Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
41985-Z
��O��UFFa( oGy Town of Southold 10/3/2017 0 P.O.Box 1179 y 53095 Main Rd Southold,New York 11971 CERTIFICATE OF OCCUPANCY No: 39256 Date: 10/2/2017 THIS CERTIFIES that the building ADDITION/ALTERATION Location of Property: 315 Wicks Rd,New Suffolk SCTM#: 473889 Sec/Block/Lot: 110.-8-23 Subdivision: Filed Map No. Lot No. conforms substantially to the Application for Building Permit heretofore filed in this office dated 9/15/2017 pursuant to which Building Permit No. 41985 dated 9/21/2017 was issued, and conforms to all of the requirements of the applicable provisions of the law. The occupancy for which this certificate is issued is: "as built"alterations and additions including rear deck and front landing, to an existing one family dwelling as applied for. The certificate is issued to Bowden, Gertrude of the aforesaid building. SUFFOLK COUNTY DEPARTMENT OF HEALTH APPROVAL ELECTRICAL CERTIFICATE NO. 17-N927 9/6/2017 PLUMBERS CERTIFICATION DATED 9/1/2017 J ees lumbing on ignature �SUFfn�k TOWN OF SOUTHOLD BUILDING DEPARTMENT z , TOWN CLERK'S OFFICE o, SOUTHOLD, NY BUILDING PERMIT (THIS PERMIT MUST BE KEPT ON THE PREMISES WITH ONE SET OF APPROVED PLANS AND SPECIFICATIONS UNTIL FULL COMPLETION OF THE WORK AUTHORIZED) Permit#: 41985 Date: 9/21/2017 Permission is hereby granted to: Bowden, Gertrude Wicks Rd PO BOX 132 New Suffolk, NY 11956 To: legalize "as built" additions and alterations to existing single-family dwelling as applied for. Additional certification may be required. At premises located at: 315 Wicks Rd, New Suffolk SCTM # 473889 Sec/Block/Lot# 110.-8-23 Pursuant to application dated 9/15/2017 and approved by the Building Inspector. To expire on 3/23/2019. Fees: AS BUILT- SINGLE FAMILY ADDITION/ALTERATION $628.80 CO -ADDITION TO DWELLING $50.00 Total: $678.80 Builds spector Form No.6 TOWN OF SOUTHOLD BUILDING DEPARTMENT TOWN HALL 765-1802 APPLICATION FOR CERTIFICATE OF OCCUPANCY This application must be filled in by typewriter or ink and submitted to the Building Department with the following: A. For new building or new use: 1. Final survey of property with accurate location of all buildings,property lines, streets, and unusual natural or topographic features. 2. Final Approval from Health Dept. of water supply and sewerage-disposal (S-9 form). 3. Approval of electrical installation from Board of Fire Underwriters. 4. Sworn statement from plumber certifying that the solder used in system contains less than 2/10 of 1%lead. 5. Commercial building, industrial building,multiple residences and similar buildings and installations, a certificate of Code Compliance from architect or engineer responsible for the building. 6. Submit Planning Board Approval of completed site plan requirements. B. For existing buildings(prior to April 9, 1957) non-conforming uses,or buildings and "pre-existing" land uses: 1. Accurate survey of property showing all property lines,streets,building and unusual natural or topographic features. 2. A properly completed application and consent to inspect signed by the applicant.If a Certificate of Occupancy is denied,the Building Inspector shall state the reasons therefor in writing to the applicant. C. Fees 1. Certificate of Occupancy-New dwelling$50.00,Additions to dwelling$50.00,Alterations to dwelling$50.00, Swimming pool$50.00,Accessory building$50.00,Additions to accessory building$50.00,Businesses$50.00. 2. Certificate of Occupancy on Pre-existing Building- $100.00 3. Copy of Certificate of Occupancy-$.25 4. Updated Certificate of Occupancy- $50.00 5. Temporary Certificate of Occupancy-Residential $15.00, Commercial $15.00 Date. New Construction: 011d� or Pre-existing Building: � (check one) Location of Property: 915 House No. Street Hamlet Owner or Owners of Property: Affil ,®F� �uffolk County Tax Map No 1000, Section C� eQ Block Lot O� � Subdivision Filed Map. Lot: Permit No. Date of Permit. Applicant: Health Dept. Approval: Underwriters Approval: Planning Board Approval: Request for: Temporary Certificate Final Certificate: (check one) Fee Submitted: $ l®D • tv Applicant Signature Certificate of Compliance .................... ... . ................ . ............................I...... . ............. . .......................... ................ CERTIFIED ELECTRICAL INSPECTIONS, INC. 188 PARK AVENUE AMITYVILLE, NY 11701 P: (631) 598-5610 .................. ...................................... . . .... ................. . .......................... .. .................... .. ....... CERTIFIES THAT Upon the application of Upon premises owned by Jim Bowden Jim Bowden 315 Wicks Road 315 Wicks Road New Suffolk, NY 11956 New Suffolk, NY 11956 Located at: 315 Wicks Road , New Suffolk , NY 11956 Application Number#: 17-45927 Certificate#: 17-45927 Electrical License #: Section: 110 Block: 8 Lot: 23 Building Permit#: LA\�<6� Described as a Residential occupancy, wherein the premises electrical system consisting of electrical devices and wiring, described below, located in/on the premises at: Service Equipment/Air Conditioning / Hot Water Heater/ Entire House -3 Bedrooms/2 Bathrooms / Unfinished Basement/ Kitchen / Living Room A visual inspection of the premises electrical system, limited to electrical devices and•wiring.to the extent detailed herein, was conducted in accordance with the requirements of the applicable-. code/or standard promulgated by the State of New York, Department of State Code Enforcement- and Administration, or other authority having jurisdiction, and found to be in compliance therewith on the 6th day of September 2017 Name QTY Service Disconnect- 200 Amp, 240V 1 Service Feeder-200 Amp, 240V 1 AC Condenser-40 Amp, 220V 1 GFI Receptacle - 15 Amp, 120 V 4 Branch Circuit- 15 Amp, 120V 1 Meter-200 Amp, 240V 1 Branch Circuit-20 Amp, 120V 4 ��nMEElectrical Inspector: Anthony Giordano pSCAJ SEP .............. 1 2 2017 Qv�PRovED��' ............. ,DING DUff, T1 V;N OF SOUTUOLI) This certificate is not valid unless raised seal is present. Certificate of Compliance .......... ........................................................................... .. ............................................ .. ..................... CERTIFIED ELECTRICAL INSPECTIONS, INC. 188 PARK AVENUE AMITYVILLE, NY 11701 P: (631) 598-5610 .................................................................. . . .................................. ... CERTIFIES THAT Upon the application of Upon premises owned by Jim Bowden Jim Bowden 315 Wicks Road 315 Wicks Road New Suffolk, NY 11956 New Suffolk, NY 11956 Located at: 315 Wicks Road , New Suffolk , NY 11956 Application Number#: 17-45927 Certificate#: 17-45927 Electrical License#: Section: 110 Block: 8 Lot: 23 Building Permit#: Name QTY AC Blower- 15 Amp, 220V Electrical Inspector: Anthony Giordano :APPROVED 5 %.................. This certificate is not valid unless raised seal is present. D S E p 1 2 2017 laInDING DEPT- TOWN OF SOUTHOL'D Town Hall Annex Telephone(031)-765-1$02 54375 Main Road Fax(631)76!�-9502 P.O_Box 1179 CAR Southold,New York 11971-0959 0` �Q BUILDING DEPARTMENT : TOWN OF SOUMOLD - CERTIFICATION - Date: Building Permit No. L q OE Owner: J1 m 3-0w Der✓ (Please print) Plumber: d Z e,f?�'S (Please print) I certify that the solder used in the water supply system contains less-th_ an 2/10 of IO/A lead. jr b7 tis (Plum"s Signature) -- Sworn to before me-this 0 s day of QO 20 Not Public, �d` County EVE L.GAM-SCHWAINiBOM NOTARY PUBLIC.STATE OF NEW YORK Registration No.OIGA6274028 Qualified in Suffolk County Commission Expires Dec.24,20M°� SOF SOUTyo N O cou TOWN OF SOUTHOLD BUILDING DEPT. 765-1802 INSPECTION [ ] FOUNDATION 1ST [ ] ROUGH PLBG. [ ] FOUNDATION 2ND [ ] NSULATION [ ] FRAMING /STRAPPING [ FINAL [ ] FIREPLACE & CHIMNEY [ ] FIRE SAFETY INSPECTION [ ] FIRE RESISTANT CONSTRUCTION [ ] FIRE RESISTANT PENETRATION [ ] ELECTRICAL (ROUGH) [ ] ELECTRICAL (FINAL) REMARKS: DATE �' INSPECTOR FIELD IIISPEONE 'OAATOT Cd�1 >{OUND,ktON;(1ST) - , •- -- ...�. , ......... FOUNDATION;('.'M) v , ROUGH YR NQ& PLUM. M�'G —. " 005 TNSULAT>;ON•PE1�NI Y. . • H STATE ENERGY COS)E 1 1 , 1 1 , FXNAL 1 1 •' • /®V 1 � - 1 d TOWN OF SOUTHOLD BUILDING PERMIT APPLICATION CHECKLIST BUILDING DEPARTMENT Do you have or need the following,before applying? TOWN HALL Board of Health SOUTHOLD, NY 11971 4 sets of Building Plans TEL: (631) 765-1802 el Planning Board approval FAX: (631) 765-9502 V Survey South oldtownny.gov PERMIT NO. Check Septic Form N.Y.S.D.E.C. Trustees C.O.Application Flood Permit Examined PL,20 Single&Separate Truss Identification Form Storm-Water Assessment Form Contact: Approved ,20P Mail to: Disapproved N 4 Phone: / Expiration _,20 p IEC0V[2 Bui Spector D SEP 1 5 2017 APPLICATION FOR BUILDING PERMIT Date , 20 BUILDING DEPT. INSTRUCTIONS TOWN OF�SOUT OLD a. is app kation UST be completely filled in by typewriter or in ink and submitted to the Building Inspector with 4 sets of plans, accurate plot plan to scale. Fee according to schedule. b. Plot plan showing location of lot and of buildings on premises, relationship to adjoining premises or public streets or areas, and waterways. c. The work covered by this application may not be commenced before issuance of Building Permit. d. Upon approval of this application,the Building Inspector will issue a Building Permit to the applicant. Such a permit shall be kept on the premises available for inspection throughout the work. e. No building shall be occupied or used in whole or in part for any purpose what so ever until the Building Inspector issues a Certificate of Occupancy. f. Every building permit shall expire if the work authorized has not commenced within 12 months after the date of issuance or has not been completed within 18 months from such date. If no zoning amendments or other regulations affecting the property have been enacted in the interim,the Building Inspector may authorize, in writing,the extension of the permit for an addition six months. Thereafter, a new permit shall be required. APPLICATION IS HEREBY MADE to the Building Department for the issuance of a Building Permit pursuant to the Building Zone Ordinance of the Town of Southold, Suffolk County,New York, and other applicable Laws, Ordinances or Regulations, for the construction of buildings, additions, or alterations or for removal or demolition as herein described. The applicant agrees to comply with all applicable laws, ordinances,building code,housing code,and regulations, and to admit authorized inspectors on premises and in building for necessary inspections. (Signature of applicant or name,if a cpr�ti ) (Mailing address of applicant) State whether applicant is owner, lessee, agent, architect, engineer, general contractor, electrician, plumber or builder ,�jcuNc��c Nameowner o premises ��oT/y dgii �� (As on the tax roll or latest deed) If applicant is a corporation, signature of duly authorized officer (Name and title of corporate officer) Builders License No. Plumbers License No. Electricians License No. Other Trade's License No. 1. Location of land on whichroposed work will be done: �i � LAS 1' CA55 ?,J �Qq,�.J 5g-F-f� House Number Street hamlet 11AT?r1?I.119�"3t"!3i.. ,FIoy ry9Ga Ir;sisl2,stil�tj�+ns,ad'i County Tax Map No. 1000 Section l f® Bldc S�%g�'�l.tU_ki 1?_ r• F Lot �jl5urf�i 29'•.ar,�ft:.fii�itE�fA� Subdivision Filed Map No. Lot 2. State existing use and occupancy of premises and intended use and occupancy of proposed construction: a. Existing use and occupancy f r��c �H a,i t y 4-u -,7e b. Intended use and occupancy 3. Nature of work(check which applicable):New Building Addition Alteration Repair Removal Demolition Other Wor — (Description) Estimated Cost Fee 1,,, (To be paid on filing this application) If dwelling, number of dwelling units Number of dwelling units on each floor If garage, number of cars If business, commercial or mixed occupancy, specify nature and extent of each type of use. Dimensions of existing structures, if any: Front Rear Depth eight Number of Stories Dimensions of same structure with alterations or additions: Front Rear Depth � C ;`, r„t�...��„-•. �� r•---; Height Number of Stbries;-_ �l Dimensions of entire new construction: Front Rear ' Depth r' Height Number of Stories L1 L Size of lot: Front Rear Depth 1�. ate of Purchase Name of Former Owner one or use district in which premises are situated 12. Does proposed construction violate any zoning law, ordinance or regulation? YES NO_X_ 13. Will lot be re-graded? YES NO_Will excess fill be removed from premises? YES NOA NBwS✓i���(C //9TH C14. aures of Owner of premises by w 10A,1Address FAP*Xt3 Y Phone No.,*,!— 3,75-- S''� Name of Architect Address Phone No Address Phone No. 15 a. Is this property within 100 feet of a tidal wetland or a freshwater wetland? *YES NO * IF YES, SOUTHOLD TOWN TRUSTEES &D.E.C.PERMITS MAY BE REQUIRED. b. Is this property within 300 feet of a tidal wetland? * YES NO „l1� * IF YES, D.E.C. PERMITS MAY BE REQUIRED. �a 16. Provide survey, to scale, with accurate foundation plan and distances to property lines. WrgoV/ ��� 17. If elevation at any point on property is at 10 feet or below, must provide topographical data on survey. 18. Are there any covenants and restrictions with respect to this property? * YES NO * IF YES, PROVIDE A COPY. STATE OF NEW YORK) SS: COUNTY OF ) yfif/e � Q � being duly sworn, deposes and says that(s)he is the applicant, (Name of individual signing contract) above named, (S)He is the 6 tg /4' r,4/ L (Contractor,Agent, Corporate Officer, etc.) of said owner or owners, and is duly authorized to perform or have performed the said work and to make and file this application; that all statements contained in this application are true to the best of his knowledge and belief; and that the work will be performed in the manner set forth in the application filed therewith. Si to before me thilsi day of 20 /7 THERESA M.XArrau Notary'Public Siete of New Notary ublicua »i�olkf�mty Signature of Applicant Commi3s�on F.xpis lanuai 311111 i a F ZED ALTERATION OR ADDITION /��j'/� �® �oo �/y r7' Premises known as: URVEY ISA VIOLATION OF J'� Cj'� / 4(•i"I• #375 WICKS ROAD oNawN ar JM cNECKEn er JM 209 OF THE NEW YORK STATE A/fly�LAW. 0.2- ACRS �Fll£ 2017 THIS SURVEY MAP NOT BEARING THE LAND SURVEYOR'S INKED SEAL OR aDRAWING N. OAD ,EMBOSSED SEAL SHALL NOT BE CONSIDERED TO BE A VALID TRUE COPY GUARANTEES INDICATED HEREON SHALL RUN ONLY TO THE PERSON FOR WHOM THE SURVEY /A IS PREPARED, AND ON HIS BEHALF TO THE �7I'ID ,0 TITLE COMPANY, GOVERNMENTAL AGENCY AND ,A' ,Y LENDING INSTITUTION LISTED HEREON, AND vv� O/�'�O ® 0 T�TION GUARANTEESTHE ASSIGNEES ,F THE LENDING INSTI—ARE NOT TRANSFERABLE. �Jy�i�'�/ p /+�� ���y�3� •��., rl (3' Note ALL SUBSURFACE STRUCTURES, [ C �C�7 jjUlJ WATER SUPPLY, SANITARY SYSTEMS, Ack 02Sncev� DRAINAGE, DRYWELLS AND UTILITIES, SHOWN ARE FROM FIELD OBSERVATIONS fenceend AND OR DATA OBTAINED FROM OTHERS Of 07S fence en S�Of O1S 00 THE EXISTENCE OF RIGHTS OF WAY picket fence /I AND/OR EASEMENTS OF RECORD IF ANY, NOT SHOWN ARE NOT GUARANTEED. % wood fence ead fence 0 f W 0.75 fence end � 41E4jS pole 0 d JY 0 U LI fence end .S�FD ^78' 4.9' 02£ fence end I 7.8' 46E ji steps concrete l�7 fence cor, 45t 15,1' (J Q wnyl fence '70 AC " h'J{sRyFRA/�JF o Wire fence (� 18.4' - x J 150' 1\fence cor, Q 06E (J boy � I ----- — - - _ — - 234' Ion diny &steps ' \ I 3 O C v �p 1 1 ' U - f%9ht I 7S 00, voter reefer �� 3° s°6F02N ed �'oo'Gv 18,j , ft/j 9e of Povemen( OQ O rro C� O 49866 ND Survey of Property situate at New Suffolk LAND SURVEYING Town ®f Southold Mintoville@aol.com Suffolk County, New York SUBDIVISIONS Tax Map #1000- 110-08-23 TITLE & MORTGAGE SURVEYS TOPOGRAPHIC SURVEYS LAND PLANNERS August 3, 2017 Scale 1 "= 20' SITE PLANS GR,AP.HIC SCALE JOHN MINTO, L.S. PHONE- (631) 724-4832 20 0 10 20 40 80 'LICENSED PROFESSIONAL LAND SURVEYOR NEW YORK STATE LIC. NO, 49866 FAX- (631) 724-5455 93 SMITHTOWN BOULEVARD SMITHTOWN, N.Y. 11 787 ( IN FEET ) 1 inch = 20 ft. ws LA �9106,,S_ Y Andeiseu?` 'And `2 infrP �t3I w��1,"'i" I f L 4 "Y < ME I-e 2.2 Atmealod Glass•wif No Grilles and Grilles Loss Thawl" No Grilles AND-N-24-02067-00001 0,30 1.70 031 1 0.53 is <02 11 JINCeuar I Simulated Divided Lite or Installed interior Removable AND-N-24-02067-00002 030 170 0.28 041 18 -.2 -9 Flnellght (grilles-between-the-glass) AND-N-24.02073-00001 030 170 028 048 18 -40.2 Full Divided Lite AND-N-24-02085-00001 0 M 176 028 048 16 <02 No Grilles ANM-24-02068-00001 030 170 019 030 113 <02 CSC Simulated Divided Lite or Installed Interior Removable AND-N-24-02068-00002 0.30 1.70 0.17 0.26 11 <0.2 NC -9 Firelight-(grilles-between-the-glass) AND-N-24-02074-00001 0.30 170 0.17 0.26 11 <0 2 Full Divided Lite AND-N-24-02086-OD001 0.31 1.76 1 017 026 10 <0.2 No GrUles AND-N-24-020119-11(1041. 0.22 1.65 021 OA8 AS -0.2. Rd ii� Simulated Divided Lite or Installed Interior Removable AND-N-24-02069-00002 029 1 65 019 043 14 <02 NP 'S' 9 FinellqhtTM(Sniles-between-the-glass) AND-N-24-02076-00001 029 1.65 019 043 14 <0.2 E Full Divided Lite AND-N-24-02087-00001 0.30 1 1.70 019 OA3 13 <02 tic No Grilles AND-N-24-02066-00001 0.30 170 052 059 32 1 <02 Simulated Divided Lite or Installed Interior Removable AND-N-24-02066-00002 030 170 046 052 28 <02 Flnollghff(grilles-between-the-glass) AND-N-24-02072-00001 0.30 1.70 046 0.52 28 <0.2 o. Full Divided Lite AND-N-24-02OB4.00031 031 176 046 052 27 <02 No Grilles AND-N-24-02168-00001 0.26 1.48 0.31 0.52 24 <0.2 0.27 046 22 <0.2 cr Simulated Divided Lite or Installed Interior Removable AND-N-24-02168-00002 0.26 1.48 M Flnellghff(grilles-between-the-glass) AND-M-24-02171-00001 0.26 1.48 027 0.46 22 40.2 Full Divided Lite AND-N-24-02177-0000i 028 1.59 0.27 OA6 20 <0.2 No Grill.. AND-N-24-02169-00001 0.25 142 0.20 047 19 <0.2 '6 Simulated Divided Lite or Installed Interior Removable AND-N-24-02169-00002 0.25 142 018 OA2 I Nd [3' 02 2' 0_ 0 3 .,43 N 400 Series Tilt-Wash 9 E Firelight-(grilles-between-the-glass) AND-N-24-02172-00001 0.25 1.42 0.18 0.42 18 40.2 1.qC, Double-Hung Full-Frame Full Divided Lite AND-N-24-02178-00001 0.27 1 1.53 018 0.42 16 <02 I NC No Grilles AND-N-24-021167.0001 026 148 047 058 34 <0.2 -I is NO 11.0. Simulated Divided Lite or Installed Interior Removable AND-N-24021157-00002 026 148 042 051 31 <02 Flnelightnii(grllles-between-the-glass) AND-N-24-02VO.OD001 0.26 1.48 042 051 31 <02 1 7Q Full Divided Lite AND-M-2402176-00DO1 028 159 1 042 051 28 0.2 2.2 Annealed Moss•wl Grilles v or'Greater Simulated Divided Lite or Installed Interior Removable ANM.24-02067-00003 0.30 1.70 0.25 0.42 16 <0.2 No is I I' Finellghtw(grilles-between-the-glass) AND-N-24-02079-00001 031 176 028 0.48 16 <02 Full Divided Lite AND-N-24-02091-00001 0.30 1.70 0.25 0.42 16 <0.2 F Simulated Divided Lite or Installed Interior Removable AND-N-24-02068-00003 0.30 1.70 0.16 0.23 11 <0.2 WC, Firelight-(grilles-between-the-glass) AND-N-24-02080-00001 032 182 017 026 9 <02 -9 . - I I 1 111 Full DIvIded Lite AND-N-24-02092-00001 0.31 1.76 0.16 023 10 <0.2 o Simulated Divided Lite or Installed Interior Removable AND-N-24-02069-00003 029 165 017 038 13 <02 Sib - - - Finelightw(grilles-between-the-glass) AND.N.2402081-00001 031 176 019 043 11 Full Divided Lite AND.M.2402093-00001 0.30 1.70 0.17 0.38 11 <0.2 Simulated Divided Lite or Installed Interior Removable AND-N-24-02066-00003 030 170 041 0.46 25 <02 . . . .9 Flnellghtm(grilles-between-the-gl-) AND-N-24-02078-00D01 0.32 1.82 0.46 0.52 26 <0.2-. I - I-I Kv AS - A. Full Divided Lite AND-N-24-02090-00001 0.31 1.76 0.41 0.46 24 <02 - -1 1 Simulated Divided Lite or Installed Interior Removable AND-N-24-02168-09003 026 148 025 041 211 <02 AND-N-2"2174-00001 0.27 1.53 0.27 0.46 21 <0.2 Nd 1% Flnellghtoi(grilles-between4be- lass) Full Divided Lite AND-N-2402180-00001 0.28 1.59 0.25 0.41 18 <02 No Simulated Divided Lite or Installed Interior Removable AND-N-24-02169-00003 0.25 142 016 037 17 <02 Firielight-(,nlles-between-th"lass) AND-N-24.02175-00001 027 1.53 gill 042 16 <02 NC 21 0 Full Divided Lite AND-N-24-02181-00001 027 153 016 0.37 15 <02 '9 Data Is current as of December 16.2014 end is subject to change Pa e22 of 155 See page i1or More Infoinnatioln k�itincmons GS(13 13 SEER COOLING CAPACITY SPLIT SYSTEM AIR CONDITIONER : 18,000 - 57,000 BTU/H Standard Features • Energy-efficient compressor • For use with R-22 refrigerant;charged with inert gas for shipping � � • • R-22 piston kit included • Quiet condenser fan system f • Copper tube/aluminum fin coil • Liquid refrigerant return protection • Factory-installed liquid line filter dryer • Service valves with sweat connections and easy-access gauge ports • Contactor with lug connection • Ground lug connection '�. • ETL Listed 01 IR ' Cabinet Features I V � Louver design sound control top >; Steel louver coil guard Heavy-gauge,galvanized-steel cabinet with rust- resistant screws 3K Attractive Architectural Gray powder-paint finish with 500-hour salt-spray approval Yrx Single-panel access to controls with space provided 4 for field-installed accessories When properly anchored,meets the 2001 Florida Building v� ,. �, �..�.