO MEET 5ETPOINT. UNOCCUPIED MODE: RTU SHALL BE OFF. UPON FALL IN SPACE TEMPERATURE BELOW 55° F, SYSTEM SHALL BE STARTED WITH DAMPER IN FULL RE -CIRCULATION POSITION. SYSTEM SHALL OPERATE UNTIL SPACE_ TEMPERATURE EXCEEDS GOOF. EXISTING HVAC (UNIT #1) NOTES: EXISTING 1800 5F TENANT SPACE EQUIPPED WITH ONE G.8 TONS HVAC UNIT, MADE BY CARRIER, RTU MODEL 38AK5008 / INDOOR AHU MODEL 044RM008. PROJECT WILL RE -USE THIS EXISTING UNIT ON EXISTING 1800 SF SOUTH SEATING AREA AND RE5TROOM5. ALL DUCT WORK ON THIS UNIT WILL BE CHANGED SINCE PROJECT WILL REMOVE EXISTING T -BAR CEILING. EXISTING RETURN AIR WAS THROUGH THE SPACE ABOVE CEILING, FOR MAKE EXISTING SYSTEM EFFICIENCY, PROJECT WILL INSTALL RETURN AIR DUCT ON EXISTING ECONOMIZER ACCORDING TO NEW SPACE CONFIGURATION PER PLAN. RTU MADE & MODEL. CARRIER, 38AK5008--501-- (G.8 TONS) POWER: 208 / 230V, 3 O, 42.5 AMPS (FLA) (MOCP 50) INDOOR AHU: MODEL: 40RUA'08, AIR FLOW: 3,000 CFM, POWER: FAN MOTOR 208/230V 3PH, 2.4 HP. 5.2 FLA, (OVERCURRENT PROTECTION: 15 AMPS) HEATER: 208V 3PH 31.3 AMPS (FLA), (OVERCURRENT PROTECTION: 50 AMPS) ECONOMIZER: 100%, MANUFACTORY BUILD ON AHU NEW HVAC UNIT #2 GENERAL DATA UNIT FUNCTION: 8.5 TON, DX COOLING, GAS HEATING MADE & MODEL: TRANS, YSC 102F3E0'**DOOOA2 POWER /BTU: 208V, 3 O, 43.3AMP (MCA), [MAXIMUM BREAKER SIZE: 50 AMPS (MOCP)] NATURAL GAS INPUT: 120,000 BTU, GAS CONNECTION: 1/2" / 3/4" NPT; 4.5 / 14.0 PSI MAJOR MOTORS DATA: COMPRESSOR: 480V, 3PH, 3.7HP, 7.1 RLA CONDENSER FAN MOTOR: 48OV, I PH, 3/4HP, 2.8 FLA EVAPORATOR FAN MOTOR: 480V 3PH, 2 HP, 3.G FLA REFRIGERANT TYPE: R-4 I OA, 4.7 POUNDS ECONOMIZER: 100%, MANUFACTORY BUILD IN ROOF UNIT COOLING PERFORMANCE: GROSS CAPACITY: 102.0 MBH EER: 1 1 .2 NOMINAL AIRFLOW: 3400 CFM IEER: 13.0 SYSTEM POWER: 8.G2 KW HEATING PERFORMANCE: INPUT: 120 MBH (3 BURNER) OUTPUT: 9G MBH STEADY STATE EFFICIENCY: 80% OUTDOOR SOUND RATING: 88 dBA ROOF OPENINGS: SUPPLY AIR OPENING: 35"X 19" MIN. RETURN AIR OPENING: 35"X 19" MIN. SEE ATTACHED SPECIFICATIONS FOR OTHER DETAILS KIZUKI RESTAURANT REQUIRED MIN. VENTILATION AREA (NETSF) I G O SPIRAL (I 29 i1 FP } I I G,'�C2I �" (, I X27 FFNI) DINING AREA 1518 70/1000 7.5 0.18 1,070 24X24 T -BAR CEILING MOUNT RETURN AIR REGISTER T1 HVAC # I THERMAL STATE 24X24 T -BAR CEILING MOUNT DIFFUSER TZ HVAC #2 THERMAL STATE /� INSULATED FLEXIBLE DUCT, SIZE PER PLAN ~ --- 24X24 WALL MOUNT RETURN AIR REGISTER F7SUPPLY AIR C3 DOWNWARD ROUND DIFFUSER. O GWB CEILING MOUNT SUPPLY AIR DIFFUSER z RETURN AIR r•®- DUCT CONNECTOR W/ ADJUSTABLE AIR FLOW DAMPER NOTES: 1. ALL DINING AREA SUPPLY AIR DIFFUSERS HEIGHT: 1 1'-0" AFF. ALL DIFFUSERS SHALL BE ABLE TO ADJUST AIR FLOW RATE FOR AIR BALANCE PER PLAN 2. ALL RETURN AIR REGISTER SHALL MOUNTED ON SOFFIT WALL AT 14' AFF (TO THE TOP OF REGISTER) EQUIPMENT SIZING: SEE ATTACHED SOFTWARE CALCULATION REPORT PROJECT DISCRETION: PROJECT TENANT SPACE COMBINED EXISTING SPACE # 182 (1800 SF) AND 1400 SF OF EXISTING SPACE # I G2. TOTAL FLOOR AREA 3200 SF. EXISTING RETAIL TENANT SPACE # 182 (1800 5F) HAVE ONE G.8 TON H N VAC UNIT. THIS UNIT WILL REMAIN ANDR EPLACE ANDECONFI F R GURE DUCTS AND DI FUSERS LOCATION WITHIN C THE SAME AREA. PROJECT WILL ADDING ONE HVAC UNIT (UNIT #2) IN ADDITIONAL 1400 SF. THIS AREA WILL HAVE RESTAURANT ', OPEN KITCHEN AND SEATING AREA. WITH RADIO HEAT TRANSFER, CALCULATED NEW UNIT SHALL BE 9 TONS. PROVIDE WITH AN 8.5 TONS TRANS YSC 102AD UNIT. HVAC SYSTEM REQUIREMENTS NOTES: 1. HVAC SYSTEM AND INSTALLATION SHALL COMPLY WITH 2012 WASHINGTON STATE ENERGY CODE SEC. C403. 2. CONDITIONED AREA OCCUPANT LOAD IS 187, REQUIRED MIN. O.S.A.: 2740 CFM (SEE ABOVE CALCULATIONS). PROVIDE WITH (2) 5 TON UNIT WITH TOTAL 3,500 CFM CAPACITY ( 1750 CFM PER UNIT) 3. SYSTEM DUCTS SHALL BE CLASSIFIED AS LOW-PRESSURE DUCT SYSTEM (STATIC PRESSURE LESS THEN OR EQUAL TO 2" W.G.). ALL DUCT JOINTS, SEAMS AND CONNECTIONS SHALL BE SECURELY FASTENED AND SEALED WITH APPROVED MASTIC DUCT SEALER. ALL DUCT AND PIPE INSULATION SHALL BE R -G MIN. DUCT AND PIPE INSTALLATION AND SEAL SHALL BE COMPLY WITH SEC. C403.2.7 4. HVAC SYSTEM SCHEDULE: (OCCUPANCY GROUP A-2) ALL 7 DAYS 9:00PM -- 9:00 AM SYSTEM OFF; 9:00 AM -- 9:OOPM SYSTEM ON. 5. HVAC SYSTEM CONTROL PER 2012 WSEC C403.2.4 G. DEMAND CONTROLLED VENTILATION (DCV) (C403.2.5. 0: PROVIDED BY AIR -SIDE ECONOMIZERS 7. ALL SUPPLY AIR DIFFUSERS SHALL EQUIP WITH ADJUSTABLE DAMPER OR LOUVER TO OBTAIN THE EXHAUST RATE PER PLAN. (5. ALL OTHER RELATED PERMIT (ELECTRICAL, GAS LINE, FIRE ALARM AND ANY OTHER PERMIT REQUIRED FOR SYSTEM INSTALLATION ) SHALL BE APPLIED SEPARATELY BY CONTRACTORS. 9. CONNECT BUILDING FIRE ALARM TO NEW HVAC UNIT. MOTOR EFFICIENCY: MOTORS FOR FANS THAT ARE 1/ 12 HP OR GREATER AND LESS THAN I HP SHALL BE ELECTRONICALLY COMMUTATED MOTORS OR SHALL HAVE A MINIMUM MOTOR EFFICIENCY OF 70 PERCENT (WSEC C403.2.10.3) REQUIRED MIN. EFFICENCY: 13.00 SEER (WSEC TABLE C403.2.3(1)C, <G5,000 BTUH CONTROL SEQUENCES: GENERAL OPERATING 5CHEDULE5 SHALL BE CONFIRMED AND ADJUSTED AS NECESSARY. ALL SETPOINTS SHALL BE ADJUSTABLE. OPTIMUM START-UP: SYSTEM SHALL BE STARTED TO ESTABLISH SPACE TEMPERATURE PRIOR TO OCCUPANCY. SCHEDULES SHALL BE CONFIRMED AND ADJUSTED TO CLIENT'S REQUIREMENTS. DURING THE OPTIMUM START-UP PROCESS, DAMPERS SHALL REMAIN IN FULL RE -CIRCULATION POSITION. OCCUPIED MODE: BASED ON TIME OF DAY SCHEDULE. SYSTEM SHALL MAINTAIN MINIMUM OUTDOOR AIR VENTILATION CFM DURING OCCUPIED MODE ON CALL FOR HEATING, MINIMUM OUTDOOR VENTILATION CFM SHALL BE MAINTAINED. GAS FIRED SECTION SHALL BE ENERGIZED AS REQUIRED TO MEET 5ETPOINT. UNOCCUPIED MODE: RTU SHALL BE OFF. UPON FALL IN SPACE TEMPERATURE BELOW 55° F, SYSTEM SHALL BE STARTED WITH DAMPER IN FULL RE -CIRCULATION POSITION. SYSTEM SHALL OPERATE UNTIL SPACE_ TEMPERATURE EXCEEDS GOOF. EXISTING HVAC (UNIT #1) NOTES: EXISTING 1800 5F TENANT SPACE EQUIPPED WITH ONE G.8 TONS HVAC UNIT, MADE BY CARRIER, RTU MODEL 38AK5008 / INDOOR AHU MODEL 044RM008. PROJECT WILL RE -USE THIS EXISTING UNIT ON EXISTING 1800 SF SOUTH SEATING AREA AND RE5TROOM5. ALL DUCT WORK ON THIS UNIT WILL BE CHANGED SINCE PROJECT WILL REMOVE EXISTING T -BAR CEILING. EXISTING RETURN AIR WAS THROUGH THE SPACE ABOVE CEILING, FOR MAKE EXISTING SYSTEM EFFICIENCY, PROJECT WILL INSTALL RETURN AIR DUCT ON EXISTING ECONOMIZER ACCORDING TO NEW SPACE CONFIGURATION PER PLAN. RTU MADE & MODEL. CARRIER, 38AK5008--501-- (G.8 TONS) POWER: 208 / 230V, 3 O, 42.5 AMPS (FLA) (MOCP 50) INDOOR AHU: MODEL: 40RUA'08, AIR FLOW: 3,000 CFM, POWER: FAN MOTOR 208/230V 3PH, 2.4 HP. 5.2 FLA, (OVERCURRENT PROTECTION: 15 AMPS) HEATER: 208V 3PH 31.3 AMPS (FLA), (OVERCURRENT PROTECTION: 50 AMPS) ECONOMIZER: 100%, MANUFACTORY BUILD ON AHU NEW HVAC UNIT #2 GENERAL DATA UNIT FUNCTION: 8.5 TON, DX COOLING, GAS HEATING MADE & MODEL: TRANS, YSC 102F3E0'**DOOOA2 POWER /BTU: 208V, 3 O, 43.3AMP (MCA), [MAXIMUM BREAKER SIZE: 50 AMPS (MOCP)] NATURAL GAS INPUT: 120,000 BTU, GAS CONNECTION: 1/2" / 3/4" NPT; 4.5 / 14.0 PSI MAJOR MOTORS DATA: COMPRESSOR: 480V, 3PH, 3.7HP, 7.1 RLA CONDENSER FAN MOTOR: 48OV, I PH, 3/4HP, 2.8 FLA EVAPORATOR FAN MOTOR: 480V 3PH, 2 HP, 3.G FLA REFRIGERANT TYPE: R-4 I OA, 4.7 POUNDS ECONOMIZER: 100%, MANUFACTORY BUILD IN ROOF UNIT COOLING PERFORMANCE: GROSS CAPACITY: 102.0 MBH EER: 1 1 .2 NOMINAL AIRFLOW: 3400 CFM IEER: 13.0 SYSTEM POWER: 8.G2 KW HEATING PERFORMANCE: INPUT: 120 MBH (3 BURNER) OUTPUT: 9G MBH STEADY STATE EFFICIENCY: 80% OUTDOOR SOUND RATING: 88 dBA ROOF OPENINGS: SUPPLY AIR OPENING: 35"X 19" MIN. RETURN AIR OPENING: 35"X 19" MIN. SEE ATTACHED SPECIFICATIONS FOR OTHER DETAILS KIZUKI RESTAURANT REQUIRED MIN. VENTILATION AREA (NETSF) BREATHING OCCUPANT BREATHING RATE (CFM) AREA VENT RATE (CFM) EXHAUST RATE (CFM/LT) REQUIRED VENT (CFM) DINING AREA 1518 70/1000 7.5 0.18 1,070 HALLWAY 41870/1000 7.5 0.18 � 295 RESTROOM 236 0.714 169 KITCHEN AND SERVICE AREA 829 d F- 0.7 580 SUB -TOTAL 3001 U w ozs 2,114 WITH 0.8 EFFECTIVENESS (IMC TABLE 403.1.2) z W W 5 � q 2,536 REVIEWED FOR Ct�C�E� QED D A MAY 27 2016 City of Tuk Ita j3u,wDtNG r3,I 'i1S0N RECEIVED CITY OF TUKWILA MAY 10 2016 PERMIT CENTER 1-- Z oo 0 U d ti 00 00 v W � I N00Wco� I� �o�� d F- � J U w ozs w � z W W 5 � q 1-- Z d °° 00 vJ W I� z d F- N J U ozs w z z W W 5 = _ b N _ 00 N se REVISIONS SHEET TITLE -- HVAC DUCTING CEILING DUCTING PLAN -- SYSTEM SPECS -- MIN. VENT CAL. DATE: 3/4/2016 SKEET HOOD SYSTEM EQUIPMENT WEIGHTS LIST ITEMS NET WEIGHT (LB) EXHA T US BLOWER 950 MAKE-UP UNIT 1031 1 O' TYPE -1 HOOD (INCLUDING CONTROL BOX) 720 i G' TYPE -I HOOD 1 800 253 Lb 4'-54" 23G Lb 4'-3" T-4111 2 r CLXN TRANE YHC 1021' (I 03G Lb) 205 Lb 341 Lb NEW HVAC (#2) UNIT CORNER WEIGHT AND HEIGHT I I ' I 11 OTHER ROOF EQUIPMENT 9 k� (CARRIER 38AK5008) i 5-6 I SUPPORTED WITH ADDITIONAL 1 1 STRUCTURE ABOVE ROOF —�--- — — — — — — -1 — — — — — — — — — — — vx— 1 0120 O�O lfl 1 i I ^,r---; -� 1 BOTTOM CHORD. CONNETONS\ 1 ! 51-611i j I PIER DETAIL 2/52. TYP. 170 o I ��� I ?' JL =� I!!I' n - o 1! 1. i 11� dF), 5��„ (� ; , I I 4 10 !! 6 �' � I � r L ROO q HOOD IIi LJ I51_6,1 � 1 Al j 5'-6" �i-- �-T7777_ --i ! 1Li J HOolb 5Y5#M MA1 E -UP AIR 5'-6" UNIT (10 1313 Lb) �I )0" — �� 1 E �p -- --- - --------5'-6" 5'-6" HANGING -( POINT. TYP. 1 I :-77 { o. I l I a " 1 4822 L` I -i_1 I , �� �----------------\ I 3' ' 7((=2,' ------ --- ------ - 1-3'--1-"----- IIII 11111/K,I ( *ice'' \I ���_/ I✓ 1 i co I N i 27'-7" IC 1021• EXISTING LANDLORD PROVIDED ROOF \t 1 z �1 J 0 01 Q w cl)1 J 16-5" Lu N FIKU55: 16H5 @ 5-5" O.C. UNLESS NOTED z al NEW HVAC (#2) RTU, (I 03 G Lb) 't1 21 IN N 14822 SEE ROC F CURB AND BASE 1 fRAMING DETAIL G/52 I I HA — I ' I I ; NIS-b4C?OF CURB A5E FRAMIG 1 i o HOOD SYSTEM ACL=5/S2 - EXHAU5T FAN Rt I t 5EE BASE FRAMING � -- --- } i I DETAIL 4/521 IA 41 -- <, v-! – ,- L -ALL JOI G�t1 55T-" O.C. UNL SS NOTE ilk 1 t I I 1 `� � ` ✓ +i_i I , 1--7- 12E319 '-j 4822 MAIN 5 EL J t 4 0 NOTES: 1. BUILDING ENGINEER TO APPROVE ALL ATTACHMENTS TO EXISTING STRUCTURE. 