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Permit M18-0169 - STONEWAY ROOFING SUPPLY - HVAC
STONEWAY ROOFING SUPPLY 581 STRANDER BLVD M18-0169 Parcel No: Address: Project Name: 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.eov MECHANICAL PERMIT 0223300010 Permit Number: 581 STRANDER BLVD STONEWAY ROOFING SUPPLY Issue Date: Permit Expires On: M 18-0169 1/3/2019 7/2/2019 Owner: Name: Address: Contact Person: Name: Address: Contractor: Name: Address: License No: Lender: Name: Address: WESTERN B NORTHWEST WA LLC PO BOX 460169 C/0 RYAN, HOUSTON, WA, 77056 JOHNNY SHI 581 STRANDER BLVD , TUKWILA, WA, 98188 ABSOLUTE CUSTOM BUILDERS 16813 20TH AVE W , LYNNWOOD, WA, 98037 ABSOLCB893CQ Phone: (206) 396-0047 Phone: (425) 931-1995 Expiration Date: 3/2/2019 DESCRIPTION OF WORK: INSTALL HVAC FOR UPPER OFFICE AND NEW SHOWROOM AND MANAGER OFFICE. Valuation of Work: $25,000.00 Type of Work: NEW Fuel type: GAS Fees Collected: $546.56 Electrical Service Provided by: PUGET SOUND ENERGY Water District: TUKWILA Sewer District: TUKWILA Current Codes adopted by the City of Tukwila: International Building Code Edition: International Residential Code Edition: International Mechanical Code Edition: Uniform Plumbing Code Edition: International Fuel Gas Code: Permit Center Authorized Signature: 2015 2015 2015 2015 2015 National Electrical Code: WA Cities Electrical Code: WAC 296-46B: WA State Energy Code: AL 2017 2017 2017 2015 Date: [-1—( I 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 p state or local law development per Signature: Print Name: it does g co presume to give authority to violate or cancel the provisions of any other ction or the performance of work. I am authorized to sign and obtain this e conditions attached to this permit. Date: 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: 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. 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: Manufacturers installation instructions shall be available on the job site at the time of inspection. PERMIT INSPECTIONS REQUIRED Permit Inspection Line: (206) 438-9350 1800 MECHANICAL FINAL 0609 PIPE/DUCT INSULATION 0701 ROUGH -IN MECHANICAL CITY OF TUKrJA Community Development Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 http://www.TukwilaWA.gov Mechanical Permit 6169 Project No. Date Application Accepted: 1a 11�� or Date Application Expires: (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** SITE LOCATION D �/ King Co Assessor's Tax No.: Site Address: ff ( Sgrder 8,',d 4,4410 lc✓_f1 Suite Number: Tenant Name: &fly .4-ifitt PROPERTY OWNER Name: (A/ ,5 14 - Address: c j(A. G...„-- (W Name: Phone: -�6 — 39.,__c) b Li€�x: ff Email: s11 r ,,e LAAckyire-c)c" -,ca, Address: State: City: State: Zip: CONTACT PERSON — person receiving all project communication Name: (A/ ,5 14 - Address: c j(A. G...„-- (W City: —7:-/ kms' /State: Zip: a/�jg� G Phone: -�6 — 39.,__c) b Li€�x: ff Email: s11 r ,,e LAAckyire-c)c" -,ca, if New Tenant: MECHANICAL CONTRACTOR INFORMATION Company Name: Address: City: State: Zip: Phone: Fax: Contr Reg No.: Exp Date: Tukwila Business License No.: 6t,A;/Ie- rld (CYC C �/:- �' 4/1 Seiee �/ /fits .4;{� Valuation of project (contractor's bid price): $ �� (9-6 Describe the scope of work in detail: //1..3X/( //14 Use: Residential: New ❑ Replacement ❑ Commercial: New ( Replacement Fuel Type: Electric ❑ Gas 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 Oak Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace <100k btu 0 Furnace >100k btu 0 Floor furnace 0 Suspended/wall/floor mounted heater V Appliance vent C) Repair or addition to heat/refrig/cooling system 0 Air handling unit R <10,000 cfm V Unit Type Qty Air handling unit >10,000 cfm �1 V Evaporator cooler 0 Ventilation fan connected to single duct 3 Ventilation system00 D Hood and duct C) Incinerator — domestic a Incinerator — comm/industrial 1 p Unit Type Qty Fire damper Residential, Nighttime Diffuser l Thermostat 3 Wood/gas stove D Emergency generator d Other mechanical equipment 47 dB(A) fi°4- i'PM-- ``"' h r ,i, hcvn-51 t is 1 46 EAv1, I-- Boiler/Compressor Qty 0-3 hp/100,000 btu 3-15 hp/500,000 btu 15-30 hp/1,000,000 btu 0 30-50 hp/1,750,000 btu 50+ hp/1,750,000 btu 0 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 *Daytjm 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) A few sounds are exempt from the noise code, including: • Warning devices; • Construction and property maintenance during the daytime hours (lam-lOpm); • 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 OW NEE OR AU ORIZED AGENT: Signature: fv Print Name: E L4 -1 a4AC< Date: /Z Day Telephone: ` ��3 fq,S Mailing Address: City State Zip H:\Applications\Forms-Applications On Line\2016 Applications\Mechanical Permit Application Revised 1-4-16.docx Revised: January 2016 bh Page 2 of 2 Cash Register Receipt City of Tukwila DESCRIPTIONS PermitTRAK I ACCOUNT I QUANTITY PAID $72.10 M18-0169 Address: 581 STRANDER BLVD Apn: 0223300010 $72.10 Credit Card Fee $2.10 Credit Card Fee R000.369.908.00.00 0.00 $2.10 MECHANICAL $70.00 ADDITIONAL PLAN REVIEW TOTAL FEES PAID BY RECEIPT: R17318 R000.345.830.00.00 1.00 $70.00 $72.10 Date Paid: Wednesday, April 03, 2019 Paid By: LORI HALL VANCE Pay Method: CREDIT CARD 00404D Printed: Wednesday, April 03, 2019 8:28 AM 1 of 1 SYSTEMS Cash Register Receipt City of Tukwila DESCRIPTIONS PermitTRAK ACCOUNT I QUANTITY PAID $441.45 M18-0169 Address: 581 STRANDER BLVD Apn: 0223300010 $441.45 Credit Card Fee $12.86 Credit Card Fee R000.369.908.00.00 0.00 $12.86 MECHANICAL $408.18 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $33.15 PERMIT FEE 8000.322.100.00.00 0.00 $375.03 TECHNOLOGY FEE $20.41 TECHNOLOGY FEE R000.322.900.04.00 TOTAL FEES PAID BY RECEIPT: R16350 0.00 $20.41 $441.45 Date Paid: Thursday, January 03, 2019 Paid By: JOHNNY SHI Pay Method: CREDIT CARD 03144D Printed: Thursday, January 03, 2019 3:37 PM 1 of 1 CRWSYSTEMS DESCRIPTIONS PermitTRAK ACCOUNT QUANTITY PAID $105.11 M18-0169 Address: 581 STRANDER BLVD Apn: 0223300010 $105.11 Credit Card Fee $3.06 Credit Card Fee R000.369.908.00.00 0.00 $3.06 MECHANICAL $102.05 PLAN CHECK FEE TOTAL FEES PAID BY RECEIPT: R16140 R000.322.102.00.00 0.00 $102.05 $105.11 Date Paid: Monday, December 17, 2018 Paid By: EVAN VANCE Pay Method: CREDIT CARD 02349D Printed: Monday, December 17, 2018 1:55 PM 1 of 1 SYSTEMS e CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA Date: 04/03/2019 08:27:44 AM CREDIT CARD SALE VISA CARD NUMBER: **********2298 K TRAN AMOUNT: $72.10 APPROVAL CD: 004040 RECORD #: 000 CLERK ID: Bill Thank you! Customer Copy CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA Date: 01/03/2019 03:37:22 PM CREDIT CARD SALE VISA CARD NUMBER: **********9383 K TRAN AMOUNT: $441.45 APPROVAL CD: 03144D RECORD #: 000 CLERK ID: Bill Thank you! Customer Copy Page 2 of 2 https://classic.convergepay.com/V irtualMerchant/transaction.do?dispatchMethod=printTran... 1/3/2019 12/17/2018 https://classic.convergepay. irtualMerchant/transaction.do?dispatchMethod=pr ransaction&hdnfld_transactionld=171218E3C-0... CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA 0017340000802374464500 Date: 12/17/2018 VISA CARD NUMBER: TRAN AMOUNT: APPROVAL CD: RECORD #: CLERK ID: X 01:53:28 PM CREDIT CARD SALE **********7306 K $105.11 02349D 000 jazzel {CARDHOLDER'S SIGNATURE} I AGREE TO PAY THE ABOVE TOTAL AMOUNT ACCORDING TO THE CARD ISSUER AGREEMENT (MERCHANT AGREEMENT IF CREDIT VOUCHER) Thank you! Merchant Copy https://classic.convergepay.comNirtualMerchant/transaction.do?dispatchMethod=printTransaction&hdnfld_transactionld=171218E3C-OOCFC44F-OFF... 1/2 12/17/2018 https://classic.convergepay.co^ ualMerchant/transaction.do?dispatchMethod=printTransaction&hdnfld_transactionld=171218E3C-0... CO TUKWILA ETRAKIT 6200 SOUTHCENTER BLVD TUKWILA, WA 98188 206-433-1870 CITY OF TUKWILA Date: 12/17/2018 VISA CARD NUMBER: TRAN AMOUNT: APPROVAL CD: RECORD #: CLERK ID: 01:53:28 PM CREDIT CARD SALE **********7306 $105.11 02349D 000 jazzel Thank you! Customer Copy K https://classic.convergepay.comNirtualMerchant/transaction.do?dispatchMethod=printTransaction&hdnfld_transaction Id=171218E3C-00CFC44F-OFF... 2/2 INSPECTION RECORD Retain a copy with permit /115-6/41 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 TYpepf I t 'e l K1 Addres Nt:::1".„4„ 1 5 J SSTr CYd Date Called: Specia Instructions: I S- c.J 1 -- For Date Wanted: /0-11-2o/9 -gal' a.m. ;Int C14\119 „ sequester: Ups OFF/-, 1''l C• er-fiteecl!lto.0 roc pi Phone No: Approved per applicable codes. Corrections required prior to approval. COMMENTS: MLtL F,vA6 ftvAir Inspector: RCkr-0 Date: 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 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 M18.0/409 Pro'ect: S a rtki,>Ng Type of Inspection:� 1��i cki FI io A ress: 5I S-fiIr,rler 3LVII ate Called: Special Instructions:L,,)) D e W anted: t o r a.m. p.rn. / J A S V`I L/ roe u r`a jt } f ShoWrOlowl 41/�7. R uester: r /owl Phone Zo 93 / - le 95 - Approved per applicable codes. Corrections required prior to approval. COMMENTS: AJcd 4,Jciew. O_C_CeKS 114VeltaiAZ c_c„,( inspectorL6d j% GAL Date: -11-0°J7 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 m tbct INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 Permit Inspection Request Line (206) 438-9350 (206) 431-3670 Project: �'t 3 Type of Inspection: 1444(- fie" Address: S 01 rsl >gWp Date Called: Special Instructions: ui(LL.- 1,10-r +aitrei& Date Wanted: a.m. Requester: Phone No: ❑ Approved per applicable codes. Corrections required prior to approval. COMMENTS: - s-iJ 1 6 Pt SAc.ANLus h? 442.3(044 v( QQP%(- 61 'Z L4 R-cU *VS i GFwt. Al £.b4 D►f c2, Adis o RE goS Ata tAQ)►u s Ao---- 44: J CI r-02- et &ft erd, ~ S u es ANA & e r6 7 -y_ ui(LL.- 1,10-r +aitrei& -"' YO) a I I 4Z-PliF P0146"/L ° t ffIroiss, F.JererO Inspector: Date: 1 _Zhr 141 r- 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 ►� oto 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 Project: 1, �jy,6' oVAA4/1 Type of Inspection: '17"4-1— Address: 63WattAl-ACI19-e- 1 & O,ANN��01-44 Date Called: Special Instructions: Date Wanted: 40-70•t1 p.m. Requester: Phone No: Approved per applicable codes. orrections required prior to approval. COMMENTS: "-4"77 CorteQty Qsr• Inspector: Date: frZi°-C REINSPECT FEE REQUIRED. Prior to next inspection. fee must be paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection. INSPECTION NO. INSPECTION RECORD Retain a copy with permit PERMIT N CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431-3670 Permit Inspection Request Line (206) 438-9350 Project:,,� rp(3�S1(P Alf Veil446 Type of Inspection: eg:=. M/tiChI kat Address: 501 6 .&J D1ln.. e.✓A Date Called: _ Special Instructions: Date Wanted: /,.d -I 1 /a m. Wim. Requester: Phone No: Approved per applicable codes. LJ Corrections required prior to approval. COMMENTS: #7..t. tj p /44-er 1� bat?C iAS,.tLj Inspector: Date: REINSPECTION EE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Carrier HEATING & COOLING zE Product Data SEPARATE PERMIT REQUIRED FOR: ❑ Mechanical riff, Electrical [�,/ Plumbing L!� Gas Piping City of Tukwila BUILDING DIVISIO(j FX4B Direct Expansion Fan Coil th Puron® Refrigerant Sizes 018, 030 thru 060 BEVISION.NO L REVIEWED FOR CODE COMPLIANCE APPROVED FEB 0 5 0 AMIN Ii111611ftt..._ 1 • u a UILDING DIVISI FIL oP Pert» It No. 1 v ► �� D't.t Plan review approval is subiec; to errors ano omissions Approval of co structlon documents does lot auth'srize the vloiauc 1 of any adopted code or ordinance Receiot of oonqmons is cowledged: By 4. Date: v� +73i19 Day (DI Tukwila BUIL. DIN: DIVISION RE EIVE[Y' CITY OF UKWILR JAN 16 119 PERMIT CENTER A02305 N Copyright 2003 Carrier Corporation MI8Ol? Air Handling Technology At Its Finest The FX4B is a Deluxe air handler that combines the superior performance and technology of Carrier fan coil units with Puron®, the environmentally sound refrigerant. The FX4B boasts a complete list of features, starting with the Puron factory -installed Thermostatic Expansion Valve (TXV), which meters refrigerant with precision at all operating conditions during cooling mode, providing excellent efficiency and compressor protection. Because the TXV is factory installed, time is saved on the job site, and the TXV is protected inside the unit. Grooved copper tubing, louvered aluminum fins, and the large face areas of the FX4B refrigerant coils provide superior efficiency, for high SEER and HSPF performance. Coil circuiting has also been optimized for peak performance with WeatherMaker heat pumps and air conditioners featuring Puron. The FX4B features patented contoured condensate pans with rugged, brass drain connections and highly wettable coils to minimize residual condensate. This condensate performance, along with corrosion free pans constructed from glass -filled polycarbonate engineering resin, provides additional benefits of improved IAQ and product life. All of these featured components are protected within a rugged, prepainted metal cabinet lined with super thick, high density insulation. The unit exterior features sweat refrigerant connections for leak free performance, and multiple electrical Form FX4B-2PD entry for both high and low voltage service, for quality appearance in all installation applications. Further versatility of the FX4B is made possible by the multipoise Features (horizontal left and right, upflow and downflow) design which makes Carrier fan coils the benchmark for the industry. Environmentally Sound operation; high levels of efficiency; quality appearance; ease of installation; reliable, compressor -protecting performance: That's the FX4B — in a class all of its own. Environmentally Sound Refrigerant Technology • Puron®, chlorine -free, non -ozone depleting refrigerant • Thermostatic Expansion Valve (TXV) designed to maximize performance with Puron Energy Efficient Operation • 12.00 to 13.00 SEER with the industry's first Puron Heat Pump • 3 -speed motors for flexible, efficient airflow performance Airflow and Sound Technology • Logarithmic spiral blower housings for high blower efficiency and quiet operation • Diffuser air discharge section for high airflow efficiency and quiet, smooth operation • High duct static capability with the high speed tap • Unique cabinet design that meets new stringent regulations for air leakage. Meets requirements of a 2% cabinet leakage rate when tested at 1.0 inches of static pressure Condensate Control and Disposal Technology • Minimal standing water - less microbial growth for improved IAQ and reduced condensate line clogging and related condensate leakage • Condensate fittings relocated away from turbulent airflow patterns at the blower entrance for improved condensate control performance • Overflow feature for slope coil units allows condensate to exit the unit without damage to the product under clogged primary and secondary line conditions • Tested for condensate disposal at conditions much more severe than those required by ARI • Primary and secondary drain connections to comply with HUD • All pans constructed of glass -filled polycarbonate engineering resin material • High density, 1 inch thick cabinetry insulation with vapor barrier • Cabinet construction features innovations designed to reduce cabinet sweating • Prepainted galvanized sheet metal cabinet Heat Transfer Technology • Grooved copper tubing • Lanced sine wave aluminum fins • Discreet refined counterflow refrigerant circuitry • Bi -flow hard shut-off TXV metering device Quality Assisting, Ease of Installation and Service Features • All units multipoise • Provision made for suspending from roof or ceiling joists • Modular cabinet on 060 unit • Sweat connections for leak free service • Multiple electrical entry on for application flexibility (high and low voltage) • Inspection plate on A -coil models for quick coil cleanliness inspection • Cabinet construction features innovations designed to prevent cabinet sweating Controls and Electrical Features • Blower -off delay built in (defeatable) • Easy plug connection for quick installation of accessory heater packages • 40 VA 208/230 volt transformer • Replaceable 5 -amp blade -type auto fuse protects against transformer secondary short Filter Features • Factory supplied filter, cleanable polyester filter media • Filter "springs" out for easy access - no tools required • Newly improved filter rack area (bottom flange size increased for improved filter positioning) • Newly improved filter rack area - filter door insulation added for an improved air seal 2 L E O i E 0 0 LL CO x CD c r U m c cccc D—DD c a -2 ow (a m • o• ` cc Ual al 2incnn ¢¢¢¢ Electric Heater (kw) 0 0 0 O 000 m sr 5N I I I 0• -6 U L m O O O 'd 1- c c (0000 OL_ 0.000 (0000 a: 00_00(0 N N M M VIII Yfo U Z 0 0 0 H V cN •- 0 as .c v, o c m0 II m LL 0 0 0 z X—Deluxe Puron O U c ui W _ H < Z = 1W 0 ZH Ocn coJ Wcn a2 aF >- 0 co Pw 0w E-1 �a CC w0 00 pW LU ct U5 W >- UR W Ca 0 3 Dimensions 4 O N O n 0 0) } 2 E E E E UL) O N 0 co O co 0) (h (h O CO OITV W co CO 0) E E N Ch 0) (0 0) m O N (0 O 415 CO CO c(0 CO 0 I) 0 o) 0 0 o) o) ✓ r N E E O 7 O 0) N O O 0) o) o) n V co V O N m V 0) 0) N r r N E E O (0 O O 0 co coco rn (0 CON 4 E E O N (0 CO OD N N N O 01 4 N t+) � 0) 2 0 N 10 CO CO 0 n 0 0 Q =o " V Ii' Q .02). O N O n 0 0) } 2 E E E E UL) O N 0 co O co 0) (h (h O CO OITV W co CO 0) E E N Ch 0) (0 0) m O N (0 O 415 CO CO c(0 CO 0 I) 0 o) 0 0 o) o) ✓ r N E E O 7 O 0) N O O 0) o) o) n V co V O N m V 0) 0) N r r N E E O (0 O O 0 co coco rn (0 CON 4 E E O N (0 CO OD N N N O 01 4 N t+) � 0) 2 0 N 10 CO CO 0 n 0 0 Q Dimensions continued E r o u) ci 06 E CO (00 0 N I� co co CO O CO co 1.9M N N r CO N LO N CO i!) N C) LL E E 0 CD o oo N C) rn N N CD 0) N W co M N co r f0 N O c) N V N O u) COIL TYPE 0 0 O_ 0 0 0 5 Physical data MODEL FX4B 018 030 036 042 048 060 SHIPPING WT (Lb) 112 125 150 163 172 207 REFRIGERANT METERING Puron (R -410A) DEVICE Bypass Hard Shut-off TXV* TXV SIZE 2 ton 2 ton 3 ton 3 ton 4 ton 5 ton COIL Rows and Fins Per In. 3 and 14.5 3 and 14.5 3 and 14.5 3 and 14.5 3 and 14.5 3 and 14.5 Face Area (Sq Ft) 2.23 2.97 3.46 4.45 5.93 7.42 Configuration Slope Slope Slope A A A FAN Air Discharge CFM (Nominal) 850 1100 1300 1500 1700 2000 Motor Hp (PSC) 1/4 1/3 1/3 1/2 3/4 3/4 FILTER 21-1/2 x 13 21-1/2 x 16-3/8 21-1/2 x 19-7/8 21-1/2 x 23-5/16 Fan coil units with hard shut-off TXV may require compresso hard start components. Refer to outdoor unit specifications. 6 Performance data AIRFLOW PERFORMANCE (CFM) MODEL AND SIZE BLOWER MOTOR SPEED TOTAL EXTERNAL STATIC PRESSURE (IN. WC) 0.10 0.20 0.30 0.40 0.50 0.60 208V 230V 208V 230V 208V 230V 208V 230V 208V 230V 208V 230V FX4B 018 High 945 975 900 930 840 870 780 805 695 725 560 595 Medium 835 900 795 855 745 800 690 740 610 650 470 510 Low 605 695 575 665 530 625 485 580 425 510 340 395 FX4B 030 High 1230 1291 1163 1209 1083 1120 982 1036 886 918 804 799 Medium 1055 1164 1012 1103 946 1039 863 958 797 843 691 757 Low 846 982 822 946 779 890 733 816 676 734 590 589 FX4B 036 High 1497 1565 1428 1484 1364 1430 1313 1365 1234 1280 1149 1189 Medium 1262 1390 1225 1340 1179 1280 1130 1236 1058 1161 993 1080 Low 1080 1236 1037 1180 1004 1141 958 1091 923 1027 860 959 FX4B 042 High 1580 1710 1540 1655 1495 1595 1440 1530 1375 1445 1290 1355 Medium 1400 1570 1375 1525 1350 1480 1305 1425 1255 1360 1175 1280 Low 1195 1375 1180 1350 1165 1325 1135 1285 1085 1240 1020 1160 FX4B 048 High 1846 1890 1779 1802 1685 1709 1586 1611 1479 1493 1365 1380 Medium 1745 1824 1673 1744 1598 1661 1507 1560 1409 1466 1305 1335 Low 1494 1661 1438 1573 1395 1507 1320 1424 1225 1320 1121 1224 FX4B 060 High 2205 2285 2130 2205 2050 2120 1960 2025 1875 1930 1790 1825 Medium 1880 2075 1845 2015 1795 1945 1745 1870 1675 1790 1595 1700 Low 1570 1825 1560 1795 1545 1745 1520 1700 1480 1640 1420 1565 1. Not recommended for use above 0.60 in. external static pressure. 2. To avoid potential for condensate blowing out of drain pan prior to making drain trap: —Return static pressure must be less than 0.4 in. wc —Horizontal applications of 048-070 sizes must have supply static greater than 0.20 in. wc Airflow outside max ARI airflow of 450 cfm/ton on 018-054 sizes Airflow above 400 cfm/ton on 060-070 sizes. Airflows in this region could result in condensate blowing off coil or splashing out of drain pan. 7 Performance data continued MINIMUM CFM AND MOTOR SPEED SELECTION FAN COIL SIZES FX HEATER KW 3 5 8 9 10 15 18 20 24 30 018 700 700 700 - 700 775* - - - - 030 - 875 875 - 875 875 - 1060 - - 036 - 1050 970 970 970 920 - 1040 - - 042 - - 1225 1225 1225 1225 1225 1225 - - 048 - - 1400 1400 1400 1400 1400 1400 1400 1400 060 - - 1750 1750 1750 1750 1750 1750 1750 1750 *Indicates medium speed (blue). All other motor speeds at low tap. FACTORY -INSTALLED FILTER STATIC PRESSURE DROP (IN. WC) UNIT SIZE CFM 600 800 1000 1200 1400 1600 1800 2000 018 0.044 0.750 0.110 - - - - - 030 - 0.048 0.072 0.100 - - - - 036 - - 0.072 0.100 0.130 - - - 042 - - - 0.070 0.092 0.120 - - 048 - - 0.092 0.120 0.152 - 060 - - - - - 0.086 0.105 0.130 ELECTRIC HEATER STATIC PRESSURE DROP (IN. WC) 018, 030, 036 HEATER ELEMENTS KW EXTERNAL STATIC PRESSURE CORRECTION 0 0 +.02 1 3, 5 +.01 2 8, 10 0 3 9, 15 -.02 4 20 -.04 042-060 HEATER ELEMENTS KW EXTERNAL STATIC PRESSURE CORRECTION 0 0 +.04 2 8, 10 +.02 3 9, 15 0 4 20 -.02 6 18, 24, 30 -.10 The airflow performance data was developed using fan coils with 10 -kw electric heaters (2 elements) in the 018, 030, and 036 size units and 15 -kw heaters (3 elements) in the 042 through 060 size units. For fan coils with heaters of a different number of elements, the external available static at a given CFM from the curve may be corrected by adding or subtracting available external static pressure as indicated above. AIR DELIVERY PERFORMANCE CORRECTION COMPONENT PRESSURE DROP (IN. WC) AT INDICATED AIRFLOW (DRY -TO -WET COIL) UNIT SIZE CFM 500 600 700 800 900 1000 1100 1200 1300 1350 018 0.035 0.051 0.066 0.080 0.091 - - - - - 030 - - - 0.051 0.063 0.073 0.081 - - - 036 - - - - - 0.073 0.081 0.091 0.098 0.102 UNIT SIZE CFM 1200 1300 1400 1500 1600 1700 1800 1900 2000 042 0.075 0.083 0.091 0.098 - - - - - 048 - - 0.066 0.073 0.080 0.086 0.091 - - 060 - - - - 0.030 0.034 0.039 0.044 0.053 NOTE: Subtract the above pressure drop corrections from unit airflow data when that component or condition is used. The remaining external static pressure will be available for the duct system. 8 Performance data continued GROSS COOLING CAPACITIES (MBH) UNIT EVAPORATOR AIR CFM AND BF COIL REFRIGERANTTEMPERATURE (°F)• 35 40 45 50 55 Evaporator Air — Entering Wet -Bulb Temp (°F) 72 67 62 72 67 62 72 67 62 72 67 62 72 67 62 FX4B 018 600 0.05 39 33 27 36 29 23 31 24 18 27 19 15 21 14 12 19 20 22 17 19 20 15 16 17 13 14 15 11 12 12 700 0.06 42 35 29 38 31 25 34 27 20 29 21 17 23 16 14 20 22 24 18 20 22 17 18 20 15 16 17 13 14 14 875 0.08 47 39 32 42 35 28 38 30 23 32 24 20 26 18 17 22 25 28 21 23 26 19 21 23 17 19 20 15 16 17 FX4B 030 700 0.17 53 44 35 48 38 29 42 32 23 36 25 19 28 17 16 25 27 28 23 24 25 20 22 22 18 19 19 15 15 16 875 0.20 60 50 40 55 44 34 48 37 27 41 29 23 32 20 19 28 31 33 26 28 30 23 25 27 21 22 23 17 19 19 1050 0.23 66 55 44 60 49 38 53 41 31 45 33 27 36 23 22 31 35 38 29 32 35 26 29 31 23 26 27 20 22 22 1125 0.24 68 57 46 62 50 40 55 43 33 47 34 28 37 24 23 32 36 40 30 33 36 27 30 32 24 27 28 21 23 23 FX4B 036 800 0.20 59 48 38 53 42 32 46 35 24 39 27 20 30 18 16 28 29 31 25 27 28 22 23 24 19 20 20 16 16 16 1000 0.22 68 56 45 61 49 37 54 41 29 45 32 25 35 22 20 32 34 37 29 31 33 26 28 28 23 24 25 19 20 20 1200 0.25 75 62 49 68 54 42 60 45 34 50 36 29 40 25 23 35 39 42 32 36 38 29 32 33 26 28 29 22 23 23 1400 0.27 80 67 54 73 59 46 64 49 38 54 39 32 43 28 27 38 43 47 35 39 43 32 36 37 28 32 32 24 26 27 FX4B 042 1000 0.05 69 57 46 62 50 39 54 42 31 45 33 25 35 23 20 33, 35 37 30 32 33 26 28 29 23 24 25 19 20 20 1200 0.07 77 63 51 69 55 44 61 47 35 51 37 29 39 26 24 36 39 42 33 36 38 29 32 34 26 28 29 22 23 24 1350 0.08 82 68 55 74 59 46 65 50 38 54 39 31 42 28 26 39 43 46 35 39 41 32 35 37 28 30 31 23 26 26 1530 0.09 87 72 59 79 64 50 69 53 41 58 42 34 46 30 28 41 46 50 38 42 45 34 38 40 30 33 34 26 28 28 1200 83 69 56 75 61 48 66 52 39 56 41 32 45 30 26 0.05 39 43 46 36 39 42 32 35 37 28 31 32 24 26 26 FX4B 1400 90 75 61 82 66 53 72 57 43 61 45 36 49 33 30 0.06 42 47 51 39 43 47 35 39 42 31 34 36 27 29 30 048 1600 95 79 65 87 71 56 77 60 47 66 48 40 52 36 33 0.07 45 51 55 42 47 51 38 42 46 34 38 40 29 32 33 1750 99 83 68 90 74 59 80 63 50 69 51 42 55 37 35 0.08 47 53 59 44 49 54 40 45 49 36 40 42 31 34 35 1300 91 74 60 81 65 51 72 55 41 60 44 31 48 31 26 0.03 43 46 48 39 41 43 35 37 38 30 32 31 25 27 26 FX4B 1600 104 85 69 94 76 59 83 64 47 70 51 38 55 37 31 0.05 49 53 57 45 49 51 40 44 45 35 38 38 30 32 31 060 1750 109 91 73 99 80 63 87 68 51 74 54 41 58 39 33 0.05 52 57 61 47 52 55 43 47 49 38 41 41 32 35 33 Con nnfe., ne. 2000 117 97 80 106 86 68 94 74 56 80 59 45 64 43 38 0.06 nn 1n 56 62 67 51 57 61 46 51 54 41 45 45 35 39 38 9 Saturated suction leaving evaporator coil. Sensible Heat Capacity (1000 Btuh) Gross Cooling Capacity (1000 Btuh) BF - Bypass Factor 4. SHC is based on 80°F db temperature of air entering coil. Below 80°F subtract (corr factor x CFM) from SHC. Above 80°F db, add (corr factor x CFM) to SHC. SHC CORRECTION FACTOR NOTES: 1. Contact manufacturer for cooling capacities at conditions other than shown in table. BYPASS 2. Formulas: FACTOR sensible heat cap. Leaving db = entering db - 1.09 x CFM Leaving wb = wb corresponding to enthalpy of air leaving coil (hlwb) total capacity (Btuh) hlwb =hewb 4.5 x CFM where hewb = enthalpy of air entering coil. 3. Direct interpolation is permissible. Do not extrapolate. Carrier accessories ENTERING AIR DRY-BULB TEMPERATURE (°F) Under 75 Over 85 79 78 77 76 • 75 81 82 83 84 84 Correction Factor 0.10 0.20 0.30 0.98 0.87 0.76 1.96 1.74 1.53 2.94 2.62 2.29 3.92 3.49 3.05 4.91 4.36 3.82 Use formula shown below Interpolation is permissible. Correction Factor = 1.09 x (1 - BF) x (db - 80) ITEM ACCESSORY PART NO.* FAN COIL SIZE USED WITH Disconnect Kit KFADK0101 DSC Cooling controls and heaters 3 kw through 10 kw Downflow Base Kit KFACB0101 CFB 018 KFACB0201CFB 030 KFACB0301 CFB 036, 042, 048 KFACB0401 CFB 060 Downflow Conversion Kit KFADCO201 SLP Slope Coil Units - 018, 030, 036 KFADC0401 ACL A -Coil Units - 042, 048, 060 Single -Point Wiring Kit KFASP0101 SPK 15 and 20 kw Fused Heaters Filter Kit (12 Pack) KFAFK0112SML 018 KFAFK0212MED 030 KFAFK0312LRG 036, 042, 048 KFAFK0412XXL 060 Air Cleaner 240 -volt Conversion Kit KEAVCO201240 At PVC Condensate Drain Trap Kit (50 Pack) KFAET0150ETK All Downflow/Horizontal Conversion Gasket Kit KFAHD0101SLP All * Factory -authorized and listed, field installed. Accessory Kits Description Suggested and Required Use 1. Disconnect Kit The kit is used to disconnect electrical power to the fan coil so service or maintenance may be performed safely. SUGGESTED USE: FX4 units with 3- through l0 -kw electric resistance heaters or cooling controls. 2. Downflow Base Kit This kit is designed to provide a 1 -in. minimum clearance between unit discharge plenum, ductwork, and combustible materials. It also provides a gap free seal with the floor. REQUIRED USE: This kit must be used whenever FX4 fan coils are used in downflow applications. 3. Downflow Conversion Kit Fan coils are shipped from the factory for upflow or horizontal -left applications. Downflow conversion kits provide proper condensate water drainage and support for the coil when used in downflow applications. Separate kits are available for slope coils and A -coils. REQUIRED USE: This kit must be used whenever FX4 fan coils are used in downflow applications. 4. Single Point Wiring Kit The single point wiring kit acts as a jumper between LI and L3 lugs, and between the L2 and L4 lugs. This allows the installer to run 2 heavy -gage, high- voltage wires into the fan coil rather than 4 light -gage, high-voltage wires. SUGGESTED USE: FX4 fan coils with 15- or 20 -kw fused heaters. 5. Fan Coil Filter The kit consists of 12 fan coil framed filters. These filters collect Targe dust particles from the return air entering the fan coil and prevents them from collecting on the coil. This process helps to keep the coil clean, which increases heat transfer and in turn the efficiency of the system. SUGGESTED USE: To replace filters in FX4 fan coils. 6. Air Cleaner 240 -volt Conversion Kit The AIRA electronic air cleaner comes ready for 115-v operation. REQUIRED USE: This kit is required when running 240 -volt circuit to air cleaner. 7. Condensate Drain Trap Kit This kit consists of 50 PVC condensate traps. Each trap is pre -formed and ready for field installation. This deep trap helps the system make and hold proper condensate flow even during blower initiation. SUGGESTED USE: FX4 Fan Coils. 8. Downflow/Horizontal Conversion Gasket Kit This kit provides the proper gasketing of units when applied in either a Downflow or Horizontal application. REQUIRED USE: FX4 Fan Coils. 10 Accessory electric heaters HEATER PART NO. KW @ 240V VOLTS/PH STAGES (KW OPERATING) INTERNAL CIRCUIT PROTECTION FAN COIL SIZE USED WITH HEATING CAP.** @ 230V KFCEH0401NO3 3 230/1 3 None 018 9,400 KFCEH0501 N05 5 230/1 5 None 030-048 15,700 KFCEH0801N08 8 230/1 8 None 030-060 25,100 KFCEH0901N10 10 230/1 10 None 030-060 31,400 KFCEH3201F20 20 230/1 5, 20 Fuse 030-060 62,800 KFCEH1601315 15 230/3 5, 15 None 036-060 47,100 KFCEH2001318 18 230/3 6, 12, 18 None 042-060 56,500 KFCEH3401 F24 24 230/3* 8, 16, 24 Fuse 048, 060 78,300 KFCEH3501F30 30 230/3* 10, 20, 30 Fuse 048, 060 94,100 KFCEH2401C05 5 230/1 5 Circuit Breaker 030-048 15,700 KFCEH2501C08 8 230/1 8 Circuit Breaker 030-060 25,100 KFCEH2601C10 10 230/1 10 Circuit Breaker 030-060 31,400 KFCEH3301C20 20 230/1 5, 20 Circuit Breaker 030-060 62,800 KFCEH2901N09 9 230/1t 3, 9 None 030-060 28,200 KFCEH3001F15 15 230/1 5, 15 Fuse# 030-060 47,100 KFCEH3101C15 15 230/1 5, 15 Circuit Breaker 030-060 47,100 Smart heat Field convertible to 1 phase. t Field convertible to 3 phase. $ Single point wiring kit required for these heaters in Canada. ** Blower motor heat not included. When using units with 20-, 24-, and 30 -kw electric heaters, maintain a 1 -in. clearance from combustible materials to discharge plenum and ductwork and maintain a distance of 36 in. from the unit. Use an accessory downflow base to maintain proper clearance on downflow installations. Use flexible connectors between ductwork and unit to prevent transmission of vibration. When electric heater is installed, use heat resistant material for flexible connector between ductwork and unit at discharge connection. Ductwork passing through unconditioned space must be insulated and covered with vapor barrier. 11 INTERNAL HEATER KW STAGES CIRCUIT FAN COIL SIZE HEATING CAP.** PART NO. @ 240V VOLTS/PH (KW OPERATING) PROTECTION USED WITH @ 230V KFCEH0101H10 9 230/1 3, 6, 9 None 018, 030, 036 31,400 KFCEH0201H15 15 230/1 3, 8, 11, 15 Fuse 024, 030, 036, 048 47,100 KFCEH0301H2O 20 230/1 5, 10, 15, 20 Fuse 030-060 62,800 Field convertible to 1 phase. t Field convertible to 3 phase. $ Single point wiring kit required for these heaters in Canada. ** Blower motor heat not included. When using units with 20-, 24-, and 30 -kw electric heaters, maintain a 1 -in. clearance from combustible materials to discharge plenum and ductwork and maintain a distance of 36 in. from the unit. Use an accessory downflow base to maintain proper clearance on downflow installations. Use flexible connectors between ductwork and unit to prevent transmission of vibration. When electric heater is installed, use heat resistant material for flexible connector between ductwork and unit at discharge connection. Ductwork passing through unconditioned space must be insulated and covered with vapor barrier. 11 FAN COIL ELECTRICAL DATA (UNITS WITHOUT ELECTRICAL HEAT) UNIT SIZE VOLTS (1 PHASE) FLA MIN CKT AMPS BRANCH CIRCUIT Min Wire Size* Awg Fuse/Ckt Bkr Amps 018 208/230 1.8 2.3 14 15 030 208/230 2.4 3.0 14 15 036 208/230 2.7 3.4 14 15 042 208/230 2.9 3.7 14 15 048 208/230 4.3 5.4 14 15 060 208/230 5.2 6.5 14 15 * Use copper wire only. Use 75°C only in this application. When using non-metallic (NM) sheathed cable, wire size required should be based on that of 60°C conductors, instead of wire sizes shown in table above per NEC Article 336-30. FLA - Full Load Amps NOTE: If branch circuit wire length exceeds 100 ft, consult NEC215-2 to determine maximum wire length. Use 2% voltage drop. ELECTRIC HEATER INTERNAL PROTECTION HEATER KW PHASE FUSE QTY/SIZE CKT BKR* QTY/SIZE 5 1 - 1/60 8 1 - 1/60 9 1/3 - - 10 1 - 1/60 15 1 2/30 - 2/60 2/60 15 3 - - 18 3 - - 20 1 4/60 2/60 24 3/1 6/60 - 30 3/1 6/60 - * All circuit breakers are 2 pole. ESTIMATED SOUND POWER LEVEL (dBA) UNIT SIZE CONDITIONS OCTAVE BAND CENTER FREQUENCY* CFM Ext Static Pressure 63 125 250 500 1000 2000 4000 FX -018 600 0.25 64.7 60.7 56.7 53.7 51.7 49.7 45.7 FX -030 1000 0.25 67.0 63.0 59.0 56.0 54.0 52.0 48.0 FX -036 1200 0.25 67.8 63.8 59.8 56.8 54.8 52.8 48.8 FX -042 1400 0.25 68.4 64.4 60.4 57.4 55.4 53.4 49.4 FX -048 1600 0.25 69.0 65.0 61.0 58.0 56.0 54.0 50.0 FX -060 2000 0.25 70.0 66.0 62.0 59.0 57.0 55.0 51.0 * Estimated sound power levels have been derived using the method described in the 1987ASHRAE HVAC Systems & Applications Handbook, Chapter 52, p. 52.7. 12 Electric heater electrical data HEATER PART NO. KW PHASE INTERNAL CIRCUIT HEATER AMPS 208/230V BRANCH CIRCUIT Min Ampacity 208230V•' Min Wire Size (AWG) 208/2301/if208230V Min Gnd Wire Size Max Fuse/Ckt Bkr Amps 208/230V Max Wire Length 208230V (Ft)$# PROTECTION Single Dual Circuit Single Dual Circuit Single Dual Circuit Single Dual Circuit Sinale Dual Circuit •c1....ie 1 Dual Circuit 240v 240v 208v L3,L4 L1,L2 Circuit L1,L2 L3,L4 Circuit L1,L2 L3,L4 Circuit L1,L2 L3,L4 Circuit L1,L2 L3,L4 Circuit L1,L2 L3,L4 Circuit L1,L2 L3,L4 KFCEH0401NO3 3 2.3 1 None 10.9/12.0 — — 15.9/17.3 — — 12/12 — — 12/12 — — 20/20 — — 67/68 — — KFCEH0501N051 5 3.8 1 None 18.1/20.0 — — 26.0/28.4 — — 10/10 — — 10/10 — — 30/30 — — 66/66 — — KFCEH0501N052 5 3.8 1 None 18.1/20.0 — — 31.2/33.5 — — 8/8 — — 10/10 — — 35/35 — — 85/88 — — KFCEH2401C051 5 3.8 1 Ckt Bkr 18.1/20.0 26.0/28.4 — — 10/10 — — 10/10 — — 30/30 — — 66/66 — — KFCEH2401C052 5 3.8 1 Ckt Bkr 18.1/20.0 31.2/33.5 — — 8/8 — — 10/10 35/35 — — 85/88 — — KFCEH0801N08 8 6.0 1 None 28.9/32.0 44.7/48.5 — — 8/8 — — 10/10 — — 45/50 — — 59/60 — — KFCEH2501C0B 8 6.0 1 Ckt Bkr 28.9/32.0 — — 44.7/48.5 — — 8/8 — — 10/10 — — 45/50 — — 59/60 — — KFCEH2901N09 * 9 6.8 1 None 32.8/36.0 — — 49.5/53.5 — — 8/6 — — 10/10 50/60 54/87 — — 9 6.8 3 None 18.8/20.8 — — 32.0/34.5 — — 8/8 — — 10/10 35/35 — — 83/85 — — KFCEH0901N10 10 7.5 1 None 36.2/40.0 — — 53.8/58.5 — — 6/6 — — 10/10 60/60 — — 78/80 — — KFCEH2601C10 10 7.5 1 Ckt Bkr 36.2/40.0 — — 53.8/58.5 — — 6/6 — — 10/10 — — 60/60 — — 78/80 — — KFCEH3001F15••• 15 11.3 1 Fuse 54.2/59.9 36.2/40.0 18.1/20.0 76.3/83.4 53.8/58.5 22.7/25.0 4/4 6/6 10/10 8/8 10/10 10/10 80/90 60/60 25/25 88/89 78/80 75/76 KFCEH3101C15••• 15 11.3 1 Ckt Bkr — 36.2/40.0 18.1/20.0 — 53.8/58.5 22.7/25.0 — 6/6 10/10 — 10/10 10/10 — 60/60 25/25 — 78/80 75/76 KFCEH1601315 15 11.3 3 None 31.3/34.6 — — 47.7/51.8 — — 8/6 — — 10/10 — — 50/60 — — 56/90 — — KFCEH2001318 18 13.5 3 None 37.6/41.5 — — 55.5/60.4 — — 6/6 — — 10/8 — — 60/70 — — 76/77 — — KFCEH3201F20"' 20 15.0 1 Fuse 72.3/79.9 36.2/40.0 36.2/40.0 98.9/108.4 53.8/58.5 45.3/50.0 3/2 6/6 8/8 8/6 10/10 10/10 100/110 60/60 50/50 85/109 78/80 59/59 KFCEH3301C20'•• 20 15.0 1 Ckt Bkr — 36.2/40.0 36.2/40.0 — 53.8/58.5 45.3/50.0 — 6/6 8/8 — 10/10 10/10 — 60/60 50/50 — 78/80 59/59 KFCEH3401 F24t••• 24 18.0 3 Fuse 50.1/55.4 71.2/77.8 — — 4/4 — — 8/8 — — 80/80 — — 94/95 — — 24 18.0 1 Fuse 86.7/95.5 — — 116.9/127.9 — — 1/1 — — 6/6 — — 125/150 — — 115/116 — — KFCEH3501F30$••' 30 22.5 3 Fuse 62.6/69.2 86.8/95.0 — — 3/3 — — 8/8 — — 90/100 — — 97/98 — — 30 22.5 1 Fuse 109.0/120.0 144.8/158.5 — — 0/00 — — 6/6 — — 150/175 — — 117/150 SMART HEAT ELECTRICAL DATA HEATER PART NO. KW PHASE INTERNAL CIRCUIT HEATER AMPS 208/230V BRANCH CIRCUIT Min Ampacity 206230V•* Min Wire Size (AWG) 20823OVtt Min Gnd Wire Size 208/230V Max Fuse/Ckt Brk Amps 208230V Max Wire Length 208230V (Ft)** PROTECTION Single Circuit Dual Circuit Single Circuit Dual Circuit Single Circuit Dual Circuit Single Circuit Dual Circuit Single Circuit Dual Circuit Single Circuit Dual Circuit 240v 208v L1,L2 L3,L4 L1,L2 L3,L4 L1,L2 L3,L4 L1,L2 L3,L4 L1,L2 L3,L4 L1,L2 L3,L4 KFCEH0101H10 10 7.5 1 None 32.5/35.9 — — 44.0/48.3 — — 8/8 — — 10/10 — — 45/50 — — 60/61 — — KFCEH0201H15 15 11.3 1 Fuse 54.2/59.9 39.7/43.9 14.4/16.0 73.2/80.3 49.7/54.9 23.4/25.4 4/4 8/6 10/10 8/8 10/10 10/10 80/90 50/60 25/30 92/92 53/85 73/74 KFCEH0301H2O 20 15.0 1 Fuse 72.3/79.9 36.2/40.0 36.2/40.0 97.2/106.7 52.0/56.8 45.3/50.0 3/2 6/6 8/8 8/6 10/10 10/10 100/110 60/60 50/50 87/111 81/82 93/93 FIELD MULTIPOINT WIRING OF 24 -AND 30 -KW SINGLE PHASE HEATER PART NO. KW PHASE HEATER AMPS 208230V MIN AMPACITV 208/230V** MIN WIRE SIZE (AWG) 208230Vtt MIN GND WIRE SIZE 208/230V MAX FUSE/CKT BKR AMPS 208/230V MAX WIRE LENGTH 208/230V (FT)$$ 240V 208V L1,L2 L3,L4 L5,L6 L1,L2 L3,L4 L5,L6 L1,L2 L3,L4 L5,L6 L1,L2 L3,L4 L5,L6 L1,L2 L3,L4 L5,L6 KFCEH3401F24t••• 24 18.0 1 28.9/32.0 28.9/32.0 28.9/32.0 44.7/48.5 36.2/40.0 36.2/40.0 8/8 8/8 8/8 10/10 45/50 40/40 40/40 59/60 73/73 73/73 KFCEH3501F30t••' 30 22.5 1 36.2/40.0 36.2/40.0 36.2/40.0 53.8/58.5 45.3/50.0 45.3/50.0 6/6 8/8 8/8 10/10 60/60 50/50 50/50 78/80 59/59 59/59 t Field convertible to 1 phase, single o multiple supply circuit. f Field convertible to 3 phase. " Includes blower motor amps of largest fan coil used with heater. tt Copper wire must be used. If other than uncoated (non -plated), 75°C ambient, copper wire (solid wire for 10 AWG and smaller, stranded wire for larger than 10 AWG) is used, consult applicable tables of the National Electric Code (ANSI/NFPA 70). tt Length shown is as measured 1 way along wire path between unit and service panel for a voltage drop not to exceed 2%. — Heaters are Intelligent Heat capable when used with the FK, FV fan coils and corporate 2 -speed programmable thermostat (TSTATCCP2S01-B), ThermidistatTm Control (TSTATCCPRH01-B), or Comfort Zone II. NOTES: 1. For fan coil sizes 018, 030, and 036. 