Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
Permit M96-0168 - SOUTHCENTER MALL - LIDS
rng(04--016t City of Tukwila ( No: M96 -0168 Type: B -MECH Category: NRES Address: 1014 SOUTHCENTER MALL Location: Parcel #: 262304 -9004 Contractor License No: SUPPLAC118J8 MECHANICAL PERMIT (206) 431 -3670 Community Development / Public Works • 6300 Southcenter Boulevard, Suite 100 • Tukwila, Washington 98188 Status: ISSUED Issued: 12/12/1996 Expires: 06/10/1997 TENANT LIDS 1014 SOUTHCENTER MALL, TUKWILA, WA 98188 OWNER SOUTHCENTER JOINT VENTURE ATTN: JAMES J GUDIN, 25425 CENTER RIDGE RD, CLEVELAND OH 44145 CONTRACTOR SUPPLY AIR COMPANY, INC. Phone: 206 244 -7975 13044 OCCIDENTAL SOUTH, SEATTLE, WA 98168 CONTACT JOE LYON Phone: 206 244 -7975 13044 OCCIDENTAL AVE SOUTH, SEATTLE, WA 98168 ********************************************* * * * * * * * * * * * ** * * * * * * * * ** * * * * * ** Permit Description: INSTALL ONE NEW HEAT PUMP AND DUCTWORK. UMC Edition: 1994 Valuation: ******************************************** * * * * * * * * ** * * * ** * * * * * * * * * * * * * * ** N\91(\ Permit, Center Authorized Signature Date I hereby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or the performance of work. I am authorized to sign for and obtain this ding permit. Signature; _t- .- Date : / Title: VIP Print Name \i2 Total Permit Fee: This permit shall become null and void if the work is' not commenced within 180 days from the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. 6,100.00 54.69 J3`y' fjaLY' " Q�iar _Xyy'y`Y� s 11 ' .T. Address: 1014 SOUTHCENTER . MALL Suite: Tenant: LIDS. Type: B -MECH. Parcel # . : 262304. -9004 CITY OF.TUKWILA Permit No: M96 -0168 Status: ISSUED Applied: 12/02/1996 Issued 12/12/1996 k***k• k***• k• k** k k****** k* * *•k **k* * ° k•k***•k* * * * ** ** knit * * *•k * * **kk•k*kk *44*4 **k•k* Permit Conditions: 1.`;No. changes .will be made to the plans unless approved by the Architect or Engineer and . • the Tukwila Bui lding Division. ?_. All permits, inspection r ecards, and. approved plans shall be • available at the job :site °prior to the'start:'of any con- struction. These ,,documents :are tobe maintained and avail- able : until fly appr °ova 1 is granted ti 3. All construction to be `done 'in °' c onformance :wi th approved plans and requ i r ements,• of the Uniform B u i l d i n g .:'Code (1994 Edition);as' amende'i,` Uniform Mechanical :, Code "(1`'994 Edition), and Washington, State. Energy .Cole` (1994 Edition) . ' 4. Validit,v of Permit. The issuanae -o,f a permit, or ::of plans;. specifications,. ands computations shall not be• con :" str ued!to; be a permit ..for, or an approval of, any violation. of any of the provisions of the bui lding code or of any other ordinance of the jurisdiction. No permit presuming t give auth to violate or 'cancel the provisions of ; this code rsha l l be valid 5, MANUFACTURERS INSTALLATION INSTRUCTIONS REQUIRED ON SITE FOR THE ,;BUILDING INSPECTORS: REVIEW Project Name/Tenant: Z- (C.r Value pf Con truction: 1 (l ' 1 �( '(" "` Site Address: City State /Zip: /U /f . 5 vz''r/ l'�� A--'1 L K /1//,--e.... Tax Parcel Number: Z4 3 v - qe % 1' ropert .(A7CUe..r & &. ayTif - g c Phone: Z/ -Selz-- z 3 Street Address: City State/Zip: 7_,r 12- C e-1 , Tir>c 2/,)G ge,c ,4 , o/� Fax #: 2G - SZ - Z3 O 5 Contact Person: 1')l✓ /jA) Phone: 206 29 .r -7 ° 7S Street Address: City State /Zip: / U / ZT DC_6 /V 1 /!/e CO .cn -/74" e /613 Fax #: 79 - 4= .n8 (hone: 206) y -1- ^ 79 ? .,— F -x #: z.®e ., ' - - -3 ' Contractor: Ly ( /9 Cc),-) �/ - *--y, ,.v C 3 Uff Street Address: City State /Zip: 30 - ac s 1 i . SD 54 e- - 7/o, , Architect: Phone: Street Address: City State /Zip: Fax #: Engineer: 06_ G 4 5.5oc-/4 -TL -1 /ti phone: (C c '779 - sc.)o Street Address: City State /Zip: zZi �e ST / �i �i� /� Jt� 2 L'sk.3c<..,. .c� . vs, o s 7 1 Fax #: 09 1 7 ?a - 7f3 Et MISCELLANEOUS PERMIT'REVIEW'AND APPROVAL REQUESTED: (TO BE. FILLED OUT BY APPLICANT) Description of work to be done: Ili ;i, 0. - I } I ,1 ,-) Fir ? 1. r ∎ ,\' ; I v ('1,}__. / . / ,.//9 c .S S A S % < x , - ■ F (- Pot. r T ) c 5 / Will there be storage of flammable /combustible hazardous material In the building? ❑ yes no Attach list of materials and storage location on separate 8 1/2 X 11 paper indicating quantities & Material afety Data Sheets El Above Ground Tanks El Antennas /Satellite Dishes El Bulkhead /Docks ❑ Commercial Reroof ❑ Demolition ❑ Fence Mechanical ❑ Manufactured Housing- Replacement only ❑ Parking Lots ❑ Retaining Walls ❑ Temporary Pedestrian Protection /Exit Systems ❑ Temporary Facilities ❑ Tree Cutting MONTHLY SERVICE BILLINGS TO: Name: • Phone: Address: City /State /Zip: 0 Water 0 Sewer 0 Metro 0 Standby CITY OF C'JKWILA Permit Center 6300 Southcenter Boulevard, Suite 100 Tukwila, WA 98188 (206) 431 -3670 Miscellaneous Permit Application Application and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mall or facsimile. APPL'ICANT MISCELLANEOUS PUBLIC WORKS PERMITS'.' 1 ❑ Curb cut/Access /Sidewalk ❑ Fire Loop /Hydrant (main to vault) #: Size(s): ❑ Land Altering: 0 Cut cubic yards 0 Fill cubic yards 0 sq. ft.grading /clearing ❑ Sanitary Side Sewer #: ❑ Sewer Main Extension 0 Private 0 Public ❑ Street Use ❑ Water Main Extension 0 Private 0 Public 0 Deduct 0 Water Only ❑ Channelizatlon/Striping ❑ Flood Control Zone ❑ Landscape Irrigation ❑ Storm Drainage ❑ Water Meter /Exempt # Size(s): ❑ Water Meter /Permanent # Size(s): ❑ Water Meter Temp # Size(s): Est. quantity: gal Schedule: ❑ Miscellaneous ❑ Moving Oversized Load/Hauling WATER METER DEPOSIT /REFUND BILLING: Address: MISCPMT.DOC 7/11/96 Phone: City /State /Zip: 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 extend the time for action by the applicant for a period not exceeding 180 days upon written request by the applicant as defined in Section 107.4 of the Uniform Building Code (current edition). No application shall be extended more than once. Date application accepted: Date application expires: Application to =n6(initials) BUILDIN • W ER OR AUT • RI -D AGENT: Signatur:. r, Date: / Print na �� Ql/ .. � E. L y - / Phon��� _7 I7 T" Cit /Sta i Eyes Fa %9 -9-3' Eyes Address: / 30 in SUBMIT APPLICATION AND REQUIRED CHECKLISTS FOR Above Ground Tanks/Water Tanks - Supported directly upon grade exceeding 5,000 gallons and a ratio of height to diameter or width which exceeds 2:1 PERMIT REVIEW Submit checklist No:. M -9 • in Antennas /Satellite Dishes Submit checklist No: M -1 0 Awnings /Canopies - No signage Commercial Tenant Improvement Permit Bulkhead/Dock Submit checklist • No M -10 in Commercial Reroof Submit checklist, No M -6 rn Demolition. Submit checklist j No • M- 3;:;,M -3a 0 Fences - Over 6 feet in Height 'Submit checkliSt No: M -9 0 Land Altering/Grading /Preloads Submit checklist No: M -2 in Loading Docks Commercial Tenant Improvement Permit. Submit checklist No: H -17 in Mechanical (Residential & Commercial). Submit checklist No M -8, Residential: only - H -6, H -16 Miscellaneous• Public Works Permits Submit checklist • No H -9 Manufactured Housing (RED INSIGNIA ONLY) Submit checklist No: M -5 Moving Oversized Load /Hauling Submit checklist • No: M -5 in Parking Lots Submit checklist No: M -4 0 Residential Reroof - Exempt with following exception: If roof structure to be repaired or replaced Residential Building Permit Submit checklist No: M -6 i n Retaining Walls - Over 4 feet in height Submit checklist No: M -1 in Temporary Facilities Submit checklist No: M -7 in Temporary Pedestrian Protection/Exit Systems Submit checklist No: M -4 0 Tree Cutting Submit checklist No: M -2 ALL MISCELLANEOUS PE T APPLICATIONS MUST BE SUB ED WITH THE FOLLOWING: • ALL DRAWINGS SHALL BE AT A LEGIBLE SCALE AND NEATLY DRAWN • BUILDING SITE PLANS AND UTILITY PLANS ARE TO BE COMBINED • ARCHITECTURAL DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED ARCHITECT • STRUCTURAL CALCULATIONS AND DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED STRUCTURAL ENGINEER • CIVIUSITE PLAN DRAWINGS REQUIRE STAMP BY WASHINGTON LICENSED CIVIL ENGINEER (P.E.) Copy of Washington State Department of Labor and Industries Valid Contractor's License. If not available at the time of application, a copy of this license will be required before the permit is issued, unless the homeowner will be the builder OR submit Form H -4, "Affidavit in Lieu of Contractor Registration ". Building Owner /Authorized Agent If the applicant is other than the owner, registered architect/engineer, or contractor licensed by the State of Washington, a notarized letter from the property owner authorizing the agent to submit this permit application and obtain the permit will be required as part of this submittal. 1 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. MISCPMT.DOC 7/11/96 # *hk ***** *k * * *A * *k *A* * * * **k * *k *k *k * * * * * *k * *k*k * *A * ** *;1 *A ** *:t �p :ITN/ OF TUKWILA, WA :., �' �j TRANSMIT 54.69 12/12/96 10.53 Payment Method: CHECK Notation; SUPPLY AIR CO Init: SMC TRANSMIT Numther: R9600520' Amount: Permit Na: M96 -0168 Type: }3'-MECH MECHANICAL PERMIT Parcel No: 262304 -9004 Site Address: 1014 SOUTHCENTER MALL Total Fees: 54.69 This Payment• 54.69 Total ALL Pmts: 54.69 • Balance: .00 AA*****AAkA****A A*** 4.* ***A4..** ** * *k. * * * *** *k** * *1 * * * * *•h**.A* *A *k# Acca:u.nt Code . 000/345.030 • 000/322.100 Description PLAN CHECK( NONRES MECHANICAL NONRF S Amount 10.94 43.7; • • • . '' • __ Project: r Type of Inspection: - Address: /f)ict Date called: / i. Special instructions: / /7 P " Date wanted: // (r/'7t - a.m. , p.m., Requester: ' 1i Phone No.: r 'rfit'SS2an 11 Receipt No.: rIXILMV INSPECTION RECORD Retain a copy with permit INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 PERMIT NO. (206) 431 -3670 X L Approved per applicable codes. I Corrections required prior to approval Inspector: Date: a/ e Q (' $42.00 REINSPECTION FEE REQUIRED. Prior to inspec ion, fee must be paid at 6300 Southcenter Blvd., Suite 100. CaII to schedule reinspection. Date: : COMMENTS: 4cju.GH —4,1 ; ^� I) Su.ePO■LX"' Ft...?* D c ?S h-i 4 -1 f 0.0 . hvNtu t+ +wm W► fl4 Z 1 f /i sr► -.ps. R" rs.1 Su recta" ("1% )(-- TO .5 «lau , z) dei'an rl k:•.--t• Zi' cox.- ft-, ? AA vA-t -- . ( )0k C lYl� 'mt' T i -- ry vv . Cau'1 Accoti__cA-,*F to N e (l--VA0 70 S-+1‘0 k., 1 7 %NY% Special Instructions: ' , C� \DIM ' 1 -ea.5P/ Date wanted: ti 1Z 9 b CP an._ T Proje t: ...,, pe of 'nsp ::vx j ,-. i ( )0k C lYl� Datecalle ) ( ) ` , r L � Special Instructions: ' , C� \DIM ' 1 -ea.5P/ Date wanted: ti 1Z 9 b CP an._ T Requ: : r: IIP •_I ► WO Phone No.: 4 3 _ S r INSPECTION RECORD Retain a copy with permit INSPECTION NO, CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206) 431 -3670 Approved per applicable codes. Corrections required prior to approval. Inspector: Date: ?Jr zict P1 $42.00 REINSPECTION FEE REQUIRED, Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. CaII to schedule relnspection. Receipt No.: Date: s .: H;V,A,C,. 'CALCULATION FORM . � c uuRT• SUNNER SPACE 76'x' ' 5O •R.H: OUTSIDE 04° F db/ 66° F • ib HEATING SPACE 72 °F OUTSIDE 21° F ROOF "U" , 0 ra 68. HEAT LOSS SENSIBLE . LATENT ,ail., .. ...... F.IEAT ;W ti, • •4•1EAT •GAIN ITI:1I • DUANTITY FACTOR 1111= FACTOR OE FACTOR Ilt61 •- .. - .cramstit via. / c arr. In 10 7,- nil . n 8 1 OUTSIDE Via. 5, PEOPLE 6. APPLIANCES 7. OUTSIDE MR • B FAN MOTORS' TOTALS CODLING o (SENfl&L[ - LIGHTING .KV.EMTRY SUMMARY, OM 'ELECTRICAL 1. .... . . -. '. SOFT. 17.34 NM • CfINHECTIUN: L••l,i K.N.. ' ' ''I • ' '' , GLA /106 = / ' ' PEOPLE y'` : N ` 1 SEE APPLIAfiCE CALC . FURN h' ' ; . 1 GLA x .2 CFR /SW CFH 49.4" . 61/0 ' ' "p• .},.i;1: •,... .* • rr.0 •0 —'7 i N + LATENfl , `�-- alai s �- SHALL MATCH FROM THE ELECTRIC LOAD DATA, FERNS". ..., .. �: ,. 11E 315 ► i 4 4.86 .,' -. MB . jet f jR VALL , • •i 1 . . 14 1.a . i '.? gm 6.73 .. ., / 4f . % ! .; '' � 4 ‘°gt. FACTOR OUTSIDE VALLS , NORTHa. 4.10 EAST = , 8d14 • SOUTH = 6.46 • VEST a' 6446 si. • • - • .. ' • . :' •.•, i .. „ .•.....•...... • • H, V,A,C, SCHEDULES ROOFTOP UNIT (RTU) SPECIFICATIONS, • MANI%ACTURER' .____.::.... • • • , C11.1U rstie.6C1J1 (AT AIL CUND/ ARMS) MODEL AIR ENTERING CONDENSER '95° rdh � • • •. Q. AIR TEMPERATURE °DB ON OUTDOOR COIL AIR TEMPERATURE ON INDOOR COIL Mi n. Max. Min. Max, Cool Heat Cool Heat ° C000ll Heat Coot Heat 50 -10* 115 75 57 50 ** 72 80 I YORK® INSTALLATION INSTRUCTION RECEIVED CITY OF TUKWILA DEC 0 2 1996 PERMIT CENTER GENERAL MODELS E *FB036 THRU E *FB060 (See Detail Listing Below) This instruction covers the installation of the following outdoor units: E1 FB036A(S)06, E9FB036S06, E1 FB042A(S)06, El FB048A(S)06, E2FB060A(S)06 El FB036S25, El FB048S25, E2FB060S25, El FB036S46, El FB048S46 and E2FB060S46. The outdoor units are designed to be connected to a matching indoor coil with either quick or sweat connect lines. Quick connect units are factory charged with refrigerant for a match- ing indoor coil and factory charged line sets are available in various lengths. Sweat connect units are factory charged with refrigerant for a matching indoor coil plus 15 feet of field supplied lines. Matching indoor coils are available with a thermal expansion valve or an orifice liquid feed (YORKMATE flow control device) sized for the most common usage. The orifice size and/or refrigerant charge may need to be changed for some indoor - outdoor unit combinations, elevation differences or total line lengths. Refer to Application Data covering "General Piping Recommendations and Refrigerant Line Length ". INSPECTION As soon as a unit is received, it should be inspected for possible damage during transit. if damage is evident, the extent of the damage should be noted on the carrier's delivery receipt. A separate request for inspection by the carrier's agent should be made In writing. See Local Distributor for more information. REFERENCE Use this instruction in conjunction with the instructions for the appropriate indoor unit, air moving system and accessories. Installer should pay particular attention to the words: NOTE, CAUTION and WARNING. NOTES are intended to clarify or make the installation easier. Supersedes: 515.26 -N2Y (1092) OUTDOOR SPLIT - SYSTEM HEAT PUMPS CAUTIONS identifies procedure which, if not followed carefully, could result in personal Injury, property damage or product damage. WARNINGS are given to alert the installer that severe personal injury, death or equipment damage may result if installation procedures are not handled properly. NOMENCLATURE Product Category E - Outdoor Split System Heat Pump Product Generation 1 - Design Level 913 Canada Product Identifier FB - High Efficiency Heat Pump Nominal Cooling Capacity 036 - 3 Tons 048 042 - 3.5 Tons 060 IS Refrigerant Line Connections A - Quick - Connect Fittings S - Sweat Fittings Voltage Code 06 - 208/230-1-60 25 -208/230-3-60 46 - 460 -3 -60 LIMITATIONS 4 Tons 5 Tons APPROVED DEC 091996 AS NOTED The unit should be installedtiotgg g¢� ictitoational and local safety codes. Limitations for the indoor unit, coil and appropriate accessories must also be observed. The outdoor unit must not be installed with any ductwork in the air stream. The outdoor fan is the propeller type and is not designed to operate against any additional extemal static pres- sure. The maximum and minimum conditions for operation must be observed to assure a system that will give maximum perform- ance with minimum service. TABLE 1 - APPLICATION LIMITATIONS 515.26 -N2Y (1194) 035-10931 II ambient will be below this, Accessory Klt 2LT06700224 must be Installed to cutoff hea pump. " Operation below this temperature Is permissible for a short period of time, during moming warm -up. UNIT MODEL EIFB /E9FB036 1 EtFB042 I E1FB048 1 E2FB060 UNIT SUPPLY VOLTAGE 208/230 -1 -60 NORMAL VOLTAGE RANGE 187 to 252 MIN. CIRCUIT AMPACITY 23.2 28.8 32.5 36.1 MAX. OVERCURRENT DEVICE AMPS 35 40 45 60 COMPRESSOR AMPS RATED LOAD 17.3 21 24.7 27.6 LOCKED ROTOR 94 • 105 105 170 CRANKCASE HEATER YES YES YES YES FAN MOTOR AMPS RATED LOAD 1.6 1.6 1.6 1.6 LOCKED ROTOR 3.5 3.5 3.5 3.5 MIN. FIELD WIRE SIZE AWG. 60 °C COPPER CONDUCTORS 10 10 8 8 MAX. WIRE LENGTH ( FEET) BASED ON 3% VOLTAGE DROP 208V 108 95 150 124 230V 120 105 167 138 FAN DIAMETER INCHES 24 24 24 24 FAN MOTOR RATED HP 1/4 1/4 1/4 1/4 NOMINAL RPM 860 860 860 860 NOMINAL CFM 3200 3200 3400 3300 COIL FACE AREA SQ. FT. 20 20 24.0 24.0 ROWS DEEP 2 2 2 2 FINS /INCH 13 13 13 13 LIQUID LINE CONNECTION 5/16 3/8 3/8 3/8 VAPOR LINE CONNECTION 3/4 7/8 7/8 7/8 OPERATING WEIGHT LBS. 242 252 296 312 MODEL E1FBO36 I E1FB048 1 E2FB060 E1FB036 1 E1FB048 I E2FB080 25 46 UNIT SUPPLY VOLTAGE 208/230 -3 -60 460-3-60 NORMAL VOLTAGE RANGE 187 to 253 432 to 504 MIN. CIRCUIT AMPACITY 15.2 20.0 21.4 8.0 9.7 12.8 MAX. OVERCURRENT DEVICE AMPS 25 30 40 15 15 20 COMPRESSOR AMPS RATED LOAD 10.9 14.7 15.8 5.8 7.1 9.6 LOCKED ROTOR 78 130 124 40 64 75 CRANKCASE HEATER YES YES YES YES YES YES FAN MOTOR AMPS RATED LOAD 1.6 1.6 1.6 0.8 0.8 0.8 LOCKED ROTOR 3.5 3.5 3.5 2.0 2.0 2.0 MIN. FIELD WIRE SIZE AWG 60 °C COPPER CONDUCTORS 12 10 10 14 14 14 MAX. WIRE LENGTH FEET BASED ON 3% VOLTAGE DROP 208V 1 127 1 - - - 230V t1 7 140 t1 8 - - 460V - - - 261 218 164 FAN DIAMETER INCHES 24 24 24 24 24 24 FAN MOTOR RATED HP 1/4 1/4 1/4 1/4 1/4 1/4 NOMINAL RPM 860 860 860 860 860 860 NOMINAL CFM 3200 3400 3300 3200 3400 3300 COIL FACE AREA SQ. FT. 20 24 24 20 24 24 ROWS DEEP 2 2 2 2 2 2 FIN / INCH 13 13 13 13 13 13 LIQUID LINE OD 5/16 3/8 3/8 5/16 3/8 3/8 VAPOR LINE OD 3/4 7/8 7/8 3/4 7/8 7/8 OPERATING WEIGHT LBS. 242 296 _ 312 242 296 312 515.26 -N2Y TABLE 2 - PHYSICAL AND ELECTRICAL DATA - 1 Phase (1) Utilization range "A" In accordance with ARI standard 110. (2) Dual element fuses or HACR circuit breaker. • TABLE 3 - PHYSICAL AND ELECTRICAL DATA - 3 Phase 2 'Utilization range "A" in accordance with ARI standard 110. 