2. CONTRACTOR TO VERIFY ALL EXISTING CONDITIONS AND DIMENSIONS PRIOR TO CONSTRUCTION. ROOF PLAN N SCALE: I /4" = E M Ok C LUMN. .1413 2 EXISTING ROOF STRUCTURAL PER 1968 STRUCTURAL PLAN SHEET 51 G I � 1 N I RECEIVED CITY OF TUKWILtA HAY 10 2016 PERMIT CENTER REVISIONS SHEET TITLE ALL EQUIPMENT ON ROOF FRAMING PLAN DATE: 3i4i2016 SHEET S1 z Qoo c 00 wco p '123 fY cfl p co � Ot' g Y �<-- z Prr, � N q °,5 REVISIONS SHEET TITLE ALL EQUIPMENT ON ROOF FRAMING PLAN DATE: 3i4i2016 SHEET S1 z Qoo W Ot' g Y �<-- z Q � N °,5 O z O Z w Lam'! Wc _ G O N _ co 0 N 041 v REVISIONS SHEET TITLE ALL EQUIPMENT ON ROOF FRAMING PLAN DATE: 3i4i2016 SHEET S1 VIBRATION ISOLATORS INSTALLATION AND ATTACHMENT PER MFR SPECIFICATION. TYP. (G) 5"X54" I G GA. GLAV. SHEET METAL EXHAUST BLOWER W/ SEALANT ABOVE ADDITIONAL 18 1/2" 20 1/2" ROOFING MATERIAL ROOF° ROOFING (BY BUILDING ROOFER) L�_ INSULATION ° 2 X2 X 1/4" PL WASHER TOP BOTTOM 5/8"0 A307 BOLT P.T. GXG METAL SPACER (FIELD MEASURE AND SELECT) (4) SDS 114"0 X 3.5" EVENLY PLACE CORRUGATED METAL ROOF -6" (24" O.C. MAX.) THROUGH DECKING DECKING MIN. TO P.T. GXG. TYP. ON EACH P.T.GXG. EXISTING ROOF TRUSS TOP TYP. 2"X2"X 1/4" PL WASHER TOP BOTTOM CHORD i (02:L___ re w Q -H Lu 0 J W It i 3 4 1_33�� K -mom z V w 0 ROOF TRUSS UNDER A307 BOLT W/ 2"X2"X 114" k5HER TOP � BOTTOM AT 'ING JOIST CONN. TYP. (2) ACH P.T. GXG (4) SDS 114"0 X 3.5" EVENLY PLACED (24" O.C. MAX.) AND STAGGERED THROUGH DECKING TO P.T. GXG. ON UNDERSIDE. TYP. EACH GXG 70-70 F TRUSS UNDER 141 EXHAUST FAN BASE FRAMING AND CONNECTIONS (SCALE: I"= P-0") 12' EVAPORATOR 51-I 7'_6" BOX HEIGHT: 7' -Li =9 0" MAKE-UP AIR UNIT MAKE-UP AIR UNIT METAL ROOF CURB b N -ROOFING (BY BUILDING ROOFER) SPOT WELD BOTTOM FLANGE TO SUPPORT FRAME @ 4" O.C. ALL AROUND REFILL ROOF INSULATION 5/8"O A307 BOLT METAL SPACER (FIELD MEASURE AND SELECT) jh � CORRUGATED METAL ROOF 4" 2'-102" DECKING 2"X2"X 1/4" WASHER EXISTING ROOF TRUSS TOP L3X3X I /4 ANGLE STEEL CHORD Lu U Qun rbN r I� ( CV 1 � z iI � SZ in w Q C) w D Lu LL Lu Lu N w z X co J 3",<3"X 114" ANGLE STEEL L3X3X 114 ANGLE STEEL 3/ 1 G' TYP 5)8"0. ON CENTER. MIN. (4) # 12 SELF -DRILLING SCREW EVENLY PLACED (24" O.C. MAX.) THROUGH ANGLE Lu STEEL TO DECKING. TYP. EACH SIDE w 5/45"0 A307 BOLT TYP. (G) ---------------------------------- L3X3X 1/4 ANGLE STEEL IX IJ 3"X3"X 114" ANGLE STEEL 2" 51 MAKE-UP AIR UNIT BASE FRAMING AND CONNECTIONS (SCALE: I"= I'-01 NOTES: CONTRACTOR SHALL NOT DRILL, WELD OR ANY OTHER DAMAGE ON ANY EXISTING STRUCTURAL BEAM, TRUSS, COLUMN OR ANY OTHER STRUCTURAL MEMBERS. WEIGHT LIST: 1. WALK-IN COOLER WEIGHT: 800 Lb 2. CONDENSING UNIT WEIGHT: 87 Lb 3. REMOTE COMPRESSOR UNIT WEIGHT: 180 Ib (COMPRESSOR UNIT ON ROOF AT EXISTING LANDLORD PROVIDED EQUIPMENT PLACEMENT AREA ON ROOF (20' -±-TO WALK-IN COOLER) ALUMINUM SHEATHING BOTH SIDE 1.5% 1.5"X3/1 G" ANGLE STEEL W/ (2) EVAPORATOR #8 2" SELF -DRILLING SCREW TO 7' (LET 140, 29 Lb) WALK-IN COOLER BASE FRAME * (1) 114"0 x 1-3/4" H I LTI KWI K CON 11 G" SLAB ON GRADE CONCRETE SCREW TO EXISTING SLAB. 4' O.C. MAX, MIN. (3) PER SIDE. TYP. S1-1 FLOOR CONNECTION AT COOLER 1 WALK-IN COOLER MOUNTING DETAIL v EXISTING TRUSS 800 5200-54 MTL STUD FLAT TO ROOF CORRUGATED MTL SHEATHING UNDER SID W/ (2) # 10 SCREW ON EACH CORRUGATE, TYP. ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® .1-24" MIN. 24" MIN.4 Z/ Q c) ROOF CUT FOR DUCT INSTALLATION Lu (3G"X3G" MAX.) 0 ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® EXISTING TRUSS TYP. ROOF CUT BLOCKING AND NAILING 1-5/8"x2-7/8" -P5500 UNISTRUT U I �� a- �L w Q o w 0 Lu HVAC RTU (TRANE YSC 102F3', (5.5 TONS UNIT) WEIGHT: 1035 Lb HVAC UNIT METAL ROOF C57;7-T" 3'-10" 2"X2"X 114" WASH L3X3X 1/4 ANGLE STEEL �SPOT WELD BOTTOM FLANGE TO SUPPORT FRAME @ 4" O.C. ALL AROUND ROOFING (BY BUILDING ROOFER) REFILL ROOF INSULATION 5/8 O A307 BOLT METAL SPACER (FIELD MEASURE AND SELECT) CORRUGATED METAL ROOF DECKING EXISTING ROOF TRUSS TOP CHORD 3"X3"X 1/4" ANGLE STEEL 5/8" O. ON CENTER. ' i L3X3X 114 ANGLE STEEL 3/ 1 Gil , 6'-8" MIN. (4) # I SELF -DRILLING SCREW EVENLY PLACED (24 O.C. MAX.) THROUGH ANGLE STEEL TO D CKING. TYP. EACH SIDE 5/8"0 A307 BOL TYP. (G) " L3X3X 1/4 ANGLE STEEL -- - - - - - -@ - - - - 3"X3"X 114" ANGLE STEEL •k 6'-11" 7'-32" �6 HVAC RTU BASE FRAMING AND CONNECTIONS (SCALE: III= I' -O") ROOF TRUSS BOTTOM CHORD �- P278G BEAM CLAMP W/ U -BOLT EACH SIDE ------------- G" MIN. 2-7/8" NO DRILL OR WELD ON EXISTING TRUSS. TYP. 2 TYP. UNI -STRUT CONNECT TO ROOF TRUSS --------- ---------- 1-5/811x2-7/8" P5500 UNISTRUT ---------------------- RE1IrEWED FOR rms COMPLIANCE APPROVED MAY 2 7 2016 City of Tukwila 141 III 10ING DIVISION4 STEEL BEAM P278G BEAM CLAMP W/ U -BOLT EACH SIDE 2-7/8" NO DRILL OR WELD ON EXISTING TRUSS. TYP. 3 TYP. UNI -STRUT CONNECT TO ROOF BEAM REVISIONS SHEET TITLE STRUCTURAL DETAILS DATE: 3/4/2016 SHEET 00 0 U ti rj E-, �:tco 5 a �W coo© I00 w 00cz C4-\ -d 00 0. �cn i-< 0) w WS N � � q Q J q w� q REVISIONS SHEET TITLE STRUCTURAL DETAILS DATE: 3/4/2016 SHEET z J co co i-< 0) W WS � � g Q J � J N 06 0� w W z _ Q o N co r REVISIONS SHEET TITLE STRUCTURAL DETAILS DATE: 3/4/2016 SHEET unnn TArsn D IX A mTn Ar - T., I, 1171z^19�74n rTnnT\ TAT L�nDllA TTn AT f V vY TAG FILTER(S) LIGHT(S) MAX EXHAUST PLENUM TOTAL HOOD NO. HOOD CONFIG. TOTAL RISER(S) END T❑ ROW HOOD NO, TAG MODEL LENGTH COOKING SUPPLY HOOD CONSTRUCTION SYSTEM PIPING ANGIN WGHT800 20' SIZE MODEL # TEMP. EXH, CFM WIDTH LEND. DIA. CFM S.P. CFM 20' 16'MICRONS END 5 Screw In Halogen N❑ 5430 45 1/2' -�- 45 1/2' 10' 19' 2025 -0.693' N❑ 430 SS 2 1 Captrate Soto Filter IND 15' 0.00' 600 Deg. 4050 3038 e ALONE ALONE 10' 19' 2025 -0.693' Light 1 Fan NO -2 -PSP -F, Where Exposed 5430 10' 25' 2700 -0.839' 430 SS 2 10' 0.00' 600 Deg. 2700 2970 ALONE ALONE ND -2 -PSP - F Where Exposed rTnnT\ TAT L�nDllA TTn AT f V vY TAG FILTER(S) LIGHT(S) UTILITY CABINET(S) FIRE HOOD HOOD NO. TAG TYPE QTY, HEIGHT LENGTH EFFICIENCY @ 9 QTY. TYPE WIRE GUARDTYPE MUA 12' 24' 759 0.252' FIRE SYSTEM ELECTRICAL SWITCHES SYSTEM PIPING ANGIN WGHT800 20' SIZE MODEL # QUANTITY 1 MUA 12' 24' 742 0.241' Captrate Solo Filter 20' 16'MICRONS 93% See Filter Spec, 5 Screw In Halogen N❑ 9LOCATION11 45 1/2' -�- 45 1/2' 15' 0.00'Non./15' N❑ LBS 2 Captrate Soto Filter 7 20' 16'1 93% See Fitter Spec. 3 Screw In Halogen NO e DCV-1111 Light 1 Fan NO 720 LBS unnn r1DmTn ATC' HOOD NO. TAG OPTION LENGTH WIDTH LEFT END STANDOFF (FINISHED) i' Wide 54' Long Insulated RISERS) TYPE WIDTH LENG. DIA. CFM S.P. RIGHT END STANDOFF (FINISHED) 1' Wide 54' Long Insulated 1 Front BALANCE DAMPERS 16' 6' STRUCTURAL FRONT PANEL MUA 12' 24' 759 0.252' MUA 12' 24' 759 0.252' INSULATION FOR BACK OF HOOD 2 16• BALANCE DAMPERS 2 20' STRUCTURAL FRONT PANEL MUA 12' 24' 742 0.241' MUA 12' 24' 742 0.241' INSULATION FOR BACK OF HOOD D1PPh1n7?A'Ph'T1 C'TTDATY DT77ATTTA,f/c1 HOOD NO TAG POS. LENGTH WIDTH HE RISERS) TYPE WIDTH LENG. DIA. CFM S.P. 1 19. Front 182' 16' 6' MUA 12' 24' 759 0.252' MUA 12' 24' 759 0.252' MUA 12' 24' 759 0.252' MUA 12' 24' 759 0.252' 2 16• Front 132' 20' 6' MUA 12' 24' 742 0.241' MUA 12' 24' 742 0.241' MUA 12' 24' 742 0.241' MUA 12' 24' 742 0.241' 1' LAYER OF INSULATION FACTORY INSTALLED IN 1.00' END STANDOFF MEETS 0' REQUIREMENTS CLEARANCE 2 1/4' TO COMBUSTIBLE SURFACES. 1'7--7- 1' LAYER OF INSULATION FACTORY INSTALLED IN INTERNAL BACK STANDOFF. MEETS 0 INCH REQUIREMENTS FOR CLEARANCE TO COMBUSTIBLE SURFACES. 87 3/4' 87 3/4' 3 3' O T— 9' O i p q• 10' -10' LA o J_ q• O - -- U.L. Listed Screw In Halogen Bulb 19' �I 19. 54' U.L. Listed Screw In Halogen Bulb 1 --------------:---- - ----- - - - - - - - - - - - - 10' 100j-!0' 10' O 24' 24' c 24' 24' O 16• ..1�- --- - --- 12— --- - --- -�- 12— ---- - - --- 1 11�---=--- 17 1/4 ----� 32 1/2' 32 1/2' 32 1/2' -� 12' 10' 0.00'Non./10' 0.00'OD �CjV 45' ( 90' I 45' 22 3/4' 45 1/2' -�- 45 1/2' -�- 45 1/2' 15' 0.00'Non./15' 0.00'OD 15-2.00' Overall Length PLAN VIEW - Hood 11 15' 0.00" LONG 543OND-2-PSP-F NOTE, Additional hanging angles provided for hoods 12' and longer. V LAYER OF INSULATION FACTORY INSTALLED IN 1.00' END STANDOFF MEETS 0' REQUIREMENTS CLEARANCE TO COMBUSTIBLE SURFACES, SPECIFICATI❑N: CAPTRATE° GREASE -,STOP* SOLD FILTER THE CAPTRATE GREASE -STOP SOLO FILTER IS A SINGLE -STAGE FILTER FEATURING A UNIQUE S -BAFFLE DESIGN IN CONJUNCTION WITH A SLOTTED REAR BAFFLE DESIGN, TO DELIVER EXCEPTIONAL FILTRATION EFFICIENCY. FILTER IS STAINLESS STEEL CONSTRUCTION, AND SIZED TO FIT INTO STANDARD 2 -INCH DEEP HOOD CHANNEL(S), UNITS SHALL INCLUDE STAINLESS STEEL HANDLES AND A FASTENING DEVICE TO SECURE THE TWO COMPONENTS WHEN ASSEMBLED. GREASE EXTRACTION EFFICIENCY PERFORMANCE SHALL REMOVE AT LEAST 75% OF GREASE PARTICLES FIVE MICRONS IN SIZE, AND 90% GREASE PARTICLES SEVEN MICRONS IN SIZE AND LARGER, WITH A CORRESPONDING PRESSURE DROP NOT TO EXCEED 1.0 INCHES OF WATER GAUGE. THE CAPTRATE GREASE -STOP SOLO WAS TESTED TO ASTM STANDARD ASTM F2519-05. FILTER COLLECTION EFFICIENCYr app G -6 4s.&. ra- o n L RESISTANCE VS. AIRIWW-rapm:°G- Srop—Fit= u v PARTICLE i)tL" {TER (um) m AIRFLOW (cfm) CAPTRATE FILTERS ARE BUILT IN COMPLIANCE WITH:. NEPA #96, NSF STANDARD #2 0% .cceanaxc UL STANDARD #1046 f�Ji I( lI1V/q INT. MECH. CODE (IMC) �IIJI/ I' LAYER OF INSULATION FACTORY INSTALLED IN INTERNAL BACK STANDOFF. MEETS 0 INCH REQUIREMENTS FOR CLEARANCE TO COMBUSTIBLE SURFACES. G 10' 0.00"NLO GW 543OND- 2 PSP -F RECEIVED CITY OF TUKWILA 4 ' 2016 0 f, 077 PERMIT REVISIONS 1 S d 00 Q' 00 -P .--i L CO U --P �, Q :3 U 3 O S :5 LLJ 0 J Q :3 00 LL1 �z c--1 0 DATE: 2/22/2016 DWG.#: 2573510 DRA� JDC-85 SCALE: 3/4" = 1 '-0" MASTER DRAWING 3' O T— 9' O i 10 ---- L j- — 25' -- -� U.L. Listed Screw In Halogen Bulb 54' Utility Cabinet 4' 24' 24' 24' O 1 --------------:---- - ----- - - - - - - - - - - - - 10' 100j-!0' 10' 20' 60' -I 60' 17 1/4 ----� 32 1/2' 32 1/2' 32 1/2' -� 12' 10' 0.00'Non./10' 0.00'OD �CjV 11-0.00' Overall Length G 10' 0.00"NLO GW 543OND- 2 PSP -F RECEIVED CITY OF TUKWILA 4 ' 2016 0 f, 077 PERMIT REVISIONS 1 S d 00 Q' 00 -P .--i L CO U --P �, Q :3 U 3 O S :5 LLJ 0 J Q :3 00 LL1 �z c--1 0 DATE: 2/22/2016 DWG.