���-;�';' Code unit integrity requirements for hurricane-type winds z: (Anchor bracket kits available.) Contents Nomenclature...................................................................2 Product Specifications........................... . ..... .............3 Expanded Cooling Data 4 Performance Ratings ......................................................18 :-. x , ,:z w Dimensions......................................................................18 WiringDiagram ...............................................................19 Vt a Accessories......................................................................20 ,. *Complete warranty details available from your 4. local dealer or at vrvvw.amana-haccom 1�4 ' r a75���T.TVi.7 F h'e ,� 2a --{ �, Tp�, Y � 5:. j�,g4����.�,.f.• �.l".-'i �� __ .^'r;;,,i~'�° amar��,s�?radek�oti� g�nt�.art'i�m�ats�fat�fisip�z?rsan�uskpK�#tr•�� ta�, ,sf =�a_: � - , n RO0 -�, : `.�{'� - -��r _ ��\a;`O y�9�3�'Sw�"�n�y"1a"�Y.Ss`k��`�,�•"�:�;i�F^C`K..y.ya�.4-��!'"N �s;,-y„''fkx:r. _ _- .. NOMENCLATURE G S C 13 036 1 A A 1 2 3 4,5 6,7,8 9 10 11 ..,$ _- `° _ t ``yr14 _.. a}3t8nt Fi3s°-rA1 #fIBPPl9 G Amana Brand ° fir;: qqaau Minor Revision DistinctionsTM P", "V K- L'. S Split System ,fi Major Revision tlnil << x" z_, % = 1 208/230 V,1 Phase,60 Hz C Condenser R-22 y 2 220/240 V,1 Phase,50 Hz X Condenser R-41 OA € 3 208/230 V,3 Phase,60 Hz ',_ H Heat Pump R-22 E; a t 4 460 V,3 Phase,60 Hz Z Heat Pump R-410A +3 5 380/415 V,3 Phase,50 Hz 018 1%Tons 042 3'/z Tons 13 r�13 SEER 024 2 Tons 048 4 Tons 14 14 SEER 030 2'/z Tons 060 5 Tons 16 16 SEER 036 3 Tons 18 18 SEER * Neither used for order entry or inventory management. ��prn cart �,*PRIDE s '-.ter-a —VO-0s� - -,..`1tF.. �' =-7s+'4"��^s`'c�.'��:i�'�`s�'�:,,yn<i1.Nr,„�t.,�_.�,}.e�;i^,rrii:4'.„�'.=��;t`ld.%'kisr �z`;.�.sr,;:r..n�`i�•c '-�^r-l'++-d.,3ri-'_��';,i„ _ _ . a 41..t "��Cn,.y f�A;x.,u'+�,�,k�'k d•: }t,,`=;}Y��yik..iF'3�'4`,,,,;u;?��,r•2 �;�,.s�,`,Ri„`=�Vr,+�l.�.`,; _,rf4, _ `<r vr_Z�= SPECIFICATIONS GSC13 GSC13 GSC13 GSC13 GSC13 ;GSC13 GSC13 GSC13 GSC13 0181D* 0181F* 0241E* 0241F* 0301E* G* 0421B* 0481B* 0601B* Nominal Cooling(BTU/h) 18,000 18,000 24,000 24,000 30,000 36,000 42,000 48,000 57,000 Decibels 74 76 71 76 72 75 76 76 77 -COMPRESSOR''°'' .v_•.-._.- - - _ :i_- _ - -_ _ - �"- --- - - -_ - - - "- _ RLA/LRA 6.4/36 6.4/36 8.0/41 10.8/56 13.5/68 13.4/74 19.2/104 179/104 25/148 Type Recip Recip Recip Recip Scroll Recip Scroll Scroll Scroll CONttEI}15ER fAN MOTOR`; - � - `,"'_ `_' _ - - _ •- - - - - -_° - - _ - Horsepower 1/8 1/8 1/8 1/8 1/8 1/6 % % '/6 FLA 0.7 0.7 0,7 0.7 0.7 1.1 1,5 1.5 1.1 REfRIi;ERAtit1N SYSTEM; _ _r' 1 Refrigerant Line Size Liquid Line Size("O.D.) Suction Line Size("O.D.) %" %" 3/a" W W. W. 1%" 1%a' 1%B' Refrigerant Connection Size Liquid Valve Size("O.D.) %" 3/s" 3/e" %s" %11 W. W. %" Suction Valve Size("O.D.)3 3/<" %" 3/a" Y4 /i 3 �'�a /� a /11 a Valve Type Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Refrigerant Charge 75 75 77 77 82 77 95 102 167 ELEctRrcAt.•l]aTA. - - ,G,; , - - - ,"i. _ ,�, __ ` _ f . AC Volts/Hz/Phase 208-230/60/1 208-230/60/1 208-230/60/1 208-230/60/1 Min.Circuit Ampacity' 8.7 8.7 107 14.2 17.6 17.9 25.5 23.9 32.3 Max.Overcurrent Devicex 15 15 15 25 30 30 40 40 50 Min/Max Volts 197/253 197/253 197/253 197/253 197/253 197/253 197/253 197/253 197/253 Electrical Conduit Size '/:"or 3/" 1"or J" %"or%" �4"or�" '/z"or%" %"or%" Y or%" ' " 3 " ' " Y." /2 or/ /: or SO Wiudttt(LH§}_'`,;=., 142 135 142 130 136 177 185 193 242 ' Wire size should be determined in accordance with National Electrical Codes;extensive wire runs will require larger wire sizes Z Must use time-delay fuses or HACR-type circuit breakers of the same size as noted. 3 Installer will need to supply%"to%"adapters for suction line connections a Installer will need to supply%"to 1%"adapters for suction line connections. NOTES • Always check the S&R plate for electrical data on the unit being installed. • Charge with refrigerant charge listed on S&R plate;15'of/"line intluded in this charge.System charge must be adjusted per Installation Instruction's Final Charge Procedure 31 �'''} r3q.�� ,.r',: =h'-5,..e **;'�N"•%kt.J;i'6�,�+-, - .afl,*,.�^>",��-e"I��ia,� _ yS}k, -_.F;t:,�,,,r_,: _ - _ `Y,.[m, r m� r.1:: .•.Yn J.L�v �.Y3�,.. �^.Y�.,,, �rc •ib,.;��`Ss' _ - _ _ -'- OUTDOOR AMBIENT TEMPERATURE l0: ` T x 659E 759F 859F 959F 1052F 1159E e* ENTERING INDOOR WET BULB TEMPERATURE - ...'.; •. IDB .'AIR#k6W.,' „39'. '63 _67; 71 .:'S9'' :'63 6T 71 -59., :63' 67 . 71'• `'59: 61' 67 :1,.+71':' ''59 63 ' ' 67' :,.,71, '.59' .'63'•" .67 -A-. v r++rs[r, MBh 16.7 17.3 18.9 16.3 169 18.5 15.9 16.5 18.1 15.5 16.1 17.6 147 15.3 16.7 13.7 14.2 15.5 S/T 066 055 0.38 - 068 0.57 0.39 - 070 058 040 - 072 0.60 0.42 - 0.75 0.62 0.43 0.75 063 0.44 - p AT 19 16 12 19 17 13 19 17 13 - 19 17 1319 17 13 - 18 15 12 _ 529 kW 1.21 1.24 128 1.31 1.33 1.38 - 1.39 142 1.46 - 1.46 1.49 1.54 1.52 1.56 1.61 1.57 1.61 1.66 Q,. Amps 4.6 4.7 4.8 4.9 5 0 5.2 - 5.3 5.4 5.5 - 5.6 5.7 5 9 5 9 6.0 6.2 6 2 63 6.5 -3 HI PR 131 141 149 147 158 167 167 180 190 190 205 216 - 214 231 243 237 255 269 LO PR 61 65 71 64 68 75 - 67 71 78 70 75 81 - 74 78 85 76 81 88 MBh 181 18.7 205 177 18.3 200 17.2 17.9 19.6 16 8 17.4 19 1 16.0 16.6 18 1 14.8 15 3 16.8 - ,., . 'tib S/T 0.68 0.57 039 - 070 0.59 0.41 - 072 0.60 0.42 0.75 0.62 043 0.77 0.65 0.45 078 0.65 045 AT 19 16 12 19 16 12 - 19 16 12 19 17 13 19 16 12 18 15 12 - ^ n' < 70 605 kW 124 127 131 134 137 141 142 145 1.50 1.50 153 1.58 156 1.60 1.65 162 165 1.71 WVINE Ams 47 4.8 50 5.0 5.1 53 - 54 5.5 5.7 57 58 60 6.0 6.2 63 6.3 6.5 67 HI PR 135 145 153 152 163 172 172 185 196 196 211 223 221 238 251 - 244 263 277 LO PR 63 67 73 - 66 70 77 69 73 80 Y4 `Q 7Z 77 84 76 81 88 78 83 91 MBh 186 193 211 - 18.2 188 20.7 178 184 20.2 173 180 197 165 17.1 187 15.2 15.8 17.3el' F4 - 062 S/T 0 71 0.60 0.41 0.74 0.43 0.63 0.44 0.78 0.65 0.45 0.81 0.68 0.47 0.82 0.68 0.47 ^ , AT 18 16 12 - 18 16 12 - 18 16 12 - 18 16 12 - 18 16 12 - 17 15 11 - � ;,".�sJ,t"�>•. 681 kW 1.25 1.28 1.32 1.35 138 1.42 143 1.47 1.51 1.51 1.54 159 - 1.57 161 166 1.63 167 172 - e' Ams 4.8 4.9 50 51 52 5.3 5.4 5.6 5.7 58 5.9 6.1 61 62 6.4 64 65 6.7 - OO 4 s .}',^ •w==�� �, HI PR 136 147 155 - 153 165 174 - 174 187 198 - 198 213 225 - 223 240 253 - 246 265 280 LO PR 63 67 74 - 67 71 78 - 70 74 81 - 73 78 85 - 77 81 89 - 79 84 92 MBh 170 175 189 20.3 16.6 17.1 185 19.8 16.2 167 18.0 19.4 158 16.3 176 18.9 150 15.4 167 179 13.9 143 155 166 wn3r ` hA S/T 0.75 067 0.50 0.32 0.77 0.69 0.52 0.34 0.79 071 0.54 0.35 082 0.73 0.55 036 0.85 0.76 0.57 037 086 0.77 058 037 AT 22 20 17 11 22 20 17 12 22 20 17 12 22 21 17 12 22 20 17 12 21 19 16 11 529 kW 1.22 125 1.29 1.33 1.32 1.35 1.39 1.43 1.40 1.43 1.48 153 147 1.51 1.55 1.61 1.53 1.57 1.62 1.68 1.59 162 1.68 173 =:` 1 "1 Amps 4.7 4.8 4.9 5.0 50 51 52 54 53 5.4 56 58 5.6 5.7 5.9 61 59 61 62 64 62 6.4 66 68 � HI PR 132 142 150 157 148 160 169 176 169 182 192 200 192 207 219 228 216 233 246 256 239 257 272 283 ' "^ - „ LO PR 61 65 71 76 65 69 75 80 67 72 78 83 71 75 82 88 74 79 86 92 77 82 89 95 MBh 184 18.9 205 22.0 18.0 18.5 20.0 21.5 17.5 180 195 21.0 17.1 =17,6 19.1 20.5 162 16.7 18.1 194 150 15.5 16.8 18.0 y S/T 077 0.69 052 0.34 0.80 0.72 0.54 0.35 0.82 0.73 0.56 036 0.85 0,76 0.57 0.37 0.88 0.79 0.60 0.38 0.89 0.79 060 039 m AT 22 20 16 11 22 20 16 11 22 20 17 11 22 , 20„' 17 11 22 20 16 11 20 19 15 11 75 605 kW 1.25 1.28 1.32 1.36 135 1.38 1.42 147 1.44 1.47 151 1.56 1.51 .1.54_- 1.59 1.65 1.57 1.61 1.66 1.72 1.63 1.67 1.72 1.78 Amps 4.8 4.9 5.0 5.1 51 5.2 53 5.5 5.4 5.6 5.7 59 58 -,5,9,` 6.1 62 6.1 6.2 6.4 6.6 64 65 6.7 6.9 PLoHPR 136 147 155 162 153 165 174 181 174 187 198 206 198 '213, 225 235 223 240 253 264 246 265 280 292 PR 63 67 74 78 67 71 78 83 70 74 81 86 73 78'•' 85 90 77 81 89 95 79 84 92 98 MBh 189 19.5 211 22.6 18.5 19.0 20.6 22.1 18.1 186 201 21.6 17.6 18.1 19.6 21.1 16.7 17.2 18.6 20.0 155 16.0 17.3 18.5 S/T 0.81 0.73 0.55 0.35 0.84 0.75 0.57 0.37 0.86 0.77 0.58 0.38 0.89 0.80 0.60 0.39 092 0.83 062 0.40 093 0.83 0.63 0.41 AT 21 19 16 11 21 19 16 11 21 19 16 11 21 19 16 11 21 19 16 11 19 18 15 10 681 kW 1.26 1.29 1.33 1.37 1.36 1.39 1.44 1.48 1.45 1.48 1.53 1.58 1.52 1.56 1.61 166 1.59 1.62 1.68 1.73 1.64 1.68 1.74 1.80 Amps 4.8 4.9 5.0 5.2 5.1 5.2 54 55 5.5 5.6 5.8 5.9 58 5.9 6.1 63 61 6.3 64 6.7 6.4 6.6 6.8 70 HI PR 138 148 157 163 155 166 176 183 176 189 200 208 200 216 228 237 225 242 256 267 249 268 283 295 LO PR 64 68 74 79 68 72 78 84 70 75 82 87 74 78 86 91 77 82 90 96 80 85 93 99 IDB-Entering Indoor Dry Bulb Temperature Shaded area reflects ACCA(TVA)conditions Amps=outdoor unit amps(comp+fan) High and low pressures are measured at the liquid and suction service valves. kW=Total system power OUTDOOR AMBIENT TEMPERATURE rri 7C ' 652F 752F 859F 959E 1052F 1152F a ENTERING INDOOR WET BULB TEMPERATURE Z v IDB .RIRadwir 9 63' .,' 7. 71 • .'S9' '6 V " 71 53, 3 67" 71 Slj' 69• .,6T„ 71 . 59 ' .63..� ..67'.. ;71 $9 ' ' G� MBh 17.3 176 189 202 16.9 172 18.4 19.7 165 16.8 180 192 161 16.4 17.5 187 15.3 15.6 167 17.8 14.1 14.4 154 16.5 C S/T 0.82 0.77 0.62 0.47 0.85 0.79 0.65 0.48 0.87 0.81 0.66 0.50 0.90 0.84 0.68 0.51 0.93 0.87 0.71 0.53 094 088 0.72 054 p AT 25 23 20 16 25 24 21 17 25 24 21 17 25 24 21 17 25 24 21 16 23 22 19 15 z 529 kW 1.23 126 1.30 1.34 1.33 136 1.40 1.45 1.41 1.44 1.49 154 149 1.52 1.57 1.62 155 1.58 1.63 169 1.60 1.64 1.69 1.75 all Amps 47 4.8 4.9 5.1 50 5.1 5.2 5.4 54. 5.5 5.6 5.8 5.7 5.8 6.0 6.1 6.0 6.1 6.3 6.5 63 6.4 6.6 68 HI PR 134 144 152 158 150 161 170 178 171 184 194 202 194 209 221 230 219 235 248 259 241 260 274 286 a LO PR 62 66 72 77 66 70 76 81 68 72 79 84 72 76 83 89 75 80 87 93 78 83 90 96 ' MBh 18.7 19.1 204 21.8 18.3 18.7 20.0 21.3 17.8 182 19.5 20.8 17.4 17.8 i;•7�lst{'•' 203 16.5 16.9 18.1 19.3 15.3 15.6 16.7 179 5/T 085 0.80 0.65 0.48 0.88 082 0.67 0.50 0.90 0.85 0.69 0.51 0.93 087 „Q 77+ 053 0.97 0.91 0.74 055 097 0.91 0.74 056 C4 - •, AT 24 23 20 16 24 23 20 16 24 23 20 16 25 24 ;"10,; 16 24 23 20 16 23 22 19 15 ,. 80 605 kW 1.26 1.29 1.33 137 1.36 1.39 1.44 1.48 1.45 1.48 1.53 158 152 1.56 ' 1.67.,' 1.66 1.59 1.62 1.68 1.73 1.64 1.68 1.74 1.80 yv .; Amps 4.8 4.9 50 5.2 5.1 5.2 5.4 55 55 5.6 58 5.9 5.8 59 6,1 63 6.1 63 6.4 6.7 6.4 6.6 6.8 7.0 C� HI PR 138 148 157 163 155 166 176 183 176 189 200 208 200 216 °218.;' 237 225 242 256 267 249 268 283 295 OO `. %r LO PR 64 68 74 79 68 72 79 84 70 75 82 87 74 79 86 91 77 82 90 96 80 85 93 99 r7,F MBh 193 19.7 21.0 22.5 188 192 20.5 22.0 18.4 18.8 20.1 21.4 179 18.3 19.6 20.9 17.0 17.4 18.6 19.9 15.8 16.1 17.2 18.4 _ : 5/T 0.89 083 0.68 051 0.92 086 0.70 0.53 0.94 0.89 072 0.54 1.00 0.91 074 056 100 095 0.77 0.58 100 0.96 0.78 058 ''` '' • AT 23 22 19 15 23 22 20 16 23 22 20 16 24 23 20 16 23 22 19 16 21 21 18 14 681 kW 1.27 1.30 1.34 139 1.37 1.40 1.45 1.49 1.46 1.49 1.54 1.59 154 1.57 1.62 1.68 1.60 1.64 1.69 1.75 1.66 1.69 1.75 1.81 „ Amps 4.8 4.9 5.1 5.2 5.2 5.3 5.4 56 5.5 5.6 5.8 6.0 5.9 6.0 61 63 6.2 63 65 6.7 65 6.6 68 7.1 cc 1W �y HI PR 139 150 158 165 156 168 177 185 178 191 202 211 202 218 230 240 228 245 259 270 251 271 286 298 IV ` LO PR 65 69 75 80 68 73 79 84 71 75 82 88 75 79 87 92 78 83 91 97 81 86 94 100 MBh 17.6 17.9 18.8 20.0 17.2 175 183 19.5 168 17.1 17.9 19.1 163 16.7 17.4 18.6 155 15.8 16.6 177 144 14.7 15.4 16.4 ^ S/T 0.86 0.83 075 061 089 0.86 0.77 0.63 0.91 0.88 079 0.64 094 0.91 082 0.66 0.98 094 0.85 0.69 0.98 G95 086 070 AT 26 26 24 21 26 26 25 21 27 26 25 21 27 26 25 21 26 26 24 21 25 24 23 20 z 529 kW 124 1.27 1.31 135 1.34 1.37 1.41 1.46 147 1.45 150 155 1.50 1.53 1.58 1.63 1.56 1.60 1.65 1.70 1.62 1.65 1.71 1.76 a .M,. Amps 4.7 48 50 5.1 5.0 5.1 5.3 55 5.4 5.5 57 5.9 5.7 5.8 60 6.2 6.0 6.2 63 6.5 6.3 6.5 6.7 6.9 '"*" HI PR 135 145 153 160 151 163 172 180 172 185 196 204 196 211 223 233 221 238 251 262 244 262 277 289 LO PR 63 67 73 78 66 70 77 82 69 73 80 85 72 77 84 89 76 81 88 94 78 83 91 97 MBh 19.0 194 20.3 21.7 18.6 190 19.9 21.2 18.2 185 19.4 20.7 17.7 181 18.9 20.2 16.8 17.1 180 19.2 15.6 15.9 16.6 177 f s?; S Q89 0.86 0.77 0.63 0.92 089 0.80 065 0.94 0.91 082 0 67 0.98 0.94 0.85 069 1.00 0.98 0.88 0,72 1.00 0.98 0.89 0.72IN AT 26 25 24 21 26 26 24 21 26 26 24 21 26 26 24 21 26 25 24 21 24 24 22 19 85 605 kW 1.27 1.30 134 1.39 1.37 140 145 1.49 1.46 1.49 1.54 1.59 1.54 1.57 162 1.68 1.60 1.64 1.69 1.75 1.66 1.69 1.75 181 w� � ¢. Amps 4.8 4.9 5.1 5.2 52 5.3 5.4 5.6 5.5 5.6 5.8 6.0 5.9 60 6.1 63 62 6.3 6.5 6.7 6.5 6.6 6.8 7.1 +y",x>,?.,,.;r;x�:;� % R HI PR 139 150 158 165 156 168 177 185 178 191 202 211 202 218 230 240 228 245 259 270 251 271 286 298 Vii,:>, �.�,,,a:=�• NO PR 65 69 75 80 68 73 79 84 71 75 82 88 75 79 87 92 78 83 91 97 81 86 94 100 ',--,LL•}"" „yr;;, C''y•�s�ii ,=_; MBh 19.6 20.0 209 223 19.2 19.5 204 218 18.7 19.1 20.0 21.3 182 186 19.5 20.8 17.3 17.7 18.5 197 161 16.4 17.1 18.3 5/T 0.93 0.90 0.81 0.66 0.97 093 0.84 0.68 0.99 0.96 0.86 0.70 100 0.99 0.89 072 100 1.00 0.92 0.75 100 1.00 0.93 0.76 AT 25 24 23 20 25 25 23 20 25 25 23 20 25 25 23 20 23 24 23 20 22 22 22 19 681 kW 128 1.31 1.35 1.40 138 1.41 1.46 151 1.47 150 1.55 1.60 155 1.58 164 169 1.61 1.65 171 176 1.67 171 1.77 1.83 Amps 4.9 50 51 5.3 52 5.3 5.5 5.6 5.6 5.7 5.9 60 59 60 62 6.4 6.2 6 4 6.5 6.8 6.5 6.7 69 7.1 i;•;'";?,. •R.-s HI PR 141 151 160 167 158 170 179 187 179 193 204 213 204 220 232 242 230 247 261 272 254 273 289 301 ?,''`"";,•,•,>„--_, LO PR 65 69 76 81 69 73 80 85 72 76 83 89 75 80 87 93 79 84 92 98 82 87 95 101 IDB.Entering Indoor Dry Bulb Temperature Shaded area reflects Test A rating conditions per AHRI 210/240 Amps=outdoor unit amps(comp+fan) ',S/t High and low pressures are measured at the liquid and suction service valves. kW=Total system power :>, . ' OUTDOOR AMBIENT TEMPERATURE X ;; i 65°F 75"F 85°F 95RF 105°F 1152F a " .� ENTERING INDOOR WET BULB TEMPERATURE gIR�Lauv 59 ATFs7: 71 59'1 '63 1 67 : 7i 59,- 3 1 67 71 - 59 1 63 j 67 1 71 59 63, 67=• S9 fis ® ';,;',�.►';:,;`;, ,y MBh 20.0 208 227 19.6 203 222 19.1 198 217 186 19.3 21.1 - 177 18.3 201 164 170 18.6 P'1 S/T 0.67 0.56 0.39 0.70 0.58 0.40 0.71 0.60 0.41 074 0.62 0.43 0.76 0.64 0.44 0.77 064 045 p AT 18 15 12 18 15 12 - 18 15 12 18 16 12 18 15 12 17 14 11 700 kW 1 52 1.54 1.59 162 1 65 1 70 - 1.71 1.75 1.80 1.79 1 83 189 186 1.90 1.96 192 196 2.02 Amps 55 5.6 5.7 5.8 6.0 617.6 6.4 66 - 6.7 6.8 70 70 7.2 74 7.4 7.6 7 8 HI PR 139 150 158 156 168 177 177 191 202 202 217 230 227 245 258 251 Z70 285 - ..n •s `tr'' I.g;r r,�."w,h•r�„,�s{,r?.TNS� LO PR 59 63 69 - 62 66 73 - 65 69 75 - 68 73 79 - 71 76 83 74 79 86 U,. v;... MBh 21.7 22.5 246 21.2 220 241 - 20.7 21.4 23.5 202 209 229 19.2 199 21.8 17.8 184 20.2 ` M1 +{�1"`✓'ia'FIYPvp-`�RIF � ;�"M/it k,?= OUTDOOR AMBIENT TEMPERATURE Im N-4 659F 759F 859F 959F 1059F 11591 a ENTERING INDOOR WET BULB TEMPERATURE z O IUB AiRPtPW -',59'. 63' i _67: "71. ,:53 6 67 ;'71 S9;' ,63. 67., -71 59'` .63. ,','67 71,. 'S9'. =:63'"" `'67' ' -71'1 '99 6$. ',:67' 71 v MBh 207 212 226 24.2 20.2 20.7 22.1 23.6 19.8 202 21.6 23.1 193 19.7 21.0 22.5 18.3 18.7 20.0 214 17.0 17.3 18.5 198 0001 S/T 0.84 0.79 0.64 0.48 0.87 0.81 0.66 0.50 0.89 083 068 0.51 092 0.86 0.70 0.52 0.95 089 0.73 0.54 096 090 073 05S O O AT 23 22 19 15 23 22 19 15 23 22 19 15 23 22 19 15 23 22 19 15 21 21 18 14 z 700 kW 154 1.57 1.61 166 1.64 1.68 1.73 1.78 1.74 177 1.83 1.88 1.82 1.86 192 1.98 1.89 1.93 199 2.05 1.95 200 2.06 2.12 CN Amps 5 6 5.7 5 8 6 0 5.9 6 1 6 2 64 6.4 6.5 67 6.9 6.8 6.9 7.1 74 7 2 73 7.5 7,8 75 7.7 79 8 2 HIPR 142 153 161 168 159 171 181 189 181 195 206 215 206 222 234 244 232 250 264 275 256 276 291 304 y LO PR 60 64 70 75 64 68 74 79 66 70 77 82 70 74 81 86 73 78 85 91) 75 80 88 93 I MBh 22.5 229 24.5 262 21.9 224 23.9 25.6 21.4 21.9 23.4 25.0 20.9 213 .„i22.$'+ 24.4 19.8 20.3 217 23.2 18.4 18.8 20.1 21.4 S/T 0.87 0.81 0.66 0.50 0.90 084 069 051 092 0.87 0.70 0.53 0 95 0 89 °0:73.1; 0.54 0.99 0.93 075 0 56 100 093 0.76 0.57 ts+f AT 22 21 19 15 23 22 19 15 23 22 19 15 23 22 -19 15 23 22 19 15 21 20 18 14 n 80 800 kW 1.57 1.60 1.65 1.70 1.68 1.72 177 1.82 1.78 1.82 187 1.93 1.87 1.90 ` 1,96;1 202 1.94 1.98 2.04 2.10 2.00 2.04 2.11 2.17 C „- ." Amps 5.7 5.8 6.q 6.2 6 1 6.2 6.4 6.6 65 6.7 6.9 7 1 69 7.1 ,,7:3 . 7.5 7.3 7.5 7.7 8.0 77 7.9 8.1 8.4 N HIPR 146 157 166 173 164 177 186 194 187 201 212 221 213 229 r-24Z 252 239 257 272 283 264 284 300 313 LO PR 01, 62 66 72 77 66 70 76 81 68 73 79 84 72 76 83`.' 89 75 80 87 93 78 83 90 96 nz .xu�. MBh 231 23.6 252 270 22,6 231 247 26.4 22.0 225 24.1 25.7 21.5 22.0 235 25 1 204 209 223 238 18.9 193 20.7 22.1 - -�,. S/T 0.91 0 85 069 0.52 0.94 0.88 0.72 054 0.97 0.91 0.74 0.55 1.00 0.94 076 0.57 1.00 1.00 0.79 0.59 1.00 1.00 0 80 060 l""1 ^t`z � AT 22 21 18 14 22 21 18 14 22 21 18 15 22 21 18 15 21 21 18 14 19 20 17 13 T :rye "A> " 900 kW 1.58 1.61 1.66 1.71 1.69 173 1.78 1.83 1.79 1.83 188 1.94 1.88 1.92 1.98 2.04 1 95 1.99 2.06 2.12 202 2,06 2.12 2.19 wiP_:, Amps 5.7 5 8 6 0 62 6.1 6.3 6.4 6.7 6.6 6.7 6.9 7.2 7.0 7.1 74 7.6 7.4 7.6 7 8 8,1 7.8 8.0 8.2 8.5 O® a HIPR 148 159 168 175 166 178 188 196 188 203 214 223 215 231 244 254 241 260 274 286 267 287 303 316 ` •"'``h' LO PR 63 67 73 78 66 71 77 82 69 73 80 85 72 77 84 90 76 81 88 94 79 84 91 97Cn „ yMBh 21.1 215 22.5 24.0 20.6 21.0 22.0 23.5 20.1 20.5 21.5 22.9 19.6 20.0 20.9 22.3 18 6 19 0 19 9 21.2 17.3 17.6 18 4 19.7 S/T 0.88 0.85 0.76 0.62 0.91 0.88 0.79 0.64 0.93 0.90 0.81 0.66 0.96 0.93 0.84 0.68 1.00 0.96 0.87 0.71 1.00 0.97 0.88 071 "A AT 24 24 23 20 25 24 23 20 25 24 23 20 25 24 23 20 24 24 23 20 23 22 21 18 700 kW 1.55 1.58 1.62 1.67 166 1.69 174 1.79 175 1.79 1.84 190 184 1.87 1.93 1.99 1.91 1.95 2.01 207 1.97 2.01 2.07 2.14 Amps 5.6 5 7 5.9 6 1 6.0 6.1 6.3 6.5 6.4 66 68 7.0 6.8 7.0 7 2 7.4 7.2 7.4 76 79 7.6 7.8 80 8.3 •°--����;;, HIPR 143 154 163 170 161 173 183 191 183 197 208 217 208 224 237 247 234 252 266 278 259 279 294 307 LO PR 61 65 71 75 64 68 75 80 67 71 78 83 70 75 82 87 74 78 86 91 76 81 88 94 X1`4 MBh 228 23.3 24.4 26.0 223 22.7 23.8 25.4 21.8 22.2 23.3 24.8 21.2 21.7 227 24.2 20.2 20.6 216 23.0 18.7 19.1 200 21.3 S/T 0.91 088 0.79 064 0.94 0.91 0.82 067 097 093 0.84 0 68 100 096 0 87 071 1.00 1.00 0.90 073 100 1.00 091 0.74 .,ap �Xl, AT 24 24 22 19 24 24 22 19 24 24 23 19 24 24 23 20 23 24 22 19 21 22 21 18 >) "?u-zstti 85 800 kW 1.58 1.61 166 171 1.69 1.73 1.78 1.83 1.79 1.83 1.88 1.94 1.88 192 1.98 2.04 195 1.99 206 2.12 202 206 2.12 2 19 Amps 5.7 5.8 6.0 62 6 1 63 6.4 67 66 6.7 6.9 7 2 7.0 7 1 74 7.6 7.4 7.6 7.8 8.1 7.8 8 0 8.2 85 ..f� HIPR 148 159 168 175 166 178 188 196 188 203 214 223 215 231 244 254 241 260 274 286 267 287 303 316 -_°- "`"�� " LO PR 63 67 73 78 66 71 77 82 69 73 80 85 72 77 84 90 76 81 88 94 79 84 91 97 .,•'4a MBh 23 5 24 0 25.1 26 8 23.0 23 4 24.5 26 2 22.4 22.9 24.0 25.6 21.9 22 3 23.4 24.9 20.8 21.2 22.2 23.7 19.3 19.6 20.6 21.9 S/T 0.95 092 083 0.67 0.99 0.95 0.86 0.70 1.00 0.98 0.88 0.72 1.00 1.00 0.91 0.74 1.00 1.00 095 077 1.00 1.00 0.95 0.77 AT 23 23 21 18 23 23 22 19 23 23 22 19 22 23 22 19 21 22 21 19 20 20 20 17 Shy;„'�'"6;:;;'• '4y,» P!+,"'i;�rl4» 900 kW 1.59 1.63 1.67 1.72 1.71 1.74 1.79 185 181 1.84 1.90 1.96 1.89 1.93 199 2.06 1.97 2.01 207 2.14 2.03 2.08 2 14 2.21 Amps 5 8 5.9 6 1 6.3 62 6.3 6.5 6.7 6.6 6.8 7.0 7.2 7 1 7.2 7.4 7.7 7.5 7.6 7.9 8.1 7.9 8.0 8.3 8.6 �' R HIPR 149 161 169 177 167 180 190 198 190 205 216 226 217 233 246 257 244 262 277 289 269 290 306 319 ,, re NO PR 63 67 74 78 67 71 78 83 70 74 81 86 73 78 85 90 77 82 89 95 79 84 92 98 r=, IDB Entering Indoor Dry Bulb Temperature Shaded area reflects Test A rating conditions per AHRI 210/240 Amps=outdoor unit amps(comp.+fan) :,�^•`*,+_, ";f'?'";^►.;;g High and low pressures are measured at the liquid and suction service valves kW=Total system power OUTDOOR AMBIENT TEMPERATURE T 652F 752F SS°F 952F 105"F 1152F ENTERING INDOOR WET BULB TEMPERATURE Z Y�r•-;�"p•'s;,` 100: :II xaftow 5! 59 11, 63 67; 1' 7 S9' 03`f.4T. 71 S9 J,fib` 67_1_77 50,'l 63 67 , 71' S9` MBh ' 25.1 260 28.5 - 24.5 25.4 27.9 - 23.9 24.8 272 - 23.4 24.2 26.5 - 22.2 23.0 25.2 - 206 213 23.3CD 1,•�,,e�l..A�,`,;zit S/T 0.67 0.56 0.39 - 069 0.58 040 - 0.71 0.59 0.41 - 073 0.61 0.42 - 0.76 0.64 0.44 - 0.77 064 044 � +t„= r�l�ax,�, px;,s`. ,m e•` AT 19 16 12 19 16 12 - 19 16 12 19 16 12 19 16 12 17 15 it 831 kW 190 194 199 204 2.08 2.14 - 2.16 2.20 2.27 2.27 2.31 2.39 236 241 2.48 2.44 249 2.57CNrs ,, iF1 - - rd Amps 7.0 7.1 7.4 75 7.7 79 8.1 83 8.5 86 88 9.1 9.1 93 96 96 99 10.2 Mil. HI PR 147 158 167 - 165 178 188 - 188 202 213 214 230 243 240 259 273 266 286 302 °4r t' LO PR 58 61 67 61 65 71 - 63 67 74 - 67 71 77 70 74 81 - 72 77 84 t, ;�'A MBh 27.2 28 2 30.9 - 26.6 27.5 30.2 25.9 26.9 29.5 - 25 3 26.2 28.7 - 24 0 24.9 27.3 - 22.3 23.1 25.3 Wm 'rc'a irR E a •, S/T 0.69 0.58 0.40 - 0.72 0.60 0.42 - 074 0.61 0.43 - 0.76 0.63 0.44 - 0.79 0.66 0.46 - 0.80 0.66 0.46 QX I; AT 18 16 12 18 16 12 18 16 12 19 16 12 18 16 12 17 15 11 � ail 70 950 kW 1.94 1.98 2 04 2.08 2 13 2.19 2.21 2 26 2.33 2.32 2 37 2 44 2.41 2.47 2.55 2.50 2.55 2.63 W , g .,, "RM Amps 1 7.2 7.3 7.6 - 7.7 7.9 8.1 83 8.5 8.8 - 8.9 91 9.3 - 9.4 96 99 - 99 10.1 10.5 - Wr"q .5., HI PR 152 163 172 170 183 193 193 208 220 - 220 237 250 - 248 267 282 274 295 311 '� r LO PR 60 63 69 63 67 73 65 70 76 69 73 80 - 72 77 84 74 79 86T 1.t ., , 8' w f•):' �.., MBh 28.0 29.0 31.8 - 274 284 31.1 - 26.7 27.7 30.3 - 26.1 270 29.6 - 24.8 257 28.1 - 22.9 23 8 26.1 - " S T042 m. / 0.73 0.61 0 42 0.75 0.63 0 44 0,77 0.64 0 45 0.80 0.67 0.46 0.83 0.69 0.48 - 0 83 0.70 0 48 r . "aklx > AT 1 18 15 12 - 18 15 12 - 18 15 12 - 18 15 12 - 18 15 12 16 14 11 -n 1069 kW 1.96 2.00 206 2.10 214 2.21 - 2.23 2,27 2,34 2.34 2.39 2,46 2.43 2.49 2.57 252 2.57 265 W .. ., ' Amps 72 7.4 7.6 - 7.8 7.9 8.2 - 84 8.6 8.8 - 8.9 91 9.4 - 9.5 9.7 10.0 - 10.0 10.2 10.5 - O HI PR 153 165 174 - 172 185 195 - 195 210 222 - 223 239 253 - 250 269 285 - 277 298 314 - p `A"'t ."'