2 Dual element fuses or HACR dreult breaker. Unitary Products Group LOCATION Before starting the installation, select and check the suitability of the location for both the indoor and outdoor unit. Observe all limitations and clearance requirements, see Figure 1. The outdoor unit must have sufficient clearance for air entrance to the condenser coil, for air discharge and for service access. If the unit is to be installed on a hot sun exposed roof or a black- topped ground area, the unit should be raised sufficiently above the roof or ground to avoid taking the accumulated layer of hot air into the outdoor unit. Provide an adequate structural support. The unit may be installed at ground level on a solid base that will not shift or settle, causing strain on the refrigerant lines and possible leaks. Maintain the clearances shown Figure 1 and install the unit in a level position. Isolate the base from the building structure to avoid noise or vibration transmission. When installing units on a roof, the structure must be capable of supporting the total weight of the unit, including a pad, lintels, rails, etc., which should be used to minimize the transmission of sound or vibration Into the conditioned space. Isolate the unit from rain gutters to avoid any possible wash out of the foundation. Normal operating sound levels may be objectionable if the unit is placed directly under windows of certain rooms (bedrooms, study, etc.). THERMOSTAT TO POWER SUPPLY TO BLOWER MOTOR RELAY TO INDOOR COIL NEC CLASS 2 WIRING NOTE: ALL OUTDOOR WIRING MUST BE WEATHERPROOF FIGURE 1 - TYPICAL INSTALLATION Unitary Products Group SEAL OPENING(S) WITH PERMAGUM OR EQUIVALENT WEATHERPROOF DISCONNE T SWITCH 515.26 -N2Y Condensate will drain from beneath the coil of the outdoor unit during the defrost cycle. Normally this condensate may be allowed to drain directly onto the ground. A gravel bed may be used to prevent mud splashing. WARNING: The outdoor unit should not be installed in an area whore mud or Ice could cause personal injury. Remember that condensate will drip from the unit coils during heat and defrost cycles and that this condensate will freeze when the temperature of the outdoor air is below 32°E Elevate the unit sufficiently to prevent any blockage of the air entrances by snow in areas where there will be snow accumu- lation. Check the local weather bureau for the expected snow accumulation in your area. INSTALLATION PROCEDURES The following sequence of installation steps is suggested. 1. Inspect unit and set In place. 2. Make electrical power connections. 3. Check orifice size and replace with correct size If neces- sary. 4. Route the vapor and liquid lines. 5. Connect tubing and leak test. 6. Make electrical control connections. 7. Charge system. 8. Instruct owner. 48' OVERHEAD CLEARANCE I 4L J) 1 , , 1 I C I � I I I I ` . ICI � i I 24' SERVICE ACCESS CLEARANCE 12' REAR AND SIDES „No' Sit unit on rubber elevator grommets to reduce noise and allow for proper drainage. Check local weather bureau for snow accumulation. 3 515.26 -N2Y UNIT PLACEMENT 1. Provide a base in the pre - determined location. 2. Remove the shipping carton and Inspect for possible dam- age. 3. Compressor tie -down bolts should remain tightened. 4. Position the unit on the base provided. 5. Sit unit on tho (4) rubber elevating grommets provided with the unit. These should be positioned as shown in Figure 2 to reduce noise and allow for proper drainage. 6. Make a hole(s) in the structure wall large enough to accom- modate the insulated vapor line, the liquid line and the wiring. 4 00000000000000 it 000000 0 0 0 0 0 0 0 0 0 0 0 0 0 0 . FIGURE 2 - POSITIONING GROMMETS THERMOSTAT 7 WIRES H -_J FIELD INSTALLED JUMPER 1 I Junper terminals E and W to heat on IYet stage durhg Emergency Heat. 2 Terminal not used on all thermostats, R 53 60 66 G O lommo 8 x W Y UNIT BASE PAN RUBBER ELEVATING GROMMETS (4) Note: Do Not block drainage holes with grommets. ALL WIRING TO BE IN ACCORDANCE WITH NATIONAL ELECTRIC CODE AND/OR LOCAL CODES THERMOSTAT INDOOR UNIT OUTDOOR UNIT aer s rrr• a� POWER WIRING LOW VOLTAGE TERMINAL BLOCK 3 — --• 24V CONTROL WIRING IN AIR HANDLER WITH ELECTRIC HEAT (NEC CLASS 2) 1 T 7 WIRES GRD. LUG CIRCUIT ELECTRICAL CONNECTIONS 1. Check the electrical supply to be sure that it meets the values specified on the unit nameplate and wiring label. 2. Remove proper low voltage knockout. Remove plastic snap bushing from instruction packet and insert in low voltage knockout hole. 3. The complete connection diagram and schematic wiring label is located on the inside surface of the unit electrical box cover. Typical Field Wiring is shown in Figures 3 and 4. 4. All field wiring to be in accordance with national electrical code (NEC) and /or local city codes. NOTE: Power wiring, disconnect switch, and overcurrent pro- tection to be supplied by installer. See Physical and Electrical Data Table for proper sizes. USE COPPER CONDUCTORS ONLY Unit must be grounded with a separate ground conductor wire. 5. Install the proper size weatherproof disconnect switch out- doors and within sight of the unit. 6. Run power wiring from the disconnect switch to the unit. 7. Install the proper size time -delay fuses or circuit breaker, and make the power supply connections. 8. Energize the crankcase heater, if applicable, to save time by preheating the compressor oil while the remaining instal- lation is completed. MIMI NMI 1■A MI= ar• - - - r• NMI BREAKER"' — — =we we r• =so — R x FIGURE 3 - TYPICAL 1 -PHASE FIELD WIRING (Air Handler with Electric Heat) DEFROST CONTROL O Y 66 W B 1 THERMISTOR GRD. SCREW CONTACTOR POWER WIRING 208/230.1.60 3 Check the low voltage terminal block on the Indoor unit for the actual arrangement of the terminals, 4 Connect power wiring to terminal block 3TB on units without electric heat or units without a circuit breaker.. Unitary Products Group 6• The crankcase heater, when fumished, is energized whenever the compressor is not running. Check for proper operation by feeling for heat on the compressor where the heater is installed. The heater should be energized for at least 8 hours before the thermostat is set to operate the compressor. CAUTION: An atterrpt to start the compressor without at least 8 hours of crankcase heat will damage the com- pressor. A warning label with an adhesive back is supplied in the unit installation instruction packet. This label should be attached to the field supplied disconnect switch where it will be easily seen. See below: IMPORTANT IF POWER HAS BEEN OFF FOR 8 HOURS OR LONGER, DISCONNECT SWITCH MUST BE TURNED ON 8 HOURS BEFORE THERMOSTAT IS SET TO "HEAT", "COOL" OR "AUTO ". 035-03095A DEFROST The unit has a demand defrost control. During troubleshooting, defrost can be Initiated by shorting defrost test pins on the module. The pins are about 1/2' long and mounted on the upper right hand side of the defrost control. See "Test Pins" on page 11. Bor0 Y 0 W L or X G T THERMOSTAT INDOOR UNIT LOW VOLTAGE TERMINAL BLOCK •' IN AIR HANDLER WITH ELECTRIC HEAT E i FIELD /� . / INSTALLED JUMPER —I 7 WIRES ADD WHEN STAND-BY HEATER IS USED 1 Jumper terminals E and W to heat on first stage during Emergency Heat. 2 Temtnal not used on all thermostats. POWER GRD. � � ''� SUPPLY LUG l 1tCJ 208/230.3.60 460-3-60 ears um" NOT USED M INN OWN - -r• TUBING CONNECTIONS FIGURE 4 - TYPICAL 3 -PHASE FIELD WIRING (Air Handler with Electric Heat) 515.26 -N2Y Sweat - connect systems must use field supplied, clean, dehy- drated refrigeration -grade copper tubing. Quick - connect systems must use pre- charged refrigerant line sets (quick - connect couplings) designated for the respective unit size and available from CES. Pre - charged lines with ex- cess tubing should be coiled horizontally in an inconspicuous location to avoid oil trapping. Stub kits are available to field fabricate quick connect line sets or to connect mix - matched units and coils. Unit should be installed only with approved system combina- tions (indoor coil /outdoor unit) specified in Technical Guide. See Application Data,'General Piping Recommendations and Refrigerant Line Length,' for vapor and liquid line sizing, cal- culation of liquid lino pressure loss or gain, determination of vapor line velocity, elevation limitations, orifice corrections, system charging, traps, etc. Total line lengths are limited to 75 feet due to the storage capacity of the accumulator. Systems with total line lengths over 50 feet must be provided with a low voltage start kit. Elevation differences are limited to: Indoor Above Outdoor........50 ft. Outdoor Above Indoor........50 ft. ALL WIRING TO BE IN ACCORDANCE WITH NATIONAL ELECTRIC CODE AND /OR LOCAL CODES 7 WIRES DEFROST CONTROL R B Y O w X 66 T OUTDOOR UNIT CONTACTOR GRD. SCREW 1 1 1 1 1 1 1 Hill 1 1 1 1 POWER WIRING 206/230.3.60 460.3.60 "Check the tow voltage terminal block on the Indoor unit for the actual arrangement of the terminals. — ma ma POWER WIRING - - -• 24V CONTROL WIRING (NEC CLASS2) Unitary Products Group 5 OUTDOOR UNIT E1FB /E9FB036 E1FB042 E1FB048 E2FB060 UNIT ORIFICE(S1 81 81 90 99 FACTORY R -22 CHARGE, LBS. OZ. SWEAT 9 - 11 12 -12 13 - 7 15 - 5 QUICK 9 - 4 12 - 5 12.13 14 - 10 INDOOR COIL COIL 2 ORIFICE SYSTEM ORIFICE + ADDITIONAL CHARGE, OZ G3HC /G1FCO36 81 81 +0 - - - G3HC /G1FC042 78 81 +1 78 +3 - - G3HC /G1FC048 90 - 81 +7 90 +0 - G3HC /G1FC060 96 - - 90 +34 99 +0 G3UA036 69 81 + 2 - - - G3UA037 69 81 + 2 - - - G3UA048 87 - 81 + 17 90 + 0 - G3UA060 96 - 81 + 19 90 + 34 99 + 0 G3UA061 96 - 81 + 21 90 + 34 99 + 0 02UT036 - +2 - - - G2UT037 - +2 - - - G2UT048 - - +19 +34 - G2UT060 - - +21 +34 - G2UTO61 - - - - +0 G3CNO30 65 - - - - G3CN042 73 81 + 16 81 +0 - - G3CN060 87 - - 90 + 34 99 + 0 F)SA /F1SF036 81 _ 81 +0 - - - 515.26 -N2Y Systems with liquid line pressure Toss or gain greater than 11 psi must be provided with corrected orifice size. Inter - connecting refrigerant lines should be sized to match the factory supplied fittings. Liquid lines must NEVER be increased or decreased. Vapor lines may be increased one size to mini- mize pressure drop as long as a velocity of at least 1000 feet per minute is maintained. Additional charge is required for inter - connecting piping greater than 15 feet for sweat units and some indoor coil matches. The lines should be installed so that they will not obstruct service access to the coil, air handling system or filter. Install the lines with as few bends as possible. Care must be taken not to damage the couplings or kink the tubing. Care must also be used to isolate the refrigerant lines to minimize noise transmission from the equipment to the structure. Tape and suspend the refrigerant lines as shown. DO NOT allow metal -to -metal contact. Pack fiber glass insulation and a sealing material such as permagum around refrigerant lines where they penetrate a wall to reduce vibration and to retain some flexibility. TABLE 4 - ADDITIONAL R -22 CHARGE/ORIFICE SIZE 6 NOTE: Orifices in ( ) must be ordered from the Parts Department. Do not install a filter drier since one is factory installed in every outdoor unit. LIN E ID Use PVC piping as a conduit for all underground installations as shown in Figure 6. Buried lines should be kept as short as PVC possible to minimize the build up of liquid refrigerant In the CONDUIT vapor line during long periods of shutdown. These orfices are packed in the InstructionAaarranty packet of each outdoor unit, 2 These orifices are factory- mounted in the flow control device of each Indoor coil. SHEET METAL HANGER INSULATED VAPOR LINE FIGURE 5 - TUBING HANGER TO INDOOR COIL LIQUID LINE TAPE TO OUTDOOR UNIT INSULATED VAPOR'LINE FIGURE 6 - UNDERGROUND INSTALLATION CAP Unitary Products Group Insulate all vapor lines with a minimum of 1/2' foam rubber. Liquid lines that will be exposed to direct sunlight and /or high temperatures must also be insulated. ORIFICE SELECTION YORKMATE FLOW CONTROL COILS NOTE: The proper orifice must be installed in the indoor coil liquid connection prior to the connection of the refrig- erant lines. WARNING: Coil (whether sweat or quick connect) is under 15 PSIG pressure. Each quick connect coil will have an orifice installed in the fitting between the liquid line connection and distributor. The orifice is identified on a label next to the liquid connection as shown in Figure 7. IL EQUIPPED WITH 1165 ORIFICE DISTRIBUTOR LABEL LEFT -HAND THREAD FIGURE 7 - ORIFICE LABEL RIFICE LIQUID LINE FITTING Sweat coils are shipped with a standard orifice in a plastic bag attached to the liquid line connection. The orifice that is shipped with the coil is based on the "most sold" combination, but it may have to be changed, depending on the capacity and efficiency of the outdoor unit, elevation differences, and/or long total line lengths. An additional ori- fices) is shipped with most outdoor units in the literature packet for the most commonly required replacement combinations. Other sizes must be ordered from the Parts Department if required. Table 4 shows the orifice and charge adjustment for approved system combinations (indoor coil /outdoor unit). See Applica- tion Data,'General Piping Recommendations and Refrigerant Line Lengths' for long line lengths and elevation differences. If the orifice sizes match, nothing further is required and the refrigerant lines may be connected per the outdoor unit instruc- tion. However, if another orifice should be used, see the coil instruction for details to change the orifice in the coil. QUICK CONNECT SYSTEMS Indoor coils and outdoor units are to be connected with pre - charged interconnecting tubing specified for the split systems. Unitary Products Group 515.26 -N2Y The units and the lines are equipped with sealed one -time quick - connect couplings which, when screwed together, will have their seals broken, allowing for free passage of refriger- ant. One end of the tubing contains a female fitting for connect- ing to the outdoor unit. The other end has a male fitting with a 90° bend on the vapor line for connecting to the indoor coil. The outdoor end of the lines have capped service (Schrader) ports. Install the coupling in a position that will permit a Schrader tool to be attached to the service port. Prepare and connect fittings as follows: 1. Begin at either the indoor coil or the outdoor unit. Remove only one dust cap at a time to avoid damage and to prevent dirt from getting into the other. If necessary, carefully wipe seals and threaded surfaces with a clean cloth. 2. Lubricate the male half diaphragm and the "O" ring with several drops of refrigerant oil. Thread the halves together by hand to insure proper mating of the threads. Use proper size wrenches (on both the body hex and on the union nut) and tighten until bodies "bottom" or a definite resistance is felt. 3. Using a marker or ink pen, mark a line lengthwise from the union nut to the unit panel. Then tighten an additional 1/4 turn (90° from the mark on the panel to the mark on the union nut). 4. Repeat this procedure with the other three In the system, removing the dust cap just prior to making the connection. 5. Leak test all refrigerant piping connections including the service port flare caps to be sure they are leak tight. DO NOT OVERTIGHTEN (between 40 and 60 inch -Ibs. maximum). 6. Do not remove the flare caps from the service ports except when necessary for servicing the system. CAUTION: Do not connect manifold gauges unless trouble is suspected. Approximately 3/4 ounce of refrigerant will be lost each time a standard manifold gauge is connected. 7. The quick connect outdoor unit contains enough refrigerant charge for a matched indoor coil. Refer to Table 4 for the amount of additional charge required for some mix - matched indoor coils. If additional charge is required, see recommended charging methods. SWEAT SYSTEMS The outdoor units have re- usable service valves on both the liquid and vapor connections. The total system refrigerant charge is retained within the outdoor unit during shipping and installation. The re- usable service valves are provided to evacuate and charge per this instruction. Serious service problems can be avoided by taking adequate precautions to assure an internally clean and dry system. Always use refrigeration -grade copper tubing that is internally clean and dry for ref rigerant lines. Use clean hard drawn copper tubing where no appreciable amount of bending around ob- struction is necessary. If soft copper must be used, care must 7 515.26•N2Y be taken to avoid sharp bends which may cause a restriction. The vapor line must be insulated with a minimum of 1/2 inch insulation (Arm -A -Flex or equivalent). CAUTION: Dry nitrogen should always be supplied through the tubing while it Is being brazed, because the temperature required Is high enough to cause oxi- dation of the copper unless an Inert atmosphere is provided. The flow of dry nitrogen should continue until the joint has cooled. Always use a pressure regulator and safety valve to insure that only low pressure dry nitrogen is Introduced Into the tubing. Only a small flow is necessary to displace air and prevent oxidation. All outdoor unit and indoor coil connections are copper- to-cop- per and should be brazed with a phosphorous- copper alloy material such as Silfos -5 or equivalent. DO NOT use soft solder. BASE VALVE CONNECTION PRECAUTIONS Precautions should be taken to prevent heat damage to the fitting by wrapping a wet rag around it as shown In Figure 8. Also, protect all painted surfaces and insulation during brazing. After brazing - cool Joint with wet rag. WARNING: This is not a backseating valve. The service access port has a valve core. Opening or closing valve does not close service access port. Valve can be opened by removing the plunger cap and fully Inserting a hex wrench into the stem and backing out counter- clockwise until valve stem just touches retaining ring. 8 FIGURE 8 - HEAT PROTECTION CAUTION: If visual verification of the valve stem reaching the retaining ring is impossible, stop backing out the valve stem when the slightest increase In resis- tance Is felt. Because of the small size and there- fore the reduced resistance, back out the liquid valve 5 tums maximum to prevent going past the retaining ring. WARNING: If the valve stem is backed out past the retaining ring, the O'ring can be damaged causing leakage or system pressure could (owe the valve stem out of the valve body possibly causing personal injury. In the event the retaining ring is missing, do not attempt to open the valve. Replace plunger cap fingertight, then tighten an additional 1/12 turn (1/2 hex flat). Cap must be replaced to prevent leaks. LINE INSTALLATION Install the refrigerant lines using the following procedure: 1. Remove the cap and Schrader core from both the liquid and vapor fitting service ports at the outdoor unit. Connect low pressure nitrogen to the liquid line service port. 2. Braze the liquid line to the liquid fitting at the outdoor unit. Be sure to wrap the fitting body with a wet rag. Allow the nitrogen to continue flowing. 3. Carefully remove the rubber plugs from the indoor coil liquid and vapor connections. Use caution, since the coil is pressurized. 4. Braze the liquid Tine to the indoor coil liquid connection. The nitrogen should now be flowing through the coil. 5. Remove the grommet fromthe vapor connection at the coil. Braze the vapor line to the indoor coil vapor connection. After the connection has cooled, replace the grommet. 