#: 2573510 DRA� JDC-85 SCALE: 3/4" = 1 '-0" MASTER DRAWING BALANCE DAMPERS HANGING ANGLE 20' CAPTRATE SOLD FILTER WITH HOOK V LAYER OF INSULATION FACTORY INSTALLED IN 3' INTERNAL STANDOFF. MEETS 0 INCH REQUIREMENTS FOR CLEARANCE TO COMBUSTIBLE SURFACES IT IS THE RESPONSIBILITY OF THE ARCHITECT/OWNER TO ENSURE THAT THE HOOD CLEARANCE FROM LIMITED—COMBUSTIBLE AND COMBUSTIBLE MATERIALS IS IN COMPLIANCE WITH LOCAL CODE REQUIREMENTS GREASE DRAIN WITH REMOVABLE CUP SECTION VIETY — MODEL 543OND-2—PSP—F HOOD — #1 J BULB, L55 SERIES E26 TURE — HIGH TEMP ASSEMBLY, 'HERMAL AND SHOCK RESISTANT CHING PLATES 'LY RISER WITH UME DAMPER 23.5% OPEN STAINLESS STEEL PERFORATED PANEL RENCE BALANCE DAMPERS HANGING ANGLE 20' CAPTRATE SOLO FILTER WITH HOOK 1' LAYER OF INSULATION FACTORY INSTALLED IN 3' INTERNAL STANDOFF. MEETS Q INCH REQUIREMENTS FOR CLEARANCE TO COMBUSTIBLE SURFACES IT IS THE RESPONSIBILITY OF THE ARCHITECT/OWNER TO ENSURE THAT THE HOOD CLEARANCE FROM LIMITED—COMBUSTIBLE AND COMBUSTIBLE MATERIALS IS IN COMPLIANCE WITH LOCAL CODE REQUIREMENTS GREASE DRAIN WITH REMOVABLE CUP SECTION VIEW — MODEL 5430ND-2—PSP—F HOOD — #2 1LB, L55 SERIES E26 — — HIGH TEMP ASSEMBLY, MAL AND SHOCK RESISTANT ACHING PLATES 'LY RISER WITH UME DAMPER 23.5% OPEN STAINLESS STEEL PERFORATED PANEL CE REVISIONS 9 p { F s 3 EE 66 33 tp co UJ 1- t Ej 1,ui�{I 1-1 pm �3 � x w co { Ir € I i cli CD cb N _ r € j N I ,r3,R j{ A ; i W Z f tL + r w 9 RY17ATT.4T FAN TATFnPMATTnAT - Jnh42.57.R.51 n FAN UNIT TAG FAN UNIT MODEL # CFM ESP. RPM H.P. B.H.P. 0 VOLT FLA DISCHARGE WEIGHT SUNES NO. BURNER NO 1 - Utility Set Grease Cup 1 YES 1 - Utility Set - Spring Vibration Isolators - BI27 Thru BI30 / Equivalent Sized Utility Set - Indoor/Outdoor use. 2 2 324432 298477 VELOCITY (LBS.) Natural 1 (LBS.) USBI30BD-RM 6750 2.000 822 5.000 3.8060 3 208 15.0 1296 FPM 950 23 MITA FAN INFORMATION - Jnh,42.57,R510 FAN UNIT TAG FAN UNIT MODEL # BLOWER HOUSING CFM ESP. RPM H.P. B.H.P. 0 VOLT FLA WEIGHT SONES BURNER NO 1 - Utility Set Grease Cup 1 YES 1 - Utility Set - Spring Vibration Isolators - BI27 Thru BI30 / Equivalent Sized Utility Set - Indoor/Outdoor use. 2 2 324432 298477 46 deg F 7 in. w,c, - 14 in, w.c. Natural F � (LBS.) 2 EFFICIENCY(%) 2 a A3 -D,750 -G18 G18 -PB A3 -D.750 6008 1.000 866 5.000 3.6200 3 208 15.0 1031 15.9 92 /_'AQ-TPP(T) AdAk7 -TTP ATR TTATTT/Q) FAN TAG INPUT OUTPUT FAN REQUIRED INPUT GAS UNIT TAG UNIT TAG 2 BTUs TEMP. RISE PRESSURE GAS TYPE NO.BTUs CUP DAMPER MOUNT 1 - Utility Set Grease Cup 1 YES 1 - Utility Set - Spring Vibration Isolators - BI27 Thru BI30 / Equivalent Sized Utility Set - Indoor/Outdoor use. 2 2 324432 298477 46 deg F 7 in. w,c, - 14 in, w.c. Natural FAAT nPTTn]V.Q FAN UNIT NO. TAG OPTION (Qty. - Descr.) (6) ISOLATORS = FAN 1 - BI30 - 24' Discharge Extension. UNIT TAG # 1 1 - BI - Discharge Orientation Vertical Upper Left - CW Inlet Side. 2 NO. 1 - BI30 - Inlet Connection Standard 24' Flanged Grease Duct, 1 SIDE GRAVITY MOTORIZED WALL 1 - Extra Set of Belts CUP DAMPER MOUNT 1 - Utility Set Grease Cup 1 YES 1 - Utility Set - Spring Vibration Isolators - BI27 Thru BI30 / Equivalent Sized Utility Set - Indoor/Outdoor use. 2 1 - AC Interlock Relay - 24VAC Coil --- 60' i YES 1 - Motorized Backdraft Damper for A3 -D Housing w 1:0514 F � 1 - Low Fire Start 2 18' BURNER. 1 - Inlet Pressure Gauge, 0-35' a 2. 1 - Manifold Pressure Gauge, -5 to 15' we LL 1 - Extra Set of Belts 3. DOWN DISCHARGE - AIR FLOW RIGHT -> LEFT 1 - Separate 120V Wiring Package (Required and used only for DCV or Prewire with VFD) - Three Phase Only 77AAT Arr P QQnPTT+'Q FAN EXHAUST SUPPLY (6) ISOLATORS = FAN W UNIT TAG # 1 31 LBS Curb 4.000'W x 60.000'L x 10.000'H 2 NO. GREASE GRAVITY WALL SIDE GRAVITY MOTORIZED WALL a h'd fI CUP DAMPER MOUNT DISCHARGE DAMPER DAMPER MOUNT 1 YES q, 3 2 -I 4' --- 60' i YES ('TTI7T? A QQTPAJRT TTi'Q NO. i=�°A�RNII; WEIGHT ITEM SIZE (6) ISOLATORS = FAN W 1 # 1 31 LBS Curb 4.000'W x 60.000'L x 10.000'H 2 # 2 82 LBS Curb 35.000'W x 84.000'L x 20.000'H Insulated 0 Direct Fired (DF) Profile Plate Assembly DI ert F' d Profile Plate Soec'ficatlons: ➢irect fired burners shall have patented (US Potent Noy US662952382), self-adjusting profile plates designed to ensure proper air velocity and pressure drop across the burner. Profile plates shall allow burners to achieve clean combustion by limiting by -P aduct levels to a maximum of 5ppm of carbon monoxide (CO), and 0.5ppm of nitrogen dioxide (1,102). A-tication. Spring-loaded burner profile plates ore engineered to automatically react to the momentum of fresh air stream, •Ithout the need for any motors or actuators to mechanically adjust then. Vith this feature, oil IF units are designed for demand control ventilation (DCV) requirements. Certiflcations: All profile plate assemblies shall be Included In the DF unit's ETL Ilsting and comply with combined safety standards ANSI Z83.4 and CSA 3.7 (non -recirculating DF heaters) and ANSI Z83.18 (recirculating DF heaters). t Cti -Profile plates shop be formed from G90 galvanized steel. -Profile plates shall vary In size per unit. -Profile plates shall be mounted along the same plane as the discharge of the burner. -Design shut[ Incorporate properly torqued, permanently mounted spring hinges. -Spring hinges shall be made from plated steel. FAN #1 USBI30BD-RM - EXHAUST FAN i- 57 I/2' EXTENSION 61 7/8' 1 15/16' SHAFT DIA. 24' 1 2' DRAIN 31 1/4' 56 1/2' LIFTING LUG L 5 1/- T 20' EQUIPMENT CURB 1---- 35' ROOF OPENING 2' SMALLER THAN CURB DIMENSION. CURB OUTER DISCHARGE OPEI 20 14 3/4' 6 1/2' FEATURES: - ROOF MOUNTED FANS - RESTAURANT MODEL - UL705 - UL762 - HIGH HEAT OPERATION DIRECT DRIVE 350'F (176'C) - HIGH HEAT OPERATION BELT DRIVE 350'F (176'C) - HEAT SLINGER - GREASE CLASSIFICATION TESTING - 2' DRAIN - MOTOR WEATHER COVER - FULLY SEALED SCROLL HOUSING - SCROLL ACCESS DOOR - FLANGE 1 1/4' - 11 THRU 20. - FLANGE 2' - 24 THRU 36, OPTIONS BI30 - 24' DISCHARGE EXTENSION. BI - DISCHARGE ORIENTATION VERTICAL UPPER LEFT - CW INLET SIDE. BI30 - INLET CONNECTION STANDARD 24' FLANGED GREASE DUCT. EXTRA SET OF BELTS UTILITY SET GREASE CUP UTILITY SET - SPRING VIBRATION ISOLATORS - BI27 THRU BI30 / EQUIVALENT SIZED UTILITY SET - INDOOR/OUTDOOR USE. NORMAL TEMPERATURE TEST BELT DRIVE EXHAUST FAN MUST OPERATE CONTINUOUSLY WHILE EXHAUSTING AIR AT 350'F (176'C) UNTIL ALL FAN PARTS HAVE REACHED THERMAL EQUILIBRIUM, AND WITHOUT ANY DETERIORATING EFFECTS TO THE FAN WHICH WOULD CAUSE UNSAFE OPERATION. 43 3/8' 14 3/4' 1 uM1WIRING 93 3/4' - 45 1/8• 42 1/8' SERVICE DIRECT FIRED MODULE_ DISCONNECT SWITCH AIRFLOW BLOWER/MOTOR ACCESS DOOR 24' SERVICE CLEARANCE REQ. 84' 39 9/16' 1' NPT C== F 9 1/2' o AIRFLOW a- REVISIONS i=�°A�RNII; L 0) (6) ISOLATORS = USBI18 THRU 36 W C+3�ry7i' ���31y V ' }C O� • I ICA p�vs� C, SUPPORT RAILS S o W 10' 8 a h'd fI � Q f,7, m I) 1 X N I1 �J Ut]iin� a in n I I- q, 3 [[ �7i o -I 4' --- 60' FAN #2 A3 -D.750 -G18 - HEATER } s'(l w 1:0514 F � 1. DIRECT GAS FIRED HEATED MAKE UP AIR UNIT WITH 18' BLOWER AND 18' BURNER. 1 i a 2. INTAKE HOOD WITH EZ FILTERS LL L 3. DOWN DISCHARGE - AIR FLOW RIGHT -> LEFT Cril3 t { N N 4. COOLING INTERLOCK RELAY. 24VAC COIL. 120V CONTACTS. LOCKS OUT BURNER CIRCUIT WHEN AC IS ENERGIZED. 5. MOTORIZED BACK DRAFT DAMPER 30' X 30' FOR SIZE 3 STANDARD & MODULAR DIRECT FIRED HEATERS W/EXTENDED SHAFT, 1 � - STANDARD GALVANIZED CONSTRUCTION, 3/4' REAR FLANGE, NFBUP-S ACTUATOR INCLUDED d � r _ 6. LOW FIRE START. ALLOWS THE BURNER CIRCUIT TO ENERGIZE WHEN THE MODULATION CONTROL IS IN A LOW FIRE POSITION. 7. GAS PRESSURE GAUGE, 0-35', 2.5' DIAMETER, 1/4' THREAD SIZE SUPPLY SIDE HEATER INFORMATION - B. GAS PRESSURE GAUGE, -5 TO +15 INCHES WC., 2.5' DIAMETER, 1/4' THREAD SIZE 9.EXTRA SET OF V -BELTS. ONLY TO BE ORDERED AS FAN OPTION AT TIME FAN IS ORDERED. WINTER TEMPERATURE = 29'F. TEMP. RISE = 46'F. 10. SEPARATE 120VAC WIRING PACKAGE FOR MAKE-UP AIR UNITS. OPTION MUST BE SELECTED WHEN MOUNTING VFD IN PREWIRE BTUs CALCULATED OFF STANDARD AIR DENSITY PANEL OR WITH DCV PACKAGE. PROVIDES SEPARATE 120VAC INPUT TO SUPPLY FAN. THIS 120V SIGNAL MUST BE RUN BY OUTPUT BTUs AT ALTITUDE OF 0.0 Ft. = 298477 ELECTRICIAN FROM DCV TO MUA SWITCH. INPUT BTUs AT ALTITUDE OF 0.0 ft. = 324432 LIFTING LUG L 5 1/- T 20' EQUIPMENT CURB 1---- 35' ROOF OPENING 2' SMALLER THAN CURB DIMENSION. CURB OUTER DISCHARGE OPEI 20 14 3/4' 6 1/2' FEATURES: - ROOF MOUNTED FANS - RESTAURANT MODEL - UL705 - UL762 - HIGH HEAT OPERATION DIRECT DRIVE 350'F (176'C) - HIGH HEAT OPERATION BELT DRIVE 350'F (176'C) - HEAT SLINGER - GREASE CLASSIFICATION TESTING - 2' DRAIN - MOTOR WEATHER COVER - FULLY SEALED SCROLL HOUSING - SCROLL ACCESS DOOR - FLANGE 1 1/4' - 11 THRU 20. - FLANGE 2' - 24 THRU 36, OPTIONS BI30 - 24' DISCHARGE EXTENSION. BI - DISCHARGE ORIENTATION VERTICAL UPPER LEFT - CW INLET SIDE. BI30 - INLET CONNECTION STANDARD 24' FLANGED GREASE DUCT. EXTRA SET OF BELTS UTILITY SET GREASE CUP UTILITY SET - SPRING VIBRATION ISOLATORS - BI27 THRU BI30 / EQUIVALENT SIZED UTILITY SET - INDOOR/OUTDOOR USE. NORMAL TEMPERATURE TEST BELT DRIVE EXHAUST FAN MUST OPERATE CONTINUOUSLY WHILE EXHAUSTING AIR AT 350'F (176'C) UNTIL ALL FAN PARTS HAVE REACHED THERMAL EQUILIBRIUM, AND WITHOUT ANY DETERIORATING EFFECTS TO THE FAN WHICH WOULD CAUSE UNSAFE OPERATION. 43 3/8' 14 3/4' 1 uM1WIRING 93 3/4' - 45 1/8• 42 1/8' SERVICE DIRECT FIRED MODULE_ DISCONNECT SWITCH AIRFLOW BLOWER/MOTOR ACCESS DOOR 24' SERVICE CLEARANCE REQ. 84' 39 9/16' 1' NPT C== F 9 1/2' o AIRFLOW a- REVISIONS Rpjj�®f ' ' ��+ /'• 0� i=�°A�RNII; L 0) co co CO I5 y?y� k pp3j W C+3�ry7i' ���31y V ' }C O� • I ICA p�vs� C, -� S o W {1 L 8 a h'd fI � Q f,7, m I) 1 X N I1 �J Ut]iin� a in n a q, 3 [[ �7i o Sic 4 i } s'(l w 1:0514 F � LO N 1 i a CR v 1 f LL L 2' [n Cril3 t { N N >J tit N 'A _ # k N 1 � - co 5 d � r _ r3' CD >LLJ Rpjj�®f ' ' ��+ /'• 0� (( _P L 0) co co CO . W V ' }C O� • I ICA p�vs� C, -� S o W F3U1�0 � �' � Q � w RECEIVED CITY OF TUKWILA DATE: 2/22/2016 DWG.#: 2573510 DRAWN JDC-85 SCALE: 3/4" = 1'-0" MASTER DRAWING SHEET NO. 3 REVISIONS DESCRIPTION DATE: JOB 2573510 Ku K. Southcenter D' t F' d H t W' ' JOB 2573510 - Ku Kai Southcenter I tall t W' JOB 2573510 - Ku Kd Southcenter Q 0 n�l 1 s J s3 4j U 1= 1i fj IN 3 I s T� !n `T _ o �Eit� I Fr1 8 $ i U Ttfi �fj Q M l 14 x GO €jr rEl c0 J W rl rM T Pt ui E1 t �1 'fit 1 V 1; L .may N r.-a ' j ..1 ilt N 5 C. t C ^* a c 1 r :q t3 { 9 i m -.T ti, -'1 C s' . 7-. t. s d 00 Q1 � -F' � � p CO 0) s s 4 u 3 o s LLJ � � 0 DATE: 2/22/2016 DWG.