�s' LO PR 160 64 70 64 68 74 - 66 70 77 69 74 81 73 77 84 75 80 87 r MBh if 25.5 26.3 28.5 30.5 249 25.7 27.8 29.8 24.4 251 27.1 29.1 23.8 24.5 265 28.4 22.6 23.2 25.2 270 209 21.5 23.3 25.0 � S/T 0.76 0.68 0.51 0.33 0.79 0.70 0.53 0.34 0.81 072 0.55 0.35 0.83 0.74 056 036 0.86, 0.77 0.59 0.38 0.87 078 0.59 0.38 .'{` AT 21 20 16 11 22 20 16 11 22 20 16 11 22 20 17 11 22 20 16 11 20 19 15 10 " Y.•"'F .m F,w r= . . fi. 831 kW 1.91 1.95 2.01 2.07 2.05 2.09 2.16 223 2.17 2.22 2.29 2.36 2.28 2.33 241 2.48 2.38 2.43 2.50 2.58 2.46 2.51 2.59 2.67 R �.' w Amps j 7.1 7.2 74 77 76 7.7 80 8.3 8.2 84 8.6 8.9 87 8.9 9.2 95 92 9.4 9.7 10.1 9.7 10.0 10.3 10.6 N. HI PR i 149 160 169 176 167 179 189 198 190 204 215 225 216 232 245 256 243 261 276 288 268 289 305 318 �r•�,��,,;�, LO PR 58 62 68 72 62 66 72 76 64 68 74 79 67 72 78 83 71 75 82 87 73 78 85 90 "� •- ���, �, MBh i 277 28.5 30.8 33.1 27.0 27.8 30.1 32.3 26.4 272 29.4 31.6 25.7 26.5 287 30.8 24.5 252 27.3 29.2 22.7 23.3 252 27.1 S/T ! 079 070 0.53 0.34 082 0.73 0.55 036 084 075 0.57 0.36 0.86 0.77 058 0.38 0.90 0.80 0.61 0.39 0.90 081 0.61 0.39 t° AT i 21 19 16 11 21 20 16 11 21 20 16 11 22 zU 16 11 21 20 16 11 20 18 15 10 .. ` 7 75 950 kW f 1.96 2.00 2.06 2.12 2.10 214 2.21 2.28 2.23 2.27 2.35 242 234 2.39 2.46 2.54 2.43 2.49 257 2.65 2.52 2.57 2.65 2.74 a,:r Amps 7.2 7.4 7.6 7.9 7.8 7.9 8.2 8.5 8.4 86 8.8 9.2 8.9 4.1 9.4 9.8 9.5 9.7 10.0 10.3 10.0 10.2 10.6 10.9 HI PR 153 165 174 182 172 185 195 204 195 210 222 232 223 240- 253 264 250 269 285 297 277 298 314 328 LO PR 60 64 70 74 64 68 74 79 66 70 77 82 69 .74 81 86 73 77 84 90 75 80 87 93 MBh 28.5 29.3 31.8 34.1 27.8 28.7 31.0 33.3 27.2 28.0 30.3 325 26.5 27.3 29.5 317. 25.2. 259 28.1 30.1 23.3 240 26.0 279 S/T 0.83 0.74 056 0.36 086 077 0.58 0.37 0.88 0.78 059 038 0.91 0.81 0.61 039 0.94 084 064 0.41 0.95 085 0.64 041 AT 20 19 15 11 20 19 15 11 21 19 15 11 21 19 16 11 20 19 15 11 19 18 14 10 1069 kW 197 2.01 2.07 214 2.12 216 2.23 230 224 229 236 2.44 236 2.41 2.48 2.57 2.45` 251 2.59 267 2.54 2.59 2.68 2.76 Amps I 7.3 75 7.7 7.9 7.8 8.0 8.3 8.5 8.5 8.7 8.9 9.2 9.0 9.2 9.5 9.8 9.5 9.8 10.1 104 10.1 10.3 10.6 11.0 HI PR 1 155 166 176 183 174 187 197 206 197 212 224 234 225 242 255 266 253 272 287 300 279 301 318 331 LO PR 61 65 71 75 1 64 68 75 79 67 71 77 83 70 75 81 87 73 78 85 91 76 81 88 94 IDB-Entering Indoor Dry Bulb Temperature Shaded area reflects ACCA(TVA)conditions Amps=outdoor unit amps(comp+fan) High and low pressures are measured at the liquid and suction service valves. kW=Total system power OUTDOOR AMBIENT TEMPERATURE X 652F 752F 852F 952F 105RF 1152F z ENTERING INDOOR WET BULB TEMPERATURE p tD ;:"AIRf1a11U, : 'S9. 63' 67 • •'71,' .59 63, 67`.; '7 '" ''S9 6 ' 67,, 71•: 59' 65: 69'. '7x ',.59 63. . 67 "'7 __ 59°` 63;'. . 67 '' 71 v MBh 26.0 26.6 28.4 30.3 25.4 25.9 27.7 29.6 24.8 25.3 27.1 28.9 242 247 26.4 28.2 23.0 23.5 25.1 26.8 213 21.7 23.2 24.8 CD S/T 0.83 0.78 064 048 0.86 0.81 0.66 049 088 0.83 0.68 0.50 0.91 0.86 070 0.52 0.95 089 0.72 0.54 0.96 0.90 0.73 055 p AT 24 23 20 16 24 23 20 16 24 23 20 16 24 23 20 16 24 23 20 16 22 22 19 15 a 831 kW 193 1.97 2.02 209 2.07 211 2.17 224 2.19 2.24 2.31 2.38 230 2.35 2.42 250 239 2.45 2.52 2.61 2.48 2.53 2.61 2.70 Amps 7.1 7.3 7.5 7.7 76 7.8 8.0 8.3 8.2 8.4 8.7 90 8.8 9.0 9.3 9.6 9.3 9.5 98 102 98 10.0 10.4 10.7 0 HI PR 150 161 171 178 168 181 191 200 191 206 218 227 218 235 248 258 245 264 279 291 271 292 308 321 LO PR 59 63 68 73 62 66 72 77 65 69 75 80 68 72 79 84 71 76 83 88 74 78 86 91 I MBh 282 28.8 307 329 27.5 28.1 300 321 269 27.4 293 31.3 262 26.8r'7.6,'6,' 30.6 24.9 25.4 27.2 290 23.1 236 25.2 269 S/T 0.86 0.81 066 049 0.89 0.84 0.68 0.51 092 086 0.70 0.52 0.95 089 '-IX-721'" 0.54 0.98 0.92 0.75 0.56 0.99 0.93 0.76 0.57 x AT 24 23 20 16 24 23 20 16 24 23 20 16 24 23 ",,20, ; 16 24 23 20 16 22 21 18 15 80 950 kW 1.97 201 2.07 2.14 212 2.16 2.23 2.30 225 2.29 2.36 2.44 2.36 241 ";`2:O_ 2.57 2.45 2.51 2.59 267 254 2.59 2.68 2.76 a-+ Amps 73 75 7.7 79 7.8 80 8.3 8.5 85 87 8.9 9.2 9.0 9.2 ,19;5'=. 9.8 95 98 10.1 104 10.1 103 10.6 110 W ° '. HI PR 155 166 176 183 174 187 197 206 197 212 224 234 225 242 ;'2SG:' 266 253 272 287 300 279 301 318 331 :;- LOPR 61 65 71 75 64 68 75 79 67 71 77 83 70 75 8.1 87 73 78 85 91 76 81 88 94 T , » 4 " MMBh 29.0 29.6 31.7 339 28.3 29.0 30.9 33.1 277 28.3 30.2 323 27.0 276 29.5 31.5 25.6 26.2 28.0 29.9 23.7 243 25.9 27.7 5/T 0 91 0.85 0.69 0 52 0 94 0.88 0.72 0.54 0.96 0.90 0.73 0.55 100 0 93 0 76 0.57 1.00 0.97 0.79 0.59 1.00 1 00 0.79 0 59 n . "'' AT 23 22 19 15 23 22 19 15 23 22 19 15 23 22 19 15 22 22 19 15 20 21 18 14 a -;„• . Tj �' :,.. 1069 kW 1.99 203 209 2.15 213 2.18 224 232 2.26 231 2.38 246 2.38 243 2.51 259 2.47 253 2.61 269. 2.56 261 270 2.79 ' ''•. :"a> Amps 7.4 75 7.7 80 7.9 8.1 8.3 8.6 85 8.7 90 9.3 9"1 9.3 9.6 9.9 96 9.9 10.2 10.5 10.2 10.4 10.7 11.1 w ; '�• ar HI PR 1 156 168 178 185 175 189 199 208 199 215 227 236 227 244 258 269 255 275 290 303 282 304 321 335 C= r, •� LO PR 61 65 71 76 65 69 75 80 67 72 78 83 71 75 82 88 74 79 86 92 77 82 89 95 -� MBh 264 27.0 28.2 30.1 258 26.3 27.6 29.4 25.2 257 26-9 28.7 24.6 251 26.3 280 23.4 238 25.0 26.6 217 22.1 231 24.7 xt-„! "^" S/T 0.87 0.84 0.76 0.62 0.90 0.87 0.79 0.64 0.93 0.90 0.81 0.66 0.96 0.92 083 0.68 0.99 0.96 0.87 0.70 1.00 0.97 0.87 0.71 AT 26 25 24 21 26 25 24 21 26 25 24 21 26 26 24 21 26 25 24 21 24 24 22 19 --� <"'��•� _ _ '_• 831 kW 194 1.98 204 2.10 2.08 213 219 226 2.21 2.26 2.33 2.40 232 2.37 244 2.52 2.41 2.47 2.54 2.63 2.50 255 2.63 2.72 Ams 72 7.3 7.5 7.8 7.7 7.9 8.1 8.4 8.3 8.5 8.8 9.1 8.8 9.1 9.3 9.7 94 9.6 99 10.3 99 10.1 105 10.8 f= 70'lk�`2,'• • HI PR 152 163 172 180 170 183 193 202 193 208 220 229 220 237 250 261 248 267 282 294 274 295 311 325x' +;¢ LO PR 60 63 69 74 63 67 73 78 65 70 76 81 69 73 80 85 72 77 84 89 74 79 86 92 ru fmgw. "_..- MBh 28.7 292 30.6 32.6 280 28.5 29.9 31.9 27.3 27.9 29.2 31.1 26.7 27.2 285 30.4 25.3 258 27.0 288 23.5 23.9 25.0 26.7 t P 64JA=., 9h�,•a 'w S 0.91 0.87 0 79 0.64 0.94 0.91 0 82 0.66 0.96 0 93 0.84 0.68 0.99 0 96 0.86 0.70 1.00 0.99 0 90 0.73 1.00 1.00 0.90 073 AT 25 25 23 20 25 25 24 20 2S 25 24 20 26 25 24 21 25 25 23 20 23 23 22 gc. Z{'Y ` 85y. 950 kW 199 2.03 2.09 2.15 213 2.18 2Z4 2.32 2.26 2.31 2 38 2.46 2.38 2.43 2.51 2 59 2 47 2.53 261 2.69 2.56 2.61 2.70 2.79a " ? ;, Ams 7.4 7.5 7.7 8.0 79 81 8.3 8.6 8.5 8.7 9.0 9.3 91 9.3 96 9.9 9.6 9.9 102 105 10.2 10.4 10.7 111 ` p .,NZ HI PR 156 168 178 185 175 189 199 208 199 215 227 236 227 244 258 269 255 275 290 303 282 304 321 335 rz 4-0 a< LO PR 61 65 71 76 65 69 75 80 67 72 78 83 71 75 82 88 74 79 86 92 77 82 89 95 "- MBh 295 301 31.5 336 28.8 29.4 30.8 32.8 28.1 28.7 30.0 32.1 27.5 280 29.3 31.3 26.1 266 27.8 297 24.2 24.6 25.8 27.5 y>1,s''''uH S/T 0.95 0.92 0.83 0.67 098 0.95 0.86 0.69 100 0.97 0.88 0.71 1.00 1.00 0.91 0.74 1.00 100 094 0.76 100 1.00 0.95 0.77 AT 24 24 22 19 24 24 23 20 24 24 23 20 24 24 23 20 22 23 23 20 21 21 21 18 vr•f;, ►; - k3 1069 kW 2.00 2.04 210 2.17 2.15 219 2.26 2.33 2.28 2.33 2.40 2.48 2.40 2.45 253 2.61 2.49 2.55 2.63 272 2.58 2.64 2.72 281 Amps 7.4 7.6 7.8 8.1 8.0 8.1 8.4 8.7 8.6 8.8 9.1 9.4 9.2 9.4 9.7 10.0 9.7 99 10.3 10.6 10.3 10.5 10.8 11.2 HI PR 158 170 179 187 177 191 201 210 201 217 229 239 229 247 261 272 258 278 293 306 285 307 324 338 "., ;+at,, LO PR 62 66 72 77 65 70 76 81 68 72 79 84 71 76 83 88 75 80 87 93 77 82 90 96 -,• IDB Entering Indoor Dry Bulb Temperature Shaded area reflects Test A rating conditions per AHR1210/240 Amps=outdoor unit amps(comp+fan) r`,tlt ".y. High and low pressures are measured at the hgwd and suction service valves kW=Total system power •r" 'A� OUTDOOR AMBIENT TEMPERATURE -9 •; '�j a 659F 752F 852F 952F 105°F 1152F ENTERING INDOOR WET BULB TEMPERATURE ti.. ld8 - 'A1itFtOW 59 b3 67` ,' S9.'• 3 f7 7# 59 67 71• :63` 67 71 S9 fi3 67 •71' v <<f�►<„f, V" MBh 30.0 31.1 34.1 29.3 30.4 33.3 28.6 29.7 32.5 - 27.9 29.0 317 - 26.5 27.5 30.1 246 25.5 27.9 ,rerv,';',a.,n.,�.zO say-a� .�'a*.•s. 5/T 0.67 0.56 0.39 - 0.70 058 0.40 - 0.71 0.60 041 - 074 0.62 0.43 - 0.76 0.64 044 - 0.77 064 0.45 ''su`'gyS;r 9 AT 19 17 13 19 17 13 - 20 17 13 20 17 13 - 19 17 13 18 16 12 ' T".I;°+'rxx iY� iYiT; ��w;�'�„� g rS�x w,.iia 963 kW 2.31 2.36 2.43 - 248 2.53 2.61 - 2.63 2.68 2.77 - 2.76 2.82 2.91 - 2.87 2.93 3.03 - 2.97 3.03 3.13 - qy j-qi Amps 8.8 9.0 9.3 9.5 9.7 10.0 10.3 10.5 10.8 10.9 11.2 11.6 - 11.6 11.9 12.3 123 12.6 130 - Ay �i�; t"s ,„ HI PR 141 152 160 158 170 180 180 194 205 205 221 233 231 248 262 255 274 290 u .. y,Aw. 'i: v g',a,, ,; ' LO PR 59 6268 - 62 66 72 - 64 69 75 68 72 79 - 71 75 82 73 78 85 ' rI r d MBh 32.5 33.7 36.9 - 31.8 32.9 361 - 31.0 32.2 352 - 30.3 31.4 34.4 - 288 29.8 327 - 26.6 276 30.2 S/T 070 0.58 0.40 072 0.60 0.42 - 0.74 062 0.43 0.76 0.64 0.44 0.79 0.66 0.46 0.80 0.67 0.46 :° ° �r. . P Vis,r 'M-a AT 19 16 12 19 17 13 - 19 17 13 19 17 13 19 16 13 18 15 12 'y5t 4, n 70 1100 kW 2.37 2.42 2.49 - 2.54 2.59 267 - 269 275 2.84 - 283 289 2.98 - 2.94 3.01 3.10 - 3.04 3.11 321 Amps 9.0 92 9.5 9.7 100 103 10.5 10.8 11.1 it 2 11.5 11.9 11.9 12.2 126 12.6 129 13.4 y HI PR 146 157 165 163 176 186 186 200 211 212 228 240 238 256 270 263 283 299 LO PR 60 64 70 64 68 74 66 71 77 70 74 81 - 73 78 85 76 80 88 G'1 �k t MBh 33.5 34.7 381 - 32.7 33.9 37.2 - 32.0 33.1 36.3 31.2 323 35.4 29.6 30.7 336 274 28.4 31.2 h:. �+ S/T 0.73 0.61 0.42 0.76 0.63 0.44 - 0.78 0.65 0.45 - 0.80 0.67 0.46 - 0.83 0.69 0.48 0.84 070 0.49 K AT 18 16 12 18 16 12 18 16 12 - 19 16 12 18 16 12 17 15 11 �;`"'' 'a - - WWF �; 1238 kW 2 39 2.43 2.51 2.56 2 61 2.69 2 71 2.77 2 86 2.85 2 91 3.00 2.97 3 03 3 13 3 07 3 13 3.23 Amps 9.1 9.3 96 98 10.1 10.4 106 109 11.2 - 113 it 6 12.0 12.1 12.3 12.7 12.7 131 13.5 C1 # +� HI PR 147 158 167 - 165 178 187 - 188 202 213 - 214 230 243 - 240 259 273 - 266 286 302 - Q� '� 4 ,•; " LO PR 61 65 71 65 69 75 67 71 78 - 70 75 82 - 74 79 86 76 81 89 - Q1 a4` 3111. MBh 305 314 34.0 365 29.8 30.7 332 357 29.1 30.0 32.5 34.8 284 29.3 31.7 340 270 27.8 301 32.3 250 25.7 27.9 299 S/T 0.76 0.68 0.52 0.33 0.79 0.71 0.54 034 0.81 0.73 0.55 035 0.84 0.75 0.57 0.36 087 0.78 0.59 0.38 0.88 0.78 0.59 038 AT 22 21 17 12 23 21 17 12 23 21 17 12 23 21 17 12 22 21 17 12 21 19 16 11 ms: 963 kW 233 2.38 2.45 2.52 2.50 255 2.63 2.71 265 2.71 2.79 2.88 2.78 2.84 2.93 3.03 2.90 296 3.05 3.15 299 306 3.16 3.26L x Amps 8.9 9.1 9.4 97 9.6 98 10.1 105 104 106 10.9 113 110 11.3 117 12.1 11.7 12.0 124 129 12.4 12.7 13.1 13.6 HI PR 143 153 162 169 160 172 182 190 182 196 207 216 207 223 236 246 233 251 265 276 258 277 293 305 LO PR 59 63 69 73 63 67 73 77 65 69 76 81 68 73 79 85 72 76 83 89 74 79 86 92 " �. d MBh 331 34.1 36.9 39.6 32.3 33.3 36.0 387 315 32.5 35.2 37.7 30.8 31,7' 34.3 36.8 29 2 30.1 32.6 35 0 27 1 27.9 30.2 32.4 _x{>& ; r ✓ w%x S/T D79 0.71 0.54 0.34 0.82 0.73 0.56 0.36 0.84 0.75 0.57 0.37 0.87 ,0.70 0.59 0.38 0.90 0.81 0.61 0.39 0.91 0.81 0.62 0.40 :7 AT 22 20 17 11 22 20 17 12 22 20 17 12 22 .21, 17 12 22 20 17 11 21 19 16 11 ';Tx.'"f ' R 75 1100 kW 2.39 2.43 2.51 258 2.56 2.61 2.69 278 272 2.77 2.86 2.95 2.85 -2.91 3.00 3.10 2.97 3.03 313 3.23 307 3.13 324 3.34 Amps 9.1 9.3 9.6 10.0 9.8 101 104 107 10.6 10.9 112 116 113 J1:6. 120 124 121 12.3 12.7 132 12.7 131 13.5 140 HI PR 147 158 167 174 165 178 187 196 188 202 213 222 214 ,`40•, 243 253 240 259 273 285 266 286 302 315 LO PR 61 65 71 76 65 69 75 80 67 71 78 83 70 75 82 87 74 79 86 91 76 81 89 95 MBh 341 35 1 38.0 408 33.3 34.3 37.1 39.8 325 33.5 362 38.9 31.7 32.6 35.3 37.9 30.1 310 336 36.0 27.9 28.7 311 334 S/T 0.83 074 0.56 0.36 0.86 0.77 0.58 0.37 088 0.79 0.60 0.38 0.91 0.81 0.62 0.40 0.95 085 0.64 0.41 095 0.85 0.65 0.42 AT 21 19 16 11 21 20 16 11 21 20 16 11 21 20 16 11 21 19 16 11 20 18 15 10 1238 kW 2.40 245 253 2.60 258 2.63 2.72 2.80 2.74 2.79 2.88 2.97 2.87 2.94 303 313 2.99 3.06 3.15 3.26 3.09 3.16 3.26 3.37 Amps 92 94 97 10.0 9.9 10.1 105 10.8 10.7 11.0 113 118 11.4 11.7 12.1 12.5 12.2 12.5 12.9 13.3 12.9 132 13.6 14.1 HI PR 148 160 169 176 167 179 189 197 190 204 215 225 216 232 245 256 243 261 276 288 268 289 305 318 LO PR 62 66 72 76 65 69 76 81 68 72 79 84 71 76 83 88 75 79 87 92 77 82 90 95 IDB-Entering Indoor Dry Bulb Temperature Shaded area reflects ACOA(TVA)conditions Amps=outdoor unit amps(comp+fan) High and low pressures are measured at the liquid and suction service valves kW=Total system power OUTDOOR AMBIENT TEMPERATURE 1"rl 9C 652F 752F 852F 952F 1052F 1152F a ENTERING INDOOR WET BULB TEMPERATURE z v 1D8 AIRf-LOW= ; ,$9. 63'`• "fiT ' •,7i" '-".59!-'-[',63,j;67" "7k-1- :59';1.'63 ` .:67 ;71' 59.' 1 '63,, ".67,;• 7i =59.J'!63 --67 't'a71_ *S9 . 63' 1?.67 '•71'•= p MBh 31.1 318 33.9 363 30.4 31.0 33.1 35.4 296 30.3 32.4 346 28.9 295 31.6 337 27.5 281 300 32.1 25.4 26.0 278 29.7 n S/T 0.84 0.79 0,64 048 0.87 0.81 0.66 0.50 0.89 0.83 0.68 051 092 086 0.70 052 095 0.89 0.73 0.54 096 090 0.73 0 55 O O AT 25 24 21 17 25 24 21 17 25 24 21 17 25 24 21 17 25 24 21 17 23 22 19 16 963 kW 235 240 247 254 2.52 2.57 265 2.73 2.67 2.73 2.81 2.90 2.81 2.87 2.96 3.05 2.92 2.98 308 3 18 302 308 3 18 329. Amps 9.0 9 2 95 9.8 97 9.9 10.2 10.6 10.5 10.7 110 11.4 11.1 11_4_ 118 12.2 11.8 12.1 125 13.0 12.5 12.8 13.2 13.7 HIPR 144 155 164 171 162 174 184 192 184 198 209 218 209 225 238 248 236 253 268 279 260 280 296 308 a LO PR 60 64 70 74 63 67 73 78 66 70 76 81 69 73 80 85 72 77 84 90 75 80 87 93 ' MBh 33.7 34.4 36.8 39.3 329 336 35 9 38.4 32.1 328 35.1 375 313 320 '�34 2 e' 366 29.8 30.4 32.5 347 276 282 30.1 322 S/T 0.87 0.81 0.66 0.50 0.90 0.84 0.69 0.51 0.92 0.87 0.70 0.53 0.95 0.89 0:"J,3 0.54 0.99 0.93 075 0.56 1.00 0.93 076 057 AT 24 23 20 16 25 24 21 16 25 24 21 16 25 24 :,';,21,, 17 25 24 20 16 23 22 19 15 80 1100 kW 2.40 2.45 253 260 258 263 2.72 2.80 274 2.79 2.88 297 2.87 2.94 ='.8:03:(. 3.13 2.99 3.06 3.15 3.26 3.09 3.16 3.26 337 C = Amps 9.2 9.4 9.7 10.1 9.9 10.1 10.5 10.8 10.7 11.0 11.3 11.8 11.4 11.7 :.•12;1'' 12.5 12.2 12.5 129 13.3 12.9 13,2 13.6 14.1 yv HIPR 149 160 169 176 167 179 189 198 190 204 215 225 216 232 '445 256 243 261 276 288 268 289 305 318 " .,-. LO PR 62 66 72 76 65 69 76 81 68 72 79 84 71 76 ;83,s 88 75 79 87 92 77 82 90 95 101 >'_�, x MBh 34.7 35.4 379 40.5 33.9 34.6 37.0 39.5 33.1 33.8 361 386 323 33.0 352 37.7 30.7 313 335 35.8 284 29.0 310 33.1 S/T 0.91 0 85 0 69 052 054 0.88 0.72 0.54 0.97 0.91 074 0.55 100 0.94 0.76 057 100 1.00 0.79 0.59 1.00 100 080 0.60 AT 23 22 20 16 24 23 20 16 24 23 20 16 24 23 20 16 23 23 20 16 21 22 18 15 1238 kW 2.42 2.47 2.55 2.62 2.60 2.65 2.74 2.82 2.76 2.82 2.90 300 2.90 2.96 3.05 315 302 3.08 3.18 3.28 3 12 319 3.29 3.40 •, •,£ Amps 93 9.5 9.8 101 10.0 10.2 10.6 10.9 10.8 111 11.4 11.9 11.6 11.8 12.2 12.7 12.3 12.6 13.0 13.5 13.0 133 137 142 p1 ;``.^ HIPR 150 161 170 178 168 181 191 199 191 206 218 227 218 235 248 258 245 264 279 291 271 292 308 321 W %fF ',f '1�'�4<' LO PR 1 62 66 72 77 66 70 77 81 68 73 80 85 72 77 84 89 75 80 88 93 78 83 91 96 1 yW�'rx'�+kii'n"'',pti � ,tnsy�;':�'kd-•4'�",�; '.'a`,'N,�A;' ; MBh 31.6 322 33.8 36.0 309 315 33.0 35.2 30.2 30.7 322 34.3 29.4 30.0 314 33.5 27.9 28 5 298 31.8 25.9 26.4 276 295 „ w=�: •,'•;r�" S/T 0.88 0.85 076 0.62 0.91 0.88 0.79 064 0.93 0.90 0.81 0.66 096 0.93 0.84 068 1.00 0.96 0.87 0.71 100 0.97 088 0.71 ..,.- `. AT 27 26 25 21 27 26 25 22 27 26 25 22 27 27 25 22 27 26 25 21 25 25 23 20 .4 �- 963 kW 2.37 241 249 2.56 254 2.59 2.67 2.76 269 2.75 2.84 293 2.83 2.89 298 3.08 2.94 3.01 3.10 320 3.04 3.11 3 21 331 Amps 9.0 9.2 9.5 9.9 97 10 0 103 10.6 10.5 10,8 111 11.5 11.2 11.5 11.9 12.3 119 12.2 12.6 13 1 12.6 12.9 13.4 13.9 ;;�x,ax•-i" HIPR 145 157 155 172 163 176 186 194 186 200 211 220 211 228 240 251 238 256 270 282 263 283 299 312 + LO PR 60 64 70 75 64 68 74 79 66 71 77 82 70 74 81 86 73 78 85 90 76 80 88 94 MBh 34.3 34.9 36.6 390 335 34.1 35.7 38.1 327 33.3 34.9 37.2 31.9 32.5 340 36.3 30.3 309 32.3 34.5 28.0 286 29.9 319 S/T 0.91 0 88 0.79 0.64 0.94 0.91 0.82 0 67 0.97 0 93 0.84 0.68 1.00 0.96 0 87 0 71 1.00 1.00 0.90 0 73 100 1.00 091 0.74 ; AT 26 26 24 21 26 26 25 21 26 26 25 21 27 26 25 21 25 26 24 21 23 24 23 20 a„, ' 'a tic, .aa;?r;.;•'ti2,Y 85 1100 kW 242 2.47 2.55 2.62 2.60 2.65 2.74 2.82 2.76 2.82 2.90 3.00 2.90 2.96 3.05 3.15 3.02 3.08 3.18 3.28 3.12 3.19 3.29 3.40 ;uF Amps 9.3 9.5 9 8 10.1 10,0 10.2 10.6 10 9 10.8 11.1 11.4 11.9 11.6 11.8 122 127 12.3 12.6 13 0 13.5 13 0 13.3 13.7 14.2 +" zv HI PR 150 161 170 178 168 181 191 199 191 206 218 227 218 235 248 258 245 264 279 291 271 292 308 321 LO PR 62 66 72 77 66 70 77 81 68 73 80 85 72 77 84 89 75 80 88 93 78 83 91 96 a -e, MBh 35.3 36.0 377 40.2 34.5 35.1 368 393 33.7 34.3 35.9 38 3 32.8 33.5 35.0 37.4 312 31.8 333 35.5 28.9 29.5 30.8 32.9 £``„Ay•, `,E S/T 0.95 0.92 083 067 0.99 0.95 0.86 070 100 0.98 0.88 0.72 1.00 1.00 0.91 0.74 1.00 1.00 0.95 0.77 1.00 1.00 095 0.77 �,,r,,,fa,,i�!;,,?,;,•; AT 25 25 23 20 25 25 24 20 25 25 24 20 24 25 24 21 23 24 23 20 21 22 22 19 1238 kW 2.44 2.49 257 265 262 268 276 285 278 2,84 293 302 292 298 3.08 3.18 3.04 3.11 3.21 3.31 3 14 3 21 3.32 3.43 Amps 9.4 9.6 99 10.2 10.1 103 10.6 11.0 10.9 112 11.5 12.0 11.7 119 12.3 12.8 12.4 12.7 13.1 13 6 13.1 134 13.9 14.4 HIPR 151 163 172 180 170 183 193 201 193 208 220 229 220 237 250 261 248 267 282 294 274 295 311 324 F. .;•,"7';'„k•-is Kms.;"'��+'�,`;,w 67 73 78 67 71 77 82 69 74 80 86 73 77 84 90 76 81 88 94 79 84 91 97 +'••,"' "v<, IDB-Entering Indoor Dry Bulb TemperatureShaded area reflects Test A rating conditions per AHRI 210/240 Amps=outdoor unit amps(comp.+fan) ;k+.;;, High and low pressures are measured at the liquid and suction service valves kW=Total system power jt 1. OUTDOOR AMBIENT TEMPERATURE X 75°F 85°F 952F105° 115°F65°F as= r' 'k ji'-' tr'•z= ;�c' ENTERING INDOOR WET BULB TEMPERATURE I08 AiRFIOW, S9,'. 63' 67,; ',7;;;, ''59.'' ''6 67 ;,Q1, ` 'S9' 63. 6y 91`, 59% 63:' 67, 71,!"'''S9" ' 63'' ' '67• '.71^, "59 53 67' y1`. p n' , w`s` MBh 38.4 39.8 43.6 375 38.9 426 - 366 38.0 41.6 - 35.7 37.0 406 34.0 35.2 38.6 31.5 326 35.7 O S/T 067 056 0.39 069 058 0.40 - 0.71 059 0.41 - 0.73 0.61 0.43 0.76 064 0.44 - 0.77 0.64 044 CD AT 19 17 13 20 17 13 - 20 17 13 - 20 17 13 19 17 13 18 16 12 „•,._.,,,..�_- 1225 kW 2.87 2.92 3.01 - 3.06 3.12 3.21 - 3.24 3.30 3.40 - 3.39 3.46 3.56 - 3.52 359 369 - 3.63 3.70 3.81 Amps 112 115 118 - 12.1 124 128 131 13.5 139 - 14.0 14.4 149 15.0 153 158 15.8 162 168 HI PR 135 145 153 - 151 163 172 172 185 195 196 211 222 220 237 250 243 262 276 m a LO PR 59 63 69 - 63 67 73 - 65 69 75 - 68 73 79 - 72 76 83 - 74 79 86 MBh 39.0 404 443 - 381 395 43.3 - 37.2 38.5 42.2 - 36.3 37.6 41.2 - 345 357 39.1 - 31.9 381 36 3 S/T 0.69 0.58 0.40 - 0.72 0.60 042 - 0.74 0.62 0.43 - 0.76 064 044 - 0.79 0.66 0.46 - 080 0.67 0.46 Pte^"+"Myr'"hWk''< _ - - - _ _ �, y�•'.'1a4�^r a'tAt y AT 19 17 13 19 17 13 19 17 13 20 17 13 19 17 13 18 16 12 S t 70 1300 kW 291 2.96 3.04 3.10 MIS 3.25 - 3.28 3.34 3.44 - 3.43 3.50 3.60 3.56 363 3.74 3.68 3.75 3.86 W u'+;`a•- C 2 , Amps 11.4 116 12.0 - 123 126 13.0 - 13.4 13.7 14.1 - 14.3 146 15.1 - 152 15.6 161 - 16.1 165 17.1 - 4:11. �r���q�,�Y HI PR 137 147 156 154 165 175 175 188 199 - 199 214 226 224 241 254 - 247 266 281 a; LO PR 60 64 70 64 68 74 - 66 70 77 69 74 81 - 73 77 85 75 80 87 MBh 404 418 45.8 39.4 40.9 448 38.5 39.9 43.7 37.6 389 42.6 - 357 370 405 33.0 34.3 37.5 ?kru" S/T 0.74 0.62 0.43 0.76 0.64 0.44 - 0.78 066 045 0.81 0.68 0.47 084 0.70 0.49 0.85 0.71 0.49 " y,?.psy AT 17 15 11 - 18 15 12 - 18 15 12 18 15 12 18 15 11 16 14 11 a ;^� . 1575 kW 2.95 3.00 3.09 - 3.15 3.21 3.30 - 3.33 3.39 3.49 348 3.55 3.66 3.62 3.69 3.80 3.73 3.81 3.92 W Amps 11.6 118 122 - 12.5 128 13.2 - 13.6 139 14.4 - 14.5 14.9 15.4 - 155 15.9 16.4 - 164 168 17.4 CMM HI PR 140 150 159 157 169 178 178 192 203 - 203 218 231 228 246 260 252 272 287 ' ` LO PR 61 65 71 65 69 75 67 72 78 - 71 75 82 74 79 86 77 82 89 ".04CM , •;•• MBh 391 40.2 43.5 46.7 38.2 39.3 42.5 456 37.3 38.4 41.5 44.6 363 37.4 40.5 435 34.5 35.6 38.5 41.3 32.0 32.9 35.6 383 YFo-. z2•'- .. S/T 076 0.68 0.52 0.33 079 0.71 0.53 0.34 0.81 0.72 0.55 035 084 0.75 0.57 0.36 0.87 0.78 0.59 0.38 0.87 0.78 059 0.38 AT 22 21 17 12 23 21 17 12 23 21 17 12 23 21 17 12 22 21 17 12 21 19 16 11 ,�• 1225 kW 289 2.94 3.03 3.11 309 315 3.24 3.33 3.26 3.32 3.42 3.52 341 3.48 358 369 3.54 3.62 3.72 3.84 3.66 373 3.84 396 r 4 Amps 11.3 116 11.9 12.4 122 125 129 13.4 13.3 136 14.0 14.6 142 14.5 150 15.6 15.1 15.5 16.0 166 160 16.4 17.0 17.6 `=m' HI PR 136 146 155 161 153 164 173 181 174 187 197 206 198 213 225 234 222 239 253 264 246 264 279 291 ., LO PR 60 64 69 74 63 67 73 78 66 70 76 81 69 73 80 85 72 77 84 89 75 80 87 92 MBh 39.7 40.8 44.2 474 387 39.9 43.2 46.3 378 38.9 42.2 452 36.9 38,0,:' 41.1 441 351 361 391 41.9 32.5 33.4 36.2 38.8 S/T 0.79 071 0.53 0.34 0.82 0.73 0.55 0.36 084 0.75 0.57 0.37 0.87 ,,0,77, 0.59 0.38 0.90 0.80 061 0.39 091 0.81 0.61 0.39 AT 22 20 17 12 22 21 17 12 22 21 17 12 23 , .21` 17 12 22 21 17 12 21 19 16 11 75 1300 kW 2.93 2.98 3.06 3.15 3.13 3.19 328 3.37 3.30 3.37 3.47 3.57 3.46 _3.53>, 3.63 3.74 359 3.66 377 389 3.70 3.78 3.90 402 Amps 11.5 11.7 12.1 12.6 12.4 127 131 13.6 13.5 13.8 14.3 14.8 14.4 141A, 15.3 158 153 15.7 16.2 169 16.3 16.7 17.2 17.9 HI PR 138 149 157 164 155 167 176 184 177 190 201 209 201 '210'• 228 238 226 243 257 268 250 269 284 296 LO PR 61 65 71 75 64 68 75 79 67 71 78 83 70 -75 81 87 74 78 85 91 76 81 88 94 MBh 41.1 423 458 49.1 40.1 41.3 44.7 48.0 39.1 40.3 43.6 46.8 38.2 39.3 42.6 45.7 36.3 37.4 404 43.4 33.6 34.6 37.5 40.2 S/T 084 075 0.57 0.37 0.87 0.78 059 0.38 089 0.80 0.60 039 0.92 0.82 0.62 0.40 096 0.85 065 0.42 096 0.86 0.65 0.42 AT 20 19 15 10 20 19 15 11 20 19 15 11 21 19 15 11 20 19 15 11 19 17 14 10 1575 kW 2.97 3.02 3.11 3.20 3 17 3.23 333 3.42 3.35 3.42 3.52 3.62 3.51 3.58 369 3.80 3.64 3.72 3 83 3 95 3.76 3.84 3.96 4.08 Amps 11.7 12 0 12.3 12.8 12.6 12 9 13 4 13.9 13.7 14.1 14.5 15.1 14.7 15.0 15.5 16.1 15.6 160 16.6 17.2 16.6 17.0 17.5 18.2 HIPR 141 152 160 167 158 170 180 188 180 194 205 213 205 221 233 243 1 231 248 262 273 255 274 290 302 LO PR 62 66 72 77 66 70 76 81 68 72 79 84 72 76 83 89 75 80 87 93 78 83 90 96 IDB-Entering Indoor Dry Bulb Temperature Shaded area reflects ACCA(TVA)conditions Amps=outdoor unit amps(comp+fan) High and low pressures are measured at the liquid and suction service valves kW=Total system power OUTDOOR AMBIENT TEMPERATURE I`99 X ' 659F 7521' 85°F 959F 105°F 1152F y ENTERING INDOOR WET BULB TEMPERATURE Z v IDB ,AfR W 59' 63 67:. 