2. For fan coil sizes 042-060 and at FK4D, FV4B sizes. 3. Single circuit application of F15 and F20 heaters requires single -point wiring kit accessory Matched system �1= HUMIDIFIER CD r r COMFORT VENTILATOR COMFORT ZONE IC TM EQUIPMENT CONTROLLER FAN COIL ELECTRONIC AIR CLEANER A02331 14 Book Tab 4:11 Carrier Copyright 2003 Carrier Corporation • Indianapolis, IN 46231 9-03 A United Technologies Company Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. 1 4 3d Page 16 Catalog No. 02FX-4B2 Printed in U.S.A. PC 101 Form FX4B-3PD 2e Replaces: FX4B-2PD 25HCE4 Comfort'' 14 Heat Pump with Puron® Refrigerant 1-1/2 to 5 Nominal Tons turn to the experts" Product Data Comfort SERIES Carrier heat pumps with Puron® refrigerant provide a collection of features unmatched by any other family of equipment. The 25HCE4 has been designed utilizing Carrier's Puron refrigerant. The environmentally sound refrigerant allows consumers to make a responsible decision in the protection of the earth's ozone layer. NOTE: Ratings contained in this document are subject to change at any time. Always refer to the AHRI directory (www.ahridirectory.org) for the most up-to-date ratings information. INDUSTRY LEADING FEATURES / BENEFITS • Efficiency • 14 SEER/11.5- 11.7EER/8.2HSPF • Microtube Technology"' refrigeration system • Indoor air quality accessories available Sound • Sound level as low as 69 dBA • Sound levels as low as 68 dBA with accessory sound blanket Comfort • System supports C6R " Edge® or standard thermostat controls Reliability • Puron® refrigerant - environmentally sound, won't deplete the ozone layer and low lifetime service cost. • Scroll compressor • Internal pressure relief valve • Internal thermal overload • High pressure switch • Loss of charge switch • Filter drier • Balanced refrigeration system for maximum reliability Durability WeatherArmor'' protection package: • Solid, durable sheet metal construction • Dense wire coil guard • Baked -on powder paint Applications • Long -line - up to 250 feet (76.20 m) total equivalent length, up to 200 feet (60.96 m) condenser above evaporator, or up to 80 ft. (24.38 m) evaporator above condenser (See Longline Guide for more information.) • Low ambient (down to -20°F/ -28.9°C) with accessory kit MODEL NUMBER NOMENCLATURE 1 2 3 4 5 6 7 8 9 10 11 12 13 N N A A NN N N N NN A/N NN N N 2 5 H C E 4 3 6 A 0 0 3 0 Product Product Tier Major Series Family Series SEER 25 = HP H = RES HP C=Comfort E = Puron 4=14 SEER Puron STANDARD FEATURES Cooling Grille Capacity Variations A=Dense Grille Use of the AHRI Certified TM Mark indicates a manufacturer's participation in the program For verification of certification for individual products, go to www.ahridirectory.org. Open Open 0=Not 0=Not Defined Defined us Voltage Minor Series 3=208/230-1 0, 1, 2... Feature 18 24 30 36 42 48 60 Puron Refrigerant X X X X X X X Scroll Compressor X X X X X X X Field Installed Filter Drier X X X X X X X Front Seating Service Valves X X X X X X X Internal Pressure Relief Valve X X X X X X X Internal Thermal Overload X X X X X X X Long Line capability X X X X X X X Low Ambient capability with Kit X X X X X X X Suction Line Accumulator X X X X X X X High Pressure Switch X X X X X X X Loss of Charge Switch X X X X X X X X = Standard 2 PHYSICAL DATA UNIT SIZE SERIES 18-30 24-30 1 30-30 36-31 42-30 48-30 60-30 Compressor Type 25 (7.62) Scroll 80 (24.4) REFRIGERANT 100 (30.48) 125 (38.10) Puron® (R -410A) 176 (53.34) Control 2 _ { sr•1 �§� TXV (Puron Hard Shutoff) 1/2 Charge Ib (kg) 5.3 (2.4) 5.6 (2.5) 1 6.4 (2.9) I 7.67 (3.48) 8.25 (3.74) I 8.68 (3.94) I 10.6 (4.81) COND FAN 7 8 Forwrard Swept or Propeller Type, Direct Drive Air Discharge 5/8 0 Vertical 1 Motor HP 1/12 1/10 1/10 1/4 1/10 1/4 1/4 Motor RPM 1100 1100 1100 1100 1100 1100 800 VALVE CONNECT. (In. ID) Vapor 5/8 5/8 I 3/4 3/4 7/8 7/8 I 7/8 Liquid 0 1 3/8 1 REFRIGERANT TUBES* (In. OD) 30000 1–StageHP Rated Vapor 5/8 1 5/8 J 3/4 I- 3/4 F-7/8 1 7/8 I 1 –1 /8 Max Liquid Line 4 5 3/8 *Units are rated with 25 ft (7.6 m) of lineset length. See Vapor Line Sizing and Cooling Capacity Loss table when using other sizes and lengths of lineset. Note: See unit Installation Instruction for proper installation. VAPOR LINE SIZING AND COOLING CAPACITY LOSS Acceptable vapor line diameters provide adequate oil return to the compressor while avoiding excessive capacity Toss. The suction line diameters shown in the chart below are acceptable for HP systems with Puron refrigerant: Vapor Line Sizing and Cooling Capacity Losses - Puron® Refrigerant 1- Stage Heat Pump Applications Unit Nominal Size (Btuh) Acceptable Vapor Line Diameters (In. OD) Cooling Capacity Loss (%) Total Equivalent Line Length (ft) Standard Application — Long Line Application Reburies Accessdrte 3 25 (7.62) 50 (15.2) 80 (24.4) 80+ (24.4+) 100 (30.48) 125 (38.10) 150 (45.72) 176 (53.34) 200 (60 ) 2 _ { sr•1 �§� 18000 1–Stage HP 1/2 1 2 3 3 4 6 7 8 9 5/8 0 0 1 1 1 1 2 ?� 24000 1–Stage HP 5/8 0 1 1 1 .' 2" 3 3/4 0 0 0 0 0 1 1 1 1 30000 1–StageHP 5/8 1 2 3 3 3 4 5 6 3/4 0 0 1 1 1 1 2 2 7/8 0 0 0 0 0 1 1 de HP 1–Sta g 5/8 1 2 4 4_` 5 6 7 .,.;936 1 i1 1 3/4 0 0 1 1 1 2 2 3 7/8 0 0 0 0 0 1 1 42000 1–Stage HP 3/4 0 1 2 2 2 3 4 4 5 6 6 7/8 0 0 1 1 1 1 2 2 2 3 3 48000 1–Stage HP 3/4 0 1 2 2 3 4 5 5 6 7 8 7/8 0 0 1 1 1 2 2 2 3 3 4 60000 1 -Stage Puron HP 3/4 1 2 4 4 5 6 7 9 10 11 12 7/8 0 1 2 2 2 3 4 4 5 5 6 11/8 0 0 0 0 1 1 1 1 1 1 2 Standard Length = 80 ft. (24.4 m) or less total equivalent length Applications in this area may have height restrictions that limit allowable total equivalent length, when outdoor unit is below indoor unit ee Long Line Applica- tion Guidelines 3 REFRIGERANT PIPING LENGTH LIMITATIONS Maximum Line Lengths: The maximum allowable total equivalent length for heat pumps varies depending on the vertical separation. See the tables below for allowable lengths depending on whether the outdoor unit is on the same level, above or below the outdoor unit. Maximum Line Lengths for Heat Pump Applications t Total equivalent length accounts for losses due to elbows or fitting. See the Long Line Guideline for details. Maximum Total Equivalent Lengtht - Outdoor Unit BELOW Indoor Unit Size MAXIMUM ACTUAL LENGTH ft (m) MAXIMUM EQUIVALENT LENGTHt ft (m) MAXIMUM VERTICAL SEPARATION ft (m) Units on equal level 200 (61) 250 (76.2) N/A Outdoor unit ABOVE indoor unit 200 (61) 250 (76.2) 200 (61) Outdoor unit BELOW indoor unit See Table 'Maximum Total Equivalent Length: Outdoor Unit BELOW Indoor Unit' t Total equivalent length accounts for losses due to elbows or fitting. See the Long Line Guideline for details. Maximum Total Equivalent Lengtht - Outdoor Unit BELOW Indoor Unit Size Liquid Line Diameter w/TXV HP with Purono Refrigerant - Maximum Total Equivalent Lengtht Vertical Separation ft (m) Outdoor unit BELOW indoor unit; 0-20 (0 - 6.1) 21-30 (6.4 - 9.1) 31-40 (9.4 - 12.2) 41-50 (12.5 - 15.2) 51-60 (15.5 - 18.3) 61-70 (58.6 - 21.3) 71-80 (21.6 - 24.4) 18000 HP with Puron 3/8 250* 250* 250* 250* 250* 250* 250* 24000 HP with Puron 3/8 250* 250* 250* 250* 250* 250* 250* 30000 HP with Puron 3/8 250* 250* 250* 250* 250* 250* 250* 36000 HP with Puron 3/8 250* 250* 250* 250* 250* 250* 250* 42000 HP with Puron 3/8 250* 250* 250* 250* 250* 250* 150 48000 HP with Puron 3/8 250* 250* 250* 250* 230 160 -- 60000 HP with Puron 3/8 250* 225* 190 150 110 -- -- * Maximum actual length not to exceed 200 ft (61 m) t Total equivalent length accounts for losses due to elbows or fitting. See the Long Line Guideline for details. - - = outside acceptable range LONG LINE APPLICATIONS An application is considered Long Line when the refrigerant level in the system requires the use of accessories to refrigerant management for systems reliability. Defining a system as long line depends on the liquid line diameter, actual and vertical separation between the indoor and outdoor units. For Heat Pump systems, the chart below shows when an application is considered Long Line. Beyond these lengths, are required: HP WITH PURON® REFRIGERANT LONG LINE DESCRIPTION ft (m) Beyond these lengths, long line accessories are required Liquid Line Size Units On Same Level Outdoor Below Indoor maintain acceptable length of the tubing, long line accessories Outdoor Above Indoor 3/8 80 (24.4) 20 (6.1) vertical or 80 (24.4) total 80 (24.4) Note: See Long Line Guideline for details 4 ACCESSORIES ORDER NUMBER DESCRIPTION 18-30 24-30 30-30 36-31 42-30 48-30 60-30 HC32GE234 BALL BEARING FAN MOTOR X X 4 2 TP—PRH01 —A edge'" Programmable Relative Humidity Thermostat X HC34GE240 BALL BEARING FAN MOTOR 3 X X edge'" Programmable Thermostat (HP or AC) X X X HC38GE219 BALL BEARING FAN MOTOR TP—NRH01 edge'" Non—Programmable Relative Humidity Thermostat X X X 3 2 HC40GE228 BALL BEARING FAN MOTOR X X 3 2 X X KAACH1601AAA CRKC HTR KIT X 3 2 TC—PHP01 X X X KAACH1701AAA CRKC HTR KIT X X X X X X 3 KAACS0201 PTC KIT PTC X X X X X X X KAAFT0101AAA FRZTHERM KIT X X X X X X X KAATD0101TDR TIME DELAY KIT X X X X X X X KHAIR0201AAA ISLNRELAYKIT X X X X X X X KHALSO401 LLS SOL VALVE KIT X X X X X X X KHAOT0201 SEC OUTDR THERM KIT X X X X X X X KHAOT0301 FST OUTDR THERM KIT X X X X X X X KHASS0606MPK SNOW STAND KIT X X X X X X X KSACY0101AAA CYCLE PROTR KIT X X X X X X X KSAHS1701AAA HARD START KIT X X X X X X X KSALA0301410 LOW AMBIENT KIT X X X X X X X KSALA0601AAA MOTORMASTER KIT X X X X X X X KSASF0101AAA SPRT FEET KIT X X X X X KSASF0201AAA SPRT FEET KIT X X KSASH0601 COP SOUND BLKT KIT X X X X X KSASH2101 COP SOUND BLKT KIT X X KSATX0201 PUR TXV KIT (for copper coils) X X X KSATX0301 PUR TXV KIT (for copper coils) X X KSATX0501 PUR TXV KIT (for copper coils) X X KSBTX0201 PUR TXV KIT (for aluminum coils) X X X KSBTX0301 PUR TXV KIT (for aluminum coils) X X KSBTX0401 PUR TXV KIT (for aluminum coils) 1 X X x = Accessory ACCESSORY THERMOSTATS Part Number Description Capabilities Heat Stages Cooling Stages Gas Electric Heat Pump TP—WEM01 COR'", Wi—Fi Programmable Relative Humidity Thermostat X X X 4 2 TP—PRH01 —A edge'" Programmable Relative Humidity Thermostat X X X 3 2 TP—PHP01 edge'" Programmable Thermostat (HP or AC) X X 3 2 TP—NRH01 edge'" Non—Programmable Relative Humidity Thermostat X X X 3 2 TP—NHP01 edge'" Non—Programmable Thermostat (HP or AC) X X 3 2 TC—WHS01 Wi—Fi® Programmable X X X 3 2 TC—PHP01 Programmable Thermostat (HP or AC) X X 3 2 TC—NHP01 Non—Programmable Thermostat (HP or AC) X X 3 2 TB—PHP01 Programmable Thermostat (HP or AC) X X 2 1 TB—NHP01 Non—Programmable Thermostat (HP or AC) X X 2 1 Thermostat Accessories Part Number Description Used With TP—EXP EXP® Card for Programmable Thermostats TP—Pxx TSTATXXCNV10 Thermostat Conversion Kit (4 to 5 wire) 10 pack All Carrier branded thermostats TX—LBP01 Large Decorative Backplate TP—Pxx, TP—Nxx, TC—Pxx TX—MBP01 Medium Decorative Backplate TC—Nxx, TB—Pxx TX—SBP01 Small Decorative Backplate TB— Ma 5 ACCESSORY USAGE GUIDELINE Accessory REQUIRED FOR LOW -AMBIENT COOLING APPLICATIONS (Below 55°F / 12.8°C) REQUIRED FOR LONG LINE APPLICATIONS* REQUIRED FOR SEA COAST APPLICATIONS (Within 2 miles / 3.22 km) Accumulator Standard Standard Standard Ball Bearing Fan Motor Yest No No Compressor Start Assist Capacitor and Relay Yes Yes No Crankcase Heater Yes Yes No Evaporator Freeze Thermostat Yes No No Hard Shutoff TXV Yes Yes No Isolation Relay Yes No No Liquid Line Solenoid Valve No See Long -Line Application Guideline No Motor Master® Control or Low Ambient Switch Yes No No Support Feet Recommended No Recommended n. tz4. o ana bu.ae m/ and/or 20 tt. (6.09 m) vertical differential, refer to Residential Split -System Longline Application Guideline. t Additional requirement for Low -Ambient Controller (full modulation feature) MotorMaster® Control. Accessory Description and Usage (Listed Alphabetically) 1. Ball -Bearing Fan Motor A fan motor with ball bearings which permits speed reduction while maintaining bearing lubrication. Usage Guideline: Required on all units when using MotorMaster® 2. Compressor Start Assist - Capacitor and Relay Start capacitor and relay gives a hard boost to compressor motor at each start up. Usage Guideline: Required for reciprocating compressors in the following applications: Long line Low ambient cooling Hard shut off expansion valve on indoor coil Liquid line solenoid on indoor coil Required for single-phase scroll compressors in the following applications: Long line Low ambient cooling Suggested for all compressors in areas with a history of low voltage problems. 3. Compressor Start Assist — PTC Type Solid state electrical device which gives a soft boost to the compressor at each start-up. Usage Guideline: Suggested in installations with marginal power supply. 4. Crankcase Heater An electric resistance heater which mounts to the base of the compressor to keep the lubricant warm during off cycles. Improves compressor lubrication on restart and minimizes the chance of liquid slugging. Usage Guideline: Required in low ambient cooling applications. Required in long line applications. Suggested in all commercial applications. 5. Evaporator Freeze Thermostat An SPST temperature -actuated switch that stops unit operation when evaporator reaches freeze-up conditions. Usage Guideline: Required when low ambient kit has been added. 6. Isolation Relay An SPDT relay which switches the low -ambient controller out of the outdoor fan motor circuit when the heat pump switches heating mode. Usage Guideline: Required in all heat pumps where low ambient kit has been added. 7. Liquid -Line Solenoid Valve (LLS) An electrically operated shutoff valve which stops and starts refrigerant liquid flow in response to compressor operation. It is to be installed at the outdoor unit to control refrigerant off cycle migration in the heating mode. Usage Guideline: An LLS is required in all long line heat pump applications to control refrigerant off cycle migration in the heating mode. See Long Line Guideline. 8. Low -Ambient Pressure Switch Kit A long life pressure switch which is mounted to outdoor unit service valve. It is designed to cycle the outdoor fan motor in order to maintain head pressure within normal operating limits. The control will maintain working head pressure at low -ambient temperatures down to 0°F (-18°C) when properly installed. Usage Guideline: A Low -Ambient Pressure Switch or MotorMaster® Low -Ambient Controller must be used when cooling operation is used at outdoor temperatures below 55°F (12.8 °C). 9. MotorMaster® Low -Ambient Controller A fan -speed control device activated by a temperature sensor, designed to control condenser fan motor speed in response to the saturated, condensing temperature during operation in cooling mode only. For outdoor temperatures down to -20°F (-28.9°C), it maintains condensing temperature at 100°F ±10°F (37.8°C ± 6.5°C). Usage Guideline: A MotorMaster® Low Ambient Controller or Low -Ambient Pressure Switch must be used when cooling operation is used at outdoor temperatures below 55°F (12.8°C). Suggested for all commercial applications. to 6 Accessory Description and Usage (Listed Alphabetically) - CONTINUED 10. Outdoor Air Temperature Sensor Designed for use with Carrier Thermostats listed in this publication. This device enables the thermostat to display the outdoor temperature. This device also is required to enable special thermostat features such as auxiliary heat lock out. Usage Guideline: Suggested for all Carrier thermostats listed in this publication. 11. Outdoor Thermostat An SPDT temperature -actuated switch which turns on supplemental electric heaters when outdoor air temperature drops below a user -selected set point. Usage Guideline: Electric supplemental heat applications in non -variable speed indoor units when electric heat staging is desired. 12. Secondary Outdoor Thermostat An SPDT temperature -actuated switch which turns on third -stage of supplemental electric heaters when outdoor air temperature drops below the second -stage set point. Usage Guideline: Outdoor thermostat applications where electric heater is capable of 3 -stage operation. 13. Snow Stand Rack Coated wire rack which supports unit 18 in. (457.2 mm) above mounting pad to allow for drainage from unit base. Usage Guideline: Suggested in the following applications: Heat pump installations in heavy snowfall areas. Heat pump installations in snow drift locations. Heat pump installations in areas of prolonged subfreezing temperatures. All commercial installations. 14. Sound Hood Wraparound sound reducing cover for the compressor. Reduces the sound level by about 2 dBA. Usage Guideline: Suggested when unit is installed closer than 15 ft. (4.577 m) to quiet areas, bedrooms, etc. Suggested when unit is installed between two houses less than 10 ft. (3.05 m) apart. 15. Thermostatic Expansion Valve (TXV) Bi -Flow A modulating flow -control valve which meters refrigerant liquid flow rate into the evaporator in response to the superheat of the refrigerant gas leaving the evaporator. Usage Guideline: Accessory required to meet AHRI rating and system reliability, where indoor not equipped. Required in all heat pump applications designed with Puron refrigerant. 16. Time -Delay Relay An SPST delay relay which briefly continues operation of indoor blower motor to provide additional cooling after the compressor cycles off. Note: Most indoor unit controls include this feature. For those that do not, use the guideline below. Usage Guideline: Accessory required to meet AHRI rating, where indoor not equipped. 7 ELECTRICAL DATA UNIT SIZE V/PH OPER VOLTS* COMPR FAN MCA MAX FUS** or CAT CKT BRK AMPS MAX MIN LRA RLA FLA 18 208/230/1 253 197 48.0 9.0 0.50 11.8 20 24 62.9 10.9 0.60 14.2 25 30 72.5 13.5 1.40 18.3 30 36 75.0 14.7 1.10 19.5 30 42 105.7 15.6 1.40 20.9 30 48 108.0 18.3 1.40 24.3 40 60 144.2 24.4 1.52 32.0 50 * Permissible limits of the vol age range at which the unit will operate satisfactorily t If wire is applied at ambient greater than 30°C, consult table 310-16 of the NEC (NFPA 70). The ampacity of non -metallic -sheathed cable (NM), trade name ROMEX, shall be that of 60°C conditions, per the NEC (NFPA 70) Article 336-26. If other than uncoated (no -plated), 60 or 75°C insulation, copper wire (solid wire for 10 AWG or smaller, stranded wire for larger than 10 AWG) is used, consult applicable tables of the NEC (NFPA 70). t Length shown is as measured 1 way along wire path between unit and service panel for voltage drop not to exceed 2%. ** Time -Delay fuse. FLA - Full Load Amps LRA - Locked Rotor Amps MCA - Minimum Circuit Amps RLA - Rated Load Amps NOTE: Control circuit is 24-V on all units and requires external power source. Copper wire must be used from service disconnect to unit. All motors/compressors contain internal overload protection. Complies with 2007 requirements of ASHRAE Standards 90.1 A -WEIGHTED SOUND POWER UNIT SIZE STANDARD RATING (dBA) TYPICAL OCTAVE BAND SPECTRUM (dBA, without tone adjustment) 125 250 i 500 1000 2000 4000 8000 18 69 45 48 56 62 55 53 47 24 76 46 56 59 63 63 60 55 30 77 52 62 67 68 65 62 55 36 77 51 62 66 69 64 61 53 42 76 49 61 63 65 62 60 52 48 79 53 66 69 71 67 64 57 60 73 50 63 62 63 60 58 52 NOTE: Tested in accordance with AHRI Standard 270-08 (not listed in AHRI). A -WEIGHTED SOUND POWER WITH SOUND HOOD UNIT SIZE STANDARD RATING TYPICAL OCTAVE BAND SPECTRUM (dBA, without tone adjustment) 125 250 500 1000 2000 4000 8000 18 68 47 48 56 61 55 52 46 24 74 47 57 59 , 62 61 58 51 30 77 52 62 67 1 67 65 62 54 36 76 52 62 66 67 64 60 52 42 74 50 61 63 64 61 58 49 48 79 54 66 69 70 67 64 56 60 73 51 64 62 63 59 56 49 NOTE: Tested in accordance with AHRI Standard 270-08 (not listed in AHRI). CHARGING SUBCOOLING (TXV-TYPE EXPANSION DEVICE) UNIT SIZE -SERIES REQUIRED SUBCOOLING ° F (° C) 18 11 (6.1) 24 11 (6.1) 30 10 (5.6) 36 10 (5.6) 42 10 (5.6) 48 14 (7.8) 60 15 (8.3) HP ONLY REPLACEMENT WITH PISTON INDOORS When the 25HCE4 is used as a replacement component in a system with a piston fan coil, use the indoor piston size specified below: UNIT SIZE PISTON SIZE FB4CNF = N/A 18 24 30 36 42 48 0.052 0.070 0.078 0.084 FFM 0.050 FPMA 0.050 0.072 0.069 8 DIMENSIONS - ENGLISH SHIPPING DIMENSIONS IL x W x H) 25 1/4" X 25 1/4' X 40' 27 7/8" X 27 7/8' X 40' 33 3/8' X 33 3/8" X 36 5/8' 33 3/8' X 33 3/8' X 33 1/4' Oa a 33 3/8' X 33 3/8" X 36 5/8' —I 2 CO an ral N z� 180 201 M OPERATING WEIGHT (bs) 136 144 a el 0 2 2 J co . . . . Y x o LL W = m m 0 ,., ,., .h M m m m Q .-' ea an Zs .rn M .;n n 0 0 0 0 0 0 0 = ELECTRICAI CHARACTER'S' o o a o 0 0 0 o o 0 0 0 0 0 93D VAPOR LINE CONN. W go 0 0- 0 0 0 F 25HCE418 25HCE424 25HCE430 25HCE436 25HCE442 25HCE448 Z Oa Ce 0 xo 09-E-090 09-E-OEZ/80Z 09.1-oez O91-OEZ•80Z a 9 guard only. Un s with wire gri CO 00 • co CO- ce 41 LC CO irc x • f-11 J. =o ow. mo= . o coo orw moo. 9.., COEti 93D VAPOR LINE CONN. 9 guard only. Un s with wire gri CO 00 • co CO- ce DIMENSIONS - SI UMT SERIES ELECTRICAL CHARACTERISTICS A B C D E F 0 K L M N P OPERATING WEIGHT (Kgs) SHIPPING WEIGHT [(gs) SHIPPING DDENSICRS (L x W x HI 25HCE418 0 X 0 0 0 587.4 895.4 95.2 15.9 112.7 458.8 198.4 71.4 12.7 279.4 400.1 304.8 61.7 75.3 641.5 X 641.5 X 1016.9 25HCE424 0 X 0 0 0 654.0 895.4 95.2 15.9 112.7 539.8 231.8 71.4 12.7 304.8 336.6 342.9 65.3 79.4 708.0 X 708,0 X 1016.9 25HCE430 0 X 0 0 0 192.2 808.0 95.2 19,0 166.1 627.1 231.8 74.6 15.9 381.0 279.4 406.4 71.7 81.6 846.6 X 846.6 X 930.6 25HCE436 1 X 0 0 0 792.2 722.3 95.2 19.0 166.7 627.1 231.8 74.6 15.9 400.1 355.6 273.1 77.1 91.2 846.6 X 846.6 X 844.2 25HCE442 0 X 0 0 0 792.2 993.8 98.4 22.2 166.7 627.1 231.8 74.6 15.9 393.7 342.9 355.6 91.2 106.6 846.6 X 846.6 X 1103.3 25HCE448 0 X 0 0 0 792.2 722.3 98.4 22.2 166.7 627.1 231.8 74.6 15.9 419.1 292.1 381.0 89.4 105.2 846.6 X 846.6 X 844.2 25HCE460 0 X 0 0 0 792.2 808.0 98.4 22.2 166.7 621.1 231.8 74.6 15.9 374.7 400.1 412.8 96.2 112.5 846.6 X 846.6 X 930.6 2081230-160 X = YES 0= NO A S0. AIR DISCHARGE I 8 FIELD CONTROL SUPPLY CONN. 022.23 HOLE FIELD POWER SUPPLY CONN. 0 22.23 WITH 9528.58HKNOCKOUT 09.53 LIOUID LINE CONN. C 88.9 • 47.6 i 09 VAPOR LINF CONN UNIT SIZE X ICN OROLND MINIM PAD APPLICATION -r PRI ROOF -TOP ApI1NINf1 PAD APPLICATION DRENSON5 COMMONS 18 587.4 451.3 24 654.0 518.5 30,37,42,48,60 792.2 583.2 - 889.0 679.7 Y so. X so, AIR IN-� 96.8 AIR 1N AIR DISCHARGE 28.6 09.53 TIEDOWN KNOCKOUTS 12) PLACES --AIR 1N IR 1N When installing, allow sufficient space for airflow clearance, wiring, refrigerant piping, and service. Allow 24 in. (609.6 mm) clearance to service end of unit and 48 in. (1219.2 mm) (above unit. For proper airflow, a 6 -in. (152.4 mm) clearance on 1 side of unit and 12 -in. (304.8 mm) on all remaining sides must be maintained. Maintain a distance of 24 in. (609.6 mm) between units or 18 in. (457.2 mm) if no overhang within 12 ft. (3.66 m) Position so water, snow, or ice from roof or eaves cannot fall directly on unit. NOTE: 18" (457.2 mm) clearance option described above is approved for outdoor units with wire grille coil guard only. Units with louver panels require 24" (609.6 mm) between units. On rooftop applications, locate unit at least 6 in. (152.4 mm) above roof surface. Clearances (various examples) w U z Q w a U Wall a0 iv cr r O M ao CNA Tr M 11 t0 .. a, , co c., NQj 1W N co N- Note: Numbers in () = mm IMPORTANT: When installing multiple units in an alcove, roof well, or partially enclosed area, ensure there is adequate ventilation to prevent re -circulation of discharge air. ri N 0 N MSI 00. rn rn N O O 1 1 -1_1__1-_. I I I ' I . 1 1 J-L1J__1J-_1-L 1 1 1 1 I I 1 I I I 11 _i_1_1_1_ 1 I I 1 " 1 I II __L___1 -_4- 1 1 1 1 1_1_4__I--Ll_I-L__1-1_1 I 11 II 1 1 1 1 1_ I 1 1 1 11 I I -+_1.-- 25HCE460 FX4DNF061 1 25HCE448 FB4CNP048L - ..r _I_. 25HCE442 FB4CNP042L 25HCE436 FB4CNP0361 H- 25HCE430 FB4CNP0301 25HCE424 FB4CNP0301 1- 25HCE418 FB4CNP0181 H -1-1-H-1-+ - 1 1 -77- _IJ_ 1 1 4_ i I -7- J_, I 1 - _ 17 1 I I I 7 -1 -7 - I_I_L_ 1 1 I BASED ON INDOOR ENTERING AIR AT 700F (21.10C) AND AT RATED CFM 1 1 1 1 1 1 1 1 1 1 1 1 -1-rt - t- +--k- rt-I-fi- 1 1 11 --1-4--L 1I -+4--t-- 1 1 1-1.1- 1 1 1 1 4 -1 -T -I_. 1! -t -I --t �t 1 1 1 1 17I -- -1--1— ` -r1-1-111 -1-+- ,--1- I I I I 1 1 1 ---1-1-+ —' 11 1 1 -I- --, 1 . 1 1 I I T i 1- - —�- .,- -I— I 11 11 11 L4 _1-1-- 1 1 —f t 1 1 1 1 . i 1 1 1 1 + 1 1 + I H 1--t -- 11 I f---1—{-- 1 1 I , _J_J__L--_L `+-1--H--1-1-+ 'II -1---r--- 1 1 ' 1 1 a-- --1---1-rrt-1 I I 1__11 1 I I ,--+4-I- 1 11 , I I I i 1 1 - L4 1 1 1 1 -t-i !. 1 1 -t-t-I--r !. 1 ' 1 1 T 1 '_L±J_ 1 1 1 I I-+-1- 1 1 -i-" 1--7- 11 1 I 1 I 4- LJ-_ 1 I I -1-1 1 1 - --r-1- 1 I11 1 1 1 1 _1_ .1J I 11 -I- +-I- 1 I I 1 -7- 4- I I I1 1 1 I T 7 11 L-_l_L_ 1 I 1 I -H-4-1-!-1- 11 1 1--r 1 t- 11 I 1 1 1 1 i 1 1 1 -t-1-1-1--1-1-t-I ' I I --t- 1 11 -t -I- -a-- 1 1 1 1 -1- 1 1 1 -t 1 1 1 1 1 1 -T7-i ---1-LTJ--T7- _ __I_L__LL.LJ__ I! 1 1 -+-4-I-1---1-1-+-I--- 1 1 1 1 1 I I 1 1 1 1 1 1 11 1 1 1 __. 11 -4-4--4- I 11 7 >- J-1_1 1 1 1 -#±--I- 1 11 +-1- 111 T7 -I T -t J. -.I-- 1 1 -I-- - 1 1 t 1 FT J L1_4 1 1 I I --I- +-I 1 1 I -1-1-t- 1-;-L1! I T -1 _T_ _l_L • I I -I-f- 11 I I I I _11._-L-J_L1J__Li__1.+.J_L 1 1 I -H- 1--1---1-1-44-1- 1 1 I fl1i1JiflFTr-, 1 I I II 1 1 1 1 1 1 1 1 -H--1--1--H-I-1- 1 I 11111 -1-r-I-r 11 1 1 _ 1 1I I .I I I1 1 T L ` T .J -L1.-1_ I I -I- 1 1 J_L1J_ 1 1 1 1 1 1 4-1 -1-1--4-1- 1 1 1 1 1 JTirii 1- 1--t---1-1-t-1 1 1 1 -T7--T-7-I-T7_ _LJ__L_J-L1J__11_-LjJ_L1J_HL± I 1 I I 1 1 1 1 1 1 1 1 1 I I II I I 1 1 1 1 11 1- --1-4-1 1--t-1 I-+ 11 1 i•• i 1 1 1" - T- T1 -7 -FT ---17---T7 1 ' 1 1 1 II I • I I II 1 1 1 1 1 11 +- 1 1 -,- __1_ 1 1 1 t I -I -I -+-f- 1 1 1 II I I TT-7-7-1-1-T-1- LJ I_LJ-LIJ- ,I 11 1 1!1 I 'I 1 1: 1 1 II 1 I I I 1 1 1 -4--4_--_-1-1. 1 1 1 -t-h--t-1-h-±H--1--t 1 1 _T _ -T71--TT-7-1-T-4 1 1 1 1 1 1 1 1 1 1 11 1 1 II 44-1- 1 1 1 1 1 1 I 1 1 1 1 1 1 1 1 1 I_ I -_I ': 1 1;' -H -1- --1--- 1 I I -1--t--!-1--r-1--1-4--t44- I 1-7--Tt7-1-T-1--TT--- I I L L 1 f rt trt i 1 I _ I._ 1 1 -1--44-1--1-4_ : 1 1 1 1 1 1 1 1 1 1 1 II__ -I 1 1 -.I- 1 1 1 1 1 1 1_ 1-1 1 1 -1-1- I I 1 1 7 1 ;_ I-t I� 1 1 11 1 1 1 1 -1 T ---4---1- 1 1 1 11 I I t -1- -1-1--1- 1 1- FT7- I I 11 I 1 1 1 -4-4--H-1--1-14-4-4-1-4-4H-1- I 1 1 T7 T1 1_1 .1 1 1 I t 4-4 -TH-1-I-44-1-1-4--1--1- 1 1 ' 1 1 1 1 1 1 I11_1 �1 rT1-T1--f II_L1J_ I I I I 1 1 1 1 1 1 1 1 --1-1--f-H-4+4- 1 1 1- LI_I_L ri 1 1 1 1 1 1 1 1 11 1 1 1 1' 1 1-T1-1- _I -L1.1 1 1 1 1 -1- 1 -1---a-1- 1 1 1 1 1 1 -+ 1 I I �_11_1 T- _L 1 1 - I I I I I I -1-1- - -I-1 1 1 1 1- _1 _1 1 1 - 1-T :1 -J-4--+ 1-+- 1 1 1 1 1 1 - -- I-+--f- 1 1 1 1 1 _ 7- -I 1 T 1 I- 1 1J_ 1 1 x, - -4-- 1 11 1 1 1 I T 1 _L_1_—L I 1 11 -+-1----r-I-1-+-1- 1 1 7--T -T--1-7-1_ 1111 1 1 1 1 1 1 1 1 1 1 1 I I II _1-1-11__1 1 1 1 1 -- 1 1 1_1_1 T-FT1T7__T�T_FT-_I-T..T 1 1 11 1 1I II 1.7 1 ._—L._l_L.11__11-._ 1 1 1 t --1--1---1-1-+-1--+4--i- 1 1 1 1 1 1 III 11 1- 1 1 11 1 I 11 1 1 ' 1 I 1, 1 1 I I 1 1 I ._-T I I I, I +t 11 1 1 1 _1-1_11— 1 I 1 I 1- h -±H- 1 1 11 1 TT1 1; 1 LI - 1 1 \'\11 T11 I I T1 14_1_1. _1'--1J— 1 1 I I I 1 1 +-4-I-i- H -I -+H- - 11 I 1 11 1 1 717-7 1 11 1 1 1 1 4 O P- c) ' c0 o0 N CD 0 0 0 M 0 0 N CO Lri O 0 N N co O (0 O O� O O O LL U Hf1l8W `AlIOVdV3 ONI1V3H 03M1931NI lINfl `SSOI 1HJH ONIO1Ing 12 OUTDOOR TEMPERATURE TESTED AHRI COMBINATION RATINGS NOTE: Ratings contained in this document are subject to change at any time. For AHRI ratings certificates, please refer to the AHRI directory www.ahridirectory.org Additional ratings and system combinations can be accessed via the Carrier database at: www.MyCarrierRatings.com For performance data at specific application &/or design conditions with various indoor unit combinations, the equipment performance calculator can be accessed at : http://rpmob.wrightsoft.com/ Model Number Indoor Coil Model Number Cooling Capacity EER SEER High Temp HSPF Low Temp E Capacity E COP H Capacity H COP 25HCE418A**30 FB4CNP018L 17,800 11.7 14 17,600 3.72 8.2 10,400 2.40 25HCE424A**30 FB4CNP030L 22,200 11.5 14 22,200 3.84 8.2 13,200 2.54 25HCE430A**30 FB4CNP030L 28,600 11.7 14 28,600 3.62 8.2 17,100 2.44 25HCE436A**31 FB4CNP036L 33,000 11.7 14 33,800 3.62 8.2 21,000 2.40 25HCE442A**30 FB4CNP042L 40,000 11.5 14 41,000 3.62 8.2 25,200 2.50 25HCE448A**30 FB4CNP048L 46,000 11.7 14 45,500 3.64 8.2 27,800 2.56 25HCE460A**30 FX4DN(B,F)061L 57,000 11.7 14 54,500 3.70 8.2 33,000 2.56 * AHRI = Air Conditioning, Heating & Refrigeration Institute * Ratings are net values reflecting the effects of circulating fan heat. Supplemental electric heat is not included. Ratings are based on: Cooling Standard: 80°F (27°C) db 67°F (19°C) wb indoor entering air temperature and 95°F (35°C) db air entering outdoor unit. High—Temp Heating Standard: 70°F (21 °C) db indoor entering air temperature and 47°F (8°C) db 43°F (6°C) wb air entering outdoor unit. Low—Temp Heating Standard: 70°F (21°C) db indoor entering air temperature and 17°F (-8°C) db 15°F (-9°C) wb air entering outdoor unit. COP — Coefficient of Performance EER — Energy Efficiency Ratio HSPF — Heating Seasonal Performance Factor SEER — Seasonal Energy Efficiency Ratio 13 DETAILED COOLING CAPACITIES# EVAPORATOR AIR CONDENSER ENTERING AIR TEMPERATURES °F (°C) 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (46.1) 125 (51.7) CFM EWB °F (°C) Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Total Sens# Total Sens$ Total Sens# Total Sens* Total Sens* Total Sens* 25HCE418 Outdoor Section With FB4CNPO1EL Indoor Section 525 72 (22.2) 21.43 10.44 1.20 20.38 10.06 1.36 19.27 9.66 1.54 18.10 9.26 1.74 16.86 8.83 1.97 15.56 8.39 2.22 67 (19,4) 19.44 12.77 1.19 18.48 12.39 1.36 17.47 11.99 1.53 16.40 11.58 1.73 15.26 11.15 1.96 14.06 10.69 2.21 63 (17.2)tt 17.99 12.27 1.19 17.10 11.90 1.35 16.16 11.50 1.53 15.16 11.08 1.73 14.10 10.65 1.95 12.98 10.19 2.20 62 (16.7) 17.64 15.03 1.19 16.78 14.64 1.35 15.88 14.22 1.53 14.93 13.76 1.73 14.00 14.00 1.95 13.10 13.10 2.20 57 (13.9) 16.97 16.97 1.19 16.30 16.30 1.35 15.58 15.58 1.52 14.81 14.81 1.73 13.98 13.98 1.95 13.08 13.08 2.20 600 72 (22.2) 21.88 10.96 1.21 20.77 10.58 1.38 19.62 10.18 1.56 18.40 9.76 1.76 17.12 9.33 1.98 15.77 8.88 2.23 67 (19.4) 19.86 13.61 1.20 18.86 13.22 1.37 17.80 12.82 1.55 16.69 12.39 1.75 15.51 11.95 1.97 14.27 11.48 2.22 63 (17.2)tt 18.40 13.06 1.20 17.47 12.67 1.36 16.49 12.27 1.54 15.44 11.84 1.74 14.34 11.39 1.97 13.19 10.92 2.21 62 (16.7) 18.08 16.13 1.20 17.20 15.71 1.36 16.27 16.27 1.54 15.43 15.43 1.74 14.54 14.54 1.97 13.59 13.59 2.22 57 (13.9) 17.73 17.73 1.20 17.01 17.01 1.36 16.24 16.24 1.54 15.41 15.41 1.74 14.52 14.52 1.97 13.57 13.57 2.22 675 72 (22.2) 22.22 11.46 1.22 21.08 11.07 1.39 19.88 10.66 1.57 18.63 ,10.24 1.77 17.31 9.80 2.00 15.92 9.35 2.25 67 (19.4) 20.19 14.41 1.22 19.15 14.01 1.38 18.06 13.60 1.56 16.91 13.16 1,76 15.70 12.71 1.99 14.44 12.22 2.23 63 (17.2)tt 18.71 13.81 1.21 17.75 13.41 1.38 16.74 12.99 1.56 15.66 12.55 1.75 14,53 12.09 1.98 13.35 11.59 2.23 62 (16.7) 18.48 17.11 1.21 17.63 17.63 1.38 16.80 16.80 1.56 15.93 15.93 1.76 14.99 14.99 1.98 13.99 13.99 2.23 57 (13.9) 18.36 18.36 1.21 17.60 17.60 1.38 16.78 16.78 1.56 15.91 15.91 1.75 14.97 14.97 1.98 13.97 13.97 2.23 EVAPORATOR AIR CONDENSER ENTERING AIR TEMPERATURES °F (°C) 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (46.1) 125 (51.7) CFM EWB °F CC) Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Total Sens# Total Sens# Total Sens# Total Sens# Total Sens* Total Sens* 25HCE424 Outdoor Section With FB4CNP03CL Indoor Section 700 72 (22.2)_ 24.77 13.05 1.76 23.65 12.62 1.96 22.49 12.19 2.20 21.26 11.73 2.47 19.93 11.25 2.78 18.50 10.73 3.13 67 (19.4) 22.51 16.11 1,77 21.49 15.68 1.97 20.42 15.24 2.21 19.29 14.78 2.48 18.08 14.29 2.79 16.78 13.76 3.14 63 (17.2)[1 20.88 15.49 1.77 19.93 15.06 1.98 18.93 14.61 18.43 2.22 17.88 14.15 2.49 16.76 13.66 2.79 15.55 13.13 3.15 57 (13.9) 19.94 19.94 1.77 19.20 19.20 1.98 18.43 2.22 17.60 17.60 2.49 16.71 16.71 2.79 15.73 15.73 3.14 800 72 (22.2) 25.23 13.71 1.78 24.08 13.28 1.98 22.87 12.84 2.21 21.59 12.38 2.48 20.21 11.88 2.80 18.72 11.36 3.15 67 (19.4) 22.95 17.18 1.79 21.88 16.74 1.99 20.77 16.29 2.22 19.60 15.82 2.49 18.35 15.31 2.80 17.01 14.77 3.16 63 (17.2)tt 21.30 16.48 1.79 20.31 16.04 2.00 19.27 15.59 2.23 18.18 15.11 2.50 17.02 14.61 2.81 15.78 14.06 3.17 57 (13.9) 20.77 20.77 1.79 19.98 19.98 2.00 19.15 19.15 2.23 18.27 18.27 2.50 17.32 17.32 2.81 16.27 16.27 3.16 900 72 (22.2) 25.59 14,34 1.80 24.40 13.91 2.00 23.14 13.46 2.23 21.83 12.99 2.50 20.42 12.49 2.82 18,89 11.96 3.17 67 (19.4) 23.28 18.20 1.81 22.18 17.75 2.01 21.04 17.29 2.24 19.84 16.80 2.51 18.56 16.28 2.82 17.19 15.70 3.18 63 (17.2)tt 21.63 17.43 1.81 20.60 16.98 2.02 19.53 16.51 2.25 18.42 16.02 2.52 17.23 15.49 2.83 15.96 14.92 3.19 57 (13.9) 21.46 21.46 1.81 20.63 20.63 2.02 19.76 19.76 2.25 18.82 18.82 2.52 17.82 17.82 2.83 16.71 16.71 3.18 EVAPORATOR AIR CONDENSER ENTERING AIR TEMPERATURES °F CC) 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (46.1) 125 (51.7) CFM EWB °F (°C) Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Total Sens# Total Sens# Total Sens* Total - Sens# Total Sens# Total - --- Sens# 25HCE430 Outdoor Section With FB4CNP030L Indoor Section 875 72 (22.2) 33.97 17.32 1.97 32.47 16.75 2.17 30.87 16.16 2.40 29.15 15.54 2.67 27.30 14.87 2.98 25.29 14.15 3.33 67 (19.4) 30.80 21.30 1,97 29.42 20.72 2.17 27.96 20.13 2.40 26.39 19.50 2.67 24.69 18.82 2.98 22.86 18.10 3.32 63 (17.2)tt 28.51 20.46 1,97 27.22 19.89 2.17 25.86 19.29 2.41 24.39 18.66 2.67 22.82 17.98 2.97 21.12 17.25 3.32 62 (16.7) 27.99 25.15 1.97 26.74 24.55 2.17 25.44 23.90 2.41 24.07 23.17 2.67 22.67 22.67 2.97 21.30 21.30 3.32 57 (13,9) 27.05 27.05 1.97 26.06 26.06 2.18 25.01 25.01 2.41 23.88 23.88 2.67 22.64 22.64 2.97 21.27 21.27 3.32 1050 72 (22.2) 34.85 18.48 2.00 33.25 17.90 2.21 31.57 17.30 2.44 29.76 16.66 2.71 27.81 15.97 3.02 25.71 15.24 3.37 67 (19.4) 31.61 23.17 2.01 30.15 22.59 2.21 28.60 21.97 2.44 26.95 21.32 2.71 25.18 20.61 3.02 23.27 19.84 3.36 63 (17.2)11 29.28 22.21 2.01 27.91 21.62 2.21 26.47 21.00 2.45 24.94 20.34 2.71 23.29 19.63 3.01 21.52 18.86 3.36 62 (16.7) 28.88 27.53 2.01 27.62 27.37 2.21 26.36 26.36 2.45 25.12 25.12 2.71 23.77 23.77 3.01 22.28 22.28 3.36 57 (13.9) 28.55 28.55 2.01 27.48 27.48 2.21 26.33 26.33 2.45 25.09 25.09 2.71 23.74 23.74 3.01 22.26 22.26 3.36 1125 72 (22.2) 35.15 18.97 2.02 33.53 18.39 2.23 31.81 17.78 2.46 29.96 17.13 2.73 27.99 16.44 3.03 25.85 15.70 3.38 67 (19.4) 31.89 23.96 2.02 30.39 23.37 2.23 28.82 22.74 2.46 27.14 22.07 2.73 25.34 21.35 3.03 23.41 20.56 3.38 63 (17.2)tt 29.55 22.94 2.03 28.15 22.34 2.23 26.69 21.71 2.46 25.12 21.03 2.73 23.45 20.30 3.03 21.66 19.51 3.38 62 (16.7) 29.18 29.18 2.03 28.02 28.02 2.23 26.83 26.83 2.46 25.55 25.55 2.73 24.15 24.15 3.03 22.63 22.63 3.38 57 (13.9) 29.10 29.10 2.03 27.98 27.98 2.23 26.80 26.80 2.46 25.52 25.52 2.73 24.13 24.13 3.03 22.60 22.60 3.38 ee notes on page DETAILED COOLING CAPACITIES# CONTINUED CONDENSER ENTERING AIR TEMPERATURES °F CC) 75 (23.9) 85 (29.4) I 95 (35) I 105 (40.6) I 115 (46.1) Total Sys- tem KW** 3.43 _ CO 0) 00 m m 3.46 3.48 3.48 3.48 3.49 3.50 3.52 3.52 3.53 3.54 CONDENSER ENTERING AIR TEMPERATURES °F CC) 75 (23.9) 1 85 (29.4) 1 95 (35) I 105 (40.6) I 115 (46.1) I 125 (51.7) Total System KW** 4.98 O— 0 0 W 0 0 0 (0 6W 5.02 5.03 5.04 5.04 5.04 W CO 0 N 5.08 5.07 5.07 CONDENSER ENTERING AIR TEMPERATURES °F CC) 75 (23.9) 85 (29.4) I 95 (35) 1 105 (40.6) I 115 (46.1) I 125 (51.7) Total System KW** 5.35 5.33 5.32 J N N CO CO W (0 5.40 5.38 n CO n CO o m (0 10 N 5.45 5.44 N CO CO a a a W (0 6 Capacity MBtuh Sens$ 19.57 25.05 23.95 29.82 29.78 (WO CO O W N 25.58 30.82 30.78 21.70 28.46 27.09 31.64 W 0O co i0 Q n n 001 (0 0) m m COW W m (A N N m m co N cmi N ci 0) 0) CO W W O 0) N 0 a o 1 a Capacity MBtuh 2 0 CO 22.38 28.79 27.52 34.21 34.17 23.60 30.76 N N co 0) (0 (0 N CO CO 24.79 32.64 O +nCO - - (O (0 m CO CO if co C N L m (6 a N m i (7 NN 6,- N N 22.17 17.37 27.13 27.16 22.59 23.67 18.28 27.85 23.87 25.07 19.15 To F a W W W W co O) m m N N W CO n 6 O) N N n O) O (0 m (0 (V O m m m N W W n O O m m W CO n N com co N a a W com m m O CO m 0 (O O t0 a m O n •O N 1- V C a' m m m CO 0 0 n a m a CO N V CO 0 W 0) N m m m W a CO m O n< a m W n CO n (O (O m m m Capacit) Total 26.28 CO V 66 N N uN) m co.