#: 2573510 aRAB1N JDC-85 SCALE: RECEIVED 3/4„ = 1'-011 CITY OF TUKWiLA MASTER DRAWING MAY 10 2016 07Mlb 0 7 MAY CENTER SHEET NO. 4 Exhaust Fan Wiring - DRAVING NUMBER EXH2573510-1 SHIP DATE 2/22/2016 MODEL vs'BI3oeD-RY n.toilra Darren•DROP 1 fV 3 3 �---� Latsl ne Lcsatkm KT-nl Fen R¢tar C21 1 SV-01 )IOYe ehca.4et snitch 721 s 7 9 ID u Iz 13 11 13 PDiDR D.TD !6 EXHAUST SFP-208v-3P-IS.BFLA 1] 1n TG /CTRL NOPE 3S1 19 --- nE7iiiEi F� lD VDtDIF 21 !E'lWTE3 1KTW11l VDtIIL � vTRE L[noa Pl - $AIX w - TE11IN BL - BLUE Ti! - l7EQ! BR - 7!R[IVIN GT - (3AT � Qt - QtAi(d PR - PURPLE RD -RED PK - PINK VN - WHITE Direct ire Heater lring DRAWING NUMBER DF2573510-2 SHiP DATE 2/22/2016 MODEL A3-D.v5o-D18 ATTENTION ELELTRILTAN )�.tettra oat:^ FOR atscDlREer cuaserTw y[Rr p w„rxrwe meper IS FACTORY SUPPLIED IW /rNDT6.IB—��-nV-1 M°foYira H•W tract Lroea>ECT POWER To THE DROP IN Dev o- (D36 D7 IN ENSPLVS) MOarpe Tbp Canbd 1 SV-011 2 Cdl DCV VKp ---J a-IJ Mr-6 IE EM 01 21v AC IntMode Rely DtoCv �'1 3 CB-➢1 o— DSV M) Bit tD�4a 1 tTL9 Myr fC DFI4 5 RE-DV OM t S3 Sl SV-n3 •• RClj OR LL 3 to 7 B a:-4 Ac Br..m a+.s wan �-01 1✓0 PS-02 � R -10-t Rn 9 B% � 10 TB- L SVS M d�r.ce rren 0 sv-n o____ [a u •• lz a-Irr£ o 13 B Rn n-�m B�a'r"°irr zr1w � 2 � ISi3 .aM1ep AF Swv @l 11 3 Y � uWN � TR-02 � t. A { 13 ]J, TR-03 VA-01 VH v4�a �ev4 W w.r [2�a IL M4)TLQ D6a l6 �� SUPPLY SNP-2JBV-32-iSOiLA �ml7 NV�e�olP l�w�ee rN�cost�vw FSC-01 �ro FR-GO 20 s. 01 IB n,ECTRi[4L ],yF(+�N4Ti(AI BR m 1f11 TDaigC7R[[[T�I[jIT�ri�C�13Ci�_ w H TR-04 �VICIRCUIi 15A aa' 19 VA-02 — DF)nTE FS�RLD VIRDG 21 nE)i1tE5 INTERNAL YDtD1G HL TERMDYiS Ss M0 S6 USED ON 22 VA-03 � NF t AF SERIES ALTWT6tS •� 11 PfmVIIES COOLING 2 vnr m m 1t-4IQ - t[LLAi m - _ � TS -0 ns a Ion Wiring DRAWING NUMBER RP2573570-2 SHIP DATE 2/22/2076 MODEL AD -D.730 -c19 120 V 1 PH. 240 V 1 PH. 208/460/600 V 3 PH. d:eannret n:seexv,¢et m:ea.x,¢et SMtch Gat-fl¢z Conduit Srttch Cpl -flex CaMult S•Itch Gel -flex conWt On WU O (In uNt) � lin emit) O nC/ [o•rctkz4 Factory Factory Foctory .ring .o-inq HIQvH®R• tl \ (RD waf a � � H BK R GR �� �1 ��iWprar o -q PRYER FRDM DEDICATED BREAKER Power Connection See above details. e o D3 IN HEATER 70 ILIA W DCV D7 IN NEATER TD ILIB IN DLV VIRE TD��� acv (�___--__�_ [SES VIRF �Dl ra EK - BLACK w - rEunv BL - BLI£ [R - Q✓£ni PR - BRaVM aT - f3G1T - PIrBIE RD -RID PK:P PDK 1IN - VHRE 3 �-•� Q - teEpl N7 - east[ mF'-}'fj R - lldaAl LY - (i4r Q - p4M(i IR - Pt4iL ns a Ion Wiring DRAWING NUMBER RP2573570-2 SHIP DATE 2/22/2076 MODEL AD -D.730 -c19 120 V 1 PH. 240 V 1 PH. 208/460/600 V 3 PH. d:eannret n:seexv,¢et m:ea.x,¢et SMtch Gat-fl¢z Conduit Srttch Cpl -flex CaMult S•Itch Gel -flex conWt On WU O (In uNt) � lin emit) O nC/ [o•rctkz4 Factory Factory Foctory .ring .o-inq HIQvH®R• tl \ (RD waf a � � H BK R GR �� �1 ��iWprar o -q PRYER FRDM DEDICATED BREAKER Power Connection See above details. e o D3 IN HEATER 70 ILIA W DCV D7 IN NEATER TD ILIB IN DLV VIRE TD��� acv (�___--__�_ [SES VIRF �Dl ra EK - BLACK w - rEunv BL - BLI£ [R - Q✓£ni PR - BRaVM aT - f3G1T - PIrBIE RD -RID PK:P PDK 1IN - VHRE REVISIONS DESCRIPTION DATE: 0 ELECTRICAL PACKAGES — Job#257351 0 0 5"_f r �C��I Fled Corvrectbn to Router or Ethernet S.Itch _ 4T (U 1HE DESCRIPTION OF OPERATION: Ii 6 OR Factor V) -ed Cora,ectron to CeUuor at DCV -1111 --STALL eeES a v.,.<.am., .. _ E < 1 w,wr ..�. Eav . r, , �y�t�e,t ., rr., r.,i, FACTORY VIKING 3� c 2573510 SCHEMATIC mm. for flNe ruwem.v..(fY °a.e°,vw«m muonaN crtcr. co,w .cqrelm a 4 1 Nae Ka S..thc. KM' 222/2016 E[P Rl-I CIRCUIT BOARDS �• ] I p$ 1 DCV R ,LI p II MQ•G Re V, 2A5 d s� 1� «Q 8 z HOr rD $Hlwr cPnl cob Izo vAC 24 -� " to BREAKER PANEL TO CONTROL PANEL CONTROL PANEL TO ACCESSORY ITEMS tarRa P �---- $� RELAY R[ur + v ResporlsbNtyl Electrkkn Respcwsm0.1ty1 Electrician SIGNAL FOR h_UTLD RAL FROM �MNT4Ol,� --- NO 4 3 14 NO bT EK ERNAL ST TERMINAL IS ENERGIZED NC 2 1 12 NC i3 rl BRFN(ERE AKER $ IZE $fB1WL'i IS THE MAXIIAIM ALJ.ADP CIARRQ PANEL SHUNT TRIP IN FIRE CONDITION. COR 6 ] i COC k,� # T tt� 1+a CROSWTCN l COY 6 S 11 NY 14 ,A I F'{; ?� ( - - CONi(� PANi1. 4N0 �t, COUROL P _ _ [CNGH - BREAKER 1PH - _ _ _ _ - = SNa•A*2 - - - - - A9R/ALLY MIEN {.. I20V-_-_--_____-_- �.pq T° ---------- IS�%N[-T SPARE FIREiSSPO$CQ°PCTSVILMAkEC2T0-- tAgy1<TRroTio1 S ISA _�•1 FIRE SYSTEMDARI _ _ _ _ _ _ _ - - -- J SYSTEM DRY �AR2 WHEN SYSTEM IS ARMED. THEY Si -Y SSi:rr , '-' ,3 +,1 { CINNTRUL PDVER DO NDT VIRE MTCROSVITCH VIRirCl i0 C T7N m CONTACT TARE USED TO DISABLE EQUIPMENT -+ � m CASlink Monitor and Control TO SHUNT TRIP BREAKER. Vas Ml TO YMAt.LY CLOSED (2L I BUILDING FIRE SIGNALS. WHICHFOR MUHPSD7OST CI TO ARi SHOULD HAVE MS -I 4tE7 < RE V.ING IRE AL TO THE PNUS OL I P� tea t A UST 1� LIGHT BREAKER SNARED V/ CONTINITY WHEN ARMED. !n 1 Xood control panel to support communications to cl0ad-based Building EONTROL POVOL SVRCH 41 _-- __--___ I %i•:C ALARM �1I SVIi[H LOCATED CI Cm � Y Ps -N Pi*Q $.Q zavoc far) iti ipr1 i • t, W .I Management System. _ _ - - - - _ _ _ _ _ Ens tr MORE THAN DIE w: ra-zu-s� Hood Contrat Panel to aitow cloud -based Building Management System to T Id2EAKER P. - yprJ, FIRE SYSTEM, VIRE r �_2 4_F✓D COMttlf! -. i p p - - - - - - _ -[� IN SERIES AS SHOWN �y y[ CONTROL P I NORM%v L =N - monitor real time ammeters outlined as MONITOR in the points list. 208 v --- ----- _ - t Pc;x� a Nry Mym I .--____- - ---� PRT CONTACT - R L 1 AM = { Hood Control Panel to allow cloud -based Building MnTlagement System to MCN 18.8 A ------- - —�----------- 1 +I < p ill control parameters outlined as CONTROL in the points list a MGCP� 30 A OI/OFF Y[rH 1---_-_-- - cDNReN - .�. 2.Z, .V3 ar fes, (a i 1+ co Mme 5 t EXH-1 SM -1 NH SUPPLY FAN I -- - NCQMALLY OPEN - � '' � VIRE TO VFD QUICK CONNECTOR CROUP I CP�NCEN K SSLILL� E tv°/5-w-u•-00. i !}}} 1 (%'• t _ _ _ _ _ _ _ _ _ _ CiDUR0. PANEL VIRE DIRECTLY TO CONTROL 8a<RD - i 3 f N T° J4 CAT -5 COOERION ----- I WHEN SLFPLT FAH 12 ON X31 BREAKER 3PH _ _ _ _ _ _ _ _REMOTE MONITORING AND CONTROL POINTS LIST Zoe V _ _ _ _ _ _ _ _ _ _ _ _ s QED PLACE END Cr LIRE PLW r-'----`— _ _ _ _ _ _ _ E t i 3 b N D MCN IBBA --- -__ __-C.�e3 SNITCHES IN EMPTY JACK. PN EOLI204 LEOt,T20A 2� DCV SPEED �_+L�`=--_-- -- -TO TMS " 19CR 30 A SUP -2 SM -2 D -]OV OUTPUT=- NIRS TO EVn tEP"mS ( (� j N VIRE TO VFD QUICK CONNECTOR HIED LIGHTS I COFIQRA E OITPIIT. ! v CONTROL P _ _ - _ _ _ _ _NATE _ , (TOTAU SEE ECPH03 OWNERS MANU L D TO VFD ANALOG t HOOD LIGHTS __- __ GREEN ---J 0-lOV OUT --- _ ---_ _ III PMS i "�I I i LL Q 1400 V MAX Was TO J-BOK ON TOP Or HMD IN VFD VIRE i0 VFD TERMINAL STRIP. t CONTROL PANEL TO FANS ROUTER SEE V rww. tD FREarErxY. eX- _tIh ,.. av 1 3 (EACH VFD) SEE VFD OVNRS MAtAUl. s ResponsMity, Etectriclan ONTROE PNET � CATCOMM ETHERNET COdE[T@N - ^ P -- - !? CN -IIhJu11' YI ro �`� —__ __----_T__ r _ ti PAWL FANS TO vaE DIRECTLY TO COMMUNICATION SIG'4AL SWITCH THROUGH BMS SHORED VIDE ImIEE SEE CASEIN( OWNERS EXTERNAL 04 WILL ACTNATE ZOEI FANS AND i � L Loatl Virhg _tYLUAriA_ -FAN 01 - oI d `E6 MAYUAL FOR rURTlER INSTRUCTIONS LIGHTS In 'ETCH SM-1-E�,eJu e _ _ �.o i.na v r- 6 VIRE 7D _-__ --------- VFD CONNECTOR --2Jffi- _ IR CDNNROL P -L F E ^w COHNECTCK VIRE TO I TO VW TD-CiFilifiCBSf•RG _ _ _ -RIM TEMP -- �� (� LLL MUST HAVE ITS OWN CONDUIT DISCONNECT KITCHEN TEMP SENSOR M°LNTED IH RWM AVAT —rxTRY W=G I t^' `) Z DO NOT SHARE CUNWITI f BENSON FROM NEAT SOIAiCEi SEE NNtIAL 8(- R-kK FAN o2 SUP -2 m �-'AYN ELLE ,CRE,1.E 1 d Loatl Vwg — +�-'— — a �`"� caNIINa P O(-w+ea RD -$EO £ 1 f • 7 -- PCE, _ _ VIRE TO _ JMT.Soiii - Bt1 v DUCT SENSOR A Y V A RISER I DI - 3lD STi.� T °LL` 5 Cd BOSON. IOJNTED W ONAUST DST e VFD QUICK - - � - ROT3H "Vol sr -CE { j3 ., O CUNNTCT11R JtL _ � v+VEL- VWl Sl7C E E\� __UP'a9_ _ A am I IIS EGNTROLP -__ __ --- _ Q B �0 ViRi Y[F[6/iTiR B3ARff----il�¢3i1 t MIST HAVE ITS OWN METAL DUCT SENSOR SEHSGN MDI.NTEO IN EINAUST DST RISER I 1 i CONDUIT. VIRE TO PROVIDED [OmlllT DROP.Ku Smrftmt, i 1LD 2) CONTROL P0. _-______--_ _ _ LANCE lF AIR ON PCB -�� }� [N WA al TO T}i(�T�CTY(tFO. &Kii3--- ---w y DAMPER _ _ _ --- IYCT SENSOR SENSOR MOUNTED DN EIIWIST DCT RISER 2 �� LU Grata a,tra y y r PROVING I __-_--___ LgNb uha INTERLOCK L VOLTAGE COlOECTION FOR LTnNR0.P------__--- fE.nauft .1,- - , DAMPER INTERLOCK. SH!X$-D ewy:�A HAVE CONTINUITY WHEN DAMPER a ^" " TO J-- S e U A VIRE-111- Tk� !diAM - _ _ NEED 2 Trw¢ vuATc Ha*Dt Baaea m a,<t NOT RELVIRED FOR ALL UNITS. SENSOR IGUHED IN $LPPLT te•Pe.atw� 0 M ,) V [S PROVEN OPEN PSP SENSOR PSP TEMP RCoutR@ Peon � SEE —E -UP AIR SCHEMATIC. TE F'RLWOiG COVECTII?IS aNkoea bo °Io- Fwe S 4 1 'x lO D d maew.v.rMY 2 a MAY IR MAY It1T !E ;*•- O REOUIREDSPECIFICATIONS ASEDTSITE dsta.�e �.rA°�erL n l I ECP il-2 o Yqi } T Z' 00 ��p� ��� � -}-) Q) Q U 3 °1-�ut ��N ' �° s 0 � eve'- C5 � W DATE: 2/22/2016 DWG.#: 2573510 DRAWN JDC-85 RECEIVED SCALE: CITY OF TUKWiLA 3/4" = 1'-0°' MAY 10 2016 MASTER DRAWING 00 7 7 PERINIT CENTER SHEET NO. 5 NO. TAG PACKAGE # LOCATION SWITCHES OPTION FANS CONTROLLED LOCATION QUANTITY TYPE 0 H.P. VOLT FLA Ship Loose w/ 1 Light Exhaust 3 5.000 208 15.0 i DCV -1111 Utility Cabinet Left prewire Snort Controls DCV 1 Fan Supply 3 5.000 208 15.0 DCV Pactagsr ]Ymet(an Room Trmperatwe YOMTDR Ducf TempanaMv(e) MONITOR YUA Diecharye TempeNature YOR770R Kitchen Rift DLxAmge Tvmperahtn YONTITIR Fan Seed YOMTi1R Pan Amperage MONITOR Pan Poroer YOMIDR PPD fault YOM70R Coral+eller fault YON1T)R Pan Faults YORISDR ran seatm YORtTDR PCU Paulo MONITOR PCV filter Cloy Pert+Nagu YON77Y1R Fin Condtfian MONITOR CORE Ayre System YONITYIR 8uifding Pnaauna MONITOR CONTROL A B C D E F G H I UNLESS SPECIFIED OTHIRVISE, ALL FACTORY AC VIKING 16 AVG. ALL FACTIIRY DC WIRING IB AVG. Pili END OF LINE PLUG IN MOTOR POWER CIRCUIT SNITCHES EMPTY RJ45 JACKS. PN Ell -120A NOTFi IF Vi -0 HAS ]R1 240V INPUT. USE V L L2 ONLY. 1 J9 120V n n CAT -5 CAKE LENGTH AS REQUIRED. IF VFD HAS IPM I20V INPUT, USE Ll L N DIIIT, pK� 2 CONTROL INPUT v � -_ 120V H1=LINE, �8 � n J 3 3PH l2 AVGI p � Um FMIyESU 1 EK _ _ NI=NEUTRAL, 15A � o iF�x 2jD A � FaSv� �'S.Doo BREAKER. ➢0 � I 24V 8 9'��1•��'�, (R P10moI ® NOT CONNECT Plo],oD m TO SHUNT TRIP �V J 1 2 -mea � PpijS�Op( 2 PK D SK l2 P19F225 �},—��-- BREAKER. SEE Ps -D] Master (urs O INSTALLATION j C ➢C� - a RJC 1pF aPWaaae) pl-EL3M P4tmn BK ° SCHEMATIC FOR _ Wrmlrv4sDDzr>esn ADDITIONAL REO. L1 L1 fCgT-S PPt�L `J - TP�!a 3PHF�uiso� )1'. 