7z'. . .'S9" '. '6 67 T 71. s „59' ',63.' 6� ;71 ,',59' 63 ' 67 7 '," 56,163. S7. - +61, 67' 7i v MBh 39.8 40.6 434 46.4 38.8 397 42.4 45.3 379 387 41.4 44.3 37 0 378 404 43.2 35.1 35.9 384 41.0 32.6 33.3 355 38.0 001 S/T 0.84 0.78 0.64 0.48 087 081 066 0.49 089 0.83 0 68 0.51 0 92 086 0.70 052 0.95 0.89 0.73 0.54 0.96 0.90 0.73 0.55 O O AT 25 24 21 17 25 24 21 17 25 24 21 17 25 24 21 17 25 24 21 17 23 22 20 16 a 1225 kW 291 2,97 3.05 3.14 3.11 3.17 3.26 3.36 328 3.35 3.45 355 3.44 3.51 3.61 3.72 357 364 375 3.87 3.68 3.76 3.87 3.99 Amps 11.4 11.7 12.1 12.5 123 126 13.0 13.5 13.4 137 14.2 14.7 14.3 147 15.2 157 15.2 15.6 16.1 168 16.2 166 17.1 17.8 0 HI PR 137 148 156 163 154 166 175 183 175 189 199 208 200 215 227 237 225 242 255 266 248 267 282 294 a LO PR 60 64 70 75 64 68 74 79 66 71 77 82 70 74 81 86 73 78 85 90 76 80 88 93 I MBh 40.4 41.3 44.1 471 394 40.3 431 46.0 385 39.3 420 44.9 376 384 4ial: 438 35.7 36 5 39,0 416 33.0 338 36.1 38.6 S/T 0.87 0.81 0.66 0.49 0.90 0.84 068 0.51 0.92 0.86 070 0.52 0.95 0.89 "(f 73• 0.54 099 0.92 0.75 0.56 0.99 0.93 0.76 057 M a AT 25 24 21 16 25 24 21 17 25 24 21 17 25 24 7 >' 17 25 24 21 17 23 22 19 15 n w1 80 1300 kW 2.95 300 309 318 3.15 3,21 3.30 340 3.33 3.39 3.49 3.60 3.48 35S 7.3 G6,1 377 3.62 3.69 3.80 392 373 381 3.93 405 W Ams 11.6 118 12.2 12.7 12.5 12.8 13.2 13.7 13.6 13.9 144 149 14.5 14.9 144 16.0 155 15.9 16.4 17.0 16.4 16.8 174 18.1 HI PR 140 150 159 166 157 169 178 186 178 192 203 211 203 219 ';x31- 241 228 246 260 271 252 272 287 299 Nw> �+:�+�;•�e; ''` LO PR 61 65 71 76 65 69 75 80 67 72 78 83 71 75 88 74 79 86 92 77 82 89 95 '' vy MBh 41.8 42.7 45.6 488 40.8 41.7 44.6 47.6 39.8 40.7 43.5 46.5 389 39.7 424 45.4 36.9 377 40.3 431 342 35.0 373 399 <='? V " 1", '4 S/T 0.92 0.86 0.70 0.53 0.95 0.89 0.73 0.54 1.00 0.92 0.75 0.56 1.00 0.95 0.77 0.58 1.00 1.00 0.80 0.60 1.00 1.00 0.81 0.60 :A 3» AT 22 22 19 15 23 22 19 15 23 22 19 15 23 22 19 15 22 22 19 15 20 20 18 14 1575 kW 2.99 305 3.13 3.22 3 19 326 3.35 3.45 3.38 3.44 3.54 3.65 3.54 3.61 3.72 383 3.67 3.75 3.86 3.98 3.79 3.87 3.99 4.11 TI v W *. Amps 11.8 12.1 12.5 12.9 12.7 131 135 14.0 13.9 142 14.7 15.2 14.8 15.2 15.7 16.3 15.8 16.2 16.7 173 167 17.1 17.7 18.4 -. s HI PR 143 153 162 169 160 172 182 190 182 196 207 216 207 223 235 246 233 251 265 276 258 277 293 305 ' $ LO PR 63 67 73 78 66 70 77 82 69 73 80 85 72 77 84 89 76 81 88 94 78 S3 91 97 �F C "" r06.a Ch asx•', MBh 40.5 41.2 43.2 46.1 39.5 40.3 422 45.0 38.6 39.3 412 43.9 376 384 40.2 429 35.8 36.4 382 407 33.1 33.8 35.4 377 � ��'�,`,•�'+ S/T 0.88 0.84 0.76 0.62 0.91 0.88 0.79 0.64 0.93 0.90 0.81 0.66 0.96 0.93 0.84 068 1.00 0.96 0.87 0.70 1.00 0.97 0.88 0 71 ^O Kao M -4 AT 27 26 25 21 27 26 25 22 27 26 25 22 27 27 25 22 27 26 25 22 25 25 23 20 �g 1225 kW 2.93 2.99 307 316 3.13 3.19 3.28 3.38 3.31 3.37 3.47 3.58 3.47 3.53 3.64 375 3.60 3.67 3.78 3.90 3.71 379 3.90 403 "za €,;z Amps 11.5 11.8 12.2 126 124 12.7 13,2 13.6 13.5 13.8 14.3 14.8 144 14.8 15.3 159 154 15.8 16.3 16.9 16.3 16.7 17.3 179 HI PR 139 149158 164 156 168 177 185 177 191 201 210 202 217 229 239 227 244 258 269 251 270 285 297 '80+�6 LO PR 61 65 71 75 64 69 75 80 67 71 78 83 70 75 82 87 74 78 86 91 76 81 89 94 MBh 41.1 41.9 43.9 46.8 40.1 40.9 42.8 45.7 39.2 39.9 41.8 44.6 38.2 39.0 40.8 43.5 36.3 37.0 38.8 41.3 33.6 343 35.9 38.3 ;x, S/T 0.91 088 0.79 0.64 094 0.91 0.82 0.66 0.96 093 084 0.68 1.00 0.96 0.87 0.70 1.00 1.00 0.90 0.73 1.00 1.00 0.91 074 o AT 26 26 25 21 27 26 25 21 27 26 25 22 27 26 25 22 26 26 25 21 24 24 23 20 ` 7 85 1300 kW 2.97 3.02 3.11 3.20 3.17 3.23 333 3.42 3.35 342 3.52 3.62 3.51 358 3.69 3.80 3.64 3.72 3.83 3.95 3.76 3.84 3.96 408 Amps 11.7 12.0 12.4 12.8 12.6 129 13.4 13.9 13.7 14.1 14.5 15.1 14.7 15.0 15.5 16.1 15.6 160 16.6 17.2 166 170 17.6 18.2 .`'"" HI PR 141 152 160 167 158 170 180 188 180 194 205 213 205 221 233 243 231 248 262 274 255 274 290 3024r,Sv- , s` 4 LO PR 62 66 72 77 66 70 76 81 68 72 79 84 72 76 83 89 75 80 87 93 78 83 90 96 tK r-44 MBh 425 43.3 454 48.4 41.5 423 443 47.3 405 41.3 43.3 46.2 39.5 40.3 42.2 45.0 37.6 38.3 40.1 42.8 34.8 35.5 37.2 39.6 <y' y w tix S/T 0,96 0.93 0.84 0.68 1.00 096 0.87 0.71 100 0.99 0.89 072 1.00 1.00 092 0.75 1.00 100 0.96 0.78 1.00 100 096 0.78 AT 24 24 22 19 24 24 23 20 24 24 23 20 23 24 23 20 22 22 22 19 20 21 21 18 V,; 1575 kW 3.01 3.07 3.15 3.25 3.22 3.28 338 3.48 3.40 3.47 3.57 3.68 3.56 3.63 3.74 3.86 3.70 3.78 3.89 4.01 3.82 3,90 4.02 414 t Ams 119 12.2 12.6 13.0 12.9 132 13.6 141 14.0 143 14.8 15.4 14.9 153 15.8 16.4 15.9 16.3 16.9 175 169 17.3 17.9 18.6 - HI PR 144 155 164 171 162 174 184 191 184 198 209 218 209 225 238 248 235 253 267 279 260 280 296 308 LO PR 63 67 74 78 67 71 78 83 69 74 81 86 73 78 85 90 77 81 89 95 79 84 92 98 IDB Entering Indoor Dry Bulb Temperature Shaded area reflects Test A rating conditions per AHRI 210/240 Amps=outdoor unit amps(comp+fan) iN' High and low pressures are measured at the liquid and suction service valves, M=Total system power OUTDOOR AMBIENT TEMPERATURE �• _";- ;,'.; 652F 752F 852F 952F 1052F 1152F ENTERING INDOOR WET BULB TEMPERATURE -'59 106 'r;`AIRFLOW' 7 59' 63' S7. 71, :5J' 3. �67_: 7i 59, S3 67 71 59 63'-.'''.:fi7: ,71;';' "S r'S9 �53. ST' ..71 r. �� •' 63 � 6T:::7,1: p '�' MBh 42.6 44.2 48.4 41.6 43.2 473 - 40.7 42.1 462 - 397 41.1 450 37.7 391 42.8 34.9 36.2 39.6 - d S/T 069 0.58 0.40 0.72 0.60 042 - 0.74 0.61 0.43 - 0.76 063 044 0.79 0.66 0.46 080 0.66 0.46 - p AT 19 17 13 - 20 17 13 - 20 17 13 - 20 17 13 - 20 17 13 - 18 16 12 - - - - - - 398 - ��1 •.'r` 1400 kW 2.96 3.03 3.14 3.22 3.30 3 42 3.45 3.54 3.67 3.66 3.75 3 89 3 83 3.93 4 07 4.08 Ams 11.7 119 12.3 126 129 13.4 - 13.7 14.1 145 - 14.7 150 155 15.6 160 16.6 16.6 17.0 17.6 Hi PR 140 151 159 - 157 169 178 179 192 203 203 219 231 229 246 260 253 272 287 Lo PR 61 65 71 - 64 69 75 - 67 71 78 70 75 82 74 78 86 76 81 89 ';=r ,+. 'm 4"aa8 :� d MBh 43.3 44.9 492 423 438 480 - 41.3 428 469 403 417 457 383 396 434 354 36.7 402 <. z all S/T 0.72 0.60 0.42 0.74 0.62 0.43 - 0.76 0.64 0.44 0.79 0.66 0.46 0.82 0.68 0.47 0 82 0.59 0.48 1..AT 18 16 12 19 16 12 - 19 16 12 19 16 12 19 16 12 17 15 11 a• ,r""; �n. -`:Rt',ti 70 1550 kW 3.01 3.08 3.19 3.27 3.35 3.48 - 3.51 3.60 3.73 3.72 3.81 3 95 3 89 3.99 4.14 4 05 4 15 4 30 - w ,„M1 farO rtr;a:r, s,,.. rH.'PLR 119 121 12.5 - 128 13.1 136 - 13.9 143 14.8 - 14.9 15.3 15.8 - 15.9 16.3 168 - 168 17.3 17.8 j 142 153 162 - 160 172 182 - 182 196 206 207 223 235 233 251 265 257 277 292 PR 62 66 72 66 70 76 - 68 72 79 72 76 83 75 80 87 78 83 90 MBh 44.6 46.2 50.6 - 43.5 451 49.5 42.5 44.1 48.3 41.5 43.0 471 - 394 40.8 447 - 365 378 414 `uP^wf'r S/T 0.75 0.63 0.44 - 0.78 065 0.45 - 0.80 0.67 0.46 - 083 0.69 0.48 - 086 0.72 0.50 - 086 072 0.50 AT 17 15 it - 17 15 11 - 17 15 11 - 18 15 12 - 17 15 11 - 16 14 11 - Yy; 1800 kW 303 3.11 322 - 3.30 3.39 3.51 - 3.54 363 3.76 - 375 3.85 399 - 393 4.03 418 - 409 419 434 - 'in v < i,. ; Amps 120 12.2 12.7 12.9 13.3 13.7 14.1 144 149 15.1 15.4 15.9 160 16.4 17.0 170 17.4 18.0 4..,. i Q1 Hi PR 144 155 163 161 174 183 184 197 209 - 209 225 238 235 253 267 260 280 295 y^r,Lvt. .a Lo PR 63 67 73 - 66 70 77 - 69 73 80 - 72 77 84 - 76 81 88 78 83 91 - �F ;��- `�4•r� : fin, •` W ,exh�(;'���=4 MBh 43.4 44.6 48.3 51.9 42.4 436 47.2 507 413 42.6 46.1 495 403 41.5 450 48.2 38.3 39.5 42.7 45.8 355 36.5 396 42.5 a S/T 0.79 0.70 0.53 0.34 082 0.73 0.55 0.36 0.84 0.75 0.57 0.36 086 0.77 058 0.38 0.90 080 061 0.39 0.90 0.81 0.61 0.39 ' y AT 22 21 17 12 23 21 17 12 23 21 17 12 23 21 17 12 23 21 17 12 21 19 16 11 1400 kW 299 3.06 3.17 329 325 3.33 3.45 3.58 349 3.57 3.70 3.84 3.69 3.79 393 4.07 3.87 3.97 411 4.27 4.02 4.12 427 4.44 -z,,w.4• ` Ams 11.8 121 125 12.9 127 130 135 14.0 13.9 142 14.7 15.2 148 15.2 15.7 16.3 158 16.2 16.7 17.4 167 171 17.7 18.4 + ti ' Hi PIR 141 152 161 168 159 171 180 188 180 194 205 214 205 221 234 244 231 249 263 274 255 275 290 303 - # ' Lo PR 62 66 72 76 65 69 76 81 68 72 79 84 71 76 83 88 74 79 86 92 77 82 89 95 MBh 44.0 45.3 49.1 52.7 430 44.3 47.9 51.4 42.0 43.2 46.8 50.2 41.0 •42;2' 45.6 49.0 38.9 40.1 434 46.5 36.0 37.1 40.2 43.1 S/T 082 073 0.55 0.36 085 0.76 0.57 0.37 0.87 0.78 0.59 0.38 0.90 0.80. 0.61 039 0.93 083 063 0.40 0.94 0.84 0.63 0.41 ^ AT 21 20 16 11 22 20 16 11 22 20 16 11 22 20'.' 16 11 21 20 16 11 20 18 15 10 75 1550 kW 3.04 3.11 3.22 3.34 3.30 339 3.51 3.64 354 3.63 3.76 3.91 3.75 3.85= 3.99 414 393 4.03 418 4.34 4.09 4.19 4.34 4.51 Ams 12.0 12.3 12.7 13.1 12.9 13.3 13.7 14.2 14.1 14.4 14.9 15.5 15.1 15.4_. 15.9 16.6 16.0 16.4 170 176 170 17.4 18.0 18.7 Hi PR 144 155 163 170 161 174 183 191 184 198 209 218 209 ,'2Z5^ 238 248 235 253 267 279 260 280 295 308 Lo PR 63 67 73 78 66 70 77 82 69 73 80 85 72 77'.' 84 89 76 81 88 94 78 83 91 97 MBh 45.3 467 50.5 542 44.3 456 494 53.0 43.2 44.5 48.2 51.7 42.2 43.4 47.0 50.4 40.1 41.3 44.7 479 37.1 38.2 41.4 44.4 S/T 0.86 077 058 0.37 089 0.79 060 0.39 0.91 081 0.62 0.40 0.94 0.84 064 0.41 0.97 0.87 066 042 0.98 0.88 0.67 0.43 AT 20 18 15 10 20 18 15 10 20 19 15 10 20 19 15 11 20 18 15 10 19 17 14 10 1800 kW 306 3.14 3.25 337 3.34 3.42 354 3.67 3.58 3.66 3.80 3.94 3.79 3.88 4.03 4.18 397 4.07 4.22 4.38 4.12 4.23 438 4.55 Amps 12 1 12.4 12.8 13.3 13.1 13 4 13.8 14.3 14.2 14.6 15.0 15 6 15.2 15.6 16.1 16.7 16.2 16.6 17 2 17.8 17 2 17.6 18.2 18.9 HIPR 145 156 165 172 163 175 185 193 18S 199 211 220 211 227 240 250 238 256 270 282 262 282 298 311 Lo PR 63 67 74 78 67 71 78 83 70 74 81 86 73 78 85 90 77 81 89 95 79 84 92 98 IDB,Entering Indoor Dry Bulb Temperature Shaded area reflects ACCA(TVA)conditions Amps=outdoor unit amps(camp+fan) High and low pressures are measured atthe liquid and suction service valves. kW=Total system power OUTDOOR AMBIENT TEMPERATURE 1"rI X ' 6S2F 752F 8SRF 95°F 10521' 115RF a ENTERING INDOOR WET BULB TEMPERATURE z C IUB'• 'AIRFLOW "59%• .63''^ G7i';1 '71 . 7'59'' -13 1 67,' ;,71 59:.• •fi8." 67`., ,,71 59 ' .63�;, ''67 ".71 :59' ' 63''''.'67''I j1 . _59 fi3 MBh 44.1 45.1 48.2 51.5 43-1 44.0 47.1 50.3 42.1 43.0 45.9 49.1 41.1 41.9 44.8 47.9 39.0 39.9 426 455 361 36.9 39.4 42.2 f" S/T 086 0.81 066 049 090 0.84 0.68 051 0.92 086 0.70 0.52 0.95 0.89 072 054 0.98 0.92 0.75 0.56 099 0.93 0.76 0.57 p AT 25 24 21 17 25 24 21 17 25 24 21 17 26 24 21 17 25 24 21 17 24 23 20 16 Z 1400 kW 3.02 3.09 3.20 3.32 3.28 3.36 3.49 3.62 3.52 3.61 3.74 3.88 373 3.82 396 4.11 3.91 4.00 4 15 4.31 4.06 416 432 4.48 Amps 119 12.2 12.6 13.0 129 13.2 13 6 14.1 14.0 14.3 14.8 15.4 15.0 153 15.8 16.5 15.9 16.3 16.9 175 16.9 17.3 179 18.6 HIPR 143 154 162 169 160 172 182 190 182 196 207 216 208 223 236 246 234 251 265 277 258 278 293 306 a Lo PR 62 66 72 77 66 70 76 81 68 73 79 85 72 76 83 89 75 80 87 93 78 83 90 96 I MBh 44.8 45.8 489 S23 438 44.7 47.8 51.1 427 43.7 46.6 49.9 41.7 42.6 „45:5`' 48 6 39.6 40.5 43 2 46.2 367 375 40.0 42.8 S/T 0.90 0.84 0.68 0 51 0 93 0.87 0 71 0.53 0.95 0 89 0 73 0.54 0.98 0 92 0.75 0.56 100 0.96 0.78 0.58 1.00 096 0.78 0.59 AT 24 23 20 16 24 23 20 16 24 23 20 16 24 23 c"r20'': 16 23 23 20 16 22 21 19 15 n A 80 1550 kW 306 3.14 3.25 337 334 342 3.54 367 3.58 3.67 3.80 3.94 3.79 3.88 :`4-'01' 4.18 3.97 4.07 422 4.38 4 12 4.23 439 4 55 C a';,�•y, Ams 121 12.4 128 13.3 13.1 134 138 144 142 146 150 15.6 15.2 15.6 1:161`' 167 16.2 16.6 17.2 17.8 17.2 17.6 182 18.9 .Pb. H,PR 145 156 165 172 163 175 185 193 185 200 211 220 211 227 '240- 250 238 256 270 282 262 282 298 311 O Lo PR 63 67 74 78 67 71 78 83 70 74 81 86 73 78 "'.Fss,.-, 90 77 81 89 9S 79 84 92 98 MBh 46,1 47.2 50.4 539 45.1 461 492 52.6 44.0 45.0 48.0 514 42.9 43 9 469 501 40.8 41.7 445 47.6 378 38 6 41.2 44.1 :*,�.>,:•n k�" x S/T 0.94 0.88 0.72 0.54 1.00 0 91 0 74 0.56 1.Od 0.94 0.76 O.S7 1.00 0.97 0 79 0 59 1.00 1.00 0.82 0.61 1.00 1.00 0.82 0.62 AT 22 21 18 15 23 21 19 15 22 21 19 15 22 22 19 15 21 21 19 15 19 20 17143111- x 1800 kW 309 3 17 3.28 3.40 3.37 345 3.S8 371 361 3.70 3.84 3.98 3.82 392 4.06 4.22 4.01 4 11 426 4.42 416 4.27 443 Amps 12.2 125 12.9 134 13.2 13.5 14 0 145 14.3 14 7 15 2 15.8 15.3 15.7 163 169 16.3 16.7 17.3 18.0 17.3 17.8 18.4 19.1 pp q e " ,_'• Hi PR 147 158 167 174 165 177 187 195 187 202 213 222 213 230 242 253 240 258 273 284 265 285 301 314Cm x >. O : ' Lo PR 64 68 74 79 68 72 78 84 1 70 75 82 87 74 78 86 91 77 82 90 96 80 85 93 99 ii ,',•,�c:. ) SOI�II 'k:_?ro�zq.;:,m, MBh 44.9 45.8 47.9 51.1 439 44.7 46.8 50.0 42.8 43.6 45.7 48 8 41.8 42.6 446 47.6 39.7 40.4 42.4 45.2 36 8 37.5 39.2 41.9 E >* = z`k.a,a S/T 0.91 0.87 0.79 0.64 0.94 0.91 0.82 0.66 0.96 0.93 0.84 0.68 099 0.96 087 0.70 1.00 099 0.90 073 100 100 0.91 0.73 c ru•�,,t=rt-�", AT 27 26 25 21 27 27 25 22 27 27 25 22 27 27 25 22 26 26 25 22 24 25 23 20 1400 kW 3.04 3.12 3.23 3.35 331 3.40 3.52 3.65 3.55 3.64 3.77 3.92 376 3.86 400 4.1S 3.94 4.04 419 4.35 410 4.20 4.36 4.52 Ams 12.0 123 127 13.2 13.0 13.3 13.7 14.3 14.1 145 14.9 15.5 15.1 15.5 160 166 161 165 17.0 17.7 17.0 17.5 181 188ri Hi PR 144 155 164 171 162 174 184 192 184 198 209 218 210 226 238 248 236 254 268 280 261 280 296 309 4„6';;;�,�,,rr Lo PR 63 67 73 78 66 71 77 82 69 73 80 85 72 77 84 90 76 81 88 94 79 84 91 97 ,•^a� �;;•e�l� MBh 456 46.5 48.7 519 44.5 45.4 47.5 507 43.5 44.3 46.4 49.5 42.4 43.2 45.3 48.3 40.3 41.1 43.0 45.9 37.3 38.0 39.8 42.5 S/T 094 091 0.82 0.66 0.97 0.94 0.85 069 100 096 087 0.71 1.00 099 0.90 073 100 1.00 0.93 0.76 100 1.00 0.94 0.76 W� AT 25 25 24 20 25 25 24 21 26 25 24 21 25 25 24 21 24 24 24 21 22 23 22 19 85 1550 kW 3.09 3.17 3 28 3.40 3.37 3.45 358 371 3 61 3.70 3.84 3 98 3.82 3.92 406 4.22 4.01 4.11 4.26 4.42 416 427 4.43 4.59 c�t:.,_a�;.�,a'• Amps 122 125 129 134 132 13.5 140 145 14.3 147 152 15.8 15.3 157 163 169 16.3 167 173 18.0 173 17.8 18.4 191 M;x�„�� Hi PR 147 158 167 174 165 177 187 195 187 202 213 222 213 230 242 253 240 258 273 284 265 285 301 314 Lo PR 64 68 74 79 68 72 78 84 70 75 82 87 74 78 86 91 77 82 90 96 80 85 93 99 ',='' MBh 470 47.9 50.1 53.5 45.9 46.7 49.0 522 44.8 45.6 47.8 51.0 43.7 44.5 466 49.7 41.5 423 443 47.3 384 39.2 41.0 43.8 r; .. ;, S/T 0.98 0.95 0 86 0.70 1.00 0.98 089 072 100 1.00 0.91 0.74 1.00 100 0.94 0.76 1.00 1.00 0.98 0.79 1.00 1.00 0.98 0.80 rr•rte-,.' O•'""i$a AT 24 23 22 19 23 24 22 19 23 23 22 19 22 23 22 19 21 22 22 19 20 20 21 18 `` ° 1800 kW 3.12 3.20 3.31 3.44 3.40 3.48 3.61 3 74 3.64 3.73 3.87 402 3 86 3.96 4.10 4.26 4.04 4.15 430 4.46 4 20 431 4.47 4.64 "^'"�""7,14°''10 i' Amps 12.3 12.6 13.0 13.5 13.3 13.6 14.1 14 6 145 148 153 15.9 15.5 159 16.4 17.0 16.5 16.9 175 18.2 17.5 17.9 185 19.3 Hi PR 148 159 168 176 166 179 189 197 189 204 215 224 215 232 245 255 242 261 275 287 268 288 304 317 ^ ' Lo PR 65 69 75 80 68 73 79 84 71 75 82 88 74 79 87 92 78 83 91 97 81 86 94 100 i4; ,"�;.'.i. <• IDB,Entering Indoor Dry Bulb Temperature Shaded area reflects Test A rating conditions per AHRI 210/240 Amps=outdoor unit amps(comp+fan) High and law pressures are measured at the liquid and suction service valves kW=Total system power _ _-,•�-- OUTDOOR AMBIENT TEMPERATURE {, 65°F 75-F 0 0 85-0F 95F 1052F 1152E ENTERING INDOOR WET BULB TEMPERATURE a'• "+��`� - 709 108 '., /�iRf4ow,' ',631;.' :67� -,71' 59 '63 `. ;67';>7k 59' • 63 67 71 , ",59 63_ 67:_ '63"" 71`' . .63 .: 6T` :7t• v �„ FNf.? $ MBh 549 56.9 62.3 53.6 556 60.9 523 54.2 59.4 - 51.0 52.9 58.0 48.5 50.3 55.1 44.9 46.6 51.0 S/T 0.72 060 042 - 075 062 043 - 0.77 064 044 - 0.79 066 046 - 0.82 0.68 0.47 - 083 069 0.48 - O y,,,,�,=x;-, AT 19 16 12 19 17 13 19 17 13 19 17 13 19 17 13 18 15 12 1913 kW 3.96 403 414 4.23 4.31 443 4.47 456 4.69 - 4.68 477 4.92 4.86 4.96 511 501 512 5.27 ON Amps 13 6 14.0 14.4 14 7 15.1 15.6 16.0 16.4 16.9 17.1 17.5 18.1 18.2 18 6 19.3 193 197 20.4 .. 263 2'83 299 '`'' ' 3;,�,zg Hi PR 146 157 166 163 176 186 186 200 211 212 228 241 238 256 271 ." .;,s4z A ¢ ' -:->, " 69 73 80 72 76 83 74 79 86 "' Lo PR 59 63 69 63 67 73 65 69 76 A x,, n, ,a- ; MBh 53.3 55.2 605 520 53.9 591 50.8 52.7 57.7 49.6 51.4 56.3 47.1 48.8 53.5 43.6 45.2 49.5 �;,a,�;�59 S/T 0.69 0.57 0.40 - 0.71 059 0.41 - 0.73 0.61 0.42 - 075 0.63 044 - 078 0.65 0.45 - 079 0.66 0.46 "4 :d; AT 20 17 13 - 20 17 13 20 17 13 - 20 "a� - 17 13 20 17 13 19 16 12 70 1700 kW 393 4.00 411 4.20 4.28 4.40 443 4.52 466 4.64 474 488 482 4.92 507 498 5.08 S23 W ww+ " k Amps 135 138 143 146 14.9 154 159 16.2 16.8 169 17.4 17.9 18.0 18.5 19.1 19.1 196 20.2Ch " } 3< C " t`� �°:=`;`*• HI PR 144 155 164 - 162 174 184 - 184 198 209 - 210 226 238 - 236 254 268 - 261 280 296 e <:xdb Lo PR 59 63 68 62 66 72 - 65 69 75 - 68 72 79 - 71 76 83 74 78 85 .Y Mat"rs; ,a MBh 492 510 558 48.0 498 54.5 - 46.9 48.6 53.2 - 457 47.4 51.9 - 435 45.0 493 403 41.7 457 S/T 0.66 0.55 0.38 - 0.69 0.57 040 - 0.70 0.59 0.41 - 0.73 061 0.42 - 075 0.63 0.44 - 0.76 0.64 0.44 AT 20 17 13 20 18 13 - 20 18 13 21 18 13 20 18 13 19 16 12 c -^ 1488 kW 3.84 3.92 403 4.11 418 430 - 434 442 455 - 454 4.63 477 - 4.71 4.81 4.95 4.86 4.96 511 Ams 13.1 13.5 13.9 - 14.2 14.5 150 15.4 158 16.3 165 16.9 17.4 - 17.5 18.0 186 186 190 19.7 HI PR 140 151 159 - 157 169 178 179 192 203 - 203 219 231 229 246 260 253 272 287 09 s"„,"'i ,1.•L ` Lo PR 57 61 66 60 64 70 63 67 73 66 70 76 - 69 73 80 71 76 83 "•^y rd Cm MBh 558 57.5 622 667 54.5 561 60.7 652 53 2 54.8 59.3 63.6 519 53.4 57.9 62.1 493 50.8 550 59.0 45.7 47.0 509 546 S/T 082 0.73 0.55 0.36 085 0.76 0.57 037 0.87 0.78 059 038. 0.90 0.80 061 0.39 0.93 0.83 0.63 0.41 094 0.84 0.64 041 AT 22 20 17 11 22 20 17 12 22 20 17 12 22 21 17 12 22 20 17 12 21 19 16 11 ;,v,•.�-�; 1�4���.,� 1913 kW 3.98 406 418 430 426 4.34 4.47 4.60 450 4.59 473 4.87 472 4.81 4.95 5.11 490 5.00 5.15 5.31 5.05 5.16 532 548 Amps 13.8 141 145 15.1 149 152 157 163 161 165 17.1 177. 17.3 17.7 183 190 184 18.8 19.4 202. 195 19.9 20.6 21.4 HI PR 147 158 167 174 165 178 188 196 188 202 213 223 214 230 243 254 241 259 273 285 1 266 286 302 315 Lo PR 60 64 70 74 63 67 74 78 66 70 77 82 69 74 80 86 73 77 84 90 75 80 87 93 «,s MBh 542 558 60.4 64.8 52.9 54.5 59.0 633 51.7 S3.2 576 61.8 50.4 -51.9 56.2 60.3 47.9 49.3 534 57.3 444 45.7 49.4 53.0 S/T 0.78 0.70 0.53 0.34 0.81 072 055 035 0.83 0.74 0.56 0.36 0.86 0,77 0.58 037 089 0.80 0.60 0.39 0.90 080 0.61 0.39 M1, AT 23 21 17 12 23 21 17 12 23 21 17 12 23 21,'. 18 12 23 21 17 12 22 20 16 11 r" 75 1700 kW 3.96 4.03 4.15 4.26 4.23 4.31 444 4.57 447 4.56 469 4.83 4.68 '437' 4.92 5.07 4.86 4.96 5.11 5.27 5.02 512 5.27 5.44 Ams 13.6 14.0 14.4 14.9 14,7 151 15.6 162 160 164 16.9 176 171 ,-17.5• 181 18.8 182 186 193 20.0 193 198 204 21.2 Hi PR 146 157 166 173 164 176 186 194 186 200 211 220 212 '228•• 241 251 238 256 271 282 263 283 299 312 Lo PR 59 63 69 74 63 67 73 78 65 69 76 81 69 73,". 80 85 72 76 83 89 74 79 86 92 MBh 50.0 51.5 557 598 48.8 50.3 544 584 47.7 49.1 531 57.0 46.5 47.9 51.8 556 44.2 455 49.3 52.9 40.9 42.1 45.6 490. S/T 0.75 067 0.51 0.33 0.78 0.70 053 0.34 0.80 0.72 0.54 0.35 0.83 0.74 0.56 036 0.86 0.77 0.58 0.37 086 0.77 0.59 0.38 AT 23 21 18 12 24 22 18 12 24 22 18 12 24 22 18 12 23 22 18 12 22 20 16 11 1488 kW 3.87 3.94 4.06 4.17 4.14 422 4.34 4.46 437 4.45 4.58 4.72 4.57 4.67 4.80 4.95 4.75 4.84 4.99 5.14 1 490 500 5.15 5.31 Amps 13.3 13.6 14.0 14.5 143 14.7 15.2 15.7 15.6 159 165 17.1 16.6 17.0 17.6 18.3 17.7 18.1 187 19.4 18.7 19.2 19.8 206 HIPR 141 152 161 168 159 171 180 188 180 194 205 214 205 221 233 243 231 249 263 274 2S5 275 290 303 Lo PR 58 61 67 71 61 65 71 75 63 67 74 78 67 71 77 82 70 74 81 86 72 77 84 89 IDB Entering Indoor Dry Bulb Temperature Shaded area reflects ACCA(TVA)conditions Amps=outdoor unit amps(comp+fan) High and low pressures are measured at the liquid and suction service valves kW=Total system power OUTDOOR AMBIENT TEMPERATURE T X ' 6SRF 7S2F BS°F 952F 1o52F 115eF a ENTERING INDOOR WET BULB TEMPERATURE _ v IDB AfRF1pV11 c ,,59 ' 63. 67>. "71' =59` 63, '67 71 "59. 