- N m 27.13 27.16 m CO n (O m,- N N CO m m r -N N N 27.07 29.14 32.03 TO s%3 I m«y: N y W CO W m(�)mmm7aaaaaaaaa 4 4 4 W CO X N N 0 44 N N V 4 a (0 R 4 (0 (0 a 7 TOm s%3 F N y 0 CO CO v v CO n n nnn 4 4 4 CO (0 CO CO a a4 m m CO CO CO OD v v CO CD v v CO 0) 0) CO CO v v v Total Sys- tem KW** 3.08 3.08 3.08 3.09 3.10 N N 6 0) m m a 0) 0) 0) n 1- 6 0) n n W N N 0) Capacity MBtuh ii C O O co W W n N NNNNN i0 CO 1- 0 m 6 6 W CO CO. O CO N n m N N N N 0 W 0) n N NN 0 a N 44 Capacity MBtuh C Q y (0 nn n '- m O N CO 0 m co co W W W N m CO CO 0 0) N C N N m 0) 0 CO n.- 0 0 co W CO CO CO 0) W T- T- W a N CO CO m 0) W O N W 0) CO m CO MBtuh Sens$ 27.82 0 i0 NI- 0 N N N N 1- 0 0 (V m m N .- 28.77 28.80 23.47 24.54 19.12 29.54 29.57 24.79 25.98 20.01 W •E; W a a a O W N N 0 W CO .- O 0) 0 0 W a O W O 0 0 c00 n CO N N c0 0 W N m m 0 0 0) a N 0 0 O F O 0.- 4 a W n 0 N CO CO N N N W a (0 W V a0' CO 0 (0 n 1- 0 m N 0 n a 0) O 4 a 0 m 0) N ••- 0 N m m Capacity Total 27.82 m N co N CO(0.-NN N m mN4N 28.77 28.80 CO COO m o 0) 29.12 31.35 34.45 0 H d# N W CO W COCOW m m m CO W COCO0) m m N N N 0) 0 m m m N N 0) W m m W W(0 W 0) m m CO 0 0 m m { y; Ymmcmammmmaaaaa N n a a a 7 0 O a a a N 0) a a n n n a a v n W v a N CO mO a a a Capacity MBtuh C N m CO N C N N N O N CO 0) 01 W.- T N N N N CO CO CO N co N 0 co V N COW Capacity MBtuh C y C 2 8 v' N m a' 0 CO CO N a N CO 8 U a m 7 7 s a N CO W I: (WO 0) a s Total Sys- tem KW** Section 2.77 2.77 2.77 m m N N OND m N N m m 41 (J (V (V 2.86 2.86 CO CO CO N N N W N co 0 O m n 0 Ca()0 n00v0001-0000 J co 0 a 0 0 0 0 m (O co m co ) 0) (0 a n W 0 a () 0 F io N 0 C CO m 1-N vs00 a N a (0 O,- i0 n W a y n W a n (o a a a a n W W m s aF COn CO N n O 1 CR MBtuh Sens# NP036L Indoo 29.20 mm NN 23.78 18.96 30.24 30.31 24.26 25.34 19.90 31.13 25.62 26.81 20.80 T. o F(0 0. m a a O Z n CO CO U a a a mriricociriof�ofmciric(ioioico LL CO W a a N O 0 N N a (0 W W �0 0 0 q Br. I- d* 3 >, a' O Z U mcicio)0/01401cococo44444 LL (O m m W O m m o 0) 0 W CO W CO W W W W a o 0 N N N 0 0 0 Capacity Total tion With F840 29.20 n a (0 N c0') 32.48 35.70 a,- N 0 m co0 30.64 33.00 36.25 31.10 31.13 o n1W 0 m CO () N N Capacity MBtuh 0 m (q t N a (0 O n N •- •- N Co n V N N N m CO a 0) LO co 0) 0 m m 10 0 n W 0 W (0 O m N m N N 0) co O 6 n m m m (0 m co a N m O 0 m O 0) m m Capacity MBtuh * C m (0 L_ 3 p(0 - ; m N 1- N (0 (0 N N m m CO 10 N CO O 0) m m a W N CO W(0•- i4 0) N CO CO n cp 0) = N m a a a i0 (0 (0 co W N CO n(0 O W D) W 6 N CO a a Total Sys- tem KW** 2.50 2.50 2.50 2.50 2.50 a a W W N (V a a a W W mW N (V (V WW W N N 2.58 2.58 2.58 m 0 V O co o) O °v?mmcWivvcniNmaarCOim N a 1 co i0 co a 0 co W r- co W co m 0 O N N N co O m m (C H 0 j 8C)$a4v&Zna(341v n O 4) 0 n a W W 0) O (0 n m n N 0 a W CO O n 0 CO cul N co 0 0) 0) 4 MBtuh Sens# 30.46 29.12 23.54 24.50 19.67 31.02 25.00 26.07 20.63 O (n 10 m m 26.38 27.57 , 21.53 ,•‘4,.. HN W 0 = (0 N 0 a N co 0) 11111N )0 0) -N.000000 .-- .- ci m m .- 0 of N m 0 N N m ci «0 FNy E. 3 W 0 m (0 N 0) n W W co ci W (0 a N W N 0 ci co a N W W co o) 0 0 W W W c) 0) ci W n W co. 0 o W W(0 W W W co CO 0) Capacity MBtuh m 0 (f) N 00 W) m W n N N N a(r a 0- ( mO m 0 m n V 0 W N m N W (m0 W W m m CO 14010) W N0) N m m m Capacity MBtuh 8 O (p N CO fh (7 N m CO COW(0 N O) N m CO a v (WO m (0 011-041-1- N00D a a N a (00 O rt m n 00)) W (0 N (0 Capacity Total 30.46 Nn 0000COCOCOCO CO (0 a n 31.89 00)011010 N4 b 00000 N N 32.75 35.25 38.72 0 a m N �- 0 0 a1mNa N N m/- co W N 0 0) W W 1- mo1 (' 0 m N W (' 0) 0 (O R Kv0m W N m 0) ) (C F n W N a co alQv0 N �- W 0) /- n N (0 N m 1 0 0 W n,- a 1N0 aa W a W 0 o n m CO a W CO a 'xi Total Sys- tem KW** 2.26 W N N N N a m N N N N 2.29 2.29 07 CO n N N N (V N N 0) m m m N N CO N m m (7 N N N �O y: O m a N WO n m W N N N CO a W W N N 4 CO 0 W W N N N W n W W N N a( W W N N W W W W N N 2 y; «O 3 F N 0 N N N (0 0) N N N N e) (0 (0 CO CO N N 0) 0 n r 0 N N N 0 (0 0) CO CO CO CO )0 0) N N N CO m m 0) 0) N(.0 MBtuh = 31 63 m co N N m CO N N 32.83 31.85 25.70 26.77 21.34 m 00)) CO CO 27.11 28.29 22.25 Capacity MBtuh M EC , (0 W W m W n a m W N N N N n N a W W CO CO 49.11 25.48 44.77 31.73 41.63 30.52 0 n n 0 n o n CO W (0 W m O) m W N W Capacity MBtuh C m (0 000001N0044-00) O a W a (000110100110)001* �- W m 0) O a m W 0) W i0 m W O W 0 N CO n (0 n Capacity Total 31.63 32.68 33.28 35.87 39.42 CO 0) CO m CV m 33.92 36.53 40.13 a u) CO 0) CO CO 34.40 37.04 40.68 To ti W 0 CO �- 0) n a a N n 0 a v 0) W n 0) 0a eav a a CO W W Nn Q a °W W co N- W ci (o 0 O) o CO 0) .- m vvv0 o CO CO W (0 itW a 0) 1- a a a W CO CO a NNa N W W n 0 W v 1 1 EVAPORATOR AIR m U N v NW WLL N n } - N n n" co m (0 62 (16.7) 57(13.9) 72 (22.2) 67 (19.4) 63 (17.2)1t 62 (16.7) 57 (13.9) 72 (22.2) 67 (19.4) 63 (17.2)tt 62 (16.7) 57 (13.9) EVAPORATOR AIR EWB ° F (° C) mi 72 (22.2) 67 (19.4) 63 (17.2)tt n 0) 66 (0)0 N N 72 (22.2) 67 (19.4) 63 (17.2)tt 62 (16.7) 57 (13.9) 72 (22.2) 67 (19.4) 63 (17.2)11 62 (16.7) 57 (13.9) EVAPORATOR AIR EWB °F (°C) 72 (22.2) 67 (19.4) 63 (17.2)tt 62 (16.7) 57 (13.9) I 72 (22.2) L 67 (19.4) 63 (17.2)tt 62 (16.7) 57 (13.9) N V (V W CV N ((00 63 (17.2)tt 62 (16.7) 57 (13.9) LL O N N 5 N 0 n 5 O 0 O 15 ee notes on page DETAILED COOLING CAPACITIES# CONTINUED EVAPORATOR AIR CONDENSER ENTERING AIR TEMPERATURES °F (°C) 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (46.1) 125 (51.7) CFM EWB °F (°C) Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Capacity MBtuh Total System KW** Total Sens* Total Sens$ Total Sens$ Total Sens* Total Sens* Total Sens$ 1750 72 (22.2) 64.47 36.36 3.53 61.69 35.21 25HCE430 3.88 Outdoor Section 58.75 With FX4DN(B,F)081L 4.30 Indoor Section 4.78 52.18 31.36 5.34 48.43 29.90 5.99 34.01 55.61 32.74 67 (19.4) 58.76 44.97 3.50 5625 43.82 3.86 53.58 42.62 4.27 50.71 41.34 4.76 47.58 39.96 5.32 44.10 38.44 5.96 63 (17.2)tt 5460 43.31 3.48 52.27 42.16 3.84 49.79 40.96 4.25 47.13 39.68 4.74 44.21 38.28 5.29 40.98 36.76 5.94 62 (16.7) 53.59 53.34 3.48 51.34 52.14 3.84 48.98 50.87 4.25 46.43 49.42 4.73 43.81 43.81 5.29 41.19 41.19 5.94 57 (13.9) 51.87 51.87 3.47 50.08 50.08 3.83 48.17 48.17 4.25 46.08 46.08 4.73 43.74 43.74 5.29 41.14 41.14 5.94 2000 72 (22.2) 65.61 38.13 3.59 62.71 36.95 3.95 59.66 35.74 4.37 56.39 34.44 4.85 52.83 33.04 5.41 48.97 31.55 6.06 67 (19.4) 59.86 47.88 3.57 57.21 46.69 3.92 54.43 45.47 4.34 51.45 44.16 4.82 48.19 42.72 5.38 44.64 41.17 6.03 63 (17.2)tt 55.66 46.01 3.55 53.22 44.83 3.91 50.64 43.61 4.32 47.87 42.29 4.80 44.85 40.86 5.36 41.52 39.29 6.01 62 (16.7) 54.79 57.14 3.55 52.47 55.78 3.90 50.08 50.08 4.32 47.80 47.80 4.80 45.32 45.32 5.36 42.54 42.54 6.02 57 (13.9) 53.97 53.97 3.54 52.05 52.05 3.90 49.99 49.99 4.32 47.74 47.74 4.80 45.26 45.26 5.36 42.49 42.49 6.02 2250 72 (22.2) 66.47 39.80 3.66 63.48 38.61 4.02 60.32 37.37 4.43 56.96 36.06 4.91 53.30 34.64 5.47 49.33 33.13 6.12 67 (19.4) 60.67 50.65 3.63 57.94 49.44 3.99 55.07 48.18 4.40 51.99 46.83 4.89 48.67 45.37 5.45 45.03 43.74 6.09 63 (17.2)tt 56.46 48.58 3.61 53.93 47.38 3.97 51.26 46.11 4.38 48.41 44.76 4.87 45.32 43.28 5.43 41.91 41.63 6.07 62 (16.7) 55.83 55.83 3.61 53.75 53.75 3.97 51.56 51.56 4.39 49.17 49.17 4.87 46.57 46.57 5.44 43.63 43.63 6.09 57 (13.9) 55.71 55.71 3.61 53.68 53.68 3.97 51.49 51.49 4.39 49.12 49.12 4.87 46.49 46.49 5.43 43.58 43.58 6.09 t Total and sensible capacities are net capacities. Blower motor heat has been subtracted. $ Sensible capacities shown are based on 80°F (27°C) entering air at the indoor coil. For sensible capacities at other than 80°F (27°C), deduct 835 Btuh (245 kW) per 1000 CFM (480 L/S) of indoor coil air for each degree below 80°F (27°C), or add 835 Btuh (245 kW) per 1000 CFM (480 L/S) of indoor coil air per degree above 80°F (27°C). # Detailed cooling capacities are based on indoor and outdoor unit at the same elevation per AHRI standard 210/240-2008. If additional tubing length and/or indoor unit is located above outdoor unit, a slight variation in capacity may occur. **Sys. kw is total of indoor and outdoor unit kilowatts. tt At TVA rating indoor condition (75°F edb/63°F ewb). All other indoor air temperatures are at 80°F edb. NOTE: When the required data falls between the published data, interpolation may be performed. Extrapolation is not an acceptable practice. EWB - Entering Wet Bulb fi HEAT PUMP HEATING PERFORMANCE INDOOR AIR OUTDOOR COIL ENTERING AIR TEMPERATURES °F (°C) -3 (19.4) 7 (-13.9) 17 (-8.3) 27 (-2.18) 37 (2.8) 47 (8.3) 57 (13.9) 67 (19.4) EDB °F (°C) CFM Capacity MBtuh Total Sys- m teTotal KKW Capacity MBtuh Total Sye- teTotal KKW Capacity MBtuh Total Sys• KW Capacity MBtuh Total Sys• teTotal KKW Capacity MBtuh Total Sys- KKW Capacity MBtuh Total Sys- teTotal KKW Capacity MBtuh Total Sys- KW Capacity MBtuh Total Sys - KW Into 9 Integm Total Integtem Integm Total Integm Integm Total Integtem Total Integtem 35HCE418 Outdoor Section MY FB4CNP018L Indoo Section 65 525 5.26 4.84 1.03 7.45 6.84 1.09 9.80 8.94 1.14 12.54 11.14 1.21 15.07 13.71 1.27 17.87 17.87 1.35 21.00 21.00 1.44 24.19 24.19 1.53 600 5.36 4.93 1.04 7.57 6.95 1.09 9.96 9.08 1.13 12.70 11.28 1.19 15.26 13.89 1.24 18.13 18.13 1.31 21.35 21.35 1.40 24.32 24.32 1.47 675 5.44 5.01 1.04 7.66 7.04 1.09 10.09 9.20 1.13 12.83 11.40 1.18 15.43 14.04 1.23 18.33 18.33 1.29 21.54 21.54 1.37 24.32 24.32 1.43 70 525 4.98 4.58 1.08 7.15 6.57 1.14 9.49 8.65 1.20 12.28 10.90 1.27 14.78 13.45 1.33 17.54 17.54 1.41 20.61 20.61 1.51 23.84 23.84 1.61 600 5.08 4.67 1.08 7.27 6.68 1.14 9.64 8.79 1.19 12.45 11.05 1.25 14.98 13.63 1.31 17.80 17.80 1.38 20.95 20.95 1.47 24.01 24.01 1.55 675 5.16 4.75 1.09 7.38 6.78 1,14 9.77 8.91 1.18 12.58 11.17 1.24 15.14 13.78 1.29 18.01 18.01 1.36 21.21 21.21 1.44 24.05 24.05 1.50 75 525 4.65 4.28 1.13 6,83 6.27 1.19 9.15 8.35 1.25 11.98 10.64 1.33 14.49 13.19 1.40 17.21 17.21 1.48 20.22 20.22 1.58 23.47 23.47 1.69 600 4.74 4.36 1.13 6.95 6.39 1.19 9.31 8.49 1.24 12.16 10.80 1.31 14.69 13.37 1.37 17.46 17.46 1.45 20.55 20.55 1.54 23.68 23.68 1.62 675 4.84 4.45 1.14 7.05 6.48 1.19 9.44 8.61 1.24 12.30 10.93 1.30 14.86 13.52 1.36 17.67 17.67 1.42 20.82 20.82 1.51 23.75 23.75 1.58 ..5HCE424 Outdoor Section With FB4CNP000L Indoor Section 65 700 8.09 7.45 1.53 10.51 9.65 1.59 13.25 12.08 1.65 18.10 14.30 1.71 18.99 17.28 1.79 22.27 22.27 1.88 26.02 26.02 1.98 29.55 29.55 2.06 800 8.23 7.57 1.54 10.66 9.80 1.58 13.63 12.43 1.64 16.28 14.46 1.70 19.22 17.49 1.76 22.55 22.55 1.84 28.19 26.19 1.92 29.49 29.49 2.00 900 8.35 7.69 1.54 10.81 9.93 1.59 13.78 12.56 1.64 16.44 14.60 1.69 19.41 17.67 1.74 22.78 22.78 1.82 26.20 26.20 1.89 29.26 29.26 1.95 70 700 7.69 7.08 1.60 10.12 9.30 1.66 12.77 11.64 1.72 15.81 14.04 1.80 18.67 16.99 1.87 21.95 21.95 1.96 25.62 25.62 2.08 29.23 29.23 2.16 800 7.84 7.21 1.60 10.29 9.45 1.65 12.99 11.84 1.71 15.99 14.20 1.78 18.89 17.19 1.84 22.20 22.20 1.93 25.88 25.88 2.02 29.23 29.23 2.10 900 7.96 7.32 1.61 10.43 9.59 1.66 13.21 12.05 1.71 16.16 14.35 1.77 19.08 17.37 1.83 22.42 22.42 1.91 25.96 25.96 1.98 29.10 29.10 2.05 75 700 7.30 6.71 1.67 9.74 8.95 1.73 12.37 11.28 1.80 15.54 13.80 1,88 18.37 16.72 1.96 21.60 21.60 2.06 25.21 25.21 2.18 28.90 28.90 2.26 800 7.44 6.84 1.67 9.90 9.10 1.73 12.57 11.46 1.79 15.73 13.97 1.88 18.58 16.91 1.93 21.86 21.86 2.02 25.53 25.53 2.12 28.93 28.93 2.20 900 7,55 6.95 1.68 10.03 9.22 1.73 12,73 11.61 1.79 15.88 14.10 1.85 18.76 17.07 1.92 22.08 22.08 2.00 25.68 25.68 2.08 28.88 28.88 2.15 25HCE430 Outdoor Section With FB4CNPOSOL Indoo Section 65 875 10.54 9.70 1.80 13.55 12.45 1,87 17.16 15.64 1.95 20.49 18.19 2.04 24.30 22.12 22.50 2.14 28.57 28.57 2.26 33.42 33.42 2.40 37.91 37.91 2.51 1050 10.81 9.95 1.81 13.87 12.75 1.88 17.44 15.90 1.95 20.83 18.50 2.02 24.73 2.11 29.10 29.10 2.22 33.84 33.84 2.34 37.90 37.90 2.43 1125 10.91 10.04 1.82 13.99 12.85 1.88 17.54 15.99 1.95 20.96 18.61 2,02 24.88 22.64 2.11 29.28 29.28 2.22 33,88 33.88 2.32 37.80 37.80 2.41 70 875 10.08 9.27 1.87 13.10 12.04 1.95 16.82 15.34 2.04 20,13 17.88 2.13 23.89 21.74 2.23 28.09 28.09 2.35 32.88 32.88 2.50 37.48 37.48 2.62 1050 10.34 9,51 1.89 13.40 12.31 1.95 17.12 15.61 2.03 20.47 18.18 2.11 24.31 22.12 2.20 28.60 28.60 2.31 33.42 33.42 2.44 37.51 37.51 2.53 1125 10,44 9.60 1,90 13.51 12.42 1.96 17.23 15.71 2.04 20.59 18.29 2.11 24.46 22.26 2.20 28.79 28.79 2.31 33.53 33.53 2.42 0.00 0.00 0.00 75 875 9.81 8.84 1.95 12.64 11.62 2.02 16.08 14.66 2.11 19.78 17.57 2.22 23.48 21.37 2.32 27.62 27.62 2.45 32.34 32.34 2.60 37.01 37.01 2.73 1050 9.86 9.07 1.96 12.94 11.89 2.03 16.76 15.28 2.12 20.11 17.86 2.20 23.89 21.74 2.30 28.11 28.11 2.41 32.93 32.93 2.54 37.11 37.11 2.84 1125 9.95 9.16 1.97 13.05 11.99 2.04 16.87 15.39 2.12 20.23 17.97 2.20 24.04 21.88 2.29 28.30 28.30 2.40 33.08 33.08 2.52 37.07 37.07 2.62 :5HCE436 Outdoor Section With FB4CNP0316L Indoor Section 65 1050 12.92 11.89 2.18 16.50 15.16 2.26 20.40 18.60 2.34 24.90 22.12 2.45 29.12 26.50 2.55 33.86 33.86 2.66 39.25 39,25 2.81 45,49 45.49 3.02 1200 13.19 12.13 2.20 16.81 15.44 2.27 20,77 18.94 2,35 25.23 22.40 2.44 29.49 26.84 2.53 34.32 34.32 2.63 39,87 39.87 2.76 46.23 46,23 2.94 1350 13.43 12.35 2.23 17.08 15.69 2.29 21.13 19.27 2.36 25.51 22.66 2.44 29.82 27.14 2.52 34.70 34.70 2.61 40.38 40.38 2.74 46.70 46.70 2.88 70 1050 12.30 11.32 2.26 15.91 14.62 2.34 19.81 18.06 2.43 24.51 21.77 2.55 28.67 26,09 2.65 33.35 33.35 2.77 38.60 38.60 2.93 44.71 44.71 3.15 1200 12.56 11.56 2.28 16.22 14.90 2.36 20.15 18.38 2.44 24.82 22.05 2,54 29.04 26.43 2.63 33,80 33.80 2.74 39.20 39.20 2.88 45.47 45.47 3.07 1350 12.80 11.77 2.31 16.48 15.15 2.38 20.47 18.66 2.45 25.10 2229 2.55 29.36 26.72 2.63 34.19 34.19 2.72 39.70 39.70 2,85 46.01 46.01 3.02 75 1050 11.66 10.73 2.35 15.30 14.06 2.43 19.20 17.50 2.53 24.07 21.37 2,66 28.23 25.69 2.77 32.83 32.83 2.89 37,95 37.95 3.06 43.92 43.92 3.29 1200 11.92 10.97 2,37 15.60 14.34 2.45 19.54 17.82 2.53 24,41 21.68 2.65 28.60 26.02 2.75 33.28 33.28 2.85 38.54 38.54 3.00 44.68 44.68 3.22 1350 12.15 11.18 2.40 15.87 14.58 2.47 19.85 18.10 2.55 24.69 21.93 2.65 28.91 26.31 2.74 33.68 33.66 2.84 39.03 39,03 2.98 45.28 45.28 3.16 See notes on page 18 4 • HEAT PUMP HEATING PERFORMANCE CONTINUED OUTDOOR COIL ENTERING AIR TEMPERATURES °F (°C) -3 (19.4) I 7 (-13.9) 1 17 (-8.3) 1 27 (-2.18) 1 37 (2.8) I 47 (8.3) 57 (13.9) 67 (19.4) q Tq E Gy« rd (') nM M cj Cj N N N 6 fM CJ rn m 0 C) ah ah d m N Cj tj C) O N m a c'i Ci 8 M a a M N a a O d a a O O a a M N a a m M a a Capacity MBtuh a _ 2; M 3 M M o rn n 0 N N a 4 N N N N aro e P N N N o 2 m m m m m m m m M m . M M v 2 N N ago 8 N R m m n r 1.0 F m M in Nd M M rn m rd M N N r M M N N N mn Nd m m m N N rn m O 0 0 �m m m i M zM rn n^^ d rn a $ N N M 0 N n m N n n i.!y 3 dM m c!,,!!!!71,4 Nj .74 ,:ii000J CN mNm ln7 N� N N O N 7, N N am Nra rN Capacity MBtuh rn _ N mm044444n N m N O N M M m m rn n ah33888403 . m m rn m M rn 338833822 NM d 0)d N rn M m N r N N m m m m N n n n n r M M N m r r m rn- n N N N N N rn N M M m m d O M N d 71 M d N rn d N M m 0 8 I a Fye E m d O 660700666 N n d r d m m d N 000666444 N m N N r d M a m n d a N r d a N N 6 6 m M a a Capacity MBtuh r N d O� V N N O< m? d V< m 0 0 0 V O N r id(1 m m 0 2 0 'd N m 0 8' M M W N M N m C N m N 2 N O r m O M V 8 d d H m d O N Q Q O d 0 d d d d m M R d< m m n 8 8 8 O N d R 8 8 O N V O 0 N O N m 0 N alma O�^ 3 N O N N NN. 3 N P3 OM rnNm m d o m m tNd7 N� lM rn CN lN7 NMrNd W7 rn :35 rm7 OMN aO�rn -6d «6 rn m rn m Capacity MBtuh r _ N N ; N N M N O m NM m m n N N c l7 N y y r O td N b M N 0 02 7 h 2 N .n 2 d m ry a % M O N V a R �n N M n N M N M N N M a `o m vi J M a m rn ro o M M rn N rn t$ " M M M O r rn a v) N M M M -° J v o n m 2 of o M M d m o n 8$ of M M M m i 0 8 O m e ,7-, r, n M O d o M m 4 4 d d d d 4 4 d d m r r 4 d d 2 ry 4 n d d a F y« Eq a = m N LL d d N N m m N N N «_ rn M co Cl a Z 'al. r ,`2.r_ M M co rn m rn 6 a7 l7 m a7 co LL m m m^ 6 Q 0 X m a7 a7 '8.m co 6 0 `.2. a7 a 71.d a d Capacity MBtuh rn§ 0 L g 2.-.^44P.8888§224.28843 o rom - N w N N a6 r N N N N a6 a6 N N N t 5 0 �- U ar of o o N M M 0 N of rn N N ao ari N N N 0 r; 0 N � M N 2.888238 d 0066000 0 0 M 00‘,,,... N 0 O 0 0 r M M 0 d m 0 01 0 o y Q N V O O O rn 8 8 OM N N 8 o N m N N N N y 0 -o; 0 N m N 8 M d m 0 n M 2 2 '4.). N 2 o u y y m 8 d o O O Q m 0 0 0 N nm 0 M _ -N rn o 0 m m fy5= E 3 Wn N N 228382823888:=2-28834832P.82888 N N N N m N N N N M N M V V N= 0 O O N [ C7 a 0N M !M M 8 O C) M o 0 QOO 6 M y U7 M N 8 M M 0 d m 0 m b 7 0 Capacity MBtuh drn 11 N m N 2 N M mN O NN N NM N M ; N N N m N O a a N N d r N N a N r z;-, N N d N m n NN 8 O M 3 n 2 N m M O m N N rn rn T. F 2 < N N 2 2 m d rn d d d m n N M M a m N d N N N O v d m m m m ry8 M N m N o N M M d O m N N O N 0 M O N NM N � w T A y E 3 � Se 'CI � o m N N rn m m m r N N N rn 0, r a0 aD N N N m cc'. Ol N N n N rn 01 0 N lV a� N M M 'c:75 M M m m m .- M d d N M M M M d a0 m !7 (� m n C) M m m M r) Capacity MBtuh d) _ M m rn ac �m m 8 N <� - �m O N N .n rr O O M � o o 2� N O m OO 0 N �m r� 0 0 8 Na 0 0 0 rn a N n M a 1 N 0 0 a W F rn p) m m O O O N N 2- 2 6 N O n 6 ' .° O m N N Rt- N O r m g O N ; M t-0 a.D mm N N N N Nn N, M d N m Z3-, m FHA m 2 N N q E > F y - A m d N o N i0 N N N (0 m ::'N' N N N m m n m CI N N N m n n 0 N N N n ''‘‘o3. l0 0 N N rn N M M N M m O N M M d M M M M m« d N M M N a0 M M 0 n 0 0 Capacity MBtuh. 0rn .8 N d d rn d a 0 0 O vvi 6 m 2 M N M d m d vvi u N N m aa 6 r 8 co N rn N rn O co 000000000 N m 0 O N N 0 ii m0 1 0 N m m n 7 d N ( O N N a a a 8 0 0 m m n V m O N vd 6! 0 oc N dN d cr. m d o o m N ai d m o; o O O 0 E LL N O 0 0 O N N O r N d N N O N 0 !� N d N 0 0 0 0 0 0 d m m 0 0 0 0 0 0 d m m 0 0 0 d m 0 0 0 0 N O m n N 0 0 O r N 0 0 N N N r 0 0 O N mU W .LL,, 8 2 N N 2 N 8 2 N 18 0 U 0- 8 8 0) «63. C 9 O O N d N U) 0 O -0 (15 3 m -o O R Y N L T 'o L 0 N C � R N O L C 0 d N E � N > a� O_ y • N y L U O U w U R O) yam- "0 N R R N O_ L 'O U m U R L y R C y F � 1512; R C U 0) y R L O C z • E TD 0 a ▪ L O y W E m w O U E N Y 8 R d Tel T 0) 0 R L E 0 C 0 O L O a o 0 N � C N C O -0 • N O R O fn O) E It,d C O C (0 a.. L ° O N a 7 `073 O C N N Zs E R p OU R > m C L N CO N 21- U U m • O C C co CD R C L ni N L L > C s F- ▪ L L m O I— I— Q z k 4- 11.1 1 GUIDE SPECIFICATIONS GENERAL System Description Outdoor -mounted, air-cooled, split -system heat pump unit suitable for ground or rooftop installation. Unit consists of a hermetic compressor, an air-cooled coil, propeller -type condenser fan, and a control box. Unit will discharge supply air upward as shown on contract drawings. Unit will be used in a refrigeration circuit to match up to a packaged fan coil or coil unit. Quality Assurance Unit will be rated in accordance with the latest edition of AHRI Standard 240. Unit will be certified for capacity and efficiency, and listed in the latest AHRI directory. Unit construction will comply with latest edition of ANSI/ ASHRAE and with NEC. Unit will be constructed in accordance with UL standards and will carry the UL label of approval. Unit will have C -UL approval. Unit cabinet will be capable of withstanding Federal Test Method Standard No. 141 (Method 6061) 500 -hr salt spray test. Air-cooled condenser coils are pressure tested and the outdoor unit is leak tested. Unit constructed in IS09001 approved facility. Delivery, Storage, and Handling — Unit will be shipped as single package only and is stored and handled per unit manufacturer's recommendations. Warranty (for inclusion by specifying engineer) — U.S. and Canada only. PRODUCTS Equipment Factory assembled, single piece, air-cooled heat pump unit. Contained within the unit enclosure is all factory wiring, piping, controls, compressor, refrigerant charge Puron® (R -410A), and special features required prior to field start-up. Unit Cabinet — Unit cabinet will be constructed of galvanized steel, bonderized, and coated with a powder coat paint. — Available with dense grille only. AIR-COOLED, SPLIT -SYSTEM HEAT PUMP 25HCE4 1-1/2 TO 5 NOMINAL TONS Fans Condenser fan will be direct -drive propeller type, discharging air upward. Condenser fan motors will be totally enclosed, 1 -phase type with class B insulation and permanently lubricated bearings. Shafts will be corrosion resistant. Fan blades will be statically and dynamically balanced. Condenser fan openings will be equipped with steel wire safety guards. Compressor — Compressor will be hermetically sealed. — Compressor will be mounted on rubber vibration isolators. Condenser Coil Condenser coil will be air cooled. Coil will be constructed of aluminum fins mechanically bonded to copper tubes which are then cleaned, dehydrated, and sealed. Refrigeration Components Refrigeration circuit components will include liquid -line shutoff valve with sweat connections, vapor -line shutoff valve with sweat connections, system charge of Puron® (R -410A) refrigerant, POE compressor oil, accumulator, and reversing valve. Operating Characteristics The capacity of the unit will meet or exceed Btuh at a suction temperature of °F/°C. The power consumption at full load will not exceed kW. Combination of the unit and the evaporator or fan coil unit will have a total net cooling capacity of Btuh or greater at conditions of CFM entering air temperature at the evaporator at °F wet bulb and °F/°C dry bulb, and air entering the unit at °F/°C. — The system will have a SEER of Btuh/watt or greater at DOE conditions. Electrical Requirements Nominal unit electrical characteristics will be v, single phase, 60 hz. The unit will be capable of satisfactory operation within voltage limits of v to v. Unit electrical power will be single point connection. Control circuit will be 24v. Special Features — Refer to section of this literature identifying accessories and descriptions for specific features and available enhancements. 6 • SYSTEM DESIGN SUMMARY 1. Intended for outdoor installation with free air inlet and outlet. Outdoor fan external static pressure available is less than 0.01 -in. wc. 2. Minimum outdoor operating air temperature without low -ambient operation accessory is 55°F (12.8°C). 3. Maximum outdoor operating air temperature for cooling mode is 125°F (51.7°C). 4. Minimum •outdoor operating air temperature for heating mode is —30°F (-34.4°C). 5. Maximum outdoor operating air temperature for heating mode is 66°F (18.9°C). 6. For reliable operation, unit should be level in all horizontal planes. 7. For interconnecting refrigerant tube lengths greater than 80 ft (23.4 m) and/or elevation differences between indoor and outdoor units greater than 20 ft (6.1 m), consult Residential Piping and Longline Guideline and Service Manual available from equipment distribut- or. 8. If any refrigerant tubing is buried, provide a 6 in. (152.4 mm) vertical rise to the valve connections at the unit. Refrigerant tubing lengths up to 36 in. (914.4 mm) may be buried without further consideration. Do not bury refrigerant lines longer than 36 in. (914.4 mm). 9. Use only copper wire for electric connection at unit. Aluminum and clad aluminum are not acceptable for the type of connector provided. 10. Do not apply capillary tube indoor coils to these units. 11. Factory -supplied filter drier must be installed. Copyright 2015 Carrier Corp. • 7310 W. Morris St. • Indianapolis, IN 46231 Edition Date: 03/15 Catalog No:25HCE4-02PD Manufacturer reserves the right to change, at any time, specifications and designs without notice and without obligations. Replaces: 25HCE4-1 PD 20 Commercial Submittal Sheet HOSAARGfil 600 Series MANUFACTURING Aluminum Lattice Return Air Grille a 0 ................1111.......11■ munnimmamaimmussma ■■■■■■■■■■■■■■■■■■■■■■■■1111. winimmumummismi simummummummummom ■■■■■■■■■■..■..11111111111111■■■■i mmumonsammummi sommosommemmamme mummunnummiummin mummireammummusi nommumminummaimi ■■■■11■■■■■■............111111 111.11111111111111111111111111111111111111111111111111111111111 muniumummummmum MON MMMMM WHH1111111111111111111111111111111111 NOMINAL DUCT NOMINAL- 1/2 . �II 111 1111111111111111.1., --01 L:3- 1/2 (� NOMINAL +1 7/8 600 NOMINAL -1/4 17/8 l;,""," 1 1 1 1 1 1 1 f 1 1 1 1 1 1 1111111I111111if m' 1/2 NOMINAL +1 7/8 600 0 NOMINAL -1/2 — OPTIONAL 1 X 1 X 1 NOMINAL +1 7/8 600 (with 1 x 1 x 1" lattice) Model: 600 Description: Aluminum Lattice Return Air Grille Standard Features: • 1/2" x 1/2" x 1/2" aluminum lattice surface mount grille • Extruded aluminum frame with signature line marks Lattice material 90% free area Countersunk mounting holes for flush appearance with color matching Phillips posi- drive screws • Rust resistant pre -coat with durable powder finish • Soft White Options: ❑ Recessed screwdriver operated Opposed Blade Damper (600-0) ❑ 1" x1" x1" Lattice ❑ 1/2" x 1/2" x 1" Lattice ❑ Continuous length with butt joints ❑ Fractional, exact I.D. and O.D. sizes ❑ MRI Compatible ❑ Insect Screen ❑ 2" ADC compliant round collar with bead for ease of installation – available in square sizes only ❑ T-20 Tamper Proof Screws Finishes: Standard Colors ❑ Soft White ❑ Driftwood Tan Additional Information: Project / Location: Engineer: Architect: Contractor: Designer Colors ❑ Almond ❑ Coffee Tan ❑ Black Velvet E Navajo White ❑ Bronze ❑ Vanilla R�f_VI y1PED CODE COMPLIANCE APPROVED DEC 282018 City of Tukwila BUILDING DIVISION Other ❑ Aluminum Paint ❑ Glossy White ❑ Mill Finish RECEIVED CITY OF TUKWILA DEC 17 2018 PERMIT -CENTER - Submittal Notes Last Revised: 7/24/2017 • Commercial Submittal Sheet HOIMA1i 600 Series MANUFACTURING Aluminum Lattice Return Air Grille t a ■EEEEEEE■■■■■EEEEEEEEEEE■E. 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NOMINAL DUCT NOMINAL - 1/2 IIIII11111111 —� lo— 1/2 NOMINAL +1 7/8 I 1111., I 600 ff rr NOMINAL -1/4 t rr 13 1 778-7=1F-1 4 iI I 1/2 NOMINAL +1 7/8 600 0 NOMINAL -1/2 — OPTIONAL 1 X 1 X 1 f --cI NOMINAL +1 7/8 600 (with 1 x 1 x 1" lattice) Additional Information: Project / Location: Engineer: Model: 600 Description: Aluminum Lattice Return Air Grille Standard Features: • 1/2" x 1/2" x 1/2" aluminum lattice surface mount grille • Extruded aluminum frame with signature line marks • Lattice material 90% free area • Countersunk mounting holes for flush appearance with color matching Phillips posi- drive screws • Rust resistant pre -coat with durable powder finish • Soft White Options: ❑ Recessed screwdriver operated Opposed Blade Damper (600-0) ❑ 1" x 1" x 1" Lattice ❑ 1/2" x 1/2" x 1" Lattice ❑ Continuous length with butt joints ❑ Fractional, exact I.D. and O.D. sizes ❑ MRI Compatible ❑ Insect Screen ❑ 2" ADC compliant round collar with bead for ease of installation – available in square sizes only ❑ T-20 Tamper Proof Screws Finishes: Standard Colors ❑ Soft White ❑ Driftwood Tan Designer Colors ❑ Almond ❑ Black Velvet ❑ Bronze ❑ Camaro Silver El Coffee Tan El Navajo White ❑ Vanilla Other ❑ Aluminum Paint ❑ Glossy White ❑ Mill Finish Architect: Contractor: Submittal Notes Last Revised: 7/24/2017 4 Commercial Submittal Sheet HOEMIKGR 935T Series MANUFACTURING Fixed 45° Steel Blade T -Bar Return Air Grille T -BAR FRAME 21 3/8 - c ...Lr>r�,r»>rrrr,r»rrrrrrrrr>r>rl.... BLADES FIXED AT 450 23 3/4 T -BAR FRAME 935T 21 3/4 a IEzsi 13/16 jiftftflftfifif„f11 27/8 BLADES FIXED AT 45° 23 3/4 T -BAR FRAME 935T -O SHOWN WITH OPTIONAL SQUARE TO ROUND COLLAR COLLAR SIZE 6.20 / 4 5/8 BLADES FIXED AT 45° 233/4 935T with Square to Round Collor (optional) 1 3/4 Model: 935T Description: Fixed 45° Steel Blade T -Bar Return Air Grille Standard Features: • Fixed 45° steel blade T -Bar lay -in return air grille • Extruded aluminum frame with signature line marks • Square collar designed for 22" x 22" duct • Rust resistant pre -coat with durable powder finish • Soft White Options: ❑ Recessed screwdriver operated Opposed Blade Damper (935T-0) ❑ Fixed 45° airfoil blades (905T) ❑ 2" ADC compliant round collar with bead for ease of installation O 1x 2 T -Bar (10"x22"duct) ❑ 2 x 4 T -Bar (22" x 46" duct) Finishes: Standard Colors ❑ Soft White Designer Colors ❑ Almond ❑ Black Velvet ❑ Bronze ❑ Camaro Silver ❑ Coffee Tan ❑ Navajo White ❑ Vanilla Other ❑ Satin Anodized ❑ Glossy White REVIEWED FOR CODE COMPLIANCE APPROVED DEC 2 8 2018 City of Tukwila BUILDING DIVISION Additional Information: Project / Location: I Engineer: Architect: Contractor: RECEIVED CITY OF TUKWILA DEC 17 2018 PERMIT CENTER 1918- GR4 Submittal Notes Last Revised: 6/7/2016 Y Commercial Submittal Sheet HOtEIMI1 935T Series MANUFACTURING Fixed 45° Steel Blade T -Bar Return Air Grille T -BAR FRAME T -BAR FRAME 21 3/8 BLADES FIXED AT 45° 23 3/4 935T 21 3/4 pftflflflfiflfjllc 27/8 UZI BLADES FIXED AT 45° 23 3/4 935T -O SHOWN WITH OPTIONAL SQUARE TO ROUND COLLAR COLLAR SIZE T -BAR 1 6 -20 - FRAME /16 11 4 5/8 1,,,,,,,,,,,,,,,/,//1,,, BLADES FIXED AT 45°� 23 3/4 1 314 935T with Square to Round Collor (optional) Model: 935T Description: Fixed 45° Steel Blade T -Bar Return Air Grille Standard Features: • Fixed 45° steel blade T -Bar lay -in return air grille • Extruded aluminum frame with signature line marks • Square collar designed for 22" x 22" duct • Rust resistant pre -coat with durable powder finish • Soft White Options: ❑ Recessed screwdriver operated Opposed Blade Damper (935T-0) ❑ Fixed 45° airfoil blades (905T) ❑ 2" ADC compliant round collar with bead for ease of installation ❑ 1 x 2 T -Bar (10" x 22" duct) ❑ 2 x 4 T -Bar (22" x 46" duct) Finishes: Standard Colors ❑ Soft White Designer Colors ❑ Almond ❑ Black Velvet ❑ Bronze ❑ Camaro Silver ❑ Coffee Tan ❑ Navajo White ❑ Vanilla Other ❑ Satin Anodized ❑ Glossy White Additional Information: Project / Location: Engineer: Architect: Contractor: Submittal Notes Last Revised: 6/7/2016 .� COOK ACE -D Downblast Centrifugal Exhaust Ventilator Roof Mounted/Direct Drive STANDARD CONSTRUCTION FEATURES: All aluminum housing - Backward inclined all aluminum wheel - Two piece top cap with stainless steel quick release latches (sizes 120 - 180) - Welded curb cap corners - Birdscreen - Permanently lubricated ball bearing motors - Corrosion resistant fasteners - Transit tested packaging. Performance Qty Catalog Number Flow (CFM) SP (inwc) Fan RPM Input Watts t.p, FEG 1 90C15DL 329 .500 1715 90 n/a(<1HP) Altitude (ft): 300 Temperature (F): 70 Motor Information HP RPM Volts/Ph/Hz Enclosure TOL 1/8 1550 115/1/60 ODP -SE Yes Sound Data Inlet Sound Power by Octave Band 1 2 3 4 5 6 7 8 LwA dBA Sones 69 66 69 63 57 56 53 50 66 54 7.3 Accessor'es: BDM-12 MTR DPR 115V ROOF CURB RCG 16-9.5 H v9 5 90 0 VIEWED FOR COMPLIANCE APPROVED DEC 2 8 2018 City of Tukwila BUILDING DIVISION Fan Curve Legend MARK: EF -01 PROJECT: STONEWAY ROOFING DATE: 12/16/2018 Fes-- T Sq. Dimensions (inches A 2-1/2 B 18-3/4 C 16-13/16 G 2 T Sq. 18 Roof Open. Sq.* 13-1/2 NOTE: Accessories may affect dimensions shown. Shipping Weight(Ibsp***I 53 IREC Roof opening size for curbs supplied by > `ly. H F 1 U *'*Includes fan, motor & accessories. 1.00 0.80 0.60 0 N 0.40 CFM vs SP CFM vs Watts Point of Operation 0 System Curve 0.20 0.00 DEC 17 2018 PERMIT CENTER Fan Curve i1 0 100 200 300 Flow (CFM) 400 100 80.0 60.0-a 40.0 y 20.0 0.00 500 COOK BDM Motorized Backdraft Damper STANDARD CONSTRUCTION FEATURES: .020 aluminum blades - .060 aluminum frame - Aluminum hinge pins - Brass bushings - Non -overloading motor. Notes: Max operating temperature 130 Deg F (50 Deg C) Dimensions (inches) PROJECT: STONEWAY ROOFING DATE: 12/16/2018 Conduit wiring connection. Motor (see note) I Air Flow Mark Qty Description A B Max C E Sq. # Motors EF -01 1 BDM-12 MTR DPR 115V 1-7/8 5-3/16 8 11-3/4 1 v9.5.90.0 COOK RCG Galvanized Steel Roof Curb STANDARD CONSTRUCTION FEATURES: 18 gauge galvanized steel - 1-1/2", 3 lbs. density thermal and acoustical insulation - Continuously welded corners Wood nailer. Options:(As noted below*) 1) No wood nailer (deduct 1-1/2" for actual height). 2) Damper tray. Dimensions (inches PROJECT: STONEWAY ROOFING DATE: 12/16/2018 Wood Nailer V Sq. F Sq. Insulation Mark Qty Description Ht Options* A F Sq. V Sq. W Sq. Roof Opening EF -01 1 RCG 16 9.5 2; 1-1/2 16-1/2 20-1/2 9-3/4 13-1/2 v9 5 90.0 W Sq. Roof Opening A Ht. Optional Damper Tray 24 SPECIFICATIONS & DIMENSIONS 3 HE INDOOR UNIT 1X:r Download specification at: renewaire.com/specifications AIRFLOW PERFORMANCE Motor HP Phase Energy Recovery Ventilator Standard & Bypass Economizer Opt SPECIFICATIONS on Intertek Ventilation Type: Static plate, heat and humidity transfer Typical Airflow Range: 250-925 CFM AHRI 1060 Certified Core: One L125 -G5 Standard Features: Non-fused disconnect 24 VAC transformer/relay package Filters: Total qty. 2, MERV 8: 20" x 20" x 2" Unit Dimensions & Weight: 401/2" Lx233/4"Wx503/4" H 201-272 lbs., varies by option(s) Max. Shipping Dimensions & Weight (on pallet): 30"Lx42"Wx71"H 325 lbs. Accessories box shipped loose on top of unit. Motor(s): Qty. 2, 0.75 HP ea., Direct drive blower/standard motor packages r 1. L L Options: Qty. 2, EC Motor (see HE1XINV EC Motor submittal) - 0.5 HP 120V/1 Ph/60HZ, 0.5 HP 208-230V/1 Ph/60HZ Integrated programmable controls Fused disconnect Double wall construction Low -leakage motorized isolation dampers - OA, RA or both airstreams Qty. 2, Factory mounted filter alarms Independent blower control Exterior paint - white, custom colors Bypass economizer (see bypass DIM drawing) - dry-bulb temperature controls (standard), enthalpy controls (option) Accessories: Filters - MERV 13, 2" (shipped loose) Backdraft damper 12" Motorized isolation damper - both airstreams Wall cap 12" - galvanized, paintable galvanneal Solid state speed control kit - 115V, Qty. 1, 208-230V, Qty. 1 Digital time clock - wall mount (TC7D-W), in exterior enclosure (TC7D-E) Motion occupancy control - ceiling mount (MC -C), wall mount (MC -W) Carbon dioxide control - wall mount (CO2 -W), duct mount (CO2 -D) Electric duct heater - EK series (1-60 kW) Indirect gas-fired duct furnace - GH series (50-400 MBH), installed downstream of any fans External Static Pressure (Inches Water Column) 0.0 0.25 0.5 0.75 0.9 1.25 1.5 0.75 Single Phase 0.75 Three Phase 970 CFM 1,490 Watts 925 CFM 1,375 Watts 860 CFM 1,270 Watts 795 CFM 1,160 Watts 750 CFM 1,090 Watts 635 CFM 950 Watts 970 CFM 1,246 Watts 925 CFM 1,158 Watts 860 CFM 1,039 Watts 795 CFM 928 Watts 750 CFM 856 Watts 635 CFM 691 Watts 480 CFM 825 Watts 480 CFM 509 Watts Note: Watts is for the entire unit (2 motors). Note: Airflow performance includes effect of clean, standard filter supplied with unit. ELECTRICAL DATA HP Volts HZ Phase FLA per motor Min. Cir. Amps Max. Overcurrent Protection Device 0.75 120 60 Single 9.0 20.3 25 0.75 208-230 60 Single 4.5 10.1 15 0.75 277 60 Single 3.9 8.8 15 0.75 208-230 60 Three 1.7-2.3 5.2 15 0.75 460 60 Three 1.15 2.6 15 Specifications may be subject to change without notice. RENEWAIRE.COM 1.800.627.4499 CORE PERFORMANCE REVIEWED FOR CODE COMPLIANCE APPROVED 200 90% C 70% 4) > 50% W 30% Airflow (CFM) 400 600 800 1000 DEC 282018 City of Tukwila BUILDING DIVISION At AHRI 1060 standard conditions. See at AHRI certified ratings at www.ahrinet.org. (eq RECEIVED CITY OF TUKWILA DEC 17 2018 PERMIT CENTER !a RenewAire` : serlsibte I . _ I Wir,r- mmr-T 4- i DEC 282018 City of Tukwila BUILDING DIVISION At AHRI 1060 standard conditions. See at AHRI certified ratings at www.ahrinet.org. (eq RECEIVED CITY OF TUKWILA DEC 17 2018 PERMIT CENTER !a RenewAire` FOR THE MOST COMPLETE AND CURRENT INFORMATION VISIT RENEWAIRE.COM HE1Xtl\V Energy Recovery Ventilator Standard or EC Motor Option 23 3/4"y Overall TOP VIEW RA Isolation Damper Wiring Conn. 50 3/4" Overall Power and Control W ring Inlets 07/8" LEFT VIEW 012" ISOMETRIC VIEW 9" TYP. 6 TYP. FRONT VIEW RIGHT VIEW (OA/RA) DAMPER OPTION (QTY. 2) (SHIPPED LOOSE) SCALE 1:16 Pressure Ports (4) Typ. 34 7/8" Case — 1 H -i- 2 7/8" Typ. 49 1/8" Case 3/4" - 1 7/8" Typ. Door Interlocked Disconnect Switch Leveling Feet (4) FRONT VIEW 113 0) 0 oE E ° 2 °o E c ABBREVIATIONS EA: Exhaust Air to Outside OA: Outside Air Intake RA: Room Air to be Exhausted FA: Fresh Air to Inside INSTALLATION ORIENTATION Unit may be installed in any orientation. NOTE 1. UNLESS OTHERWISE SPECIFIED, DIMENSIONS ARE ROUNDED TO THE NEAREST EIGHTH OF AN INCH. 2. SPECIFICATIONS MAY BE SUBJECT TO CHANGE WITHOUT NOTICE. 