208 V �VR2 3 NOTE, NJ kens an ECPN03 J3 IM <a M <bsy dnMe 3 30 A W �3Y/T3 P Iron Ont caparcnt tlw r�eK, eNtn E3112CA At erd ', PIO✓D90 of LLM. Place PN EOL12M h epty RJ46 part PISmOi 12 P19422$ ECTtW32A1ST OWN p�^L3M P41a21 IF-�� VFmEry/02v02TIB5%I �fi>t� 4 ���STF� 'ITK-2 J7 120V'U`' RD-���a 5 BK HDlila�4D]fIS�AO�tN -ll 6 AR B. NI DC+��B _ PR ROl SFI � >a-STDO-11, � 7 $ MAKE W AIR INTERLOCK. EFIC=BK Pa`EL Cm➢:G S DRY CONTACTS (SHOWN DE -ENERGIZED) u AVG sc Packages nmae(on Room Tampenlun(a) MONITOR Duct fempervliae(e) MONITOR YVA Dtscharge TempeYature MONITOR Raah.n RTU DiscAarge T perolvn MONITOR CaritrNler Taulta MONITOR Fan Jau[tr MONITOR Fan Slatm YONIIT/tt PCO Fault YOMfOR PCO f'iiter Cloy Percenfagu MONITOR Firs Condition MONITOR mFe Tin sytfem YoxrroR BvOding Prvaswea YOM70A Tarr Button(a) YOXITUR d CONTROL Eight. Button(.) MONITOR d CONTROL ►ash Bulten MONITOR d Prep 7time Button YOM70R d CONTROL Pam Button YONLrYNR d CONTROL Lights Button YONIfOR d LbMROL ImA Button YONJ7ITR d CONTROL sc Packages nmae(on Room Tampenlun(a) MONITOR Duct fempervliae(e) MONITOR YVA Dtscharge TempeYature MONITOR Raah.n RTU DiscAarge T perolvn MONITOR CaritrNler Taulta MONITOR Fan Jau[tr MONITOR Fan Slatm YONIIT/tt PCO Fault YOMfOR PCO f'iiter Cloy Percenfagu MONITOR Firs Condition MONITOR mFe Tin sytfem YoxrroR BvOding Prvaswea YOM70A Tarr Button(a) YOXITUR d CONTROL Eight. Button(.) MONITOR d CONTROL ►ash Bulten MONITOR d • RA -i-1 01C/OMP Hp HRH P� 9 YV 14 AVG RA -2-1 Yom, 0.Y/0}T - Na I *� SW YV 14 AVG RA -2-2 0 SC -20 x 1 x 8.62 HO System Design Verification (SDV) If ordered, CAS Service will perform a System Design Verification (SDV) once all equipment has had a complete start up per the Operation and Installation Manual, Typically, the SDV will be performed after all inspections are complete, Any field related discrepancies that are discovered during the SDV will be brought to the attention of the general contractor and corresponding trades on site. These issues will be documented and forwarded to the appropriate sales office. If CAS Service has to resolve a discrepancy that is a field issue, the general contractor will be notified and billed for the work. Should a return trip be required due to any field related discrepancy that cannot be resolved during the SDV, there will be additional trip charges, During the SDV, CAS Service will address any discrepancy that is the fault of the manufacturer, Should a return trip be required, the general contractor and appropriate sales office will be notified. There will be no additional charges for manufacturer discrepancies, ID Op oVED 14 k I TUO RECEIVED CITY OF TUKWILA MAY 10 2016 PERMIT CENTER REVISIONS C5 L n� +_> 0) S O 00 r --i ME �� 1•• 1116 •• 6 R co W m a a DATE: 2/22/2016 DWG.#: 2573510 DRABY JDC-85 SCALE: 3/4" = 1'-0" MASTER DRAWING SHEET NO. 6 PROJECT SITE- 3200 ITE3200 5F GFA (SUITE 182) EQUIPMENT FLOOR PLAN SEARS MACY5 r, 1 SITE PLA 1 KL III q 111 x r - PROJECT RELATED BUILDING PERMIT #D I G-0068 THI5 MECHANICAL PERMIT APPLICATION INCLUDING: 1. WALK-IN COOLER SET UP. 2. KITCHEN HOOD SYSTEM (HOOD FIRE SUPPRESSION SYSTEM BY OTHER PERMIT) 3. ADDING ONE NEW HVAC SYSTEM (8.5 TONS). ALL MECHANICAL SYSTEM ELECTRICAL, PLUM5ING, FIRE SUPPRESSION SYSTEM, FIRE SPRINKLER AND FIRE ALARM SYSTEM MODIFICATIONS WILL HAVE SEPARATE PERMIT APPLICATIONS BY PROJECT CONTRACTORS. I J \ l �� g � • , `b PROPERTY PARCEL: 2098007820 • - V 10 Woom I©K A041PLIANC RaVEb MAY 2 7 2016 : k�tO f EUILpINGT� calla DIVISION 40 be made to the scope of work withc ut prior approval of Tukwila Building Division. require a new plan submittal and may include aj icutional pian review fees. PROPERTY ADDRESS: 182 50UTHCENTER MALL, TUKWILA, WA 98188 BUILDING CONSTRUCTION TYPE: Ii -B, FULL SPRINKLER A • �, 0 O G) 0) U ti o � 6) .oma �@ W wco� —\'Z3 Q r C9C�� l y N 06w z •• t U W = q Q U) N q _N r, 1 SITE PLA 1 KL III q 111 x r - PROJECT RELATED BUILDING PERMIT #D I G-0068 THI5 MECHANICAL PERMIT APPLICATION INCLUDING: 1. WALK-IN COOLER SET UP. 2. KITCHEN HOOD SYSTEM (HOOD FIRE SUPPRESSION SYSTEM BY OTHER PERMIT) 3. ADDING ONE NEW HVAC SYSTEM (8.5 TONS). ALL MECHANICAL SYSTEM ELECTRICAL, PLUM5ING, FIRE SUPPRESSION SYSTEM, FIRE SPRINKLER AND FIRE ALARM SYSTEM MODIFICATIONS WILL HAVE SEPARATE PERMIT APPLICATIONS BY PROJECT CONTRACTORS. I J \ l �� g � • , `b PROPERTY PARCEL: 2098007820 • - V 10 Woom I©K A041PLIANC RaVEb MAY 2 7 2016 : k�tO f EUILpINGT� calla DIVISION 40 be made to the scope of work withc ut prior approval of Tukwila Building Division. require a new plan submittal and may include aj icutional pian review fees. PROPERTY ADDRESS: 182 50UTHCENTER MALL, TUKWILA, WA 98188 BUILDING CONSTRUCTION TYPE: Ii -B, FULL SPRINKLER PROJECT TENANT SPACE GLA: GFA 3,200 SF; 3,001 5T NET I I I REVISIONS PROPOSED USE AND OCCUPANT: GROUP A-2, RESTAURANT. OCCUPANT LOAD: 122 NEW BUSINESS OWNER: KIZUKI RAMEN * IZAKAYA RESTAURANT LLC CONTACT: BRANDON TING, 20G-313-0449 DRAWING INDEX: M I . 51TE AND TENANT FLOOR PLAN- MECHANICAL EQUIPMENT the LOCATION of a M2. HOOD SYSTEM NOTES AND CALCULATIONS, DUCTING PLAN, SECTION DETAIL A. M3. HOOD SYSTEM SECTION DETAIL B, DETAILS M4. HVAC SYSTEM DUCTING AND CALCULATIONS 51 . EXISTING ROOF FRAMING PLAN AND ROOF TOP UNITS LOCATION. 52. SECTION AND DETAILS. CODE COMPLYING: LANDU5E CITY OF TUKWILA LANDU5E CODE BUILDING CODE: IBC 2012 AND CITY OF TUKWILA AMENDMENT MECHANICAL CODE: IMC 2012 FIRE CODE: IFC 2012 AND CITY OF TUKWILA AMENDMENT PLUMBING AND GAS CODE: IFGC 2012, UPC 2012 ENERGY CODE: WSEC 2012 AND CITY OF TUKWILA AMENDMENT tai R _ �1WIr/A review approvel la suf4ect to errors and of oval of construction documents does not € dation of any adopted Dodo or ordinance. roved field Copy and conditions 1 ackno, BF.tt! W Date: I z City Of Tukwila BUILDING DIVISION Y OF TUK CITWILA MAY 10 2016 PERMIT CENTER WET TITLE Pt SITE PLAN d: P ROJ ECT DATA -- FLOOR PLAN (MECHANICAL EQUIPMENT LOCATION DATE: 3/4/201 G SHEET )U A • �, 0 O G) 0) U ti o � 6) .oma �@ W wco� —\'Z3 Q r C9C�� J J N 06w z •• z U W = q Q U) N q PROJECT TENANT SPACE GLA: GFA 3,200 SF; 3,001 5T NET I I I REVISIONS PROPOSED USE AND OCCUPANT: GROUP A-2, RESTAURANT. OCCUPANT LOAD: 122 NEW BUSINESS OWNER: KIZUKI RAMEN * IZAKAYA RESTAURANT LLC CONTACT: BRANDON TING, 20G-313-0449 DRAWING INDEX: M I . 51TE AND TENANT FLOOR PLAN- MECHANICAL EQUIPMENT the LOCATION of a M2. HOOD SYSTEM NOTES AND CALCULATIONS, DUCTING PLAN, SECTION DETAIL A. M3. HOOD SYSTEM SECTION DETAIL B, DETAILS M4. HVAC SYSTEM DUCTING AND CALCULATIONS 51 . EXISTING ROOF FRAMING PLAN AND ROOF TOP UNITS LOCATION. 52. SECTION AND DETAILS. CODE COMPLYING: LANDU5E CITY OF TUKWILA LANDU5E CODE BUILDING CODE: IBC 2012 AND CITY OF TUKWILA AMENDMENT MECHANICAL CODE: IMC 2012 FIRE CODE: IFC 2012 AND CITY OF TUKWILA AMENDMENT PLUMBING AND GAS CODE: IFGC 2012, UPC 2012 ENERGY CODE: WSEC 2012 AND CITY OF TUKWILA AMENDMENT tai R _ �1WIr/A review approvel la suf4ect to errors and of oval of construction documents does not € dation of any adopted Dodo or ordinance. roved field Copy and conditions 1 ackno, BF.tt! W Date: I z City Of Tukwila BUILDING DIVISION Y OF TUK CITWILA MAY 10 2016 PERMIT CENTER WET TITLE Pt SITE PLAN d: P ROJ ECT DATA -- FLOOR PLAN (MECHANICAL EQUIPMENT LOCATION DATE: 3/4/201 G SHEET )U z 00 I--- 6) U) W Q J J N 06w z •• z U W = Q U) N _N PROJECT TENANT SPACE GLA: GFA 3,200 SF; 3,001 5T NET I I I REVISIONS PROPOSED USE AND OCCUPANT: GROUP A-2, RESTAURANT. OCCUPANT LOAD: 122 NEW BUSINESS OWNER: KIZUKI RAMEN * IZAKAYA RESTAURANT LLC CONTACT: BRANDON TING, 20G-313-0449 DRAWING INDEX: M I . 51TE AND TENANT FLOOR PLAN- MECHANICAL EQUIPMENT the LOCATION of a M2. HOOD SYSTEM NOTES AND CALCULATIONS, DUCTING PLAN, SECTION DETAIL A. M3. HOOD SYSTEM SECTION DETAIL B, DETAILS M4. HVAC SYSTEM DUCTING AND CALCULATIONS 51 . EXISTING ROOF FRAMING PLAN AND ROOF TOP UNITS LOCATION. 52. SECTION AND DETAILS. CODE COMPLYING: LANDU5E CITY OF TUKWILA LANDU5E CODE BUILDING CODE: IBC 2012 AND CITY OF TUKWILA AMENDMENT MECHANICAL CODE: IMC 2012 FIRE CODE: IFC 2012 AND CITY OF TUKWILA AMENDMENT PLUMBING AND GAS CODE: IFGC 2012, UPC 2012 ENERGY CODE: WSEC 2012 AND CITY OF TUKWILA AMENDMENT tai R _ �1WIr/A review approvel la suf4ect to errors and of oval of construction documents does not € dation of any adopted Dodo or ordinance. roved field Copy and conditions 1 ackno, BF.tt! W Date: I z City Of Tukwila BUILDING DIVISION Y OF TUK CITWILA MAY 10 2016 PERMIT CENTER WET TITLE Pt SITE PLAN d: P ROJ ECT DATA -- FLOOR PLAN (MECHANICAL EQUIPMENT LOCATION DATE: 3/4/201 G SHEET )U 16'& 10' TYPE -1 CANOPY COMPENSATING HOOD SYSTEM CALCULATIONS: I G' TYPE -1 HOOD EXHAUST/MAKE-UP CALCULATIONS SONES HOOD (LF) RATE (CFM/LF) REQUIRED CFM DUCT 51ZE DUCT AREA FPM EXHAUST I G' 270 4320 2x(I 0"x20") 2.78 5F 1555 MAKE-UP 90% OF EXHAUST 1 3888 3x 12110 2.37 5FI G40 I O' TYPE -1 HOOD EXHAUST/MAKE-UP CALCULATIONS SONES HOOD (LF) RATE (CFM/LF) REQUIRED CFM DUCT SIZE DUCT AREA FPM EXHAUST 10' 270 2700 1 G"x I G" 1.78 5F 1518 MAKE-UP 90% OF EXHAUST 1 2,430 1 15"X 15" 1 I .5G 5F 1555 UNDER HOOD COOKING EQUIPMENT CLASSIFIED AS HEAVY-DUTY, CAPTIVE -AIR LISTED AND TESTED HOOD EXHAUST RATING AS 270 CFM/LF FOR G00°F COOKING ON BOTH TYPE -I COMPENSATING HOOD. NOISE ITEMS SONES dAB EXHAUST BLOWER 23.0 71 .G MAKE-UP UNIT < 15.9 DUCT SIZE AREA FPM BOTH HOOD EXHAUST EXHAUST MAIN DUCT SIZE AND FPM (PROVIDE TO BOTH HOODS' TEMPERED MAKE-UP AIR) TOTAL MAIN MAIN DUCT MAIN DUCT MAIN DUCT CFM DUCT SIZE AREA FPM BOTH HOOD EXHAUST 7020 24"X24" 4.0 SF 1755 CONNECT TO MAIN DUCT (90% OF EXHAUST) 4 FIN15H AT EXPOSED SURFACE; EXHAUST PLENUM: I G GA. STEEL ALL LIQUID TIGHT WELDED CONSTRUCTION. MAKE-UP AIR MAIN DUCT SIZE AND FPM (PROVIDE TO BOTH HOODS' TEMPERED MAKE-UP AIR) EXHAUST BLOWER TOTAL MAIN MAIN DUCT MAIN DUCT 720 CFM DUCT 51ZE AREA FPM MAKE-UP AIR 6318 24"X24" 4.0 5F 1579 (90% OF EXHAUST) 4 FIN15H AT EXPOSED SURFACE; EXHAUST PLENUM: I G GA. STEEL ALL LIQUID TIGHT WELDED CONSTRUCTION. GALVANIZED STEEL ALL WELDED; FILTER BASK: SUPPLIED UNITS WEIGHTS LIST ITEMS NET WEIGHT (LB) EXHAUST BLOWER 950 MAKE-UP UNIT 1031 10' TYPE -1 HOOD (INCLUDING CONTROL BOX) 720 I G' TYPE -1 HOOD 800 20 GA. GLAV. METAL WEATHER FLASHING W/ I " AIR VENT — ONE HR SHAFT (DETAIL MK -M2). BASE TRACK W/ # 10 SHEET METAL SCREW TIGHT TO EACH CORRUGATED METAL CORRUGATION AND G" O.C. ON OTHER DIRECTION. SEAL EXHAUST DUCT PENETRATION W/ 22 GA. GLAV. SHEET METAL. CAULKING ANY GAS W/ 3M FIRE CAULKING LOCATE ALL ATTACHMENTS CORRUGATED METAL <G" FROM TRUSS PANEL ROOF DECKING-, POINTS OR PROVIDE REINFORCEMENT PER TRUSS ROOF INSULA MFR SPECIFICATIONS 12"0 MAKE-UP AIR DUCT TO I� MAKE-UP AIR PLENUM. TYP. (3) TYP. HOOD HANGER: 1-5/8"x2-7/8" P5500 UNI5TRUT TO CROSS (2) ROOF TRUSSES 0 MIN. 5/8"0 A3G (Fy=3G k50 THREADED ROD WITH LOCK NUT AND WASHER ON TOP AND BOTTOM. MIN. (4) PER UNIT. KITCHEN NON-COMBUSTIBLE CEILING L4X4X I G GA. CONTINUOUS ANGLE W/ (1) # 12 SELF -DRILLING SCREW AT EA STUD. TYP. ON HOOD BACK LEFT SIDE ON I G' HOOD. ATTACH HOOD MFR HGR TO I G DA ANGLE W/ MIN. (3) # 12 SELF DRILLING / SCREWS. PROVIDE CFS BLOCKING BETWEEN STUDS AT HOOD ATTACHMENT j - LOCATIONS. TYP. /.0 MIN. G0051 G2-43 STUDS @ I G" O.C. SEAL ANY GAP ON HOOD ' BACK WALL W/ 20 GA 22 GA. 5.5. OR CERAMIC TILE WALL FLASHING; 18" MIN. OVER HOOD ANY 0 EDGE5. TYP. 2 52 I O' MIN. TO ANY AIR INTAKE, PROPERTY LINE, SAME OR ADJACENT BUILDING. 