63 67 s ;;11 "59>"'.,63•-s -'67- ..71 - 59= p MBh 568 58.0 62.0 66.3 55.5 567 606 64.7 54.2 55.3 59.1 63.2 52.8 54.0 57.7 61.7 50.2 513 54.8 58.6 46.5 47.5 50.8 54.3 C S/T 090 084 0.69 0.51 0.93 0.87 071 0.53 0.95 089 0.73 0.54 100 092 075 056 1.00 0.96 0.78 0.58 1.00 0:97 0.79 059 p AT 25 23 20 16 25 24 21 17 25 24 21 17 25 24 21 17 24 24 21 16 22 22 19 15 z 1913 kW 4.01 4.09 4.21 4.33 4.29 4.37 4.50 464 454 4.63 4.76 491 4.75 4.85 499 515 4.93 504 5.19 5.35 5.09 5.20 5.36 553 Amps 13.9 14.2 14.7 15.2 15 0 15.4 15.9 16.5 16.3 167 17.2 179 17.4 17.8 18.4 19.1 18.5 19.0 19.6 20.4 19.6 20.1 20.8 21.6 0 -Hi PR 149 160 169 176 167 180 190 198 190 204 216 225 216 233 246 256 243 262 276 288 269 289 305 318 a Lo PR 61 65 70 75 64 68 74 79 67 71 77 82 70 74 81 87 73 78 85 91 76 81 88 94 I MBh 55.1 563 602 64.4 539 550 588 62.9 52.6 53.7 57.4 61.4 51.3 52.4 ,36:Q', 59.9 487 49.8 532 569 451 461 49.3 52.7 S/T 0.86 0.80 0.65 049 089 083 0.68 0.51 0.91 0.85 0.69 0.52 094 0.88 `'012, 0.54 0.97 0.91 0.74 0.56 098 0.92 075 0.56 C1 AT 26 24 21 17 26 25 22 17 26 25 22 17 26 25 22' 17 26 25 21 17 24 23 20 16 80 1700 kW 3.98 4.06 4.18 4.30 4.26 4.34 447 460 450 459 473 4.87 4.72 481 64.46,i 5.11 490 500 5.15 531 5.05 5.16 532 5.48 C Amps 138 141 145 151 149 15.2 15.7 16.3 161 165 17.1 17.7 173 17.7 >_18.3, 19.0 18.4 188 194 20.2 195 19.9 20.6 214 QM HI PR 147 158 167 174 165 178 188 196 188 202 213 223 214 230 ;'°'°243 " 254 241 259 273 285 266 286 302 315 O '' k-- Lo PR 60 64 70 74 63 68 74 78 66 70 77 82 69 74 '3$0 86 73 77 84 90 75 80 87 93 n MBh 50 9 52.0 55.6 59.4 49.7 50.8 54 3 58.0 48.5 49 6 53 0 56.6 473 48.4 51.7 55.3 450 46.0 491 525 417 426 45.5 48.6 S/T 0.83 0.77 0.63 047 0.86 0.80 0.65 049 088 0.82 0.67 050 0.91 085 0.69 0.52 094 088 0.72 0.54 0.95 0.89 0.72 0.54 r (4� AT 26 25 22 17 26 25 22 18 26 25 22 18 27 25 22 18 26 25 22 17 24 23 20 16 1488 kW 3.90 397 408 4.20 417 4.25 4.37 4.50 440 4.49 462 4.76 461 470 484 499 4.78 4.88 503 5.18 4.94 5.04 5.19 5.35 CAU-"11 ;y'rk-•` Ams 134 13.7 141 147 14.5 148 153 159 15.7 161 166 172 16.8 172 17.8 18.4 179 18.3 18.9 196 189 19.4 20.0 208 O „. r HI PR 143 154 162 169 160 172 182 190 182 196 207 216 208 223 236 246 233 251 265 277 258 278 293 306 CM s ty«4ie rn€c".r• :` 0 ,'�s` err Lo PR 1 58 62 68 72 1 62 65 71 76 64 68 74 79 1 67 71 78 83 70 75 82 87 1 73 77 85 90 Cm MBh 578 589 617 658 564 57.5 603 643 551 56.2 588 628 538 54.8 574 612 51.1 521 545 582 47.3 48.2 S05 53.9 S/T 0.94 0.91 0.82 0.67 098 0.94 085 069 100 097 0.87 071 1.00 100 0.90 0.73 1.00 1.00 0.93 076 1.00 1,00 0.94 0.76 z AT 26 26 24 21 26 26 25 21 26 26 25 21 26 26 25 21 25 25 24 21 23 23 23 20 • �,"�.�-�„';p„, ;;x# 1913 kW 4.04 4.12 424 436 4.32 441 4.53 4.67 4.57 4.66 4.80 4.94 4.79 4.88 5.03 5.19 4.97 5.07 523 5.39 5.13 5.24 5.40 5.57 �- - Ams 14.0 143 14.8 15.4 15,1 15.5 16.0 16.6 164 16.8 17.4 181 176 180 186 193 187 19.2 198 20.6 19.8 20.3 21.0 218 y ka,sf . _ M Hi PR 150 162 171 178 168 181 191 200 192 206 218 227 218 235 248 259 246 264 279 291 271 292 308 322 Lo PR 61 65 71 76 65 69 75 80 67 72 78 83 71 75 82 87 74 79 86 92 77 81 89 95 ,; MBh 56.1 57.2 59.9 63.9 54.8 559 58.5 62.4 53.5 54.5 57.1 60.9 522 53.2 55.7 59.4 49.6 50.5 529 565 45.9 46.8 49.0 52.3u „ lyz S/T 0,90 087 078 063 0.93 0.90 0.81 0.66 0.95 0.92 0.83 067 0.98 0.95 0.86 070 100 0.99 0.89 0.72 1.00 0.99 090 0.73 AT 27 27 25 22 28 27 26 22 28 27 26 22 28 27 26 22 27 27 25 22 25 25 24 21 �,-�:,.`;�,•' 'r ,,. 85 1700 kW 401 409 421 433 429 437 4.50 4.64 454 463 476 491 475 4.85 499 5.15 493 5.04 519 5.35 509 520 5.36 5.53 Amps 1 139 14.2 14.7 15.2 15.0 15.4 159 16.5 16.3 167 17.2 17.9 17.4 17.8 18.4 19.1 185 19.0 19.6 20.4 19.6 20.1 20.8 21.6h,„., { Hi PR 149 160 169 176 167 180 190 198 190 204 216 225 216 233 246 256 243 262 276 288 269 289 305 318 . _, .{. ,.. Lo PR 61 65 70 75 64 68 74 79 67 71 77 82 70 74 81 87 73 78 85 91 76 81 88 94 MBh 518 528 55.3 590 50.6 516 54.0 57.6 49.4 503 52.7 562 482 491 514 54.9 45.8 467 489 521 424 43.2 453 483 5/T 0.87 0.84 075 061 0.90 0.87 078 0.63 0.92 089 080 0.65 095 092 083 0.67 0.99 0.95 086 0.70 099 096 087 0.70 AT 28 27 26 22 28 28 26 23 28 28 26 23 28 28 26 23 28 27 26 22 26 26 24 21 1488 kW 3.93 4.00 411 4.23 4.20 4.28 4.40 4.53 4.43 4.52 465 4.79 464 4.74 4.88 5.03 4.82 4.92 5.07 522 4.97 508 5.23 5.40 Amps 135 13.8 14.3 148 14.6 149 15.4 160 158 162 16.8 174 16.9 173 17.9 186 18.0 185 19.1 198 191 19.6 202 210y=s -d,;,$,_ Hi PR 144 155 164 171 162 174 184 192 184 198 209 218 210 226 238 248 236 254 268 279 261 280 296 309 ;^;,tL"y';,`, Lo PR 59 63 68 73 62 66 72 77 65 69 75 80 68 72 79 84 71 76 83 88 74 78 85 91 L�s:.•,,,,; IDB Entering Indoor Dry Bulb Temperature Shaded area reflects Test A rating conditions perAHRI 210/240 Amps=outdoor unit ams cam +fan {_'; "<r,"►t';; High and low pressures are measured at the liquid and suction service valves. kW=Total system power Dnp - _ PERFORMANCE RATINGS :- 1NQOQR UNITSr;=-` COOL OUTDOWU!Jkli`L; CONTROL BOX LVJB OUTDOOR POWER SUPPLY_ 1 SEE RATING PLATE z I I � YL-Y NOTE, �..(��(`}� v BL-C } L'' T1 5i I ; "lM 4L2 C.1 O�O SC C 10 L H C J JI g r \ LU 0 C P' 1 RCCF l gCOMP COLOR CODE 0 �'q.,l, R F BK BLACK w U BL BLUE Q Sc BR BROWN K O J�' L�Sn J OR OkANGE w U Io P (IF USED) PU--PURPLE J ;eL BL B RD —RED ¢0 ay e B B R i WH WHITE a CIA �N YL YELLOW T, 4SR L1 L-a CWIRING CODEBL-— —— —— — FACTORY WIRINGTAGE LOW VOLTAGE OPTIONAL HIGH VOLTAGE---- 't. „kpr• I RD FIELD WIRING cr��m L. HIGH VOLTAGE— HERM SIL LOW VOLTAGE RD B F L L I 4%, RCCF IF USED, T,J T2 L(, OTE----RTJ ,G a a . ALTERNATE DOUBLE v,;""akd°)'y_"' POLE CONTACTOR Y c t�.. ' s'-:' r• �_ COMPONENT CODE C CONTACTOR CM OUTDOOR FAN MOTOR � ere+>„1A 6 EQUIPMENT GROUND COMP—COMPRESSOR COMP USE COPPER 10--INTERNAL OVERLOAD NOTES .„w. MAIN CONDUCTORS ONLY LVJB LOW VOLTAGE JUNCTION BOX 1)TO BLOCK&INDOOR GE �, ,>;,:*c_ ', ., � ;,• RD RCCF—RUN CAPACITOR FOR COMPRESSOR&FAN -THERMOSTAT '� 4 ''�, BK AUX SA START ASSIST )STARTASSIST FACTORY MAIN EQUIPPED WHEN REQUIRED ;t” �; + PU SC START CAPACITOR FOR COMPRESSOR(OPTIONAL) ';c”%o�;'"�,•a"•sd SR START RELAY FOR COMPRESSOR(OPTIONAL) USE N E C CLASS 2 WIRElt4 y nt,S f;r.rw aya, AUX BR YL t f 0 to d^ c s ,'_c, SK CONTROLS SHOWN WITH THERMOSTAT IN'OFP POSITION. rF:y=;,E';v?p,;,�„�I "� i_„'','�'X'-,<.0 CM 0140R000`15P ;'”! Wrong Is subject to change Always „rt°dy„p: Nigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power p refer to the wlnng diagram or the Q WARNING sources ma be resent Failure to do so ma cause ro erty dams e, ersonal m ur,or death f:'`;pr'.•.r', unit for the most up-to-date wiring y p y p p g p j V " yt,iY'd'.x-,,a+`'�'�<_s_, �".i.,-�`5�".".'7 '_5.3�'.`-. °,'�x'=(",ia'��yr„ Fh!;.'<,`" v�"y`;�". v .3��.; t�; ✓i�:z" �. MY ^�?;h",rte; :..>.-.-, _.:r_:3L,,..��,=�'�`'�s'3,+.�:.�.ua.:rc`3����"--'`h�:r�ta�a"`'='t� _�:c��",,•St'?`:`�,,:�.ta„ - �`=v'� - AIIESSan G5C13' ,; SC43,_, .GSG13::: MODtik' :'DESCRtPTIDl1i` - 616 ABK-20 Anchor Bracket Kit• X X X X X X X ASC-01 Anti-Short Cycle Kit X X X X X X X CSR-U-1 Hard-start Kit X X X X CSR-U-2 Hard-start Kit X X X X CSR-U-3 Hard-start Kit X X FSK01A Freeze Protection Kit 1 X X X X X X X LSK01A Liquid Line Solenoid Kit 2 X X X X X X X 0263M00019 Crankcase Heater X OT18-60A Outdoor Thermostat X X X X X X X Contains 20 brackets;four brackets needed to anchor unit to pad Installed on indoor cod Z Field-installed,non-bleed,expansion valve kit—Condensing units and heat pumps with reciprocating compressors require the use of start-assist compo- nents when used in conjunction with an indoor cod using a non-bleed thermal expansion valve refrigerant metering device or liquid line solenoid kit. Amana®is a trademark of Maytag Corporation or its related companies and used under license to Goodman Company,L P All rights reserved our continuing commitment to quality products may mean a change in specifications without notice ©2011 Goodman Company,L P Houston,Texas Printed in the USA •-_"- ";trn = gd n=- 'xk'i:m=r`,'%`,;^:�;>","^'"„"h'y,��5�:SJi„t: , . �d'•'” „;v`r" 2 - - „rN-QU '�� 3 F fie-,{$ � .}� - 'fsT• ' - F�i`J =:�:- -- -;.��== - i�ss.r��; .a,u.'x�;,M• §y'��.�`{r�+�'��;-"�s"•�i,";ryE��� ^r'�:�. ..x -e€vs�A o--'�''•-'{..s:.?i.�`3...^. :. -3'�. €Z�..,—�X'rs 3. ^s''`.*"'�`.'c* `#' r �$ • -- ._r..."wS*", ar_.c .�.k3u�::u'+:Gs-'--. l A i Heating&Air Conditioni—A ng INDOOR COILS AF M ana® C4UF, C4PF, CAPT, CHM,,AND aU CASED, PAINTED UPFLOWlDOWNFLOW, UNCASED UPFLOWlDOWNFLOW, HORIZONTAL 'A,AND HORIZONTAL SLAB tandardFeatures • All-Aluminum evaporator coil CAUF • Optimized for use with R-410A refrigerant Uncased * '' • Some models suitable for use with R-410A or R-22 refrigerant `d • CAPT models feature factory-installed thermal expansion valves for cool- CAPF ing and heat pump applications Cased Check flowrator for cooling and -,- heat pump applications Vertical and horizontal models available .w 4< 21"depth for easier attic access I CHPF Split seam front for easy access Horizontal"A" Foil-faced insulation covers the internal �t casing to reduce cabinet condensation • Galvanized,leather grain-embossed finish rr Rust resistant,thermoplastic drain pans featuring a low water-retention design s a DecaBDE-free thermoplastic drain pan e `:SYN with secondary drain connections UV-resistant drain pan s AHRI certified;ETL listed APT Cased with Internal TXV CSCF Horizontal Slab Note: Do not use these coils on oil furnaces or any applications where the temperature on the drain pan may exceed 3007 If these coils are applied with an oil furnace or another application where high tempera- tures threaten or jeopardize,the durability of the drain pan,you must re- place the factory-Installed drain pan with a high-temperature drain pan High-temperature drain pan kits are available as field-Installed accessories r t a. ` Intertek •Complete warranty details available from your local dealer or at wwwamana-haccom To receive the 10-Year Parts Limited Warranty,online registration must be completed within 60 days of installation online registration Is not required in California or Ctu€bec SS-AColl www amana-hac.com 9/16 Amana®is a trademark of Maytag Corporation or its related companies and used under license to Goodman Company,L,P,Houston,Texas Supersedes 3/16 NOME/VCUTURE C A U F 1824 A 6 AA 1 2 3 4 5,6,7,8 9 10 11,12 Product Category --LENGINEERING C-Indoor Coil Mayor/Minor Revisions Application REFRIGERANT A-Upflow/Downflow Coil 6-R-22/R-410A H-Horizontal A Coil 2-R-22 S-Horizontal Slab Coil 4-R-410A Cabinet Finish NOMINAL WIDTH FOR GAS FURNACE U-Uncased C-Unpainted A-Fits 14"Furnace Cabinet P-Painted B-Fits 17%"Furnace Cabinet C-Fits 21"Furnace Cabinet Expansion Device N-Does Not Apply(horizontal slab coil) F-Flowrator T-TXV NOMINAL CAPACITY RANGE @ 13 SEER 1824-1Y/to 2 Tons 3642-3 to 3%Tons 3030-2Y Tons 3743-3 to 3'/:Tons 3131-2%Tons 4860-4 to 5 Tons 3137-2'/:to 3 Tons 4961-4 to 5 Tons 3636-3 Tons 2 www amana-hac.com SS-ACoil CALIF—UNCASED UPFLOWl00I4/NnowINDOOR CO/LS SPECIFICATIONS IV DIMENSIONS NOMINAL CONNECTION PISTON SHIP MODEL * WEIGHT W H A TONS LIQUID SUCTION SIZE (LBS) CAUF1824A6 13" 16%" 13" lY-2 W %" 059 18 CAUF1824136 16Y" 16%" 13" 1Y-2 V. Y" .059 23 CAUF1824C6 20" 16%" 17" 1Y-2 V. Y" 059 27 CAUF3030A6 13" 20'/�s" 17" 2Y V. V 065 25 CAUF3030B6 16Y" 18Y" 17" 234 W ''/a" .065 22 CAUF3030C6 20" 17'/s" 17" 2Y %" 3/a" 065 25 CAUF3030D6 23" 17%" 17" 2Y Y" Y" 065 32 CAUF3131B6 161/:" 201/1e" 17" 2% Y" Y" .068 27 CAUF3137136 16Y" 27" 25" 2Y-3 Y" %" 071 53 CAUF3131C6 20" 20" 17" 2% Y" '/<" 068 31 CAUF3636A6 13" 19F" 17" 3 Y" Y" .071 30 CAUF3636B6 16Y" 19%" 17" 3 Y" %" 071 25 CAUF3636C6 20" 19%" 17" 3 Y" Y" 071 28 CAUF3636D6 23" 19%" 17" 3 %" Y" 071 36 CAUF3642C6 20" 19" 17" 3-3Y 's/a" '/<" 078 29 CAUF3642D6 23" 19%11 17" 3-3Y Y" Y" 078 34 CAUF3743C6 20" 281/ie" 25" 3-3Y2 %" %" 078 46 CAUF3743D6 23" 27%11 25" 3-3Y2 %" %" 078 43 CAUF4860C6 20" 28" 25" 4-5 %" %" 093 48 CAUF4860D6 23" 28" 25" 4-5 %" %8' 093 39 CAUF4961C6 20" 28" 25" 4-5 Y" %" 093 54 CAUF4961D6 23" 1 27" 25" 4-5 W. Y" 093 59 * Shipped with Coil Note: For a properly matched system and piston sizing Information,refer to the piston kit chart of the corresponding outdoor unit DIMENSIONS Suction Connection I iquid Connection H �u A '/."Female NPT primary&secondary drain connections F (important-hand-tighten) W 20Ys" - �I SS-AColl www.amana-hac.com 3 CAPE—CASED UPFL0LY100W,PL0D///VD00ACO/L5' ,t SPECIFICATIONS CABINET DIMENSIONS NOMINAL CONNECTION PISTON SHIP MODELWEIGHT W D H TONS LIQUID SUCTION SIZE* (LBS) CAPF1824A6 14" 21" 18" 1%-2 V. %" 059 32 CAPF1824B6 17%:" 21" 18" 1%-2 %" %" 059 35 CAPF1824C6 21" 21" 22" 1%-2 %" Y'. 059 42 CAPF3030A6 14" 21" 22" 2'/: a/a' d/<" 065 41 CAPF3030136 17'/:" 21" 22" 2'/: W. %" 065 43 CAPF3030C6 21" 21" 22" 2'/: W %" .065 44 CAPF3030D6 24'/2' 21" 22" 2'/n 3/a" W 065 52 CAPF3131B6 17%" 21" 22" 2% %" %" 068 46 CAPF3137B6 17%" 21" 30" 2'/x-3 %" %" .071 53 CAPF3131C6 21" 21" 22" 2'/: %" W. 068 50 CAPF3636A6 14" 21" 22" 3 %" %" 071 40 CAPF3636B6 17%" 21" 22" 3 %" '/<" .071 44 CAPF3636C6 21" 21" 22" 3 W. '/a" 071 53 CAPF3636D6 24'/=" 21" 22" 3 W. %" 071 51 CAPF3642C6 21" 21" 22" 3-3'/: %" '/<" 078 49 CAPF3642D6 20" 21" 22" 3-3%: %" %" 078 52 CAPF3743C6 21" 21" 30" 3-3'/: %e' W. 078 63 CAPF3743D6 24Y2" 21" 30" 3-3% V. %" 078 75 CAPF4860C6 21" 21" 30" 4-5 W. %" 093 65 CAPF4860D6 24%" 21" 30" 4-5 %" %" .093 68 CAPF4961C6 21" 21" 30" 4-5 %" %" 093 73 CAPF4961D6 24%" 21" 30" 4-5 %" %" 093 76 * Shipped with Coll Note. For a properly matched system and piston sizing information,refer to the piston kit chart of the corresponding outdoor unit DIMENSIONS -PLENUM OPENING- --- 1f2" WIDTH tom" _9 t $ 15/8, 9' - — + 518" t -'�"`-- Connection 3""�) Uqud Connection (!n D A pO Rt� „--314"Female NPT primary 8 (!(! Y ,f i secondary drain connections t { + (important.hand lighten) C - PLENUM OPENING t j WIDTH 20118" 4 www.amana-hac.com SS-ACoil 1 CART—CASED UPFLOIQ/1,00wNFLOIQ//NDOOR CO/LS lel//TH/NTERNAZ TXV SPECIFICATIONS l CABINET DIMENSIONS NOMINAL CONNECTION SHIP MODEL WEIGHT TONS W D H LIQUID SUCTION (LBS) CAPT3131B4 17W 21" 22" 2% 3/" %" 46 CAPT3131C4 21" 21" 22" 2% %e" %" 50 CAPT3743C4 21" 21" 30" 3-3% %11 %" 63 CAPT3743D4 24'/x" 21" 30" 3-3Y %" a 75 CAPT4961C4 21" 21" 30" 4-5 %" %9" 73 CAPT4961D4 24'/:" 21" 30" 4-5 %" %" 76 DIMENSIONS —---PLENUI,A OPENING--•— - 1!2" �� 9 5/8" �-�� €'-- •—19" �---�;�518" -�-Suction Connection dd �� a ---Lfquia a H connection h} ((� A 3 —3/4"Female NPT primary& secondary drain connections o r 9 (important:hand tighten) OO.a PLENUApPENtNG— I 20118" � TD— K I SS-ACoil www.amana-hac.com 5 GHRF—RAINTEO CASED HOR/ZONTAL ':9"INVOOR COIL SPECIFICATIONS i CABINET DIMENSIONS PLENUM NOMINAL PISTON CONNECTION SHIP MODEL a WEIGHT D W H D H TONS LIQUID SUCTION SIZE (LBS) CHPF1824A6 21%" 26" 14" 19" 13" 1%-2 V" %" 059 36 CHPF2430B6 21%" 26" 17'/x" 19" 16'/x" 2-2'/x 3/8' %" 065 55 CHPF3636136 21'/e" 26" 17'/:" 19" 16'/x" 3 W. '/a" 074 50 CHPF3642C6 21'/s" 26" 21" 19" 20" 3-3% V. %" .076 63 CHPF3642D6 21%" 26" 24%" 19" 23%" 3-3% %" %" .078 66 CHPF3743C6 21W 26" 21" 19" 20" 3-3Y2 V. %" 076 63 CHPF3743D6 21%" 26" 24%" 19" 23f" 3-3Y. 3/" %8' 078 63 CHPF4860D6 21%" 26" 24'/x" 19" 23%" 4-5 W %" 093 77 ' (ft2) ] Shipped with Coll Note: For a properly matched system and piston sizing information,refer to the piston kit chart of the corresponding outdoor unit. DIMENSIONS D W Plenum H Opening Width Drain Pan Primary Drain Coil Secondary Drain Liquid Line Note:All air opening flanges are 06250". Suction Line 6 www.amana-hac.com SS-ACoil CSCF—HORIZONTAL SLAB EIiARORATOR COILS SPECIFICATIONS i CAPACITY EVAP COIL CONNECTION SIZE PISTON SHIP MODEL (TONS) FACE AREA SIZE2 WEIGHT LIQUID SUCTION (LBS) CSCF1824N6 1Y2-2 3% 3/e" %" .059 43 CSCF3036N6 2Y2-3 4% %s" %a" .074 525 CSCF3642N6 3-3Y: 5% Ya" a .078 43 CSCF4860N6 4-5 5% %" %" .093 60 T (ft2) 2 Shipped with Coil Note. For a properly matched system and piston sizing information,refer to Amana piston kit chart of the corresponding outdoor unit. DIMENSIONS CABINET PLENUM MODEL DIMENSIONS OPENING D(A) W H D(B) H CSCF1824N6 25Y2" 12" 25" 16" 21" CSCF3036N6 33X" 12" 25" 24" 21" CSCF3642N6 39%" 12" 25" 30" 21" CSCF4860N6 39%" 12" 25" 30" 21" .. � _ A 314 -- 12 q► 314 6 ( 12.1250 S 95"tl" 3 .430 �_� --- CTYPJ 36750 LIQUID 21 25 ) I CONN. SUCTION CONN. 17438 j I 7. _ l asleea I l I j SECONDARY—' ARINIARY DRRIPJ DRAIN 314 FEMALE NPT I I 314 FEMALE NPT PLASTIC CONNECTOR 213751 PLASTIC CONNECTOR (HAND TIGHTEN) j (HAND TIGHTEN) nsOR, I 1.375P77�!- DETAIL 0,75 R. 0930 OF ACCESS DOOR SS-ACoil www.amana-hac.com 7 00 D, oo:,, Wet 0071 0.099 0142 0183 0230 0280 0.331 0.389p 0 CA*FI824A6* Dry 0.062 0.090 0.122 0.154 0189 0231 0,278 0.331 0.390 Wet 0021 0032 0049 0071 0089 0.120 0.128 0,159 0190 CA*F1824B6* Dry 0011 0.022 0029 0041 0.052 0.069 0078 0101 0120 Wet 0.017 0025 004 0061 0.079 0.107 0114 0.140 0164 CA*F1824C6* Dry 0011 0017 0024 0035 0044 0.063 0.075 0,094 0A13 DO r 40 0. 0 Wet 0.151 0173 0.204 0238 0.267 0.281 0326 0.380 0406 0451 Y, CA*F3030A6* rrl Dry 0069 0.083 0117 0.132 0.148 0.183 0206 0.239 0.290 0338 u Wet 0090 0.120 0150 0.180 0.210 0240 0280 0.330 0370 0.420 CA*F3030B6* Dry 0080 0100 0130 0.150 0180 0210 0250 0.280 0320 0.360 :E Wet 0071 0087 0120 0134 015 0180 0209 0.249 0284 0.328 CA*F3030C6* S-) 3 Dry 0.050 0067 0.098 0.113 0135 0169 0189 0,213 0.245 0275 Wet 0.069 0078 0.090 0108 0.136 0.168 0206 0.244 0288 0337 CA*F3030D6* 0- Dry 0 029 0043 0070 0082 0.098 0125 0141 0.153 0177 0200 3 �1400-` -,S FM -790� . 0 4i� I f ''. Z c -�bo' O�� ;1300; Wet 0041 0049 0061 0078 0090 0113 0131 0.140 0162 0178 0210 CA*F3131B26* Dry 0021 0031 0039 0.048 048 0061 0072 0.079 079 0,091 0.110 110 0.122 0141 Wet 0.035 0.036 0.038 0051 0059 0073 0.087 0.094 0.110 0,125 0145 CA*F313IC6* Dry 0.014 0.022 0028 0036 0045 0054 0.061 0.068 0081 0,091 0108 -2 -2000- -�SOM'' 600r, 00 1900,,:, co Azop Wet 0090 0110 0140 0170 0200 0.230 0270 0.300 0350 0390 0440 05 055 0620 0670 0.740 CA*F3137B6* OL390 Dry 0080 0100 0130 0160 0.190 0.220 0250 0.290 0340 0380 0,430 0.48 0530 0.590 0660 0710 7777, o , 2 '� 1 J� Wet 0.135 0170 0.220 0.280 0310 0.380 0450 0530 0610 0690 0.790 0870 0.910 0.950 1030 1.130 1190 CA*F3636A6* I Dry 0130 0.160 0200 0230 0280 0320 0380 0450 0520 0,590 0.670 0.710 0.790 0.870 0970 1.060 1160 0 n Ln Wet 0 115 0 135 0 170 0.180 0 220 0 260 0 300 0 350 0.400 0 460 0520 0 570 0 600 0.660 0 720 0 790 0 85033 oCA*F3636B6* p Dry 0 110 0.130 0 160 0.170 0 210 0 240 0 270 0 330 0.370 0.420 0 470 0.520 0 550 0 610 0 660 0.720 0.770 C D Wet 0.100 0.120 0.160 0.170 0.210 0.250 0.290 0.340 0.380 0 430 0 480 0.540 0 550 0 610 0 670 0 720 0.780 ti CA*F3636C6* y Dry 0 090 0.110 0 130 0 140 0 160 0 180 0 220 0 250 0 286 0 320 0 350 0.370 0 410 0.450 0 490 0.530 0 570 < N Wet 0 095 0 115 0 140 0.150 0 170 0.200 0.230 0 270 0 310 0 350 0 390 0 430 0 460 0 500 0.560 0 620 0.660 T CA*F3636D6* Dry 0.090 0.110 0 130 0 140 0.160 0.190 0 220 0.240 0 270 0 300 0 340 0 380 0 410 0 440 0 490 0.530 0 580 �- r. {!' (Cif SCFNI'. 600•. <)Otl 8'Dti 9b'D %100D' 110{1.` 1200 13p0` 19(10" 15b0''' '1600 ' 170(1i 180^ 19[t0 . 2000 2100 2200,' Q' - z Wet 0.075 0 090 0 110 0 120 0 140 0 170 0.200 0.230 0 260 0.290 0 330 0.360 0 380 0 420 0 460 0 500 0 540 rri CA*F3642C6* c2 Dry 0 070 0 080 0 100 0 110 0 130 0.150 0 170 0.200 0.230 0 250 0 280 0.310 0 330 0 370 0.400 0 430 0 470 C m Wet 0 070 0 090 0 110 0.124 0 140 0160 0 190 0.210 0.240 0.270 0 300 0 330 0 350 0.380 0 420 0.460 0 480 O CA*F3642D6* 0 Dry 0 060 0.080 0 090 0 100 0 110 0 130 0 150 0.170 0 190 0.220 0 240 0 260 0 280 0.300 0 330 0.360 0 390 -171 '900 1000' 1`X04'. ,j'ix04 1300`i :1400.: :1500 ,1606 170D ,1800; ''1 2000 =2100- 2200, Z r ` = : Wet 0 083 0 093 0 113 0 133 0 143 0 163 0.183 0,213 0 243 0 263 0 293 0.323 0 353 0 383 0 423 obi CA*F3743C6* Dry 0.073 0.083 0 103 0 113 0 133 0 153 0 163 0,193 0.213 0.233 0 263 0 293 0.313 0.343 0.373 m s Wet 0 074 0 080 0 089 0 107 0120 0.129 0 138 0.169 0 188 0.209 0 229 0 251 0 273 0 279 0 306 n CA*F3743D6* C') Dry 0 046 0.056 0 074 0 076 0 086 0 107 0.110 0.126 0 147 0 160 0 176 0 196 0.210 0 230 0 253 SCFM' 1f10�_` ;1100 1200;: =:1300,' x400 " ,154p-' '1600.__1700'- 1800' 19Db : '7000 210D,; N22Q0 Wet 0 167 0.191 0 219 0 244 0 266 0 299 0 355 0,370 0 413 0.454 0 498 0 586 0 601 a CA*F486006* Dry 0 160 0.177 0.194 0206 0 246 0 264 0.264 0.265 0 290 0 309 0 364 0.389 0 562 Wet 0 138 0 156 0 177 0 196 0.226 0 247 0 275 0.298 0 327 0 349 0 395 0 460 0 485 CA*F4860D6* Dry 0 126 0 138 0 157 0 176 0.187 0200 0205 0 210 0 230 0 250 0 280 0 300 0 417 y ;g a Ow-"4009,- ',1100 1200" 1800 -140D 1S00• „T60R 1700, 1800. 10M "20011 21Fio`; :22Q0' 121 Wet 0.209 0 233 0 255 0 286 0.308 0.341 0 397 0.412 0 455 0 496 0 540 0 628 0.643 CA*F496106* Dry 0202 0 219 0 236 0 248 0.288 0 306 0 306 0 307 0 332 0 351 0 406 0 431 0 604 C Wet 0 140 0 158 0 179 0 198 0 228 0.249 0 277 0 300 0 329 0 351 0 397 0 462 0 487 CA*F4961D6* Dry 0 128 0 140 0 159 0 178 0.189 0202 0206 0.212 0.232 0 252 0 282 0 302 0 419 �11 I'� C) 0 0 00, Wet 0041 0049 0061 0.078 0090 0.113 0.131 0.140 0.162 0178 0210 CAPT3131B4* Dry 0021 0.031 0.039 0.048 0061 0072 0079 0091 0.110 0.122 0141 Z! Wet 0035 0036 0038 0051 0059 0073 0087 0094 0110 0.125 0145 1 R) CAPT313IC4* Dry 0014 0022 0028 0036 1 0045 0.054 1 0061 0068 0.081 0.091 0108 1 LL, SCFPA 800 0110 200 1 DU 3 Op' 1500. I6U4 T Wet 0.083 0093 0113 0133 0143 0.163 0183 0.213 0.243 0.263 0293 0.323 1 0.353 0383 0423 CAPT3743C4* Dry 0.073 0083 0103 0.113 0.133 0153 0.163 0.193 0213 0233 0263 0.293 0.313 0343 0373 Wet 0074 0080 0.089 0107 0120 0.129 0138 0169 0188 0209 0229 0.251 0273 0.279 0.306 CAPT3743D4* 0.0 0110 0126 0147 0160 0176 019 Dry 0046 0056 70 0076 0086 0107 6 0.210 0.230 0.253 0;� w 5C�lilf 1000 1]00 1200,1 1300 UOM., -15 2000--;� rri 0 18Q., -"2100- 0 0' Ll L Wet 0.209 0233 0.255 0286 0308 0.341 0.397 0412 0455 0496 0.540 0628 0643O CAPT4961C4* Dry 0202 0219 0236 0248 0288 0.300 0306 0.315 0332 0351 0.406 0431 0604 0.300 :E Wet 0.140 0158 0.179 0.198 0228 0249 0277 t 0329 0351 0.397 0462 0487 CAPT4961D4* Dry 0128 0.140 0.159 0178 0189 0202 0206 0.212 0232 0252 0.282 0302 0.419 iu 3 w 0 3 ,0 SCFM '50 6 oo; .1600 1100 120 CSCF1824N6D* Wet 0.104 0143 0176 0212 0255 0292 0321 0344 Dry 0048 0.067 0086 0108 0132 0159 0.186 0.206 CSCF3036N6D* Wet --- --- 0062 0076 0.092 0.109 0.131 0,156 0186 0209 Dry --- 0032 0043 0055 0068 0082 0099 0114 0.131 00 Poo "0' •12011., 1300 4400 1500 00, ISO1900- 2000 2100 220i�, - CSCF364ZN6D* Wet --- --- 0.045 0.063 0081 0.099 0116 0.132 0 148 0166 0.183 0202 0220 0236 0259 0278 0291 Dry --- --- 0.039 0.051 0064 0077 0092 0105 0.121 0138 0.150 0.175 0191 0214 0.230 0251 0.262 '16,D SOV, I , Iq - - -, ,, - � r- � 8 190p' 2000 21DD' '22Q0; _7 4100 1200 130 -,�Ioor .APO' CSCF4860N6D* Wet --- --- 0051 0.068 0085 0103 0120 0137 0.154 0173 0.192 0.212 0.233 0255 0.278 0.299 0 319 Dry --- --- --- 0.043 0056 0.069 069 0084 0099 0.115 0132 0.149 0.167 0185 0.207 0.227 0249 0 272 282** 0. Maximum SUM=2146 Amnow.OWA,roR CII)OF AIR QUANTITY(SCFM) VS. PRESSURE DROP(IN. WC) A, -.4p0o'- $CF 760- 00 j lVD0 , 100, l •1304 140Q CHPF Wet 0132 0179 0222 0272 0327 0381 0456 0522 0605 1824A6* Dry 0.126 0165 0.206 0249 0302 0354 0414 0478 0563 V,!'