3. DAMPERS SHIPPED LOOSE, HELD INSTALLATION REQUIRED 20 1/8" Minimum Service Area (Doors can be Removed from Hinges.) 29" 21 3/4" Case Door SYving I � OA Isolation Damper Wiring Conn. RIGHT VIEW 8 5/8" ti AIRFLOW CONFIGURATION Available as shown in dimension drawing. HE -SERIES A / UNIT MOUNTING & APPLICATION Can be mounted in any orientation. RA/EA airstream can be switched with 0A/FA airstream unless certain options are selected. CONFERENCE 111 COOLING COIL PEAK Peaked at Time: Mo/Hr: Outside Air: OADB/WB/HR: Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> 0 0 0 0 0 0 -136 0 0 24 -112 Plenum Sens. + Lat Btu/h 0 0 0 0 0 0 0 0 Room Checksums By Johansen Mecanical Inc CLG SPACE PEAK 7 / 14 Mo/Hr: 7 / 15 79 / 64 / 67 OADB: 80 Net Percent Space Percent Total Of Total Sensible Of Total Btu/h (%) Btu/h (%) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 -136 -2 -136 -2 0 0 0 0 0 0 0 0 24 0 75 1 -112 -1 ' -61 -1 926 231 1,157 14 926 16 6,780 0 6,780 84 4,153 73 1,195 0 1,195 151 1,195 21 8,900 231 9,132 114 6,273 110 -64 0 64 0 0 65 1 -900 -900 -11 -577 -10 0 0 0 0 0 0 0 0 0 0 0 0 -78 -78 -1 0 0 0 0 0 0 0 0 0 0 0 0 0 7,952 90 8,042 100.00 5,699 100.00 Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total =_> Cei Ve Ad Ov Ex 0 R A S S HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Space Sens Btu/h 0 0 0 0 0 0 -2,638 0 0 -656 -3,294 v WEDS 0 0 0 0 A Irta fVPLIANGE Undr SiPROVED 0 aust Heat Preheat Diff. Prehea ditional MitF. 8 2018 tem Plenum Heat derflr Supmae Ht Pkup� pp'Y �rtr 1 UkWila ANG DIVISION Total Capacity ton MBh Main Clg 0.7 8.0 Aux Clg 0.0 0.0 Opt Vent 0.1 1.2 Total 0.8 9.2 COOLING COIL SELECTION Sens Cap. MBh 5.8 0.0 1.2 Coil Airflow cfm 259 0 105 Enter DB/WB/HR Leave DB/WB/HR °F °F gr/lb °F °F gr/Ib 75.6 63.9 0.0 0.0 80.0 63.9 71.6 55.0 53.5 0.0 0.0 0.0 64.4 70.0 60.4 RECEIVER CITY OF TUKWILA 59.6 0.0 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -2,638 31.27 0 0.00 0 0.00 -656 7.77 -3,294 39.04 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -1,732 20.53 0 0 0 0.00 21 -0.25 -3,349 39.69 0 0.00 0 0.00 -83 0.98 0 0.00 0 0.00 -8,437 100.00 TEMPERATURES Cooling SADB 55.0 Ra Plenum 75.6 Return 75.6 Ret/OA 75.6 Fn MtrTD 0.0 Fn BIdTD 0.0 Fn Frict 0.0 Heating 87.7 69.8 69.8 69.8 0.0 0.0 0.0 AIRFLOWS Cooling 259 259 259 0 105 105 14 0 378 119 0 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent I nfi i MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 259 259 259 0 105 105 14 0 378 119 0 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft'/ton Btu/hr•ft2 Cooling 40.5 0.77 338.52 442.40 27.13 Heating 40.5 0.77 -24.89 No. People 17.0 50.0/1000 ft2 AREAS Gross Total Glass Floor 339 Part 680 Int Door 0 ExFIr 0 Roof 0 Wall 0 Ext Door 0 ft2 (°/U) 0 0 0 0 0 0 DEC 17 2018 PERMIT CENTER M ► B 01 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F -5.1 259 69.8 0.0 0 0.0 0.0 0 0.0 Main Htg Aux Htg Preheat Humidif Opt Vent Total 0.0 -3.4 -8.4 Lvg °F 87.7 0.0 0.0 0 0.0 0.0 105 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 1 of 10 Room Checksums By Johansen Mecanical Inc DISPATCH 110 COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 Outside Air: OADB/WB/HR: 79 / 64 / 67 Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total ==> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> 0 0 0 0 0 0 -154 0 0 106 -48 1,081 1,246 1,707 4,034 Plenum Sens. + Lat Btu/h 0 0 0 0 0 0 0 0 270 0 0 Net Percent Total Of Total Btu/h (%) 0 0 0 0 0 0 -154 0 0 106 -48 1,352 1,246 1,707 0 0 0 0 0 -4 0 0 3 33 31, 42 270 4,304 105 CLG SPACE PEAK Mo/Hr: 7 / 15 OADB: 80 Space Percent Sensible Of Total Btu/h (%) Envelope Loads 0 0 Skylite Solar 0 0 Skylite Cond 0 0 Roof Cond 0 0 ' Glass Solar 0 0 Glass/Door Cond 0 0 Wall Cond -154 -51 Partition/Door 0 0 Floor 0 0 Adjacent Floor 87 3 Infiltration -67 -2 Sub Total ==> 1,081 692 1,707 Internal Loads 33 Lights 21 People 52 I Misc 3,480 106 Sub Total ==> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 75 -75 0 0 76 2 Ceiling Load -138 0 -138 -3 ' -207 -6 Ventilation Load 0 0 0 0 0 Adj Air Trans Heat 0 0 Ov/Undr Sizing 2 2 0 2 0 Exhaust Heat -35 -35 -1 OA Preheat Diff. 0 0 RA Preheat Diff. 0 0 0 Additional Reheat 0 0 0 System Plenum Heat 0 0 Underflr Sup Ht Pkup 0 0 0 Supply Air Leakage 3,925 161 4,085 100.00 3,285 100.00 Grand Total ==> Space Peak Coil Peak Percent Space Sens Tot Sens Of Total Btu/h Btu/h (%) 0 0 0.00 0 0 0.00 0 0 0.00 0 0 0.00 0 0 0.00 0 0 0.00 -1,536 -1,536 36.85 0 0 0.00 0 0 0.00 -766 -766 18.37 -2,302 -2,302 55.22 0 0 0 0 -20 -620 0 0 -2,942 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -620 14.87 0 0 0 0.00 9 -0.22 -1,198 28.74 0 0.00 0 0.00 -58 1.40 0 0.00 0 0.00 -4,169 100.00 Total Capacity ton MBh Main Clg 0.3 4.1 Aux Clg 0.0 0.0 Opt Vent 0.0 0.4 Total 0.4 4.5 COOLING COIL SELECTION Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR MBh cfm °F °F gr/lb °F °F gr/Ib 3.4 166 75.6 62.4 64.6 0.0 0 0.0 0.0 0.0 57.0 54.0 58.5 0.0 0.0 0.0 0.4 38 80.0 63.9 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass ft2 (%) Floor 396 Part 396 Int Door 0 ExFIr 0 Roof 0 0 0 Wall 0 0 0 Ext Door 0 0 0 TEMPERATURES Cooling SADB 57.0 Ra Plenum 75.6 Return 75.6 Ret/OA 75.6 Fn MtrTD 0.0 Fn BIdTD 0.0 Fn Friot 0.0 Heating 86.1 69.8 69.8 69.8 0.0 0.0 0.0 AIRFLOWS Cooling 166 166 166 0 38 38 16 0 220 53 0 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent Infii MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 166 166 166 0 38 38 16 0 220 53 0 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/hi-ft' Cooling 22.6 0.42 443.05 1,056.50 11.36 Heating 22.6 0.42 -10.53 No. People 2.8 7.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total -3.0 166 69.8 0.0 0.0 0.0 -1.2 -4.2 Lvg °F 86.1 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 38 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 2 of 10 Room Checksums By Johansen Mecanical Inc DISPLAY 116 COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 Outside Air: OADB/WB/HR: 79 / 64 / 67 Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skyiite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> Plenum Net Sens. + Lat Total Btu/h Btu/h 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 117 27 144 -338 -338 0 0 0 0 0 109 109 -113 27 -85 2,381 1 1, 784 3,413 17,578 595 0 0 2,976 11,784 3,413 CLG SPACE PEAK Mo/Hr: 7 / 16 OADB: 79 Percent Space Percent Of Total Sensible Of Total (%) Btu/h (%) Envelope Loads 0 0 0 Skylite Solar 0 0 0 Skylite Cond 0, 0 0 Roof Cond 0 0 0 ' Glass Solar 0 0 0 Glass/Door Cond 1 176 2 Wall Cond -2 -338 -3 Partition/Door 0 0 0 ; Floor 0 0 0 1 Adjacent Floor 1 169 2 1 Infiltration -1 7 0 Sub Total =_> 19 75 22 595 18,173 116 2,381 6,547 3,413 Internal Loads 22 Lights 60 People 31 Misc 12,340 114 Sub Total ==> 164 -164 0 0 169 2 Ceiling Load -2,170 0 -2,170 -14 -1,654 -15 Ventilation Load 0 0 0 0 0 Adj Air Trans Heat 0 0 Ov/Undr Sizing 0 0 0 0 0 Exhaust Heat -220 -220 -1 OA Preheat Diff. 0 0 RA Preheat Diff. 0 0 0 Additional Reheat 0 0 0 System Plenum Heat 0 0 Underflr Sup Ht Pkup 0 0 0 Supply Air Leakage 15,459 239 15,698 100.00 10,862 100.00 Grand Total ==> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Space Sens Btu/h 0 0 0 0 0 -527 -5,749 -70 0 -1,686 -8,033 0 0 0 0 -44 -4,962 0 0 -13,039 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0 00 0 0.00 0 0.00 0 0.00 0 0.00 -658 2.90 -5,749 25.31 -70 0.31 0 0.00 -1,686 7.42 -8,164 35.94 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -4,962 21.84 0 0 0 0.00 59 -0.26 -9,593 42.23 0 0.00 0 0.00 -58 0.25 0 0.00 0 0.00 -22,718 100.00 Main Clg Aux CIg Opt Vent Total 1.6 19.0 COOLING COIL SELECTION Total Capacity Sens Cap. Coil Airflow ton MBh MBh cfm Enter DB/WB/HR °F °F gr/Ib Leave DB/WB/HR °F °F gr/Ib 1.3 15.7 11.0 494 75.6 63.5 69.7 55.0 52.7 56.6 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 0.3 3.3 3.3 301 80.0 63.9 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 872 Part 1,482 Int Door 0 ExFlr 32 Roof 0 Wall 320 Ext Door 0 ft2 (%) 0 0 0 0 0 0 TEMPERATURES Cooling Heating SADB 55.0 94.0 Ra Plenum 75.6 69.8 Return 75.6 69.8 Ret/OA 75.6 69.8 Fn MtrTD 0.0 0.0 Fn BIdTD 0.0 0.0 Fn Frict 0,0 0.0 AIRFLOWS Cooling 494 494 494 0 301 301 35 0 830 336 0 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent Infil MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 494 494 494 0 301 301 35 0 830 336 0 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/hr•ft2 Cooling 60.9 0.57 312.27 550.72 21.79 Heating 60.9 0.57 -26.05 No. People 26.2 30.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total -13.1 0.0 0.0 0.0 -9.6 -22.7 Lvg °F 494 69.8 94.0 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 301 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 3 of 10 Room Checksums By Johansen Mecanical Inc KITCHEN 109 COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 Outside Air: OADB/WB/HR: 79 / 64 / 67 Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total ==> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total =_> 0 0 0 0 0 0 -31 0 0 63 32 582 670 1,195 2,446 40 -59 0 1 2,460 Plenum Sens. + Lat Btu/h 0 0 0 0 0 0 0 0 145 0 0 145 -40 0 0 0 0 0 105 Net Percent Total Of Total Btu/h (%) 0 0 0 0 0 0 0 -31 0 0 63 32 0 0 0 0 0 -1 0 0 2 1 727 28 670 26 1,195 47 2,592 101 0 -59 0 0 1 0 0 0 0 0 0 0 -2 0 0 0, 0 0, 0 0 2,565 100.00 CLG SPACE PEAK Mo/Hr: 7 / 15 OADB: 80 Space Percent Sensible Of Total Btu/h (%) Envelope Loads Q 0 Skylite Solar 0 0 Skylite Cond 0 0 Roof Cond 0 0 Glass Solar 0 0 Glass/Door Cond 0 0 Wall Cond -31 -2 Partition/Door 0 0 Floor 0 0 Adjacent Floor 47 2 Infiltration 15 1 Sub Total ==> Internal Loads 582 28 Lights 372 18 People 1,195 57 Misc 2,149 103 Sub Total ==> 41 2 ' Ceiling Load -111 -5 Ventilation Load 0 0 Adj Air Trans Heat Ov/Undr Sizing 1 0 Exhaust Heat OA Preheat Diff. RA Preheat Diff. Additional Reheat System Plenum Heat Underflr Sup Ht Pkup Supply Air Leakage 2,095 100.00 Grand Total ==> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Space Sens Btu/h 0 0 0 0 0 0 -663 0 0 -412 -1,075 0 0 0 0 -11 -333 0 -326 -1,745 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0 0 0 0 0 -663 0 0 -412 -1,075 0 0 0 0.00 0.00 0.00 0.00 0.00 0.00 27.54 0.00 0.00 17.10 44.65 0.00 0.00 0.00 0 0.00 0 -333 0 -326 0 -645 0 0 -29 0 0 0.00 13.84 0 13.54 0.00 26.76 0.00 0.00 1.21 0.00 0.00 -2,409 100.00 COOLING COIL SELECTION Total Capacity Sens Cap. ton MBh MBh Main Clg 0.2 Aux Clg 0.0 Opt Vent 0.0 2.6 0.0 0.2 Total 0.2 2.8 2.2 0.0 0.2 Coil Airflow Enter DB/WB/HR cfm °F °F gr/Ib 106 75.662.2 0 0.0 0.0 20 80.0 63.9 63.5 0.0 Leave DB/WB/HR °F °F gr/Ib 57.0 53.9 58.0 0.0 0.0 0.0 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 213 Part 171 Int Door 0 ExFIr 0 Roof 0 Wall 0 Ext Door 0 0 0 ft2 (%) 0 0 0 0 TEMPERATURES Cooling Heating SADB 57.0 85.0 Ra Plenum 75.6 69.8 Return 75.6 69.8 Ret/OA 75.6 69.8 Fn MtrTD 0.0 0.0 Fn BIdTD 0.0 0.0 Fn Frict 0.0 0.0 AIRFLOWS Cooling Heating Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent infil MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups 106 106 106 0 20 20 9 0 106 0 29 0 0 0 106 106 106 0 20 20 9 0 106 0 29 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/hi-ft2 Cooling 19.1 0.50 456.00 917.16 13.08 Heating 19.1 0.50 -11.31 No. People 1.5 7.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total -1.8 0.0 106 69.8 0 0.0 Lvg °F 85.0 0.0 0.0 0 0.0 0.0 0.0 -0.6 -2.4 0 0.0 0.0 20 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 4 of 10 Room Checksums By Johansen Mecanical Inc OFFICE 112 COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 Outside Air: OADB/WB/HR: 79 / 64 / 67 Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total =_> 0 0 0 0 0 0 -31 0 0 31 0 221 255 1,195 Plenum Sens. + Lat Btu/h 0 0 0 0 0 0 0 0 55 0 0 Net Percent Total Of Total Btu/h 0 0 0 0 0 0 -31 0 0 31 0 276 255 1,195 (%) 0 0: 0' 0 0 0 -2 0 0 2 0 16 15 70 1,671 55 1,726 101 15 -6 0 0 1,680 -15 0 -7 0 0 0 0 -6 0 0 0 -7 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 33 1,713 100.00 CLG SPACE PEAK Mo/Hr: 7 / 15 OADB: 80 Space Percent Sensible Of Total Btu/h (%) Envelope Loads 0 0 Skylite Solar 0 0 Skylite Cond 0 0 ' Roof Cond 0 0 Glass Solar 0 0 Glass/Door Cond 0 0 Wall Cond -31 -2 Partition/Door 0 01 Floor 0 0 Adjacent Floor 18 1 Infiltration -14 -1 Sub Total ==> 221 142 1,195 1,557 Internal Loads 15 Lights 9 People 79 Misc 103 Sub Total ==> 16 1 Ceiling Load -42 -3 Ventilation Load 0 0 Adj Air Trans Heat Ov/Undr Sizing 0 0 Exhaust Heat OA Preheat Diff. RA Preheat Diff. Additional Reheat System Plenum Heat Underflr Sup Ht Pkup Supply Air Leakage 1,517 100.00 Grand Total ==> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Space Sens Btu/h 0 0 0 0 0 0 -663 0 0 -157 -820 0 0 0 0 -4 -127 0 -314 -1,264 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -663 43.56 0 0.00 0 0.00 -157 10.29 -820 53.85 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -127 8.32 0 0 -314 20.59 2 -0.13 -245 16.10 0 0.00 0 0.00 -19 1.27 0 0.00 0 0.00 -1,523 100.00 Main Clg Aux Clg Opt Vent Total Total Capacity ton MBh 0.1 1.7 0.0 0.0 0.0 0.1 0.2 1.8 COOLING COIL SELECTION Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR MBh cfm °F °F gr/Ib °F °F gr/lb 1.6 77 75.6 61.5 60.4 57.0 53.8 57.6 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 0.1 8 80.0 63.9 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass ft2 (%) Floor 81 Part 171 Int Door 0 ExFIr 0 Roof 0 0 0 Wall 0 0 0 Ext Door 0 0 0 TEMPERATURES Cooling Heating SADB 57.0 85.0 Ra Plenum 75.6 69.8 Return 75.6 69.8 Ret/OA 75.6 69.8 Fn MtrTD 0.0 0.0 Fn BIdTD 0.0 0.0 Fn Friot 0.0 0.0 AIRFLOWS Cooling 77 77 77 0 8 8 3 0 88 11 0 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent Infil MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 77 77 77 0 8 8 3 0 88 11 0 0 0 0 ENGINEERING CKS OA cfm/ft2 cfm/ton ft'/ton Btu/heft' Cooling 10.0 0,95 512.27 540.88 22.19 Heating 10.0 0.95 -18.80 No. People 0.6 7.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total -1.3 0.0 Lvg °F 77 69.8 85.0 0 0.0 0.0 0.0 0 0.0 0.0 0.0 -0.3 -1.5 0 0.0 0.0 8 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 5 of 10 Room Checksums By Johansen Mecanical Inc OFFICE 113 COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 Outside Air: OADB/WB/HR: 79 / 64 / 67 Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skyllte Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> 0 0 0 0 0 0 -83 0 0 31 -52 Plenum Sens. + Lat Btu/h 0 0 0 0 0 0 0 0 Net Percent Total Of Total Btu/h 0 0 (%) CLG SPACE PEAK Mo/Hr: 7 / 15 OADB: 80 Space Percent Sensible Of Total Btu/h (%) Envelope Loads 0 0 0 Skylite Solar 0 i 0 01 Skylite Cond 0 0 0 0 Roof Cond 0 0 0 0 Glass Solar 0 0 0 0 Glass/Door Cond 0 0 0 0 Wall Cond -83 -5 -83 -6 Partition/Door 0 0 0 0 Floor 0 0 0 0 Adjacent Floor 31 2 18 1 Infiltration -52 -3 -65 -4 Sub Total ==> Internal Loads 221 55 276 17 221 15 Lights 255 0 255 15 142 10 People 1,195 0 1,195 72 1,195 81 Misc 1,671 55 1,726 104 1,557 106 Sub Total ==> 15 -15 0 0 16 1 Ceiling Load -7 0 -7 0 -42 -3 Ventilation Load 0 0 0 0 0 Adj Air Trans Heat 0 0 Ov/Undr Sizing 0 0 0 0 0 Exhaust Heat -7 -7 0 OA Preheat Diff. 0 0 RA Preheat Diff. 0 0 0 Additional Reheat 0 0 0 System Plenum Heat 0 0 Underflr Sup Ht Pkup 0 0 0 Supply Air Leakage 1,628 33 1,660 100.00 1,466 100.00 Grand Total ==> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Space Sens Btu/h 0 0 0 0 0 0 -1,253 0 0 -157 -1,410 0 0 0 0 -4 -127 0 0 -1,541 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0.00 0 0.00 0 0.00 o 0.00 0 0.00 0 0.00 -1,253 69.67 0 0.00 0 0.00 -157 8.71 -1,410 78.38 0 0 0 0.00 0.00 0.00 0 0.00 0 -127 0 0 2 -245 0 0 -19 0 0 0.00 7.05 0 0.00 -0.11 13.63 0.00 0.00 1.05 0.00 0.00 -1,799 100.00 Main Clg Aux Clg Opt Vent Total COOLING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR ton MBh MBh cfm °F °F gr/Ib 0.1 1.7 1.5 74 75.6 61.5 60.5 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.1 0.1 8 80.0 63.9 64.4 0.2 1.7 Leave DB/WB/HR °F °F gr/Ib 57.0 53.8 57.6 0.0 0.0 0.0 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 81 Part 323 Int Door 0 ExFIr 0 Roof 0 Wall 0 ftZ (%) 0 0 0 0 Ext Door 0 0 0 TEMPERATURES Cooling SADB 57.0 Ra Plenum 75.6 Return 75.6 Ret/OA 75.6 Fn MtrTD 0.0 Fn BIdTD 0.0 Fn Frict 0.0 Heating 88.9 69.8 69.8 69.8 0.0 0.0 0.0 AIRFLOWS Cooling 74 74 74 0 8 8 3 0 85 11 0 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent infii MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 74 74 74 0 8 8 3 0 85 11 0 0 0 0 ENGINEERING CKS V. OA cfm/ft' cfm/ton ft2/ton Btu/hr•ft2 Cooling 10.4 0.92 509.79 557.07 21.54 Heating 10.4 0.92 -22.21 No. People 0.6 7.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F -1.6 0.0 0.0 Main Htg Aux Htg Preheat Humidif Opt Vent Total 0.0 -0.3 -1.8 Lvg °F 74 69.8 88.9 0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 8 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 6 of 10 Room Checksums By Johansen Mecanical Inc OFFICE 114 COOLING COIL PEAK Peaked at Time: Outside Air: Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> 0 0 0 0 0 0 -57 0 0 48 -9 401 463 1,195 2,059 28 -30 0 1 2,048 Mo/Hr: 7 / 14 OADB/WB/HR: 79 / 64 / 67 Plenum Sens. + Lat Btu/h 0 0 0 0 0 0 0 0 Net Percent Total Of Total Btu/h (%) 0 0 0 0 0 0 0 0 0 0 0 0 -57 -3 0 0 0 0 48 2 -9 0 100 502 0 463 0 1,195 100 2,159 102 -28 0 24 22 57', CLG SPACE PEAK Mo/Hr: 7 / 15 OADB: 80 Space Percent Sensible Of Total Btu/h (%) Envelope Loads 0 0 Skylite Solar 0 0 Skylite Cond 0 0 Roof Cond 0 0 Glass Solar 0 0 Glass/Door Cond 0 0 Wall Cond -57 -3 Partition/Door 0 0 Floor 0 0 Adjacent Floor 32 2 Infiltration -25 -1 Sub Total ==> 401 257 1,195 1,853 Internal Loads 23 Lights 14 People 67 Misc 104 Sub Total ==> 0 0 28 2 Ceiling Load -30 -1 -77 -4 Ventilation Load 0 0 0 0 Adj Air Trans Heat 0 0 Ov/Undr Sizing 1 0 1 0 Exhaust Heat -13 -13 -11 OA Preheat Diff. 0 0 RA Preheat Diff. 0 0 0 Additional Reheat 0 0 0 System Plenum Heat 0 0' j Underflr Sup Ht Pkup 0 0 0 Supply Air Leakage HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 60 2,108 100.00 1,780 100.00 Grand Total ==> Space Peak Space Sens Btu/h 0 0 0 0 0 0 -1,152 0 0 -284 -1,437 0 0 0 0 -7 -230 0 0 -1,674 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -1,152 53.98 0 0.00 0 0.00 -284 13.32 -1,437 67.30 0 0.00 0 0.00 0 0.00 0 0.00 0 -230 0 0 3 -445 0 0 -27 0 0 0.00 10.78 0 0.00 -0.16 20.84 0.00 0.00 1.25 0.00 0.00 -2,135 100.00 Main Clg Aux Clg Opt Vent Total COOLING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR cfm °F °F gr/Ib 0.2 2.1 1.8 90 75.6 61.9 62.3 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.2 0.2 14 80.0 63.9 ton MBh MBh 0.2 2.3 Leave DB/WB/HR °F °F gr/Ib 57.0 53.9 58.0 0.0 0.0 0.0 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 147 Part 297 Int Door 0 ExFlr 0 Roof 0 Wall 0 ft2 (%) 0 0 0 0 Ext Door 0 0 0 TEMPERATURES Cooling Heating SADB 57.0 86.9 Ra Plenum 75.6 69.8 Return 75.6 69.8 Ret/OA 75.6 69.8 Fn MtrTD 0.0 0.0 Fn BIdTD 0.0 0.0 Fn Frict 0.0 0.0 AIRFLOWS Cooling 90 90 90 0 14 14 6 0 110 20 0 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent infii MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 90 90 90 0 14 14 6 0 110 20 0 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/heft' Cooling 15.5 0.61 477.73 780.18 15.38 Heating 15.5 0.61 -14.52 No. People 1.0 7.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total -1.7 0.0 0.0 0.0 -0.4 -2.1 90 69.8 0 0.0 Lvg °F 86.9 0.0 0 0.0 0.0 0 0.0 0.0 14 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 7 of 10 Room Checksums By Johansen Mecanical Inc RR 107 COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 Outside Air: OADB/WB/HR: 79 / 64 / 67 Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total ==> Internal Loads Lights People Misc Sub Total ==> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total =_> 0 0 0 0 0 24 0 0 0 0 24 257 296 0 552 18 18 0 437 1,050 Plenum Sens. + Lat Btu/h 0 0 0 0 0 6 0 6 64 0 0 64 -18 0 0 0 0 0 Net Total Btu/h 0 0 0 0 0 30 0 0 0 0 30 321 296 0 Percent! Of Total (%)! CLG SPACE PEAK Mo/Hr: 7 / 17 OADB: 78 Space Percent Sensible Of Total Btu/h (%) I Envelope Loads 0 0 0 Skylite Solar 0 0 0 Skylite Cond 0 0 0 Roof Cond 0 0 0 Glass Solar 0 0 0 Glass/Door Cond 3 39 5 Wall Cond 0 0 0 Partition/Door 0 0 0 Floor 0 0 0 Adjacent Floor 0 0 0 Infiltration 3 . 39 5 Sub Total =_> 29 27 0 257 164 0 Internal Loads 35 Lights 22 People 0 Misc 617 56 421 57 Sub Total ==> 0 0 18 2 i Ceiling Load 18 2 -181 -25 Ventilation Load 0 0 0 0 Adj Air Trans Heat 0 0 Ov/Undr Sizing 437 40 437 59 Exhaust Heat 0 0 OA Preheat Diff. 0 0 RA Preheat Diff. 0 0 Additional Reheat 0 0 System Plenum Heat 0 0 Underflr Sup Ht Pkup 0 0 Supply Air Leakage 52 1,102 100.00 735 100.00 Grand Total ==> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Space Sens Btu/h 0 0 0 0 0 -110 -365 0 0 0 -475 0 0 0 0 -5 -542 0 0 -1,021 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -138 6.64 -365 17.57 0 0.00 0 0.00 0 0.00 -502 24.21 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -542 26.10 0 0 0 0.00 0 0.00 -1,047 50.47 0 0.00 0 0.00 16 -0.78 0 0.00 0 0.00 -2,075 100.00 Total Capacity ton MBh Main Clg 0.1 1.1 Aux Clg 0,0 0.0 Opt Vent 0.0 0.4 Total 0.1 1.5 COOLING COIL SELECTION Sens Cap. MBh 0.8 0.0 0.4 Coil Airflow cfm 37 0 33 Enter DB/WB/HR Leave DB/WB/HR °F °F gr/Ib °F °F gr/Ib 75.6 61.1 0.0 0.0 80.0 63.9 58.5 57.0 50.5 45.2 0.0 0.0 0.0 0.0 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 94 Part 94 Int Door 0 ExFIr 0 Roof 0 Wall 67 ft2 (%) 0 0 0 0 Ext Door 0 0 0 TEMPERATURES Cooling SADB 57.0 Ra Plenum 75.6 Return 75.6 Ret/OA 75.6 Fn MtrTD 0.0 Fn BIdTD 0.0 Fn Friot 0.0 Heating 95.0 69.8 69.8 69.8 0.0 0.0 0.0 AIRFLOWS Cooling 37 37 37 0 33 33 0 0 37 0 33 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent Infii MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 37 37 37 0 33 33 0 0 37 0 33 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/hr•ft2 Cooling 88.4 0.40 305.13 771.35 15.56 Heating 88.4 0.40 -22.08 No. People 0.7 7.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total Lvg °F -1.0 37 69.8 95.0 0.0 0 0.0 0.0 0.0 0 0.0 0.0 0.0 -1.1 -2.1 0 0.0 0.0 33 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 8 of 10 Room Checksums By Johansen Mecanical Inc RR 108 COOLING COIL PEAK Peaked at Time: Outside Air: Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> Mo/Hr: OADB/WB/HR: CLG SPACE PEAK 7 / 15 Mo/Hr: 7 / 16 80 / 64 / 64 OADB: 79 Plenum Net Percent Space Sens. + Lat Total Of Total Sensible Btu/h Btu/h (%) Btu/h 0 0 0 0 0 0 0 0 0, 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 342 82 424 25' 370 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 342 82 424 25 370 25 Percent Of Total (%) Envelope Loads 0 Skylite Solar 0 Skylite Cond 0 Roof Cond 0 Glass Solar 0 Glass/Door Cond 25 Wall Cond 0 Partition/Door 0 Floor 0 Adjacent Floor 0 Infiltration Sub Total ==> 164 41 205 12 164 11 189 0 189 11 105 7 0 0 0 0 0 0 353 41 394 23 269 18 12 -12 0 0 12 1 -28 0 -28 -2 -115 -8 0 0 0 0 0 0 0 931 931 54 931 64 0 0 0 0 0 0 0 01 0 0 0 0 0 0 0 0 1,610 112 1,721 100.00 Internal Loads Lights People Misc Sub Total ==> Ceiling Load Ventilation Load Adj Air Trans Heat Ov/Undr Sizing Exhaust Heat OA Preheat Diff. RA Preheat Diff. Additional Reheat System Plenum Heat Underflr Sup Ht Pkup Supply Air Leakage 1,466 100.00 Grand Total ==> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Coil Peak Percent Space Sens Tot Sens Of Total Btu/h Btu/h (%) 0 0 0.00 0 0 0.00 0 0 0.00 0 0 0.00 0 0 0.00 -1,032 -1,289 47.43 -656 -656 24.12 0 0 0.00 0 0 0.00 0 0 0.00 -1,688 -1,945 71.55 0 0 0.00 0 0 0.00 0 0 0.00 0 0 0.00 -3 0 0.00 -346 -346 12.72 0 0 0 0 0 0.00 0 0.00 -669 24.60 0 0.00 0 0.00 241 -8.87 0 0.00 0 0.00 -2,037 -2,718 100.00 COOLING COIL SELECTION Total Capacity Sens Cap. ton MBh MBh Main Clg 0.1 1.7 Aux Clg 0.0 0.0 Opt Vent 0.0 0.2 Total 0.2 2.0 1.6 0.0 0.2 Coil Airflow Enter DB/WB/HR Leave DB/WB/HR cfm °F °F gr/lb °F °F gr/lb 74 75.6 61.1 58.4 57.0 53.0 54.3 0 0.0 0.0 0.0 0.0 0.0 0.0 21 80.0 63.9 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 60 Part 169 Int Door 0 ExFIr 0 Roof 0 Wall 67 Ext Door 0 0 0 ft2 (%) 0 0 0 0 TEMPERATURES Cooling SADB 57.0 Ra Plenum 75.6 Return 75.6 Ret/OA 75.6 Fn MtrTD 0.0 Fn BIdTD 0.0 Fn Frict 0.0 Heating 95.0 69.8 69.8 69.8 0.0 0.0 0.0 AIRFLOWS Cooling 74 74 74 0 21 21 0 0 74 0 21 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent Infil MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 74 74 74 0 21 21 0 0 74 0 21 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/hr•ft2 Cooling 28.3 1.24 455.87 368.96 32.52 Heating 28.3 1.24 -45.30 No. People 0.4 7.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg -2.1 74 69.8 Aux Htg 0.0 0 0.0 Preheat 0.0 0 0.0 Humidif Opt Vent Total 0.0 -0.7 -2.7 Lvg °F 95.0 0.0 0.0 0 0.0 0.0 21 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 9 of 10 Room Checksums By Johansen Mecanical Inc SALES COOLING COIL PEAK Peaked at Time: Outside Air: Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total ==> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> Mo/Hr: 7 / 14 OADB/WB/HR: 79 / 64 / 67 Plenum Sens. + Lat Btu/h Net Total Btu/h Percent Of Total (%) CLG SPACE PEAK Mo/Hr: 7 / 16 OADB: 79 Space Percent Sensible Of Total Btu/h (%) Envelope Loads 0 0 0 0 0 0 Skylite Solar 0 0 0 0 0 0 Skylite Cond 0 0 0 0 0 0 Roof Cond 0 0 0 0 0 0 Glass Solar 28 0 28 0 38 1 Glass/Door Cond 98 27 125 1 148 2 Wall Cond -141 -141 -2 -141 -2 Partition/Door 0 0 0 0 0 Floor 0 0 0 0• 0 0 Adjacent Floor 80 80 1 70 1 Infiltration 65 27 92 1 115 2 Sub Total ==> • Internal Loads 994 248 1,242 14 994 15 Lights 4,919 0 4,919 55 2,733 41 People 3,413 0 3,413 38 3,413 51 Misc 9,326 248 9,574 107 7,140 108 Sub Total =_> 69 -69 0 0 70 1 1 Ceiling Load -604 0 -604 -7 ; -690 -10 1 Ventilation Load 0 0 0 0 0 Adj Air Trans Heat 0 0 Ov/Undr Sizing 0 0 0 0 0 Exhaust Heat -92 -92 -11 OA Preheat Diff. 0 0 RA Preheat Diff. 0 0 0 Additional Reheat 0 0 0 System Plenum Heat 0 0 l Underflr Sup Ht Pkup 0 0 0 Supply Air Leakage 8,856 116 8,971 100.00 6,634 100.00 Grand Total ==> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Space Sens Btu/h 0 0 0 0 -376 -440 -1,412 0 0 -704 -2,932 0 0 0 0 -18 -2,071 0 0 -5,022 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0.00 0 0.00 0 0,00 0 0.00 -376 4.14 -572 6.30 -1,412 15.55 0 0.00 0 0.00 -704 7.75 -3,064 33.74 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -2,071 22.81 0 0 0 0.00 24 -0.27 -4,004 44.11 0 0.00 0 0.00 36 -0.39 0 0.00 0 0.00 -9,079 100.00 Total Capacity ton MBh Main Clg 0.8 9.0 Aux Clg 0.0 0.0 Opt Vent 0.1 1.4 Total 0.9 10.4 COOLING COIL SELECTION Sens Cap. MBh 6.7 0.0 1.4 Coil Airflow Enter DB/WB/HR Leave DB/WB/HR cfm °F °F gr/lb °F °F gr/Ib 302 75.6 62.8 66.2 55.0 52.6 56.0 0 0.0 0.0 0.0 0.0 0.0 0.0 126 80.0 63.9 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 364 Part 364 Int Door 0 ExFIr 0 Roof 0 Wall 278 Ext Door 42 ft2 (%) 0 0 0 0 0 0 TEMPERATURES Cooling Heating SADB 55.0 85.1 Ra Plenum 75.6 69.8 Return 75.6 69.8 Ret/OA 75.6 69.8 Fn MtrTD 0.0 0.0 Fn BIdTD 0.0 0.0 Fn Frict 0.0 0.0 AIRFLOWS Cooling 302 302 302 0 126 126 15 0 442 140 0 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent Infii MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 302 302 302 0 126 126 15 0 442 140 0 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/hr-ft2 Cooling 41.6 0.83 350.10 422.03 28.43 Heating 41.6 0.83 -24.94 No. People 10.9 30.0/1000 ft2 HEATING COIL SELECTION CapacityCoil Airflow Ent Lvg MBh cfm °F °F Main Htg -5.1 302 69.8 85.1 Aux Htg 0.0 0 0.0 0.0 Preheat 0.0 0 0.0 0.0 Humidif Opt Vent Total 0.0 -4.0 -9.1 0 0.0 0.0 126 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 4lternative - 1 System Checksums Report Page 10 of 10 System Component Selection Summary By Johansen Mecanical Inc Alternative 1 System Description: ROOFTOP GAS ELECTRIC System Type: Number of Zones: Number of Rooms: Component Fan Coil 2 10 Sizing Method Location Quantity Cooling Main Clg Coil Primary Clg Fan Optional Vent Clg Coil Heating Main Htg Coil Optional Vent Htg Coil Miscellaneous System Exhaust Fan Return Fan Optional Vent Fan Room Exhaust Fan Block Peak Block Peak Peak Vent+Inf-RmExh Return Airflow Ventilation Airflow RmExh Input Room Room System Room System System System System Room 10 10 1 10 1 1 1 1 3 REVIEWED FOR CODE COM?LIANCE APPROVED DEC 2 8 2018 City of Tukwila BUILDING DIVISION Sizing not to exceed room ventilation plus infiltration airflow Coil Location System Zone Room Component Cooling Coil Selection Time Sensible Airflow At Of Peak Total Capacity Capacity Coil Peak Mo/Hr ton MBh MBh cfm Enter DB/ WB/ HR Leave DB/ WB/ HR °F °F gr/Ib °F °F gr/Ib ROOFTOP GAS ELECTRIC CONFERENCE 111 DISPATCH 110 KITCHEN 109 OFFICE 112 OFFICE 113 RR 107 RR 108 DISPLAY 116 OFFICE 114 SALES Optional Vent Clg Coil Main Clg Coil Main Clg Coil Main Clg Coil Main Clg Coil Main Clg Coil Main Clg Coil Main Clg Coil Main Clg Coil Main Clg Coil Main Clg Coil 7/15 7/14 7/14 7/14 7/14 7/14 7/14 7/15 7/14 7/14 7/14 0.6 0.7 0.3 0.2 0.1 0.1 0.1 0.1 1.3 0.2 0.8 7.4 8.0 4.1 2.6 1.7 1.7 1.1 1.7 15.7 2.1 9.0 7.4 5.8 3.4 2.2 1.6 1.5 0.8 1.6 11.0 1.8 6.7 673 259 166 106 77 74 37 74 494 90 302 Coil Location System Zone Room Component Heating Coil Selection Entering Total Capacity Airflow Dry Bulb MBh cfm °F Leaving Dry Bulb °F ROOFTOP GAS ELECTRIC CONFERENCE 111 DISPATCH 110 KITCHEN 109 OFFICE 112 OFFICE 113 RR 107 Project Name: Dataset Name: STONEWAY ROOFING.trc Optional Vent Htg Coil Main Htg Coil Main Htg Coil Main Htg Coil Main Htg Coil Main Htg Coil Main Htg Coil M19 - 61 bq -21.4 -5.1 -3.0 -1.8 -1.3 -1.6 -1.0 673 259 166 106 77 74 37 26.0 69.8 69.8 69.8 69.8 69.8 69.8 55.0 87.7 86.1 85.0 85.0 88.9 95.0 80.0 75.6 75.6 75.6 75.6 75.6 75.6 75.6 75.6 75.6 75.6 63.9 63.9 62.4 62.2 61.5 61.5 61.1 61.1 63.5 61.9 62.8 64.4 71.6 64.6 63.5 60.4 60.5 58.5 58.4 69.7 62.3 66.2 70.0 55.0 57.0 57.0 57.0 57.0 57.0 57.0 55.0 57.0 55.0 60.4 53.5 54.0 53.9 53.8 53.8 50.5 53.0 52.7 53.9 52.6 64.4 59.6 58.5 58.0 57.6 57.6 45.2 54.3 56.6 58.0 56.0 CITRECEIVED Y OF T UK WILA DEC 1 7 2018 PERMIT CtNTj,I TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Component Selection Summary Page 1 of 2 System Component Selection Summary By Johansen Mecanical Inc Coil Location System Zone Room Component Heating Coil Selection Entering Leaving Total Capacity Airflow Dry Bulb Dry Bulb MBh cfm °F °F RR 108 DISPLAY 116 OFFICE 114 SALES Main Htg Coil Main Htg Coil Main Htg Coil Main Htg Coil -2.1 -13.1 -1.7 -5.1 74 494 90 302 69.8 69.8 69.8 69.8 95.0 94.0 86.9 85.1 Component Location System Zone Room ROOFTOP GAS ELECTRIC ROOFTOP GAS ELECTRIC ROOFTOP GAS ELECTRIC CONFERENCE 111 CONFERENCE 111 DISPATCH 110 DISPATCH 110 KITCHEN 109 KITCHEN 109 KITCHEN 109 OFFICE 112 OFFICE 112 OFFICE 113 OFFICE 113 RR 107 RR 107 RR 107 RR 108 RR 108 RR 108 DISPLAY 116 DISPLAY 116 OFFICE 114 OFFICE 114 SALES SALES Miscellaneous Component Selection SADB_ Clg VAV Htg VAV Design Airflow Outside Air Clg Htg Minimum Maximum Component cfm AchWhr % °F °F cfm cfm Optional Vent Fan 673 100 70.0 55.0 System Exhaust Fan 773 Return Fan 2,452 Primary Fan 259 5.7 40.5 55.0 Diffuser 259 5.7 40.5 55.0 88.0 Diffuser 166 3.2 22.7 57.0 86.0 Primary Fan 166 3.2 22.7 57.0 Diffuser 106 3.7 19.1 57.0 85.0 Primary Fan 106 3.7 19.1 57.0 Room Exhaust Fan 29 Primary Fan 77 7.1 10.0 57.0 Diffuser 77 7.1 10.0 57.0 85.0 Primary Fan 74 6.9 10.4 57.0 Diffuser 74 6.9 10.4 57.0 89.0 Room Exhaust Fan 33 Diffuser 37 3.0 88.4 57.0 95.0 Primary Fan 37 3.0 88.4 57.0 Primary Fan 74 9.3 28.3 57.0 Room Exhaust Fan 21 Diffuser 74 9.3 28.3 57.0 95.0 Primary Fan 494 4.3 60.9 55.0 Diffuser 494 4.3 60.9 55.0 94.0 Primary Fan 90 4.6 15.5 57.0 Diffuser 90 4.6 15.5 57.0 87.0 Diffuser 302 6.2 41.6 55.0 85.0 Primary Fan 302 6.2 41.6 55.0 Project Name: TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Dataset Name: STONEWAY ROOFING.trc Alternative - 1 System Component Selection Summary Page 2 of 2 ROOFTOP GAS ELECTRIC COOLING COIL PEAK Peaked at Time: Outside Air: Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total =_> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> Sys By J Mo/ / 14 OADB/WB/HR: 79 / 64 / 67 Plenum Sens. + Lat Btu/h 0 0 0 0 0 0 ACE Mo/Hr: Su OADB: Pe Net Percent Space Pe Total Of Total Sensible Of Btu/h (%) Btu/h 0 0: 0 0 0, 0 0 0' 0 o o 0 0 0 28 0 28 0, 38 525 133 658 11 733 -971 -971 -2 -971 0 0 0 0 0 0 0 0 0 491 491 1 515 73 133 206 0 315 7,227 26,856 14,505 48,589 1,807 0 0 1,807 9,034 26,856 14,505 50,396 19 56 30 106 7,227 15,306 14,505 37,039 499 -499 0 0 510 -3,884 0 -3,884 -8 -3,697 0 0 0 0 0 0 1,373 1,373 3 1,373 -451 -451 -1 0 0 0 0 0 0 0 0 0 0 46,650 0 0 0 990 47,640 100.00 -Masa-SUMS-- harRalgartal FnQR CODE COMPLIANCE AK sf I DEC 28 2018 HEA-ING COIL PEAK Mo/Hr: Heating Design OADB: 26 ent Space otal(%) Cityof TukwitaSpace (a0 um] �kVISION '� � for 0 Skylite Cond 0 Roof Cond 0 Glass Solar 0 Glass/Door Cond 2 Wall Cond -3 • Partition/Door 0 Floor 0 Adjacent Floor 1 Infiltration 1 Sub Total =_> Internal Loads 20 Lights 43 People 41 Misc 104 Sub Total ==> 1 Ceiling Load -10 Ventilation Load 0 Adj Air Trans Heat Ov/Undr Sizing 4 Exhaust Heat OA Preheat Diff. RA Preheat Diff. Additional Reheat Underflr Sup Ht Pkup Supply Air Leakage 35,540 100.00 Grand Total ==> Peak Sens Btu/h 0 0 0 0 -376 -2,110 -16,088 -70 0 -4,821 -23,466 0 0 0 0 -133 -11,090 0 -640 -35,328 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0.00 0 0.00 0 0.00 0 0.00 -376 0.66 -2,657 4.66 -16,088 28.20 -70 0.12 0 0 -4,821 8.45 -24,013 42.08 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -11,090 19.43 0 0 -640 1.12 120 -0.21 -21,440 37.57 0 0.00 0 0.00 0 0.00 0 0.00 -57,061 100.00 Total Capacity ton MBh Main Clg 4.0 47,6 Aux Clg 0.0 0.0 Opt Vent 0.6 7.4 Total 4.6 55.0 COOLING COIL SELECTION Sens Cap. Coil Airflow Enter DB/WB/HR MBh cfm °F °F gr/lb 36.3 1,680 75.6 62.8 66.6 0.0 0 0.0 0.0 0.0 7.4 673 80.0 63.9 64.4 Leave DB/WB/HR °F °F gr/Ib 55.8 53.2 57.1 0.0 0.0 0.0 70.0 60.4 64.4 RECEIVED CITY OF TUKWILA Project Name: Dataset Name: STONEWAY ROOFING.trc DEC 17 20 8 PERMIT CENTER AREAS Gross Total Glass Floor 2,647 Part 4,147 Int Door 0 ExFlr 32 Roof 0 Wall 732 Ext Door 42 0 0 ft2 (%) 0 0 0 0 M143- 01 (tici Fan Coil TEMPERATURES Cooling Heating SADB 55.8 89.1 Ra Plenum 75.6 69.8 Return 75.6 69.8 Ret/OA 75.6 69.8 Fn MtrTD 0.0 0.0 Fn BIdTD 0.0 0.0 Fn Frict 0.0 0.0 AIRFLOWS Cooling 1,680 1,680 1,680 0 673 673 100 0 2,370 690 83 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent I nfi i MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 1,680 1,680 1,680 0 673 673 100 0 2,370 690 83 0 0 0 ENGINEERING CKS OA cfm/ft2 cfm/ton ft2/ton Btu/hr•ft2 No. People Cooling 40.0 0.63 366.39 577.29 20.79 62 Heating 40.0 0.63 -21.56 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total -35.6 0.0 Lvg °F 1,680 69.8 89.1 0 0.0 0.0 0.0 0 0.0 0.0 0.0 -21.4 -57.1 0 0.0 0.0 673 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 1 of 1 RTU -01 COOLING COIL PEAK\ --A, Peaked at Time: Outside Air: Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total ==> Internal Loads Lights People Misc Sub Total =_> ne(gi9R dClDE regailailANCE APPROVED Mo/Hr: 7 / 14 OADB/WB/HR: 79 / 64 / 67 Space Plenum Sens. + Lat. Sens. + Lat Btu/h Btu/h Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> CLG SPACE 'EAK HEA 16 DEC 2 8 2018 Mo/Hr: 7 OADB: 7 TING COIL PEAK Mo/Hr: Heating Design OADB: 26 Net Percent Space P rcent City of Tukwila Spac e Peak Total Of Total Sensible 0 T Btu/h ILDIVG DIVISCiIq` a Bt /h�) Envelope Loads 0 0 0 0 0 0 Skylite Solar 0 0 0 0 0 0 0 Skylite Cond 0 0 0 0 0 0 0 Roof Cond 0 0 0 0 0 0 0 Glass Solar 0 0 0 0 0 0 0 Glass/Door Cond 0 314 75 388 2 409 3' Wall Cond -1,142 -435 -435 -2 -435 -3 Partition/Door -7,775 0 0 0 0 0, Floor 0 0 0 0 0 0 0 Adjacent Floor 0 254 254 1 244 1 • Infiltration -2,147 133 75 208 1 218 1 i Sub Total ==> -11,064 3,451 9,691 6,485 19,627 238 -1,080 0 1,372 20,291 863 0 0 863 -238 0 4,314 9,691 6,485 21 46 31 20,490 98 0 -1,080 0 0 1,372 -127 -127 0 0 0 0 0 0 0 0 0 -5 0 0 7 -1 0 0 0 0 0 572 20,863 100.00 3,451 5,770 6,485 15,706 243 -1,275 0 1,372 Internal Loads 21 Lights 35 People 40 Misc 97 Sub Total =_> 1 Ceiling Load -8 Ventilation Load 0 Adj Air Trans Heat Ov/Undr Sizing 8 Exhaust Heat OA Preheat Diff. RA Preheat Diff. Additional Reheat System Plenum Heat Underflr Sup Ht Pkup Supply Air Leakage 16,264 100.00 Grand Total ==> 0 0 0 0 -64 -3,826 0 -640 -15,593 Coil Peak Percent Tot Sens Of Total Btu/h (%) 0 0 0 0 0 - 1,427 - 7,775 0 0 -2,147 -11,348 0.00 0.00 0,00 0.00 0.00 6.17 33.61 0.00 0.00 9.28 49.06 0 0.00 0 0.00 0 0.00 0 0.00 0 -3,826 0 -640 34 -7,398 0 0 49 0 0 0.00 16.54 0 2.77 -0.15 31.98 0.00 0.00 -0.21 0.00 0.00 -23,130 100.00 Total Capacity ton MBh Main CIg 1.7 20.9 Aux CIg 0.0 0.0 Opt Vent 0.2 2.6 Total 2.0 23.4 COOLING COIL SELECTION Sens Cap. MBh 16.7 0.0 2.6 Coil Airflow cfm 794 0 232 Enter DB/WB/HR Leave DB/WB/HR °F °F gr/lb °F °F gr/lb 75.6 62.5 65.0 56.4 53.5 57.6 0.0 0.0 0.0 0.0 0.0 0.0 80.0 63.9 ERE C EMS& 64.4 CITY OF TUKWILA DEC 17 2018 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 1,264 Part 2,004 Int Door 0 ExFlr 0 Roof 0 Wall 134 ft2 (%) 0 0 0 0 Ext Door 0 0 0 PERMIT CENTER V44‘ti 'OK 41 TEMPERATURES Cooling SADB 56.4 Ra Plenum 75.6 Return 75.6 Ret/OA 75.6 Fn MtrTD 0.0 Fn BIdTD 0.0 Fn Frict 0.0 Heating 87.9 69.8 69.8 69.8 0.0 0.0 0.0 AIRFLOWS Cooling 794 794 794 0 232 232 44 0 987 194 83 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent Infil MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 794 794 794 0 232 232 44 0 987 194 83 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/hr-ft2 No. People Cooling 29.3 0.63 406.76 647.92 18.52 23 Heating 29.3 0.63 -18.30 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total -15.7 0.0 Lvg 794 69.8 87.9 0 0.0 0.0 0.0 0 0.0 0.0 0 0.0 0.0 232 26.0 55.0 0.0 -7.4 -23.1 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 1 of 2 Zone Checksums By Johansen Mecanical Inc RTU -02 COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 Outside Air: OADB/WB/HR: 79 / 64 / 67 Space Sens. + Lat. Btu/h Envelope Loads Skylite Solar Skylite Cond Roof Cond Glass Solar Glass/Door Cond Wall Cond Partition/Door Floor Adjacent Floor Infiltration Sub Total ==> Internal Loads Lights People Misc Sub Total =_> Ceiling Load Ventilation Load Adj Air Trans Heat Dehumid. Ov Sizing Ov/Undr Sizing Exhaust Heat Sup. Fan Heat Ret. Fan Heat Duct Heat Pkup Underflr Sup Ht Pkup Supply Air Leakage Grand Total ==> 0 0 0 0 28 214 -537 0 0 237 -57 3,776 17,165 8,021 28,962 261 -2,804 0 1 26,363 Plenum Sens. + Lat Btu/h 0 0 0 0 0 55 0 55 Net Total Btu/h 0 0 0 0 28 269 -537 0 0 237 -2 944 4,720 0 17,165 0 8,021 944 29,906 -261 0 0 -2,804 0 0 1 -324 -324 0 0 0 0 0 0 0 0 Percent Of Total CLG SPACE PEAK Mo/Hr: 7 / 16 OADB: 79 Space Percent Sensible Of Total (%) Btu/h (%) Envelope Loads 0 0 0 Skylite Solar 0 0 0 Skylite Cond 0 0 0 Roof Cond 0 0 0 Glass Solar 0 38 0 Glass/Door Cond 1 324 2 Wall Cond -2 -537 -3 Partition/Door 0 0 0 Floor 0 0 0 Adjacent Floor 1 271 1 Infiltration 0 97 1 Sub Total =_> 18 64 30 3,776 9,536 8,021 Internal Loads 20 Lights 49 People 42 Mise 112 21,333 111 Sub Total ==> 0 268 1 Ceiling Load -10 -2,421 -13 Ventilation Load 0 0 0 Adj Air Trans Heat 0 Ov/Undr Sizing 0 1 0 Exhaust Heat -1 OA Preheat Diff. 0 r RA Preheat Diff. 0 Additional Reheat 0 System Plenum Heat 0 I Underflr Sup Ht Pkup 0 Supply Air Leakage 414 26,777 100.00 19,277 100.00 Grand Total =_> HEATING COIL PEAK Mo/Hr: Heating Design OADB: 26 Space Peak Coil Peak Percent Space Sens Tot Sens Of Total Btu/h Btu/h (%) 0 0 0 0.00 0 0.00 0 0 0.00 0 0 0.00 -376 1.11 -1,230 3.62 -8,314 24.50 -70 0.21 0 0.00 -2,675 7.88 -12,665 37.32 -376 -967 -8,314 -70 0 -2,675 -12,402 0 0 0 0 -70 -7,263 0 0 -19,735 0 0.00 0 0.00 0 0.00 0 0.00 0 0.00 -7,263 21.41 0 0 0 0.00 87 -0.26 -14,042 41.38 0 0.00 0 0.00 -49 0.14 0 0.00 0 0.00 -33,932 100.00 COOLING COIL SELECTION Total Capacity Sens Cap. ton MBh MBh Main Clg 2.2 26.8 Aux Clg 0.0 0.0 Opt Vent 0.4 4.8 Total 2.6 31.6 19.6 Coil Airflow cfm Enter DB/WB/HR Leave DB/WB/HR °F °F gr/Ib °F °F gr/Ib 886 75.6 63.1 0.0 0 0.0 0.0 68.0 55.2 52.9 56.8 0.0 0.0 0.0 0.0 4.8 441 80.0 63.9 64.4 70.0 60.4 64.4 Project Name: Dataset Name: STONEWAY ROOFING.trc AREAS Gross Total Glass Floor 1,383 Part 2,143 Int Door 0 ExFIr 32 Roof 0 Wall 598 Ext Door 42 0 0 ft2 (%) 0 0 0 0 TEMPERATURES Cooling SADB 55.2 Ra Plenum 75.6 Return 75.6 Ret/OA 75.6 Fn MtrTD 0.0 Fn BIdTD 0.0 Fn Friot 0.0 Heating 90.3 69.8 69.8 69.8 0.0 0.0 0.0 AIRFLOWS Cooling 886 886 886 0 441 441 55 0 1,382 496 0 0 0 0 Diffuser Terminal Main Fan Sec Fan Nom Vent AHU Vent Infil MinStop/Rh Return Exhaust Rm Exh Auxiliary Leakage Dwn Leakage Ups Heating 886 886 886 0 441 441 55 0 1,382 496 0 0 0 0 ENGINEERING CKS % OA cfm/ft2 cfm/ton ft2/ton Btu/heft' No. People Cooling 49.7 0.64 336.49 525.00 22.86 38 Heating 49.7 0.64 -24.53 HEATING COIL SELECTION CapacityCoil Airflow Ent MBh cfm °F Main Htg Aux Htg Preheat Humidif Opt Vent Total -19.9 0.0 Lvg °F 886 69.8 90.3 0 0.0 0.0 0.0 0 0.0 0.0 0.0 -14.0 -33.9 0 0.0 0.0 441 26.0 55.0 TRACE® 700 v6.3.3 calculated at 08:57 PM on 12/15/2018 Alternative - 1 System Checksums Report Page 2 of 2 50ZHC 14 SEER Single Packaged Heat Pump System with Puron® (R -410A) Refrigerant Single Phase 2 to 5 Nominal Tons (024-060) turn to the experts Product Data Single -Packaged Heat Pump Units w • Easy installation design • Corrosion -proof unit base • Class leading sound ratings • Sloped drain for improved indoor air quality • Scroll compressors • Front and side service access • Louvered panel coil protection • Certified to leak 2% or less of nominal air conditioning CFM delivered when pressurized to 1 -in. W.0 with all present air inlets, air outlets, and condensate drain port(s) sealed. FEATURES/BENEFITS unit is a packaged heat pump for manufactured housing, ential, and light commercial applications. Factory assembled kage is a compact, horizontal supply and return unit, combining installation and maintenance with efficient performance. SY TO INSTALL—The units are lightweight, compact single kage units that are easy to handle. Every size unit has an ntical 32 by 51 -in. (813 by 1295 mm) footprint to make job planning simple. The efficient design uses less sheet metal and kes the 50ZHC units lighter than competitive units. The unit can easily positioned on the job site with the hand -holds built into e unit basepan. AERODYNAMIC FAN BLADE DESIGN reduces overall sound by up to 3dBA; low as 73dBA. SERVICE ACCESS—The units are designed to be serviced from both front and side. Routine maintenance tasks, such as coil cleaning, are sped up with the multiple side panels design. CORROSION PROOF UNIT BASE—The unit features a tough, high-tech, single -piece composite material unit base with- an integrated drain. The composite material eliminates the potential problem of rust and premature replacement which are common with standard metal pans. Each unit base is sloped to eliminate standing water. This feature minimizes the amount of standing water inside the unit, which limits mold and mildew growth. DURABLE STEEL CABINET—The watertight construction and corrosion -resistant finish will keep it looking like new for years. A specialized paint treatment process ensures quality protection against the elements. A compact, low -profile design utilizes a louvered coil enclosure for maximum protection against hail damage and vandalism. SCROLL COMPRESSORS—Each unit comes standard with a scroll compressor. Each scroll compressor is hermetically sealed against contamination to help promote longer life and dependable operation. All scroll compressors have internal high-pressure and overcurrent protection. COIL EFFICIENCY—Indoor and outdoor coils are computer designed for optimum heat transfer and cooling efficiency. DEFROST SYSTEM—The system provides time/ temperature -based defrost cycles to maintain unit efficiency. This -E23 A150067 060 Size Fig. 1 - Unit like—ENE) CITY OF TUKWILA DEC 17 2018 PERMIT CENTER highly reliable system monitors coil temperature and initiates a defrost cycle only if it is required. The defrost cycle ends as soon as defrosting is complete. ACCESSORY ELECTRIC HEATERS —A variety of accessory electric heaters are available for these units. These heaters are comprised of a separate heater module mounted on the blower inlet and remote mounted controls located in the unit control box. Single point electrical connections are provided for powering both the heater and the unit. START COLLARS—Start collars are provided with each unit to provide easy connection to the structure ductwork. MODEL NUMBER NOMENCLATURE 50ZHC 024 Type of Unit 50ZHC-Single Packaged Heat Pump System Nominal Cooling Capacity 024 - 2.0 Tons 030 - 2.5 Tons 036 - 3.0 Tons 042 - 3.5 Tons 048 - 4.0 Tons 060 - 5.0 Tons N/A TABLE OF CONTENTS 3 DEPENDABLE COMPONENTS—Direct-drive, multi -speed blower motor is standard on all models. DIRECT -DRIVE, PSC OUTDOOR -FAN MOTORS are designed to help reduce energy consumption and provide for cooling operation down to 40°F (4.4°C). It's high efficiency design ensures high performance with most duct systems. REFRIGERANT SYSTEM is designed to provide dependability. Liquid refrigerant filter driers are used to promote clean, unrestricted operation. Each unit leaves the factory with a full refrigerant charge and is fully run tested. Refrigerant service connections make checking operating pressure easier. 0 Options TP - Base unit with tin plated indoor coil hairpins Only used if ordering an option Series Electrical Supply 3 - 208/230-1- 60 PAGE FEATURES/BENEFITS 1 MODEL NUMBER NOMENCLATURE 2 AHRI CAPACITY RATINGS 3 PHYSICAL DATA 4 ACCESSORIES 5 DIMENSIONAL DRAWINGS SELECTION PROCEDURE 9 PERFORMANCE DATA 11 TYPICAL WIRING SCHEMATICS 21 CONTROLS 23 APPLICATION DATA 23 GUIDE SPECIFICATIONS 24 2 AHRI° CAPACITIES Cooling Capacities and Efficiencies UNIT SIZE NOMINAL TONS STANDARD CFM NET COOLING CAPA- CITY AT 95° F (35° C) (Btuh) EERt SEER** 024 2 800 24,000 11.50 14.50 030 2.5 1000 29,800 11.50 14.50 036 3 1200 36,000 11.50 14.50 042 3.5 1400 42,000 11.50 14.50 048 4 1600 46,500 11.50 14.00 060 5 1700 55,000 11.00 14.00 Heat Pump Heating Capacities and Efficiencies UNIT SIZE NET HEATING CAPACITY AT 47° F (8.3° C) (Btuh) COP @ 47° F (8.3° C) NET HEATING CAPACITY AT 17° F° (-8.3° C) (Btuh) COP @ 17°F (-8.3° C) HSPF** 024 23,400 3.7 13,400 2.4 8.0 030 28,600 3.7 15,600 2.4 8.0 036 34,400 3.5 20,200 2.4 8.0 042 40,000 3.5 23,400 2.4 8.0 048 45,000 3.5 26,600 2.3 8.0 060 56,000 3.5 34,000 2.4 8.0 LEGEND dB ---Sound Levels (decibels) db -Dry Bulb SEER -Seasonal Energy Efficiency Ratio wb-Wet Bulb COP ---Coefficient of Performance * Air Conditioning Heating & Refrigeration Institute t At "A" conditions --80°F (26.7°C) indoor db/67°F (19.4°C) indoor wb & 95°F (35°C) outdoor db. ** Rated in accordance with U.S. Government DOE Department of Energy) test procedures and/or AHRI Standards 210/240. Notes: 1. Ratings are net values, reflecting the effects of circulating fan heat. Ratings are based on: Cooling Standard: 80°F (26.7°C) db, 67°F wb (19.4°C) indoor entering ---air temperature and 95°F db (35°C) outdoor entering ---air temperature. 2. Before purchasing this appliance, read important energy cost and efficiency information available from your retailer. C �L US LISTED A -Weighted Sound Power Level (dBA) Use of the AHRI Certified TM Mark indicates a manufacturer's participation in the program For verification of certification for individual products, go t0 www.ahridirectory.org. COMPLIANT UNIT SIZE STANDARD RATING (dBA) TYPICAL OCTAVE BAND SPECTRUM (dBA without tone adjustment) 125 250 500 1000 2000 4000 8000 24 73 54.4 54.9 58.8 67.5 53.7 48.5 39.4 30 75 55.4 63.9 62.8 59.0 54.7 45.5 37.9 36 74 60.4 58.9 62.8 63.0 58.7 52.5 45.4 42 79.5 59.9 64.4 69.3 68.0 65.2 63.0 60.4 48 75.6 59.9 64.4 64.8 65.0 59.7 55.5 48.9 60 79.0 67.6 65.7 68.6 70.5 65.3 59.8 50.0 3 PHYSICAL DATA UNIT SIZE 024 030 036 042 048 060 NOMINAL CAPACITY (ton) 2 2.5 3 3.5 4 5 SHIPPING WEIGHT (Ib) 312 333 334 388 407 475 (kg) 142 151 152 177 185 215 COMPRESSOR TYPE SCROLL REFRIGERANT R -410A REFRIGERANT QUANTITIY (Ib) 7.00 7.20 6.30 9.10 7.70 11.5 QUANTITY (kg) 3.18 3.27 2.86 4.13 3.49 5.22 OUTDOOR METERING DEVICE TXV Piston TXV Piston ORIFICE ID (in.) — 0.049 0.057 0.059 — 0.070 (mm) — 1.245 1.448 1.499 — 1.778 OUTDOOR COIL ROWS...FINS/in. 2...20 2..20 2...20 2...20 2...20 2..20 FACE AREA (sq. ft) 9.1 10.2 10.2 13.0 15.5 15.5 OUTDOOR FAN NOMINAL AIRFLOW (cfm) 2000 2000 2800 3100 3100 3300 DIAMETER (in.) 20 20 20 20 20 20 DIAMETER (mm) 508 508 508 508 508 508 MOTOR HP (RPM) 1/8 (825) 1/8 (825) 1/4 (1100) 1/4 (1100) 1/4 (1100) 1/3 (1100) INDOOR METERING DEVICE Piston TXV TXV ORIFICE ID (in.) 0.059 0.059 0.067 0.076 — — (mm) 1.499 1.499 1.702 1.9304 — — INDOOR COIL ROWS...FINS/in. 3...12 3...14 3...12 3...14 3...14 3...14 FACE AREA (sq. ft) 4.3 4.3 4.9 4.9 4.9 4.9 INDOOR BLOWER NOMINAL COOLING AIRFLOW (cfm) 800 1000 1200 1400 1600 1700 NOMINAL SIZE D x L (in.) 10 x 8 11 x 9 11 x 9 11 x 9 11 x 9 12 x 11 (mm) 254 x 203 279 x 229 279 x 229 279 x 229 279 x 229 305 x 279 MOTOR (HP) 1/3 1/3 1/2 1/2 3/4 1 HIGH-PRESSURE SWITCH (psig) CUTOUT 650 +/- 15 RESET (AUTO) 420 +/- 25 LOW-PRESSURE SWITCH (psig) CUTOUT 20 +/- 5 RESET (AUTO) 45 +/- 10 RETURN -AIR FILTERS THROWAWAY (in.) 20x20x1 24x30x1 24x36x1 (mm) 508x508x25 610x762x25 610x914x25 egwred filter sizes shown are based on the AHRI (Air Conditioning, Heating & Refrigeration Institute) rated airflow at a velocity of 300 ft/min (91 m) for throw- away type or 450 ft/min (137 m) for high capacity type. Recommended filters are 1 —in. (25 mm) thick. 4 OPTIONS AND ACCESSORIES ITEM DESCRIPTION FACTORY INSTALLED OPTION FIELD INSTALLED ACCESSORY Coil Options Base unit with tin plated indoor coil hairpins X 036 Compressor Start Kit Compressor Start Kit assists compressor start—up by providing additional starting torque. 048 X Corporate Thermostats Thermostats provide control for the system heating and cooling functions. No X Crankcase Heater Crankcase Heater provides anti—floodback protection for low— load cooling applications. V X* Electric Heaters Electric Heat Supplement X Low Ambient Kit Low Ambient Kit (Motormaster II Control) allows the use of mech- anical cooling down to outdoor temperatures as low as 0°F (-18°C) when properly installed. 1 X Time Guard II Automatically prevents the compressor from restarting for at least 4 minutes and 45 seconds after shutdown of the compressor. Not required when a corporate programmable thermostat is applied. X vailable accessories. Accessory Electric Heater Usage CATALOG ORDERING NO. NOMINAL CAPACITY (kW) CIRCUIT BREAKER (Yes/No) STAGES USED WITH SIZES 024 030 036 230 042 048 060 CPHEATER125A0* 3.8 / 5.0 No 1 V V V V CPHEATER126A0* 3.8 / 5.0 Yes 1 V V V V V V CPHEATER127A0* 5.6 / 7.5 No 2 V CPHEATER128A0* 5.6 / 7.5 Yes 2 V V V V V V CPHEATER129A0* 7.5 / 10.0 No 2 NONE CPHEATER130A0* 7.5 / 10.0 Yes 2 V V V V V V CPHEATER131A0* 11.3 / 15.0 Yes 2 V V V V CPHEATER132A0* 15.0 / 20.0 Yes 2 V V pproveo combination Multiplication Factors HEATER kW RATING VOLTAGE DISTRIBUTION MULTIPLICATION FACTOR 240 200 .69 208 .75 230 .92 240 1.00 Example: 15.0 kW (at 240v) heater on 208v = 15.0 (.75 mult factor) = 11.25 capacity at 208v 5 BASE UNIT DIMENSIONS -024-036 CENTER OF GRAVITY IN [MM] UNIT HEIGHT 34-1/8 [867] CO CO 208/230-1-60 208/230-1-60 REQUIRED CLEARANCES TO COMBUSTIBLE MATL ,D tot O o O Q 0 - WI o O 3 0 = O O O NEC. REQUIRED CLEARANCES. 42.0 [1061] cc CC 2 Z O 0 0 CC 3 w O w o O w w ▪ cc IJ CC O m 0 L"" 1 3 CD O 3 2 J O - a 0 O x c • 3 w 0 ¢ O ¢ z O =w VOu 1.. 000 O _ _ 0 DIMENSIONS IN 1- H 6 RIGHT SIDE VIEW 50Z8500672 A14554 BASE UNIT DIMENSIONS -042-048 CENTER OF GRAVITY IN I o 19-3/4 [503] cn UNIT HEIGHT 208/230-1-60 208/230-1-60 • 00 REQUIRED CLEARANCES TO COMBUSTIBLE MATL O O CL CC 41 CC MoE07 CO 00 0 CC CC 20 3 & - O N Z w In �O 0 0 0 a W c 3 UN z 0 2 O a a41 PI V o0 dw oQ0- 2o.N I-3 0 O ¢ - B _. = _ x CO {/3 8 O OIll CC 0 L.L. O I=WW S r i-= , m cn,n Z m==� REQUIRED CLEARANCE FOR SERVICING z z 0 = O O 0- 0 O 0 N N W ow cc an Co CC O m 00 LL, cc co z cc O O O DIMENSIONS IN • 7 LEFT SIDE VIEW 50ZH500673 A14555 U 2 N 0 BASE UNIT DIMENSIONS -060 REQUIRED CLEARANCES TO COMBUSTIBLE Lu LU 0 0 • • w w cc 8 LEFT SIDE VIEW 50ZH500736 A150071 SELECTION PROCEDURE 1. DETERMINE COOLING AND HEATING REQUIREMENTS AT DESIGN CONDITIONS Given: Required Cooling Capacity (TC 28,000 Btuh Sensible Heat Capacity (SHC) 20,500 Btuh Required Heating Capacity 28,550 Btuh Outdoor Entering -Air Temperature 95°F (35°C) Outdoor -Air Winter Design Temperature .. 20°F (-6.7°C) Indoor -Air Winter Design Temperature 70°F (21.1°C) Indoor Entering -Air Temperature 80°F (26.7°C) edb, 67°F ewb (19.4°C) Indoor -Air Quantity 1000 CFM External Static Pressure 0 20 IN. W.C. Electrical Characteristics (V -Ph -Hz) 230-1-60 edb — entering dry bulb ewb — entering wet bulb II. SELECT UNIT BASED ON REQUIRED COOLING CAPACITY Enter Cooling Capacities table at condenser entering temperature of 95°F (35°C), indoor air entering at 1000 cfm and 67°F (19.4°C) ewb (entering wet bulb). The 030 unit will provide a total cooling capacity of 28,800 Btuh and a sensible heat capacity of 21,600 Btuh. For indoor -air temperature other than 80°F edb (entering dry bulb), calculate sensible heat capacity correction, as required, using the formula found in Note 3 following the cooling capacities tables. NOTE: Unit ratings are net capacities. III. SELECT ELECTRIC HEAT Enter the 030 Heating Capacities table at 1000 CFM. At 70°F (21.1°C) return indoor air and 20°F (-6.7°C) air entering outdoor coil, the integrated heating capacity is 16,740 Btuh. (Select integrated heating capacity value since deductions for outdoor -coil frost and defrosting have already been made. No correction is required.) The required heating capacity is 28,550 Btuh. Therefore, 11,810 Btuh (28,550 - 16,740) additional electric heat is required. Determine additional electric heat capacity in kW. 11,810 Btuh = 3.46 kW of heat required 3414 Btuh/kW Enter the Accessory Electric Heater Usage table on page 4 for 208/240v. single-phase, 030 unit. The 5 -kW heater at 240v most closely satisfies the heating required. To calculate kW at 230v, multiply the heater kW by multiplication factor 0.92 found in the Multiplication Factors table on page 4. 5 kW x 0.92 = 4.6 kW 4.6 x 3414 = 15,704 Btuh To calculate kW at 208 v, see Multiplication Factors table on page 4. Total unit heating capacity is 32,444 Btuh (16,740 +15,704). IV. DETERMINE FAN SPEED AND POWER REQUIREMENTS AT DESIGN CONDITIONS Before entering the air delivery tables, calculate the total static pressure required. From the given, the Accessory Electric Heat Pressure Drop table, and the Filter Pressure Drop table, find: External static pressure Filter Electric heat Total static pressure 0.20 IN. W.C. 0.09 IN. W.C. 0.04 IN. W.C. 0.33 IN. W.C. Enter the table for Dry Coil Air Delivery — Horizontal Discharge at 1000 CFM and 230v high speed. The blower will deliver 1036 CFM @ 0.40 IN W.C. static pressure. This will adequately handle job requirements. 9 w 0 1 z0 w itt ca MI r CN CO 00 •Hiiuununuui ' • D I co - ,01. -,-111il,il• . , 1 I i 1 1 1 1 1 11 i1 -MI mRIP• H1M i.1 rr no ; IQ is;, it1111 1 IN ND • 1 IIIIIIllILIllIiIk1l&IIk M l 1. in E MoInV ijrikliii,..I1 KU11 UhIIII 11111 •l 11 11 IL it 111 a ri 11Ih.4)1 t 11 •,n n IAI1 111 •1n 11 A 1111 ' 1 iin k 1 1 o n I 1 k 1,111 n n I 1 l,. 11 11 • I In hIlIlIlIhhhIlIlIl Ill N II MI II 1111f .,_ Ls 1 11 1 __, t 1 1I ' .11 ... . 1 A II 11 . n 1 E , , .1IIhIIlhIII . 11 IN .11 1 1 •1 III MI II Ili i r , „ _,_,, ___ ! 1 1 , 1 IN ni-, la r 0 OD 0 03 0 0 0 0 0 03 0 0 0 CN 0 0 OUTDOOR TEMPERATURE, °F Hniew `All3VdV0 ONIIV3H C131V21931NI lINfl `ssoi 11/31-1 waling Al 50088 V N O COOLING CAPACITY IR TEMPERATURES °F (°C) 125 (52) +' >, > 1-- (n '' to c. -i LO (0 to (0i 3.56 3.59 to cvi 3.57 to co. to cri CO ri CO ri 3.60 3.57 3.62 (0 (0 Capacity MBtuh Sens 15.34 15.37 N V N CO M 10.81 O O 16.22 13.44 14.46 11.48 to 6) O O) 6) (0 O I' 4 0 6 to O N Total CO 'xi CO 6 CO 4 e-- 6) (fl (0 N 4 O) ,- O ,— (0 r 16.22 CO t() ,- r t` ,- 19.80 I 1.0 6) (O ,- 0) CA (O 15.48 I O (fl r r N- O O N 115 (46) CO (I) i. > 1-- x (O 0) N CO O N 2.96 2.99 3.02 2.99 6) (A N 2.98 0 O C7 V O ('O N O M N O M 3.00 3.03 10 O cO Capacity MBtuh 0 C d 17.23 17.27 13.57 N to V N- (C) •- 18.25 18.29 CO 4 15.73 N N ,- ' 0) CC) e- 0) 6) (fl to 6) r (0 N r- N Total 17.23 17.27 17.12 19.32 21.74 18.25 18.29 O CO NS Lc) CO 6) 22.06 .- O C!) ,- O Cf) O OO CO N O 22.29 L 105 (41) ' > T > H 0- r� t V" Nt N N 00 V N O to N to N O to N O to N O to N to N CO CC) N N to N N tt) N in N CO to N Lvr t1) 0 N Capacity MBtuh Sens CO T r 0) 6) 14.77 15.60 12.42 20.33 20.37 •-- 0) to (A to (0 CO (T N 21.17 I 21.19 I N O n O to N- 13.48 Total CO CO N (3) 0) ,- ,- _ Cfl 0) •- 21.73 23.72 (0 co O N 20.37 20.25 N N 24.08 21.17 O ,- .-- N ti O N 22.40 24.36 CONDENSER ENTERING A 95 (35) YN a (1) Y (0 CO 0 0 N N N- 0 N N --CO 0 0 N N CO 0 N CO 0 N CO 0 N 0) 0 N 6) 0 N 0 N O N 0 N O N A- N Capacity MBtuh G d N co ,- 0) 6) (0 N CO CO 22.07 21.95 6) (0 Nt N. CO 22.76 I 22.78 17.85 18.35 N Total 21.20 21.59 to N 23.57 25.69 22.07 22.15 22.39 24.00 CO N 22.76 22.78 N N- N N N CO V N A- 7 (0 N 85 (29) CU y N >, > A- N- r- A- r- A- N r N r- N N. N N. CO r� CO r� 'Cr r V 'I' r- '' N- to N- Capacity MBtuh ISens' 22.67 20.60 16.80 CO O n V 23.59 CO O N - CO r- CO CO co. N- to V CON 4 24.36 18.74 to 6) I- O to Total N-(00)) CO N CO N CO CO N N N 25.39 27.59 23.59 rt CO M N N- '- V N 25.86 I CO O CO N (0 4 N 24.36 I CO to V N N N O N 28.37 N in in CO N O T co 0 0 O V V' rt V (0 V N V N V' N(0 r CO CO 7 CO V Nt Capacity MBtuh Sens 24.13 21.58 17.66 18.15 14.74 25.10 CO O M N CO (0 co. to - O 0 CO tri 25.89 I CO CO V N N CO 6 (0 O O N 15.79 1 Total 24.13 24.96 25.41 CO 0) A- CO t` 6) N N 25.10 25.55 CO 0) to N f� (O r N (0 CO 6) N 25.89 26.06 (`O CO CO N to O a0 N N N O CO EVAPORATOR AIR m W 57 (14) 62 (17) 63* (17) 67 (19) 72 (22) 57 (14) 62 (17) 63* (17) O (0 72 (22) V In 62 (17) 63* (17) 6) r-- CO f N i N r� lL U O 0 r` 0 O CO O 0 0) 4 11 HEATING CAPACITY O OUTDOOR COIL ENTERING AIR TEMPERATURES °F (°C) (O 0 0 >.> H 0 Y 0) CO m -- 0 N 00)) 00) ,- N (V 0 N 0 N Capacity MBtuh Total I Integ o CO 04(0040404 (0 V 0 (0 C) 0) r- 0 0 N N 0 0 N 01 0 N 0 CO N 00 CO 0 0 CO O) V 0) O) N co O O) O) 0 0 6 co CD N N N N N N N N N W TN V O r-) (7 0(0 N 7 CO N n 0 C) 0 12 Y m 0- 0- 0 0 Capacity MBtuh Total I Integ 0 0N 0 0 Nmm CO N o 040404040404040404 v 0 v v v v v 6c 0a 0 0 0 N 0 0 N m C) 0 o 10 Q V V O Q V N N N N N N N N N 72: r- 0 0 0 m m N 0- c00 l t Capacity MBtuh Total I Integ m m m m CDD (0 CO O 7 o N N NNNN N N N CO m (00 ODD (0 CO 4 V 0 N 0 N 0 N 0 N 0 N 0 N 0 N 0 N 0 N 30 (-1) F N x m o m (0D r^ m 0 08 Capacity MBtuh 01 C) r` -- 0 0) N 0 N N d E N 6 N 6 C) tri^ 0 6 0- tri 6 0 v 0) v O) v A C) V '4 - N N 0 0 0 F 03 0 m N (0 (O 80 O r r rr Capacity MBtuh CO1) 0 0 0 CO CO 0 CO h. 0 N C(7 _ C) C) N ,- N — N — N .- N N N C) C) O 04 N N 0 0 0 0! a V V 0 7 ^ V 4 F N Y (0 0 N N (00 l m (0 N Capacity MBtuh 01 N 0 CO ,- C) N .- CO V o y c r 0 r 06 n CO 06 N 0 0 (0 0 N 0 N 0 m m r n N N (0 R V V ii VON0N>.> 7 0 0 0 Capacity MBtuh m co N 0 04 n N O V V0 Ov C 0 6 0 0 W 0 0 0 0 W 0 co Gt to co Q 0 m CO COGI CO N N L___ -10 (-23) 0Y . (.4 04 0 0 0 1--) N (0 12 (n Capacity MBtuh VI 00 On N N 0 00 m N E 0 0 0 0 0 0 0 0 0 N N N0 6 0 0 0 0 04 F r r 0. n n r; 0. 0. 0- Cc IL 0 0 0 0 0 0 0 0 0 Q O 0-000-000-00 CC0 0 0 0 CO Z pco w o<V I0.N PERFORMANCE DATA (CONT) COOLING CAPACITY M O CONDENSER ENTERING AIR TEMPERATURES °F (°C) 125 (52) Y T 12 co V 4 4.14 N V N r 4.25 0) 4 0) 4 CONNN>N 4 4 4.30 4 4.24 4.21 4 4.34 Capacity MBtuh Sens co O O N 1� O O N o- o- f- o- CO O M r LO r 4 - N CO r N CO r N 18.43 19.44 V O 6 N LO N N LO LC) N N 1"- CO 6) r 0) r O N 15.89 Total CO 0) 66 N 20.97 20.56 22.46 N O LC) N N 00 r N V' CO r N n 10 6) COLO 0 N N N 25.47 N N N LO LC) N N O C) r N CO r CO N 25.78 115 (46) +' >, S. 1- V% Y LC) CO 3.50 3.50 3.54 (6 CO 3.55 3.55 3.54 3.58 3.65 3.59 3.60 10 M O M CO M Capacity MBtuh Sens LO r.--.0N,--,-r-- N N O N N N 00 6) N r 1- CO N 10 (6 1- N 23.75 19.57 20.58 16.07 24.52 24.55 20.87 21.98 16.95 Total LO 1- N NN 22.80 22.79 24.77 27.59 N r M NNNN 23.75 23.23 25.24 28.09 24.52 24.55 CO O Li) CO M LC) NN 28.45 105 (41) 715 N >, S ,2 (n - CO O N CO N- O (0 6) M000000,-0000 (<4 cV M M M O- O LC) LC) M c0 c0 M M M ' M M M 4 M Capacity MBtuh Sens 24.49 ,-.6)00 4 N N r V 0) O (O N N 25.55 25.59 20.69 21.70 17.10 26.44 26.48 22.03 23.15 18.00 Total 24.49 24.56 24.89 27.03 30.03 10 In N 25.59 25.40 27.56 30.61 26.44 26.48 25.81 27.99 31.06 95 (35) Y U) ›+ S. 12 (/) - (V LO N N co co Ln Ln LO CO N N N N CO LO N CO (0 0) LO 0 0 LO LO LO CO CO CO N N N N N N 0) N LO CO N N CO CO (V Capacity MBtuh I Sens (0 N 25.27 20.34 21.25 17.13 O N 1` N 27.33 21.77 22.80 18.10 28.28 28.32 23.16 24.29 CO O O r Total 26.11 26.44 26.91 29.18 32.38 27.29 27.33 27.49 29.80 33.04 28.28 28.32 27.96 30.28 CO L() M CO CV N CO LC (p +-' >, Sc HU) - 10 r (Ni LO CO CO CO r r r N N N N N CO r N CO O CO N N r o- N N N N N N N N N N r LC) N N N N O CO N Capacity MBtuh Sens 27.70 26.42 21.37 22.30 18.09 28.97 28.47 22.85 23.88 19.09 30.04 30.08 r o -- N 4. N N 20.05 Total O N' l'-:00001-4 N CO CO 1- LC) CO CO N O N N co co 28.97 29.13 29.53 31.97 35.41 30.04 30.08 30.05 32.52 35.99 75 (24) Y co .-. >. I-ViY CO 00 r (0 4 r— CO 00 co co 0 co r r r r r CO N- 0 4 0) 0 00 00 O 0) CO 0) r r r r 0 co 0) 0 r N- 0) r Capacity MBtuh 0) >= 0) CO 29.24 27.55 22.41 23.34 19.05 r (fl O CO 29.70 23.91 124.95 20.07 31.77 31.81 25.37 26.52 21.05 Total 29.24 30.19 30.79 33.31 36.86 30.61 31.02 31.52 34.09 37.71 31.77 31.81 32.11 34.70 38.37 EVAPORATOR AIR M Il.l 57 (14) 62 (17) 63* (17) 67 (19) 72 (22) LC) 62 (17) 63* (17) 67 (19) 72 (22) 57 (14) 62 (17) 63* (17) 67 (19) 72 (22) 2 U to N. co O in O N O ,- 12 HEATING CAPACITY OUTDOOR COIL ENTERING AIR TEMPERATURES ° F (°C) >). co 0) cci m N co co N CO O N >. N 14§ N'N '0 u 3 aCT) co U� 0 OO c o 0 -(0(0 m CO 0 O 0D a O T� O N N U J tom U2 N C 0) N N N a N 0) N 0 M 0(AY 0) 0) U J M U2 0)) c 0) N (0 0 N 0 N n O N 0>.3 Fyx m co L U J am UE d La' N 0") N N w n .. n F � 0) cd N 0 H LO 0'- U am co U� 0 C N N O (0 a O F (0 (0 r 'u J LT 0 (0 of of f0 0 N 0 co O oy� 10 0) ccm 0 0 ] z °Lu O m 0 O PERFORMANCE DATA (CONT) COOLING CAPACITY M O R TEMPERATURES °F (° C) 125 (52) I- co Y 4.55 1 d d d r 4.64 4.64 4V 4.67 4.70 '- 0 N V 0 (D V V V 4.71 4.64 V d Capacity MBtuh Sens d (o N 23.49 20.97 (0 N N O n ,- 24.77 CO 4 N CO N N 24.43 CO CO r 0) to N 0) In N 24.16 O (6 N CO oi r Total d (7 0'5 N 23.49 22.54 25.85 29.43 24.77 CO 4 N 23.13 26.44 CD 0) N 25.94 Q) Ln N co N N ) d)0'- (0 N O O CO 115 (46) To ,- j PERFORMANCE DATA (CONT) COOLING CAPACITY R TEMPERATURES °F (°C) 125 (52) `i >, � H V) -V CO Ln CO Ln '1 O v to 5.57 5.50 5.50 '4 Ln LI) In (D Ln 5.57 5.57 Ln 1 5.58 5.72 Capacity MBtuh Sens 26.47 LO (O N 22.66 CCOO 4 N CO O r 27.77 27.82 24.46 26.35 CO O N 00)) O N 28.97 r (O N N O N 22.14 Total 26.47 (O N 24.87 NO c0 NCO ONO 0) 27.77 LO CON N- Ln c0 NNN 34.00 00)) 00 N 28.97 r O N V 6) N OD V CO 115 (46) >. 0 N Y 4.70 4.70 4.69 (0 4 OD V 4.77 4.78 4.74 4.82 0) 4 CO V 4.84 4.80 OD OD 4 C.0 6) 4 Capacity MBtuh Sens 29.84 29.89 24.34 26.04 O N 31.40 31.46 26.25 28.17 22.26 32.77 32.83 28.04 N O CO 23.46 Total 29.84 29.89 TO 6) N 32.76 38.07 31.40 31.46 29.80 33.67 38.72 Ns N CO 32.83 30.44 34.50 39.18 105 (41) (a (A >. H fn Y CO O 0 0 4,i CO 0 ,i N- .-- ,f N V CO CO .4 N LO r r r N N V,f V 4,i .4 N 4 '4N N N 4 4 CO N 4 O co 4 Capacity MBtuh Sens 33.27 33.34 26.01 co L` N 22.17 35.22 35.31 28.04 29.89 23.44 36.90 36.95 30.22 t co O 24.67 Total 33.27 33.34 33.40 37.71 41.90 35.22 35.31 34.39 38.44 42.63 36.90 10 N 0) CO O Ln CO 0) cd 1 - N O .4- Al 95 (35) 71mT H 00 Y LO L6 O O co 0) CO O CO O CO O CO CO (0 O O 0) O C) CO C) CO CO O CO N- O CO Ns 0) Capacity MBtuh Sens 37.01 34.53 27.77 N 0 6) N 23.29 38.61 38.66 29.71 31.10 24.59 39.93 39.99 31.55 33.09 25.83 Total 37.01 37.42 38.00 0) V 45.63 38.61 38.66 38.79 42.00 46.51 CO 0) 6) CO 0) 0) 0) 0) 6) 6) CO CO 42.60 47.18 01 N u) 73(0„ 7 H Ui . 0 0 C7 OD 0 OD r M O C7 0 0 0 CO 6) (7 OO C7 O M O 05 O O C7 CD O CD N OO Capacity MBtuh Sens CO CO co N- (o CO') r 0) N 30.15 24.38 41.35 38.42 30.87 32.26 25.70 42.79 42.85 32.75 34.29 26.97 �i, H 39.63 40.45 d' I 44.54 49.32 41.35 41.57 42.05 45.46 50.34 42.79 42.85 42.74 46.20 CO 10 ' v n RW >.,5. Y .4 V O (D N N LO (O N N- CO N 6) CO N CO 0) 6) CO CO CO CO (fl N- Ns Ns N N N N N N CO CO L` L` N N Ln N N CO N Capacity MBtuh Sens 42.14 36.94 0) 0) csi N 31.26 (O .4 N 44.02 39.74 31.99 33.40 26.80 45.62 0) r (0 6) O V CO 35.47 28.09 Total 42.14 43.42 N N 4 O co 4 .- O Lo 44.02 44.58 45.24 48.95 54.17 45.62 45.69 46.05 49.78 55.07 EVAPORATOR AIR W 57 (14) 62 (17) (0 (O 72 (22) 57 (14) 62 (17) 63* (17) 67 (19) 72 (22) 57 (14) 62 (17) 63* (17) CO 72 (22) C C u_ U a r ( ( o N ( o n a Ln ( r c 14 HEATING CAPACITY OUTDOOR COIL ENTERING AIR TEMPERATURES °F (°C) N coO 0) Ci 3.46 3.71 3.64 3.60 0 0 0 Ci 3.76 60 (16) pacity Btuh Integ m a V(0 0 o N V 49.70 50.21 48.32 48.96 v 7 co up P.-- 7 0000)0)0000) 7 0) 0 10 N 0) 7 04 N 0 7 i[) 7 7 7 W T> H y 0 N C) O N C) 6 7 C0') 0 ((4) 6 C) O (7 (N O O 0)0(0000-0-000 _N O •..c6V 0 Ti7 O N V 0 7 V&7V(0&7 0 N CO CO r` a m m i 0 m O 0i0 o N V V (O O 0 7 V.4 r n co 0 co. co 0 (o v V a v 0 r-, v O Ci Ci O N 0) 6 .-0 N ,- 0 (0 (i Ci 6 6 CO 000 (i 40 (4) 3city tuh Integ 7 N 0 0 N N CO C) ( r` N O 0 N CO CO 0 N m a r0 0 0 (N U) V V CO CO 0) CO 0 0 (N CO 7.- N CO N N 0)000(0000(0 t- r- N O 0 0 CO N t- CO 7 r 0 O) N N 7 7 0 CO N C) O 0) N N 0)0-.000000 CO 0 N 6 0 0 N Ci (i 6 6 6 30 (-1) 3city tuh Integ N V (O (D N N 00 0)- (O (f) N N 0 0 CO co (D N (n N N N N 0 a7 N co ) co 0 0 0 N C) 4 0 0 0 CO N co -- N (N 0 0 0 0 N 0 N N r 0 N 0 0 (- In N N 0 0) I,- CO N N 0 0 0 0) 0 0 0 0 N N N N O) 0) N 20 (-7) 3city tuh Integ r ON) N N N N 1- N CO N N N 0) CO v(0 N N(0 ,7 N N N N t- N N 0 co 0) 0 N N 0) V N 7 N N 0 N CO 0 N N C) 7 N N N N 0 7 N 0 0 0 0 N N 0 N 0 N N N N 0 0 CO N N CO CO N N N N CO 0 N 10 (-12) 3city tuh N 0 (0(0000(00(00 0 0 7 0 0 c,. N 0) CO 0 0 0^ 0- 0 4 N O of o .- N o 0 of N t- 1� 0 0 co of of (o of .-- .- .- 0 of t- 0- CO N N 0.1 N N 0 CO N CO N N 1- 0) 0 0 CO 0 n N N N N N CO t--- N 0 (-18) acity tuh 0 0 N n v o N n CO 0 6 4 0 0- r 0 N 7 N 0 a v 6 Ci 0 0 N 4 0).- N N N 0 N (() 0- r 00) N (0 7 7 N 0 co N N 0 N N n N 0 N N CO N CO 0 0 0 0 r N N N N C) N N -10 (-23) 3city tuh CO `Cr 0 N 0 0 0 CO O 0) 0 0 0 0 N CO N O O 7 N O N 01 N CO 0- 0 (V N CO N N 0 0 INDOOR AIR 2 o 00000“11.000 N 0 N 7 N 04 N co co 0 N N 0 7 N 4 N N co o w Na, 0 O - N V N N N PERFORMANCE DATA (CONT) COOLING CAPACITY R TEMPERATURES °F (°C) in N N T >,� o N Y 5.57 5.57 O O CO In tri 5.63 5.62 5.64 CO to 5.68 0)00 CO O 5.67 (CD O N - In Capacity MBtuh Sens N co 32.29 co (0 N N N N 20.74 33.12 in 27.51 co co co 33.80 CO co CO(0 29.06 30.42 22.97 Total N COO N(0 0 32.29 Cr) 33.83 0) CO 33.12 - C7 CO 00) r CO O 4 CO 37.21 0 (0 CO 33.83 32.23 CO CO 4 CO 37.39 115 (46) >.> HFe CD Y 0) V 4.95 0) 4 4.98 5.01 5.02 5.02 0 tf) 0 O 5.07 5.07 O In 5.06 5.08 ,- to Capacity MBtuh C 0 f/) 35.66 NO O co 4 N co O N C0 N N co O 0 36.80 29.29 30.53 La 6 N 37.62 37.65 00) O CO 32.36 (00 4 N Total 35.66 35.70 35.60 CO co 0 41.59 36.76 CO O CO 36.05 38.56 0 N 37.62 (0 0 CO 36.41 38.87 CO N 105 (41) T2i 4.42 4.42 4.42 V 4.49 4.48 COOD 4.48 0- CD N CO 0) 0 0 0 O) 4.54 t0(f) 4.54 4) 4.56 4.59 Capacity MBtuh Sens O V 1- O CO CO 0 0 N 0 0) N 30.16 T 0) co N 0 O V 40.09 30.91 CO r N CO r r O N 0 r V () V 32.70 34.10 CO N O N Total 38.75 38.91 0) N (A (o N r N 4 45.93 1 40.04 40.09 N- co 0) co 42.68 46.53 41.10 41.15 40.31 43.10 U) 0) O V CONDENSER ENTERING Al to CO in R NO •r >.� O 0) d) O 0) 0) 0) N 0 4.01 0 N 0 V 0 CO 0 4.07 4.07 4.07 4.10 CO Capacity MBtuh Sens 41.54 37.68 30.46 31.63 (0 CD N N 0 V 43.09 32.40 33.70 00 LO N (C) N St 44.30 IC) N Com") 35.68 27.76 !4 41.54 42.09 O 45.78 49.95 O 43.09 43.39 46.50 50.71 44.25 44.30 00) 47.02 51.27 85 (29) R (Ad' >,> H f/) Y O00 to (4) 0 0 3.55 1() 6 3.61 0 CO 0 3.61 3.61 0 CO 6 (0 CO OO CO CO 6 O 0 6 CO 0 c6 CO 0 PO 3.71 Capacity MBtuh Sens 0-� 4 d' (i 4 (0 r C') 0) N Co 126.66 45.74 N- N- r V N. 6 co r to (o 27.94 N N 4 47.17 I (0 to (o 37.14 1 CO -,- 0) N Total 44.08 45.08 CO r to 4 st CA 4 IC) CO 6 O N- O V r r O V 46.64 I CO 0 O O CO O 4 O 47.12 i� r N- Sr 00 N r Sr 50.68 I f- N O O 75 (24) O N >, H (f) Y CO CO 0- r C7 0) 3.18 O N CO N N CO 3.23 CO N CO - N M In N C7 N M 0) N 0 00 N CO 3.29 O CO C7 N CO co Capacity MBtuh N) C 0) N O d 10 d' V N O Coo to N 0) 0) 0) N CO N cci 4 0 V to O (0 N St (o N N N 0) N- d CO to d0 0 0 coS 0 In co co N- V N Total 46.42 47.91 48.68 1'- N N to O r N t0 48.26 49.02 49.67 53.29 58.19 49.79 50.03 50.44 54.07 59.02 I EVAPORATOR AIR W to CO 0 CO CO 72 (22) 10 62 (17) 0 O CO 72 (22) 57 (14) 62 (17) CO O Esi r CO EV - N I- V' 0 crc0 T 00 T ( 15 HEATING CAPACITY t0 >, 3 12 0) Y CO ND I's (7 C) C) 0O 00)) CD (0 C) C) c0 0) V V 0 V 3city tuh Integ (') 0) D) N 0) CO 100 CO 0) 01 CO . - (0 0 co W W N 0) C) 1)) N (D N N (O N O m 0) n Q N N N N N CO .- ,- CO V V N N 0 N N N T> H to - r ((00 (NO C) C) C) CO CO N C) C) C) CO 00)) V C) 0N) C) 3city tuh Integ 0) 0 CO C) N 0) (0 (0 n v a v n co (O CO v ro (0 n v v v N N— (o N (o ro v o v 0) 0 CO 0) N 0 r; o- 01 v a a r N N CO,- V (0 01 0- v v v N (O CO (O (0 (0 v v 0( (0 >> A T> (O 12 t/) Y N N N C) C) C) N (O t') C) C) CO m 6 C) CO C) 3city tuh Integ V N (0 N a ro N 0 0 o V V (0 (0 CO N m o N O) o o co V V CO N- v OD W W CO N O) CO 7 (O (0 N V co O O O V V V (0 (D N co O N O) O o co V V (O (- V co or D) C) (') N CO O) co 4IR TEMPERATURES °F (°C) 30 (-1) A>, F (D Y V V OV C) C) C) (ND (N N N C) N r `[Z-) ^ C) C) (OO C) 3city tuh Integ (00 CO 0)co ( D) D) D) N N N V N ((0 o) D) o) N N N oN CO o) D) N N V Di N 1 O) co 0 CO O N C) V V 6 co co co 0) CO N N N CO C) N C) CO CO 0) CO (r) CO 4-- C) C) CO CO N N C) tt N >,> F N x (0 N N m C) Ci Cr 7 V� M C) C) 6 C) m N C) d C -,--..c- 'U 0 N (D N 6 6 6 N N N C) V N N N N N N N N coC) o N N N N am R (.i A o 1- O) N (0 CO Cr (0 (o (o N N CO CO 0 0) 0 N n of 6 N N N 0 0) O 0) 01 r N N 0 0 (o N (O >, lO (A . r r 0) C) C) C) 0) C) CON 0 C) C) V V C) C) V C) O) yO '_T' L C U 0 0 N N CD N N N N CO CO N CO Cr N N N N N N N N 0 CO N a m0 m 2 — o A o C) N C) V N C) C) C) N N N N V (O N C) C) CJ C) N N N V O N C) C) N NTo N C) N >I- 1Y T> In S 0 0 0 C) C) C) m N C) N C) C) C) N C) 0) 6 3 city tuh Integ co (D O) V N (O 0- 0- 0- 0- (O V CO V N 0- 0- N m CO 0) 0- 01 17.46 O - 0) 0 N O) O) D) 0- CD N CO 0) 0 0 0 O) N 0) CO CO N N To' T> F (D Y CA 0) 0 N N N CO 0 .- C) C) C) oN N C) N cr N C) N-- r 0 CS) 0 c) v 6 O) 0- r CO 0 0 C) c) v CO N CO 0) 0) 0) CO 0 v Capt MB' Total c0 O co V N (O 0) 0) 0) 0 N N 6 U) CO (0 0 N N N N N INDOOR AIR 2 0 0 0 0 0 0 0 0 0 m.-. 