6. Protect the vapor fitting with a wet rag and braze the vapor line connection. The nitrogen flow should be exiting the system from the vapor service port connection. After This connection has cooled, remove the nitrogen source from the liquid fitting service port. 7. Evacuate the vapor line, indoor coil and the liquid line. See "EVACUATION" page 9. NOTE: Do not use the system refrigerant in the outdoor unit to purge or leak test. 8. Leak test all refrigerant piping connections including the service port flare caps to be sure they are leak tight. DO NOT OVERTIGHTEN (between 40 and 60 Inch - lbs. maxi- mum). 9. Do not remove the flare caps from the service ports except when necessary for servicing the system. CAUTION: Do not connect manifold gauges unless trouble is suspected. Approximately 3/4 ounce ofreMgerant will be lost each time a standard manifold gauge is connected. FIGURE 9 - OUTDOOR UNIT SHUT VALVE 10. Release refrigerant charge into the system. Open both the liquid and vapor fittings by removing the plunger cap and with an alien wrench back out counter - clockwise until valve stem Just touches retaining ring. See Base Valve Connec- tion Precautions. Unitary Products Group cs LIQUID OD VAPOR OD R -22 CHARGE OZ. /FT. 6 /ts" b /e" 0.44 6 /16" 3/ 0.46 6 /18" 7 /8" 0.48 3 43" 3 /4" 0.68 se 7 4," 0.70 11. The sweat connect outdoor unit contains enough refriger- ant charge for a matched indoor coil and 15 feet of tubing. Refer to the Table 4 for the amount of additional charge required for some mix - matched indoor coils. Additional charge for lines longer than 15 feet is shown in Table 5. If additional charge is required, see recommended charging methods. 12. Insulate the vapor service valve and exposed line leaving the outdoor unit. This will eliminate the outdoor sensor picking up false heat at low ambient heating conditions. ROOM THERMOSTAT Heat pump units must use one of the specific thermostats approved for use with these heat pump systems. The cooling and heating anticipators are non - adjustable in these thermo- stats. The thermostat should be located about 5 ft. above the floor, where it will be exposed to normal room air circulation. Do not place it on an outside wall or where it is exposed to the radiant effect from exposed glass or appliances, drafts from outside doors or supply air grilles. Mount the thermostat and route the 24 -volt control wiring (NEC Class 2) from the thermostat to the indoor and outdoor units. To eliminate erratic operation, seal the hole in the wall at the thermostat with permagum or equivalent to prevent air drafts affecting the anticipators In the thermostat. Route the control wiring Into the outdoor unit through the hole provided. Connect the control wiring, see Figure 3 or 4 for Typical Field Wiring. TABLE 5 - REFRIGERANT LINE CHARGES EVACUATION It will be necessary to evacuate the system if the unit has developed a leak during shipment or was, for any other reason, opened to the atmosphere. if a leak is suspected, leak test to locate the leak. Repair the leak and test again. WARNING: Never atterrpt to repair any brazed connections while the system is underpressure. Personal injury could result. To verify if the system has no leaks, simply close the valve to the vacuum pump suction to isolate the pump and hold the system under vacuum. Watch the micron guage for a few minutes. If the micron gauge indicates a steady and continuous Unitary Products Group 515.26 -N2Y rise, it's an indication of a leak. if the gauge shows a rise, then levels off after a few minutes and remains fairly constant, its an indication that the system is leak free but still contains moisture and may require further evacation if the reading is above 500 microns. SYSTEM CHARGE The factory charge in the outdoor unit is listed in Table 4 and includes enough charge for the unit and a matched indoor coil. Sweat connect units also include sufficient charge for 15 feet of lines. Pre - charged line lengths are factory charged with the correct amount of refrigerant required. Sweat connect installations over 15 feet long and some Indoor coil matches may require some additional charge. Table 4 lists the amount of any additional refrigerant required. The 'TOTAL SYSTEM CHARGE" must be permanently stamped on the unit data plate. Total system charge is determined as follows: 1. Determine the outdoor unit charge from Table 4. 2. Determine indoor coil adjustment from Table 4. 3. Calculate the line charge with the factors in Table 5. a) Calculate total length of pre- charged lines for quick connect units. b) Calculate over 15 feet of sweat lines for sweat connect units. NOTE: The charge for pre- charged lines should be Included In the system charge shown on the data plate but need not be added to the system. If sweat connect lines are used, the line charge over 15 feet should be included on the data plate and must be added to the system. 4. Total system charge = item 1 + item 2 + Item 3. 5. Permanently stamp the unit data plate with the total amount of refrigerant In the system. Use the following charging method whenever additional refrig- erant Is required for the system charge. CAUTION: Refrigerant charging should only be carried out by a qualified air conditioning contractor. Measurement Method A calibrated charging cylinder or accurate weighing device must be used to add refrigerant. Check flare caps on service ports to be sure they are leak tight. DO NOT OVERTIGHTEN (between 40 and 60 inch-lbs, maxi- mum). 9 10 515.28 -N2Y —► COOLNG CYCLE FLOW - --► HEATING CYCLE FLOW • SHOWN IN COOLING POSITION OUTDOOR COIL y • SHOWN IN COOLING POSITION OUTDOOR COIL y COOLING CYCLE FLOW - --O. HEATING CYCLE FLOW 1 SUCTION ACCUM. L.) SUCTION 1 ACCUM. LJ 4 4-WAY 7 © REVERSING VALVE* COMPRESSOR COMPRESSOR 4 -WAY • REVERSING VALVE* . FIGURE 10 - HEAT PUMP FLOW DIAGRAM El FB036, E9FB036 & El FB042 8I -FLOW LIQUID STRAINER / DRYER FLOW CONTROL DEVICE (HEATING) FIGURE 11 - HEAT PUMP FLOW DIAGRAM El FB048 & E2FB060 FIELD CONNECTED UNE INDOOR COIL FLOW CONTROL DEVICE CAPILLARY TUBE STRAINER EXPANSION DEVICE \ \ ----IP. 4-- -- i - ♦ -- --► FIELD CONN CTED UNE - -11 FILTER/ DRIER -CHECK VALVE FIELD CONNECTED LINE 0 - -♦ INDOOR COIL FLOW CONTROL DEVICE (COOLING) ----)1P (-- -- FIELD CONN CTED LINE Unitary Products Group ■ SYSTEM OPERATION See Figure 10 to trace the flow of refrigerant through the system. WITH POWER TO UNIT AND THERMOSTAT IN COOLING POSITION. 1. Reversing valve is energized through thermostat system switch to position refrigerant circuit for cooling operation. In the cooling cycle, discharge gas is pumped to the outdoor coil which is the condenser. The indoor coil is the evapora- tor. 2. If fan switch is in "ON" position, a circuit is made through blower relay to provide continuous blower operation. 3. When thermostat cooling contact closes, a circuit is made to energize contactor and start the system, if the compres- sor has been off for 5 minutes. With fan switch In "AUTO" position, a circuit Is made from thermostat cooling contact through blower relay to provide blower operation. 4. System will cycle with thermostat demand to provide cool- ing as needed. WITH POWER TO UNIT AND THERMOSTAT IN HEATING POSITION 1. Reversing valve Is de-energized to position refrigerant circuit for heating operation. In the heating cycle, discharge gas is pumped to the Indoor coil which is the condenser. The outdoor coil is the evaporator. 2. If fan switch Is In "ON" position, a circuit is made through blower relay to provide continuous blower operation. 3. When first stage of thermostat heating contact closes, a circuit is made through the control to energize contactor and start the system, if the co ressor has been off 5 minutes. With fan switch In "AUTO" position, a circuit is made from thermostat heating contact through blower relay to provide blower operation. 4. The system will cycle In response to thermostat signal to provide heating as needed. 5. Supplemental electric heaters are energized by second stage of heating thermostat. TEST PINS The test pins labeled "speed -up" and "defrost" are provided to aid in field servicing of the E "FB heat pump. See Figure 12. The pins are designed to be temporarily shorted together either by a screwdriver or with a 1/4' female spade connector. When the "speed -up" pins are shorted together, ALL timings are speeded up by a factor of 64. This reduces the anti - recycle compressor timer from 5 minutes to about 5 seconds and the defrost terminate time from 14 minutes to 13 seconds: addi- tionally, the 39 minute minimum run time would be shorteded to about 40 seconds or less if the system has operated for some period of time since last defrost. When the "defrost" pins are shorted together, the control will allow the unit to go into a defrost cycle if the compressor is operating. When the short Is removed, the heat pump will remain in defrost until the coil temperature reaches 75° or 14 minutes expires. Unitary Products Group 515.26 -N2Y If the liquid (coil) temperature happens to be above 75 °F, the short must be maintained to keep the unit in a defrost cycle. It should be used since the unit WILL REMAIN in defrost unit! the short is removed regardless of coil temperature. This could cause a lockout due to high discharge pressure! NOTE: Anytime the "defrost' shorting pins are junpered, it automatically resets all timing cycles. After a power failure, all timing cycles would also reset except one that is the 5 minute delay for compressor restart. It can be reduced, however, by jurrpering the "speed -up" pins on the control board, • 103 n 1 1104011110413 NUNNIIANI M O is r a u u •ti a •17. 11;A DEFROST ' TEST a 1 PINS .0 t � FIGURE 12 - DEFROST TEST PINS DEFROST CYCLE SPEED -UP TEST PINS Frost and ice which forms on the outdoor coil during the heating cycle must be defrosted when it blocks the air flow through the coil. Due to the arrangement of the refrigerant circuit within the outdoor coil of these units, frost may accumulate unevenly in different sections of the coil. However, a normal defrost may occur even though the coil is not completely covered with frost. Three requirements must be met before a defrost cycle can be initiated. 1. A minimum of 39 minutes must have elapsed since last defrost. 2. The liquid line temperature must be less than 40°F. 3. The coil temperature must be below the defrost initiation temperature for 4.5 minutes continuously. NOTE: Under certain low ambient conditions normal trigger- ing ofa defrost cycle could be prevented. Therefore as a precautionary measure a "Forced Defrost" is initiated every six hours to insure compressor longevity byreturn- ing oil back to the sump. Defrost will terminate when the coil temperature reaches 75 °F or after 14 minutes defrost time. 11 • LOCK -OUT CONTROL If the discharge pressure reaches 400 PSIG, during either the heating or cooling mode, a lock -out will occur. A lock -out will turn on the emergency heat light on the thermostat. Turning the thermostat switch to "off" then back to "on" will reset the system. OPERATION IN EMERGENCY HEAT POSITION When switch on thermostat is placed in emergency heat position: 1. Emergency light is energized. 2. Compressor circuit is locked out. 3. Supplemental and standby heaters (if installed) will be controlled by first stage of heating thermostat. 4. Indoor blower will operate on demand for heat and cycle off with the last heater element when in "AUTO" position. INSTRUCTING THE OWNER Assist owner with processing warranty cards. Review User's Information Manual and provide a copyforthe owner guidance on proper operation and maintenance. Instruct the owner orthe operator how to start, stop and adjust temperature setting. The owner should also be instructed about the 5 minute off cycle timer and the defrost operation. When applicable, instruct the owner that the compressor is equipped with a crankcase heater to prevent the migration of refrigerant to the compressor during the "OFF" cycle. The heater is energized only when the unit is not running. If the main switch Is disconnected for long periods of shut down, do not attempt to start the unit for 8 hours after the switch has been connected. This will allow sufficient time for all liquid refrigerant to be driven out of the compressor. The installer should also instruct the owner on proper operation and maintenance of all other system components. INDICATIONS OF PROPER OPERATION COOLING Cooling operation is the same as any conventional air condi- tioning unit. 1. The outdoor fan should be running, with warm air being discharged from the top of the unit. 2. The Indoor blower (furnace or air handler) will be operating, discharging cool a((r from the ducts. 3. The vapor line at the outdoor unit will feel cool to the touch. 4. The liquid line at the outdoor unit will feel warmto the touch. 111YORK Heating and Air Conditioning Unitary Products Group P.O. Box 1592, York, Pennsylvania USA 17405.1592 Subject to change without notice. Printed In U.S.A. Copyright © by York International Corporation 1996. All rights reserved. HFATING Indications of proper Heating operation is as follows: 1. The outdoor fan should be running, with cool air being discharged from the top of the unit. 2. The indoor blower (furnace or air handler) will be operating, discharging warm air from the ducts. 3. The vapor line at the outdoor unit will feel warm to the touch. 4. The liquid line at the outdoor unit will feel cool to the touch. NOTICE TO OWNER: If lockout occurs, check the following before calling a serviceman: 1. Indoor section for dirty filter. 2. Outdoor section for snow accumulation. 3. Outdoor section for leaf or debris blockage. Eliminate problem, tum off the thermostat for 10 seconds and attempt start. Wait 5 minutes. if system does not start, call serviceman. MAINTENANCE 1. Dirt should not be allowed to accumulate on the outdoor coils or other parts in the air circuit. Clean as often as necessary to keep the unit clean. Use a brush, vacuum cleaner attachment, or other suitable means. 2. The outdoor fan motor is permanently lubricated and does not require periodic oiling. 3. If the coil needs to be cleaned, it should be washed with Calgon Collclean (mix one part Collclean to seven parts water). Allow solution to remain on coil for 30 minutes before rinsing with clean water. Solution should not be permitted to come In contact with painted surfaces. 4. Refer to the furnace or air handler instructions for filter and blower motor maintenance. 5. The indoor coil drain pan should be inspected and cleaned regularly to prevent odors and assure proper drainage. CAUTION: IT IS UNLAWFUL TO KNOWINGLY VENT, RE- LEASE OR DISCHARGE REFRIGERANT INTO THE OPEN AIR DURING REPAIR, SERVICE, MAINTENANCE OR THE FINAL DISPOSAL OF THIS UNIT WHEN THE SYSTEM IS FUNCTIONING PROPERLY AND THE OWNER HAS BEEN FULLY INSTRUCTED, SECURE THE OWNER'S APPROVAL. RPC 2M 196 .66 CODE; SBY USA Q9$ P1outl Sponso, of Ino 1996 U S Olympic learn ..,scta 515.26•N2Y TYPE OF APPLICATIONS UPFLOW I DOWNFLOW ** HORIZONTAL ELECTRIC FURNACE 4 l 0 4 WITH 018 - 024 COIL 4 b b I Q [4, .%1 0 4 WITH 030 - 081 COIL 4 0 Q . il iL u 0 4 ILIYORK® ,- - `INSTALLATION INkETRUCTION CI I Y Ur i uKWttA DEC 0 21996 N *AH or N *FA BLOWER SECTIONS GENERAL PERMIT CENTER This instruction covers the installation of the following blower sections. N2AHDO6A06 N2AHD10A06 N4AHD14A06, A46 N4AHD16A06, A46 N4AHD20A06, A46 Ni FADO6A06 N1FAD10A06 N3FAD14A06 N3FAD16A06 N3FAD20A06 The blower section is the basic component of an Indoor modular system which may be combined with various accessories listed below to make an evaporator blower, evaporator blower with electric heat, heat pump blower, and heat pump blower with electric heat. NOTE: All Electric Heater Accessories approved for Copper Conductors Only, Because of the many ways this Air Handler may be applied and the large variety of available accessories, the indoor portion of the cooling or heat pump system comes to you in modules. These modules must be field assembled to meet the specific needs of the owner. Check modules (accessories, etc.) received, against plans to be sure all required modules are available for assembly. INSPECTION As soon as a unit is received, it should be inspected for possible damage during transit. If damage is evident, the extent of the damage should be noted on the carrier's freight bill. A separate request for inspection by the carrier's agent should be made in writing. See Form 50.15 -NM for more information. REFERENCE This instruction should be used in conjunction with installation instructions supplied with each accessory as well as the matching outdoor section. Installer should pay particular attention to the words: NOTE, CAUTION and WARNING. i NOTES are intended to clarify or make the installation easier. Supersodes:535.01 -N4Y (493) CAUTION THIS PRODUCT MUST BE INSTALLED IN STRICT COMPLIANCE WITH THE ENCLOSED INSTALLATION INSTRUCTIONS AND ANY APPLICABLE LOCAL, STATE, AND NATIONAL CODES INCLUDING, BUT NOT LIMI TO, BUILDING, ELECTRICAL, AND MECHANICAL CODES. WARNING INCORRECT INSTALLATION MAY CREATE A CONDITION WHERE THE OPERATION OF THE PRODUCT COULD CAUSE PERSONAL INJURY OR PROPERTY DAMAGE. MODULAR AIR HANDLERS 0 FOR USE WITH SPLIT SYSTEM COOLING AND HEAT PUMP 535.01 -N4Y (1193) 035 - 10042 CAUTIONS are given to prevent equipment damage. WARNINGS are given to alert the installer that personal injury and/or equipment damage may result if installation procedures are not handled properly. *Righthand retum may be used by removing Horizontal Drain Pan " See Note 5 under Indoor unit preparation for use of Baffle Kit. FIGURE 1 - Typical Component rOgigg DEC 0 9 1996 AS NOTED UILD1NG DIV1S10N tittering Air lam erasure umus Wet Bulb Temp. °F Dry Bulb Temp. °F MIN. MAX. MIN. MAX. 57 72 65 95 535.01 -N4Y LIMITATIONS These units must be wired and installed in accordance with all ne al and local safety codes. Voltage limits are as follows: Alr Handler 'Normal Operating Voltage Voltage Range 208/230 (06) 187 -253 460 (461 432-504 •Utlizatbn range Win exardanoe wth ARI Std. 110. Air flow must be within the minimum and maximum limits ap- proved for electric heat, evaporator coils and outdoor units. CLEARANCE Clearance must be provided for: 1. Refrigerant piping and connections - minimum 12' recom- mended. 2. Maintenance and servicing access - minimum 36' from front of unit recommended for blower motor /coil replacement. 3. Condensate drain line, 4. Filter removal - minimum 36' recommended. Lt %TION Location is usually predetermined. Check with owner's or dealer's Installation plans. If location has not been decided, consider the following in choosing a suitable location: FLEXIBLE DUCT COLLAR FIGURE 2 - Duct Clearance MINIMUM CLEARANCE OF1' ALL SID=S 1, Select a location with adequate structural support, space for service access, clearance for air return and supply duct connections. 2. Normal operating sound levels may be objectionable if the air - idler is placed directly over some rooms such as bed- . urns, study, etc. A flexible duct collar is recommended as shown in Figure 2 to minimize noise. 