-'00', -40DO --1100-�- 43 -600-%-' 760 1466 -1500 SCFM so 0 :1600, 'CHPF Wet 0.106 0.124 0.152 0.184 0.218 0258 0301 0.350 0406 0460 0514 2430B6* Dry 0.101 0122 0145 0174 0.209 0247 0288 0333 0381 0428 0484 XFM loo 800 a,900'--1000 -1100 "Ildo '-1300`1 1400-f',1500-p 440---, CHPF Wet 0107 0131 0 167 0.199 0.239 0291 0338 0.389 0439 0494 05S2 363686* Dry 0102 0126 0152 0184 0.220 0259 0303 0349 0401 0458 0516 ---SCFM 800 -so 0 0 :Lsoo-� 00; �2M -1300 �14 (V,�l o -4foo�, 420o-, SOD :200 CHPF Wet 0.083 0103 0126 0151 0,178 0208 0240 0274 0310 0346 0383 --- --- --- --- 3642C6* Dry 0.073 0.096 0120 0144 0.169 0196 0224 0.254 0.286 0.319 1 0354 --- --- --- --- CHPF Wet 0040 0050 0060 0070 0080 0080 0090 0100 0110 0120 0120 0130 0150 0160 0180 3642D6* Dry 0.030 0.040 0.040 0.050 0.060 0.070 0.080 0.085 0.090 0.100 0.110 0.120 0.140 0.150 0.160 .140 :16M'. �:1700-f ,-'1800 "1960.,' =2000 ?-2100= 220 1300. -110 1cf CHPF Wet 0.133 0.153 0.176 '0.201 0.228 0258 0290 0.324 0.360 0.396 0.433 --- --- 3743C6* Dry 0.123 0146 0170 0194 0.219 1 0246 0274 0304 0.336 0369 1 0404 --- --- --- --- CHPF Wet 0101 0105 0115 0125 0.145 0165 0.195 ;0215 0.235 OP265 0295 0315 0355 0375 0405 3743D6* 0 0 0 Dry 0.072 0095 0105 0115 0135 0155 0,185 0205 0225 0 255_ 0275 0305 0,335 0365 0,395- Soo,_ Soo- UM -1300 1,400- 1700 -,1806".""0.0- 2000,; 1200. :uoo 166a. J CHPF Wet 0111 0131 0151 0 171 0 191 0 211 0.231 0261 0291 0321 0 361 0 391 0 431 0471 486OD6* Dry 0101 O.121 0141 0.161 1 0.181 1 0201 0221 0251 1 0281 1 0311 1 0341 0371 0.411 0441 SS-ACcil www.amana-hac.com 11 ACCESSORIES EXPANSION VALVE KITS FOR NON-TXV COILS KIT NUMBER DESCRIPTION APPLICATION REFRIGERANT TONNAGE: OUTDOOR UNIT TXV-302 Non-bleed Valve AC Only R-410A 1Y2-2Y2 Ton TXV-422 Non-bleed Valve AC Only R-410A 3-3Y2 Ton TXV-482 Non-bleed Valve AC Only R-410A 4 Ton TXV-602 Non-bleed Valve AC Only R-410A 5 Ton TX21\14A Non-bleed Valve AC or HP R-410A 1%-2 Ton TX3N4 Non-bleed Valve AC or HP R-410A 2'/-3 Ton TX5N4 Non-bleed Valve AC or HP R-410A 3'X-5 Ton Note: Condensing units and heat pumps with reciprocating compressors require the use of start-assist compo- nents when used in conjunction with an indoor coil using a non-bleed thermal expansion valve refrigerant metering device H/GH-TEMP OR41N PAN K/TS DRAIN PAN KITS FURNACE SIZE HTP-A 14"furnaces HTP-13 17%"furnaces HTP-C 21"furnaces HTP-D 24%"furnaces Amana®is a trademark of Maytag Corporation or its related companies and used under license to Goodman Company,L P.All rights reserved Our continuing commitment to quality products may mean a change in specifications without notice,02016 • Goodman Company,L P. • Houston,Texas • Printed in the USA 12 www.amana-hac.com SS-AColl GAS-FIRED WATER HEATER A Spanish language version of these instructions is available by contacting the company listed on the rating plate. La version espanola de estas instrucciones se puede obtener al escribirle a la fabrica cuyo nombre aparece en la placa de especificaciones. INSTALLATIONOPERATING INSTRUCTION MANUAL For . ble Vapor IgnitionResistant System Equipped Water , WARNING: If the information in these instructions is not followed exactly, a fire or explosion may result causing property damage, personal injury or death. FOR YOUR SAFETY -Do not store or use gasoline or other flammable, combustible, or corrosive vapors and liquids in the vicinity of this or any other appliance. - WHAT TO DO IF YOU SMELL GAS ® Do not try to light any appliance. • Do not touch any electrical switch; do not use any phone in your building. • Immediately call your gas supplier from a neighbor's phone. Follow the gas supplier's instructions. • If you cannot reach your gas supplier, call the fire department. - Installation and service must be performed by a qualified installer, service agency or the gas supplier. For your family's comfort, safety and convenience, we recommend this water heater be installed and serviced by a plumbing professional. �r a Flammable Vapors 238-44219-OOK REV 6/12 CONGRATULATIONS! You have just purchased one of the finest water heaters on the market today! This installation, operation and instruction manual will explain in detail the installation and maintenance of your new Flammable Vapor Ignition Resistant Gas Water Heater. We strongly recommend that you contact a plumbing professional for the installation of this water heater. We require that you carefully read this manual, as well as the enclosed warranty, and refer to it when questions arise. If you have any specific questions concerning your warranty, please consult the plumbing professional from whom your water heater was purchased. For your records we recommend that you write the model, serial number and installation date of your water heater in the maintenance section in the back of this manual. This manual should be kept with the water heater. Special Flammable Vapor Ignition Resistant System: This water heater is equipped with a Flammable Vapor Ignition Resistant System. In the event of improper usage or storage of gasoline or other flammable materials in the location where the water heater is installed, the technology will resist ignition of the flammable vapors outside the confines of the water heater. The Flammable Vapor Ignition Resistant System features: • Advanced Flame Arrestor Design. • Re-settable Thermal Switch to prevent burner/pilot operation with restricted airflow. • Piezo Igniter • Sight Window to observe operation of pilot and burner. FOR YOUR SAFETY: Activation of the Flammable Vapor Ignition Resistant System occurs when flammable vapors are drawn into the water heater and are combusted. If flammable vapors are detected: • Do not try to light any appliance. • Do not touch any electrical switch; Do not use any phone in your building. • Leave the premises and immediately call the fire department from a neighbor's phone. Follow the fire department's instructions. Once the flammable vapor has been evacuated, contact your plumbing professional or the manufacturer for further instructions. Replacement of a Flammable Vapor Ignition Resistant System equipped water heater due to a flammable vapor shutdown is not covered under the terms of the limited warranty. 2 pf��61y TABLE OF CONTENTS page GENERAL INFORMATION............................................................ 4 INSTALLATION ............................................................................. 6 Locating the Water Heater..................................................... 6 Minimum Clearances.............................................................. 9 Venting..................................................................................... 10 Combustion Air Supply.......................................................... 11 Water Connections................................................................. 13 Gas Connections .................................................................... 16 GENERAL OPERATION................................................................ 17 Lighting and Shutdown Instructions .................................... 18 Thermostat Adjustment ......................................................... 20 Burner Flame Check............................................................... 22 MAINTENANCE ............................................................................. 23 TROUBLESHOOTING ................................................................... 26 INSTALLATION DRAWING FOR POTABLE WATER.................. 28 PARTS LIST DRAWING ................................................................ 29 PARTSLIST................................................................................... 30 INSTALLATION INSTRUCTIONS FOR POTABLE WATER AND SPACEHEATING .......................................................................... 31 NOTES ........................................................................................... 32 3 GENERAL INFORMATION This gas-fired water heater is design certified by CSA International under the applicable American National Standard, Z21.10.1 or CSA 4.1-(as indicated on the rating plate), available from CSA International, 8501 East Pleasant Valley Road, Cleveland, OH U.S.A. 44131-5575. This water heater must be installed in accordance with local codes. In the absence of local codes, it must be inst0alled in compliance with the National Fuel Gas Code (ANSI Z223.1-Latest Edition), or in Canada CAN/CGA B149.1 Natural Gas Installation Code (Latest Edition) or CAN/CGA B149.2 Propane Installation Code (Latest Edition). The warranty for this water heater is in effect only when the water heater is installed, adjusted, and operated in accordance with these Installation and Operating Instructions. The manufacturer will not be liable for any damage resulting from alteration and/or failure to comply with these instructions. This water heater is not design certified for installation in a mobile home. Such an installation may create a hazardous condition and will nullify the warranty. This water heater has been designed and certified for the purpose of heating potable water. The installation and use of this water heater for any purpose other than the heating of potable water may cause damage to the water .heater, create a hazardous condition, and nullify the warranty. 1 CAUTION Incorrect operation of this appliance may create a hazard to life and property and will nullify the warranty. Do not use this appliance if any part has been submerged in water. Immediately call a qualified service technician to inspect the appliance and to replace any part of the control system and any gas control, which has been under water. Depending upon the individual circumstances, it may be necessary to replace the entire water heater. Do not store or use gasoline or other flammable, combustible, or corrosive vapors and liquids in the vicinity of this or any other appliance. 4 General Information continued- IMPORTANT Before proceeding, please inspect the water heater and components for possible damage. DO NOT install any damaged components. If damage is evident then please contact the supplier where the water heater was purchased or the manufacturer listed on the rating plate for replacement parts. This water heater has been manufactured for operation at altitudes from sea level to 2000 feet (610 m) (unless otherwise specified on the water heater rating plate). For use of this appliance at an elevation greater than 2000 feet (610 m), contact the dealer or manufacturer listed on the rating plate for information on any necessary modification. Uncorrected operation of this appliance may create a hazard to life and property. Make sure that you check the rating plate and combination gas control on the water heater to be certain that the type of gas being supplied corresponds with the marking on the rating plate and combination gas control. A sacrificial anode is used to extend tank life. The removal of this anode, for any reason, will nullify the warranty. In areas where water is unusually active, an odor may occur at the hot water faucet due to a reaction between the sacrificial anode and the impurities in the water. If this should happen, an alternative anode may be purchased from the supplier that installed this water heater. This will minimize the odor while protecting the tank. Additionally, the water heater should be flushed with appropriate dissolvers to eliminate any bacteria. 5 INSTALLATION LOCATING THE WATER HEATER 1 - Water heaters are heat producing appliances. To avoid damage or injury there must be no materials stored against the water heater or vent-air intake system and proper care must be taken to avoid unnecessary contact (especially by children) with the water heater and vent-air intake components. UNDER NO CIRCUMSTANCES SHALL FLAMMABLE MATERIALS, SUCH AS GASOLINE OR PAINT THINNER BE USED OR STORED IN THE VICINITY OF THIS WATER HEATER, VENT-AIR INTAKE SYSTEM OR IN ANY LOCATION FROM WHICH FUMES COULD REACH THE WATER HEATER OR VENT-AIR INTAKE SYSTEM. This water heater MUST NOT be installed in any location where gasoline or flammable vapors are likely to be present, unless the installation is such to eliminate the probable ignition of gasoline or flammable vapors. Water heaters in residential garages must be installed and located, or protected, to avoid physical damage. For other installations refer to local codes. In the absence of local codes, the water heater must be installed in compliance with the National Fuel Gas Code, (ANSI Z223.1- Latest Edition), or in Canada CAN/CGA B149.1 Natural Gas Installation Code (Latest Edition) or CAN/CGA 8149.2 Propane Installation Code (Latest Edition). The location of this water heater is of the utmost importance. Before installing this water heater read the Installation section of these instructions. After reading these Installation and Operating Instructions, select a location for the water heater where the floor is level and is easily accessible to gas and water supply lines. DO NOT locate the water heater where water lines could be subjected to freezing temperatures. Make sure the cold water pipes are not located directly above the gas control so that condensate during humid weather does not drip on the controls. This water heater MUST be installed indoors out of the wind and weather. To comply with NSF requirements this water heater is to be: a) Sealed to the floor with sealant, in a smooth and easily cleanable way, or b) Installed with an optional leg kit that includes legs and/or extensions that provide a minimum clearance of 6" beneath the water heater. 6 Installation (Locating The Water Heater) continued- Note: For California installation this water heater must be braced, anchored, or strapped to avoid falling or moving during an earthquake. See instructions for correct installation procedures. Instructions may be obtained from DSA Headquarters Office, 1102 Q Street, Suite 5100, Sacramento, CA 95811. Water heater corrosion and component failure can be caused by the heating and breakdown of airborne chemical vapors. Examples of some typical compounds that are potentially corrosive are: spray can propellants, cleaning solvents, refrigerator and air conditioning refrigerants, swimming pool chemicals, calcium and sodium chloride, waxes and process chemicals. These materials are corrosive at very low concentration levels with little or no odor to reveal their presence. NOTE: DAMAGE TO THE WATER HEATER CAUSED BY EXPOSURE TO CORROSIVE VAPORS IS NOT COVERED BY THE WARRANTY. DO NOT OPERATE THE WATER HEATER IF EXPOSURE HAS OR WILL OCCUR. DO NOT STORE ANY POTENTIALLY CORROSIVE COMPOUNDS IN THE VICINITY OF THE WATER HEATER. AWARNING Liquefied petroleum gases/propane gases are heavier than air and will remain at floor level if there is a leak. Basements, crawl spaces, closets and areas below ground level will serve as pockets for accumulation of leaking gas. Before lighting, smell all around the appliance area for gas. Be sure to smell next to the floor. IF YOU SMELL GAS: • Do not try to light any appliance. • Do not touch any electric switch; do not use any telephone in your building. • Immediately call your gas supplier from a neighbor's telephone. Follow the gas supplier's instructions. • If you cannot reach your gas supplier, call the fire department. DO NOT OPERATE APPLIANCE UNTIL LEAKAGE IS CORRECTED! 7 Installation (Locating The Water Heater) continued- 1 WARNING Liquefied petroleum gases/propane gases are heavier than air and will remain at floor level if there is a leak. Basements, crawl spaces, closets and areas below ground level will serve as pockets for accumulation of leaking gas. Before lighting, smell all around the appliance area for gas. Be sure to smell next to the floor. IF YOU SMELL GAS: • Do not try to light,any appliance. • Do not touch any electric switch; do not use any telephone in your building. • Immediately call your gas supplier from a neighbor's telephone. Follow the gas supplier's instructions. • If you cannot reach your gas supplier, call the fire department. DO NOT OPERATE APPLIANCE UNTIL LEAKAGE IS CORRECTED! Proper venting practices must be considered when selecting a location for this water heater. For exact venting specifications, please consult the Venting section of these Installation and Operating Instructions. This water heater must be located in an area where leakage of the tank, water line connections, or the combination temperature and pressure relief valve will not result in damage to the area adjacent to the water heater or to lower floors of the structure. When such locations cannot be avoided, a suitable drain pan must be installed under the water heater. The drain pan must have a minimum length and width of at least 4 inches (10.2 cm) greater than the diameter of the water heater and must not restrict proper combustion air flow to the water heater. The drain pan, as described above, can be purchased from your plumbing professional. The drain pan must be piped to an adequate drain. The piping must be at least % inch (1.9 cm) in diameter and pitched for proper drainage. It is recommended that a minimum clearance of 4 inches (10.2 cm) be provided on the side of the water heater for servicing and maintenance of the combination temperature and pressure relief valve. 8 MINIMUM CLEARANCES 1M - Failure to adhere to these installation and operating instructions may create a hazard to life and property and will nullify the warranty. This installation must allow access to the front of the water heater and adequate clearance must be provided for servicing and operating this water heater. The water Beater may be installed on either a combustible or non- combustible floor. If the water heater is to be installed directly on carpeting, it shall be installed on top of a metal or wood panel (or equivalent) extending beyond the full width and depth of the appliance by at least 3 inches (7.6 cm) in any direction or, if the appliance is to be installed in an alcove or closet, the entire floor shall be covered by the panel. If the rating plate or the label on the front of the heater specifies minimum clearances less than those listed in the below table, the water heater may be installed in accordance with the minimum clearances listed on the rating plate or the label on the front of the heater. If it is necessary to install this water heater in an alcove, use the clearances listed in Figure 1, increased distances provide greater clearances for servicing. �l T ' 6" (15.2 cm) MIN 12" (30.5 cm) MIN 0" MIN 0" MIN INTERIOR WALL 00 00 0 0 0 0 Figure 1 9 VENTING AWARNING The venting system must be installed properly following all local codes or in the absence of local codes, the latest edition of the National Fuel Gas Code (ANSI Z223.1-latest edition), or in Canada, The Natural Gas and Propane Installation Code (13149.1-00 latest edition). Failure to properly install the venting system could result in property damage, personal injury, or death. AWARNING Carefully inspect the venting system of a replacement water heater installation before connecting to the venting system. All joints in the vent connector must be securely fastened with screws and fit tightly together. Inspect the venting system for signs of deterioration (rust and perforation) and replace any sections that are not in good condition. The chimney must be lined and in good condition. Check to make sure the venting system is properly sized for the water heater. If the venting system was previously sized for another gas appliance that has been removed, the venting system may now be too large. Refer to the latest edition of the National Fuel Gas Code (ANSI Z223.1-latest edition), or in Canada, the Natural Gas and Propane Installation Code (13149.1-00 latest edition) for the correct sizing of venting systems and common venting with another gas appliance. Do not vent this water heater into the venting system of another gas appliance designed to vent under positive pressure. The water heater should be installed as close as practical to the venting system to minimize the vent connector length required. Refer to local codes for the distance limitations on vent connector lengths. At the completion of the water heater installation, the burner and venting system must be checked for proper operation with all other commonly vented appliances in operation. Check for spillage of flue products around the outside relief opening of the drafthood after several minutes of operation. The flame from a match should be drawn into the drafthood. Do not use the water heater or connected equipment if spillage is detected until the problem is corrected. Refer to the latest edition of the National Fuel Gas Code, or in Canada, the Natural Gas and Propane Installation Code for complete details on the "Procedure to Be Followed to Place Equipment in Operation". This water heater has been shipped with a draft diverter for which it was designed with reference to the horizontal and vertical planes. If removed, the draft diverter must be replaced in the same position and secured to the jacket top by the screws with which it was installed. 