0 W CO O N n N N O L0 PERFORMANCE DATA (CONT) COOLING CAPACITY ENTERING AIR TEMPERATURES °F (°C) in t T. 11 0 >. I- Y 6.44 6.45 M M 6.58 M 6.52 6.53 0 0 6.57 6.58 6.57 (O M CO M Capacity MBtuh 0) C �'G^) V/ 41.30 co 33.40 34.86 28.08 co n 42.89 35.30 36.90 29.28 43.64 43.70 36.67 00 co co 30.14 Total 41.30 42.02 42.40 CO Lo (n 49.38 M n N V 42.89 co 7 46.33 50.18 4 co M tt 43.70 43.62 n I` CO 4 50.64 105 (41) .1.+ T> I-'Y 5.59 (0cs) 5.62 5.67 5.72 5.67 5.68 5.68 5.73 N- N - '0 N- In csi N- 1) 5.73 co(NI 6 5.83 Capacity MBtuh Sens 44.64 42.96 0o N- 4 co in N CO co 29.45 46.27 co CO (0 4 co N- CO CO 38.34 O CO O CO co co N: 4 N in n rt v 00 CO (O 00 6) CO 31.59 Total 44.64 45.86 46.36 (O 00 6) � I� O 4 (O 46.27 0 CO CO 47.27 (0 f,- O 10 55.01 47.33 N (n 1` M co t` 1- M to 55.59 tp Ts co +'' A›. I- V% Y CO 4.89 4.90 4.94 4.99 4.94 Lo 6) CD O 5.00 5.05 4.99 5.00 5.00 4 O (0 5.10 Capacity MBtuh [Sens 47.77 44.21 I- 6) '0 co 37.46 30.66 49.60 47.03 37.98 O CO 0) co (n O co 50.79 co O M 4 39.41 41.14 32.87 w O F- I- N- N. v N ([ ) O) v 50.11 0) Ni (n 58.56 49.60 50.68 CO (n 55.00 O) (0 6) (n O) I,- O (n CO d ,- (n M CO ,- In (n (0 (O (n 60.36 CONDENSER 85 (29) +''' j PERFORMANCE DATA (CONT) LEGEND BF— Bypass Factor db — Dry Bulb edb— Entering Dry—Bulb Ewb — Entering Wet—Bulb kW — Total Unit Power Input Idb- Leaving Dry—Bulb Iwb— Leaving Wet—Bulb SHC — Sensible Heat Capacity (1000 Btuh) TC — Total Capacity (1000 Btuh) (net) *At 75°F (23.9°C) entering dry bulb (Tennessee Valley Authority [TVA] rating conditions); all other at 80°F (26.75°C) entering dry bulb. COOLING NOTES: 1. Ratings are net; they account for the effects of the evaporator—fan motor power and heat. 2. Direct interpolation is permissible. Do not extrapolate. 3. The following formulas may be used: Sensihlc capacity (131uh) �Idb = 'edb - I.1(1 x ('FM Wet -bulb temperature corresponding to enthalpy IRO = air leaving evaporator coil (hlwb) Where: hewb = Enthalpy of air entering evaporator coil = eawl Ucapacity (Blah) hlwb - 4S x CPM 4. The SHC is based on 80°F (26.7°C) edb temperature of air entering evaporator coil. Below 80°F (26.7°C) edb, subtract (corr factor x CFM) from SHC. Above 80°F (26.7°C) edb, add (corr factor x CFM) to SHC. Correction Factor = 1.10 x (1 — BF) x (edb — 80). 50ZHC PERFORMANCE DATA (CONT) Filter Pressure Drop (IN. W.C.) FILTER SIZE in.(mm) CFM 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 20X20X1 (508X508X25) 0.05 0.07 0.08 0.10 0.12 0.13 0.14 0.15 SCFM 1016 921 882 854 - - - 668 599 20X24X1 (508X610x25) - - - 0.08 0.09 0.10 0.11 0.13 0.14 0.15 0.16 - - - SCFM 1052 1018 984 24X30X1 (610X762x25) 914 879 833 0.04 0.05 0.06 0.07 0.07 0.08 0.09 0.10 - 1006 974 - 899 856 784 24X36X1 (610X914X25)- SCFM - - - - - - 0.06 0.07 0.07 0.08 0.09 0.09 0.10 0.11 0.12 0.13 0.14 Accessory Electric Heat Pressure Drop (IN. W.C.) HEATER kW CFM 800 1000 1200 1400 1600 1800 2000 2200 5-20 0.033 0.037 0.042 0.047 0.052 0.060 0.067 0.075 Wet Coil Air Delivery* (Deduct 10 percent for 208 Volt Operation) 230 VOLT HORIZONTAL DISCHARGE UNIT SIZE SPEED TAP AIR DELIVERYZ EXTERNAL STATIC PRESSURE (IN. W.C.) 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 024 1 SCFM 933 799 758 707 675 608 549 497 435 394 2 SCFM 1016 921 882 854 809 761 711 668 599 552 3 SCFM 1079 1041 1003 970 944 909 866 810 764 724 030 1 SCFM 1052 1018 984 943 914 879 833 795 732 678 2 SCFM 1141 1107 1069 1036 1006 974 932 899 856 784 3 SCFM 1246 1213 1181 1144 1108 1078 1043 1015 973 931 036 1 SCFM 1311 1253 1195 1136 1083 1023 958 895 818 729 2 SCFM 1413 1364 1313 1256 1203 1148 1084 1022 969 882 3 SCFM 1571 1525 1473 1423 1364 1313 1261 1210 1156 1090 042 1 SCFM 1499 1434 1394 1349 1307 1273 1232 1169 1108 1038 2 SCFM 1568 1532 1497 1459 1407 1381 1346 1304 1252 1185 3 SCFM 1635 1593 1560 1523 1484 1439 1406 1369 1335 1264 048 1 SCFM 1657 1625 1590 1554 1517 1486 1448 1417 1381 1340 2 SCFM 1707 1673 1644 1614 1586 1549 1515 1479 1449 1407 3 SCFM 1931 1900 1870 1840 1809 1778 1749 1714 1683 1646 060 1 SCFM 1774 1746 1717 1678 1639 1590 1538 1492 1461 1418 2 SCFM 1857 1820 1784 1752 1720 1671 1625 1579 1532 1509 3 SCFM 2183 2144 2115 2079 2049 2018 1986 1933 1859 1733 *Air delivery values are based on operating voltage of 230v, wet coil, without filter or electric heater. Deduct filter and electric heater pressure drops to obtain static pressu e available for ducting. NOTES: 1. Do not operate the unit at a cooling airflow that is less than 350 cfm for each 12,000 Btuh of rated cooling capacity. Evaporator coil frosting may occur at air- flows below this point. 2. Standard Cubic Feet per Minute 1S ELECTRICAL DATA Units Nominal V -PH -HZ Voltage Range Compressor Electrical Heat Power Supply RLA LRA OFM 1FM Nominal FLA MCA MOCP** MIN MAX FLA FLA kW* 208 240 208 230 24 208/230-1-60 197 253 10.3 61.6 0.9 2.8 -/- - - 16.6 16.6 25 3.8/5 18 20.8 39.1 42.6 40/45 5.6/7.2 27 31.3 50.3 55.7 60/60 7.5/10 36.1 41.7 61.7 68.7 70/70 30 208/230-1-60 197 253 13.5 72.5 0.9 2.8 -/- - - 20.6 20.6 30 3.8/5 18 20.8 43.1 46.6 45/50 5.6/7.2 27 31.3 54.3 59.7 60/60 7.5/10 36.1 41.7 65.7 72.7 70/80 36 208/230-1-60 197 253 14.7 75.0 1.7 4.1 -/- - - 24.2 24.2 35 3.8/5 18 20.8 46.7 50.2 50/60 5.6/7.2 27 31.3 57.9 63.3 60/70 7.5/10 36.1 41.7 69.3 76.3 70/80 11.3/15 54.1 62.5 91.8 102.3 100/110 42 208/230-1-60 197 253 16.3 112.3 1.7 4.1 -/- - - 26.1 26.1 40 3.8/5 18 20.8 48.7 52.5 50/60 5.6/7.2 27 31.3 59.9 65.3 60/70 7.5/10 36.1 41.7 71.3 78.3 80/80 11.3/15 54.1 62.5 93.8 104.3 100/110 48 208/230-1-60 197 253 18.3 108.0 1.7 6.0 -/- - - 30.6 30.6 45 3.8/5 18 20.8 53.1 56.6 60/60 5.6/7.2 27 31.3 64.3 69.7 70/70 7.5/10 36.1 41.7 75.7 82.7 80/90 11.3/15 54.1 62.5 98.2 108.7 100/110 15.0/20.0 72.1 83.3 120.7 134 125/150 60 208/230-1-60 197 253 26.2 144.2 1.9 7.6 -/- - - 42.3 42.3 60 3.8/5 18 20.8 64.8 68.3 70/70 5.6/7.2 27 31.3 76.0 81.4 80/90 7.5/10 36.1 41.7 87.4 94.4 90/100 11.3/15 54.1 62.5 109.9 120.4 110/125 15.0/20.0 72.1 83.3 132.4 146.4 150/150 *kW @ 208/240 ** HACR Type Circuit Breaker LEGEND FLA - Full Load Amps LRA - Locked Rotor Amps MCA - Minimum Circuit Amps MOCP - Maximum Overcurrent Protection RLA - Rated Load Amps NOTES: 1. In compliance with NEC (National Electrical Code) requirements for multimotor and combination load equipment (refer to NEC Articles 430 and 440), the overcurrent protective device for the unit shall be Power Supply fuse or circuit breaker. 2. Minimum wire size is based on 60°C copper wire. If other than 60°C wire is used. or if length exceeds wire length in table, determine size from NEC. *Heater capacity (kW) based on heater voltage of 208v & 240v. If power distribution voltage to unit varies from rated heater voltage, heater kW will vary accord- ingly. TYPICAL INSTALLATION INDOOR !: THERMOSTAT �1 RETURN AIR TOP COVER FROM /POWER SOURCE Power Wiring Control Wiring * Condenser Airflow 1> Evaporator Airflow LOW VOLTAGE ENTRY OD POWER ENTRY COMPOSITE RUST -PROOF BASEPAN CONDENSATE DRAIN CONNECTION 20 DISCONNECT PER NEC (UNIT AND ELECTRIC HEATER) A10135 TYPICAL CONNECTION WIRING SCHEMATIC -208/230-1-60 CONNECTION WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING USE COPPER CONDUCTORS ONLY FIELD SUPPLY POWER 208/230 VAC. 60 HZ, IPM UNIT ONLY - - I BLK MAXIMUM WIRE SIZE 2 AWG. J TEL EOUIPMENT GROUND —GRN -101 I 1 FOR 61811vG WITH ELECTRIC HEATERS 4 to. SEE SCHEMATIC ON HEATER ACCESSORY. - 41je 24 VOLT THERMISTAT CONNECTIONS ACCESSORY ELECTRIC HEAT 24 VOLT THERMISTAT CONNECTIONS (SEE NOTE 7) R —RED 0 — 0 R N W2 —WHT Y — YEL C —BRN G —GRN w3- —P1,18 W3 — VIO W2 —GRY W2 —WHT C — BRN CCH I G/Y IIF USED)/ ,,, BLK C BLK G D DR 0 DB CO CID BLK TEL CAP F—BRN H C F OFM 04(0504 PL0G COMP L2 G/Y - GND L1 CO SEE NOTE 6 1 \ GNO 1861 SEE NOTE 411 2 3 RESISTOR (10n000^n OHMS) VVVV 011 DEFROST BOARD 0 DR T1 OF2 BRN 51 1 HPS Ir BLNJ °1°-1 BRN BLK BLU 01 o C c 0 YO IDE 0RW2Y i 0 P1 30 60 90 W1 0404 1001 SPEED UP SEE OTE 5�_3 ACCE5550RY ELECTRIC HEAT 124 VOLT HEATER RELAY CONNECTIONS/ UNIT COMPONENT ARRANGEMENT L OUTDOOR FAN OFN SECTION CONTROL BOX AREA I IRAN -^'� o^� - DEFROS EQUIP 6 D ® BOARD I 1 10 I MPSI HPl2ICE 600 II I RVSI 1 LPSI I DFT1 MI COMP DISCONNEC PER NEC FIELD SUPPLIED —THERMISTAT WIRES FAN SEQUENCE G' .6. ON OFF BLOWER OFF DELAY 0 30 6I0 (SECONDS) SPEED TAP NI MED LOW L PNK — P148 LPS SEE NOTE 5�� DEFROST TIMING SELECTION -SEE NOTE 5 FIELD SELECTABLE OPTIONS FOR TIME PERIOD BETWEEN DEFROST CYCLES (MINUTES) FACTORY DEFROST SETTING IS 60 MIN. COLOR CODE SPEED JUMPERED SPEED UP PINS (USE METAL OBJECT) BLK BLACK UP )ODI FIELD SPEED-UP CYCLE BLU BRx 60044 1. DFT MUST BE CLOSED TO INITIATE DEFROST CYCLE. GRT GREEN IF NECESSARY, REMOVE DFT CONNECTION BEFORE RE IT GREEN/rEIIOW PLACING JUMPER ACCRO55 DFT PINS. G 1/0 GREENS 2. AT THE SAME TIME DFT CLOSED. JUMPER 'SPEED UP' PNK PINK PINS WITH SMALL SCREW DRIVER UNTIL DEFROST 15 6(0 610LEi INITIATED. THEN REMOVE SCREW DRIVER. 4/0 WHILE 3. SHORTED 'SPEED UP' PINS WILL SPEED 08 TIMER WHTEL YELLOW BY A FACTOR OF 256. NOTES: 1. IF ANY OF THE ORIGINAL WIRES FURNISHED ARE REPLACED. IT MUST BE REPLACED WITH THE SAME CONTACTOR TYPE OF WIRE OR IT'S EOUIVALENT. CONTACTOR Cort 2. SEE PRICE PAGES FOR THERMOSTAT. CRANK CASE HEATER 3. USE CONDUCTORS SUITABLE FOR AT LEAST 75'C COMPRESSOR ROTOR (167'F) FOR FIELD INSTALLATION. DEFROST BOARD 4. FACTORY WIRING FOR SPEED SELECTOR PLUG DEFROST THERMOSTAT DEFROST RELAY 5. CHANGING OF SPEED TAPS MAY BE REOUIRED GROUND WHEN USING FIELD INSTALLED ELECTRIC HEATERS, HEATER RELAY CONSULT 145101LA110N INSTRUCTIONS TO INDOOR FAN MOTOR DETERMINE CORRECT SPEED TAP SETTING. LOW PRESSURE SWITCH HIGH PRESSURE SWITCH 6. "DO NOT DISCONNECT PLUG UNDER LOAD.' p0GD P100R FAN MOTOR 7. MULTI -STAGE HEATER SHOWN SINGLE STAGE AVS REVERSING VALVE SOLENOID HEATERS HAVE WHITE AND BROWN WIRES ONLY 1RAN TRANSFORMER 8. FUSE MANUFACTURED BY LITTELFUSE, P/N 250003. 9. N.E.C. CLASS 2 24 V LEGEND o FIELD SPLICE C7 TERMINAL (MARKED) CAP o TERMINAL UNMARKED/ CC • SPLICE CORP —FACTORY WIRING CB - -FIELD CONTROL WIRING DFT ----FIELD POWER WIRING DR - --ACCESSORY OR OPTIONAL GND WIRING HR /FM IPS HPS FM A14563 4 U N O TYPICAL LADDER WIRING SCHEMATIC -208/230-1-60 LADDER WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING 24 VOLT THERMISTAT CONNECTIONS L1 BLN USE COPPER CONDUCTORS ONLY FIELD SUPPLY POWER 208/230 VAC, 60 HZ, 1PH GRN L EOUIPMENT GROUND 2 IRK CCH WHEN BLK 21 • BLN DR 1) DB 6/Y CID CD BLN TEL - /47 GND L2 YL 23 CAP C YEL BLN YEL BLN TEL 1 RED BLN SEE NOTE 6 PRIMARY 230V 2080 COM PL1-7 'R' --RE PL1-8 '0' PL1-5 'T' 0 PL1-3 'C' 0 ORN Y YEL C - BRN G GRN W2 LWHT RED FUSE 240 SECONDARY 130801 SEE NOTE N8 TRA GAN EE NOTE 5 0/-WHT- PL1-6 "W2' G/Y 23 23 23 YEL 23 RESISTOR (1000 OHMS) PL2 4 11 PL3-1 DFT 013-2 'DFT' PL2-1 0 BLU BLU LOw SPEED RED MED SPEED BLN HI SPEED SEE NOTE 5 HPS BL LU O O-BLU-44-BLN-0-1-0-818- GN SEE NOTE 4 0 T ---DEFROST BOARD PNN PN6 BLN BRN BAN BAN 8RN DEFROST BOAR PL2-3 'C' PL2-2 'C' 5070500517 1 C A14564 TYPICAL WIRING SCHEMATIC (CONT) TO UNIT CONTROL WIRING. N.E.C. Class 2, 24V *** TO COMPRESSOR CONTACTOR 10 AWG Wires to he removed COM BROWN W1 WHITE W2 VIOLET YELLOW BLACK L1 * L2 FUSE BLOCK YELLOW T BLACK YELLOW HR1 BLACK a 7 YR LOW II BLACK Y 1 BLACK O Z 0 (YELLOW (T_i..---- 1 I ♦ YEt LOW II II III I BLACK VIOLET fHR3 7 EL1 YELLOW YEL AUT.LIMIT .1T i EL2 YELLOW ** YEL _ AUTO Lam BLACK T 1HR4 T J Accessory Electric Heater Wiring CONTROLS Sequence of operation When power is supplied to unit, the transformer (TRAN) is energized. Cooling Operation — With a call for cooling (O,Y,G), the reversing valve, contactor, and indoor fan are energized. When the cooling demand is met, Y and G are de -energized, shutting off the contactor (compressor, outdoor fan). The indoor fan stops after a 60 second delay. Heating Operation — With a call for heating (Y,G), the contactor and indoor fan are energized. When the heating demand is met, Y and G are de -energized, shutting off the contactor (compressor, outdoor fan). The indoor fan stops after a 60 second delay. Continuous Fan — With the continuous indoor fan option selected on the thermostat, G is continuously energized keeping the indoor fan running at all times. Defrost — The defrost control is a time/temperature control which includes a field -selectable time period between defrost cycles of 30, 60, and 90 minutes. Electronic timer and defrost cycle start only when contactor is energized and defrost thermostat (DFT) is closed. Defrost mode is identical to cooling mode. except outdoor fan motor stops and a bank of optional electric heat turns on to warm air supplying the conditioned space. EL3 YELLOW YEL ** AUTO LIMIT Control Wirnng ------ Power Wiring Field Wiring A14444 APPLICATION DATA Condensate trap — A 2 -in. (51 mm) condensate trap must be field supplied. 1" (25 mm) MIN. TRAP OUTLET 2" (51 mm) MIN. 4 Maximum cooling airflow — To minimize the possibility of condensate blow -off from the evaporator, airflow through the units should not exceed 450 CFM/ton. Minimum cooling airflow — The minimum cooling airflow is 350 cfm/ton. Minimum cooling operating outdoor air temperature — All standard units have a minimum ambient operating temperature of 40°F (4.4°C). With accessory low ambient temperature kit, units can operate at temperatures down to 0°F (-17.8°C). Maximum operating outdoor air temperature — Maximum outdoor operating air temperature for cooling is 125°F (51.7°C). V 2 N O GUIDE SPECIFICATIONS SMALL PACKAGED PRODUCT AIR-TO-AIR HEAT PUMP CONSTANT VOLUME APPLICATION HVAC GUIDE SPECIFICATIONS SIZE RANGE: 2 TO 5 TONS, NOMINAL (COOLING) PART 1 - GENERAL SYSTEM DESCRIPTION Outdoor packaged, electrically controlled, air-to-air heat pump utilizing a scroll compressor for heating and cooling duty. Unit shall discharge supply air horizontally as shown on contract drawings. QUALITY ASSURANCE A. Unit shall be rated in accordance with AHRI Standards 210/240, and 270. Designed in accordance with UL Standard 1995. B. Unit shall be designed to conform to ASHRAE 15. C. Unit shall be UL listed as a total package for safety requirements. D. Insulation and adhesive shall meet NFPA 90A requirements for flame spread and smoke generation. DELIVERY, STORAGE, AND HANDLING Unit shall be stored and handled per manufacturer's recommendations. PART 2- PRODUCTS EQUIPMENT A. General: Factory -assembled, single piece, air-to-air heat pump. Contained within the unit enclosure shall be all factory wiring, piping, controls, and refrigerant charge (R -410A). B. Unit Cabinet: 1. Unit cabinet shall be constructed of phosphated, bonderized, zinc -coated, prepainted steel. 2. Basepan shall be made of a single -piece non -corrosive, composite material. 3. Indoor fan compartment cabinet surfaces shall be insulated with a minimum 1/2 in. (12.7 mm) thick, flexible insulation, coated on the air side, with aluminum foil -faced insulation. 4. Cabinet panels shall be easily removable for servicing. 5. Unit shall have a factory -installed, sloped, noncorrosive, condensate drain. 6. Unit insulation conforms to ASHRAE 62P. C. Fans: 1. Indoor Blower (Indoor Fan): a. Fan shall be multispeed, direct drive as shown on the equipment drawings. b. Fan wheel shall be made from steel, be double -inlet type. It shall have forward -curved blades with a corrosion -resistant finish and shall be dynamically balanced. 2. Outdoor fan shall be of the direct -driven propeller type with aluminum blades, riveted to corrosion -resistant steel spiders. It shall be dynamically balanced, and shall discharge air upwards. D. Compressor: Fully -hermetic scroll type with external vibration isolation. E. Coils: 1. Indoor and outdoor coils shall have aluminum -plate fins mechanically bonded to seamless copper tubes with all joints brazed. 2. Tube sheet openings shall be bellied to prevent tube wear. 3. Outdoor coil shall be protected by metal louvered panels. F. Refrigerant Components: 1. TXV and AccuRater feed system. 2. Service gauge connections on suction and discharge lines. 3. Equipped with liquid line filter drier. 4. Equipped with accumulators on all sizes. G. Controls and Safeties: 1. Unit Controls: a. Unit shall be complete with self-contained low voltage control circuit. b. Unit shall incorporate an outdoor coil defrost system to prevent excessive frost accumulation during heating cycle and shall be controlled as follows: (1.) Defrost shall be initiated on the basis of time and coil temperature. (2.) A 30/60/90 -minute timer shall activate defrost cycle only if coil temperature is low enough to indicate a heavy frost condition. (3.) Defrost cycle shall terminate when defrost thermostat is satisfied or shall have a positive termination time of 10 minutes. 2. Safeties: a. High Pressure Switch b. Loss of Charge Switch H. Operating Characteristics: 1. Unit shall be capable of starting and running at 125°F (51.7°C) ambient outdoor temperature (60 size max ambi- ent is 115°F [46.1°C]). 2. Compressor with standard controls shall be capable of operation down to 40°F (4.4°C) ambient outdoor temperature in cooling duty. 3. Compressor shall be capable of operation in heating cycle down to -20°F (-28.9°C) ambient outdoor -air temperature. 4. Unit shall be capable of simultaneous heating duty and defrost cycle operation when using electric heaters indicated in Section L, Special Features. I. Electrical Requirements: All unit power wiring shall enter unit cabinet at a single location. J. Motors: 1. Compressor motors shall be of the refrigerant -cooled type with line break thermal and current overload protection. 2. All fan motors shall have permanently lubricated bearings and inherent automatic -reset thermal overload protection. 3. Outdoor -fan motor shall be totally enclosed. GUIDE SPECIFICATIONS (CONT) K. Grille 1. Louvered Grille: Louvered grille shall be standard on all units. L. Special Features Available 1. Coil Options: Shall include factory -installed optional tin-plated indoor coil. 2. Thermostat: To provide for two-stage heating and one -stage cooling in addition to manual or automatic changeover and indoor fan control. 3. Low -Ambient Package: Shall consist of a solid-state control and outdoor coil temperature sensor for controlling outdoor fan motor operation, which shall allow unit to operate down to 0°F (-17.8°C) outdoor ambient temperature in cooling. 25 4. Crankcase Heater: Shall provide anti-floodback protection for low -load cooling applications. 5. Electric heaters: a. Electric heater shall be available as a field -installed option. b. Heater elements shall be open wire type, adequately supported and insulated with ceramic bushings. c. Electric heater packages must provide single point power connection capability. 6. Compressor Start Kit: Shall be available to give a boost to the compressor motor at each start-up. 7. Outdoor Thermostat Kit: Thermostat allows for staging of electric heaters based on outdoor air temperature. U 2 N O Copyright 2015 Carrier Corp. • 7310 W. Morris St. • Indianapolis, IN 46231 Edition Date: 04/15 Catalog No: 50ZHC-02PD Manufacturer reserves the right to change, at any time, specifications and designs without notice and without obligations. Replaces: 50ZHC- 01PD 26 Honeywell VIsIonPROTM 8000 Touchscreen Programmable Thermostat APPLICATION The VisionPRO 8000 Touchscreen Programmable Thermostat is an effortless, 7 -Day programmable thermostat that provides universal system compatibility, precise comfort control and is easy -to -program. The TH8110 Thermostats provide temperature control for gas, oil, electric and heat pumps for 1 heat, 1 cool systems. The TH8320 Thermostats provide temperature control for gas, oil, electric and heat pumps for up to 3 heat, 2 cool systems including dual fuel operation. The TH8321 Thermostats provide temperature control for gas, oil, electric and heat pumps for up to 3 heat, 2 cool systems including dual fuel operation plus dehumidification control. ® U.S. Registered Trademark © 2011 Honeywell International Inc. All Rights Reserved PRODUCT DATA FEATURES • Large, clear display with backlight shows the current and set temperature and time—even in the dark. • Menu -driven programming make setup effortless. • Beautiful ergonomic design is smart and sophisticated to match your customers' lifestyle. • Touchscreen interaction • Real-time clock keeps time during power failures and automatically updates to daylight savings. • "Saving Changes" notification lets you know when the schedule changes have been saved. • Change/check reminders let you know when to service or replace filters or batteries. • Various Hold options allow you to override the program schedule, as desired. • Speedy same -schedule programming—no need to copy multiple days. • Armchair programming allows you to remove the thermostat from the wall for programming. • Programmable fan offers increased air quality when combined with a Honeywell whole -house air cleaner. REVIEWED FOR CODE COMPLIANCE APPROVED DEC 2 8 2018 City of Tukwila BUILDING DIVISION Application/Features Contents 1 2 4 5 11 15 20 21 23 38 Specifications/Ordering Information Installation Wiring Power the Thermostat Installer Setup Installer System Test Operation Programming Troubleshooting RECEIVED CITY OF TUKWILA DEC 1 i 2018 68-0280-01 PERMIT CENTER I I ` li l b q 1 11 1 11 11 11 11 11 11 11 VisionPROTM 8000 Touchscreen Programmable Thermostat SPECIFICATIONS Thermostat Description: Feature Description Powering methods • Battery only • Common wire only • Common wire with battery backup System types (up to 3 heat/2 cool or up to 1 heat/1 cool, depending on model) • Gas, oil or electric heat with air conditioning • Warm air, hot water, high -efficiency furnaces, heat pumps, steam and gravity • Heat only—includes power to open and power to close zone valves (series 20) and normally -open zone valves • Heat only with fan • Cool only • 750 mV heating systems Changeover Manual or Auto changeover selectable System setting Heat -Off -Cool -Auto (Em. Heat for heat pumps) Fan setting Auto -On -Circ Electrical Ratings: Terminal Voltage (50/60 Hz) Running Current W Heating 20 - 30 Vac .02 - 1.0A W Heating (Powerpile) 750 mV do 100 mA do Y Cooling 20 - 30 Vac .02 - 1.0A G Fan 20 - 30 Vac .02 - .60A Temperature Sett ng Range: Heating: 40°F to 90°F(4.5°C to 32°C). Cooling: 50°F to 99°F (10°C to 37°C). Operating Ambient Temperature: TH8000 VisionPROTM Thermostats: 0°F to 120°F (-18°C to 49°C). C7089U: -40°F to 120°F (-40°C to 49°C). C7189U: 45°F to 88°F (7.2°C to 32°C). ORDERING INFORMATION Shipping Temperature: TH8000 VisionPROTA4 Thermostats: -30 °F to 150 °F (-34.4°C to 65.6°C). Operating Relative Humidity (Non -condensing): TH8000 VisionPRO Thermostats: 5% to 90%. C7089U: 5% to 95%. C7189U: 5% to 95%. Humidity Setting Range (TH8321 models only): Cooling: 40% to 80% RH. Humidity Display Range (TH8321 models only): 0% to 99%. Cycle Rates (at 50% Load): Heating: Selectable 1 - 12 cycles per hour. Cooling: Selectable 1 - 6 cycles per hour. Finish: TH8000 VisionPROTM Thermostats: Premier White® color. C7189U Wall Mount Remote Indoor Sensor: Premier White® color. Clock Accuracy: +/- 1 minute per month. Batteries: Three replaceable AAA alkaline batteries: Power thermostats when 24 Vac common is not used. Non -replaceable lithium battery with ten-year life under normal use to hold calendar and time settings. Alkaline batteries keep calen- dar and time after lithium battery is no longer functional. Resistance Characteristics of Remote Sensors: C7089U Outdoor Sensor: Negative temperature coefficient (NTC) means that resistance decreases as the temperature increases. See Table 13 in the Operation section for sensor resistance characteristics. C7189U Remote Indoor Sensor: Negative temperature coefficient (NTC), means that resistance decreases as the temperature increases. See Table 14 in the Operation section for sensor resistance characteristics. Cool Indication: TH8000 VisionPROTM Touchscreen Thermostats show "Cool On" on the screen when Cool is activated. Heat Indication: TH8000 VisionPROTM Touchscreen Thermostats show "Heat On" on the screen when Heat is activated. When purchasing replacement and modernization products from your TRADELINE® wholesaler or distributor, refer to the TRADELINE® Catalog or price sheets for complete ordering number. If you have additional questions, need further information, or would like to comment on our products or services, please write or phone: 1. Your local Honeywell Automation and Control Products Sales Office (check white pages of your phone directory). 2. Honeywell Customer Care 1985 Douglas Drive North Minneapolis, Minnesota 55422-4386 In Canada—Honeywell Limited/Honeywell Limitee, 35 Dynamic Drive, Toronto, Ontario M1V 4Z9. International Sales and Service Offices in all principal cities of the world. Manufacturing in Australia, Canada, Finland, France, Germany, Japan, Mexico, Netherlands, Spain, Taiwan, United Kingdom, U.S.A. 68-0280-01 2 VisionPROTM 8000 Touchscreen Programmable Thermostat Auxiliary Heat Indication: TH8000 VisionPROTM Touchscreen Thermostats show "Aux. Heat On" on the screen when Auxiliary Heat is activated. Emergency Heat Indication: TH8000 VisionPROTM Touchscreen Thermostats show "Heat On" on the screen when Emergency Heat is activated and the System mode is in the Em. Heat position. Calibration: C7089U, C7189U and TH8000 VisionPROTM Touchscreen Thermostats are factory -calibrated and require no field calibration. Interstage Differential: TH8000 VisionPROTM Touchscreen Thermostats operate with droopless control. Once the thermostat senses that 1st stage is running at 90% capacity, the thermostat energizes 2nd stage. Nomenclature: Series System Stages Application Power and System Changeover VisionPROTM 11 - 1H/1C 0 - Standard U - Universal (Auto 8000 32 - 3H/2C 1 - Humidity changeover and/or Touchscreen Sensor manual change- over) dual powered, system flexibility, schedule flexibility. Mounting Means: TH8000 VisionPROTM Touchscreen Thermostat: Mounts directly on the wall in the living space using mounting screws and anchors provided. Fits a vertical or horizontal 2 x 4 in. junction box. C7089U Outdoor Sensor: Mounts outside of living space with mounting clip and screws provided. C7189U Remote Indoor Sensor: Mounts directly on the wall using mounting screws and anchors provided. Fits a vertical 2 x 4 in. junction box. Cover Plate: 32003796-001 Cover Plate is used to cover marks left on the wall by the old thermostat. Dimensions: TH8000 Touchscreen Thermostat: see Fig. 1. C7089U Outdoor Sensor Mounting Clip: see Fig. 2. 32003796-001 Cover Plate: see Fig. 3. C7189U Remote Indoor Sensor: see Fig. 4. WALLPLATE 3-3/8 (86) THERMOSTAT 6 (152) Mumma 2 THERMOSTAT AND WALLPLATE 1-3/8(35).{ TTI 4-s/1 6 (116) M22421 Fig. 1. TH8000 Touchscreen Thermostat dimensions in in. (mm). Fig. 2. C7089U Outdoor Sensor Mounting Clip dimensions in in. (mm). i 3-5/16 (84) 7 7/8 (200) ---35/16(84) O 0 0 0 M22139 Fig. 3. 32003796-001 Cover Plate dimensions in in. (mm). 3 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat 4-5/8 (1 7) Honeywell 2-3/4 (70) ►1 M4465 FRONT VIEW INSTALLATION f- 1-1/8 (29) SIDE VIEW 4-5/8 (1 7) 3- /4 (83) Ib (p__( ) m 2-3/4 (70) 4.-I FRONT VIEW (COVER OFF) Fig. 4. C7189U Remote Indoor Sensor dimensions in in. (mm). When Installing this Product... 1. Read these instructions carefully. Failure to follow the instructions can damage the product or cause a hazard- ous condition. 2. Check the ratings given in the instructions to make sure the product is suitable for your application. 3. Installer must be a trained, experienced service technician. 4. After completing installation, use these instructions to check out the product operation. Selecting Location Install the thermostat about 5 ft. (1.5m) above the floor in an area with good air circulation at average temperature. See Fig. 5. NO YES 1 5 FEET (1.5 METERS) 1 M19925 Fig. 5. Selecting thermostat location. 68-0280-01 4 Do not install the thermostat where it can be affected by: — Drafts or dead spots behind doors and in corners. — Hot or cold air from ducts. — Radiant heat from sun or appliances. — Concealed pipes and chimneys. — Unheated (uncooled) areas such as an outside wall behind the thermostat. Installing Wallplate CAUTION Electrical Hazard. Can cause electrical shock or equipment damage. Disconnect power before wiring. The thermostat can be mounted horizontally on the wall or on a 4 in. x 2 in. (101.6 mm x 50.8 mm) wiring box. 1. Position and level the wallplate (for appearance only). 2. Use a pencil to mark the mounting holes. 3. Remove the wallplate from the wall and, if drywall, drill two 3/16 -in. holes in the wall, as marked. For firmer material such as plaster, drill two 7/32 -in. holes. Gently tap anchors (provided) into the drilled holes until flush with the wall. VisionPROTM 8000 Touchscreen Programmable Thermostat 4. Position the wallplate over the holes, pulling wires through the wiring opening. See Fig. 6. 5. Insert the mounting screws into the holes and tighten. WALL WIRES THROUGH WALL AND WIRE SLOT r WALL ANCHORS (2) MOUNTING HOLES MOUNTING SCREWS (2) Fig. 6. Mounting wallplate. WIRING (FIG. 9 - 21) M19916 All wiring must comply with local electrical codes and ordinances. 1. Select set of terminal identifications (Table 1) that corresponds with system type (conventional or heat pump in Fig. 7). 2. Loosen the screws for the appropriate system type selected; see Table 1. See Table 2 for terminal designation descriptions. Insert wires in the terminal block under the loosened screw. See Fig. 8. 3. Securely tighten each screw. 4. Push excess wire back into the hole. 5. Plug the hole with nonflammable insulation to prevent drafts from affecting the thermostat. 6. See Fig. 9 through 21 for typical wiring hookups. HEAT PUMP CONVENTIONAL SCREW TERMINALS M19951 Fig. 7. Selecting terminal identifications for system type. Table 1. Selecting Terminal Identifications for System Type. System Type Wallplate Terminal Identifications Wiring Diagram Reference Standard Heat/Cool Conventional 9, 10 Heat Only Conventional 11 Heat Only with Fan Conventional 12 Heat Only (Series 20) Power to open and power to close zone valves Conventional 13 Normally Open Zone Valves—Heat Only Conventional 14 Cool Only Conventional 15 Standard Multistage up to 2 Heat/2 Cool Conventional 16, 17 Heat Pump with No Auxiliary Heat Heat Pump 18, 19 Heat Pump with Auxiliary Heat Heat Pump 20, 21 Fig. 8. Inserting wires in terminal block. IMPORTANT Use 18 gauge thermostat wire. 5 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat Table 2. Terminal Designation Descriptions. Terminal Designation Description Rc (see Note 1) Power for cooling --connect to secondary side of cooling system transformer R (see Note 1) Power for heating --connect to secondary side of heating system transformer C (see Note 2) Common wire from secondary side of cooling system transformer W Heat relay Y Compressor contactor G Fan relay Y2 Second stage cooling W2 Second stage heat relay O/B (see Note 3) Changeover valve for heat pump systems AUX Auxiliary heat relay for heat pump systems E Emergency heat relay for heat pump systems L (see note 4) Equipment monitor for heat pump systems S1, S2 Optional outdoor or indoor remote sensor NOTES: 1. When used in a single -transformer system, leave metal jumper wire in place between Rc and R. If used on a two -transformer system, remove metal jumper wire between Rc and R. 2. Common wire is optional when thermostat is used with batteries. 3. If thermostat is configured for a heat pump system in the Installer Setup, configure changeover valve for cool (0 -factory setting) or heat (B). 4. L terminal is an input (system monitor) when the System mode is in the Heat, Off, Cool or Auto position. L terminal is a 24 Vac output when System mode is Emergency Heat. Must connect the 24 Vac Common when using the L terminal. See LED Indication section for more details. 68-0280-01 6 CONVENTIONAL =® =® =® =® =® Y2 W2 s1 S2 - ii RC R w Y G 2i = OUTDOOR/INDOOR TEMPERATURE SENSOR A A FAN RELAY OPTIONAL 24 VAC COMMON CONNECTION COMPRESSOR CONTACTOR (HEAT RELAY POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. FACTORY INSTALLED JUMPER. R C OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19895 Fig. 9. Typical hookup of conventional single -stage heat and cool system with single transformer (1H/1C conventional). CONVENTIONAL =® =® =® i ne Y2 W2 S1 S2 1 ii RC R w Y G A OUTDOOR/INDOOR TEMPERATURE SENSOR A A A OPTIONAL 24 VAC COMMON CONNECTION FAN RELAY —lb COMPRESSOR CONTACTOR (HEAT RELAY POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. REMOVE FACTORY INSTALLED JUMPER. R C y OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19896 Fig. 10. Typical hookup of conventional single -stage heat and cool system with two transformers (1H/1C conventional). VisionPROTM 8000 Touchscreen Programmable Thermostat r CONVENTIONAL D® o® =® D® Y2 W2 S1 S2 RC R G OUTDOOR/INDOOR TEMPERATURE SENSOR OPTIONAL 24 VAC COMMON CONNECTION HEAT RELAY I- A/ ' \ POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. AFACTORY INSTALLED JUMPER. /' \ OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19897 Fig. 11. Typical hookup of heat -only system (1 H conventional). CONVENTIONAL ® =® =e =e =® Y2 W2 S1 S2 RC R W Y G ®C ® C` OUTDOOR/INDOOR TEMPERATURE SENSOR OPTIONAL 24 VAC COMMON CONNECTION FAN RELAY (HEAT RELAY] / I \ POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. AFACTORY INSTALLED JUMPER. R y C / \ OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19898 Fig. 12. Typical hookup of heat only system with fan (1 H conventional). CONVENTIONAL OUTDOOR/INDOOR TEMPERATURE SENSOR A POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. / 1 FACTORY INSTALLED JUMPER. / 3\ OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19899 Fig. 13. Typical hookup of heat only power to open and power to close zone valve (Series 20) system. CONVENTIONAL Y2 W2 S1 S2 C R W Y OUTDOOR/INDOOR TEMPERATURE SENSOR OPTIONAL 24 VAC COMMON CONNECTION 7 " (NORMALLY OPEN ZONE VALVE POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. /2\ FACTORY INSTALLED JUMPER. 1� R C /' \ OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. / v \ CONFIGURE SYSTEM TYPE TO HEAT ONLY WITH NORMALLY OPEN ZONE VALVES IN INSTALLER SETUP. M22422 Fig. 14. Typical hookup of heat only system with normally open zone valves. 7 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat CONVENTIONAL D® D® D® D® D® D® Y2 W2 S1 S2 RC R W Y G OUTDOOR/INDOOR TEMPERATURE SENSOR FAN RELAY OPTIONAL 24 VAC COMMON CONNECTION COMPRESSOR CONTACTOR R C • POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. / 1 FACTORY INSTALLED JUMPER. • OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19900 Fig. 15. Typical hookup of cool only system (1C conventional). i t CONVENTIONAL =- ® D® D® 2 W2 S1 S2 RC 21� W Y ®C C II OUTDOOR/INDOOR TEMPERATURE SENSOR OPTIONAL 24 VAC COMMON CONNECTION MUST COME FROM THE COOLING TRANSFORMER. FAN RELAY COOL RELAY 2 COOL RELAY 1 1\ R C 'HEAT RELAY 21- --JHEAT RELAY 11 � 1 • A POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. Q FACTORY INSTALLED JUMPER. /' \ OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M22438B Fig. 16. Typical hookup of conventional multistage two-stage heating and two-stage cooling in a single -transformer system (2H/2C, 2H/1C or 1H/2C conventional). 68-0280-01 8 CONVENTIONAL C � D D® D® D® Y2 W2 S1 S2 - � I RC R Y G OUTDOOR/INDOOR TEMPERATURE SENSOR (HEAT RELAY 21 - OPTIONAL 24 VAC COMMON CONNECTION MUST COME FROM THE COOLING TRANSFORMER FAN RELAY COOL RELAY 2 COOL RELAY 1 --I HEAT RELAY 1' 1 R C POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. `\ FACTORY INSTALLED JUMPER. R C • OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19902B Fig. 17. Typical hookup of conventional multistage two-stage heating and two-stage cooling in a two -transformer system (2H/2C, 2H/1C or 1 H/2C conventional). VisionPROTM 8000 Touchscreen Programmable Thermostat HEAT PUMP Th Y2 )® L )® E )® AUX ) SI ) S2 )® RC R 0/B Y G OPTIONAL 24 VAC COMMON CONNECTION A OUTDOOR/INDOOR TEMPERATURE SENSOR IFAN RELAY CHANGEOVER VALVE COMPRESSOR RELAY 0 POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. QFACTORY INSTALLED JUMPER. A-0/13" TERMINAL SET TO CONTROL AS EITHER "O" OR "B" IN THE INSTALLER SETUP. 