24"X24" EXHAUST MAIN DUCT CLEAN OUT - a n MAKE-UP AIR PLENUM (4) DOUBLE STOCKPOT RANGE 0 0 10 0 10 0 1 0 0 1 G' TYPE -1 HOOD DESIGN NOTES: (1) HOODS: (4) EXHAUST DUCTS ONE I G' AND ONE 10' CAPTIVE -AIRF MODEL 5430 AIR BLOWER ND-2-P5P-F TYPE 15.5 CANOPY COMPENSATING HOOD. NO AIRFLOW BRANCH DUCTS ON EACH SIDE OF I G' HOOD: I 0"X20". CLEARANCE REQUIRED TO NON-COMBU5TOLE. UL LISTED I G' HOOD 1 of C20" j BRANCH DUCT ON 10' HOOD: I G"X I G". (#710, #7G2) AND CSA Std. C22.2 No. 1 13. 20 GA. TYPE i MAIN DUCT: 24"X24" 304 OR TYPE 430 STAINLESS STEEL CON-TRUCTION WITH # ll ALL GREASE EXHAUST DUCT SHALL BE I G GA. GALVANIZED 4 FIN15H AT EXPOSED SURFACE; EXHAUST PLENUM: I G GA. STEEL ALL LIQUID TIGHT WELDED CONSTRUCTION. GALVANIZED STEEL ALL WELDED; FILTER BASK: SUPPLIED (5) GREASE DUCT ENCLOSURE: WITH UL. CLASSIFIED 20X 12X2 REMOVABLE BAFFLE TYPE; EXISTING BUILDING CONSTRUCTION TYPE AS II -B, ALL GREASE RECEPTACLE: PROVIDE ONE REMOVABLE GREASE EXHAUST DUCT HAVE CLEARANCE 3" MIN. TO ANY RECEPTACLE. NON-COMBUSTIBLE STRUCTURE AND NOT IN ANY (2) EXHAUST FAN: CONCEALED SPACE. ONE HOUR RATED SHAFT ENCLOSURE PROVIDED GREASE CAPTIVE -AIR U5B124BD-RM BLOWER. 7020 CFM @ 2.00 DUCT PENETRATING ROOF. THE ONE HOUR SHAFT DETAIL ESP, 1 I RPM, MOTOR: 208 V, 3 PHASE, 5.0 HP. PROVIDED ON SHEET M2, DETAIL "MK" NOISE: 23 SONES (71 .G dBA), (6) MAKE-UP AIR DUCTS: WEIGHT: 727 Lb. ALL MAKE-UP DUCT SHALL BE 2G GA. MIN. GALVANIZED (3) MAKE-UP AIR UNIT: STEEL, ALL JOINT SEALED WITH LISTED DUCT SEALER. CAPTIVE -AIR A3 -D.500 -G 18, WITH MAU- I AIR HEATING UNIT, (7) EXHAUST FAN, MAKE-UP AIR DAMPER AND GAS LINE TO BE G318 CFM @ 0.750 ESP, 723 RPM, 5.0 HP, 3 PH, ELECTRICALLY INTERLOCKED; 208V.HEATING UNIT TEMPERATURE RISE: 55°F. 3 16,047 BTU INPUT, 290,763 BTU OUTPUT, REQUIRED NATURAL GAS (8) INSTALL CONTROL DEVICE TO AUTOMATICALLY ACTIVE HOOD INPUT PRESSURE: 7" - 14" WC, THEP. RISE: 55 F, SYSTEM WHENEVER COOKING OPERATIONS OCCUR. (201 2 NOISE: 15.9 50NE5 (GG.5 dBA). IMC 507.2. 1. 1) WEIGHT: 101 G LBS NOTES: 1. BUILDING ENGINEER TO APPROVE ALL ATTACHMENTS TO EXISTING STRUCTURE. 2. CONTRACTOR TO VERIFY ALL EXISTING CONDITIONS AND DIMENSIONS PRIOR TO CONSTRUCTION. ALL ROOF SEAL BY LANDLORD'S ROOFER -1 ll -611 (10' MIN. ) MAKE-UP AIR UNIT BASE FRAMING AND CONNECTION PER STRUCTURAL DETAIL 5/52 IG"XI G" EXHAUST DUCT FROM 10, HOOD CLEAN OUT 71 G X I G MAKE-UP AIR DUCT MAU ROOF CURB 1'-6" MOTORIZED DAMPER aRFLOW P\�0 I0' MIN. FROM AN" HAZARDOUS OR N+DXIOU5 CONTAMINATION SOURCES LOCATE ALL ATTACHMENTS <G" FROM TRUSS PANEL POINTS OR PROVIDE REINFORCEMENT PEP, TRUSS MFR SPECIFICATIONS I 0"X20" EXHAUST DUCT. ANY HORIZONTAL DUCT W/ 1/4:12 SLOPE MIN. TYP. (2) 24"X24" MAKE-UP MAIN AIR DUCT SEAL ANY GAP W/22GA5.5. 0 TYP. 3'-7" 6"MIN. 24" GRILL' 8 BURNER RANGE 2 BURNER W/ OVEN RANGE 00 0 0 00 0 0 ®® 0000 1i 10' HOOD FRONT ELEVATION/SECTION DETAIL SCALE: 1/2"=1'-0" V NO CLEARANCE REQUIRED FOR HOOD ATTACH TO NON-COMBUSTIBLE GWB WALL WITH 5TAINLE55 OR GAV, STEEL FLASHING PROTECTION EXTENDING 18" MIN. FORM HOOD IN ALL DIRECTIONS. (IMC SEC. 507.9.EXCEPTION) (9) GREASE DUCT LEAKAGE TEST: GREASE DUCT LEAKAGE TEST SHALL BE PERFORMED FOR THE ENTIRE DUCT AND JOINT SYSTEM PER IMC 2012 SEC. 506.3.2.5. (10) HOOD SYSTEM PERFORMANCE TEST: HOOD SYSTEM PERFORMANCE TEST SHALL BE CONDUCTED UPON COMPLETION AND BEFORE FINAL APPROVAL. THE CAPTURE AND CONYAINMENT TEST SHALL BE COMPLY WITH IMC -1 2 SEC. 507. 1 G (11) FIRE SUPPRESSION SYSTEM BY OTHERS. SHOULD PROVIDE SEPARATE PLAN FOR APPROVAL. WORK WILL CONFORM TO UL 300, NFPA9G, IBC03, IMC03 AND ALL LOCAL, STATE CODES AND INSURANCE REQUIREMENT; (12) ALL DESIGN AND WORK WILL CONFORM TO IMC -2012, UL 300, NFPA9G, ALL LOCAL, STATE CODES AND INSURANCE REQUIREMENT. --,--------------------- !7 )v I O'�_IOOD AND ! ME UP AIR PLENUM j II 51X I'�%fA _Url I� BRgNCN f CTS 24"' `�24"i v`I MAILUL� �\ G I HOOD AN Di MAKE -l1 -, ' AIR PLENUM I �/- I _ _! � I r k ' AWr ----i �--,i ---- MAKE-UP AIR I I 11 NIT ON ROOF I MAKE-UP j MAKE-UP' AIR BLOWER AIR HEATER AIRFLOW (I It 7 o 0 o 0 I G' HOOD 1 of C20" j � EXHAUST PLENUMS —1 I i IG"XI G" EXHAUST DUCT FROM 10, HOOD CLEAN OUT 71 G X I G MAKE-UP AIR DUCT MAU ROOF CURB 1'-6" MOTORIZED DAMPER aRFLOW P\�0 I0' MIN. FROM AN" HAZARDOUS OR N+DXIOU5 CONTAMINATION SOURCES LOCATE ALL ATTACHMENTS <G" FROM TRUSS PANEL POINTS OR PROVIDE REINFORCEMENT PEP, TRUSS MFR SPECIFICATIONS I 0"X20" EXHAUST DUCT. ANY HORIZONTAL DUCT W/ 1/4:12 SLOPE MIN. TYP. (2) 24"X24" MAKE-UP MAIN AIR DUCT SEAL ANY GAP W/22GA5.5. 0 TYP. 3'-7" 6"MIN. 24" GRILL' 8 BURNER RANGE 2 BURNER W/ OVEN RANGE 00 0 0 00 0 0 ®® 0000 1i 10' HOOD FRONT ELEVATION/SECTION DETAIL SCALE: 1/2"=1'-0" V NO CLEARANCE REQUIRED FOR HOOD ATTACH TO NON-COMBUSTIBLE GWB WALL WITH 5TAINLE55 OR GAV, STEEL FLASHING PROTECTION EXTENDING 18" MIN. FORM HOOD IN ALL DIRECTIONS. (IMC SEC. 507.9.EXCEPTION) (9) GREASE DUCT LEAKAGE TEST: GREASE DUCT LEAKAGE TEST SHALL BE PERFORMED FOR THE ENTIRE DUCT AND JOINT SYSTEM PER IMC 2012 SEC. 506.3.2.5. (10) HOOD SYSTEM PERFORMANCE TEST: HOOD SYSTEM PERFORMANCE TEST SHALL BE CONDUCTED UPON COMPLETION AND BEFORE FINAL APPROVAL. THE CAPTURE AND CONYAINMENT TEST SHALL BE COMPLY WITH IMC -1 2 SEC. 507. 1 G (11) FIRE SUPPRESSION SYSTEM BY OTHERS. SHOULD PROVIDE SEPARATE PLAN FOR APPROVAL. WORK WILL CONFORM TO UL 300, NFPA9G, IBC03, IMC03 AND ALL LOCAL, STATE CODES AND INSURANCE REQUIREMENT; (12) ALL DESIGN AND WORK WILL CONFORM TO IMC -2012, UL 300, NFPA9G, ALL LOCAL, STATE CODES AND INSURANCE REQUIREMENT. --,--------------------- !7 )v I O'�_IOOD AND ! ME UP AIR PLENUM j II 51X I'�%fA _Url I� BRgNCN f CTS 24"' `�24"i v`I MAILUL� �\ G I HOOD AN Di MAKE -l1 -, ' AIR PLENUM I �/- I _ _! � I r k ' AWr ----i �--,i ---- MAKE-UP AIR I I 11 NIT ON ROOF I j ' Ir I —_ II -II (I It 7 I G' HOOD 1 of C20" j EXHAUST PLENUMS —1 I i N ! ll , h 12"X22" 10' HOO[ ; ! ,�� �— C" I EXHAUST PLENUM { —a ' �I , i , , 1 0 I 0 i II� i j 0 it i I I I — I I G"X I G" I O' HOOD EXHAUST DUCT �; I h� I G"X I G" BRAND MAKE-UP AIR DCT _ - `--,, 1211 P AIR DUCT CON QCT TO FOOD -(MAKE-UP AIR PLENU !TYP. (5) y , y -------- 1�V , __ -- ---;-_ _ -- -s I 24X24 EXHAU�T5 MAIN DUC-T-, PENROOF r, I i r �I i(0't i! I� EXHAUST BLOWER ON R I O' MIN. TO ANY AIR I1 AK; OR ADJACENT 5TRUCTCRE' off/ \ I — , F777ce. L 1i ;B, , I r) 0 I' I �Lj U�J_,� ' }� �jEll ----T==--------------------- '-------✓ --------4--------- j \ REFLECT CEILING DUCTING PLAN RENEWED FOR CODE COMPLIANCE APPROVED MAY 2 7 2016 City of TukWIa BUILDING DIVISION RECEIVED CITY OF TUICWILA MAY 10 20% PERMIT CENTER �m o 04 U h o -o co c� W co I ccW coro lei Q4-� �o� � 471nt �-d �j W N W �� q qv q I - Z Q00 I- rn W :$Y J W J N U) 06� � z Lij :O Q0 O � _rCD co N REVISIONS SHEET TITLE -- HOOD SYSTEM NOTES & CALCULATIONS -- SECTION A -- DUCTING PLAN DATE: 3/4/2016 SHEET LOCATE ALL ATTACH M ENT5 <G" FROM TRUSS PANEL POINTS OR PROVIDE REINFORCEMENT PER TRU55 MFR SPECIFICATIONS 2 52 TYP. HOOD HANGER: ---�- 1-5/8"x2-7/8" (P5500) UNI5TRUT TO CROSS (2) ROOF TRUSSES MIN. 5/8110 A3G (Fy=3G ksi) THREADED ROD WITH LOCK NUT AND WASHER ON TOP AND BOTTOM. MIN. (4) PER UNIT. 20GA. 5.5. INCLO5URE PENAL 12"0 MAKE-UP AIR DUCT TYP. (2) AT 10' HOOD AND (3) ON I G' HOOD -- 1 2"x22" TO I G"x I G" EXHAUST PLENUM — 22 GA. 5.5. OR CERAMIC TILE WALL FLASHING; 18" MIN. OVER HOOD ANY G EDGES. TYP. E:3 1 G GA. GALV. TRANSACTION 24"X24" TO 24"0 ADAPTER. M I N BOTTOM SLOPE 114:12 . GREASE DUCT SHALL BE FLANGED, CA5KETED� AND BOLTED TO THE INLET OF EXHAUST FAN —� HORIZONTAL GREA5E DUCT W/ MIN. 1 /4": 1 2" 5LOPE 20 GA. GLAV. METAL WEATHER FLA5H I NG WITH 1 " AIR VENT --\ ROOF INSULATION 3 52 HORIZONTAL GREASE DUCT W/ MIN, 1/4": 1 2" SLOPE CLEAN OUT 1511x 15" BRANCH I G"x I G" MAKE-UP DUCT EXHAUST i114vw k MAKEJ-JrAIR PLENUM MAKE-UP AIR PLENUM I O' TYPE -I HOOD 6"MIN. (3) DEEP FRYER o a RANG GRILL 00 1 00 6"MIN. (2) NOODLE COOKER Ct1EAN OUT CLEAN OUT 0 I G' TYPE -I HOOD "-6"MIN. 3'-7" 10' HOOD FRONT & 16' HOOD SECTION / ELEVATION DETAIL SCALE: 1/2"=1'-0" "X24" I G GA. GALV. STEEL 1AU5T DUCT PER PLAN 8 GA. GALV. STEEL STUDS -RAMS 5/8" TYPE X GWB ON BOTH SIDE W/ FIRE TAPING MIN. AIR SPACE ALL ,OUND DUCT PRESCRIPTIVE FIRE RESISTANCE PER 2012 IBC SECTION 720, TABLE 720.1(2) MK I TYP. I HR SHAFT SECTION DETAIL 0 0 X % C� 10' MIN. TO ANY AIR INTAKE, PROPERTY LINE, SAME OR ADJACENT BUILDING. ALL ROOF SEAL BY LANDLORD'S ROOFER 2"0 DRAIN W/ GREASE TRAP VIBRATION REDUCTION DEVICES INSTALLATION PER MFR SPECS 2. y _ , _:V CORRUGATED ROOF DECKING SEAL EXHAUST DUCT PENETRATION W/ 22 GA. GLAV. SHEET METAL. CAULKING ANY GAS W/ 3M FIRE CAULKING 20"X20" MAIN MAKE-UP AIR DUCT CLEAN OUT I 0"X20" BRANCH DUCT ON EACH SIDE OF MAIN EXHAUST DUCT ROOF INSULATION BASE MTL SUPPORT FRAMING AND CONNECTIONS PER DETAIL 4/53 L4X4X I G GA. CONTINUOUS ANGLE W/ (1) # 12 SELF -DRILLING SCREW AT EA STUD. ATTACH HOOD MFR HGR TO I G GA ANGLE W/ MIN. (3) # 12 SELF DRILLING SCREWS. PROVIDE CF5 BLOCKING BETWEEN STUDS AT HOOD ATTACHMENT LOCATIONS. TYP. ON EACH HOOD BACK SIDE. MIN. 00051 G2-43 STUDS @ I G" O.C.. NON-COMBUSTIBLE WALL 22 GA. 5.5. OR CERAMIC 0 TILE WALL PLASHING; 18" MIN. OVER HOOD ANY EDGE5. TYP. E# REVIEUVED FOR .CODE COMPLIANCE APPROVED MAY 2 7 2016 I C11Y Of la BUILDING DIV iSIO Type I Hood Special Inspections Type I hoods and ducts shall be inspected by approved inspection agencies that satisfy the requirements as to qualifications and reliability. Final inspection reports from such approved agencies of the Type I hood and duct shall be accepted by the code official after the special inspections of hood and duct have been completed. (2012 IMC 107.2.4 & IMC 506.3.2.5) NOTES: 1. BUILDING ENGINEER TO APPROVE ALL ATTACHMENT5 TO EXISTING STRUCTURE. 2. CONTRACTOR TO VERIFY ALL EXISTING CONDITIONS AND DIMENSIONS PRIOR TO CONSTRUCTION. 2012 IMC 507.2.1.1 OPERATION. Type I Hood systems shall be designed and installed to automatically activate the exhaust fan whenever cooking operations occur. The activation of the exhaust fan shall occur through an interlock with the cooking appliance, by means of heat sensors or by means of other approved methods. 