10 Venting continued- This water heater must be connected to a lined masonry chimney or venting system approved by local codes or ordinances. The vent connector used to attach the draft diverter outlet to the chimney or approved vent must be of the same diameter as the draft diverter outlet or larger. For proper venting in certain installations, a larger vent connector may be needed. Consult venting tables in ANSI standard (Z223.1-or latest edition), National Fuel Gas Code and CAN/CGA (6149.1 or B149.2-latest editions) Natural Gas and Propane Installation Code, or local code officials for proper application for your area. Combustion Air Supply A WARN Liquefied petroleum gases/propane gas are heavier than air and will remain at floor level if there is a leak. Basements, crawl spaces, closets and areas below ground level will serve as pockets for accumulation of leaking gas. Before lighting, smell all around the appliance area for gas. Be sure to smell next to the floor. IF YOU SMELL GAS: • Do not try to light any appliance. • Do not touch any electric-switch; do not use any telephone in your building. • Immediately call your gas supplier from a neighbor's telephone. Follow the gas supplier's instructions. • If you cannot reach your gas supplier, call the fire department. DO NOT OPERATE APPLIANCE UNTIL LEAKAGE IS CORRECTED! IMPORTANT The flow of combustion and ventilating air must not be obstructed. • Do not block or in anyway restrict jacket air inlet slots located at the bottom front of the water heater. Provide adequate air for combustion and ventilation. An insufficient supply of air will cause recirculation of combustion products resulting in air contamination that may be hazardous to life. Such a condition often will result in a yellow, luminous burner flame, causing carboning or sooting of the combustion chamber, burners and flue tubes with possible damage to the water heater. When an exhaust fan is installed in the same room with a heater, sufficient openings for air must be provided in the walls. Undersized openings will cause air to be drawn into the room through the chimney, causing recirculation of combustion products. 11 Combustion Air Supply continued- Confined Spaces Confined spaces are spaces defined as having less than 50 feet3 (1.41 m3) of space per 1,000 BTU (.29kw) per hour of input. Unconfined Spaces In unconfined spaces in buildings, infiltration may be adequate to provide air for combustion, ventilation and dilution of flue gases. However, in buildings of tight construction (for example, weather stripping, heavily insulated, caulked, vapor barrier, etc.), additional air may need to be provided using the methods described above under CONFINED SPACES: All Air From Outdoors or SPECIALLY ENGINEERED INSTALLATIONS. All Air From Inside the Building: The confined space shall be provided with two permanent openings communicating directly with an additional room(s) of sufficient volume so that the combined volume of all spaces meets the criteria for an unconfined space. The total input of all gas utilization equipment installed in the combined space shall be considered in making this determination. Each opening shall have a minimum free area of 1 inch (6.45 cm2) per 1000 BTU (29 kw) per hour of the total input rating of all gas utilization equipment in the confined space, but not less than 100 square inches (645 cm2). One opening shall be within 12 inches (31 cm) of the top and one within 12 inches (31 cm) of the bottom of the enclosure. All Air From Outdoors: The confined space shall be provided with two permanent openings, one commencing within 12 inches (31 cm) of the top and one commencing within 12 inches (31 cm) from the bottom of the enclosure. The openings shall communicate directly, or by ducts, with the outdoors or spaces (crawl or attic) that freely communicate with the outdoors. 1. When directly communicating with the outdoors, each opening shall have a minimum free area of 1 inch (6.45 cm2) per 4000 BTU (1.2 kw) per hour of total input rating of all equipment in the enclosure. 2. When communicating with the outdoors through vertical ducts, each opening shall have a minimum free area of 1 inch (6.45 cm2) per 4000 BTU (1.2 kw) per hour of total input rating of all equipment in the enclosure. 3. When communicating with the outdoors through horizontal ducts, each opening shall have a minimum free area of 1 inch (6.45 cm2) per 2000 BTU (6 kw) per hour of total input rating of all equipment in the enclosure. 4. When ducts are used, they shall be of the same cross-sectional area as the free area of the openings to which they connect. The minimum dimension of rectangular air ducts shall be not less than 3 inches (7.5 cm). Specially Engineered Installations The requirements noted under CONFINED SPACES above shall not necessarily govern when special engineering, approved by the authority having jurisdiction, provides an adequate supply of air for combustion, ventilation, and dilution of flue gases. 12 WATER CONNECTIONS Note: BEFORE PROCEEDING WITH THE INSTALLATION, CLOSE THE MAIN WATER SUPPLY VALVE. After shutting off the main water supply, open a faucet to relieve the water line pressure to prevent any water from leaking out of the pipes while making the water connections to the water heater. After the pressure has been relieved, close the faucet. The COLD water inlet and HOT water outlet are identified on the top of the water heater. The fittings at the cold water inlet and hot water outlet are dielectric waterway fittings with 3/ inch NPT male thread. Make the proper plumbing connections between the water heater and the plumbing system to the house. Install a shut-off valve in the cold water supply line. 1 If sweat fittings are to be use, DO NOT apply heat to the nipples on top of the water heater. Sweat the tubing to the adapter before fitting the adapter to the water connections. It is imperative that heat is not applied to the nipples containing a plastic liner. 1 WARNING FAILURE TO INSTALL AND MAINTAIN A NEW, LISTED % INCH X % INCH TEMPERATURE AND PRESSURE RELIEF VALVE WILL RELEASE THE MANUFACTURER FROM ANY CLAIM, WHICH MIGHT RESULT FROM EXCESSIVE TEMPERATURE AND PRESSURES. If this water heater is installed in a closed water supply system, such as the one haVirng a back-flow preventer in the cold water supply, provisions shall be made to control thermal expansion. DO NOT operate this water heater in a closed system without provisions for controlling thermal expansion. Your water supplier or local plumbing inspector should be contacted on how to control this situation After installation of the water lines, open the main water supply valve and fill the water heater. While"the water heater is filling, open several hot water faucets to allow air to escape from the water system. When a steady stream of water flows through the faucets, close them and check all water connections for possible leaks. NEVER OPERATE THE WATER HEATER WITHOUT FIRST BEING CERTAIN IT IS FILLED WITH WATER. 13 Installation (Water Connections) continued- AWARNING For protection against excessive temperatures and pressure, install temperature and pressure protective equipment required by local codes, but not less than a combination temperature and pressure relief valve certified by a nationally recognized testing laboratory that maintains periodic inspection of production of listed equipment or materials as meeting the requirements of the Standard for Relief Valves and Automatic Gas Shutoff Devices for Hot Water Supply Systems, ANSI Z21.22 or the Standard CAN 1-4.4. Temperature and Pressure and the Standard CAN 1- 4.4, Temperature, Pressure, Temperature and Pressure Relief Valves and Vacuum Relief Valves. The combination temperature and pressure relief valve shall be marked with a maximum set pressure not to exceed the maximum working pressure of the water heater. The combination temperature and pressure relief valve shall also have an hourly rated temperature steam BTU discharge capacity not less than the hourly rating of the water heater. Install the combination temperature and pressure relief valve into the opening provided and marked for this purpose on the water heater. Note: Some models may already be equipped or supplied with a combination temperature and pressure relief valve. Verify that the combination temperature and pressure relief valve complies with local codes. If the combination temperature and pressure relief valve does not comply with local codes, replace it with one that does. Follow the installation instructions above on this page. Install a discharge line so that water discharged from the combination temperature and pressure relief valve will exit within 6 inches (15.2 cm) above, or any distance below the structural floor and cannot contact any live electrical part. The discharge line is to be installed to allow for complete drainage of both the combination temperature and pressure relief valve and the discharge line. The discharge opening must not be subjected to blockage or freezing. DO NOT thread, plug or cap the discharge line. It is recommended that a minimum clearance of 4 inches (10.2 cm) be provided on the side of the water-heater for servicing and maintenance of the combination temperature and pressure relief valve. Do not place a valve between the combination temperature and pressure relief valve and the tank. 14 Installation (Water Connections) continued- Hydrogen gas can be produced in an operating water heater that has not had water drawn from the tank for a long period of time (generally two weeks or more). Hydrogen gas is extremely flammable. To prevent the possibility of injury under these conditions, we recommend the hot water faucet to be open for several minutes at the kitchen sink before you use any electrical appliance, which is connected to the hot water system. If hydrogen is present, there will be an unusual sound such as air escaping through the pipes as hot water begins to flow. Do not smoke or have open flame near the faucet at the time it is open. This water heater can deliver scalding temperature water at any-faucet in the system. Be careful whenever using hot water to avoid scalding injury. Certain appliances such as dishwashers and automatic clothes washers may require increased temperature water. By setting the thermostat on this water heater to obtain the increased temperature water required by these appliances, the potential for scald injury increases. To protect-against injury, you should install an ASSE approved mixing valve in the water system. This valve will reduce point of discharge temperature by mixing cold and hot water in branch supply lines. Such valves are available from the manufacturer of this water heater or a local plumbing supplier. Please consult with a plumbing professional. Water temperature over 125°F (52°C)can cause severe burns instantly or death from scalds. Children, disabled and elderly are at highest risk of being scalded. Review this instruction manual before setting temperature HOT at water heater. t Feel water before athing or showering. URN Temperature limiting valves are available. APPROXIMATE TIME/TEMPERATURE RELATIONSHIPS IN SCALDS 120°F 49°C More than 5 minutes 125°F 52°C 1'/2 to 2 minutes 130°F 54°C About 30 seconds 135°F 57°C About 10 seconds 140°F 60°C Less than 5 seconds 145°F 63°C Less than 3 seconds 150°F 66°C About 1'/z seconds 155°F 68°C About 1 second 15 Gas Connections The gas supply lines must meet all requirements of the National Fuel Gas Code (ANSI Z223.1-Latest Edition), or in Canada CAN/CGA B149.1 Natural Gas Installation Code (Latest Edition) or CAN/CGA B149.2 Propane Installation Code (Latest Edition). The minimum permissible gas supply pressure for the purpose of input adjustment is 1 inch (0.25 kPa) water column above the operating manifold pressure. See the rating plate and gas valve for the manifold pressure and gas type. The maximum permissible gas supply pressure is 14 inches (3.5 kPa) water column for natural gas and liquefied petroleum gases/propane gas. 1. Connect this water heater only to the type of gas (Natural or Propane gas) as shown on the rating plate. Use clean Mack iron pipe or equivalent Material approved by local codes and ordinances. (Dirt and scale from the pipe can enter the gas valve and cause it to malfunction). The inlet gas line must have a minimum length of 3 inches (7.6 cm) drip leg (sediment trap) installed as close to the water heater's gas valve as possible. A ground joint union must be installed as close to the water heater as possible in the gas supply line feeding the water heater to permit servicing of the water heater. Compounds used on the threaded joints of the gas piping must be resistant to the action of liquefied petroleum gases/propane gas. DO NOT apply pipe dope to the gas valve inlet and make certain that no pipe dope has become lodged in the inlet screen of the gas valve. Extreme care must be taken to ensure no pipe dope enters the gas valve. Avoid excessive torque when tightening the gas supply line to the gas valve. Excessive torque may result in cracking of the gas valve housing and could create a gas leak. When tightening gas supply line to L.P. control, it is recommended to hold the inlet body of the control securely with an adequate wrench. The suggested maximum torque is 31.5 ft. lbs. (4.4 kg-m). A WARNING The manufacturer of this water heater will not be liable for any damage or injury caused as a result of a cracked gas inlet as a result of excessive torque. His water neater and its gas connection must be 1eaK testedbefore placing tne water heater in operation. Check for gas leaks with a soap and water solution and a brush or a commercial leak detector fluid. NEVER USE A MATCH OR OPEN FLAME FOR TESTING! 3. While checking for leaks care must be taken to prevent solution from contacting the electrical connections at the control. If electrical connections at the control become wet, they must be thoroughly dried before attempting to operate the water heater. 1 CAUTION The water heater and individual shutoff valve must be disconnected from the gas supply piping system during any pressure testing of the system at test pressures in excess of 1/2 psi (3.5 kPa). The water heater must be isolated from the gas supply piping system by closing its manual shutoff valve during any pressure testing of the gas supply system at test pressures equal to or less than 1/2 psi (3.5 kPa). The supply line must be capped when not connected to the water heater. 1 The gas inlet pressure to the gas control must never exceed 14 inches of water column ('/2 psi) (3.5 kPa). The gas supply system and any pressure regulating device in the gas line must be specified, inspected and adjusted to assure a gas supply pressure of 1/2 psi (3.5 kPa)or less. Failure to do so may result in serious injury or death. 16 GENERAL OPERATION • i Flamm able.Vapors Water heaters are heat producing appliances. To avoid damage or injury there shall be no materials stored against the water heater or vent-air intake system, and proper care shall be taken to avoid unnecessary contact (especially by children) with the water heater and vent-air intake system. UNDER NO CIRCUMSTANCES SHALL FLAMMABLE MATERIALS, SUCH AS GASOLINE OR PAINT THINNER BE USED OR STORED 1N THE VICINITY OF THIS WATER HEATER, VENT-AIR INTAKE SYSTEM OR IN ANY LOCATION FROM WHICH FUMES COULD REACH THE WATER HEATER OR VENT-AIR INTAKE SYSTEM. TO FILL THE WATER HEATER 1. Close the water heater drain valve by turning the knob clockwise 2. Open the cold water supply shut-off valve. 3. Open several hot water faucets to-allow air to escape from the system. 4. When a steady stream of water flows from the faucets, the water heater is filled. Close the faucets and check for water leaks at the water heater drain valve, combination temperature and pressure relief valve and the hot and cold water connections. TO DRAIN THE WATER HEATER Should it become necessary to completely drain the water heater, make sure you follow the steps below: 1. Rotate the thermostat dial clockwise /'�to the lowest possible position. 2. Rotate and partially depress gas control knob clockwise/�to the "OFF" position. 3. Shut off the gas supply to the water heater. 4. Close the cold water supply shut-off valve. 5. Open the drain valve on the water heater by turning the knob counter-clockwise The drain valve has threads on the end that will allow the connection of a standard hose coupling. 6. Open a hot water faucet to allow air to enter the system. To refill the water heater, refer to "To Fill the Water Heater." AWARNING Wait at least 2 minutes after this control is pressurized with gas before attempting to light pilot and/or push igniter button. Failure to do so may result in serious injury. 17 Lighting and Shutdown Instructions-White Rodgers and Robertshaw gas control. FOR YOUR SAFETY READ BEFORE- LIGHTING WARNING:if you,do not follow-these,instructions exadfly,a flie or explosion may result, causing property damage,personal injury or loss of life., A.This appliance has a pilotwhich is lit by a piezo-electric spark gas ignition system.Do not open the-inner door and attempt tolight tiler pilot by hand. B.BEFORE LIGHTING smell all around the appliance area for'gas.Be sural to smell-next to the floor because some gas is heavier"than air and will settle on the•fioor. WHAT TO DO IF YOU SMELL GAS. "Do not-try to light any appllance. 'Do not touch.any electric switch,do not use any phone In your building. 'Immediately call:your gas supplier from a neighbor's phone:Follow,the gas suppliers instructions. "If you cannot reach your,gas suppilee,call the fire department .C.Use only your hand'to.push In or tum the gas control knob.Never use tools.If the.knob will not push,in.or tum,by hand,don'#try'to repair it,calla qualified service technician.Force or attempted repair'may result in a firs or-explosion. D.Do not use'this,appiiance-[f any part has been under,water.Immedlately call a"qualified service technician to,inspect the appliance:and to replace any part of the control system and any gas control which has been underwater, LIGHTING INSTRUCTIONS' t._STOP( Read the•safety information, -8.Tum the•gas control knob counterclockwise label. to"PILOT"-positioo. 2.Set the thermostat to lowest"setting, 9a,FOR EXHIBIT A GAS CONTROLS- 3-Rotate and if-applicalble partially depress gas Depress and hold down'red pilot set button. control'knob clockwise�'j to"OFF"position. Immediately depress plezo Igniter button until you W CONTROL GAB CONTROL hear a°ellek"sound,-,then release. Continue to KNOB SHOWN INOB SHOWN IN 'wi-POsmON - roFF*Posrn6N hold down the pilot set'button;#or about'one(1) _ minute atieme pilotis lit.Relaase theTpilot set button and it should pop back up.'i'ilot should remain IN.if ft,goes•out,repeat steps-3 through 9. EXHIBIT A EXHIBIT B 9b,'FOR EXHIBIT B GAS CONTROLS- Depress.and hold.down gas control knob. NOM,On,exhibit B,knob cannot,be Immediately-depress plezolgniter button untilyou turned from"PILOT'to"OFF"unless,knob is hear a"click"sound ,then release.Continue to -depressed slightly:Do not force. hold dowry the knob for about one(1)minute 4.Wait five.(5)'.minutss,to clearput any gas. after the,p[lot isiit.Release the knob,and it Than smell for gas,including near the floor, should pop back up.Pilot should"remain lit If it - tf you smell.gas;STOPI Follow"W'in,the goes out,repeat steps 3 through'9. safety information above"on-this label. FOR EXHIBIT &B.GAS CONTROLS- If you don%smell gas,go to the next step. a If button or knob does not pap up,when 5.Remove outer INNEROWR released,stop;and Immedlately call-.your door. SIGHT GWS service technlclan or gas supplier. -B.Locate piezo j m C. a'if the pilot will not stay'lit afterseveral fries, igniter �" turn the gas control knob to"QEF"and call button. m C, your technician or gas supplier, 7.Look-Into sight 10.Replace outer door. glass window eisorRooe THm 11.Tum gas_contiol knob` on inner door C01f''� counterclockwlse>K to,"ON"posifion. ' to view pilot. BUR ESR 12,Set thermostat to desired setting. TO TURN OFF GAS"TO APPLIANCE 1.Set the thermostat dial to lowest possible setting. 2.Rotate and if applicable.partially depress-gas control knob clockwise/,'� to"OFF"position. 18 Lighting and Shutdown Instructions-Honeywell gas control. FOR YOUR SAFETY READ BEFORE LIGHTING WARNING: If you do not follow these instructions,exactly,a fire or explosion may result causing property damage,personal injury or loss of life. A.This appliance has a pilot which is lit by a piezo-electric spark gas ignition system.Do not open the inner door and attempt to light the pilot by hand. B. BEFORE LIGHTING smell all around the appliance area for gas.Be sure to smell next to the floor because some gas is heavier than air and will settle on the floor. WHAT TO DO IF YOU SMELL GAS. •Do not try to light any appliance. •Do not touch any electric switch;.da not use any phone in your building. • Immediately call your gas supplier from a neighbors phone.Follow the gas supplier's instructions. •If you cannot reach your gas supplier,call the fire department. C.Use only your hand to push in or turn the gas control knob. Never use tools. If the knob will not push in or turn by hand,don't try to repair it,call a qualified service technician.Force or attempted repair may result in afire or explosion. D.Do not use this appliance if any part has been under water.Immediately call a qualified service technician to inspect the appliance and to replace any part of the control system and any gas control which has been under water. LIGHTING INSTRUCTIONS 1. STOPI Read the safety information 7. Turn the gas control knob clockwise above on this label. /,'� to"PILOT"position. 