0 OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. C M19903B Fig. 18. Typical hookup of single -stage heat pump with no auxiliary/backup heat (1H/1C heat pump). HEAT PUMP Y7 - AL )® E )® AUX ) SI ) S2 �® -72 \,0 R C L E R ®( 0/Bi\ Y ®(- G ®� C OPTIONAL 24 VAC COMMON CONNECTION OUTDOOR/INDOOR TEMPERATURE SENSOR FAN RELAY COMPRESSOR 2 CHANGEOVER VALVE COMPRESSOR 1 A R C 1Q POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 2Q FACTORY INSTALLED JUMPER. QMUST CONNECT THE 24 VAC COMMON WHEN USING L. THE TERMINAL IS SHOWN AS EQUIPMENT MONITOR, CAN ALSO BE USED AS A 24 VAC OUTPUT. SEE "HEAT PUMP LED" SECTION FOR MORE INFORMATION. A"0/8" TERMINAL SET TO CONTROL AS EITHER "O" OR "8" IN THE INSTALLER SETUP. AOPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19904 Fig. 19. Typical hookup of multistage heat pump with no auxiliary/backup heat (2H/2C heat pump). 9 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat HEAT PUMP Y2� _)® AL I® E )® AUX ) SI �® S2�® EQUIPMENT MONITOR -Le RC ®ER f-01BA ®(= Y G A A OUTDOOR/INDOOR TEMPERATURE SENSOR piHEAT 2 RELAY (AUXILIARY HEAT) OPTIONAL 24 VAC COMMON CONNECTION EMERGENCY HEAT RELAY CHANGEOVER VALVE IFAN RELAY COMPRESSOR RELAY 0 POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 2Q FACTORY INSTALLED JUMPER. Q3 OUTDOOR SENSOR REQUIRED IN SYSTEM WITH FOSSIL FUEL BACKUP HEAT THAT IS NOT USING AN EXTERNAL FOSSIL FUEL KIT. QOPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. Q5 MUST CONNECT THE 24 VAC COMMON WHEN USING L. THE TERMINAL IS SHOWN AS EQUIPMENT MONITOR, CAN ALSO BE USED AS A 24 VAC OUTPUT. SEE "HEAT PUMP LED" SECTION FOR MORE INFORMATION. A-0/6" TERMINAL SET TO CONTROL AS EITHER "O" OR "B" IN THE INSTALLER SETUP. M1sso5 C Fig. 20. Typical hookup of single -stage heat pump with auxiliary/backup heat (2H/1C heat pump). HEAT PUMP Y2 Q 1.61 LLL )® E )® AU ) SI ) S2 EQUIPMENT MONITOR 1—Fod O RC 0/BA Y G OUTDOOR/INDOOR TEMPERATURE SENSOR HHEAT 2 RELAY (AUXILIARY HEAT) EMERGENCY HEAT RELAY l � 1 0 POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. Q2 FACTORY INSTALLED JUMPER. 3Q OUTDOOR SENSOR REQUIRED IN SYSTEM WITH FOSSIL FUEL BACKUP HEAT THAT IS NOT USING AN EXTERNAL FOSSIL FUEL KIT. 4Q OPTIONAL OUTDOOR OR INDOOR REMOTE SENSOR. AVAILABLE ON SELECT MODELS. WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. QS MUST CONNECT THE 24 VAC COMMON WHEN USING L. THE TERMINAL IS SHOWN AS EQUIPMENT MONITOR. CAN ALSO BE USED AI; A 24 VAC OUTPUT. SEE "HEAT PUMP LED" SECTION FOR MORE INFORMATION. k"0/0" TERMINAL SET TO CONTROL AS EITHER "O" OR "B" IN THE INSTALLER SETUP. M19106 OPTIONAL 24 VAC COMMON CONNECTION I FAN RELAY] CHANGEOVER VALVE COMPRESSOR 2 COMPRESSOR 1 C Fig. 21. Typical hookup of multistage heat pump with auxiliary/backup heat (3H/2C heat pump). 68-0280-01 10 VisionPROTM 8000 Touchscreen Programmable Thermostat POWER THE THERMOSTAT You can choose from three methods to power the thermostat: • Batteries only (AAA alkaline). • 24 Vac common wire only. • 24 Vac common wire with battery backup (AAA alkaline). Wiring 24 Vac Common • Single -Transformer System—Connect the common side of the transformer to the C screw terminal of the thermostat wallplate. Leave the metal jumper wire in place between Rc and R. • Two -Transformer System—Connect the common side of the cooling transformer to the C screw terminal of the thermostat wallplate. Remove the metal jumper wire between Rc and R. Installing Batteries 1. Install three AAA alkaline batteries on the back of the thermostat as marked on the thermostat. See Fig. 22. Fig. 22. Installing batteries. 2. Locate and remove the tab labeled, Remove, in the lower left corner on the thermostat back. See Fig. 23. REMOVE TAB Fig. 23. Remove tab labeled, Remove, on thermostat back. Mount Thermostat to Wallplate 1. Align the terminal screw blocks with the pins on the back of the thermostat. Push the thermostat straight onto the wallplate until it snaps into place. See Fig 24. WALLPLATE PINS ON BACK OF THERMOSTAT TERMINAL SCREW BLOCK M22213 Fig. 24. Mount thermostat to wallplate. 11 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat Locate and Mount C7089U Outdoor Temperature Sensor (Optional) Mount the sensor where (see Fig. 25): • cannot tamper with settings. • there is good air circulation. • it can measure true outdoor ambient temperature. • surface is flat. • wire distance between C7089 and thermostat is less than 200 feet. Do not mount the sensor: • in direct sunlight. • where hot or cold air blows on the sensor. Discharge line from an outdoor compressor unit, vent or fan causes inaccurate temperature readings. • where snow, ice or debris can cover it. Use the following steps to mount the sensor: 1. Remove the sensor from the mounting clip. 2. Mark the area on the location selected for mounting the sensor mounting clip. 3. Mount the clip. M/S14 Fig. 25. Typical locations for C7089U Outdoor Sensor. Wire C7089U Outdoor Sensor CAUTION Electrical Interference (Noise) Hazard. Can cause erratic system operation. Keep wiring at least one foot away from large inductive loads such as motors, line starters, lighting ballasts and large power distribution panels. Use shielded cable to reduce interference when rerouting is not possible. 68-0280-01 12 IMPORTANT Erratic temperature readings from a sensor can occur as a result of any of the wiring practices described below. Avoid these practices to assure correct operation. Use shielded cable to reduce interference if rerouting sensor wiring is not possible. — Be sure wires have a cable separate from the thermostat cable. — Do not route temperature sensor wiring with building power wiring, next to control contactors or near light dimming circuits, electric motors or welding equipment. — Avoid poor wiring connections. — Avoid intermittent or missing building earth ground. CAUTION Electrical Shock Hazard. Can cause electrical shock or equipment damage. Disconnect power supply before connecting wiring. Wiring must comply with applicable codes, ordinances and regulations: 1. Wire C7089 Outdoor Sensor to S1 and S2 terminals on the thermostat. If leadwire provided is not long enough (60 in.), run a cable to a hole at C7089 location. a. Using color -coded, 18 -gauge thermostat wire is recommended. For example of general wiring of C7089, see Fig. 26. b. Pigtail wiring can be used. 2. Mount C7089 in its mounting clip. 3. Plug wiring hole using nonhardening caulk or putty. WIRING HOLE A THROUGH /2\STRUCTURE A USE APPROPRIATE MOUNTING MEANS FOR THE A TYPE OF STRUCTURE. /2\ PLUG WIRING HOLE WITH NON -HARDENING CAULK OR PUTTY. M19970 Fig. 26. Wire C7089 Outdoor Sensor to the thermostat. VisionPROTM 8000 Touchscreen Programmable Thermostat Locate and Mount C7189U Remote Indoor Temperature Sensor (Optional) 1. Choose a location (see Fig. 27) for mounting the sensor on an inside wall about 5 ft (1.5m) above the floor. A vertically -mounted standard 2 x 4 in. (51 x 102 mm) junction box can also be used. 2. Be sure wire distance between C7189 and thermostat is less than 200 feet. 3. Make sure there is good air circulation at average temperature at the chosen location. Avoid the following locations because they can introduce errors in sensor measurements. See Fig. 27. a. Hot areas caused by: (a) Concealed pipes or ducts. (b) Drafts from fireplaces or other heat sources. (c) Convection or radiant heat from the sun or electrical equipment. b. Cold areas caused by: (a) Concealed pipes or ducts. (b) Drafts from windows and doors. (c) Unheated areas on the other side of the wall location. c. Dead air areas: (a) Behind doors, furniture and curtains. (b) In corners and alcoves. 4. Mark the area on the wall selected for mounting the C7189 Sensor or junction box. 5. Run wire cable to a hole at the selected wall location. Pull approximately three inches of wire through the opening. Color -coded, 18 -gauge thermostat wire is recommended. Fig. 27. Typical location for C7189 Indoor Sensor. 13 Wire C7189 Indoor Sensor CAUTION Electrical Interference (Noise) Hazard. Can cause erratic system operation. Keep wiring at least one foot away from large inductive loads such as motors, line starters, lighting ballasts and large power distribution panels. IMPORTANT Erratic temperature readings from a sensor can occur as a result of any of the wiring practices described below. Avoid these practices to assure correct operation. — Be sure wires have a cable separate from the thermostat cable. — Do not route temperature sensor wiring with building power wiring, next to control contactors or near light dimming circuits, electric motors or welding equipment. — Avoid poor wiring connections. — Avoid intermittent or missing building earth ground. CAUTION Electrical Shock Hazard. Can cause electrical shock or equipment damage. Disconnect power supply before connecting wiring. Wring must comply with applicable codes, ordinances and regulations. 1. Wire C7189 Indoor Sensor to S1 and S2 terminals on the thermostat. For an example of general wiring of C7189, see Fig. 28 to wire one sensor and 29 to wire multiple sensors. 2. Push excess wire back into the hole. Plug the hole using nonhardening caulk, putty or insulation to prevent drafts from affecting performance. 3. Remove C7189 cover. 4. Mount C7189 to the wall or junction box using the screws and anchors provided. 5. Level the C7189 for appearance only. Device functions correctly even when not level. 6. Install C7189 cover. 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Themiostat A POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. A IF MORE THAN ONE C7189 REMOTE SENSOR IS REQUIRED, REFER TO FIGURE 3. A WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19972 Fig. 28. Wiring a single C7189 Indoor Sensor. A SENSORS MUST BE ARRANGED IN THIS CONFIGURATION TO OPERATE CORRECTLY. A WIRES MUST HAVE A CABLE SEPARATE FROM THE THERMOSTAT CABLE. M19973 Fig. 29. Wiring Multiple C7189 Sensors. 68-0280-01 14 Set Calendar and Time Thermostat keeps current time and day for up to ten years under normal use after the calendar is set. When the thermostat is first powered, the display is ready to set the calendar and time. NOTE: Calendar can also be set in the Installer Setup. 1. Press the arrow keys to set the year, month and day. 2. Press the Done key. SET CURRENT DAY SET MONTH USE ARROWS TO SET YEAR AND TIME M22424 3. Press the arrow keys to set the current time. 4. Press the Done Key. USE ARROWS TO SET YEAR AND TIME VisionPROTM 8000 Touchscreen Programmable Thermostat INSTALLER SETUP Follow these steps to enter the Installer Setup: 1. Press and release the System Key. liensTue[111 M22426A 2. Press and hold the two blank keys on either side of the center blank key for approximately five seconds until screen changes. 3. Release the two blank keys when the screen on the thermostat matches the screen below. M22442 4. See screen below to review how the thermostat keys are used during Installer Setup. See Tables 3-5 for the Installer Setup Numbers and Settings. INSTALLER SETUP NUMBER ADVANCE TO NEXT INSTALLER SETUP CURRENT SETTING PRESS TO EXIT INSTALLER SETUP CHANGE THE CURRENT SETTING M22443 5. Press the Done key to exit the Installer Setup screen. 15 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat Table 3. Installer Setup Menu. Installer Setup Number Installer Setup Name Settings Notes 0120 Date (Year Upper) Select first two digits of current calendar year (2005, etc) 2001 - 2178 available 0130 Date (Year Lower) Select last two digits of current calendar year (05 for year 2005, etc) 2001 - 2178 available 0140 Date (Month) Select number that represents current calendar month — 0150 Date (Day) Select number that represents current calendar date — 0160 Schedule Options 0—nonprogrammable 4 -7 -day programmable — 0170 System Type Selection 1-1 heat/1 cool conventional (factory setting) 2—single-stage heat pump (no auxiliary heat) 3—heat only conventional (no fan) Also for 750mV. 4—heat only conventional (with fan) 5—heat only (power to open and power to close zone valves or normally -open zone valves) 6—cool only conventional 7-2 heat/1 cool heat pump (with auxiliary heat) 8-2 heat/2 cool multistage conventional 9-2 heat/1 cool multistage conventional 10-1 heat/2 cool multistage conventional 11-2 heat/2cool heat pump (no auxiliary heat) 12-3 heat/2cool heat pump (with auxiliary heat) Available options and defaults vary by thermostat. System selection automatically modifies some default settings and/or hides other Installer Setup options. 0180 Fan Control in Heating 0—gas or oil furnace equipment controls fan in heating (factory setting) 1—electric furnace—thermostat controls fan in heating Only shown if conventional system is selected. If heat pump is chosen, fan defaults to electric. 0190 ChangeoverValve—O/B Terminal Energized in Heating or Cooling (Heat Pumps Only) 0—changeover valve—O/B terminal is energized in cooling (factory setting) 1—changeover valve—O/B terminal is energized in heating Only shown if heat pump system is chosen. 0200 Backup Heat Source (Auxiliary Heat) 0—heat pump backup heat source is electric (factory setting) 1—heat pump backup heat source is fossil fuel Only shown if 2 heat/ 1 cool or 3 heat/2 cool heat pump is chosen 0210 External Fuel Fossil Fuel Kit 0—no external fossil fuel kit is controlling heat pump backup heat. This thermostat controls the dual fuel. Must install outdoor sensor and set Installer Setup Number 0340 to number 2. 1—external fossil fuel kit is controlling heat pump backup heat Only shown if fossil fuel is chosen as backup heat source. 0220 Cycles per hour (cph) for 1st Stage Compressor 3—cph recommended for compressors (factory setting) 1, 2, 4, 5, 6—other cycle rate settings — 0230 Cycles per hour (cph) for 2nd Stage Compressor 3—cph recommended for compressors (factory setting) 1, 2, 4, 5, 6—other cycle rate settings Only shown if two stages cf cool are selected. 0240 Cycles per hour (cph) for 1st Stage Conventional Heat 1— 1 cph used for steam and gravity 3-3 cph used for hot water system and high efficiency (90% or better) furnaces 5-5 cph used for standard fossil fuel forced air (less than 80% efficient) systems (factory setting) 9-9 cph used for electric furnaces 2, 4, 6, 7, 8, 10, 11, 12—other cycle rate settings Not shown if system selection is heat pump. Selection in this stage changes default cph for 2nd stage heat. 0250 Cycles per hour (cph) for 2nd Stage Heat (Aux Heat for 2H/1 C Heat Pumps) 1-1 cph used for steam and gravity 3-3 cph for hot water systems and high efficiency (90% or better) furnaces 5-5 cph for standard fossil fuel forced air (less than 90% efficient) systems (factory setting) 9-9 cph used for electric furnaces or electric auxiliary heat for heat pump systems 2, 4, 6, 7, 8, 10, 11, 12—other cycle rate settings Only shown if two stages of heat are selected. 68-0280-01 16 VisionPROTM 8000 Touchscreen Programmable Thermostat Table 3. Installer Setup Menu. (Continued) Installer Setup Number Installer Setup Name Settings Notes 0260 Cycles per hour (cph) for 3rd Stage Heat (Aux Heat for 3H/2C Heat Pumps) 1-1 cph used for steam and gravity 3-3 cph for hot water systems and high efficiency (90% or better) furnaces 5-5 cph for standard fossil fuel forced air (less than 90% efficient) systems (factory setting) 9-9 cph used for electric furnaces or electric auxiliary heat for heat pump systems 2, 4, 6, 7, 8, 10, 11, 12—other cycle rate settings Only shown if 3H/2C heat pump is selected. 0270 Cycles per hour (cph) for Em Heat 3-3 cph for hot water systems and high efficiency (90% or better) furnaces 5-5 cph for standard fossil fuel forced air (less than 90% efficient or better) systems 9-9 cph for electric strip heat for heat pumps Only shown if 2H/1 C or 3H/2C heat pump is selected. 0280 Continuous Backlight 0—Backlight not on continuously. Thermostat backlight comes on with each key press. 1—Backlight is on continuously (thermostat must have a common wire attached for this function). Option is always shown; however, continuously on backlight works only if thermostat is wired with 24 Vac Common. 0300 Changeover 0—manual changeover (factory setting) 1—auto changeover — 0310 Deadband Heating and cooling setpoints can be set no closer than chosen value: 2-2°F (1.5°C) 3-3°F (2°C) 4-4°F (2.5°C) 5-5°F (3°C) 6-6°F (3.5°C) 7-7°F (4°C) 8-8°F (4.5°C) 9-9°F (5'C) Shown only if automatic changeover is selected. 0320 Temperature Indication Scale 0—fahrenheit temperature display (factory setting) 1—celsius temperature display — 0330 Daylight Savings 1—daylight savings is on (factory setting). 0—daylight savings is off. Set to 0 in areas that do not follow daylight savings. 0340 Remote Temperature Sensor (Outdoor or Indoor) 0—no remote temperature sensor 1—outdoor temperature sensor for displayonly. - 2—outdoor temperature sensor for control. Outdoor sensor used for Heat Pump Lockout settings. (See Heat Pump Temperature Lockout section for more details.) 3—indoor temperature sensor Defaults and Options depend on System Type selection. Indoor Temperature Sensor uses an averaging network and does not include on -board sensor. 0350 Heat Pump Compressor Lockout or (Balance. Point)20F 0—no compressor lockout. 15°F (-9.5°C) (-6.5.C) .0 25F (-4C) 30°F (-1°C) 35F (1.5°C) 40°F (4.5°C) 45°F (7°C) Default depends on other selections. Shown if Outdoor Temperature for control is selected. (See Advanced Features section for more information.) 17 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat Table 3. Installer Setup Menu. (Continued) Installer Setup Number Installer Setup Name Settings Notes 0360 Heat Pump Auxiliary Lockout 0—no auxiliary heat lockout. 40°F (4.5°C) 45F (7C) 50F (10C) 55 F (13 C) 60F (15.5°C) Shown if electric is chosen for backup heat source and outdoor temperature sensor for control is selected. (See Advanced Features section for more information.) 0380 Indoor Dehumidification Control 0—No indoor dehumidification control. 1—Dehumidification control activated. Available on select models. If dehumidification control is activated and auto - changeover is selected in Installer Setup Number 0300, the deadband minimum is defaulted to 50F (3°C) in Number 0310. 0500 Furnace Change Reminder 0—furnace filter reminder off 1-10 run time days 2-30 run time days 3-60 run time days 4-90 run time days 5-120 run time days 6-365 run time days Run time based on call for fan. 0510 Humidifier Pad Replacement Reminder 0—humidifier pad replacement reminder off 1-90calendardays 2-180 calendar days 3-365 calendar days — 0520 UV Lamp Replacement Reminder 0—UV lamp replacement reminder off 1-365 calendar days — 0530 Adaptive Intelligent Recovery TM 1—Adaptive Intelligent Recovery TM control is activated (system starts early so setpoint is reached by start of program period). 0—Conventional Recovery (system starts recovery at programmed time) — 0540 Number of Periods 2—two periods available (Wake and Sleep) 4—four periods available (Wake, Leave, Return and Sleep) Not shown if non- programmable is selected. 2 or 4 applies to all days of the week. 0580 Minimum Compressor Off Time 5—five-minute compressor off -time setting (factory setting) 0, 2, 3, 4—other compressor off -time settings — 0600 Heat Temperature Range Stop 40-90—temperature range (1°F increments) of heating setpoint. Shown in 1/2 °C. 0610 Cool Temperature Range Stop 50-99—temperature range (1°F increments) of cooling setpoint. Shown in 1/2 °C. 0640 Clock Format 12-12 hour clock (factory setting) 24-24 hour clock — 68-0280-01 18 VisionPROTM 8000 Touchscreen Programmable Thermostat Table 3. Installer Setup Menu. (Continued) Installer Setup Number Installer Setup Name Settings Notes 0650 Extended Fan OnTime Heat 0—no extended fan operation after call for heat ends 90— fan operation is extended 90 seconds after call for heat ends. Not shown if fan operation is set to fossil fuel or in Cool Only Systems 0660 Extended Fan On Time Cool 0—no extended fan operation after call for cool ends 90—fan operation is extended 90 seconds after call for cool ends. Not shown in Heat Only Systems. 0670 Keypad Lockout 0—unlocked keypad 1—partially locked keypad 2—fully locked keypad Unlocked—all functions are available. Partially locked—only temperature up and down keys and ability to enter and modify Installer Setup mode areavailable. Fully locked—only ability to enter and modify Installer Setup mode are available. 0680 Temperature Control in Heat 1—less aggressive temperature control (could cause temperature undershoot) 2—Standard temperature control in heating (factory setting) 3—more aggressive temperature control (could cause temperature overshoot) Applies to recovery ramp and use of auxiliary heat during recovery. Choose 1 if getting temperature overshoot. Choose 3 if getting temperature undershoot. 0690 Temperature Control in Cool 1—less aggressive temperature control (could cause temperature undershoot) 2—Standard temperature control in cooling (factory setting) 3—more aggressive temperature control (could cause temperature overshoot) Applies to recovery ramp. Choose 1 if getting temperature overshoot. Choose 3 if getting temperature undershoot 0700 Temperature Display Offset -3 —*F (-1.5°C) -2 —°F (-1°C) -1 —°F (-.5°C) 0 —°F (0. °C) — (no difference in displayed temperature and actual room temperature ) 1 —°F (.5°C) 2—°F (1°C 3 —°F (1.5°C) — 0710 Reset Thermostat 0—no thermostat reset. 1—resets all Installer Setup Options to default values and resets schedule to default setting. Only calendar settings and time are retained. 19 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat INSTALLER SYSTEM TEST Use the Installer System Test to test the heating, cooling and fan (and emergency heat for heat pump systems). CAUTION Equipment Damage Hazard. Minimum compressor off time is bypassed during Installer System Test Avoid cycling compressor quickly. How to Use the Installer System Test The Installer Test is part of the Installer Setup Menu. 1. Enter the Installer System Test by entering the Installer Setup. 2. Note that the test appears at the end of the Installer Setup Numbers. 3. See Fig. 30 to review how the thermostat buttons are used during the Installer System Test. See Table 6 for available Installer System Tests. Installer System Tests SYSTEM TEST NUMBER SYSTEM STATUS NUMBER UP ARROW TURNS THE SYSTEM ON DONE KEY UP ARROW KEY DOWN ARROW EXITS INSTALLER ADVANCES TO TURNS THE SYSTEM TEST NEXT SYSTEM SYSTEM OFF TEST NUMBER M22428 Fig. 30. Review thermostat buttons used during Installer System Test. IMPORTANT Use the Installer System Test to test the heating, cooling, fan and emergency heat. The setting you choose for System Type (Installer Setup Number 0170) may prevent some System Test Numbers from appearing. Table 4. Installer System Test. System Test Number Test Type System Status Number and Description Test 1 Cooling System Test 1—Cool stage 1 turns on. 2—Cool stage 1 and stage 2 turn on. 0—Cool is off. Test 2 Fan System Test 1—Fan turns on. 0—Fan turns off. Test 3 Heating System Test 1—Heat stage 1 turns on. 2—Heat stage 1 and stage 2 (aux heat) turn on. 0—Heat is off. Test 4 Emergency Heat Test 1—Emergency heat turns on. 2—Emergency heat and auxiliary heat turn on. 0—Emergency heat turns off. Press the Next button to go to the beginning of the Installer Setup or press the Done button to exit the Installer System Test. 68-0280-01 20 VisionPROTM 8000 Touchscreen Programmable Thermostat OPERATION Thermostat Keys SYSTEM DOWN ARROW SELECTS EM. LOWERS TEMPERATURE HEAT/HEAT/OFF/COOL c— SETTING FAN SELECTS ON/AUTO/CIRC UP ARROW RAISES TEMPERATURE SETTING FAN AUTO SYSTEM HEAT T side' 1 1 Set Tor �t 1_1 _1 oi_ Following Schedule in.Lic" ILI IJ SCHED HOLD CLOCK MORE v SCHED CLOCK L MORE ENTERS SETS THE SHOWS ADDITIONAL SCHEDULING TIME ACCESSORY AND MODE FORWARD MAINTENANCE OR BACK OPTIONS HOLD SETS A PERMANENT HOLD AND ACTIVITIES VACATION HOLD Thermostat Display TUE SHOWS CURRENT DAY OF THE WEEK FAN SHOWS FAN SETTING —1 SCREEN LOCKS OUT THE SCREEN TO ALLOW FOR CLEANING M22444 INSIDE TEMPERATURE SHOWS THE CURRENT INSIDE TEMPERATURE SET TO TEMPERATURE SHOWS THE CURRENT SET TEMPERATURE FAN AUTO SYSTEM HEAT Our AM ILI ID Set Tor —' uL Following Schedule SCHED OLD r CLOCK SCREEN MORE SYSTEM — TIME —' SHOWS DISPLAY CURRENT CURRENT TIME OF DAY, HOLD SYSTEM TIME REMAINING OR POSITION NUMBER OF VACATION DAYS REMAINING FOLLOWING SCHEDULE SHOWS THE THERMOSTAT IS FOLLOWING THE PROGRAMMED SCHEDULE M22239 System and Fan Settings System The System key selections vary based on your heating and/or cooling system type. Heat — Thermostat controls the heating system. Off — Both heating and cooling systems are off. Cool — Thermostat controls the cooling system. Auto — Thermostat automatically changes between heating and cooling operation, depending on indoor temperature. Em. Heat — Emergency heat cycles to maintain temperature. Compressor is locked out (used only for 2H/1 C or 3H/2C heat pump systems) and auxiliary heat turns on as second stage if needed. Fan The Fan key selections vary based on the heating and/or cooling system type. On — Fan runs continuously. Use this setting for improved air circulation or for more efficient central air cleaning. Auto — fan follows the fan program schedule. Circ — fan runs randomly approximately 35% of the time. Use this setting for improved air circulation or for more efficient central air cleaning when you do not want the fan running continuously. User Setup Follow these steps to enter the User Setup: 1. Press and release the System key. THU CLOCK Set To —1 01— Fs ng Schedule SCREE [v] M22426A 21 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat 2. Press and hold the center blank key for approximately five seconds until the screen changes. lisavwsilll TUE ,"be) I ► i I_I Set Tor —1 1I "1 CANCEL] M22439 3. Release the center blank key when the screen on the thermostat matches the screen below. 68-0280-01 22 4. See the screen below to review how the thermostat keys are used during the User Setup. See Table 5 for the User Setup numbers and settings. USER SETUP NUMBER ADVANCE TO NEXT USER SETUP CURRENT SETTING PRESS TO EXIT USER SETUP CHANGE THE CURRENT SETTING M19922 5. Press the Done key to exit the User Setup screen. Table 5. User Setup Settings. User Setup Number User Setup Name Settings 0120 Date (first two digits of year) Select first two digits of current calendar year (20 for year 2005, etc) 0130 Date (last two digits of year) Select last two digits of current calendar year (05 for year 2005, etc) 0140 Date (month) Select number of current calendar month (1-12) 0150 Date (day) Select number of current calendar date (1-31) 0160 Schedule options 0—Non-programmable 4 -7 -day programmable (factory setting) 0320 Display temperature in °F or °C 0—°F setting (factory setting) 1—°C setting 0330 Daylight savings time 1—Daylight savings is on (factory setting) 0—Daylight savings is off VisionPROTM 8000 Touchscreen Programmable Thermostat Table 5. User Setup Settings. User Setup Number User Setup Name Settings 0500 Furnace air filter 0—off (factory setting) 1-10 fan run time days (about one month) 2-30 fan run time days (about three months) 3-60 fan run time days (about six months) 4-90 fan run time days (about nine months) 5-120 fan run time days (about one year) 6-365 fan run time days (about three years) 0510 Humidifier pad reminder 0—off 1-3 months 2-6 months 3-12 months 0520 UV lamp reminder 0—off (factory setting) 1-1 year 0540 Number of schedule periods available 2—two (Wake and Sleep) 4—four (Wake, Leave, Return, Sleep)—factory setting 0640 Clock format 12 -12 -hour clock (factory setting) 24 -24-hour clock 0670 Screen lockout 0—all keys available; screen is unlocked (factory setting) 1—screen is partially locked. All key functions locked except Temper- ature Up and Down keys and Cancel key. 2—screen is fully locked PROGRAMMING Preprogrammed Energy-saving Settings Table 6 shows default program settings. Table 6. Energy-saving Default Program Settings. Schedule Period Time Setpoints Fan Setting Heat Cool Wake 6:OOAM 70°F 78°F Auto (21°C) (25.5°C) Leave 8:OOAM 62°F 85°F Auto (16.5°C) (29.5°C) Return 6:OOPM 70°F 78°F Auto (21°C) (25.5°C) Sleep 10:OOPM 62°F 82°F Auto (16.5°C) (28°C) Program Heating and Cooling Schedule Your thermostat can control up to four different schedule periods per day: Wake—Period when you awaken and want your home at a comfortable temperature. Leave—Period when you are away from home and want an energy-saving temperature. Return—Period when you return home and want your home back to a comfortable temperature. Sleep—Period when you are asleep and want an energy- saving temperature. NOTE: Schedule times are in 15 -minute intervals. 23 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat Edit Schedule 1. Press Sched key. FAN l AUTO re -in ILI SYSTEM HEAT LI"—ILI PM SCHED 2. Press Edit key. HOLD CLOCK 1 FRI Set To X11 1 1►_1 Following Schedule [SCREEN v M22445 MON ] TUE ]1 WED ] THU OK TO PICK MULTIPLE DAYS FAN AUTO CANCEL PERIOD 1 .1 11 1 A M 1_I'll_II_I J. FRI I SAT 11 1 11_I 11 1 ILI SUN HEAT '1 COOL DONE E WAKE LEAVE _T:::s,\\ RETURN SLEEP CANCEL M22553 3. It is OK to pick multiple days. Select any combination of days to edit. These days are scheduled with the same times and temperatures. Check marks appear next to days selected. 1 l I ✓ MON ] / TUE I✓WED ] ✓THU ] ✓ FRI 111II SAT JI1 SUN ] OK TO PICK MULTIPLE DAYS FAN ON AUTO CIRC CANCEL PERIOD 1_ 1_I'L II I 11 1 ILI 11 1 I1_1 HEAT COOL DONE WAKE LEAVE RETURN SLEEP CANCEL M19955 4. Press Wake key. Once pressed, Wake flashes to show it is selected. 5. Press Up and Down keys to modify time and heat and cool temperatures from this screen. 68-0280-01 24 NOTE: The Fan setting can be programmed for On, Auto, or Circ for each period selected. See Fan Schedule section for more information. 6. Press Leave key and repeat step 5. 7. Press Return key and repeat step 5. 8. Press Sleep key and repeat step 5. 9. When complete, press Done key. "Saving Changes" appears on the screen to indicate changes are being saved to the day(s) modified. M19956 NOTE: To set a Program Schedule for the remaining days of the week, repeat steps 1-9. Example: If Mon - Fri was selected first, go back and repeat steps 1-9 for Sat and Sun. 10. To exit schedule without saving changes, press Cancel key any time. Cancel a Schedule Period 1. Press Sched key. 2. Press Edit key. 3. Select the Day(s) of the week desired. 4. Press schedule period you want to cancel (Wake, Leave, Return or Sleep). Once selected, the period flashes. 5. Press Cancel Period key. ✓MON ] ✓TUE J ✓WED] ✓THU ] ✓ FRI JI SAT J OK TO PICK MULTIPLE DAYS 1 FAN AUTO CANCEL' PERIOD 1 1.1 11 IAM 1_1'1_11_1 1 1►_ _I or 1_I —1 SUN HEAT COOL f DONE WAKE LEAVE RETURN SLEEP CANCEL M22446 6. The time, temperature(s) and fan setting disappear. The bar above the selected period is removed, indicating the scheduled period was cancelled. VisionPROTM 8000 Touchscreen Programmable Thermostat NOTE: To reinstate a schedule period, press arrow keys to set desired time and temperatures. MON J ✓ TUE ]I WED JIITHU j OK TO PICK MULTIPLE DAYS FAN 1 FRIJ SATiI SUN] HEAT COOL v DONE WAKE 1 f LEAVE RETURN SLEEP CANCEL M19957 7. Press Done key. Fan Schedule Press Fan key while in the Scheduling Screen to program the System Fan. Choices available from the Scheduling Screen: Auto (default position)—fan runs with equipment. Programmable for all schedule periods (Wake, Leave, Return and Sleep). On—fan runs continuously (programmable for all schedule periods). Circ—fan runs randomly for approximately 35% of schedule period (programmable for all schedule periods). MON .1 ✓TUE J /WED THU OK TO PICK MULTIPLE DAYS FAN J AUTO CANCEL PERIOD r .t 11 1AM 11'1_11_1 V. FRI J SAT JI SUN — 11-1 IU 1- 1 1 IU HEAT COOL [ DONE, f WAKE LEAVE RETURN, SLEEP CANCEL M22447 Fan Control (Table 7) If the Fan program is scheduled, Auto is shown and any programmable mode that is set; for example, if during Wake period, Fan is set to Auto, only Auto is shown in the Fan area. However, if during the Wake period, fan is scheduled to On, both Auto and On are shown. Auto indicates fan is running its schedule; On indicates Fan schedule is set to On. THU ( FAN ON Inside( ' AUTO LI —' SYSTEM HEAT 11 1.1 1 IAM 11 I' I Set To r—I I� Following Schedule SCHED HOLD CLOCK SCREEN M19962 Table 7. Fan Program Operation and Screen Status. Fan Setting Fan Program Schedule Call for Action Energize Terminal Fan Status shown on Screen Auto Auto None None Auto Auto On Fan G Auto/On Auto Circ None None Auto/Circ Auto Circ Fan G Auto/Circ 25 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat Manual Override of Fan Schedule (Table 8) Operate VisionPROTM 8000 Touchscreen Auto—fan is automatically following the Fan schedule (choices are Auto, On or Circulate). On—overrides Fan schedule. Fan is continuously On. Circ—overrides Fan schedule. Fan circulates randomly for approximately 35% of time until the Auto position is selected. Table 8. Manual Override of Fan Schedule Operation. Fan Setting Fan Schedule Override Setting Call for Action Energize Terminal Screen Message Under Fan Setting Auto On Fan G On Auto Circ None None Circ Auto Circ Fan G Circ On Autoa — — — On Circ None None Circ On Circ Fan G Circ Circ Autoa Circ On Fan G On aAuto Override resumes the Fan Program in each schedule period (Wake, Leave, Return and Sleep) 68-0280-01 26 Set Time 1. Press Clock. 2. Use arrows to set current time. TUE 11 1,1 I IAM 11_1'_1 I DONE CANCEL' M19958 3. Press Done key. IMPORTANT The current day of the week should already be set correctly. If not, see Installer Setup to set the day. Set Temperature Overrides The thermostat has three temperature override options: Hold Temperature Until, Permanent Hold and Vacation Hold. HOLD TEMPERATURE UNTIL (TEMPORARY HOLD) Holds temperature temporarily until the next scheduled period time or until the time the user sets. 1. Press Up or Down arrow next to the temperature you want to adjust. "Hold Temperature Until" time appears on the screen. The Hold Temperature Until time defaults to the start time of the next scheduled period. NOTE: The Time Up and Down arrows are shown for approximately seven seconds. Pressing on the screen time (where the Hold Temperature Until time is shown) allows the arrows to reappear. VisionPROTM 8000 Touchscreen Programmable Thermostat 2. Press Up or Down arrow next to the Time key to set desired time for the thermostat to resume schedule. FAN AUTO SYSTEM HEAT TUE Inside ILI Hold Temperature Until I_.I I1 1 (I I'L IuPM Set To_I—I II_ l ad j SCHED HOLD CLOCK SCREEN CANCEL, M19959 3. Press the Cancel or Sched key to cancel "Hold Temperature Until" and resume schedule. NOTE: Once "Hold Temperature Until" time is reached, the thermostat shows "Following Schedule" on the screen to indicate that "Temporary Hold" has ended. PERMANENT HOLD Permanent Hold changes the temperature setting until Permanent Hold is cancelled. 1. Press Hold key. "Permanent Hold" appears on the screen. 2. Press Up or Down arrow next to the temperature you want to set during "Hold." TUE FAN Inside '=' I AUTO 411110 IF I.I SYSTEM HEAT I.1 IAM I' _I 1 Permanent Hold Set To —I _—I II_ j SCHED HOLD CLOCK SCREEN [CANCEL, M19960 3. Press Cancel key to cancel "Permanent Hold" and resume the schedule. VACATION HOLD Changes temperature setting for a designated number of days. 1. Press the Up and Down arrow keys to set the desired temperature while away on vacation. Notice that "Hold Temperature Until" time is shown on the screen. (This is the time the Vacation Hold override expires after the number of days ends.) 2. Press Hold key twice. Screen shows "Hold Temperature Until" one day. 27 3. Press Up and Down arrow keys to change the number of Days you desire thermostat to override the schedule. NOTE: Days Up and Down arrows appear for approximately seven seconds. Pressing just below Hold Temper- ature Until on the screen allows the Days Up and Down arrows to reappear. FAN AUTO /nsidel—'—I I_I 1 SYSTEM HEAT Hold Temperature Until SCHED I THU DAYS Set To r—I L I� CLOCK SCREEN CANCEL M19961 4. To cancel the Vacation Hold override early, press the Cancel key. NOTE: When the number of days of Vacation Hold expires, the screen shows "Following Schedule" to indicate that Vacation Hold has ended. Clean Thermostat Screen The thermostat has a touch screen interaction. Follow these steps to clean the screen without making thermostat changes: 1. Press the Screen key. Thermostat locks out all touch keys for 30 seconds to allow for cleaning. OK TO CLEAN SCREEN M19964 2. Use damp cloth slightly moistened with water or house- hold glass cleaner to clean the screen. 