3. Precautions should be taken to locate the unit and ductwork so that supply air does not short circuit to the return air. 2 4. If evaporator coil is used, locate to permit installation of a trapped condensate line to an open drain. 5. When an evaporator coil is installed in an attic or above a finished ceiling, an auxiliary drain pan should be provided under the coil as is specified by most local building codes. If the coil is provided with a secondary .drain it should be trapped and piped to a location that will give the occupant a visual waming that the primary drain is clogged. If the secon- dary drain is not used k must be capped. 6. If unit is located in an area of high humidity, ie. an uncondi- tioned garage or attic, nuisance sweating of casing may occur. On these installations a wrap of 2' fllerglass insulation with vinyl vapor barrier should be used. 7. Proper electrical supply must be available. 8. Clearances must also be taken into consideration, and pro- vided for as follows: a. Maintenance and setvicing thru the front or access side of unit with both sides and rear of unit having zero inch clearance. b. When no electric heat Is used, the unites well as all duct work and plenum are designed for zero clearance to combustible material. c. If electric heat is used or anticipated, be sure a minimum clearance of one inch is allowed on all sides of the supply air duct and plenum. This clearance must be maintained up to 3 feet a long the supply alr duct. See Figure 2. When a discharge plenum forms part of the duct work, It too must have one inch clearance on all sides. FIGURE 3 - Typical Wiring and Piping Unitary Products Grouo DUCT CONNECTIONS NOTE The electric heat accessory should bo installed before the supply air duct Is attached to the supply alr openings. Air supply and return may be handled in one of several ways best suited to the installation. See Figure 4 for Air Handler inlet and outlet dimensions. Inlet dimensions of Air Handler are the same as coil casing outlet dimensions. The vast majority of problems encountered with combination heating and cooling systems can be linked to improperly designed or installed duct systems. It is therefore highly important to the success of an installation that the duct system be properly de- signed and Installed. Use flexible duct collars to minimize the transmission of vibra- tion/noise into the conditioned space. if electric heat is used non - flammable material must be used. Where retum air duct is short, or where sound is liable to be a problem, sound absorbing glass fiber should be used inside the duct. Insulation of duct work is a must where It runs through an unheated space during the heating season or through an un- cooled space during the cooling season. The use of a vapor barrier is recommended to prevent absorption of moisture from the surrounding air into the insulation. The supply air opening on the fan unit should be enlarged to the proper duct size by use of a transition. All ducts should be suspended using flexible hangers and never fastened directly to the structure. Duct work should be fabricated and installed in accordance with local and/or national codes. This includes the standards d tho National Fire Protection Association for Installation of Air Conditioning and Ventilating Systems, NFPA No. 90A and Warm Air Heating and Air Conditioning Systems, NFPA No. 90B. INDOOR UNIT PREPARATION Prepare Air Handler for installation as follows: Each accessory is provided with its own instruction. 1. Attach coil casing to blower section in a way appropriate to indoor unit application. See Form 535.01 -N5V for G'1-1C or G *FC Coils and Form 535.01 -N6V for G -HT Coils Confirm the orifice size before connecting line. Each coil will have an orifice installed in the fitting between the liquid line connection and distributor. The orifice is identified on a label next to the liquid connection. Unitary Products Group KMI • 535.01 -N4Y The orifice that is shipped with the coil is based on the "most sold" combination, but it may have to be changed, depending on the capacity and efficiency of the outdoor unit, elevation differences, and/or long total line lengths. See coil Instruction and Application Data (Form 690.01 -AD1 V) for detailed piping guidelines. if a thermal expansion valve kit is installed, the orifice must be removed. The G'HT coils have a thermal expansion valve installed in the liquid line. An orifice is not included in this coil. Be sure the G•HT coil has been listed as a matched coil in the outdoor unit technical guide. 2. Install Combustible Floor Base accessory if applicable. The floor base is required on blower- heater combinations with greater than zero clearance in a downflow position on a combustible floor. See Form 535.01 - N 1.5V NOTE: Instructions for Installing accessories are included with the accessories. 3. Attach Filter Rack Accessory if applicable. The filter rack Is designed for use with WHO, G•FC or G -HT coil or blower section. See Form 535.01- N1.4V CAUTION: Equipment should never be operated without filters. 4. Attach Suspension Kit if applicable. The suspension kit is designed to be used with all sizes of air handlers whenever the application requires horizontal or vertical suspension of the unit See Form 535.01 - N1.3V 5. Install Baffle Kit if air handler is used in a downflow position. This kit must be attached to the blower housing above the transformer relay or electric heater accessories. Use kit it 1 BK0601 for the 006 air handler and kit it 1 BK0602 for D10, D14, 016 and 020 air handlers. See Form 535.01 -N4.3V 6. Install Air Handler operating controls. A transformer relay accessory or an electric heater accessory must be supplied for the operation of the Air Handler. See Form 535.01 - N4.2V See Form 535.01 - N4.1V 3 • • • • • Blower Size =mUU~ Dimensions Refrigerant Connections Quick Connoct Une Sizes A B C D E F G H J K L M Uquld F -6 Vapor F -11 Uquld 5/16 Vapor 5/8 006 018 12 -1/4 2 -3/8 7-3/8 3-7/8 15-1/8 10-1/4 18-1/8 49-7/8 3-1/2 1 -1/2 1 -3/4 3-1/2 D10 024 161/4 1 12-1/8 3 -7/8 12-1/8 14 -1/4 22-3/4 54-1/2 3 -1/2 1 -1/2 1-3/4 3 -1/2 030 14 -1/4 22-3/4 54 -1/2 3 -1/4 6 -3/8 14 -7/8 16 -7/8 5/16 3/4 D14 036 22-1/4 3-5/8 14-7/8 3-7/8 12-1/8 20-1/4 22 -3/4 54-1/2 6 7 -3/8 14 -7/8 16-7/8 042 20-1/4 27 -7/8 59 -5/8 6 8-1/8 20 22 3/8 7/8 D16 048 26-1/4 5 -5/8 14 -7/8 3-7/8 12-1/8 24 -1/4 27 -7/8 59.5/8 8 6 -3/4 20 22 020 060 600" 061•• 31-3/8 63-1/8 7-1/4 7-5/8 23-1/2 25-1/2 4 535.01 -N4Y All dlmensbns are in Inches. They are subject to change without notice. Certified dimensions will be provided upon request. 018 -024 REFRIGERANT CONNECTIONS 030 -061 REFRIGERANT CONNECTIONS 018 -024 DRAIN CONNECTIONS (See Detail A) 21 -7/8 3/4 E TE G'HT cols are eveibbb as sweet connect only. .T °oil models only. • FIGURE 4 - DIMENSIONS .v:Yhy? bvc'•u4 \!*hY rsyr; : " +.V:'i teNty r A. ! N ES: Power wiring may be brought into the unit through one of the knockouts in eitherthe top or the right side panel. Multiple knockouts are provided to accommodate all of the electric heat and transformer accessories that are available. Use the knockouts that provide the best wire routing for the accessory being used. H TOTAL HEIGHT 030 - 061 DRAIN CONNECTIONS (See Detail B) DETAIL "A" 018 - 024 DRAIN CONNECTIONS 3r4 NPT1 UPFLON / DOWNFLOW SECONDARY DRAIN 314 NPTI UPFLOW DOWN FLON PRIMARY DRAIN - HORIZONTAL SECONDARY DRAIN DETAIL "B" 030 - 061 DRAIN CONNECTIONS CUTOUT MARKS FOR �, ONTAL •4 ACCESSORY PRIMARY # SIDE RETURN DRAIN FILTER RACK RAI 314 NPTI HORIZONTAL SECONDARY DRAIN 1 1111 3/410 U PFLOW DOMNR.OW DRAIN 3 HORIZONTAL PRIMARY GRAIN 1-1/2 1-1/2 2 Unitary Products Group TABLE 1 - HEAT ANTICIPATOR SETTING Electric Heater with Cooling or Electric Heater Only KW Adjustable Heat Anticipator 2HN, 2HW 5 - 20 0.1 Amps 2HV 10 0.16 Amps 2HV 15, 20 0.32 Amps 2HV 25 0.48 Amps 2HV 30 0,84 Amos ELECTRICAL CONNECTIONS Wire Transformer Relay or Electric Heater per wiring diagram on the accessory. Typical field wiring is shown in Figures 8, 9 and 10. NOTE: All wiring must conply with local and national electrical code requirements. Read and heed all unit caution labels. LINE POWER CONNECTIONS Power may be brought into the unit through the supply air end of the unit (top when unit Is vertical) or the right side panel. Use the hole appropriate to the unit's orientation in each installation to bring conduit from the disconnect. The power lead conduit should be terminated at the transformer relay or electric heater box. Refer to Tables 2 and 5 for single source wire sizes. Also see Figure 6. ALTERNATE LINE POWER CONNECTIONS When desired or required by local conditions the units equipped with circuit breakers may be field converted to use multiple power sources, this will permit the use of smaller size power wire but will require a greater number of wires. To accomplish this field con- version refer to Figure 6 - (Dual Supply) as an example, and proceed as follows. 1. Remove the Jumper bar assembly and cover at the line side connection to the circuit breakers. 2. Select the proper wire size from Table 3. 3. Connect the multiple power sources direct to the circuit breakers. LOW VOLTAGE CONTROL CONNECTIONS Use 7/8 inch knockout on the left hand side panel to bring low voltage wiring into air handler. CAUTION: Use 7/8 Inch plastic bushing provided to prevent chafing wires. 5, 7.5 & 10 KW CONTROL. BOARDS NOTE: LINE VOLTAGE POWER CONNECTS DIRECTLY TO 10 KW BOARDS C 1. •1 f•ww•l II[DOiI. (. .1 (• •1 • • 5 ANP FUSE MAX FC1 KI (• y FAN FI • w Unitary Products Group K7 EDGE CONNECTOR (Shipped with accessory control harness connected here) K2 .r-.r......++.•_+�.. irwrerrw•. n.^1M+'.la1:�i3.TxVN n:+ YYK' n' �h9�f�KJd. CIM" trfikllrxM� ' ^!ttwr.+`sawvw.- �.� ».. w N 4 m T RANS I •1 _N K3 LI ( BREAK OFF TABS (For Variable Speed Air Handler ONLY) 535.01 -N4Y Electric heat accessories 2HN, and 2HW (5 - 20 KW single phase) with printed circuit board (See Figure 5) require field control wires to be spliced to the accessory control harness. Electric heat accessories 2HV require field control wire to be connected to low voltage terminal strip. Field supplied low voltage wiring must be kept as short as possi- ble and away from the blower motor wires. The 24 volt power supply Is provided by an Internally wired low voltage transformer. However if the unit is connected to a 208 volt power supply the low voltage transformer must be rewired to the 208 volt tap. See the unit wiring label. CAUTION On systems with two 24 voft transformers, use thermostat with isolating contacts to prevent inter- connection of class With power supply 'OFF' and thermostat set to 'OFF' splice thermostat wiring to the accessory control harness wires on electric heat control board or connect to low voltage terminal strip. See Figure 8, 9 and 10 for low voltage terminal connections. If thermostat used has an adjustable heat anticipator, see Table 1 for proper setting. 5AP NAX FIGURE 5 - Typical Electric Heat Control Boards- (5 -20KW Single Phase) 12.5,15 & 20 KW CONTROL BOARDS ad .w • F EDGE CONNECTOR (Shipped with accessory control harness connected here) BREAK OFF TABS (For Variable Speed Air Handler ONLY) 5 SPEED 208/230V 460V Blue Lead Blue Lead BlackIWhlte Blue/White HIGH Black Black Insulate Insulate MED Blue Blue Black Insulate LOW Red Red Black Blue .6 535.01 -N4Y BLOWER SPEED CONNECTIONS All air handlers contain three speed blower motors ready to be elm `ically connected to a fan relay control furnished with the tr, ormer relay accessory or the electric heat accessory. Adjust blower motor speed to provide air flow within the minimum and maximum limits approved for evaporator coil, electric heat and outdoor unit, Airflow data Is shown In Table 6. Higher efficiencies will be obtained if the indoor alr volume is as high as possible provided the CFM does not exceed limitations and the sound level is not objectionable. Connect motor wires to motor speed tap receptacle for speed desired. See Figure 7 and wiring label for motor wiring details. Unused taps must remain taped. GRD. GRD, LUG I IIH 10} 1 - - -Z LJ - -- E I -- - -- 1 WITHOUT CIRCUIT BREAKER POWER WIRING 4.1..11. w (See Tables 2, 3 and 5 for proper wire size.) FIGURE 6 - Line Power Connections I PRP BLUE BLUE FAN MOTOR SPEED TAP RECEPTACLE ON TRANSFORMER RELAY OR HEATER ACCESSORY PRP POWER SUPPLY 208/230 VOLT SINGLE SUPPLY BLOWER MOTOR BROWN GRD. GRD. LUG 1 11E 0 0 00 CIRCUIT BREAKERS WITH CIRCUIT BREAKER 3RC PURPLE GRD. • ' FIGURE 7 - Blower Speed Connections (High Speed Connection Shown) •v eua: uzreaanw, <raax,...w,.«....,. NOTE: Motor leads are held to the blower by an adjustable plastic tie on 220/240 volt units. Lilt small tab on wire tie to loosen. After motor speed tap Is selected fasten all wires In a neat hamess. Lead connections to motor terminal block for speed selections: - -- POWER ... no — SUPPLY CONNECT TO 2R RELAY 35 24E BLUE DUAL SUPPLY CIRCUIT BREAKERS r T III1-1 1 1 1 1 GRD. L) POWER POWER SUPPLY 1 SUPPLY 2 NOTE: Two circuits permit smaller wire. WITH CIRCUIT BREAKER GRD. LUG PRP 460 VOLT 0 FIELD REMOVED BUSSBAR CONNECT TO FIELD WIRING BLOCK IN TRANSFORMER RELAY OR HEATER ACCESSORY HIGH MED BLOWER MOTOR BLU/WHITE BLKJWHITE 3RC BROWN PURPLE GRD. Unitary Products Group BLOWER SIZE TRANFORM-ER RELAY KIT MIN. CIRCUITAMPACITY MAX. T.D. FUSE SIZE MIN. WIRE SIZE AWG. 208 23Q 460 N2AH/N1FADO6 N2AH/NI FAD I0 N4AHM3FAD14 2TT08700408 208 / 230V 5 6 - 15 14 N4AH/N3FADI6 N4AH/N3FAD20 5.6 5.6 - 15 14 N4AHD14 N4AHD16 N4AHD20 2TT01700146 460V - - 5 15 14 Blower Size Heater Accessory Model No. Min. Circuit Ampaclty Max. Time Delay Fuse 75 °C Wire Slze - AWG• Circuit. Circuit Circuit 1st 2nd 3rd 1st 2nd 3rd 1st 2nd 3rd 208/240 208/240 208 /240 208/240 208/240 208/240 208/240 208/240 208 /240 N2AW N1FA D08 2HN06501306 47/54 11/13 0/0 50/80 15/15 - 8/6 14/14 NiFA D10 2HW26501006 28/29 23/26 _ 0/0 30/30 25/30 - 10/10 10 /10 - 2HW06501306 48/55 11/13 0/0 50/60 15/15 • 8/6 14/14 - 2HW06501506 48/55 23/26 0/0 50/60 25/30 - 8/6 10/10 - 21206502006 48/55 45/52 0/0 50/ 60 50/60 ■8/6 8/6 N4AH/ N3FA D14 2HW26501008 28/29 23/26 0/0 30/30 25/30 - 10/10 10/10 - 2HW06501306 49/56 11/13 0/0 50/60 15/15 - 8/6 14/14 - 2HW06501508 49/66 23/26 0/0 50/60 25/30 - 8/6 10/10 - 2HW06502008 49/56 45/52 0/0 50/60 50/60 - 8/6 8/8 - 21:1V06502508 49/56 45/52 23/26 50/80 50/60 25/30 8/6 8/6 10/10 N4AW N3FA D16 2HW28501006 27/31 23/26 0/0 30/35 25/30 - _ 10/8 10/10 - 2HW06501306 50/57 11/13 0I0 50/60 15/15 - 8/8 14/14 - 2HW06501506 50/57 23/26 0/0 50/80 25/30 - 8/8 10/10 - 2HW08502006 60/57 45/52 0/0 50/60 50/60 - 8/8 8/6 - 2HV06502506 50/57 45/52 23/26 50/60 50/60 25/30 8/6 8/6 10/10 2HV06503006 50/57 45/5 45/52 50/60 50/60 50/60 8/6 8/6 8/6 N4AH/ N3FA D20 2HW26501006 28/32 23/26 0/0 30/35 25/30 10/8 10/10 2HW06501306 51/58 11/13 0/0 60/60 15/15 - 6/6 14/14 - 2HW06501508 61/58 23/26 0/0 60/60 25/30 - 6/6 10/10 - 2HW06502006 51/58 45/52 0/0 60/60 50/60 - 6/6 8/6 - 2HV08502506 61/58 45/52 23/26 60/60 50/60 25/30 6/6 8/6 10/10 2HV06503006 51/58 45/52 45/52 60/60 50/60 50/60 6/6 8/6 8/6 'For Canadian uss only. Unitary Products Group TABLE 2 - ELECTRICAL DATA/ TRANSFORMER RELAY i0X}yi ?Y+YiiC4XA 535.01 -N4Y TABLE 3 - ELECTRICAL DATA/ HEATER ACCESSORY MULTI -POWER SOURCE • NOTE: 60°C and 90' C whe may be used. Retonnnce the Iastest addition of Natlanal Electrical Code or proper wire size. 7 Blower I20 Heater Accessory Model No, Min. CFM - Static Pressure vs. Speed Tap Total Heat KW Staging 2nd 3rd Cooling Heat Pump KW MBH 1 at $taco 1 Tao Static 1 Tao 208/240 208/240 208/240 208240 208/240 20x30 -1-60 HEATERS N2AH/ NiFA D06 2HN06500506 0.5 LO 0.5 LO 3.8/5.0 13.0/17.1 3.8/5.0 • - 2HN06500806 0.5 LO 0.5 MED 5.0/7.5 19.1/25.6 3.8/5.0 1.8/2.5 - 2HN06501006 0.5 MED 0.5 HI 7.5/10,0 25.6/34.2 3.8/5.0 3.8/5.0 - • 1 • 1• •■• • 14 • • • • • • • • 1 - N2AH/ N1FA D10 2HW06500506 0.5 LO 0.5 MED 3.8/5.0 13.0/17.1 3.8/5.0 - 2HW06500806 0.5 LO 0.5 MED 5,0/7.5 19.125.6 3.8/5.0 1.8/2.5 - 2HW06501006 0.5 LO 0.5 MED 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW26501006 0.5 LO 0.5 MED 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW06501306 0.5 LO 0.5 HI 9.4/12.5 32.1/42.7 3.8/5.0 5.6/7.5 - 2HW06501506 0.5 LO 0.5 HI 11.3/15.0 38.6/51.2 3.8/5.0 7.5/10.0 - 2HW06502006 0 5 LO 0 5 HI 15.020.0 51.2/68.3 3.8/5,0 11.3/15.0 N4AH/ N3FA D14 2HW065CO506 0.5 LO 0.5 LO 3.8/5.0 13.0/17.1 3.8/5.0 - - 2HW06500806 0.5 LO 0.5 LO 5.0/7.5 19.1/25.6 3.8/5.0 1.8/2.5 - 2HW06501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW26501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW06501306 0.5 LO 0.5 LO 9.4/12.5 32.1/42.7 3.8/5.0 5.8/7.5 - 2HW06501506 0.5 LO 0.5 LO 11.3/15.0 38.6/51.2 3.8/5.0 7,5/10.0 - 2HW06502006 0.5 LO 0.5 LO 15.0/20.0 51.2/68.3 3.8/5.0 11.3/15.0 - 2HV06502506 0,5 MED 0.5 MED 18,8/25.0 64,2/85.4 7.5/10.0 7.5/10.0 3.8/5.0 N4AH/ N3FA D16 2HW06500506 0.5 LO 0.5 LO 3.8/5.0 13.0/17.1 3.8/5.0 • - 2HW06500806 0.5 LO 0,5 LO 5.0/7.5 19.125.6 3,8/5.0 1.8/2.5 - 2HW06501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW26501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW06501306 0.5 LO 0.5 LO 9.4/12.5 32.1/42.7 3.8/5.0 5.6/7.5 - 2HW06501506 0.5 LO 0.5 LO 11.3/15.0 38.6/51.2 3.8/5.0 7.5/10.0 • 2HW06502006 0.5 LO 0.5 MED 15.0/20.0 51.2/68.3 3.8/5.0 11.3/15.0 - 2HV06502506 0.5 MED 0.5 HI 18.8/25.0 64.2/85.4 7.5/10.0 7.5/10.0 3.8/5.0 2HV06503006 0.5 HI 0,5 HI 22,5/30.0 76.8/102.5 7.6/10.0 15.020.0 - N4AH/ N3FA 020 2HW06500506 0.5 LO 0.5 LO 3.8/5.0 13.0/17.1 3.8/5.0 - - 2HW06500806 0.5 LO 0.5 LO 5.0 /7.5 19.1/25.8 3.8/5.0 1.8/2.5 - 2HW06501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW26501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW06501306 0.5 LO 0.5 LO 9.4/12.5 32.1/42.7 3.8/5.0 5.617.5 - 2HW06501506 0.5 LO 0.5 LO 11.3/15.0 38.6/51.2 3.8/5.0 7.5/10.0 - 2HW06502006 0.5 LO 0.5 MED 15.020,0 51.2/68.3 3.8/5.0 11.3/15.0 - 2HV06502506 0.5 MED 0.5 HI 18.825,0 64.2/85.4 7.5/10.0 7.5/10.0 3.8/5.0 2HV06503006 0.5 HI 0.5 HI 22,/30.0 76.8/102.5 7.5/10.0 15.0/20.0 - 208/230- -60 HEAT N4AH/ N3FA 014 2HV06501025 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 7.5/10.0 - - 2HV06501525 0.5 LO 0.5 LO 11.3/15.0 38.6/51.2 7.5/10.0 3.8/5.0 - 2HV06502025 0.5 LO 0.5 LO 15.0/20.0 51.2/68.3 7.5/10.0 7.5/10.0 2HV06502525 0,5 MED 0,5 MED 18,8/25,0 64,2/85,4 7.5/10,0 7.5/10.0 3.8/5.0 N4AH/ N3FA D16 2HV06501025 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 7.5/10.0 - - 2HV06501525 0.5 LO 0.5 MED 11.3/15.0 38.6/51.2 7.5/10.0 3.8/5.0 - 2HV06502025 0.5 LO 0.5 MED 15.0/20.0 51.2/68.3 7.5/10.0 7.5/10.0 - 2HV06502525 0.5 MED 0.5 HI 18.8/25.0 64.2/85.4 7.5/10.0 7.5/10.0 3.8/5.0 • •. • 0 • • • 5 • / 00 •.:/ 0 / 00 •r• • - N4AH/ N3FA 020 2HV06501025 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 7.5/10.0 - 2HV06501525 0.5 LO 0.5 MED 11.3/15.0 38.6/51.2 7.5/10.0 3.8/5.0 - 2HV06502025 0.5 LO 0.5 MED 15.0/20.0 51.2/68.3 7.5/10.0 7.5/10.0 - 2HV06502525 0.5 MED 0.5 HI 18.8/25.0 64.2/85.4 7.5/10.0 7.5/10.0 3.8/5.0 • • j • • • • 5 • • :/ • / • • • • • ... 