508.1 MAKEUP AIR. For mechanical makeup air systems, the exhaust and makeup air systems shall be electrically interlocked to insure that makeup air is provided whenever the exhaust system is in operation. Makeup air intake opening locations shall comply with Section 401.4. RECEIVED CITY OF TUKWILA MAY 10 2015 PERMIT CENTER Z Q I-- U) 00 W � <c g G Y Q t- F - N fn 06 c� Z IC) W •. p W O co co N_ 4 1 REVISIONS I SHEET TITLE 1 -- SECTION B -- DETAILS DA TE: 3/4/2016 SHEET CQ 0 U °- co � W co© Ngo W 0010 �o 6 C/) w q p "::V' w q q Z Q I-- U) 00 W � <c g G Y Q t- F - N fn 06 c� Z IC) W •. p W O co co N_ 4 1 REVISIONS I SHEET TITLE 1 -- SECTION B -- DETAILS DA TE: 3/4/2016 SHEET 51'-5" ' /v - EXISTING - ' EXISTING HVAC #I i �' 44uu i - RTU ON ROOF '::.... � .�.-- ..:..-,.-. .,- ... a.l..-_,.:-� .. ...: .:.-. ;; �.....4 .,.•.mac... '.t. ,.-�> - 4 Y `...'4 ...�„=_•1,..:. .... _ _�_ �.�: �. _- _�.:.:; _:..: = ;�.�-�.. w...r :: :; _ � .�_. .�� :_: _:.: �.. � , 28� CFM v � �� �I 2�30� CFM ! •: : • ; 2801=M n 280 CFM 280 CFM / , a � ' " 10"0 DIF. 10"0 DIF. 10"0 DIF. o �n �s n Wtr' /� �I ,� FF - ! - X,, , , �. I . L. -� GOS ROT'I IY�)IGX2I I3i 9I iARW0.FPI R �Jl I ► __! I II �� i I �>- I ' i�_� {Il it Gz IYLjC11� 9_0 ' O_ 0 C,FM I I 10" DIF.`- �I' Q„O DIF. d iII ... .. �. . . . �I'� Jill, II NEW HVAC #2 RTU ON ROOF • I'J-il �:22"X22" (I 0 12 FBF 341 O _280 CFM UL U"� ' .. • I �, - , / I I 1! ��{,�I L- _ I ;III - J� l� 280 CFM _\`_ �`'_\` _ 280 CFM 1 � •� - - - ��� - - - � - - _ �_%%% - '290 CF I 1 �.._�,�'� _'_��� � �,�� � � �,���.,��• 10"0 DIF. I O O DIF. i ( I �`.-tip- �`\ i� `� i '� i i\ T�\i: \ `yi, =1� `\�,i I I / I ✓ {"�7(I I 1U IIDI lye I ILT ! I !/.---------------------------I ;I • ; •� ! I-01 OR�IF. 300 CFM 300 CFM I 300 CFM ! FSII�TG1C r•• `'r 10"O'DIF ' 10"O IF 10"O DIF --T Y ,v IIX- Lj L --J) II �I I Ob CFM G'I DIF. 1.LL Li�G D)II Ml I ill --------------- Q ! J - c - :- .' • %' • :• I I ' I 'i { ,+ ��f . ���-�' i i � lam; ';: ' W I ,;, 1, N �-A 0 F ISTI G I' C # I FRESH AIR INTAKE O ROOF 'DIF. 00 { 300 CFM 300 CFM 300 CFM I. ✓ ' r 10"0 DIF. 10"0 DIF. 10"0 DIF. 1`�' r�_✓ _ 1 200 CFM) 150 CFM .{ GSI I' � I / F I -=- a Lj :w a u_ -, • _..--------------------- ---- --- -- ------------------------- HVAC DUCTING PLAN N SCALE: I /4" = I '-0" 62'-6" �rT�11 �7 24X24 T -BAR CEILING MOUNT RETURN AIR REGISTER T1 HVAC # I THERMAL STATE 24X24 T -BAR CEILING MOUNT DIFFUSER TZ HVAC #2 THERMAL STATE /� INSULATED FLEXIBLE DUCT, SIZE PER PLAN ~ --- 24X24 WALL MOUNT RETURN AIR REGISTER F7SUPPLY AIR C3 DOWNWARD ROUND DIFFUSER. O GWB CEILING MOUNT SUPPLY AIR DIFFUSER z RETURN AIR r•®- DUCT CONNECTOR W/ ADJUSTABLE AIR FLOW DAMPER NOTES: 1. ALL DINING AREA SUPPLY AIR DIFFUSERS HEIGHT: 1 1'-0" AFF. ALL DIFFUSERS SHALL BE ABLE TO ADJUST AIR FLOW RATE FOR AIR BALANCE PER PLAN 2. ALL RETURN AIR REGISTER SHALL MOUNTED ON SOFFIT WALL AT 14' AFF (TO THE TOP OF REGISTER) EQUIPMENT SIZING: SEE ATTACHED SOFTWARE CALCULATION REPORT PROJECT DISCRETION: PROJECT TENANT SPACE COMBINED EXISTING SPACE # 182 (1800 SF) AND 1400 SF OF EXISTING SPACE # I G2. TOTAL FLOOR AREA 3200 SF. EXISTING RETAIL TENANT SPACE # 182 (1800 5F) HAVE ONE G.8 TON H N VAC UNIT. THIS UNIT WILL REMAIN ANDR EPLACE ANDECONFI F R GURE DUCTS AND DI FUSERS LOCATION WITHIN C THE SAME AREA. PROJECT WILL ADDING ONE HVAC UNIT (UNIT #2) IN ADDITIONAL 1400 SF. THIS AREA WILL HAVE RESTAURANT ', OPEN KITCHEN AND SEATING AREA. WITH RADIO HEAT TRANSFER, CALCULATED NEW UNIT SHALL BE 9 TONS. PROVIDE WITH AN 8.5 TONS TRANS YSC 102AD UNIT. HVAC SYSTEM REQUIREMENTS NOTES: 1. HVAC SYSTEM AND INSTALLATION SHALL COMPLY WITH 2012 WASHINGTON STATE ENERGY CODE SEC. C403. 2. CONDITIONED AREA OCCUPANT LOAD IS 187, REQUIRED MIN. O.S.A.: 2740 CFM (SEE ABOVE CALCULATIONS). PROVIDE WITH (2) 5 TON UNIT WITH TOTAL 3,500 CFM CAPACITY ( 1750 CFM PER UNIT) 3. SYSTEM DUCTS SHALL BE CLASSIFIED AS LOW-PRESSURE DUCT SYSTEM (STATIC PRESSURE LESS THEN OR EQUAL TO 2" W.G.). ALL DUCT JOINTS, SEAMS AND CONNECTIONS SHALL BE SECURELY FASTENED AND SEALED WITH APPROVED MASTIC DUCT SEALER. ALL DUCT AND PIPE INSULATION SHALL BE R -G MIN. DUCT AND PIPE INSTALLATION AND SEAL SHALL BE COMPLY WITH SEC. C403.2.7 4. HVAC SYSTEM SCHEDULE: (OCCUPANCY GROUP A-2) ALL 7 DAYS 9:00PM -- 9:00 AM SYSTEM OFF; 9:00 AM -- 9:OOPM SYSTEM ON. 5. HVAC SYSTEM CONTROL PER 2012 WSEC C403.2.4 G. DEMAND CONTROLLED VENTILATION (DCV) (C403.2.5. 0: PROVIDED BY AIR -SIDE ECONOMIZERS 7. ALL SUPPLY AIR DIFFUSERS SHALL EQUIP WITH ADJUSTABLE DAMPER OR LOUVER TO OBTAIN THE EXHAUST RATE PER PLAN. (5. ALL OTHER RELATED PERMIT (ELECTRICAL, GAS LINE, FIRE ALARM AND ANY OTHER PERMIT REQUIRED FOR SYSTEM INSTALLATION ) SHALL BE APPLIED SEPARATELY BY CONTRACTORS. 9. CONNECT BUILDING FIRE ALARM TO NEW HVAC UNIT. MOTOR EFFICIENCY: MOTORS FOR FANS THAT ARE 1/ 12 HP OR GREATER AND LESS THAN I HP SHALL BE ELECTRONICALLY COMMUTATED MOTORS OR SHALL HAVE A MINIMUM MOTOR EFFICIENCY OF 70 PERCENT (WSEC C403.2.10.3) REQUIRED MIN. EFFICENCY: 13.00 SEER (WSEC TABLE C403.2.3(1)C, <G5,000 BTUH CONTROL SEQUENCES: GENERAL OPERATING 5CHEDULE5 SHALL BE CONFIRMED AND ADJUSTED AS NECESSARY. ALL SETPOINTS SHALL BE ADJUSTABLE. OPTIMUM START-UP: SYSTEM SHALL BE STARTED TO ESTABLISH SPACE TEMPERATURE PRIOR TO OCCUPANCY. SCHEDULES SHALL BE CONFIRMED AND ADJUSTED TO CLIENT'S REQUIREMENTS. DURING THE OPTIMUM START-UP PROCESS, DAMPERS SHALL REMAIN IN FULL RE -CIRCULATION POSITION. OCCUPIED MODE: BASED ON TIME OF DAY SCHEDULE. SYSTEM SHALL MAINTAIN MINIMUM OUTDOOR AIR VENTILATION CFM DURING OCCUPIED MODE ON CALL FOR HEATING, MINIMUM OUTDOOR VENTILATION CFM SHALL BE MAINTAINED. GAS FIRED SECTION SHALL BE ENERGIZED AS REQUIRED TO MEET 5ETPOINT. UNOCCUPIED MODE: RTU SHALL BE OFF. UPON FALL IN SPACE TEMPERATURE BELOW 55° F, SYSTEM SHALL BE STARTED WITH DAMPER IN FULL RE -CIRCULATION POSITION. SYSTEM SHALL OPERATE UNTIL SPACE_ TEMPERATURE EXCEEDS GOOF. EXISTING HVAC (UNIT #1) NOTES: EXISTING 1800 5F TENANT SPACE EQUIPPED WITH ONE G.8 TONS HVAC UNIT, MADE BY CARRIER, RTU MODEL 38AK5008 / INDOOR AHU MODEL 044RM008. PROJECT WILL RE -USE THIS EXISTING UNIT ON EXISTING 1800 SF SOUTH SEATING AREA AND RE5TROOM5. ALL DUCT WORK ON THIS UNIT WILL BE CHANGED SINCE PROJECT WILL REMOVE EXISTING T -BAR CEILING. EXISTING RETURN AIR WAS THROUGH THE SPACE ABOVE CEILING, FOR MAKE EXISTING SYSTEM EFFICIENCY, PROJECT WILL INSTALL RETURN AIR DUCT ON EXISTING ECONOMIZER ACCORDING TO NEW SPACE CONFIGURATION PER PLAN. RTU MADE & MODEL. CARRIER, 38AK5008--501-- (G.8 TONS) POWER: 208 / 230V, 3 O, 42.5 AMPS (FLA) (MOCP 50) INDOOR AHU: MODEL: 40RUA'08, AIR FLOW: 3,000 CFM, POWER: FAN MOTOR 208/230V 3PH, 2.4 HP. 5.2 FLA, (OVERCURRENT PROTECTION: 15 AMPS) HEATER: 208V 3PH 31.3 AMPS (FLA), (OVERCURRENT PROTECTION: 50 AMPS) ECONOMIZER: 100%, MANUFACTORY BUILD ON AHU NEW HVAC UNIT #2 GENERAL DATA UNIT FUNCTION: 8.5 TON, DX COOLING, GAS HEATING MADE & MODEL: TRANS, YSC 102F3E0'**DOOOA2 POWER /BTU: 208V, 3 O, 43.3AMP (MCA), [MAXIMUM BREAKER SIZE: 50 AMPS (MOCP)] NATURAL GAS INPUT: 120,000 BTU, GAS CONNECTION: 1/2" / 3/4" NPT; 4.5 / 14.0 PSI MAJOR MOTORS DATA: COMPRESSOR: 480V, 3PH, 3.7HP, 7.1 RLA CONDENSER FAN MOTOR: 48OV, I PH, 3/4HP, 2.8 FLA EVAPORATOR FAN MOTOR: 480V 3PH, 2 HP, 3.G FLA REFRIGERANT TYPE: R-4 I OA, 4.7 POUNDS ECONOMIZER: 100%, MANUFACTORY BUILD IN ROOF UNIT COOLING PERFORMANCE: GROSS CAPACITY: 102.0 MBH EER: 1 1 .2 NOMINAL AIRFLOW: 3400 CFM IEER: 13.0 SYSTEM POWER: 8.G2 KW HEATING PERFORMANCE: INPUT: 120 MBH (3 BURNER) OUTPUT: 9G MBH STEADY STATE EFFICIENCY: 80% OUTDOOR SOUND RATING: 88 dBA ROOF OPENINGS: SUPPLY AIR OPENING: 35"X 19" MIN. RETURN AIR OPENING: 35"X 19" MIN. SEE ATTACHED SPECIFICATIONS FOR OTHER DETAILS KIZUKI RESTAURANT REQUIRED MIN. VENTILATION AREA (NETSF) I G O SPIRAL (I 29 i1 FP } I I G,'�C2I �" (, I X27 FFNI) DINING AREA 1518 70/1000 7.5 0.18 1,070 24X24 T -BAR CEILING MOUNT RETURN AIR REGISTER T1 HVAC # I THERMAL STATE 24X24 T -BAR CEILING MOUNT DIFFUSER TZ HVAC #2 THERMAL STATE /� INSULATED FLEXIBLE DUCT, SIZE PER PLAN ~ --- 24X24 WALL MOUNT RETURN AIR REGISTER F7SUPPLY AIR C3 DOWNWARD ROUND DIFFUSER. O GWB CEILING MOUNT SUPPLY AIR DIFFUSER z RETURN AIR r•®- DUCT CONNECTOR W/ ADJUSTABLE AIR FLOW DAMPER NOTES: 1. ALL DINING AREA SUPPLY AIR DIFFUSERS HEIGHT: 1 1'-0" AFF. ALL DIFFUSERS SHALL BE ABLE TO ADJUST AIR FLOW RATE FOR AIR BALANCE PER PLAN 2. ALL RETURN AIR REGISTER SHALL MOUNTED ON SOFFIT WALL AT 14' AFF (TO THE TOP OF REGISTER) EQUIPMENT SIZING: SEE ATTACHED SOFTWARE CALCULATION REPORT PROJECT DISCRETION: PROJECT TENANT SPACE COMBINED EXISTING SPACE # 182 (1800 SF) AND 1400 SF OF EXISTING SPACE # I G2. TOTAL FLOOR AREA 3200 SF. EXISTING RETAIL TENANT SPACE # 182 (1800 5F) HAVE ONE G.8 TON H N VAC UNIT. THIS UNIT WILL REMAIN ANDR EPLACE ANDECONFI F R GURE DUCTS AND DI FUSERS LOCATION WITHIN C THE SAME AREA. PROJECT WILL ADDING ONE HVAC UNIT (UNIT #2) IN ADDITIONAL 1400 SF. THIS AREA WILL HAVE RESTAURANT ', OPEN KITCHEN AND SEATING AREA. WITH RADIO HEAT TRANSFER, CALCULATED NEW UNIT SHALL BE 9 TONS. PROVIDE WITH AN 8.5 TONS TRANS YSC 102AD UNIT. HVAC SYSTEM REQUIREMENTS NOTES: 1. HVAC SYSTEM AND INSTALLATION SHALL COMPLY WITH 2012 WASHINGTON STATE ENERGY CODE SEC. C403. 2. CONDITIONED AREA OCCUPANT LOAD IS 187, REQUIRED MIN. O.S.A.: 2740 CFM (SEE ABOVE CALCULATIONS). PROVIDE WITH (2) 5 TON UNIT WITH TOTAL 3,500 CFM CAPACITY ( 1750 CFM PER UNIT) 3. SYSTEM DUCTS SHALL BE CLASSIFIED AS LOW-PRESSURE DUCT SYSTEM (STATIC PRESSURE LESS THEN OR EQUAL TO 2" W.G.). ALL DUCT JOINTS, SEAMS AND CONNECTIONS SHALL BE SECURELY FASTENED AND SEALED WITH APPROVED MASTIC DUCT SEALER. ALL DUCT AND PIPE INSULATION SHALL BE R -G MIN. DUCT AND PIPE INSTALLATION AND SEAL SHALL BE COMPLY WITH SEC. C403.2.7 4. HVAC SYSTEM SCHEDULE: (OCCUPANCY GROUP A-2) ALL 7 DAYS 9:00PM -- 9:00 AM SYSTEM OFF; 9:00 AM -- 9:OOPM SYSTEM ON. 5. HVAC SYSTEM CONTROL PER 2012 WSEC C403.2.4 G. DEMAND CONTROLLED VENTILATION (DCV) (C403.2.5. 0: PROVIDED BY AIR -SIDE ECONOMIZERS 7. ALL SUPPLY AIR DIFFUSERS SHALL EQUIP WITH ADJUSTABLE DAMPER OR LOUVER TO OBTAIN THE EXHAUST RATE PER PLAN. (5. ALL OTHER RELATED PERMIT (ELECTRICAL, GAS LINE, FIRE ALARM AND ANY OTHER PERMIT REQUIRED FOR SYSTEM INSTALLATION ) SHALL BE APPLIED SEPARATELY BY CONTRACTORS. 