3. Repeat the above steps, as necessary. IMPORTANT Do not spray any type of liquid directly on the thermostat itself. If using household glass cleaner, spray cleaner on cloth. Then use a cloth to clean the thermostat screen. 4. Press the Done key to return to the Home Screen and normal operation. 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat Replace Batteries 1. When the LO Battery indicator is flashing, replace the batteries promptly with three fresh AAA alkaline batteries 1_ LI 1 1-11 1 IIIIL 1 M19963 2. Remove thermostat from the wallplate by pulling straight out. WALL 4. Align the screw blocks with the pins on the back of the thermostat. WALLPLATE PINS ON BACK OF THERMOSTAT TERMINAL SCREW BLOCK M22213 5. Push the thermostat straight onto the wallplate until it snaps into place. Battery Tips 1. Replace the batteries as soon as LO Batt flashes in the display. The LO Battery indicator flashes in the display one month before the batteries run down completely. 2. Always use fresh AAA alkaline batteries. Non -alkaline batteries do not last as long and can leak, causing thermostat damage. 3. Although the thermostat has a Low Battery indicator, replace the batteries once a year to prevent the thermo- stat and heating/cooling system from shutting down due to lack of battery power. 3. Remove the old batteries and insert three fresh AAA Screen Locks alkaline batteries, as marked on the thermostat. BATTERIES (3) BACK OF THERMOSTAT 68-0280-01 28 FAN ) TUE Insider ' ' AUTO I ' ' =' SYSTEM HEAT _I.1 1 1 _I' I I PM SCREEN LOCKED Set Tor —1 111 Following Schedule SCHED HOLD CLOCK 1 SCREEN] MORE M19965 VisionPROTM 8000 Touchscreen Programmable Thermostat Partially Locked Screen When partially locked, the screen indicates Screen Locked for 5 to 7 seconds whenever the user attempts to press a key that is locked. Pressing a locked key, while Screen Locked is shown, flashes "Screen Locked" on the screen. In this mode, all keys are locked except the Temperature Up and Down arrow keys: — User can change temperature up or down but cannot change schedule settings. — Temporary temperature change lasts until next scheduled period and that time shows on screen. — To cancel temperature override and begin following schedule, press Cancel key. — To unlock screen, see Installer Setup section. Fully Locked Screen In this mode, all keys are locked and not functional. To unlock screen, see Installer Setup section. The screen continuously displays "Screen Locked." Outdoor Temperature If an outdoor temperature sensor is installed, the thermostat displays the outside temperature in the lower right corner of the Home Screen. ( FAN TUE Inside AUTO „= SYSTEM HEAT 1.1 11_ AM I. 1_I Set To —I—) i►_ Following Schedule Outside ► n—I 1L 1 SCHED HOLD CLOCK [SCREEN] MORE M22453 If thermostat is set to Auto Changeover System mode, press the More key until the outside temperature is shown on the screen. M22448 29 Remote Indoor Temperature If a remote indoor temperature sensor is installed, the thermostat displays the inside temperature on the screen from the remote sensor(s).The thermostat internal temperature sensor is not used. FAN ) TUE Inside' ' ' AUTO , ; SYSTEM HEAT —1.1_11- 1. .1 11 1. I _I Set To —1-1 IC Heat On Following Schedule SCHED HOLD CLOCK SCREEN MORE LAI (v1 M19974 ONE REMOTE INDOOR SENSOR INSTALLED (OPTIONAL) If one remote indoor temperature sensor is used, the screen showing the Inside temperature reading shows the temperature at the indoor remote sensor location. The thermostat internal temperature sensor is not used. MULTIPLE REMOTE INDOOR SENSORS INSTALLED (OPTIONAL) If more than one remote indoor sensor is used, the screen showing Inside temperature reading shows the average of all the remote indoor sensors. The thermostat internal temperature sensor is not used. Indoor Air Quality Reminders Filter Change Reminder The filter change reminder must be turned on from the Installer Setup. Once expired, the screen flashes, "Change Filter" and a Reset key appears. Press the Reset key to reset the change reminder. FAN TUE CHANGE FILTER Inside' AUTO 1.1 SYSTEM HEAT RESET 1.1 11= 1'1 1 _I PM Set To 1_ —1 ►-1►_ Following Schedule SCHED HOLD CLOCK SCREEN MORE .1 M19975 NOTE: The days are counted as fan run time, so anytime the fan is running, the reminder is counting that time against the number of days selected. 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat The remaining run time days can be viewed by pressing the More key; the remaining days can be edited using the More key or from the Installer Setup. To view or reset the reminder before it expires, follow these steps using the More key: 1. Press the More key until the filter reminder appears on the screen. This is the number of fan run-time days remaining on the filter reminder. DONE RESET EDIT FILTER CinDAYS_11_1 I MORE CANCEL M22449 2. Press the Edit key. 3. Use the Up and Down keys to change the number of run-time days. FILTER —u-1 _I LI DAYS DONE CANCEL M22450 68-0280-01 30 4. Press the Done key to go back to the viewing screen. FILTER RESET On DAYS _tL I DONE EDIT l 1 MORE CANCEL M22449 5. Press the Reset key to activate the new number of days selected in the previous screen. FILTER RESET DAYS DONE EDIT MORE CANCEL M22451 6. Press the Done key to return to the Home screen. VisionPROTM 8000 Touchscreen Programmable Thermostat Humidifier Pad Reminder The Humidifier Pad change reminder must be turned on from the Installer Setup. Once expired, the screen flashes, "Change Humidifier Pad" and a Reset key appears. Press the Reset key to reset the change reminder. The remaining calendar days can be viewed by pressing the More key. The remaining days can be edited using the More key or from the Installer Setup. To view or reset the reminder before it expires, follow these steps using the More key: 1. Press the More key until the Humidifier Pad change reminder appears on the screen. This is the number of calendar days remaining on the Humidifier Pad reminder. 2. Press the Edit key. 3. Use the Up and Down keys to change the number of calendar days. 4. Press the Done key to go back to the viewing screen. 5. Press the Reset key to activate the new number of days selected in the previous screen. 6. Press the Done key to return to the Home Screen. UV Lamp Reminder The UV Lamp change reminder must be turned on from the Installer Setup. Once expired, the screen flashes, "Change UV Lamp" and a Reset key appears. Press the Reset key to reset the change reminder. The remaining calendar days can be viewed by pressing the More key. The remaining days can be edited using the More key or from the Installer Setup. To view or reset the reminder before it expires, follow these steps using the More key: 1. Press the More key until the UV Lamp change reminder appears on the screen. This is the number of calendar days remaining on the UV Lamp reminder. 2. Press the Edit key. 3. Use the Up and Down keys to change the number of calendar days. 4. Press the Done key to go back to the viewing screen. 5. Press the Reset key to activate the new number of days selected in the previous screen. 6. Press the Done key to return to the Home Screen. Temperature Recovery The thermostat feature, Adaptive Intelligent Recovery TM eliminates all guesswork when setting the thermostat schedule. Simply set the program schedule to the time that the comfort temperature is desired. The thermostat then turns on the heating or cooling at just the right time to have the home reach the scheduled temperature at the scheduled time. For example—get up at 6:00 AM and want the temperature to be 70°F. Set the Wake period for 6:00 AM and 70°F. The thermostat then turns on the heat before 6:00 AM to raise the temperature to 70°F by 6:00 AM. 31 The thermostat alerts that the heating or cooling system is coming on before a scheduled time by showing "Recovery" on the screen. TUE FAN '�' Set To �) I AUTO lInsider , ; , 1 SYSTEM HEAT Following Schedule Recovery 1 PM SCHED HOLD CLOCK SCREEN MORE A M22301 NOTE: It takes about a week for the thermostat to adjust to local weather, the schedule, the construction of the home and the heating and/or cooling system. Each day it adjusts the next day's recovery start time accordingly. P+I Control The thermostat microprocessor -based control requires that the user understands temperature control and thermostat performance. A conventional mechanical or electronic thermostat does not control temperature precisely at setpoint. Typically there is an offset (droop) in the control point as the system load changes. This is a phenomenon that most people in the industry know and accept. Many factors contribute to offset including switch differential, thermal lag, overshoot, cycle rates and system load. The thermostat microprocessor simultaneously gathers, compares and computes data. Using this data, it controls a wide variety of functions. The special proprietary algorithm (program) in the thermostat eliminates the factors causing offset. This makes temperature control more accurate than the conventional mechanical or electronic thermostats. The temperature control algorithm is called proportional plus integral (P+I) control. The thermostat sensor, located on the thermostat or remote, senses the current space temperature. The proportional error is calculated by comparing the sensed temperature to the programmed setpoint. The deviation from the setpoint is the proportional error. The thermostat also determines integral error, which is a deviation based on the length of error time. The sum of the two errors is the (P+I) error. The cycle rate used to reach and maintain the setpoint temperature is computed using the P+I. The additon of the integral error is what differentiates the thermostat from many other electronic and mechanical thermostats. See Fig. 31. 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat TEMPERATURE THERMOSTAT COOL SETPOINT PROPORTIONAL COOL CONTROL POINT P+I CONTROL POINT P+I CONTROL POINT PROPORTIONAL HEAT CONTROL POINT THERMOSTAT HEAT SETPOINT HEATING COOLING 100 50 0 PERCENT LOAD 50 100 M4414 Fig. 31. Proportional temperature control versus P+ I temperature control. Minimum Off -Timer The Thermostat has built-in compressor protection (minimum - off timer) that prevents the compressor from restarting too early after a shutdown. The minimum -off timer is activated after the compressor turns off. If there is a call during the minimum -off timer, the thermostat shows "Wait" in the display. WED FAN Inside 1, 1 AUTO (SYSTEM] COOL Set To 11 111 ' J' 1 IPM Wait Following Schedule SCHED 1 HOLD ( CLOCK SCREEN M22244 When the minimum -off timer expires, "Cool On" or "Heat Ona appears solidly in the display and the compressor and fan turn on. °Heat Pumps only. 68-0280-01 32 Inside Humidity Level Select models can sense the humidity level in the home. The humidity level in the home is shown in the lower right corner of the Home Screen. FAN AUTO SYSTEM HEAT TUE Inside'—' fru I 1 111. 11;P. Set To —I 1r Following Schedule Humidity SCHED HOLD CLOCK SCREEN ( MORE [Ad M19966 If thermostat is set to Auto Changeover System mode, press the More key until the humidity level is shown on the screen. Inside .1'1% DONE [CANCEL M22452 VisionPROTM 8000 Touchscreen Programmable Thermostat Control Dehumidification Setting (Select Models) Select models read the inside humidity level and allow for a dehumidification setting: 1. Press the More key until the inside humidity percent and dehumidification setpoint are shown. Inside _11= Humidity DEHUMIDIFIER 1% _II_I DONE CANCEL M19967 2. Use Up and Down arrow keys, located to the right of the dehumidifier setpoint, to set desired humidity level for dehumidification in the summer. 3. Press Done key. Dehumidification Droop Control The dehumidification control attempts to control to the user's humidity setpoint by turning on the air conditioner. In extremely high humidity conditions, the thermostat keeps the air conditioner running (energizing Y and G) for up to 3°F below the temperature setpoint. It does this while trying to achieve the desired humidity setpoint and balancing that with the temperature setpoint. The thermostat controls up to 3° F below the temperature setting until either the humidity is satisfied or conditions change. Special Heat Pump Operation Heat Pump LED Indication (Requires 24 Vac Common Connection) A red LED indication is located in the upper right corner of the thermostat. It is only visible when lighted. When the L terminal is wired to an equipment monitor, the LED signals when a check or fail signal is sent to the thermostat from the system. This is operational in the Heat, Off, Cool or Auto positions. See Fig. 32. EQUIPMENT MONITOR TO C TO R M19907 Fig. 32. L terminal switch to R (power) side of system transformer. 33 Heat Pump Emergency Heat LED Indication (Requires 24 Vac Common Connection) The thermostat uses a red LED indicator that lights when the thermostat is in the Emergency Heat mode. The LED is located in the upper right corner of the thermostat. It is visible only when on. When the thermostat is in the Em. Heat system mode, the L terminal is continuously energized and the LED is on. Heat Pump Temperature Lockouts Dual Fuel Heat Pump and Outdoor Temperature Sensor In this operation, there is no external fossil fuel kit (dual fuel kit) installed; the thermostat controls this function. 1. Choose correct heat pump application in Installer Setup Number 0170. 2. Choose Fossil Fuel Option as the backup heat source in Installer Setup Number 0200. 3. Choose No External Fossil Fuel Kit Option is control- ling back up heat in Installer Setup Number 0210. 4. Choose Outdoor Temperature Sensor for Heat Pump Temperature Lockouts Option in Installer Setup Num- ber 0340. 5. Choose appropriate Balance Point Temperature in Installer Setup Number 0350. OPERATION IN HEAT MODE ABOVE BALANCE POINT (OUTDOOR TEMPERATURE) When the outdoor temperature is above the selected Balance Point Temperature (ISU 0350), only the compressor operates and the fan (G terminal) energizes when the thermostat calls for heat. See Fig. 33. w Ir W a w 30 1- o! 0 0 0 1- 0 0 COMPRESSOR ONLY FOSSIL FUEL ONLY BALANCE POINT M22441 Fig. 33. Dual Fuel Heat Pump Operation in Heat mode with Balance Point Set. OPERATION IN HEAT MODE BELOW BALANCE POINT (OUTDOOR TEMPERATURE) When the outdoor temperature is below the selected Balance Point Temperature (ISU 0350), only the Fossil Fuel (auxiliary heat) operates and the fan (G terminal) does not energize when the thermostat calls for heat. 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat OPERATION IN EMERGENCY HEAT MODE The balance point (outside) temperature is not used in the Emergency heat mode. When the thermostat is moved to the Emergency Heat position, the compressor is locked out. The first stage of heat is whatever is connected to the E terminal. The second stage of heat is what is connected to the Aux. terminal. Often there is only one source of non -compressor heat and the E terminal is jumped to the Aux. terminal. Heat Pump with Electric Auxiliary (Backup) Heat and Outdoor Temperature Sensor 1. Choose correct heat pump application in Installer Setup Number 0170. 2. Choose Electric as Auxiliary (Backup) Heat Source in Installer Setup Number 0200. 3. Choose Outdoor Temperature Sensor for Control Option in Installer Setup Number 0340. 4. Choose Compressor Lockout Temperature in Installer Setup Number 0350. 5. Choose Auxiliary Lockout Temperature in Installer Setup Number 0360. NOTE: There is a 5°F deadband between the Compressor and Auxiliary Heat Lockout Temperatures. Operation in Heat Mode When the outdoor temperature is below the Compressor Lockout Temperature, only the Auxiliary Heat operates. When the outdoor temperature is above the Auxiliary Lockout Temperature, only the Compressor operates. See Fig. 34. w ce 1- ce F w 50 a uJ w O 35 O 0 O COMPRESSOR ONLY BOTH COMPRESSOR AND AUXILIARY HEAT AUXILIARY ONLY AUXILIARY LOCKOUT TEMPERATURE COMPRESSOR LOCKOUT TEMPERATURE M19950 Fig. 34. Heat Pump Operation with Lockout Temperatures Set. When the outdoor temperature is between the two temperatures, both the Compressor and Auxiliary Heat operate. Operation in Emergency Heat Mode Once the thermostat is placed into the Emergency Heat mode, the compressor and auxiliary lockout features are turned off. In the Emergency heat mode, the compressor is locked out. The first stage of heat is whatever is connected to the E terminal. The second stage of heat is connected to the Aux. terminal. Usually the emergency and auxiliary heat sources are electric strip heat in these cases. Operating Sequence The thermostat energizes specific terminal(s), depending on the demand for heating, cooling or fan. The thermostat screen shows the time, inside temperature, system and fan selections. Additional indicators are shown when the heating, cooling or fan is energized. See Tables 9 - 11 for specification information. Table 9. Sequence of Operation for Conventional Systems. System Setting Fan Setting Call for Action Energize Terminals Screen Message Off Auto None None None Cool Auto None None None Cool or Auto Auto Stage 1 Cooling Y, G Cool On Cool or Auto Auto Stage 1 and Stage 2 Cooling Y Y2b G Cool On Heat Auto None None None Heat or Auto Auto Stage 1 Heating W Ga Heat On Heat or Auto Auto Stage 1 and Stage 2 Heating W W2c Ga Heat On aG energizes only if Installer Setup number 0180 is set to Electric. blf Installer Setup System type is set to two stages of cooling. cif Installer Setup System type is set to two stages of heating. 68-0280-01 34 VisionPROTM 8000 Touchscreen Programmable Thermostat Table 10. Sequence of Operation for Power Open and Power Closed Valves or Normally Open Valves. System Setting Fan Setting Call for Action Energize Terminals Screen message Off N/A None Y None Heat N/A None Y None Heat N/A Heat W Heat On Table 11. Sequence of Operation for Heat Pump Systems. System Setting Fan Setting CaII for Action Energize Terminals Screen message Off Auto None 0/Ba None Cool Auto None O/Ba None Cool or Auto Auto Stage 1 Cooling Y, G, 0/Ba Cool On Cool or Auto Auto Stage 1 and Stage 2 Cooling Y, Y2d, G, 0/Ba Cool On Heat Auto None 0/Ba None Heat or Auto Auto Stage 1 Heating Y, G, 0/Ba Heat On Heat or Auto Auto Stage 1 and Stage 2 Heating Y, AUX°, G, 0/Ba Aux Heat On Heat or Auto Auto Stage 1, 2 and 3 Heating Y, Y2d, AUXe, G. O/Ba Aux Heat On Em. Heat Auto None Lb, 0/Ba None Em. Heat Auto Stage 1 Heating E, G, Lb, O/Ba Heat On Em. Heat Auto Stage 1 and Stage 2 Heating E, AUX, G, Lb, O/Ba Aux. Heat On 'Configure O/B in Installer Setup. Based on last piece of equipment called (cooling = 0 or heating = B). bRed LED is on. See LED Indication section for more details. °If Installer Setup System Type is set to 2Heat/1Cool Heat Pump with Auxiliary Heat. dlf Installer Setup System Type is set to 3Heat/2Cool Heat Pump with Auxiliary Heat. eThis terminal does not energize if Installer Setup System type is set to 2 Heat/2 Cool Heat Pump with no Auxiliary Heat. Second Stage Heat and Cool Control While maintaining setpoint, several factors affect when 2nd stage energizes such as load conditions, environmental conditions, P+I control, and home insulation. The second stage energizes when the thermostat senses 1st stage is running at 90% capacity. This operation is droopless control. 35 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat C7089U Outdoor Temperature Sensor Operation When installed with Thermostat Installer Setup Number 0340 set to 1 or 2, the outside temperature can be displayed on the thermostat. See Fig. 35. TUE FAN AUTO mnme I' (SYSTEM HEAT 1,! 11_ AM 1. 1_I Set To -1-1 IL Following Schedule Outside 1_11-1 I1_I SCHED HOLD L CLOCK SCREEN] MORE .J M22453 Fig. 35. Outside temperature reading on TH8000 Series Thermostat. The C7089 Outdoor Sensor converts outdoor ambient temperature to a resistance that the thermostat can interpret. The C7089 has a negative temperature coefficient (TC), which means that resistance decreases as the temperature increases. See Table 12. Checkout Allow C7089U Outdoor Sensor to absorb outdoor air for a minimum of twenty minutes before taking a reading. With an accurate thermometer (±1 °F [0.5°C]) measure the temperature at the sensor location, allowing time for the thermometer to stabilize before reading. To verify sensor resistance, remove one wire from one of the C7089 60 -in. leadwires. Use an ohmmeter to measure the resistance across the sensor. Then verify the sensor accuracy with the temperature/resistance in Table 12. Calibration The C7089 Outdoor Sensor is calibrated at the factory and cannot be recalibrated in the field. 68-0280-01 36 Table 12. Sensor Resistance at Outdoor Temperature. Outdoor Temperature Ohms of Resis- tance Outdoor Temperature Ohms of Resis- tance °F °C °F °C -20 -28.9 106926 52 11.1 17136 -18 -27.8 100923 54 12.2 16387 -16 -26.7 95310 56 13.3 15675 -14 -25.6 90058 58 14.4 14999 -12 -24.4 85124 60 15.6 14356 -10 -23.3 80485 62 16.7 13743 -8 -22.2 76137 64 17.8 13161 -6 -21.1 72060 66 18.9 12607 -4 -20.0 68237 68 20.0 12081 -2 -18.9 64631 70 21.1 11578 0 -17.8 61246 72 22.2 11100 2 -16.7 58066 74 23.3 10644 4 -15.6 55077 76 24.4 10210 6 -14.4 53358 78 25.6 9795 8 -13.3 49598 80 26.7 9398 10 -12.2 47092 82 27.8 9020 12 -11.1 44732 84 28.9 8659 14 -10.0 42506 . 86 30.0 8315 16 -8.9 40394 88 31.1 7986 18 -7.8 38400 90 32.2 7672 20 -6.7 36519 92 33.3 7372 22 -5.6 34743 94 34.4 7086 24 -4.4 33063 96 35.6 6813 26 -3.3 31475 98 36.7 6551 28 -2.2 29975 100 37.8 6301 30 -1.1 28558 102 38.9 6062 32 0.0 27219 104 40.0 5834 34 1.1 25949 106 41.1 5614 36 2.2 24749 108 42.2 5404 38 3.3 23613 110 43.3 5203 40 4.4 22537 112 44.4 5010 42 5.6 21516 114 45.6 4826 44 6.7 20546 116 46.7 4649 46 7.8 19626 118 47.8 4479 48 8.9 18754 120 48.9 4317 50 10.0 17926 - VisionPROTM 8000 Touchscreen Programmable Thermostat C7189U Remote Indoor Temperature Sensor Operation When installed with Thermostat Installer Setup Number 0340 set to 3, the remote inside temperature is displayed on the Thermostat Home Screen as Inside Temperature. The thermostat internal temperature sensor is not used. See Fig. 36. FAN TUE Inside' t ' AUTO ' ; 3 SYSTEM HEAT 1,1 1►_ aA 1' 1_1 Set To -1-1 11 Heat On Following Schedule SCHED HOLD CLOCK SCREEN MORE [vl M19974 Fig. 36. Inside temperature reading on TH8000 Series Thermostat. The C7189 Wall Mount Temperature Sensor converts room temperature to a resistance that the thermostat can interpret. The C7189 has a negative temperature coefficient (NTC), which means that resistance decreases as the temperature increases. See Table 13. The C7189 can be used to provide one remote sensor input (see Fig. 28) or as a temperature averaging network with multiple C7189 Sensors connected, as shown in Fig. 29. Checkout For best results, allow C7189 Wall Mount Temperature Sensor to absorb the air moving through the room for a minimum of twenty minutes before taking a resistance measurement. With an accurate thermometer (±1°F [0.5°C]) measure the temperature at the sensor location, allowing time for the thermometer to stabilize before reading. 37 To verify sensor resistance, remove one wire from one of C7189 wiring terminals. Use an ohmmeter to measure the resistance across the sensor. Then verify the sensor accuracy with the temperature/resistance in Table 13. Calibration The C7189 Wall Mount Temperature Sensor is calibrated at the factory and cannot be recalibrated in the field. Table 13. Sensor Resistance at Room Temperature. Room Temperature Ohms of Resis- tance Room Temperature Ohms of Resis- tance °F °C °F °C 40 4.4 22537 72 22.2 11100 42 5.6 21516 74 23.3 10644 44 6.7 20546 76 24.4 10210 46 7.8 19626 78 25.6 9795 48 8.9 18754 80 26.7 9398 50 10.0 17926 82 27.8 9020 52 11.1 17136 84 28.9 8659 54 12.2 16387 86 30.0 8315 56 13.3 15675 88 31.1 7986 58 14.4 14999 90 32.2 7672 60 15.6 14356 92 33.3 7372 62 16.7 13743 94 34.4 7086 64 17.8 13161 96 35.6 6813 66 18.9 12607 98 36.7 6551 68 20.0 12081 100 37.8 6301 70 21.1 11578 - 68-0280-01 VisionPROTM 8000 Touchscreen Programmable Thermostat TROUBLESHOOTING (TABLE 14) Table 14. Troubleshooting. Symptom Possible Cause Action Display does not come on. Thermostat is not being powered. Check for 24 Vac between C and Rc. Check that AAA batteries are installed correctly and are good. Temperature settings do not change. The upper or lower temperature limits were reached. Check temperature setpoints. Check Installer Setup Numbers 0600 and 0610; modify as needed. The keypad is fully locked. Check Installer Setup Number 0670 to change keypad locked options. Heating or cooling does not come on. Thermostat minimum off -time is activated. Wait up to five minutes for the system to respond. System selection is not set to Heat or Cool. Set system Selection to correct position. System type Selection is incorrect. Check Installer Setup Number 0170 and make sure correct System type is chosen. Thermostat is calling for Heat (Heat on) or Cool (Cool on) but no heating or cooling is running. Heating or cooling equipment is not operating. Check wiring. Check Installer Setup Number 0170 and make sure correct system type is chosen. Verify operation of equipment in System Test mode. Heat does not turn on (Heat On is solid in the display). Heating equipment failure. Check for 24 Vac at the equipment on the secondary side of the transformer between power and common. If voltage is not present, check the heating equipment to find the cause of the problem. Check for 24 Vac between the heat terminal (W) and transformer common. If 24 Vac is present, the thermostat is functional. Check the heating equipment to find the cause of the problem. Loose or broken wire connection between thermostat and heating equipment. Check for 24 Vac between the heat terminal (W) and transformer common. If voltage is not present, check wire connection (loose or broken) between the thermostat and the heating equipment. Cooling does not tum on (Cool On is solid in the display). Cooling equipment failure. Check for 24 Vac at the equipment on the secondary side of the transformer between power and common. If voltage is not present, check the cooling equipment to find the cause of the problem. Check for 24 Vac between the cool terminal (Y) and transformer common. If 24 Vac is present, the thermostat is functional. Check the cooling equipment to find the cause of the problem. Loose or broken wire connection between thermostat and cooling equipment. Check for 24 Vac between the cool terminal (Y) and transformer common. If voltage is not present, check the wire connection (loose or broken) between the thermostat and the cooling equipment. Fan does not turn on in a call for heat (electric furnace). Fan Control in Heating is set to Gas or Oil Furnace (Setting 0180). Set Fan Control in Heating to Electric Furnace (Setting 0180). 68-0280-01 38 VisionPROTM 8000 Touchscreen Programmable Thermostat Table 14. Troubleshooting. (Continued) Symptom Possible Cause Action Heat pump puts out cool air in the heat mode and warm air in the cool mode. Changeover Valve (Installer Setup Number 0190) is not configured to match the changeover required by the installed heat pump. Set Changeover Valve (Installer Setup Number 0190) to match the changeover required by the installed heat pump. Both the heating and cooling equipment are running at the same time. The heating equipment is not a heat pump but the System Type (Installer Setup Number 0170) is set to Heat Pump. Set System Type (Installer Setup Number 0170) to match the installed heating and/or cooling equipment. Heating and cooling wires are shorted together. Separate the shorted heating and cooling wires. Heating equipment is running in the cool mode. Heating equipment is not a heat pump but System Type (Installer Setup Number 0170) is set to Heat Pump. Set System Type (Installer Setup Number 0170) to match the installed heating and/or cooling equipment. Heating equipment does not turn off and heat temperature setting is set below room temperature (Heat On is not in the display). Heating equipment is not a heat pump but System Type (Installer Setup Number 0170) is set to Heat Pump. Set System Type (Installer Setup Number 0170) to match the installed heating and/or cooling equipment. Cannot set the system setting to Heat. System Type (Installer Setup Number 0170) is set to Cool Only. Set System Type (Installer Setup Number 0170) to match the installed heating and/or cooling equipment. Cannot set the system setting to Cool. System Type (Installer Setup Number 0170) is set to Heat Only or Heat Only with Fan. Set System Type (Installer Setup Number 0170) to match the installed heating and/or cooling equipment. Heat On is not in the display. System setting is not set to Heat and/or temperature setting is not set above room temperature. Set the system setting to Heat and set the temperature setting above the room temperature. Cool On is not in the display. System setting is not set to Cool and/or the temperature setting is not set below room temperature. Set the system setting to Cool and set the temperature setting below the room temperature. Wait is in the display. Compressor minimum off timer is active. Wait up to five minutes for the cooling or heating (heat pump) equipment to turn on. "Screen Locked" appears on the screen and all or some of the keys do not respond. The keypad is fully or partially locked. Check Installer Setup Number 0670 to change keypad locked options. 39 68-0280-01 • - VisionPROTM 8000 Touchscreen Programmable Thermostat Honeywell Automation and Control Solutions Honeywell International Inc. Honeywell Limited -Honeywell Limitee 1985 Douglas Drive North 35 Dynamic Drive Golden Valley, MN 55422 Toronto, Ontario M1V 4Z9 68-0280-01 M.S. Rev. 03-11 Printed in U.S.A. www.honeywell.com/yourhome 5/31/2019 / City of Tukwila Department of Community Development JOHNNY SHI 581 STRANDER BLVD TUKWILA, WA 98188 RE: Permit No. M18-0169 STONEWAY ROOFING SUPPLY 581 STRANDER BLVD Dear Permit Holder: Allan Ekberg, Mayor Jack Pace, Director 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 7/10/2019. 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 7/10/2019, 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, Kandace Nichols Permit Technician File No: M18-0169 6300 Southcenter Boulevard Suite #100 • Tukwila, Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 r� n )ERMITCOORD COPY j PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M18-0169 DATE: 01/16/19 PROJECT NAME: STONEWAY ROOFING SUPPLY SITE ADDRESS: 581 STRANDER BLVD Original Plan Submittal Response to Correction Letter # X Revision # 1 before Permit Issued Revision # after Permit Issued DEPARTMENTS: kJ Building Division M Fire Prevention Public Works Structural Planning Division Permit Coordinator n om PRELIMINARY REVIEW: Not Applicable (no approval/review required) DATE: 01/17/19 Structural Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: Approved Corrections Required Approved with Conditions Denied (corrections entered in Reviews) (ie: Zoning Issues) DUE DATE: 02/14/19 Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg 0 Fire 0 Ping ❑ PW ❑ Staff Initials: 12/18/2013 CPERMIT COORD COPYC PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M18-0169 DATE: 12/17/18 PROJECT NAME: STONEWAY ROOFING SUPPLY SITE ADDRESS: 581 STRANDER BLVD X Original Plan Submittal Response to Correction Letter # Revision # before Permit Issued Revision # after Permit Issued DEPARTMENTS: Pk r U Building Division Public Works n Fire Prevention Planning Division Structural ❑ Permit Coordinator n PRELIMINARY REVIEW: Not Applicable (no approval/review required) DATE: 12/18/18 Structural Review Required REVIEWER'S INITIALS: DATE: n APPROVALS OR CORRECTIONS: Approved Corrections Required n Denied (ie: Zoning Issues) Approved with Conditions (corrections entered in Reviews) DUE DATE: 1/15/19 Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: 12/18/2013 PROJECT NAME: SITE ADDRESS: f � PERMIT NO: M' u' OIM ORIGINAL ISSUE DATE: 112110 REVISION LOG REVISION NO. DATE RECEIVED STAFF INITIALS STAFF INITIALS ISSUED DATE STAFF INIT LS I 14110. . Received by: ►I , 10 I iyIrv( Summar of Revisi n: „ / �%L/ 1/ / ' 1 W ►i% ""1!Ji � Received by: L '�s_ 1 Vince REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) (_ 1 City of Tukwila REVISION SUBMITTAL Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Web site: http://www.TukwilaWA.Qov Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: /'[e— 29/7 ❑ Response to Incomplete Letter # Plan Check/Permit Number: R/5-- -d/ ❑ Response to Correction Letter # ;1q Revision # after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner ❑ Deferred Submittal # Project Name: 75 "1 P 14/c-, �t�g �j�� /�� Project Address: c/ v 54 /g v/ Contact Person: i 'i aou 0 Phone Number: /Z 5- q13,- /'7? 5 -- Sum m a rcof `Summarof Revision: fkifisr4evt e.--./7/.; (.4 et=.( .--i----1 /45 e_ _>,-Pc-i'll-"ee, y h GKc fl-lrl ( ,,et- vl/! /~ 7� RECEIVED CITY OFTUKWILA JAN 16 2019 PERMIT CENTER Sheet Number(s): "Cloud" or highlight all areas of revision including date of revision Received at the City of Tukwila Permit Center by: ( --Entered in TRAKiT on 4 V/ ' ( / W:Termit Center \Templates\Forms \Revision Submittal Form doe Revised: August 2015 ABSOLUTE CUSTOM BUILDERS,---, Washington State Department of ILabor & Industries Ilornc Espanol Contact Safety & Health Claims & Insurance Search L&I Page 1 of 2 A -Z Index Help My L&i Workplace Rights Trades & Licensing ABSOLUTE CUSTOM BUILDERS Owner or tradesperson Principals VANCE, EVAN DEAN, PRESIDENT VANCE, LORI H, SECRETARY VANCE, LORI H, TREASURER VANCE, EVAN DEAN, AGENT Doing business as ABSOLUTE CUSTOM BUILDERS 16813. 20TH AVE W LYNNWOOD, WA 98037 425-931-1995 SNOHOMISH County WA UBI No. Business type 602 192 422 Corporation Parent company ABSOLUTE VINYL FENCE INC License Verify the contractor's active registration / license / certification (depending on trade) and any past violations. Construction Contractor Active. Meets current requirements. License specialties GENERAL License no. ABSOLCB893CQ Effective — expiration 02/18/2011— 03/02/2019 Bond CBIC Bond account no. SD7210 $12,000.00 Received by L&I Effective date 02/18/2011 02/17/2011 Expiration date Until Canceled Insurance Ohio Security Ins Co $1,000,000.00 Policy no. BKS57197924 Received by L&I Effective date 04/23/2018 06/08/2017 Expiration date 06/09/2019 Insurance history Savings No savings accounts during the previous 6 year period. Help us improve httns://secure.lni.wa.gov/verify/Detail.aspx?UBI=602192422&LIC=ABSOLCB893CQ&SAW= 1/3/2019 ABSOLUTE CUSTOM BUILDERS Lawsuits against the bond or savings No lawsuits against the bond or savings acc s during the previous 6 year period. L&I Tax debts ......................_. No L&I tax debts are recorded for this contractor license during the previous 6 year period, but some debts may be recorded by other agencies. License Violations No license violations during the previous 6 year period. Workers' comp Do you know if the business has employees? If so, verify the business is up-to-date on workers' comp premiums. L&I Account ID 028,095-00 Doing business as ABSOLUTE CUSTOM BUILDERS Estimated workers reported Quarter 3 of Year 2018 "1 to 3 Workers" L&I account contact TO / JULIE SUR (360)902-4715 - Email: SURJ235@Ini.wa.gov Account is current. Public Works Strikes and Debarments Verify the contractor is eligible to perform work on public works projects. Contractor Strikes ........................................... No strikes have been issued against this contractor. Contractors not allowed to bid .............................................................................. No debarments have been issued against this contractor. Workplace safety and health No inspections during the previous 6 year period. Page 2 of 2 Washington State Dept, of Labor & Industries. Use of this site is subject to the laws of :he state of Washington. Help us improve https://secure.lni.wa.gov/verify/Detail.aspx?UBI=602192422&LIC=ABSOLCB893CQ&SAW= 1/3/2019