1 •. • N4AH/ D14, D16, 020 2HV06501046 0.5 LO 0.5 LO 10.0 34.2 10.0 - - 2HV06501546 0.5 LO 0.5 MED 15.0 51.2 10.0 5.0 - 2HV06502546 0,5 MED 0.5 HI 25.0 85.4 10,0 1Q,0 5,0 535.01 -N4Y TABLE 4 - ELECTRICAL DATA/ HEATER ACCESSORY 8 5 KW & MBH CONVERSIONS: FOR 208•VOLT 230-VOLT 460'VQJI OPERATION, MULTIPLY 240-VOLT 240•VO4T TABULATED KW S MBH BY 180-VOLT .751 .918 .918 See Notes on No 9 Unitary Products Group N2A V O6 D08 D 2HN06500506 24/27 25/30 10/10 NONE 2HN06500806 35/40 35/40 8/8 NONE 2HN06501006 47/54 50/60 8/6 NONE 2HN06501306 58/67 60/70 6/4 BREAKER N2AH/ N1FA D10 2HW06500506 26/29 30/30 10/10 NONE 2HW06500806 37/42 40/45 8/8 NONE 2HW06501006 48/55 50/60 8/6 NONE 2HW26501006 48/55 50/60 8/6 BREAKER 2HW06501306 60/68 60 /70 6/4 BREAKER 2HW06501506 71/81 80/90 4/4 BREAKER 21 93/107 100/110 3/2 BREAKER N4AH/ N3FA D114 4 2HW06500506 26/29 30/30 10/10 NONE 2HW06500806 37/42 40/45 8/8 NONE 2HW06501006 49/56 50/60 8/6 NONE 2HW26501006 49/56 50/60 8/6 BREAKER 2HW06501306 60/69 60 /70 6/4 BREAKER 2HW06501506 71/82 80/90 4/4 BREAKER 2HW06502006 94/108 100/110 3/2 BREAKER 2HV06502506 116/134 125/150 1/0 BREAKER N4AH/ N3FA D16 2HW06500506 27/31 30/35 10/8 NONE 2HW06500806 39/44 40/45 8/8 NONE 2HW06501006 50/57 50/60 8/6 NONE 2HW26501006 50/57 50/60 8/6 BREAKER 2HW06501306 61 /70 70 /70 6/4 BREAKER 2HW06501506 72/83 80/90 4/4 BREAKER 2HW06502006 95/109 100/110 3/2 BREAKER 2HV06502506 118/135 125/150 1/0 BREAKER 2HV06503006 140/161 150/175 1/0 / 2/0 BREAKER N4AH/ N3FA D20 2HW06500506 28/32 30/35 10/8 NONE 2HW08500806 40/45 40/45 8/8 NONE 2HW06501006 51/58 60/60 6/6 NONE 211W26501006 51/58 60/60 6/6 BREAKER 21W/06501306 62/71 70/80 6/4 BREAKER 21-1W06501506 73/84 80/90 4/4 BREAKER 2HW06502006 96/110 100/110 3/2 BREAKER 2HV06502506 119/136 125/150 1/0 BREAKER 2HV06503006 141 /162 150/175 1 /0 / 2/0 BREAKER N3 D14 2HV06501025 43/49 45/50 8/8 NONE 2HV06501525 43/49 45/50 8/8 NONE 2HV06502025 66 /74 70/80 4/4 FUSE 2HV06502525 82/93 90/100 4/3 FUSE N4AH/ N3FA D16 2HV06501025 44/50 45/50 8/8 NONE 2HV06501525 44/50 45/50 8/8 NONE 2HV06502025 67 /76 70/80 4/4 FUSE 2HV06502525 84/95 90/100 4/3 FUSE 2HV06503025 84/95 90/100 4/3 FUSE N4AH/ N3FA D20 2HV06501025 45/51 50/60 8/6 NONE 2HV06501525 45/51 50/60 8/6 NONE 2HV06502025 68/77 70/80 6/4 NONE 2HV06502525 85/96 90/100 4/3 FUSE 2HV06503025 85/96 90/100 4/3 FUSE TABLE 5 - ELECTRICAL DATA/ HEATER ACCESSORY Blower Size N4AH/ D14, D16, D20 Unitary Products Group y 535.01 -N4Y Heater Accessory Model No. Field Wiring - 208/240 Min. CkL Ampadty Max. Overairrent Prot. Arnps/Tvpe Wire Size, AWG' 75 °C Conger Factory- Installed Over- Current Protection 2HV06501046 2HV06501546 2HV06502546 27 27 51 460 -3-60 H EATERS 30 30 6o 10 1 0 6 NONE NONE NONE I Time delay fuse a HACR type clout breaker (UL ony) 3 Tine delay fuse only 2 Time delay fuse or clout breaker ? These healers veil not use the control boards due to power Imtalons. NOTE: Ai. handler and healer accessory may be corin� lwithoutacolforelectricfurnaceapploatbns. ModelNumbersuffixindatesvolape . 06. 208 1 - 60; 25+;208 1 230.3. 60;46 NOTE: 60•C and 90' C wre nay be used. Referrenoe the laslest adddbn of Natbnai Electrical Code for proper wire site. Al Electric Heater Accessories approved for Pnppnr mnnurtnri. fluty 9 glower Size Coll Coff M Blower Speed 230/460 Volt 208 Volt CFM 0 External Static Pressure - IWG 1 0.10 020 1 0.30 0.40 0.50 1 0.05 1 0.10 19.20 1 0.30 1 0.40 1 0.50 _Q,05 'WITHOUT COIL (RETURN AIR FILTER AND ELECTRIC HEATER INCLUDED _ 006 None High - -- - -- - -- 765 760 740 735 720 700 690 685 665 Med. 640 630 620 605 595 585 575 565 560 545 535 630 Low 535 525 520 510 500 480 480 475 470 460 450 430 010 None High - -- - -- • -- - -- 1225 1185 1225 1210 1175 1140 1100 1065 Mod. 1150 1140 1120 1100 1085 1050 1035 1025 1000 990 976 945 Low 900 885 875 865 850 835 810 800 790 780 765 750 D14 None High - -• 1659 1609 1548 1479 1404 - -- 1476 1436 1385 1324 1255 Med. - -- 1527 1469 1411 1350 1281 - -- 1336 1296 1250 1197 1137 Low - -- 1297 1255 1211 1163 - -- - -- 1164 - -- - -- - -- --- 018 None High -•- • -- • -- 1844 1763 1676 • -- 1864 1806 1739 1662 1575 Med. -•- 1791 1726 1659 1588 1509 • -- 1595 1555 1503 1439 1363 Low - -- 1464 1410 1362 1312 - -• - -- 1302 - -- - -- - -• - -- 020 None High - -- 2391 2304 2212 2115 2014 •-• 2243 2177 2099 2011 1915 Med. --• 2112 2058 1988 1907 1818 • -- 1852 1826 1784 1723 1647 Low - -• 1828 1800 1759 1706 1641 --- - -- - -• - -- --- --- WITH HC FC or HT COILS RETURN AIR FILTER WET COIL AND ELECTRIC HEATER INCLUDED 006 018 Hlah 765 760 745 715 680 835 690 685 870 845 615 575 , Med. 605 600 685 585 535 500 520 615 500 480 450 - -- Low 515 510 485 460 - -- - -- - -- -•- - -- - -- --- --- D10 024 High --• -•• - -- - -- 985 900 -•- - -- - -- - -- 955 870 Med. - - - - -- 955 885 810 945 935 900 855 800 745 Low 890 870 835 790 745 885 750 740 720 895 660 - -- 030 High --- 1225 1165 1100 1030 955 - -- 1190 1125 1060 990 920 Med. - -• 1085 1035 980 915 845 - -- 985 925 885 835 - -- Low - -• 850 825 395 - -- - -• - -- -•- - -- - -• -•- --- D14 036 High - -• 1670 1550 1480 1400 1340 --- 1410 1380 1310 1270 1210 Med. • -• 1465 1410 1340 1290 1220 ••- 1310 1270 F 1210 1160 1090 Low --- 1250 1210 1160 1100 --- • - - 1120 1090 1040 - 042 High ••- 1680 1660 1490 1320 1350 - -- 1420 1380 1340 1300 1260 Med. --- 1480 1430 1350 1300 1250 - -- 1300 1290 1200 1170 1120 Low - -• 1260 1240 1170 1120 1010 - -- 1120 1100 1080 1000 --- D16 048 High --- - -- -•- 1760 1680 1620 - -• 1700 1630 1570 1500 1470 Med. • -- 1720 1660 1600 1520 1430 - -- 1550 1510 1470 1400 1330 Low - -- 1420 1360 1290 1240 - -- - -- 1300 1260 1190 1120 - -- 020 060 High --- 2270 2210 2110 2000 1900 - -- 2200 2110 2010 1950 1830 Med, - -- 2040 2000 1940 1860 1750 • -- 1830 1770 1710 1670 1600 Low - - • 1780 . 1760 1710 1660 t600 -•- 1600 • -- - -- - -- - 535.01 -N4Y TABLE 6 - AIR FLOW DATA- N'AH / N *FA NOTE: For von-aeons where a high latent bed exlats do not exceed maximum CFM shown. See Eiedrioai Data for mininum CFM wth Oectrla Heat. System ,'Jr Flow Limitations o1320 to 480 CFM/Ton must elao be observed. THERMOSTAT NOT USED TRANSFORMER RELAY ACCESSORY R C Y a r■• COOLING UNITS 208/230 & 460 VOLT FIGURE 8 - Control Wiring with Transformer Relay 10 «•�}"r: aW.'r�IQill hN` i�an, 4X: Mt'"' Sk=: u' x�• f"+: .0" u": wl:.? SVY1; tk' c.f�^fHVMU+ne....w�.a�w..+ww�.. n....wnr,.>...m..:...: THERMOSTAT TRANSFORMER RELAY ACCESSORY 0 0 ra NOT USED OUTDOOR UNIT 0 X R 8 Y 0 60 HEAT PUMPS 2081230 & 460 VOLT Unitary Products Group L THERMOSTAT R Unitary Products Group ELECTRIC HEATER ACCESSORY" ALL JUMPERS NOT REQUIRED ON ALL HEATER MODELS t FIELD INSTALLED JUMPER THERMOSTAT 0 �— — MOM - L orX ------- C or a — - -- — - Y — : L- --.... 11- — — ^1 . T ... ADD WHEN STANDBY HEATER IS USED COOUNG WITH ELECTRIC HEAT MODELS H'DA and H *DH ELECTRIC HEATER ACCESSORY" NINON. ME■11 animr• mama. HEAT PUMP (1 & 3 Phase) MODELS E'FB IMMO ALLWIRES NOT REQUIRED ON ALL OUTDOOR HEATER MODELS UNIT O X R B Y W 66 OUTDOOR UNIT THERMISTOR _ J 1 FIGURE 9 - Control Wiring with Electric Heat - 2HV heaters only "TERMINAL "C" MAY BE USED IN PLACE OF "B" ON SOME ELECTRIC HEAT ACCESSORIES "'TERMINAL NOT AVAILABLE ON ALL THERMOSTATS. THERMOSTAT L or X CorB Y G w E T L miNala 1 FIELD INSTALLED JUMPER ELECTRIC HEATER ACCESSORY" 53 _'.._ - __.,. - -- R --- - - ... MN! - -- Y - ---- _.._. G — — w - _ - �f ff• 60 -- ....._ 1 fff pC OMMI AMMO. THERMISTOR HEAT PUMP MODELS E'FH 535,01 -N4Y MaIMMI 0 X B — Y W so SS 53 OUTDOOR UNIT THERMOSTAT R Y G w COOLING WITH ELECTRIC HEAT MODELS H *DA and H *DH THERMOSTAT • BLK X or D L B or C 11. J O 1 FIELD INSTALLED JUMPER MAINTENANCE • ELECTRIC HEATER ACCESSORY I R I c 1 Y- I G B GRN I BRN 9 RED ELECTRIC HEATER ACCESSORY Q Y1 HEAT PUMP (1 & 3 Phase) MODEL E *FB OUTDOOR UNIT THERMISTOR FIGURE 10 - Control Wiring with Electric Heat - 2HN and 2HW heaters only One permanent high velocity washable filter is provided with each filter rack. This filter may be cleaned with a vacuum cleaner or washed with warm water using a mild detergent. Do not use a high velocity water stream. No coating Is required. Install filter with cloth mesh towards blower. Never turn a dirty filter to allow air flow in the opposite direction. Fitters must be cleaned when they become dirty. Inspect at least once per month. The frequency of cleaning depends upon the hours of operation and the local atmospheric conditions. Clean filters keep unit efficiency high. J YORK° • Heating and Air Conditioning Unitary Products Group P.O. Box 1592, York, Pennsylvania USA 17405.1592 • Subject 10 change without notice. Printed in U.S.A. Cnnvnnhl Sl by Ynrk Intnmat,nnal Cmmnrahnn 1 nQF All nnI,R •ncnrvnrl OUTDOOR UNIT SHIP I 5M 995 nn wenSI TO.S* 7.1 e.+> 3* tc zttnr, tc• runosiosnosn+.^..„r......... THERMOSTAT X or L BorC 11. COIL CLEANING "TERMINAL NOT AVAILABLE ON ALL THERMOSTATS. ELECTRIC HEATER ACCESSORY I 1 1 RED YEL i WHT I BLK GRN I BRN r r 0 WIRE NUT THERMISTOR � n 1- 1 FIELD INSTALLED JUMPER HEAT PUMP MODELS E *FH f - ,v1.• CfV OUTDOOR UNIT if the coil needs to be cleaned, it should be washed with Calgon Coilclean (mix one part Coilclean to seven parts water). Allow solution to remain on coil for 30 minutes before rinsing with clean water. Solution should not be permitted to come in contact with painted surfaces. USA Proud Sponsor of Ira 1996 U S Olymp,c Team Vtop 1 cic M 11A V RECEIVED CITY OF TUKWILA DEC 0 2 1990 PERMIT CENTER .... ... rrn rt. . r. r• v.: f: rr.: le':t:.`::. t. r';' N:. a• i2," L'.':,' l.`:: i .., ti s ,:`t•..V�:'.(!c'C'r:'l =•d )'S'(t..l'- rr mx ..... r. ..•r .r.. r.... s. •r DESCRIPTION The EFB Series heat pump is the outdoor part of a versatile system designed to economically heat and cool a home or small business. The compact design of these outdoor units make them ideal for ground or roof installation. They are available with quick or sweat connect field piping connections. The quick connect units contain enough refrigerant charge for the outdoor unit and a matching indoor coil, Sweat connect units have service valves and contain enough refrigerant charge for the outdoor unit, a matching indoor coil and 15 feet of interconnect- ing piping. EFB heat pumps can be custom - matched with one of YORK's two lines of evaporator blower sections, each designed to serve a specific function. Electric heaters are available for both, in a variety of sizes. For Add -On applications, the indoor coil may be applied in the supply duct of a conventional gas, oil or electric fumace. The heat pump will be the primary source of heat for the building with the fumace operating only when the heating requirement ex- ceeds the capacity of the heat pump. FEATURES QUAUTY CONDENSER COILS - The coil is constructed of copper tube and hardened aluminum fins for durability and long lasting efficient operation. The fins on the unit are protected with a decorative grille. SELECTIVE DEFROSTING - Demand defrost operation elimi- nates the unnecessary defrost cycles of time based defrost controls and increases the fife of reversing valves and relays. The defrost control also allows for manual initiation of defrost and for timer speed -up, minimizing service time. 121YORIC STELLAR 2000 Models E *FB012 thru E *FB060 Nominal Capacity: 12 thru 60 MBH Models E9FB012 thru E9FB036 Nominal Capacity: 12 thru 36 MBH PROTECTED COMPRESSOR - The compressor is internally protected against high pressure and temperature. This is ac- complished by the simultaneous operation of high pressure relief valve and a temperature sensor which protect the com- pressor if undesirable operating conditions occur. Demand de- frost control includes a five (5) minute anti -short cycle timer to protect the compressor from short cycling. All units have stand- ard crankcase heat for added protection. DURABLE FINISH - Cabinet is made of pre - painted steel. The pre- treated flat galvanized steel provides a better paint to steel bond, which resists corrosion and rust creep. Special primer formulas and glossy earth tone finish insure less fading when exposed to sunlight. LOWER INSTALLED COST - Installation time and costs are reduced by the fully exposed refrigerant connections and the single panel covering of the electrical controls. The small base dimension means smaller mounting pads or less materials re- quired for mounting, lowering installation costs. TOP DISCHARGE - The air from the top mounted fan is blown up away from the structure and any landscaping. This allows space saving arrangements of multi-unit installations. LOW OPERATING SOUND LEVEL - The upward air flow carries the normal operating noise up away from the living area. The rigid top panel effectively isolates any motor sound, Isolator mounted compressor and the rippled fins of the condenser coil muffle the normal fan motor and compressor operating sounds. LOW MAINTENANCE - Long life permanently lubricated motor - bearings need no annual servicing. RE- USABLE SERVICE VALVES- Provided on all sweat fittings on both the liquid and vapor connections for ease of evacuating, charging, and servicing. FOR DISTRIBUTION USE ONLY • NOT TO BE USED AT POINT OF RETAIL SALE 515.26 -TG 1 Y (295) SPLIT- SYSTEM HEAT PUMPS "EFB" SERIES -10.00 SEER UNIT MODEL AIR HANDLER COIL 3 MODEL COOLING MODEL3 ELECTRIC HEAT KW W RATED CFM NET MBH KW SEER SEER B.O.D. SEER/ TXV EER TOTAL I SENS. 1 and 3 Phase EFB / NAH • ;. k :2 • 0 3 • :. M[•Sn'� U111111111 ■•: - 0 �i�k�i[•VII - 0 - 0 0 E'FB018 N2AHDO6 5,8,10,13 G3 650 - 10.5 10.0 10. - 10.5 9.5 y / • . • IN . • ..p • - • - E'FB024 N2AHD10 5,8,10,13,15 16 G3HCO24 875 10.2 - 10.5 10.2 - 10.5 10.0 4 ■ ,S 0 NINI • . - • • • E'FB030 N2A 5,8,10,13,15 G3HCO30 1080 28.0 22.3 2.80 10,1 - 10.5 10.0 : r1 • �• 13 c • •.• 0 • • p • • •• E'FB036 N4AHD14 5,10,15,20,25 - G3HCO36 1250 34.0 - 10.0 - 10.5 9.5 c ■ .• • • • • • • - • • • E1FB042 N4AHD14 5,10,15,20,25 G3HC042 1550 44.0 30.8 4.40 10.0 10.6 11.0 10.0 : 0 4 r •• • '0 • •• E1 FB048 N4AHD16 8 10 1520 25 30 26 G3HC048 1600 48.0 4.80 102 10.0 :A- \ ' : ■ • INIE011 -1P-W K• 4111 c ■ ��i MA 0 - - • 1 and 3 Phase EFB / NVS E'FB018 N1VSD10 5.8.10,J3.1520 16 G3HCO24 650 18.2 14.1 1.78 11.9 - 102 E•FI3024 N1VSD10 5,8,10,13,15,20 16 03HCO24 850 22.8 17.5 2.33 11.3 - 10.2 4 ■ � 0 .• • • • E "F8030 N1VSD10 5,8,10,13,15,20 16 03HCO30 1050 2.90 - 12.0 10.2 MI E'FB036 N1VSD14 5,8,10,13,15,20 03HCO36 1260 34.0 11.0 - 10.2 - E1FB042 N1VSD14 58,10,13,15,20 • 4 G3HC042 1500 44.0 30.8 11.0 10.4 k 1 4• c • �• : �• • Fill • • • E1FB048 N1VSD20 5,8,10,13,1520 22 G3HC048 48.0 - 12.0 10.4 • • 4 • C • �. • � • � - • • • :A.11 L 1 4 : • 41 c , . • 4i a• s-� /�•I • • 9.7 UNIT MODEL AIR HANDLER MODIEL COOLING MODEL3 ELECTRIC HEAT KW W RATED CFM NET MBH KW SEER SEER/ B.O.D. SEER/ TXV EER TOTAL SENS. 1 and 3 Pose EF: S• &F F i[•�� : • • :. M[•Sn'� U111111111 - - �.?•�i0•1 �i�k�i[•VII - E'FB018 F1SA018 3,5,7,10 - - 17.0 1.70 10.2 - 10.5 10.0 IN E'F0024 F1 SA024 3,5 7,10 - 10.2 - 10.5 10.0 • • • . NINI • • • E'FB030 F1SA030 5,7,10,13,15 - 1080 28.0 2.80 10.0 - 10.0 t .. • - 6,,� El • • • • � : • : • : �IiF7 :l 1 • - - �4t . 1I4' +� • • - • • 515.26 -TG 1 Y COOLING CAPACITY - With Air Handler Coils 2 Rated In accordance with DOE test procedures (Federal Register 12-27-79) and ARI Standards 240 and 270. Cooling MBH based on 80 °F entering air temperature, 50% RH, and rated air flow. KW Includes compressor, outdoor fan and Indoor blower motor watts. Add-on coils include 365 watts /1000 CFM for blower motor. EER (Energy Efficiency Ratio) is the total cooling output in BTU's at a 95 F outdoor ambient divided by the total electric power in watt-hours at those conditions. SEER (Seasonal Energy Efficiency Ratio) Is the total cooling output In BTU's during a normal annual usage period for coding divided by the total electric power Input In watt-hours during the same period. 1 B.O.D. = Bower Off Delay (Model #2FD06700224). 2 TXV Thermal Expansion Valve Kit. Must be used with Hard Start lit Accessory (Including all G•UT coils). 3 To meet Florida R=4.2 insulation code requirements, substitute N1FAtor N2AH, N3FA for N4AH, G1 FC for G3HC and F1SF for F1 SA models. All ratings remain the same. 4 P2MP furnaces have B.O.D. standard. '• Field transition may be required. • Maybe 1 or 9. - = Not Applicable. Unitary Products Group UNIT MODEL FURNACE COIL M COOLING MODEL MODEL W I RCFMD NETMBH KW SEER SEER/ B.O.D. SEER/ TXV2 EER TOTAL 1 SENS. 1 and 3 P EFS/ UPFJ..OW FURNACE & COILS E *FB012 4 32 12 G3US018 575 13.0 9.5 1.63 10.5 - 11.0 8.0 P�2UDD�96 P2MPD08 32 12 G3US018 650 17.3 13.6 1.73 10.2 - 10.5 10.0 P2UDD06 38 E'FB018 P2MPD08 48 P2MPD12 48 16 G3UA024 18.4 14.3 1.75 10.4 - 11.0 10.5 P2UDD10 57 P2MPD08 32 P2MPD12 48 G3UA024 875 23.2 18.2 2.32 10.0 - - 10.0 P2MPD12 64 16 Q2UT024 870 23.2 18.2 2.32 10.0 - N/A 10.0 E'FB024 P2UDD10 57 G3UA036 875 23.4 18.6 2.23 10.5 - 11.0 10.5 P2UDD12 76 P2MPD14 80 G3UA037 875 23,4 18.6 2.23 10.5 - 11.0 10.5 P2UDD12 95 P2MPD12 48 P2MPD12 64 G3UA036 1100 29.4 2.80 10.2 - 10.5 10.5 E'FB030 P2UDD10 57 G2UT036 1100 29.4 ■ 2.80 10.5 - N/A 10.5 P2UDD12 78 P2MPD14 80 22 G3UA037 02UT037 1100 1100 29.4 29.4 23.1 23.1 2.80 2.80 10.2 10.5 - - 10.5 N/A 10.5 10.5 P2UDD1 95 P2MPD12 48 P2MPD12 64 t6 03UA036 1250 34.6 27.5 3.46 10.0 - 10.8 10.0 P2UDD12 76 G2UT036 1250 34.6 27.5 3.46 10.6 - N/A 10.0 P2MPD16 64 E *FB036 P2MPD14 80 P2MPD16 96 22 03UA037 G2UT037 1250 1250 34.6 34.6 27.5 27.5 3.46 3.46 10.0 10.6 - - 10.6 N/A 10.0 10.0 P2UDD16 78 P2UDD12 95 P2UDD16 114 P2MPD16 64 P2MPD14 80 P2MPD16 96 G3UA048 1550 45.0 10.5 11.0 11.5 10,5 P2MPD20 96 22 G2UT048 1550 45.0 n 2 g 11.0 - N/A 10.5 E1F13042 P2UDD16 76 G3UA060 1550 45.0 10.5 11.0 11.5 10.5 P2UDD20 95 P2UDD16 114 P2MPD20 112 G3UA061 1550 45.0 34,7 4,29 10.5 11.0 11.5 10.5 P2UDD20 133 G2UT060 1550 45.0 34.7 4.29 11.0 - N/A 10.5 P2MPD16 64 • P2MPD14 80 P2MPD16 96 G3UA048 48.5 35.9 4.85 10.4 - 11.0 10.0 P2MPD20 96 22 G2UT048 48.5 35.9 4.85 11.0 - N/A 10.0 EtFB048 P2UDD16 76 G3UA060 49.0 37.2 4.67 10.5 - 11.0 10.5 P2UDD20 95 P2UDD16 114 P2MPD20 112 G3UA061 1650 49.0 37.7 4.90 10.5 - 11.0 10.0 P2UDD20 133 26 G2UT060 1640 49.0 37.7 4.90 11.0 - N/A 10.0 P2MPD20 80 _ P2MPD20 96 22 G3UA060 2000 57.5 43.4 6.00 10.5 - - 9.6 E2FB060 P2UDD20 95 P2MPD20 112 G3UA061 2000 57.5 43.4 6.00 10.5 - - 9.6 P2UDD20 133 G2UT061 _ 2000 57.5 43.4 6.00 10.5 - - 9.6 COOLING CAPACITY - With Standard Furnaces See Notes on Page 2 Unitary Products Group 51 5.26 -TG 1 Y 3 1 and 3 Phase EFB / HORIZONTAL FURNACE & COILS E'FB01 • • 03HC018 575 13.0 9.5 1.86 10.3 - 0,5 7.0 E*FB018 - • t• . I : • ■ • 1 • • P2HED12 40 •• 03HCO24 875 22.4 17.5 2.24 102 - 11.0 10.0 60 . E'FB024 P1HDD12 47 69 •• E'FB030 P2HED12 40 •• 03HCO30 03HCO36 1080 1070 28.6 28.6 22.3 22.0 2.86 2.86 10.1 10.4 - • - 11.0 10.0 10,0 60 ** P1HDD12 47 •• /9 •• E* F B036 P2HED12 40 •• 03HCO36 G3HC042 1250 1250 34.0 35.0 26.5 26.0 3.57 3.50 10.0 10.0 - - 10.5 10.7 9.5 10.0 60 . P2HED16 80 •• P1HDD12 47 •• 69 •• P1HD1)1i 92 ** E1FB042 P2HED16 80 •• G3HC042 1550 44,0 30.8 . 