9. CONNECT BUILDING FIRE ALARM TO NEW HVAC UNIT. MOTOR EFFICIENCY: MOTORS FOR FANS THAT ARE 1/ 12 HP OR GREATER AND LESS THAN I HP SHALL BE ELECTRONICALLY COMMUTATED MOTORS OR SHALL HAVE A MINIMUM MOTOR EFFICIENCY OF 70 PERCENT (WSEC C403.2.10.3) REQUIRED MIN. EFFICENCY: 13.00 SEER (WSEC TABLE C403.2.3(1)C, <G5,000 BTUH CONTROL SEQUENCES: GENERAL OPERATING 5CHEDULE5 SHALL BE CONFIRMED AND ADJUSTED AS NECESSARY. ALL SETPOINTS SHALL BE ADJUSTABLE. OPTIMUM START-UP: SYSTEM SHALL BE STARTED TO ESTABLISH SPACE TEMPERATURE PRIOR TO OCCUPANCY. SCHEDULES SHALL BE CONFIRMED AND ADJUSTED TO CLIENT'S REQUIREMENTS. DURING THE OPTIMUM START-UP PROCESS, DAMPERS SHALL REMAIN IN FULL RE -CIRCULATION POSITION. OCCUPIED MODE: BASED ON TIME OF DAY SCHEDULE. SYSTEM SHALL MAINTAIN MINIMUM OUTDOOR AIR VENTILATION CFM DURING OCCUPIED MODE ON CALL FOR HEATING, MINIMUM OUTDOOR VENTILATION CFM SHALL BE MAINTAINED. GAS FIRED SECTION SHALL BE ENERGIZED AS REQUIRED TO MEET 5ETPOINT. UNOCCUPIED MODE: RTU SHALL BE OFF. UPON FALL IN SPACE TEMPERATURE BELOW 55° F, SYSTEM SHALL BE STARTED WITH DAMPER IN FULL RE -CIRCULATION POSITION. SYSTEM SHALL OPERATE UNTIL SPACE_ TEMPERATURE EXCEEDS GOOF. EXISTING HVAC (UNIT #1) NOTES: EXISTING 1800 5F TENANT SPACE EQUIPPED WITH ONE G.8 TONS HVAC UNIT, MADE BY CARRIER, RTU MODEL 38AK5008 / INDOOR AHU MODEL 044RM008. PROJECT WILL RE -USE THIS EXISTING UNIT ON EXISTING 1800 SF SOUTH SEATING AREA AND RE5TROOM5. ALL DUCT WORK ON THIS UNIT WILL BE CHANGED SINCE PROJECT WILL REMOVE EXISTING T -BAR CEILING. EXISTING RETURN AIR WAS THROUGH THE SPACE ABOVE CEILING, FOR MAKE EXISTING SYSTEM EFFICIENCY, PROJECT WILL INSTALL RETURN AIR DUCT ON EXISTING ECONOMIZER ACCORDING TO NEW SPACE CONFIGURATION PER PLAN. RTU MADE & MODEL. CARRIER, 38AK5008--501-- (G.8 TONS) POWER: 208 / 230V, 3 O, 42.5 AMPS (FLA) (MOCP 50) INDOOR AHU: MODEL: 40RUA'08, AIR FLOW: 3,000 CFM, POWER: FAN MOTOR 208/230V 3PH, 2.4 HP. 5.2 FLA, (OVERCURRENT PROTECTION: 15 AMPS) HEATER: 208V 3PH 31.3 AMPS (FLA), (OVERCURRENT PROTECTION: 50 AMPS) ECONOMIZER: 100%, MANUFACTORY BUILD ON AHU NEW HVAC UNIT #2 GENERAL DATA UNIT FUNCTION: 8.5 TON, DX COOLING, GAS HEATING MADE & MODEL: TRANS, YSC 102F3E0'**DOOOA2 POWER /BTU: 208V, 3 O, 43.3AMP (MCA), [MAXIMUM BREAKER SIZE: 50 AMPS (MOCP)] NATURAL GAS INPUT: 120,000 BTU, GAS CONNECTION: 1/2" / 3/4" NPT; 4.5 / 14.0 PSI MAJOR MOTORS DATA: COMPRESSOR: 480V, 3PH, 3.7HP, 7.1 RLA CONDENSER FAN MOTOR: 48OV, I PH, 3/4HP, 2.8 FLA EVAPORATOR FAN MOTOR: 480V 3PH, 2 HP, 3.G FLA REFRIGERANT TYPE: R-4 I OA, 4.7 POUNDS ECONOMIZER: 100%, MANUFACTORY BUILD IN ROOF UNIT COOLING PERFORMANCE: GROSS CAPACITY: 102.0 MBH EER: 1 1 .2 NOMINAL AIRFLOW: 3400 CFM IEER: 13.0 SYSTEM POWER: 8.G2 KW HEATING PERFORMANCE: INPUT: 120 MBH (3 BURNER) OUTPUT: 9G MBH STEADY STATE EFFICIENCY: 80% OUTDOOR SOUND RATING: 88 dBA ROOF OPENINGS: SUPPLY AIR OPENING: 35"X 19" MIN. RETURN AIR OPENING: 35"X 19" MIN. SEE ATTACHED SPECIFICATIONS FOR OTHER DETAILS KIZUKI RESTAURANT REQUIRED MIN. VENTILATION AREA (NETSF) BREATHING OCCUPANT BREATHING RATE (CFM) AREA VENT RATE (CFM) EXHAUST RATE (CFM/LT) REQUIRED VENT (CFM) DINING AREA 1518 70/1000 7.5 0.18 1,070 HALLWAY 41870/1000 7.5 0.18 � 295 RESTROOM 236 0.714 169 KITCHEN AND SERVICE AREA 829 d F- 0.7 580 SUB -TOTAL 3001 U w ozs 2,114 WITH 0.8 EFFECTIVENESS (IMC TABLE 403.1.2) z W W 5 � q 2,536 REVIEWED FOR Ct�C�E� QED D A MAY 27 2016 City of Tuk Ita j3u,wDtNG r3,I 'i1S0N RECEIVED CITY OF TUKWILA MAY 10 2016 PERMIT CENTER 1-- Z oo 0 U d ti 00 00 v W � I N00Wco� I� �o�� d F- � J U w ozs w � z W W 5 � q 1-- Z d °° 00 vJ W I� z d F- N J U ozs w z z W W 5 = _ b N _ 00 N se REVISIONS SHEET TITLE -- HVAC DUCTING CEILING DUCTING PLAN -- SYSTEM SPECS -- MIN. VENT CAL. DATE: 3/4/2016 SKEET HOOD SYSTEM EQUIPMENT WEIGHTS LIST ITEMS NET WEIGHT (LB) EXHA T US BLOWER 950 MAKE-UP UNIT 1031 1 O' TYPE -1 HOOD (INCLUDING CONTROL BOX) 720 i G' TYPE -I HOOD 1 800 253 Lb 4'-54" 23G Lb 4'-3" T-4111 2 r CLXN TRANE YHC 1021' (I 03G Lb) 205 Lb 341 Lb NEW HVAC (#2) UNIT CORNER WEIGHT AND HEIGHT I I ' I 11 OTHER ROOF EQUIPMENT 9 k� (CARRIER 38AK5008) i 5-6 I SUPPORTED WITH ADDITIONAL 1 1 STRUCTURE ABOVE ROOF —�--- — — — — — — -1 — — — — — — — — — — — vx— 1 0120 O�O lfl 1 i I ^,r---; -� 1 BOTTOM CHORD. CONNETONS\ 1 ! 51-611i j I PIER DETAIL 2/52. TYP. 170 o I ��� I ?' JL =� I!!I' n - o 1! 1. i 11� dF), 5��„ (� ; , I I 4 10 !! 6 �' � I � r L ROO q HOOD IIi LJ I51_6,1 � 1 Al j 5'-6" �i-- �-T7777_ --i ! 1Li J HOolb 5Y5#M MA1 E -UP AIR 5'-6" UNIT (10 1313 Lb) �I )0" — �� 1 E �p -- --- - --------5'-6" 5'-6" HANGING -( POINT. TYP. 1 I :-77 { o. I l I a " 1 4822 L` I -i_1 I , �� �----------------\ I 3' ' 7((=2,' ------ --- ------ - 1-3'--1-"----- IIII 11111/K,I ( *ice'' \I ���_/ I✓ 1 i co I N i 27'-7" IC 1021• EXISTING LANDLORD PROVIDED ROOF \t 1 z �1 J 0 01 Q w cl)1 J 16-5" Lu N FIKU55: 16H5 @ 5-5" O.C. UNLESS NOTED z al NEW HVAC (#2) RTU, (I 03 G Lb) 't1 21 IN N 14822 SEE ROC F CURB AND BASE 1 fRAMING DETAIL G/52 I I HA — I ' I I ; NIS-b4C?OF CURB A5E FRAMIG 1 i o HOOD SYSTEM ACL=5/S2 - EXHAU5T FAN Rt I t 5EE BASE FRAMING � -- --- } i I DETAIL 4/521 IA 41 -- <, v-! – ,- L -ALL JOI G�t1 55T-" O.C. UNL SS NOTE ilk 1 t I I 1 `� � ` ✓ +i_i I , 1--7- 12E319 '-j 4822 MAIN 5 EL J t 4 0 NOTES: 1. BUILDING ENGINEER TO APPROVE ALL ATTACHMENTS TO EXISTING STRUCTURE. 2. CONTRACTOR TO VERIFY ALL EXISTING CONDITIONS AND DIMENSIONS PRIOR TO CONSTRUCTION. ROOF PLAN N SCALE: I /4" = E M Ok C LUMN. .1413 2 EXISTING ROOF STRUCTURAL PER 1968 STRUCTURAL PLAN SHEET 51 G I � 1 N I RECEIVED CITY OF TUKWILtA HAY 10 2016 PERMIT CENTER REVISIONS SHEET TITLE ALL EQUIPMENT ON ROOF FRAMING PLAN DATE: 3i4i2016 SHEET S1 z Qoo c 00 wco p '123 fY cfl p co � Ot' g Y �<-- z Prr, � N q °,5 REVISIONS SHEET TITLE ALL EQUIPMENT ON ROOF FRAMING PLAN DATE: 3i4i2016 SHEET S1 z Qoo W Ot' g Y �<-- z Q � N °,5 O z O Z w Lam'! Wc _ G O N _ co 0 N 041 v REVISIONS SHEET TITLE ALL EQUIPMENT ON ROOF FRAMING PLAN DATE: 3i4i2016 SHEET S1 VIBRATION ISOLATORS INSTALLATION AND ATTACHMENT PER MFR SPECIFICATION. TYP. (G) 5"X54" I G GA. GLAV. SHEET METAL EXHAUST BLOWER W/ SEALANT ABOVE ADDITIONAL 18 1/2" 20 1/2" ROOFING MATERIAL ROOF° ROOFING (BY BUILDING ROOFER) L�_ INSULATION ° 2 X2 X 1/4" PL WASHER TOP BOTTOM 5/8"0 A307 BOLT P.T. GXG METAL SPACER (FIELD MEASURE AND SELECT) (4) SDS 114"0 X 3.5" EVENLY PLACE CORRUGATED METAL ROOF -6" (24" O.C. MAX.) THROUGH DECKING DECKING MIN. TO P.T. GXG. TYP. ON EACH P.T.GXG. EXISTING ROOF TRUSS TOP TYP. 2"X2"X 1/4" PL WASHER TOP BOTTOM CHORD i (02:L___ re w Q -H Lu 0 J W It i 3 4 1_33�� K -mom z V w 0 ROOF TRUSS UNDER A307 BOLT W/ 2"X2"X 114" k5HER TOP � BOTTOM AT 'ING JOIST CONN. TYP. (2) ACH P.T. GXG (4) SDS 114"0 X 3.5" EVENLY PLACED (24" O.C. MAX.) AND STAGGERED THROUGH DECKING TO P.T. GXG. ON UNDERSIDE. TYP. EACH GXG 70-70 F TRUSS UNDER 141 EXHAUST FAN BASE FRAMING AND CONNECTIONS (SCALE: I"= P-0") 12' EVAPORATOR 51-I 7'_6" BOX HEIGHT: 7' -Li =9 0" MAKE-UP AIR UNIT MAKE-UP AIR UNIT METAL ROOF CURB b N -ROOFING (BY BUILDING ROOFER) SPOT WELD BOTTOM FLANGE TO SUPPORT FRAME @ 4" O.C. ALL AROUND REFILL ROOF INSULATION 5/8"O A307 BOLT METAL SPACER (FIELD MEASURE AND SELECT) jh � CORRUGATED METAL ROOF 4" 2'-102" DECKING 2"X2"X 1/4" WASHER EXISTING ROOF TRUSS TOP L3X3X I /4 ANGLE STEEL CHORD Lu U Qun rbN r I� ( CV 1 � z iI � SZ in w Q C) w D Lu LL Lu Lu N w z X co J 3",<3"X 114" ANGLE STEEL L3X3X 114 ANGLE STEEL 3/ 1 G' TYP 5)8"0. ON CENTER. MIN. (4) # 12 SELF -DRILLING SCREW EVENLY PLACED (24" O.C. MAX.) THROUGH ANGLE Lu STEEL TO DECKING. TYP. EACH SIDE w 5/45"0 A307 BOLT TYP. (G) ---------------------------------- L3X3X 1/4 ANGLE STEEL IX IJ 3"X3"X 114" ANGLE STEEL 2" 51 MAKE-UP AIR UNIT BASE FRAMING AND CONNECTIONS (SCALE: I"= I'-01 NOTES: CONTRACTOR SHALL NOT DRILL, WELD OR ANY OTHER DAMAGE ON ANY EXISTING STRUCTURAL BEAM, TRUSS, COLUMN OR ANY OTHER STRUCTURAL MEMBERS. WEIGHT LIST: 1. WALK-IN COOLER WEIGHT: 800 Lb 2. CONDENSING UNIT WEIGHT: 87 Lb 3. REMOTE COMPRESSOR UNIT WEIGHT: 180 Ib (COMPRESSOR UNIT ON ROOF AT EXISTING LANDLORD PROVIDED EQUIPMENT PLACEMENT AREA ON ROOF (20' -±-TO WALK-IN COOLER) ALUMINUM SHEATHING BOTH SIDE 1.5% 1.5"X3/1 G" ANGLE STEEL W/ (2) EVAPORATOR #8 2" SELF -DRILLING SCREW TO 7' (LET 140, 29 Lb) WALK-IN COOLER BASE FRAME * (1) 114"0 x 1-3/4" H I LTI KWI K CON 11 G" SLAB ON GRADE CONCRETE SCREW TO EXISTING SLAB. 4' O.C. MAX, MIN. (3) PER SIDE. TYP. S1-1 FLOOR CONNECTION AT COOLER 1 WALK-IN COOLER MOUNTING DETAIL v EXISTING TRUSS 800 5200-54 MTL STUD FLAT TO ROOF CORRUGATED MTL SHEATHING UNDER SID W/ (2) # 10 SCREW ON EACH CORRUGATE, TYP. ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® .1-24" MIN. 24" MIN.4 Z/ Q c) ROOF CUT FOR DUCT INSTALLATION Lu (3G"X3G" MAX.) 0 ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® ® EXISTING TRUSS TYP. ROOF CUT BLOCKING AND NAILING 1-5/8"x2-7/8" -P5500 UNISTRUT U I �� a- �L w Q o w 0 Lu HVAC RTU (TRANE YSC 102F3', (5.5 TONS UNIT) WEIGHT: 1035 Lb HVAC UNIT METAL ROOF C57;7-T" 3'-10" 2"X2"X 114" WASH L3X3X 1/4 ANGLE STEEL �SPOT WELD BOTTOM FLANGE TO SUPPORT FRAME @ 4" O.C. ALL AROUND ROOFING (BY BUILDING ROOFER) REFILL ROOF INSULATION 5/8 O A307 BOLT METAL SPACER (FIELD MEASURE AND SELECT) CORRUGATED METAL ROOF DECKING EXISTING ROOF TRUSS TOP CHORD 3"X3"X 1/4" ANGLE STEEL 5/8" O. ON CENTER. ' i L3X3X 114 ANGLE STEEL 3/ 1 Gil , 6'-8" MIN. (4) # I SELF -DRILLING SCREW EVENLY PLACED (24 O.C. MAX.) THROUGH ANGLE STEEL TO D CKING. TYP. EACH SIDE 5/8"0 A307 BOL TYP. (G) " L3X3X 1/4 ANGLE STEEL -- - - - - - -@ - - - - 3"X3"X 114" ANGLE STEEL •k 6'-11" 7'-32" �6 HVAC RTU BASE FRAMING AND CONNECTIONS (SCALE: III= I' -O") ROOF TRUSS BOTTOM CHORD �- P278G BEAM CLAMP W/ U -BOLT EACH SIDE ------------- G" MIN. 2-7/8" NO DRILL OR WELD ON EXISTING TRUSS. TYP. 2 TYP. UNI -STRUT CONNECT TO ROOF TRUSS --------- ---------- 1-5/811x2-7/8" P5500 UNISTRUT ---------------------- RE1IrEWED FOR rms COMPLIANCE APPROVED MAY 2 7 2016 City of Tukwila 141 III 10ING DIVISION4 STEEL BEAM P278G BEAM CLAMP W/ U -BOLT EACH SIDE 2-7/8" NO DRILL OR WELD ON EXISTING TRUSS. TYP. 3 TYP. UNI -STRUT CONNECT TO ROOF BEAM REVISIONS SHEET TITLE STRUCTURAL DETAILS DATE: 3/4/2016 SHEET 00 0 U ti rj E-, �:tco 5 a �W coo© I00 w 00cz C4-\ -d 00 0. �cn i-< 0) w WS N � � q Q J q w� q REVISIONS SHEET TITLE STRUCTURAL DETAILS DATE: 3/4/2016 SHEET z J co co i-< 0) W WS � � g Q J � J N 06 0� w W z _ Q o N co r REVISIONS SHEET TITLE STRUCTURAL DETAILS DATE: 3/4/2016 SHEET