4.40 10.0 10.6 11.0 10.0 P2HED20 100 . P1i-iDD16 92 ** P1HDIV0 115 Et FB048 P2HED16 80 . G3HC048 1600 48.0 35.5 , 4.40 10.1 - 11.0 10,0 P2HED20 100 P1HDD16 92 . P1HDDa 115 •• E2FBO6O P2HED20 , 100 , G3HC060 2000 56.5 42.9 5.95 10.5 - - 9.5 P1HDIVO 115 ** tawl - IL:LtufpjamNELauukp E'FB012 P2DPD08 k ACE 45 16 & COILS 1 G3CNO30 575 19.0 13.6 2.38 10,5 - 11.0 8.0 E'FB018 P2DPD08 45 16 G3CNO30 675 19.4 14.8 1.85 10.6 - 11.0 10.5 P1CDD10 57 E'FB024 P2DPD08 45 16 G3CNO30 825 23.8 17.3 2.27 10.6 • 11.0 10.5 P2DPD12 61 P1CDD10 57 P1COD19 76 E'FB030 P2DPD12 61 16 G3CNO30 1070 28.6 22.3 2.86 102 • 10.5 10.0 P1CDD10 57 76 E'FB036 P2DPD12 76 22 G3CN042 1250 36.0 28.6 3.60 10.3 - 11.0 10.0 P2DPD16 76 91 P1CCD16 95 Et FB042 P2DPD16 76 22 G3CN042 1550 45.0 33.0 4.29 10.5 11.0 11.5 10.5 91 P1CDD16 95 Et FB048 P2DPD20 106 ■ 26 G3CN060 1630 48.5 35.4 4.85 10.4 - 11.0 10.0 P1CDD20 114 E2FB060 P2DPD20 106 26 03CNO60 2000 58.0 44.4 6.04 10.5 - - 9.6 P1CDD20 114 515.26-TG1Y COOLING CAPACITY - With Standard Furnaces 4 UNIT MODEL See Notes on Page 2, FURNACE MODEL# MODEL MBH COIL MODEL RATED CFM NET MBH TOTAL SENS. COOLING KW SEER SEER/ B.O.D. SEER/ TXV2 EER Unitary Products Group UNIT MODEL FURNACE COIL MODEL COOLING MODEL OUTPUT MBH W RATED CFM NET MBH SYSTEM KW SEER SEE EER TOTAL 1 SENS. EFB / UPfLOW FURNACES & COLS E'FB018 P2MPV12N 64 16 G3UA024 660 19.0 14.9 1.81 11.8 - 10.5 E'FB024 P2MPV12N 64 16 G3UA024 850 23.6 18.5 2.32 112 - 102 G2UT024 850 23.6 2.32 - 10.2 G3UA036 850 25.0 20.2 2.31 11.5 - 10.8 P2MPV14N 80 22 G3UA037 900 24.0 19,2 i 222 11.8 - 10.8 E'F8030 P2MPV12N 64 16 G3UA036 1125 30.0 23.9 2.94 11.0 10.2 G2UT036 1125 30.0 - 10.2 P2MPV14N 80 G3UA037 1100 30.0 23.7 2.94 11.2 - 10.2 G2UT037 1100 _30.6 - 10.2 E'Ff3038 P2MPV12N 64 16 G3UA036 1275 34.6 27.5 3.46 10.5 - 10.0 G2UT036 1275 34.6 - 10.0 P2MPV14N 80 G3UA037 1250 35.4 28.3 3.47 11.3 - 10.2 G2UT037 1250 35.4 - 102 E1FB042 P2MPV2ON 80 22 G3UA048 1550 47.0 35.7 4.48 12.0 - 10.5 G2UT048 1550 47.0 35.7 - 10.5 G3UA060 1550 47.0 37,4 - 10.5 E1 FB048 P2MPV2ON 80 22 G3UA048 1550 49.0 35.4 4 71 11.5 - 10.4 02UT048 1550 49.0 35.4 - 10.4 c : It,. It e I • • e E2FB060 P2MPV2ON 80 22 G3UA060 2000 _ 57.5 43.4 6.00 10.5 - 9.6 G3UA061 _ G2UT061 - A• - IZO _ • 1 • S • CO S E'FB024 E'FB030IREI P2MPV12N 64 16 G3HCO24 850 18.0 11.0 - 10.2 ■ e 1 • , I - 64 G3HCO30 1050 29.0 22.7 2.84 10.7 - 10.2 il E'FB036 P2MPV14N 80 22 5 FMteN: G3HCO36 1250 27.0 10.6 - 10.0 c ■ e: 1550 MI 44,5 .• 31.3 428 11.5 - - 102 10.4 -!.:. w I - el ► ! Led -1 COOLING CAPACITY - With Variable Speed Furnaces 51 5.26 -TO 1 Y See Notes on page 2, plus Notes below: NIA- Rating does not apply. TXV factory installed in coil. 5 Horizontal coil width Is larger than furnace supply air opening width. Field transition is required. Unitary Products Group 5 UNIT MODEL SOUND RATING BELS E1FB E1 FB WITH COMPRESSOR BLANKET ACCESSORY E9FB 012 7.8 7.6 7.6 018 7.8 7.8 7.6 024 7.8 7.6 7.6 030 8.0 7.6 7.6 036 8.0 7.6 7.6 042 8.2 7.6 048 8.2 7.8 - 06Q 7,8 7.8 - 515.26 -TG 1 Y SOUND RATINGS (ARI STANDARD 270) CERTIFICATION APPLIES ONLY WHEN USED WITH PROPER COMPONENTS AS USTED WITH ARI UNIT MODEL COIL MODEL ARI HEATING OUTDOOR TEMP 47°F 17°F HSPF °F I F I'^ F �^ I�I:T.I a �' ffila a „ - . '1 M, =. In1i'- Tii �7niT '- 7.�I „ : 47°F � 1 and 3 phase EFB / AIR HANDLERS & COILS E'FB012 G3HC018 13.0 3,0 7.0 2.0 7.1 - 4.7 0.9 5,8 0.9 7.0 1.0 9.5 1.1 11.2 i.2 13,0 1.3 14.8 1.3 G1FC018 13.0 3.0 7.0 2.0 7.1 - 4.7 0.9 5.8 0.9 7.0 1.0 9.5 1.1 11.2 1.2 13.0 1.3 14.8 1.3 F1SA018 13.0 3.0 7.0 2.0 7.0 - 4.7 0.9 5.8 0.9 7.0 1.0 9.5 1.1 11.2 1.2 13.0 1.3 14.8 1.3 . F1SF018 13.0 3.0 7.0 2.0 7.0 - 4.7 0.9 5.8 0.9 7.0 1.0 9.5 1.1 11.2 12 13,0 17.9 1.3 1.7 14,8 20.9 1.3 1.9 E'FB018 G3HC018 17.9 3.0 9.9 2.0 7.1 - 6.3 1.3 7.7 1.4 9.9 1.4 13.0 1.6 15.4 1.7 G3HCO24 17.8 3.1 9.8 2.0 7.2 7.2 6.0 12 7.9 1.3 9.8 1.4 12.0 1.5 14.8 1.6 17.8 1.7 20.3 1.8 G1FC018 17.9 3.0 9.9 2.0 7.1 - 6.3 1.3 7.7 1.4 9.9 1.4 13.0 1.6 15.4 1.7 17.9 1.7 20.9 1.9 G1FCO24 17.8 3.1 9.8 2.0 7.2 7.2 6.0 1.2 7.9 1.3 9.8 1.4 12.0 1.5 14.8 1.6 17.8 1.7 20.3 1.8 F1SA018 17.4 3.0 9.5 2.0 7.0 - 5.8 1.3 7.1 1.4 9.5 1.4 12.6 1.6 14.9 1.6 17.4 1.7 19.4 1.8 F1SA024 17.8 3.0 9.8 2.0 7.2 - 6.0 1.4 7.3 1.5 9.8 1.6 12.7 1.6 15.0 1.7 17.8 1.7 20.3 1.8 F1SF018 17.4 3.0 9.5 2.0 7.0 - 5.8 1.3 7.1 1.4 9.5 1.4 12.6 1.6 14.9 1.6 17.4 1.7 19.4 1.8 F1SF024 17.8 3.0 9.8 2.0 7.2 - 6.0 1.4 7.3 1.5 9.8 1.6 12.7 1,6 15.0 1.7 17.8_ 23.4 1.7 2.2 20.3 27.4 1.8 2.3 E'F8024 G3HCO24 23.4 3.1 13.8 2.2 7.4 7.4 9.5 1.9 11.8 1.9 13.8 1.8 17.4 2.0 20.2 2.1 G3HCO30 23.0 32 12.7 2.0 7.4 - 8.7 1.6 10.8 1.7 12.7 1.9 17.1 1.9 19.9 2.0 23.0 2.1 27.3 2.2 G 1 FCO24 23.4 3.1 13.8 2.2 7.4 7.4 9.5 1.9 11.8 1.9 13.8 1.8 17.4 2.0 20.2 2.1 23.4 2.2 27.4 2.3 01FCO30 23.0 3.2 12.7 2.0 7.4 - 8,7 1.6 10.8 1.7 12.7 1.9 17.1 1.9 19.9 2.0 23.0 2.1 27.3 2.2 F1SA024 22.8 3.1 12.6 2.0 7.2 - 9.1 1.9 11.3 1.9 12.6 1.8 17.0 1.9 19.8 2.0 22.8 2.3 27.0 2.3 F1 SA030 22.5 32 12.0 2.1 7.2 8.4 1.6 9.9 1.6 12.0 1.6 16.4 1.9 19.4 1.9 22.5 2.1 26.4 2.2 F1SF024 22.8 3.1 12.6 2.0 7.2 - 9.1 1.9 11.3 1.9 12.6 1.8 17.0 1.9 19.8 2.0 22.8 2.3 27.0 2.3 F1SF030 22.5 32 12.0 2.1 7.2 - 8.4 1.6 9,9 1.6 12.0 1.6 16.4 1.9 19.4 1.9 22.5 2.1 2.6 _26.4 32.0 2.2 2.8 E'F8030 03HCO30 27.8 3.1 15,3 2.1 7.3 7.2 10.1 1.9 12.6 2.0 15.3 2.1 19.3 2.3 23.3 2.4 27.8 G3HCO36 28.0 3.2 16.0 2.2 7.5 8.0 11.3 2.0 13.4 2.0 18.0 2.1 20.8 2.4 24.3 2.4 28.0 2.6 33.2 2.7 G t FCO30 27.8 3.1 15.3 2.1 7.3 7.2 10.1 1.9 12.6 2.0 15.3 2.1 19.3 2.3 23.3 2.4 27.8 2.6 32.0 2.8 G1FCO36 28.0 3.2 16.0 2.2 7.5 8.0 11.3 2.0 13,4 2.0 16.0 2.1 20.8 2.4 24.3 2.4 28.0 2.6 332 2.7 F1SA030 27.6 3.1 15.8 2.1 7.3 - 10.9 2.0 12.9 1.9 15.8 2.2 20.6 2.3 23.9 2.5 28.1 2.6 32.3 2.7 F1SA036 28.0 32 15.4 2.1 7.5 - 10.9 2.0 12.9 2.1 15.4 2.1 20.8 2.3 24.3 2.4 27.0 2.5 33.2 2.7 F1 S F030 27.6 3.1 15.8 2.1 7.3 - 10.9 2.0 12.9 1.9 15.8 2.2 20.6 2.3 23.9 2.5 28.1 2.6 32.3 2.7 F1SF036 28.0 32 15.4 2.1 7.5 - 10.9 2.0 12,9 2.1 15.4 2,1 20,8 2.3 24.3 2.4 27.0 2.5 332 2.7 E'FB036 G3HCO36 36,4 3.1 21.0 22 7.4 8.0 12.0 2.2 15.8 2.4 21.0 2.6 26.1 2.9 31.2 3.1 36.4 3.4 41.4 3.6 G3HC042 36.4 3.1 21.0 2.1 7.2 8.0 12.0 2.2 15.8 2.4 21.0 2.6 26.1 2.9 31.2 3.1 36.4 3.4 41.4 3.6 G1FCO36 36.4 3.1 21.0 2.2 7.4 8.0 12.0 22 15.8 2.4 21.0 2.6 26.1 2.9 31.2 3.1 36.4 3.4 41.4 3.6 G 1 FC042 36.4 3.1 21.0 2.1 7.2 8.0 12.0 2.2 15.8 2.4 21.0 2.6 26.1 2.9 31.2 3.1 36.4 3.4 41.4 3.6 F 1 SA036 36.6 3.1 20.2 2.1 7.3 - 11.8 2.2 15.4 2.5 20.2 2.7 25.9 3.0 30.8 3.2 36.6 3.4 41.0 3.7 F1SF038 36.6 3.1 20.2 2.1 7.3 - 11.8 2.2 15.4 2,5 X02 2,7 3.0 30.8 3,2 36.6 3.4 41.0 3.7 E1 F8042 G3HC042 42.2 32 22.6 2.2 7.5 8.0 14.3 2.4 17.1 2.7 22.6 3.0 _25,9 29.6 3.2 35.9 3.5 42.2 3.8 48.5 3.9 G3HC048 42.6 3.2 23.6 2.2 7.5 8.0 14.3 2.4 17.2 2.7 23.6 3.1 29.5 3.3 35.9 3.5 42.6 3.8 48.2 3.9 G1FC042 42.2 3.2 22.6 2.2 7.5 8.0 14.3 2.4 17.1 2.7 22.6 3.0 29.6 32 35.9 3.5 42.2 3.8 48.5 3.9 G1FC048 42.6 3.2 23.6 2.2 7.5 „ 8.0 14.3 2.4 172 2,7 23,6 3.1 29,5 3.3 35.9 3.5 42.6 3.8 48.2 3.9 E1FB048 _ G3HC048 50.0 3.2 30.0 2.3 7.6 8.0 18.7 3.0 22.7 3.4 30.0 3,8 39.3 4.0 46.0 4.3 50.0 4.6 56.6 4.8 G3HC060 51.0 3.2 30.0 2.3 7.6 8.3 18.7 3.0 22.7 3.4 30.0 3,8 39.0 4.0 47.0 4.4 51.0 4.7 57.0 4.9 G 1 FC048 50.0 3.2 30.0 2.3 7.6 8.0 18.7 3.0 22.7 3.4 30.0 3.8 39.3 4.0 46.0 4.3 50.0 4.6 56.6 4.8 G 1 FC060 51.0 3 2 30.0 2.3 7.6 8,3 t 8.7 3.0 22. 3.4 30,0 , 3.8 39.0 4.0 470 4 4 51 0 4.7 57.0 4.9 E2FB060 G3HC060 61.0 3,4 36.3 2.3 7.7 7.8 23.0 3.6 29.0 4.1 36.3 4.7 . 48.0 5.0 57.9 5.2 61.0 5.3 69.0 5.5 G 1 FC060 61.0 3.4 36.3 2.3 7.7 7.8 23.0 3.6 29 .0 4.1 36.3 4 7 48 0 5 0 5 79 5 2 61 0 5.3 69 0 5.5 Unitary Products Group HEATING PERFORMANCE - With Air Handler Coils 515.26 -TG 1 Y Rated CFM same as for cooling. 2 Heafing performance and efficiency Is the same for TXV application. Heating MBH based on 70° DB entering indoor air, 72% RH outdoor air with 25 feet of interconnecting piping and no supplemental electric heat operation. 3 Integrated heating capacities include the effect of defrost cycles in the temperature range where they occur. COP equals MBH output divided by (total KW Input x 3.412). HSPF (Heating Seasonal Performance Factor) is the total heating output during a normal annual usage period for heating divided by the total electric power Input during the same period. VS - Variable Speed. ' May be1or9. 7 UNIT MODEL COIL MODEL ARI HEATING OUTDOOR TEMP 47 °F 17 °F HSPF -3 °F 7 °F 17 °F 27 °F 37 °F 47 °F 57 °F :1 1M M ��' r4 7 a =. .�iIMI A• IIII MI M .�VI EMII Itl^.7 l AA 1 and 3 'hase EFB / UPFLOW FURNACE & COILS E'FB012 G3US018 13.0 3.0 7.0 2.0 7.2 - 4,7 0.1 5.8 0.9 7.0 1.0 9.5 1.1 112 12 13.0 1.3 14.8 1.3 E'F8018 G3US018 18.4 3.1 9.8 2.0 7.1 - 6.2 1.3 7.6 1.4 9.8 1.4 13.5 1.6 15.9 1.7 18.4 1.7 21.4 1.8 G3UA024 _ 18.1 3.1 9,9 2.0 7 2 7.2 6.8 1.4 8.5 1.5 9.9 1.5 13.6 1.6 15.9 1.7 18.1 1.7 20.8 1.9 E'FB024 Q3UA024 22.6 3.0 12.8 _ 2.0 7.1 7.2 8.7 1.6 10.7 1.7 12.6 1.8 16.7 2.0 19.7 2.1 22.6 2.2 26.7 2.3 G2UT024 22.6 3.0 12.6 2.0 7.1 7.2 8.7 1.6 10.7 1.7 12.6 1.8 16.7 2.0 19.7 2.1 22.6 2.2 26.7 2.3 G3UA030 23.4 3.1 12.6 2.0 7.2 7.4 8.8 1.6 10.4 1.8 12.6 1.8 15.9 1.9 19.6 2.1 23.4 22 26.6 2.0 G3UA036 23.6 3.2 13.2 2.1 7.3 7.5 9.4 1.9 11.1 1.9 13.2 2.0 17.6 2.0 20.5 2.1 23.6 2.1 28.0 2.3 G3UA037 23.6 32 132 2.1 7.3 7.5 9.4 1.9 11.1 1,9 13.2 2,0 17.6 2.0 20.5 2.1 23.6 2.1 28.0 2.3 E'F8030 _ G3UA036 29.4 3.2 15.8 2.1 7.4 7.4 10.7 1.9 13.3 2.1 15.8 2.2 20.4 2.4 24.7 2.5 29.4 2.7 33.8 2.9 G2UT036 29.4 3.2 15.8 2.1 7.4 7.4 10.7 1.9 13.3 2.1 15.8 22 20.4 2.4 24.7 2.5 29.4 2.7 33.8 2.9 33UA037 29.4 3.2 15.8 2.1 7.4 7.4 10.7 1.9 13.3 2.1 15.8 22 20.4 2.4 24.7 2.5 29.4 2.7 33.8 2.9 C • .N • • 4 4 • - • • E'F8036 03UA036 36.6 3.1 20.2 2.1 7.2 7.2 12.0 2.2 15.8 2.4 20.2 2.7 26.0 2.9 31.0 3.1 36.6 3.4 41.2 3.6 G2UT036 36.6 3.1 20.2 2.1 7.2 7.2 12.0 2.2 15.8 2.4 20.2 2.7 26.0 2.9 31.0 3.1 36.6 3.4 41.2 3.6 G3UA037 36.6 3.1 20.2 2.1 7.2 7.2 12.0 2.2 15.8 2.4 20.2 2.7 26.0 2.9 31.0 3.1 36.6 3.4 41.2 3.6 e 1 • ' , . .• • 1 . �. • • • _ - E1FB042 G3UA048 42.6 3.2 23.0 2.2 7.5 8.0 14.0 2.4 17.2 2.7 23.0 3.0 30.0 3.2 36.0 3.5 42.6 3.7 49.0 3.9 G2UT048 ,42.6 3.2 23.0 22 7.5 8.0 14.0 2.4 17.2 2.7 23.0 3.0 30.0 3.2 36.0 3.5 42.6 3.7 49.0 3.9 G3UA060 43.0 3.3 24.0 2.3 7.8 8.0 14.0 2.4 17.6 2.6 24.0 3.0 30.2 32 36.5 3.4 43.0 3.7 49.2 3.8 G2UT060 43.0 3.3 24.0 2.3 7.8 - 14.0 2.4 17.6 2.6 24.0 3.0 30.2 32 36.5 3.4 43.0 3.7 49.2 3.8 :.. • • • - • • • . • • 1 ■ • • . E1 FB048 G3UA048 49.0 3.2 28.5 2.3 7.8 7.6 17.5 3.0 21.0 3.3 28.5 3.6 38.0 3.9 45.0 4.2 49.0 4.5 55.0 4.6 32UT048 49.0 3.2 28.5 2.3 7.6 7.6 17.5 3.0 21.0 3.3 28.5 3.6 38.0 3.9 45.0 4.2 49.0 4.5 55.0 4.6 G3UA060 51.0 3.3 29.5 2.4 7.4 7.5 18.0 3.0 22.0 3.3 29.5 3.6 39.0 3.9 46.0 4.2 51.0 4.5 56.0 4.6 G2UT060 51.0 3.3 29.5 2.4 7.4 - 18.0 3.0 22.0 3.3 29.5 3.6 39.0 3.9 46.0 4.2 51.0 4.5 56.0 4.6 G3UA061 51.0 3.3 29.5 2.4 7.4 - 18,0 3.0 22,0 3,3 29,5 3.6 39.0 3.9 46.0 42 51.0 4.5 56.0 4.6 E2FB060 G3UA060 61.0 3.4 36.3 2.3 7.7 - 23.0 3.6 29.0 4.1 36.3 4.7 48.0 5.0 57.9 5.2 61.0 5.3 69.0 5.5 G3UA081 61.0 3.4 36.3 2.3 7.7 - 23.0 3.8 29.0 4.1 36.3 4.7 48.0 5.0 5.79 5.2 61.0 5.3 69.0 5.5 G2UT061 62.0 3.3 36.0 2.3 7.6 - 22,5 3.8 27.0 4.1 36.0 4.6 48.0 52 58.8 5.4 62.0 5.5 70.0 5.8 _ , • 3 • , : : 00 A L a 01 - k .0 & O .S • :.: c ► • -• it=x1 ■IFTIFTEiRl - i'71 WliFirEU T7ifl1 Jit1ii1:15IE1011777i1[1F • : • ' MEM FAMIFIRIPTINXIIIFEll - 1 1IR1FAIRIFINhh1M1 11 Z1F .• FICIF !1101111FSfl • •• • IIMMII F milli SIFnlin! - iMIiF:1fiP/7IIM7it11171i=1F1I 12111Pla : • : • : ► •, I_I F Phil' - crF rI :1Fn1rnFn r IFIFII •7 i nIrl[r • :Lk; < ► •_ [t I • F.11iii - Ii 1FrlIv nFUPTIFI 7 • l ICWIF I J :• •. ..• k nn ! • Fmixi - Mina morrimirrime FIE ii 'arninf7[N7 f • - 8 ?:t 515.26 -TQ 1Y HEATING PERFORMANCE - With Furnace Coils tems v.04 4.30 7tr':f 0,14 WYPIOrlint ^'. NegtHret _ ...........,...,............ r,... n.,+ n+... w�......-...-,........ •..,....- .........»«- ....,..... ' Rated CFM same as for cooling. 2 Heating performance and effidency Is the same for TXV application .Heating MBH based on 70° DB entering indoor air, 72% RH outdoor air with 25 feet of interconnecting piping and no supplemental electric heat operation. 3 Integrated heating capadties include the effect of defrost cycles in the temperature range where they occur. COP equals MBH output divided by (total KW Input x 3.412). HSPF (Heating Seasonal Performance Factor) Is the total heating output during a normal annual usage period for heating divided by the total electric power input during the same period. VS = Variable Speed. ' Maybe 1 or 9. - = Not Applicable. Unitary Products Group c MODEL E'FB E'FB E'FB E'FB E'FB E1FB E1FB E2FB 012 018 024 030 036 042 048 060 UNIT SUPPLY VOLTAGE 208/230-1-60 NORMAL VOLTAGE RANGE' 187 to 252 MIN. CIRCUIT AMPAC TY 12.0 12.0 15.2 19.2 23.2 28.8 32.5 36.1 MAX. OVERCURRENT DEVICE AMPS 15 15 20 25 35 40 45 60 COMPRESSOR AMPS RATED LOAD 7.4 7.4 9.7 12.3 17.3 21.8 24.7 27.6 LOCKED ROTOR 48 48 60 73 94 105 105 170 CRANKCASE HEATER YES YES YES YES YES YES YES YES F AN MOTOR AMPS RATED LOAD 0.8 0.8 0.8 0.8 1.6 1.6 1.6 1.6 LOCKED ROTOR 1.9 1.9 1.9 1.9 3.5 3.5 3.5 3.5 MIN. FIELD WIRE SIZE AWG 60°C COPPER CONDUCTORS 14 14 12 12 10 10 8 8 MAX. WIRE LENGTH FEET BASED ON 3% VOLTAGE DROP 208V 77 77 99 81 108 95 150 124 230V 86 86 110 90 120 105 167 138 FAN DIAMETER INCHES 18 18 18 18 24 24 24 24 FAN MOTOR RATED HP 1/8 1/8 1/8 1/4 1/4 1/4 1/4 1/4 NOMINAL RPM 1075 1075 1075 1075 860 860 860 860 NOMINAL CFM 2000 2000 1900 2200 3200 3200 3400 3300 COIL FACE AREA SO. FT. 15.1 15.1 14.1 14.1 20 20 24.0 24.0 ROWS DEEP 1 1 2 2 2 2 2 2 FIN/INCH 16 16 13 13 13 13 13 13 LIQUID LINE OD 5/16 5/16 5/16 5/16 5/16 3/8 3/8 3/8 VAPOR LINE OD 5/8 5/8 5/8 3/4 3/4 7/8 7/8 7/8 OPERATING VVEIGHT LBS. 148 148 170 17L 242 252 296 312 MODEL E1FB036 1 E1FB048 1 E2F13060 E1FB036 1 E1F6048 1 E2FB060 25 46 UNIT SUPPLY VOLTAGE 208/230-3-60 460.3-60 NORMAL VOLTAGE RANG& 187 to 253 432 to 504 MIN. CIRCUIT AMPACITY 15.2 20.0 21.4 8.0 9.7 10.1 MAX. OVERCURRENT DEVICE AMPS 25 30 40 15 15 20 COMPRESSOR AMPS RATED LOAD 10.9 14.7 15.8 5.8 7.1 7.4 LOCKED ROTOR 78 130 124 40 64 59.6 CRANKCASE HEATER YES YES YES YES YES NO FAN MOTOR AMPS RATED LOAD 1.6 1.6 1.6 0.8 0.8 0.8 LOCKED ROTOR 3.5 3.5 3.5 2.0 2.0 2.0 MIN. FIELD WIRE SIZE AWG 60°C COPPER CONDUCTORS 12 10 10 14 14 14 MAX. WIRE LENGTH FEET BASED ON 3% VOLTAGE DROP 208V 106 127 107 - - - 230V 117 140 118 - - - 460V - 261 216 164 FAN DIAMETER INCHES 24 24 24 24 24 24 FAN MOTOR RATED HP 1/4 1/4 1/4 1/4 1/4 1/4 NOMINAL RPM 860 860 860 860 860 860 NOMINAL CFM 3200 3400 3300 3200 3400 3300 COIL FACE AREA SO. FT. 20 24 24 20 24 24 ROWS DEEP 2 2 2 2 2 2 FIN/INCH 13 13 13 13 13 13 UQUID LINE OD 5/16 3/8 3/8 5/16 3/8 3/8 VAPOR LINE OD 3/4 7/8 7/8 3/4 7/8 7/8 OPERATING VVEIGHT LBS. 242 296 312 242 296 312 c.. PHYSICAL AND ELECTRICAL DATA - (1 Phase) . range "A' in accordance with ARI standard 110. 'Dual element !uses or HACR circuit breaker. May be 1 or 9. PHYSICAL AND ELECTRICAL DATA - (3 Phase) ;Utilization range "A" in accordance with ARI standard 110. 'Dual element fuses or HACR circuit breaker. May be 1 or 9. Unitary Products Group 515.26-TG1Y 9 MODEL Dimensions Wiring K.O.'s" Refrigerant Connections A B C G H Line Size Quick Conn. Height Width Depth Power Control Liquid Vapor Liquid Vapor E'FB012 32.1/8 24 24 7/8 1.1/8 7/8 5/16 5/8 M 6 M 11 E'FB018 32.1/8 24 24 E'F13024 30-1/8 24 24 E'FB030 30.1/8 24 24 3/4 E'FB036 31.7/8 35 35 E1FB042 31 -7/8 35 35 3/8 7/8 EtFB048 37.7/8 35 35 E2FB060 _ 37-7/8 35 35 515.26 -TG 1 Y TYPICAL INSTALLATION THERMOSTAT TO BLOWER MOTOR RELAY TO COIL NOTE: All outdoor wiring must be weatherproof DIMENSIONS VAPOR CONNECTION LIQUID CONNECTION A 10 'May be 1 or 9. Seal opening(s) with permagum or equivalent 48" OVERHEAD CLEARANCE 3 -1/8 TO POWER SUPPLY NEC CLASS 2 WIRING 2-3/8 NEC CLASS 1 12" REAR WIRING AND SIDES 5 -1/2 WEATHERPROOF DISCONNECT SWITCH 24" SERVICE ACCESS CLEARANCE Check local weather bureau for snow accumulation/clearance All dimensions are In inches. They are subject to change without notice. Certified dimensions will be provided upon request. E'FB012 THRU E'FB030 AIR IN 4 SIDES • 48" OVERHEAD CLEARANCE A ElFB036 THRU El FB060 AND VAPOR E9FB036 CONNECTON "Use the 7/8" KO with a 1/2" conduit fitting for #8 AWG wire or smaller. Use tho 1 -1/8" KO with a 3/4" conduit fitting for #6 AWG wire or smaller. 48" OVERHEAD CLEARANCE LIQUID CONNECTION 3-1/8 Sit unit on rubber elevating grommets b reduce noise and allow for proms drainage. AIR IN 4 SIDES 2-3/8 Unitary Products Group i ? rJS..k;: aY TYPICAL FIELD WIRING - (1 Phase) THERMOSTAT POWER WIRING - - -' 24V CONTROL WIRING (NEC CLASS 2) THERMOSTAT 7 WIRES 1 T I -- I - -- — FIELD INSTALLED JUMPER 1 i Jumper Seminal* E and W b heat on feat Nape durhg Emergency Heal TYPICAL FIELD WIRING - ( Phase) r_ — so POWER WIRING - - -• 24V CONTROL WIRING (NEC CLASS 2) THERMOSTAT Unitary Products Group I 7 WIRES J � — i - - - --- —J FIELD INSTALLED JUMPER Jumper terminals E and W to host on first stage during Emergency Haat. 2 Torminal noI used on all thermostats. IMMIMEMOW R 53 60 66 0 0 R B X W Y 60 1i1 GRD. LUG �: +tit<'Y Ls ?f!�� `:"u:4! s'Sk'Yl°•Cl: A": ;1 ALL WIRING TO BE IN ACCORDANCE WITH NATIONAL ELECTRIC CODE AND /OR LOCAL CODES INDOOR UNIT LOW VOLTAGE TERMINAL BLOCK 3 . 4 IN AIR HANDLER WITH ELECTRIC HEAT t 7WIRES GRD. LUG CIRCUIT BREAKER *" AN LOW VOLTAGE TERMINAL BLOCK 3'4 IN AIR HANDLER WITH ELECTRIC HEAT OM- - s ADD WHEN STAND-BY 53 HEATER IS USED �— O ---- 9 7 WIRES I — X • NOT USED MIME =NMI - r• M DEFROST CONTROL R X 0 66 W Y DEFROST CONTROL R 0 66 W 8 T THERMISTOR POWER SUPPLY 208/230-3-60 460.3.60 OUTDOOR UNIT CONTACTOR B ✓ 1 1 1 1 1 THERMISTOR 1 1 1 1 1 1 POWER WIRING 208/230 -1 -60 ALL WIRING TO BE IN ACCORDANCE WITH NATIONAL ELECTRIC CODE AND /OR LOCAL CODES THERMOSTAT INDOOR UNIT OUTDOOR UNIT CONTACTOR POWER WIRING 208/230.3.60 460.3.60 GRD. SCREW 3 Check the low voltage terminal block on the Indoor unit for the actual arrangement of the terminals. 2 Terminat not used on all thermostats, 4 Connecl power wiring to terminal block 3TB on units without electric heat or units without a circuit breaker.. 111 1 1 1 1 HIP 111 1 3 Check the low voltage terminal block on the Indoor unit for the actual arrangement oI the terminals. GRD. SCREW ( Connect power wiring to terminal block 3TB on units without electric heat or unlls without a circuit breaker. 51 5.26 -TG 1 Y 11 MATCHING INDOOR COMPONENTS Add Coils - For Furnace Application DOWNFLOW G3CN p UPFLOW G3UA and G2UT Air Handlers - For Non - Furnace Application 03 UPFLOW ® DOWNFLOW OO HORIZONTAL WAN/ N'FA BLOWER G3HCi 1 FC COIL ACCESSORIES Refer to Price Manual for specific model numbers. Stub Adapters - Available to adapt sweat connect units to quick connect coils or sweat connect coils to quick connect units. Precharged Line Sets - Available in 15, 25, 35 and 50 foot lengths for connection of quick connect models. Outdoor liquid ends have F -6 connectors, vapor ends have F -11 connectors. Indoor liquid ends have M-6 connectors, vapor ends have M -11 connectors. All indoor vapor ends are provided with a 90° bend. A 30 foot line set with straight ends is available for splicing to other lines for longer runs. All vapor lines are insulated with 1/2 sponge rubber, Start Assist Kit - Provides increased starting torque for areas with low voltage conditions. LIYORIC Heating and Air Conditioning Unitary Products Group P.O. Box 1592, York, Pennsylvania USA 17405.1592 Subject to change without notice. Printed in U.S.A. Copyright 0 by York International Corporation 1995. All rights reserved. SHU 12M 395 66 Typical Application O3 UPFLOW OO HORIZONTAL Compressor Blanket - Designed to further reduce the normal operating sound. (E9FB has compressor blanket standard). Add Control - Provides interface for use of gas and oil furnaces with the heat pump system. Room Thermostats - A wide selection of matching thermostats is available to provide features required for any installation. Blower Off Delay - Available to increase efficiency. Installs on indoor section to maintain blower operation for approximately 1 minute on shutdown. Thermal Expansion Valve Kit - Used to improve system per- formance. Hard Start Ktts - Provides required starting torque for use with Thermal Expansion Valve Kit. Low Temperature Cutout - Prevents heat pump operation be- low -10 °F ambient temperature. Outdoor Thermostat - Provides additional staging of supple- mental electric heat. Codes: EBY,EGY F1SA/ F1SF FAN COIL UNIT USA r..,., .� -.. q .h Iwo r , Isl.,. ,.:- 515.26•TG 1 Y Supersedes: 515.26•TG1Y (1292) r.� RECEIVED CITY OF TUKWILA DEC 0 21996 PERMIT CENTE DESCRIPTION This unique modular system allows the flexibility to handle any application. These versatile coils and blowers may be used for upflow, downflow, or horizontal applications. They may be com- bined to function with a cooling only unit or with a heat pump and may include electric heat. The blower and electric heater could be used alone for electric furnace applications. FEATURES BLOWERS - Models to match any air flow or voltage require- ment. The compact size allows easy installation. Blowers are sized to deliver design air quantity both efficiently and quietly. The direct - drive, multi-speed blower motors provide a selection of air quantities to match any application. All electric heat kits and transformer relay kits include a one - minute blower off delay as standard to enhance system efficiency ratings. The durable, pre - painted steel protects the unit against rust and corrosion. N'AH models have 1/2 inch fiber glass insulation and N'FA models have 1 inch insulation (R value = 4.2). COILS - Nominal 1 thru 5 ton models match Stellar 2000TH series units. Staggered rows of rifled copper tubes are mechani- ERYORK® FOR USE WITH SPLIT SYSTEM COOLING AND HEAT PUMP 600 - 2000 CFM BLOWERS 1 - 5 TON COILS OPTIONAL ELECTRIC HEATERS ( FOR DISTRIBUTION USE ONLY • NOT TO BE USED AT POINT OF RETAIL SALE 1 535.01- TG1Y(1193) N *AH or N *FA MODULAR AIR HANDLERS cally expanded into aluminum fins to provide high heat transfer and long- lasting quality. The G'1-IC, G'FC and G'HT coils are multi - position and may be used for upflow and horizontal appli- cations without modification or may be field-converted for down - flow application. The G'HC and G'FC coils use the YorfcMateTH refrigerant control. The G *HT coils have a thermal expansion valve factory installed. Coil cabinets are insulated to prevent sweating. WHO models have 1/2 inch insulation while G'FC and G'HT models have 1 inch insulation (R value = 4.2). ELECTRIC HEATERS - Models are available to match any requirement. All heaters include nickel- chromium elements with a 5 -year limited warranty. Sequencers are provided to control heaters in all models. Circuit breakers are used in all 208/230 volt, single -phase heaters of 13 KW and larger. Models equipped with circuit breakers may be altered in the field to use multi- source power supply. Over - temperature limit switches pro- vide protection from air flow loss. ACCESSORIES - A full line of matching accessories available for use with the blower and coils to allow any type application. BLOWER MODEL COIL T MODEL I RATED CFM ENTERING AIR °F (Dry /WetBulb) MBH ® Evaporator Temperature and Corresponding Pressure °F / PSIG 35/61,5 1 40/68.5 45/76.0 50/84.0 - I - i - _ I • • • HORI ONT L 0.98 1.00 1.02 85 / 72 29.5 27,6 25,2 22.4 N2AHD06, G3HC018, 80 / 67 25.4 23.3 20.6 17.2 N 1 FAD06 G 1 FC018 675 75 / 62 21.4 19.0 15.9 13.1 70 / 57 17.4 15.0 13.0 10.2 85 / 72 43.5 40.6 36.8 32.2 G3HCO24, 900 80 / 67 37.3 33,9 29.7 24.6 G 1 FCO24 75 / 62 31.2 27.3 23.4 17.8 N2AHD10, 70 / 57 25.1 21.2 17.6 13.7 N 1 FAD10 85 / 72 55.7 52.0 47.5 41.7 G3HCO30, 80 / 67 47.7 43.6 38,4 32.0 G 1 FCO30 1125 75 / 62 40.0 35.2 30.1 23.1 70 / 57 32.4 27.4 22.8 17.9 85 / 72 58.8 55.2 50.6 44.7 G3HCO36, 80 / 67 50.7 46.4 41.2 34.5 G1 FCO36 1350 75 / 82 42.7 37.9 31.8 26.2 N4AHD14, 70 / 57 34.8 30.1 25.9 20.4 N3FAD14 85 / 72 86.5 79.6 71.4 61.6 G3HC042, 80 / 67 73.1 65.7 56.7 47.5 G1 FC042 1575 75 / 62 60,3 52.2 43.0 30.9 70 / 57 48.4 39.2 30.7 25.2 85 / 72 90.9 84.4 76.2 66,4 N4AHD16, G3HC048, 800 80/67 77.5 70.1 61,2 50.3 N3FAD16 31 FC048 1 75 / 62 64.4 56.3 47.5 35.4 70 / 57 51.8 43.3 35.1 27.4 85 / 72 115.0 105.7 94.8 81,6 N4AHD20, G3HC060, 80 / 67 97.3 87.3 75.3 63.8 N3FAD20 G1 FC060 2250 75 / 62 80.4 69.5 57,8 42.0 70 / 57 64.1 52.8 41.7 32.5 85 / 72 115.0 105.7 94.8 81.6 N4AHD20, G1HT6OD 2250 80/67 97.3 87.3 75.3 63.6 N3FAD20 G 1 HT061 75 / 62 80.4 69.5 57.8 42.0 70 / 57 64,1 52,8 41.7 32.5 OF RATED AIR FLOW 80 % 90 % RCFM 110 % 120 % CAPACITY FACTOR 0.96 0.98 1.00 1.02 1.03 Wet Bulb Temp. °F Dry Bulb Temp. °F Min. Max. Min. Max. 57 72 65 95 535.01 -TG 1 Y COOLING CAPACITY - COIL ONLY See Condoning UM or Heat Pump Technical Guide for Total Cooling Capaoiy and Sensible Capacity. APPLICATION FACTORS - Rated CFM vs. Actual CFM NOTE: Do not exceed mnimurnlmax,num CFM into shown under Air Flow Data. LIMITATIONS Blower Voltage 208/230 (06) 460 (46) Utlization range 'A' In accordance wlh ARI Std, 110. 2 These units must be wired and installed in accordance with all national and local safety codes. Voltage limits are as follows: Normal Operating Voltage Range' 187 - 253 414 - 506 Stt', "h'W: SEALS OF APPROVAL APPLY TO N'AH MODELS ONLY. Air flow must be within the minimum and maximum limits ap- proved for electric heat, evaporator coils and outdoor units. Entering Air Temperature Limits Central Environmental Systems BLOWER MODELS N2AH or N1FA N4AH or N3FA D06A06 D10A06 014A06 D14A46 D16A06 D16A46• D20A06 D20A46 Blower - Diameter x Width 9 x 4 9 x 7 9 x 9 10 x 10 10 x 10 Motor HP 1/8 1/3 1/2 1/2 3/4 Nonninal RPM High 1075 1075 1075 1075 1075 Medium 950 950 950 950 950 Low 825 825 825 825 825 Voltage 1.1 208/230 2.4 Volt (187 min. - 253 3.2 max.) 5.0 5.0 Amps Full Load I o ked Rotor 1.6 5.0 8.0 10.4 10.4 Voltage 460 Volt (414 min. - 506 max.) Ames Full Load - - - - - • 1.7 3.0 3.0 Locked Rotor - - - - - 3.7 5.8 5 Filter TYPe H oh Velocity. Cleanable Size 12x21 -1/2x1 16x21 -1/2x1 22x21 -1 /2x1 26x21 -1/2x1 26x21 -1/2x1 Ooeratind Weiaht (Ibs.) 50 86 80 85 _§8 COIL MODEL USED WITH BLOWER (SIZE) REFRIG. CONN. TYPE STD. ORIFICE SIZE FACE AREA (SO. FT.) ROWS DEEP FINS PER COIL SIZE TUBE GEOM ETRY TUBE DIA. FIN TYPE EXPAN- SION DEVICE COIL WEIGHT (LBS.) OPER- ATING WEIGHT (LBS.)* (LBS.)* SLANT / V - TYPE - UPFLOW / DOWNFLOW / HORIZONTAL G3HC018 N2AHDO6 Sweat or COonlck- 53 2.00 3 13 (1)18x 18 1 x .866 3/8 Corru gated Orifice 36 86 G3HCO24 N2AHD10 55 2.80 3 13 (1)22x 18 45 111 G3HCO30 63 4.00 3 13 (2)16 x 18 54 120 G3HCO36 N4AHD14 69 4.00 3 13 (2)16 x 18 57 137 G3HC042 81 5.00 3 13 (2)20 x 18 68 148 G3HC048 N4AHD16 N4AHD20 90 5.50 3 13 (2)22 x 18 77 162 G3HC060 99 6.00 4 13 (2)24 x 18 98 186 G1FC018 N1FADO6 Sweat or Connect 53 2,00 3 13 (1)16x 18 1 x .866 3/8 Corru- gated Orifice 36 86 G1FCO24 N1FAD10 55 2.80 3 13 (1)22x 18 45 111 G1 FCO30 63 4.00 3 13 (2)16 x 18 54 120 G1 FCO36 N3FAD14 69 4,00 3 13 (2)16 x 18 57 137 G 1 FC042 81 5.00 3 13 (2)20 x 18 68 148 G1FC048 N3FAD16 N3FAD20 90 5.50 3 13 (2)22x 18 77 162 G1 FC060 99 6.00 4 13 (2)24 x 18 98 186 G1HT6OD N4AHD20 N3FAD20 Sweat •• _ 6.00 4 13 (2)24 x 18 1 x .866 3/8 Corru- gated TXV 98 - 187 G 1 HT061 7 3 14 (2)28 x 18 1 x ,866 3/8 98 187 BLOWER SIZE TRANFORMER RELAY KIT MIN. CIRCUIT AMPACITY MAX. T.D. FUSE SIZE MIN. WIRE SIZE AWG. 208 230 460 N2AH /N1FADO6 N2AH /N1FAD10 N4AH /N3FAD14 27106700406 208/230V 5 5 15 14 N4AH /N3FAD16 N4AH /N3FAD20 5.6 5.6 15 14 N4AH/N3FADI 4 N4AH /N3FAD16 N4AH /N3FAD20 27701700146 460V - - 5 15 14 PHYSICAL AND ELECTRICAL DATA BLOWERS NOTE: Power supply to Blower b sngle or three-phase, depending on Healer Accessory. Power to singb•phase motor is supplied through Healer Accessory or Fen Relay Accessory when Heater Accessory is not used. • Available only with N'AH =deb. COILS 'Total combined wedht of Air Handler and Evaporator Coi. ELECTRICAL DATA - WITH TRANSFORMER RELAY ACCESSORY Central Environmental Systems ^ TXV Factory Installed • no orrice requrod. 535.01 -TG 1 Y 3 N2AH/ N1FA D06 2HN06500506 0.5 LO 0.5 LO 3.8/5.0 13.0/17.1 3.8/5.0 - - 2HN06500806 0.5 LO 0.5 MED 5.0/7.5 19.1/25.6 3.8/5.0 1.8/2.5 - 2HN06501006 0.5 MED 0.5 HI 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HN06501306 0.5 MEP 0.5 HI 9,4/12.5 32.1/42.7 3.8/5.0 5,6/7.5 - N2AH/ N1FA 010 2HW06500506 0.5 LO 0.5 MED 3.8/5.0 13.0/17.1 3.8/5.0 - - 2HW06500806 0.5 LO 0.5 MED 5.0/7.5 19.1/25.6 3.8/5.0 1.8/2.5 - 2HW06501006 0.5 LO 0.5 MED 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW26501006 0.5 LO 0.5 MED 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW06501306 0.5 LO 0.5 HI _ 9.4/12.5 32.1/42.7 3.8/5.0 5.6/7.5 - 2HW06501506 0.5 LO 0.5 HI 11.3/15.0 38.6/51.2 3.8/5.0 7.5/10.0 - • • • • • 4 • • • • • �' • • • • - N4AH/ D14A D14 2HW06500506 0.5 LO 0.5 LO 3.8/5.0 13.0/17.1 3.8/5.0 - - 2HW06500806 0.5 LO 0.5 LO 5.0/7.5 19.1/25.6 3.8/5.0 1.8/2.5 - 2HW06501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW26501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW06501306 0.5 LO 0.5 LO 9.4/12.5 32.1/42.7 3.8/5.0 5.6/7.5 ' 2HW06501506 0,5 LO 0.5 LO 11.3/15.0 38.8/51.2 3.8/5.0 7.5/10.0 - 2HW06502006 0.5 LO 0.5 LO 15.0/20.0 51.2/68.3 3.8/5.0 11.3/15.0 2HV06502506 0.5 MED 0,5 MED 18,8/25,0 64.2/85.4 7,5/10.0 7.5/102 3.8/5.0 N4AH/ N3FA D16 2HW06500506 0.5 LO 0.5 LO 3.8/5.0 13.0/17.1 3.8/5.0 - - 2HW06500806 0.5 LO 0.5 LO 5.0/7.5 19.1/25.6 3.8/5.0 1.8/2.5 2HW06501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW26501006 0.5 LO 0.5 LO 7.5/10.0 25.8/34.2 3.8/5.0 3.8/5,0 - 2HW08501306 0.5 LO 0.5 LO 9.4/12.5 32.1/42.7 3.8/5.0 5.6/7.5 - 2HW06501506 0.5 LO 0.5 LO 11.3/15.0 38.6/51.2 3.8/5.0 7.5/10.0 - 2HW06502006 0.5 LO 0.5 MED 15.0/20.0 51.2/68.3 3.8/5.0 11.3/15.0 - 2HV06502506 0.5 MED 0.5 HI 18.8/25.0 64.2/85.4 7.5/10.0 7.5/10.0 3,8/5.0 2HV06503006 0.5 HI 0.5 HI 22.5/30.0 76.8/102,5 7.5/10,0 15.0/20.0 N4AH/ N3FA D20 2HW06500506 0.5 LO 0.5 LO 3.8/5.0 13.0/17.1 3.8/5.0 - - 2HW06500806 0.5 LO 0.5 LO 5.0/7.5 19.1/25.6 3.8/5.0 1.8/2.5 - 2HW06501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW26501006 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 3.8/5.0 3.8/5.0 - 2HW06501306 0.5 LO 0.5 LO 9.4/12.5 32.1/42.7 3.8/5.0 5.6/7.5 - 2HW06501506 0.5 LO 0.5 LO 11.3/15.0 38.6/51.2 3.8/5.0 7.5/10.0 - 2HW06502006 0.5 LO 0.5 MED 15.0/20.0 51.2/68.3 3.8/5.0 11.3/15.0 - 2HV06502506 0.5 MED 0.5 HI 18.8/25.0 64.2/85.4 7.5/10.0 7.5/10.0 3.8/5.0 2HV06503006 0.5 HI 0.5 HI 22 5/30.0 76.8/102,5 7.5/10.0 15.0/20.0 LO . 0.5 HEATERS LO 7.5/10.0 25.6/34.2 7.5/10.0 - N4AH/ D14 014 2HVO6501025 0.5 2HVO6501525 0.5 LO 0.5 LO 11.3/15.0 38.6/51.2 7.5/10.0 3.8/5.0 - 2HV06502025 0.5 LO 0.5 LO 15.0/20.0 51.2/68.3 7.5/10.0 7.5/10.0 ' ■ ,: ,• • IA • • I, • • : r 1 • • • • / 1 • • • • N4AH/ N3FA D16 2HV06501025 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 7.5/10.0 - 2HV06501525 0.5 LO 0.5 MED 11.3/15.0 38.6/51.2 7.5/10.0 3.8/5.0 - 2HV06502025 0.5 LO 0.5 MED 15.0/20.0 51.2/68.3 7.5/10.0 7.5/10.0 - 2HV06502525 0.5 MED 0.5 HI 18.8/25.0 84.2/85.4 7.5/10.0 7.5/10.0 3.8/5.0 • 4• • • • • / • • . :/ • • • • • • - N4AH/ N3FA 02 2HV06501025 0.5 LO 0.5 LO 7.5/10.0 25.6/34.2 7.5/10.0 - - 2HV06501525 0.5 LO 0.5 MED 11.3/15.0 38.6/51.2 7.5/10.0 3.8/5.0 - 2HVO6502025 0.5 LO 0.5 MED 15.0/20.0 51.2/68.3 7.5/10.0 7.5/10.0 - 2HVO6502525 0.5 MED 0.5 HI 18.8/25.0 64.2/85.4 7.5/10.0 7.5/10.0 3.8/5.0 460.3 - 6Q HEATER§ N4AH/ N3FAD14, D16, D20 2HVO6501046 0.5 LO 0.5 LO 10.0 34.2 10.0 - 2HV06501546 0.5 LO 0.5 MED 15.0 51.2 10.0 5.0 2HV06502546 0.5 MED 0,5 HI 25,0 85.4 10.0 10,0 5.0 535.01 -TG 1Y ELECTRICAL DATA - WITH ELECTRIC HEAT ACCESSORY Heater Accessory Model No. Min. CFM - Static Pressure vs. Speed Tap Cooling Static 1 Tap Heat Pump Static TN? Total Heat KW MBH 1st KW Staging 2nd 208/240 208/240 _108/240 208/240 208/240 4 Blower Size 6 Kw & MBH CONVERSIONS: 208-VOLT 730-VOLT 460-VOLT FOR ,741 .018 .01R (Continued on page 5) 3rd Central Environmental Systems ( 7, (_ N2AH/ N1FA D08 2HN06500506 24/27 25/30 10/10 NONE 2HN06500806 35/40 35/40 8/8 NONE 2HN06501006 47/54 50/60 8/6 NONE 2HN06501306 58/67 60/70 6/4 BREAKER N2AH/ N1FA D10 2HW06500508 26/29 30/30 10/10 NONE 2HW06500806 37/42 40/45 8/8 NONE 2HW06501006 48/55 50/60 8/6 NONE 2HW26501006 48/55 50/60 8/6 BREAKER 2HW06501306 60/68 60/70 6/4 BREAKER 2HW08501506 71/81 80/90 4/4 BREAKER 2HW06502006 93/107 100/110 3/2 BREAKER N3FA/ D14 2HW06500506 26/29 30/30 10/10 NONE 2HW06500806 37/42 40/45 8/8 NONE 2HW06501006 49/56 50/60 8/6 NONE 2HW26501006 42/56 50/60 8/6 BREAKER 2HW08501306 60/69 60/70 6/4 BREAKER 2HW06501506 71/82 80/90 4/4 BREAKER 2HW06502006 94/108 100/110 3/2 BREAKER 2H006502506 116/134 125/150 1/0 BREAKER N4AH/ N3FA 016 2HW06500506 27/31 30/35 10/8 NONE 2HW06500806 39/44 40/45 8/8 NONE 2HW06501006 50/57 50/60 8/6 NONE 2HW26501006 50/57 50/60 8/6 BREAKER 2HW06501306 61/70 70/70 6/4 BREAKER 2HW06501506 72/83 80/90 4/4 BREAKER 2HW06502006 95/109 100/110 3/2 BREAKER 2HV06502506 118/135 125/150 1/0 BREAKER 2HV06503006 140/41 150/175 1/0 / 2/0 BREAKER N4AH/ N3FA D20 _ 2HW06500506 28/32 30/35 10/0 NONE 2HW06500806 40/45 40/45 8/8 NONE 2HW06501006 51/58 60/60 6/6 NONE 21-W26501006 51/58 60/60 6/6 BREAKER 2HW06501306 62/71 70/80 6/4 BREAKER 21-W06501506 73/84 80/90 4/4 BREAKER 2HW06502006 96/110 100/110 3/2 BREAKER 2HV06502506 119/136 125/150 1 /0 BREAKER 2HV06503006 141/162 150/175 1/0 /2/0 BREAKER N3 q/ D14 — �2HV06502525 2HV06501025 43/49 45/50 8/8 NONE 2HV06501525 43/49 45/50 8/8 NONE 2HV06502025 66/74 70/80 4/4 FUSE 82/93 90/100 4/3 FUSE N4AH/ N3FA D16 2HV06501025 44/50 45/50 8/8 NONE 2HV06501525 44/50 45/50 8/8 NONE 2HV06502025 67/76 70/80 4/4 FUSE 2HV06502525 84/95 90/100 4/3 FUSE 2HV06503025 84/95 90/100 4/3 FUSE N4AH/ N3FA D20 2HV06501025 45/51 50 /60 8/6 NONE 2HV06501525 45/51 50/60 8/6 NONE 2HV06502025 68/77 70/80 6/4 FUSE 2HV06502525 85/96 90/100 4/3 FUSE 2HV06503025 85/96 90/100 4/3 FUSE ELECTRICAL DATA - WITH ELECTRIC HEAT ACCESSORY 535.01 -TG 1 Y Heater Accessory Model No. Field Wiring - 208/240 Min. Ckt. Ampaclty Max. Overcurrent Prot. Amps/TvOe Wire Size, AWG' 75 °C Copper Blower Size Factory- Installed Over- Current Protection .1 a 2HV06501046 2HV06501546 2HV06502546 27 27 51 30 30 60 1 0 10 6 NE N4AH/ N3FAD14, D16, D20 ( Time delay fuse or HACR type aim)! breaker (UL only) 2 Timo delay fuse or crcut breaker l imo delay luso only NONE NONE NO These heaters wil not use the control boards due to power lmrlatons. NOTE: Air handler and healer accessory may be combined without a col for electrc furnace applcatons. Model Number suffix indicates voltage. 06 =208/230.1.60; 25=208(230.3.60; 46460.3.60. NOTE: 60'C and 90 "C we may be used. Reference latest edition of National Electrical Code for proper wire s¢e. All Electric Healer Accessories approved for ("ripper Cnndurinrs Only Central Environmental Systems 5 Blower Size Heater Accessory Model No. Min. Circuit Ampacity Max. Time Delay Fuse 75 °C Wire Size - AWO* Circuit Circuit Circuit 1st 2nd 3rd 1st 2nd 3rd 1st 2nd 3rd 208/240 208/240 208/ 240 208/ 240 208/ 240 208/240 208/240 208 /240 208/240 14/14 N2AH/ N1FA D06 2HN06501306 47/54 11/13 0/0 50/60 15/15 - 8/6 14/14 N2AH/ N1FA D10 , 2HW26501006 26/29 23/26 0/0 • 30/30 25/30 - 10/10 10/10 - 2HW06501306 48/55 11/13 0/0 50/60 15/15 - 8/6 14/14 - .2HW06501506 48/55 23/26 0/0 50/60 25/30 - 8/6 10/10 - 2H a ,! .4 e,: _2HW26501008 26/29 • 23/26 14! 0/0 • L. e 30/30 1 . e 25/30 - . . 10/10 10/10 - - N4AH/ N3FA D14 2HW06501306 49/56 11/13 0/0 50/60 15/15 - 8/6 14/14 - 2HW06501506 49/56 23/26 0/0 50/60 25/30 - 8/6 10/10 - 2HW06502006 49/56 45/52 0/0 50/60 50/60 - 8/8 8/6 - 2HV06502506 49/56 45/52 23/28 50/60 50/60 25/30 8/6 8/6 10/10 N4AH/ N3FA D16 2HW26501006 27/31 23/26 0/0 30/35 25/30 - 10/8 10/10 2HW06501306 50/57 11/13 0/0 50/60 15/15 - 8/6 14/14 - 2HW06501508 50/57 23/28 0/0 50/60 25/30 - 8/8 10/10 - 2HW06502006 50/57 45/52 0/0 50/60 50/60 - 8/6 8/6 - 2HV06502506 50/57 45/52 23/26 50/60 50/60 25/30 8/6 8/6 10/10 2HV0p503006 50/57 45/52 45/52 50/80 50/60 50/60 8/6 8/8 6/6 H/ N4AH/ D20 2HW26501006 28/32 23/26 0/0 30/35 25/30 - 10/8 10/10 - 2HW06501306 51/58 11/13 0/0 60/60 15/15 - 8/8 14/14 - 2HW06501506 51/58 23/26 0/0 60/60 25/30 - 8/6 10/10 - 2HW06502006 51/58 45/52 0/0 60/60 50/60 - 8/6 8/6 - 2HV06502506 51/58 45/52 23/26 60/60 50/60 25/30 6/6 8/6 10/10 2HV06503006 51/58 45/52 45/52 60/60 50/80 50/60 8/6 8/6 8/6 535.01 -TO1 Y • NOTE: 60'0 and 90•C wire may be used. Reference Meet edition c4 National Electrical Code for proper wire size. POWER WIRING 6 BLUE BLUE PRP ORD. G RD. LUG 1111 10�eas — aver• D - - POWER SUPPLY Lam!— '.. NE. WrTHOUT CIRCUIT BREAKER SINGLE SUPPLY POWER WIRING s — MN MD BLOWER MOTOR WIRING 208/230 VOLT FAN MOTOR SPEED TAP RECEPTACLE ON TRANSFORMER RELAY OR HEATER ACCESSORY 00 00 BLOWER MOTOR BROWN CIRCUIT BREAKERS WITH CIRCUIT BREAKER n;. .. �I•F�u.aa�.�;N n,.';:ii...: Ly'�:•. .srr ..... .;:'r'9MrrA¢•!7,:;.ra,:.•%''j.' ..+�., �. ,rv,.rrm,• r. yr r.•. a vw , . ,..- ...,..._,.... ELECTRICAL DATA - FOR MULTI - SOURCE POWER SUPPLY - COPPER WIRE ORD. — GRD. LUG I IIN I0 POWER — me an SUPPLY 35 24E CONNECT T0 RELAY ORD. LUG O T 1111 GRO. DUAL SUPPLY CIRCUIT BREAKERS 1 1 1 L. L POWER POWER SUPPLY I SUPPLY 2 NOTE: Two circuits pormtt smaller wire. WITH CIRCUrr BREAKER 460 VOLT 0 FIELD REMOVED BUSSBAR CONNECT TO FIELD WIRING BLOCK IN TRANSFORMER RELAY OR HEATER ACCESSORY - --f HIGH MED BLUE BLOWER MOTOR C = BLUAWHRE BU(WHITE 3RC BROWN PURPLE GRO. Central Environmental Systems e Blower Size GHC, GFC & GHT Coils Dimensions Refrigerant Quick Connect Connections' Line Sizes A B C D E F G 11 J K L 1-3/4 M 3-1/2 Liauld F-6 1 ViaDOr F-11 Liauld 5/16 Vaoor 5/8 006 018 12-1/4 2-3/8 7-3/8 3-7/8 15-1/8 10.1/4 18-1/8 49-7/8 3-1/2 1-1/2 010 024 16-1/4 1 12-1/8 3-7/8 12-1/8 14-1/4 22-3/4 54-1/2 3-1/2 1-1/2 1-3/4 3-1/2 030 14-1/4 22-3/4 54-1/2 3-1/4 6-3/8 14-7/8 16-7/8 5/16 3/4 D14 036 22-1/4 3-5/8 14-7/8 3-7/8 12-1/8 20-1/4 22-3/4 54-1/2 6 7-3/8 14-7/8 16-7/8 042 20-1/4 27-7/8 59-5/8 8 8-1/8 20 22 3/8 7/8 D16 048 26-1/4 5-5/8 14-7/8 3-7/8 12-1/8 24-1/4 27.7/8 59-5/8 8 6-3/4 20 22 D20 060 60D** 061" 31-3/8 63-1/8 7-1/4 7-5/8 23-1/2 25-1/2 DIMENSIONS - (Blower with G*HC, G*FC or G*HT Coils) NOTES: Power wiring may be brought Into the tint through one of the knockouts In ether the top or the right aide panel Mut Ole knockouts are provided to accommodate at of the eledric heat and transformer accessories that are avalable. Use the knockouts that provide the best wig, routing for the accessory being used. 018 .024 ' DRAIN CONNECTIONS (See Detail A) All dimensbns are In Inches. They are subject to change without notice. Certified dimensions will be provided upon request. E 018 - 024 REFRIGERANT CONNECTIONS 030 - 061 REFRIGERANT CONNECTIONS 'O'HT coils are &Made as sweat connect onY. Central Environmental Systems "O'HT col models only. H TOTAL HEIGHT 030 - 061 DRAIN CONNECTIONS (See Detail B) CUTOUT MARKS FOR ACCESSORY SIDE RETURN FILTER RACK DETAIL "A" 018 - 024 DRAIN CONNECTIONS 314 NPT1 UPFLCW / DOWNFLOW SECONDARY DRAIN 3/4 NPT1 UPFLOW / DOWN FLC7N PRIMARY DRAIN- HORIZONTAL SECONDARY DRAIN 314 NPT1 HORIZONTAL PRIMARY DRAIN 314 NPTI HORIZONTAL SECONDARY DRAIN 314 ID UPFLOW / DOWNFLOW DRAIN 1-1/2 535.01-TG 1Y 3/4 NPR HORIZONTAL PRIMARY DRAIN DETAIL "B" 030 - 061 DRAIN CONNECTIONS 1-1/2 2 7 Filter Rack Model Used With How Used Rack Dimensions Filter Dimensions ► %. - .'. • ;. - ai• j :e44 s oat 1FR0601 D06 018 Side/Bottom Bottom 12 -1/4 10 -1/4 11 12 21 -1/2 1 - 024 Side/Bottom 1FR0602 - 030 036 Side/Bottom Side Only 16 -1/4 14 -1/4 15 16 21 -1/2 1 D10 - Bottom - 036 Bottom Only 1FR0603 • • 042 048 Side/Bottom Side Only 22 -1/4 20 -1/4 21 22 21 -1/2 1 D14 - Bottom - 048 Bottom Only 1FR0604 - D16 060 - Side/Bottom Bottom 26 -1/4 24-1/4 25 26 21.1/2 1 D20 - Bottom 535.01 -TG 1 Y ACCESSORIES Refer to Price Manual for specific model numbers. 8 USE FOR BOTTOM RETURN APPLICATIONS 21.3/4" C 20.1 /2" STUB ADAPTERS - Available to adapt sweat connect units to quick connect coils or sweat connect coils to quick connect units. PRECHARGED LINE SETS - Available in 15, 25, 35 and 50 foot lengths for connection of quick connect models. Outdoor ends have fittings to connect to outdoor units which have M -6 liquid and M -11 vapor fittings. Indoor ends have fittings to connect to indoor coils which have F -6 liquid and F -11 vapor fittings. All indoor vapor ends are provided with a 90° bend. A 30 foot line set with straight ends is available for splicing to other lines for longer runs. All vapor lines are insulated with 1/2 sponge rubber. ELECTRIC HEATERS - Models shown under Electrical Data include sequencers and temperature limit switches and fusible links for safe, efficient operation. Circuit breakers are provided where shown. FAN RELAYS - Include a control circuit transformer and a blower motor relay which are required for air handlers that are not equipped with any supplemental electric heat accessories. SUSPENSION KIT - The suspension kit is designed to be used with all sizes of blowers whenever the application requires hori- zontal or vertical suspension of the unit. UPFLOW USE FOR SIDE RETURN APPLICATIONS 1.3/16" -L— -1- 3/4" HORIZONTAL Suspension Kit Can Be Used To Wall Mount The Unit From Either Right Or Left Hand Side -1- FILTER RACK - For use with blower section or HC,FC, HT coils. Includes permanent cleanable type filter and bottom closure plate. NEOPRENE STRIP SPONGE 1 /2" X 118" USED ON SIDE RETURNS ONLY All dimensions are in inches. They are subject to change wdhout noboe. Candied dimensions wil be provided upon request. THIS FLANGE TOWARD COIL FOR BOTTOM APPLICATION THIS FLANGE TOWARD COIL FOR SIDE APPLICATION NOTE: FOR USE WITH ELECTRIC HEAT ONLY OR SLANT / "V' COILS. INCLUDES PERMANENT CLEANABLE TYPE FILTER AND BOTTOM CLOSURE PLATE. FILTER RACK AND FILTER IS STANDARD WITH FLATTOP COILS. Central Environmental Systems Floor Base U Used with D Dimensions A B B C C D D E E F F Q Q H H _ 1 F B0601 D DOS 1 12-1/4 1 14-1/4 1 15-1/2 7 7 -7/8 1 17412 9 9 -7/8 2 2-1/4 2 2-7/8 1FB0802 D D10 1 16-1/4 1 18 -1/4 1 12 -1/2 1 12-5/8 1 14-1/2 1 14.5/8 7 7/8 5 5-7/8 1FB0613 D D14 2 22-1/4 2 24-1/4 1 12 -5/8 1 15 -3/8 1 14-5/8 1 17 -3/8 3 3-5/8 5 5-7/8 1FB0614 - p p 2 28-1/4 2 28-1/4 1 12-5/8 1 15-3/8 1 14 -5/8 1 17 -3/8 5 5-5/8 5 5-7/8 ACCESSORIES (Continued) COMBUSTIBLE FLOOR BASE - The combustible floor base accessory Is required whenever a blower unit with electric heat accessory, rated for greater than zero clearance to combustible surfaces, Is installed in the downflow operating position on a combustible floor. BLOWER OR COIL IN DOWNFLOW POSITION COMBUSTIBLE FLOOR Central Environmental Systems sr. eivr:w. w�rr, isa'; ++era.+ir'A»+ttt ILS.ititJt�tt•.i4:Ndfir+,',�%Y tYAif+?tA¢Y.l.1011M4mro WARM AIR PLENUM WITH 1" FLANGES FIBER GLASS INSULATION CORNER ANGLES COMBUSTIBLE FLOOR BASE ACCESSORY SPACERS PROVIDE NECESSARY CLEARANCE FROM COMBUSTIBLE FLOOR FLOOR SEALING TAPE UNDER FLANGE 1 •sa. All dimensions are In Inches. They ere subject to change without notice. Certified dmenslons will be provkied upon request AU. AROUND 24.114 217A (UMTI -c (PLEMIMI E FLOOR OPENNO TO CLEAR SIDE CROSS SECTION VIEW (A-A) A (UM 0 (PLENUM) FLOOR OPENING TO CLEM 1 4 r -0 FRONT CROSS SECTION VIEW (d-s) APPROX. t• CLEARANCE ALL AROUND ' \ \ \ \ '\ \ \• 535.01 -TO 1 Y FRONT " OF UNIT old— APPROX. 1• CLEARANCE ALL AROUND 9 Blower Sfze Coll Model Blower Speed 230/460 Volt 1 208 Volt CFM ® External Static Pressure - IWG 0.05 1 0.10 1 020 1 0.30 1 0.40 1 0.50 1 0.05 1 Q.10 1 0.20 1 0.30 1 0.40 1 0.50 WITHOUT COIL (RETURN AIR FILTER AND ELECTRIC HEATER INCLUDED) 006 I None High ' - -- - -• - -- 765 760 740 735 720 700 690 685 665 Med. 640 630 620 605 595 585 575 565 560 545 535 530 Low 535 525 520 510 500 480 480 475 470 460 450 43G D10 None High - -- - -- - -- - -- 1225 1185 1225 1210 1175 1140 1100 1065 Med. 1150 1140 1120 1100 1085 1050 1035 1025 1000 990 975 945 Low 900 885 875 865 850 835 810 800 790 780 765 750 D14 None High --- - -- -•- - -- 1660 1625 1535 1520 1505 1480 1445 1410 Med. 1435 1425 1415 1390 1375 1360 1248 1240 1230 1210 1200 1145 Low 1245 1235 1225 1215 1195 1185 1085 1075 1065 1055 1040 1000 . D16 None High - -- - -- - -- 1820 1785 1725 - -- - -- 1800 1765 1730 1675 Mad. 1740 1715 1680 1655 1635 1575 1690 1665 1630 1605 1585 1530 Low 1615 1605 1590 1575 1560 1515 1565 1560 1540 1530 1510 1470 020 None High - -• • -- - -• -•- - -- 2300 - -- • -- - -- 2300 2225 2140 Med. 1895 1875 1860 1845 1835 1820 1760 1745 1730 1715 1705 1695 Low 1685 1880 1675 1670 1665 1655 -•- --• - -- --• --- - -- WITH HC. FC or HT coiLS (RETURN AIR FILTER. WET COIL AND ELECTRIC HEATER INCLUDED D08 018' High 765 760 745 715 680 635 690 685 670 645 615 575 Med. 605 600 585 565 535 500 520 515 500 480 450 - -- Low 515 510 485 460 - -- - -- - -- - -- - -- - -- - -- - -- D10 024 High - -- - -- - -- - -- 985 900 - -- - -• - -- - -- 955 870 Med. -•- - -- - -- 955 885 810 945 935 900 855 800 745 Low 890 870 835 790 745 685 750 740 720 695 660 - -- 030 High - -- 1225 1165 1100 1030 955 - -- 1190 1125 1060 990 920 Med. - -- 1085 1035 980 915 845 --- 965 925 885 835 - -- Low - -- 650 825 795 •- • -- -- -- - -- - - - -- D14 036 High - -- - -- - -- 1490 1375 1210 - -- - -- 1490 1390 1270 1125 Med. - -- 1370 1330 1260 1155 1035 - -- 1175 1160 1115 1010 - -- Low - -- 1205 1170 1120 1025 - -- - -- 1015 1000 965 - -- - -- 042 High - -- 1680 1625 1555 1460 1340 - -- 1525 1460 1370 1260 1135 Med. - -- 1385 1355 1310 1245 1140 ••- 1215 1205 1160 - -- - -• Low -•- 1200 1185 1160 1125 - -- -•- - -- - -. - -- - -- - -- D16 048 High - -- 1820 1755 1675 1585 1480 - -- 1770 1700 1625 1545 1450 Med. -•- 1655 1600 1535 1465 1380 - -- 1505 1475 1430 1370 1290 Low - -- 1575 1535 1480 1415 1335 • -- 1360 1330 1290 - -- --- 020 060 High - -- 2300 2235 2165 2085 2000 - -- 2050 2035 1995 1935 1860 Med. - -- 1820 1805 1785 1755 1710 - -• • -- - -• - -- -•- -- Low - -- 1650 1645 1640 1630 1600 - -- - -• - -- - -- - -- -•- 535.01 -TG 1 Y AIR FLOW DATA NOTE: For applications where a hgh latent load exids do not exceed mandmum CFM shown. See Electrical Data for minimum CFM with Electric Heat. 9/stem Ai Flow Limitations c4 320 to 480 CFMfTon must also be observed. CONTROL WIRING - TRANSFORMER RELAY ACCESSORY THERMOSTAT 10 NOT USED TRANSFORMER RELAY ACCESSORY R C Y G OUTDOOR UNIT i i COOLING UNITS 208/230 & 460 VOLT u ,4f•'rl.'!. T'.: ....r.: ..'"k fP Ft:i..;' ...sSyM: THERMOSTAT Xor 8 or C - Y G W C Y G-- NOT USED TRANSFORMER RELAY ACCESSORY 0 X R B Y OUTDOOR UNIT 66 60 HEAT PUMPS 208/230 & 460 VOLT Central Environmental Systems CONTROL WIRING - 2HV ELECTRIC HEATERS ONLY THERMOSTAT 0 L or X C or B Y G COOLING WITH ELECTRIC HEAT MODELS H•DA and H*DH ADD I WHEN STANDBY HEATER IS USED Central Environmental Systems ELECTRIC HEATER ACCESSORY" HEAT PUMP (1 & 3 Phase) MODEL E*FB 0 X R B Y W 66 OUTDOOR UNIT L 1 FIELD INSTALLED THERMISTOR JUMPER COOLING WITH ELECTRIC HEAT MODELS H "DA and H "DH 1TY^ �K1, TIK'. S(f!1 CJ.,7P'SV.TY+2Y:':�i:!'3^u li THERMOSTAT R Y G W — 1 - - ELECTRIC HEATER ACCESSORY" ALL JUMPERS NOT REQUIRED ON ALL HEATER MODELS • ALL WIRES NOT REQUIRED ON ALL HEATER MODELS **TERMINAL "C" MAY BE USED IN PLACE OF "B" ON SOME ELECTRIC HEAT ACCESSORIES 1 — ' 1 • 'TERMINAL NOT AVAILABLE ON ALL THERMOSTATS. L__ FIELD INSTALLED JUMPER CONTROL WIRING - 2HN & 2HW ELECTRIC HEATERS ONLY ELECTRIC HEATER ACCESSORY IRIC1YIGIw1k2) THERMOSTAT I B!K I GRN BRN 4 RED Y'L WHT G W NOT USED OUTDOOR UNIT THERMOSTAT LorX r B Y G - - - -- W E T • ••• ••• HEAT PUMPS MODEL E*FH Tom- -- ELECTRIC HEATER ACCESSORY" R — B — Y— G 1 - - W 7 I_ 66 _ 53 OUTDOOR UNIT 535.01 -TG 1 Y 0 X R B Y W 60 66 53 OUTDOOR UNIT _ J THERMISTOR 11 TYPE OF APPLICATIONS UPFLOW DOWNFLOW HORIZONTAL ELECTRIC FURNACE 1 0 4 WITH 018 .024 COIL 4 0 0 4 WITH 030 •081 COIL 4 0 . a. Q III mss Vii`', i;c }:• .. CONTROL WIRING - 2HN & 2HW ELECTRIC HEATERS ONLY ELECTRIC HEATER ACCESSORY THERMOSTAT RED BLK L .. 1 FIELD INSTALLED JUMPER ELECTRIC HEATER ACCESSORY HEAT PUMP (1 & 3 Phase) MODELS E*FB OUTDOOR UNIT THERMISTOR TYPICAL WIRING AND PIPING JYOR Heating and Air Conditioning Unitary Products Group P.O. Box 1592, York, Pennsylvania USA 17405.1592 Subject to change without notice Printed in U.S A. Copyright L by York International Corporation 1995 All rights reserved SHU BM 495 66 THERMOSTAT RED YEL WHT BLK GRN ...... �--i - --1-- XorL --- - --- B or C It FIELD INSTALLED JUMPER Codes: EBY,EOY 1:1121111133121 WIRE NUT \� THERMISTOR HEAT PUMP MODELS E *FH BRN 0 X a OUTDOOR UNIT POSSIBLE COMPONENT APPLICATIONS •Righthand retum may be used by removing Horizontal Drain Pan USA 535 01 •TG I Y Supersedes. 535 01•TGIY(1292) .n.raraa W Fire Department Review Control #M96 -0168 (512) Re: Lids - 1014 Southcenter Mall Dear Sir: City of Tukwila Fire Department December 6, 1996 The attached set of building plans have been reviewed by The Fire Prevention Bureau and are acceptable with the following concerns: Dedicated fire alarm system circuit breaker(s) shall be equipped with a mechanical lockout device. (NFPA 72 (1- 5.2.8.2)) Duct smoke detectors shall be capable of being reset from the alarm panel. (City Ordinance #1742) Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #1742) All new fire alarm systems or modifications to 1. H.V.A.C. units rated at greater than 2,000 cfm require auto - shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required. (City Ordinance #1742) H.V.A.C. systems supplying air in excess of 2,000 cubic feet per minute to enclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished by interrupting the power source of the air - moving equipment upon detection of smoke in the main supply -air duct served by such equipment. Smoke detectors shall be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation instructions. (UMC 608) John W. Rants, Mayor Thomas P. Keefe, Fire Chief Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188 • Phone :: (206) 5754404 • Fax (206) 5754439 Page number. Yours truly, The Tukwila Fire Pe r on Bureau At On TFD file ncd City of Tukwila Fire Department existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #1742) (UFC 1001.3) Call the Tukwila Fire Department at 575 -4407 for approval of any system shut down. Have job site address, name and the Tukwila Fire Department Job Number available to confirm shut down approval. (City Ordinance #1742) 2. This review limited to speculative tenant space only - special fire permits may be necessary depending on detailed description of intended use. Any overlooked hazardous condition and /or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. John W. Rants, Mayor Thomas P. Keefe, Fire Chief Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188. • Phone: (206) 5754404 • Fax (206) 5754439 LIDS SOUTHCENTER SPACE 1014 NARRATIVE THIS PERMIT APPLICATION IS TO INSTALL A NEW THREE TON YORK HEAT PUMP IN A SPACE THAT WAS PREVIOUSLY TOTALLY DEMOLISHED UNDER A SEPARATE PERMIT. ENERGY CODE COMPLIANCE, AND SPECIFICATIONS: YORK THREE TON SPLIT SYSTEM HEAT PUMP. OUTDOOR SECTION YORK EIFD036S25 COP HI 3.3 COP LO 2.3 HSPF 7.4 BLOWER N4AHD14A06 1,220 CFM @ .5" ESP COIL G3HCO36S COOLING SEER 10.0 HEATER 2HW06500506 3.8 KW 208/1/60. ALL OF THE ABOVE MEETS OR EXCEEDS THE WASHINGTON STATE ENERGY CODE REQUIREMENTS WHEN USED AS A SPLIT SYSTEM LESS THAN 65,000 BTUH AS DESCRIBED IN TABLE 14 -1. THERMOSTAT TO BE HONEYWELL T -7300 IN COMPLIANCE WITH SECTIONS 1412.5 AND 1412.4 OF THE WASHINGTON STATE ENERGY CODE. OUTSIDE AIR INTAKE DAMPERS SHALL CLOSE AUTOMATICALLY WHEN THE SYSTEM IS OFF OR UPON POWER FAILURE. DUCT WORK TO BE SEALED FOR .5" WATER COLUMN PER SECTION 1414.1. DUCT INSULATION TO BE R -3.3, SUPPLY AIR DUCTS WITHIN CONDITIONED SPACE SUPPLY AIR TEMPERATURE <55 OR >105 DEGREES FAHRENHEIT PER TABLE 14 -5. CITY OF TUKWILA APPROVED DEC 0 9 1996 RECEIVED CITY OF TUKWILA DEC 0 21996 AS NOTED BUILDING DIVISION • PERMIT CENTER N V NMAIMWONNi4 aN MANN% h\N VOANN4 \AMMA1M'' NVNNNN ww 1±v` NWN 1 � iF � 4u • ..)! 11yy :V.., . .v�:. w t :+•:.6w,.:la?:�V:.��Q'r` 1\% ` �'M"h\ \114 4 W11\4A'111MN• Nv'ANNANNvsM \ \MSCoo HAV \ \ \N \% \% %,, \\weve A.Am mmANY. DEPARTMENT OF LABOR AND INDUSTRIES THIS CERTIFIES THAT THE PERSON NAMED HEREON IS REGISTERED AS PROVIDED BY LAW AS A STATE OF WASHINGTON We. F625-052.000 (3.92) TYPE RR -1 MFR TITUS MODEL PAR SIZE 24 x 24 CFM - NECKSIZE 22 x 22 COMMENTS - L J L J. r IL I 16/14 14/12 812/10 8/8 12 ,� r .. L' vf/ D0 ' 1 (11) ' tA ff p 4kO /SD\ Not Used S • Scale : 1/2 " =1' SD -1 SD -2 TITUS TITUS TMS -AA TMS -AA 24 x 24 24 x 24 200 100 8 "0 8"te Provide with Provide with adjustable damper adjustable damper r.� M105 T -1 TITUS 25RL 12 x 8 Transfer register below ceiling, with fire damper if fire rated partition is required DIFFUSERS & REGISTERS SCHEDULE SC01e : M1 None o a cA- S l ry✓ SD r '( C �uRC 1 Rao .0r p. r L105 J �Pr` f +A RO Not Used 1 S I M104 None • MECHANICAL PLAN I S 174 11 =. : 1' M106 KEYNOTES , Q etc. Provide new Cornier Condensing Unit Model 38AY(M)030301, 2 - 1/2 ton, 11.50 EER. Coordinate location on roof with landlord. Provide connections to Fan Coil Unit. Provide crankcase heater and outdoor thermostat. Provide low- ambient controller, evaporator freeze thermostat, and Isolation relay. 2. All new ductwork shall be insulated as specified on sheet ME -1. 3. Not Used. 4. P Connec rovide t teo nw sup 24"plx y du 24" ct. supply diffuser and new volume dumper. 5. Provide new 24" x 24" return grille. 6. Provide new Carrier Thermostat /Subbase Pkg 1E92 -071 (RCO). Confirm location In field. 7. Confirm routing of supply duct in field. New duct layout shown 1s suggested. Where necessary, contractor may deviate to avoid existing structure. 8. Contractor shall provide new sprinkler heads and piping in layout shown. Connect to Landlord provided sprinkler main. Confirm location in field of not extra cost to tenant. 9. Existing 4" tenant sprinkler connection. 10. Connect to existing 7'x7" outside air intake duct. Extend to new airhandling unit. Confirm location in 'field. 11. Connect AHU condensate drain to existing 2" condensate drain line In corridor. Confirm location in field. 12. A sprinkler is required in AHU mixing box. 13. Provide 16 "x16" intake grille in side of supply duct 14. Provide new Carrier Fon Coil Unit Model FC48NF030005, 1200 CFM, 5 KW Electric Heater. Provide Disconnect Kit. Coordinate location with Landlord. 15. Provide remote test /reset switch with alarm light near rear door for smoke detector. See Landlord Dwg TTE -1 and TTM -3 for requirements. Not Used Not Used Scale None Scale .None M103 M101 NOTES 1. Supply duct shall be supplied with duct- mounted smoke detector In supply and return ductwork to automatically shut down fans upon sensing smoke. 2. Contractor shall provide fire damper at all rated assemblies and penetrations, including ceiling, If applicable. 3. Contractor to visit site to verify existing conditions prior to submission of bid. 4. The HVAC Contractor shall adjust the pattern of the supply air outlets as required to provide approximately equal air quantities and full coverage of the Retail Area. If required by field conditions, Irregular o4 flow patterns, or unequal alr flows, moy be obtained by closing front vanes (vertical) at ends of outlets. 5. System to supply minimum 180 cfm of outdoor air. 6. Refer to Landlord's TTM drawings for additional specifications. BASIS OF DESIGN HVAC LEGEND CFM Summer Design Conditions Outdoor : 85•F db / 68F wb Indoor : 75F db - 50% RH 1y'jgt Design Conditions Outdoor 227 db Indoor 701 db - 505 RH PLUMBING LEGEND Direction of Alr Flow Flexible Duct (S' -0" Max.) Supply Diffuser Existing Supply Diffuser Return or Exhaust Grille Existing Return or Exhaust Grille Thermostot Cubic Feet per Minute Connect to Existing Volume Dumper Existing Thermostat Sprinkler Head (if Indicated) FILE COPY undorct_ nd hut tho Plan Chock r, subject to errors and omission* and c: .;�. plena does not authortp Yte violation of cny aeopted • • • _ • of contractor's ca o Dy Perron No,N N cflrr 01 (0> LtI vN-I;kOVt 11100 SEPARATE PERMIT 1 i iEQUI" QED FOR: (j[ l., 11 y 15y` MECHANICAL ELECTRiCAL ❑ , LUMBING P':1 C PIPING C . C; TUKWILA EU:LC..J'a DIVISION RECEIVED CIT OF TUKWIIA PERMIT CENTER 5 :120 rt . • 1, r