2. Set the gas control knob to the"OFF" 8. Depress and hold in gas control knob. position. Immediately press igniter button until GA.SCONTROLKNOB SHOWN you hears"click"sound,then release. INTHE,oFF-POSITION Continue to hold down the gas control m 6T� knob until the status light blinks. Release the gas control knob. It should pop back out. Check to see if the pilot is ow still lit. if the pilot goes out,repeat steps IGNITER BUTTON 2 through.8. WHITE RED WIRE 0 If gas control knob does not pop out WRE° when released,stop and immediately o call your service technician or gas supplier. 1 Wait five(5)minutes to Clear out any • if the pilot will not'stay lit atter several gas. Then smell for gas,including near tries,tum the gas control knob to"OFF" the floor. If you smell gas,STOPi and call your technician or gas supplier. Follow"B"in the safety information 9. Replace outer door. above this label. if you don't smell gas, 10. Tum gas control knob to desired setting. go to the next step. 4. Remove outer INNER DOOR SIGFITGLASS pILOTBURNER THERMOPILE door. 5. Locate igniter:�3 t✓ a ELECTRODE button. ::� t✓ 6. Look through Z C sight glass window on Z ® C inner door to view pilot. TO TURN OFF GAS TO APPLIANCE 1. Tum the gas control knob counterclockwise� to the"OFF"position. 19 THERMOSTAT ADJUSTMENT - White Rodgers gas control. Approximately 0 120'F (48.9'C) Approximately 120-F (48.9'C) O Approximately O Approximately y�pgM 85-F (29.4 C) E cum M 85-F (29.4'C) _ U O O �� O Approximately 160-F (71.1'C) Approximately 160°F Control 180°F Control 180'F (82.2'C) Figure 2 The thermostat dial is set to its lowest temperature setting when shipped from the factory. Remember that lower temperature settings are more energy efficient. Adjust the temperature by turning the thermostat dial. It is suggested that the starting point setting not be greater than the"0" or"® " mark on the thermostat dial (approximately 120°F [48.9°C]) as indicated above. Rotate the thermostat dial clockwise/*'�to decrease the temperature setting. Rotate the thermostat dial counter-clockwise f"_�to increase the temperature setting. Adjust the dial until the minimum acceptable temperature is achieved (See figure 2 above for approximate temperature settings). Robertshaw gas control. L L U N I T R 0 LE ARNING U N I T R O L ® READ ALL INSTRUCTIONS Approximately ® READ ALL INSTRUCTIONS Approximately BEFORE UGHDN 120-F (48.9'C)UGKQ 120'F (48.9'C) BEFORE O VT WqN O PJT W Approximately r l��ti ® Approximately 0ti 1607 (71.1'C) �a� 180-F (82.2'C) a� Approximately ' N� Approximately 89F (29.4'C) 857 (29.4'C) 160°F Control 180°F Control Figure 3 The thermostat dial is set to its lowest temperature setting when shipped from the factory. Remember that lower temperature settings are more energy efficient. Adjust the temperature by turning the thermostat dial. It is suggested that the starting point setting not be greater than the "1" mark on the thermostat dial (approximately 120°F [48.9°Cj) as indicated above. Rotate the thermostat dial counter-clockwise f"�to decrease the temperature setting. Rotate the thermostat dial clockwise/"�to increase the temperature setting. Adjust the dial until the minimum acceptable temperature is achieved (See figure 3 above for approximate temperature settings). 20 THERMOSTAT ADJUSTMENT - Honeywell gas control Approximately 160°F(71.1°C) 71 wrtx u c ixtx�s�s e c `to ufmrMuarO � x04=L mPOW LM e MM mm met soma HIIW e.STATUS Approximately LOW PP& � 120°F(48.9oC) WHITE Approximately RED �= WIRE 55°F(12.7°C) o WIRE 160°F (71.1°C) Control Figure 4 The thermostat dial is set to its lowest temperature setting when shipped from the factory. Remember that lower temperature settings are more energy efficient. Adjust the temperature by turning the thermostat dial. It is suggested that the starting point setting not be greater than the"HOT" mark on the thermostat dial (approximately 120°F [48.9°C]) as indicated above. Rotate the thermostat dial counter-clockwise to decrease the temperature setting. Rotate the thermostat dial clockwise to increase the temperature setting. Adjust the dial until the minimum-acceptable temperature is achieved (See figure 4 above for approximate temperature settings). Approximately ' 180°F(82.2°C) IMM MH WATM 1b C Q t.-w �M"Smut Approximately o� 120°F(48.9°C) w°` WHITE ApproximatelyRED �= WIRE 75°F(23.9°C) o WIRE 180°F (82.2°C) Control Figure 5 The thermostat dial is set to its lowest temperature setting when shipped from the factory. Remember that lower temperature settings are more energy efficient. Adjust the temperature by turning the thermostat dial. It is suggested that the starting point setting not be greater than the"HOT" mark on the thermostat dial (approximately 120°F [48.9oq) as indicated above. Rotate the thermostat dial counter-clockwise�to decrease the temperature setting. Rotate the thermostat dial clockwise/"'�to increase the temperature setting. Adjust the dial until the minimum acceptable temperature is achieved See figure 5 above fora proximate temperature settings). 21 General Operation continued- 1 WARNING Hotter water increases the risk of scald injury. Scalding may occur within 5 seconds at a temperature setting of 140°F (600C). To protect against hot water injury, install an ASSE approved mixing valve in the water system. This valve will reduce point of discharge temperature by mixing cold and hot water in branch water lines. A licensed plumbing professional or local plumbing authority should be consulted. Note: This water heater is equipped with an energy cut out device to prevent overheating. Should overheating occur or the gas supply fail to shut off, turn off the manual gas control valve to the appliance and call a qualified service technician. Note: Whenever the water heater is filled with cold water, condensate will form on the cool tank surface and drops of water will fall on the hot burner and combustion chamber surfaces producing a "sizzling" noise. Condensation is normal and does not indicate a leak. It will disappear when the tank becomes heated. BURNER FLAME CHECKS Steel Burner: These models are equipped with self adjusting air mixture and do not have an adjustable air shutter (See Figure 6). At periodic intervals, a visual check of the main burner and pilot flames should be made to determine if they are burning properly. The main burner flame should light smoothly from the pilot. 0V PILOT IN OPERATION NATURAL GAS LP GAS STEEL BURNER STEEL BURNER Figure 6 A WARNING Do not run out of propane gas. Damage to the water heater may occur. 22 MAINTENANCE - d _ d Flammable Vapors 1 Water heaters are heat producing appliances. To avoid damage or injury there shall be no materials stored against the water heater or vent-air intake system, and proper care shall be taken to avoid unnecessary contact (especially by children) with the water heater and vent-air intake system. UNDER NO CIRCUMSTANCES SHALL FLAMMABLE MATERIALS, SUCH AS GASOLINE OR PAINT THINNER 1BE USED OR STORED IN THE VICINITY OF THIS WATER HEATER, VENT-AIR INTAKE SYSTEM OR IN ANY LOCATION FROM WHICH FUMES COULD REACH THE WATER HEATER OR VENT-AIR INTAKE SYSTEM. IMPORTANT The water heater should be inspected at a minimum annually by a qualified service technician for damaged components and/or joints not sealed. DO NOT operate this water heater if any part is found damaged or if any joint is found not sealed. The following maintenance should be performed by a qualified service technician at the minimum periodic intervals suggested below. In some installations, the maintenance interval may be more frequent depending on the amount of use and the operating conditions of the water heater. Regular inspection and maintenance of the water heater and vent-air intake system will help to insure safe and reliable operation. 1. Annually check the operation of the thermostat. 2. The flow of combustion and ventilation air MUST NOT be restricted. Make sure slots in jacket are open and unobstructed. Clear jacket slot openings of any dirt, dust, or other restrictions. WARNING! The ventilation air system may be HOT. 3. At all times keep the water heater area clear and free from combustible materials, gasoline and other flammable vapors and liquids. 4. Bi-annually conduct a visual check of the main and pilot burner flames to determine that they are burning properly. See Burner Flame Check section of this installation and operation manual. If sooting or other burner anomalies are evident, shut down the water heater by turning off the gas per the instructions listed in this manual or as listed on the water heater. 5. Annually remove the inner door and main burner assembly to clean orifices and related parts of any dirt or other foreign material. Inspect the burner ports for obstructions or debris and clean with a wire brush as needed. Wire brush and/or vacuum clean the combustion chamber as needed to remove scale deposits and debris. NOTE: It is imperative for proper operation of the water heater that the inner door be replaced in the original location, making certain the resetable thermal switch is properly connected to the gas control wire leads provided. 23 Maintenance continued- 1 - -Do not operate water heater with jumpered, altered, loosely tightened or absent controls and/or components. -Do not operate water heater with replacement controls and/or components, which are not exact duplicates or original equipment. -Thoroughly inspect and replace, (as needed) burner inner door gasket and/or sight window gasket any time burner inner door is removed or disturbed. • Replace water heater if involved in flammable vapors incident. 1 - When lifting lever of the combination temperature and pressure relief valve, hot water will be released under pressure. Be careful that any released water does not result in bodily injury or property damage. 6. At least once a year, check the combination temperature and pressure relief valve to insure that the valve has not become encrusted with lime. Lift the lever at the top of the valve several times until the valve seats properly without leaking and operates freely. AWARNING Do not run out of propane gas. Damage to the water heater may occur. AWARNING FTHI—SWATER MAY BE HOT. 7. Monthly drain off a gallon of water to remove silt and sediment. 8. If the combination temperature and pressure relief valve on the appliance discharges periodically, this may be due to thermal expansion in a closed water supply system. Contact the water supplier or local plumbing inspector on how to correct this situation. Do not plug the combination temperature and pressure relief valve outlet. 9. A combination sacrificial anode rod/hot water outlet nipple has been installed to extend tank life. The anode rod should be inspected periodically (every 2 years) and replaced when necessary to prolong tank life. Water conditions in your area will influence the time interval for inspection and replacement of the anode rod. Contact the plumbing professional who installed the water heater or the manufacturer listed on the rating plate for anode replacement information. The use of a water 24 Maintenance continued- softener may increase the speed of anode consumption. More frequent inspection of the anode is needed when using softened (or phosphate treated) water. 10. The vent system must be inspected at least once a year to ensure against leakage of exhaust products. 1 CAUTION FOR YOUR SAFETY, DO NOT ATTEMPT REPAIR OF COMBINATION GAS CONTROL, BURNERS OR GAS PIPING. REFER REPAIRS TO A QUALIFIED SERVICE TECHNICIAN. Contact your supplier or plumbing professional for replacement parts or contact the company at the address given on the rating plate of the water heater. Provide the part name, model and serial numbers of the water heater when ordering parts. READ THE WARRANTY FOR A FULL EXPLANATION OF THE LENGTH OF TIME THAT PARTS AND THE WATER HEATER ARE WARRANTED. Manufactured under one or more of the following U.S. Patents: RE.34,534; 131 5,341,770; 4,416,222; 4,628,184; 4,669,448; 4,672,919; 4,808,356; 4,829,983; 4,861,968; 4,904,428; 5,000,893; 5,023,031; 5,052,346; 5,081,696; 5,092,519; 5,115,767-, 5,199,385, 5,277,171-,5,372,185; 5,485,879; 5,574,822; 5,596,952; 5,660,165; 5,682,666; 5,761,379; 5,943,984; 5,954,492; 5,988,117; 6,142,216; 6,395,280; 6,684,821; 7,063,132; 7,007,748 Other U.S. and Foreign patent applications pending. Current Canadian Patents: 1,272,914; 1,280,043; 1,289,832; 2,045,862; 2,092,105; 2,107,012; 2,108,186; 2,112,515 Complete the following information and retain for future reference: Model No: Serial No: Service Phone Days: Nights: Address: Supplier: Supplier Phone No: 25 TROUBLESHOOTING CHART LED Status Control Status Probable Cause 1. Gas valve is functioning None (LED not on or Millivolt power is not normally flashing) present. Light pilot. 2. Gas valve is not powered. Light pilot If set point knob is in Gas valve is powered and waiting One flash and three "PILOT" position then pilot for the set point knob to be turned second pause. flame is detected. (no to a water temperature setting. If faults). the set point knob is at desired setting the thermostat is satisfied. LED strobe (two quick Thermostat calling for Meat flashes) and three second (no faults) Water heater operating normally. pause Set point knob has been Set point knob was recently turned LED on continuously. recently turned to the to "OFF" position. Wait until LED "OFF" position. goes out before attempting to relight Two flashes and three Weak pilot flame detected. 1. Unstable pilot. second pause. System will reset when 2. Pilot tube blocked or pilot flame is sufficient. restricted. Three flashes and three Insufficient water heating. 1. Temperature sensor out of second pause. System will reset. calibration. 2. Possible short. Four flashes and three Excessive tank 1. Temperature sensor out of second pause. temperature. System must calibration. be reset. 2. Faulty gas valve. 1. Damage to the temperature wire. 2. Temperature sensor resistance out of range. 3. Replace temperature sensor. 4. If temperature sensor Five flashes and three replacement does not correct second pause. Temperature Sensor fault. the problem; Verify control is not wet or physically damaged 5. Turn set point knob to "OFF" position. Turn set point knob to "PILOT" position and light pilot. 6. Replace gas valve if five flash error persists. 26 TROUBLESHOOTING CHART(CONTINUED) LED Status Control Status Probable Cause Six flashes and three Water leak detected by Excessive amount of water in drain secondause. accessory module (some p odels) pan/water dam. 1. Verify control is not wet or physically damaged. 2. Turn set point Knob to "OFF" Seven flashes and three Gas valve electronic fault position. Turn set point knob second pause. detected. to "PILOT" position and light pilot. 3. Replace gas valve if seven flash error persists. 1. Pilot valve stuck in open position Eight flashes and three 2. Turn set point knob to "OFF" second pause False pilot flame present. position. Turn set point knob to "PILOT"position and light pilot. 3. Replace gas valve if eight flash error persists. 27 INBTALLATrON FOR POTABLE WATER 1/4" RISE PER FOOT -VENT CONNECTOR(S) (2.1 CM/M) (MINIMUM) TO CHIMNEY HOT WATER OUTLET MANUAL SHUT—OFF TO FIXTURES UNION VALVE (MUST BE OPEN DURING WATER HEATER OPERATION) UNION COLD WATER SUPPLY COMBINATION ANODE—HOT WATER OUTLET FITTING DRAFT DIVERTER GAS SUPPLY TEMPERATURE AND PRESSURE + RELIEF VALVE MANUAL GAS SHUT—OFF RELIEF VALVE DISCHARGE VALVE LINE PIPED TO SUITABLE OPEN DRAIN TERMINATED 6" (15.2cm) ABOVE DRAIN UNION DRAIN VALVE DRIP LEG DRAIN PAN (PIPED TO DRAIN AS ILLUSTRATED) CAP OQp O� OD GAS CONTROL VALVE 6" (15.2cm) JACKET (OUTER) DOOR CEO -T Figure 7 28 PARTS LIST DRAWING 2 o O . o 3 5 6 7 B 0 � 8 4 0 � O p O 9 15 19 16 20 17 21 18 22 10 23 14 12 �. C=C= 0 11 0 13 3 29 PARTS LIST :v�;.a.-,.y,£.yy "-�•�%+w"x'3`�;."'C���s`� ..,�_t .,�<1" }T�x r�r;^:,.,- ->��r„s�_.=�_'�".`sY ,T;=���/�y''..«5�.�`;-'Tu -, -=�y�x�it-- c=`"Aryy.` ' eYLrf1 7xi`\ �T 'i1c�`Y�d��Y 'v :'has-.,�; i.3-�s�.,1f` ,..,f��. `i.;� aH :.xkr Y t,�, rxs.... ;,�, =.i,,,a„ 'y. .�a �.< ., [v,?� a,x_. AM „ :Y+ 1. Draft Diverter 14. Drain Valve 2. Jacket dead Pan 15. Piezo Igniter 3. Jacket 16. Gas Control Valve 4. Outer Door 17. Steel Burner 5. Magnesium Anode—Hot Water Outlet 18. Orifice 6. Flue Baffle Assembly 19. Gas Feedline to Burner 7. Dip Tube—Cold Water Inlet 20. Gas Feedline to Pilot 8. Temperature and Pressure Relief Valve 21. Thermocouple/Thermopile Lead 9. Glass Lined Tank 22. Piezo Igniter Lead 10. Combustion Chamber Assembly 23. Pilot Assembly 11. Jacket Base Pan 12. Inner Door Gasket 13. Inner Door Assembly 13A. High temperature limit switch 30 THE FOLLOWING INSTRUCTIONS ARE FOR INSTALLATION OF: GAS WATER HEATERS SUITABLE FOR WATER (POTABLE) HEATING AND SPACE HEATING 1. All piping components connected to this water heater for space heating applications must be suitable for use with potable water. In Massachusetts, space heating piping length must not exceed 50 feet. 2. Toxic chemicals, such as those used for boiler treatment, must not be introduced into potable water used for space heating. 3.. This water heater must not be connected to an .existing heating system or component(s) previously used with a non-potable water heating appliance. 4. When the system requires water for space heating at temperatures higher than required for other means, such as an ASSE approved mixing valve must be installed to temper the water for those uses in order to reduce the scald hazard potential. Please refer to figure 8 and figure 9 for suggested piping arrangements. VACUUM BREAKER ASSE APPROVED ASSE APPROVED COLD WATER MIXING VALVE VACUUM BREAKER MIXING VALVE COLD WATER }SUPPLY 'SUPPLY SHUT-.OFF VALVE SHUT-OFF VALVE TEMPERED POTABLE WATER TEMPERED SUPPLY TO RETURN FROM 'POTABLE WATER HEAT EXCHANGER ` HEAT EXCHANGER SUPPLY TO 'HEAT EXCHANGER RETURN FROM HEAT EXCHANGER O O 00 00 00 10 00 0 00 0 00 00 0 00 0 00 00 Figure 8 Figure 9 31 NOTES 32 .+. i.t,' uS'>•'Te ±aE.;.r' ,. ty1s',,4 tt` •'f^; + fK-,w.�a"`��:,:�1`•.t:c. _ .. ;`': .4C; ^P +;vz:x t^i.:>>�t`"-•,t..;'.°rM" ;. �"�'�,'�.. i{'�.` �a1�n'.�F��La�A.: "•'t"s-'=�'�^"..'`z'.7,��'``3'`-`�:%+`:�"`,6,'x��•_�,"�.,,;.%tfffi;�eay�u�"f"r•.x.;a.,a y.,.•.•a_r_e ,::j?•,�tsh �t:�;nx..'�f�;.'.a... . , � � d z..�°.:.y.•.z; ,,-.��,= ��..:?:?¢?;'S°fi �K`. ��•'t'`' vtv..'m j,.'...�`"°;;rS'-'_4',.;�n.r^�':.e:?'s�.}y"-,7�;s;��>•t "x.,.r _k "It:t+`,«.. ;et°=.'t y., :.+�`Y.x +d,. S ..,n„a,•x•:� -,..<s ` :.•� . a y ffi GSU 3 ;gag I 13 SEER SPLIT SYSTEM AIR CONDITIONER COOLING CAPACITY 18,000 - 57,000 BTUA Standard Features • Energy-efficient compressor . • For use with R-22 refrigerant;charged ' with inert gas for shipping ^' r • R-22 piston kit includedt " ¢, Quiet condenser fan system Copper tube/aluminum fin coil Liquid refrigerant return protection Ir +'• Factory-installed liquid line filter dryer = Service valves with sweat connections and I •a'r= ' easy-access gauge ports t Contactor with lug connection Ground lug connection K. ETL Listed ' { Cabinet Features Louver design sound control top Steel louver coil guard - • Heavy-gauge,galvanized-steel cabinet with rust- s resistant screws Attractive Architectural Gray powder-paint finish : � t A with 500-hour salt-spray approval u�uq=ykra Single-panel access to controls with space provided for field-installed accessories When properly anchored, meets the 2001 Florida Building Code unit integrity requirements for hurricane-type winds (Anchor bracket kits available.) Contents ` zt ^3 Nomenclature....................................................................2 Product Specifications Expanded Cooling Data.....................................................4 Performance Ratings ......................................................18 giwDimensions......................................................................18 '} Wiring Diagram ...............................................................19 Accessories.......................................................................20 r.TT.�"^�i.rn's•J1 ,,},y,t.`sr t�+„• *Complete warranty details available from your local dealer or at www amana-hac.com ..•}•,,"'"+*.--ar': .:5'vt""',a"-';'?'%i�a�'-',.'.e't<�-;"°^=tifd'`.d7`as•R c5+ ;1t, '•ia „ey '"yr��y :,'o".F. 7:'li� ' ";, a.- .4, •.;fi.r :+l'�> x.Y a` � lqM= +•, 4'.:�=}�x+ "' 'k:. �.�a�y,.�• S c S.?4 e!r”,>t�„ „• s v.��,:..,y�; Y :��.. S�,C'v ;(.1f s~t..v, :>7k�.i�+, -.r-.w...?�� J•r s.c-': ;�'jF4 n tSi;rei'tt ntii5nais5uadgmais,otrtsytggcopioraiidtaritsiclatgc in�ag5� ved d .Cs, r t v[_ a�.'�'f=3":^,'r>i:'r" '-^=?4!. ".'#:> ,{. x.•r .+ .�F,^ �,�.'�✓7' �^.nar.}�"` i .!7.,M>:� �,w}�''"� -t d ''+ 'r�,° t r�' ..'' �, Z: _,;*=�xi:..:f;';x`r';.i.:2��r:.e2i:1.�r^f'..__..r........._..,.:i...:.:.: .:Z,.1;..�.z•.s'_:;�:.,'�.s''.:,i.svSd.�c�'i.'arzr."' I Heating&Air Conditioning INDOOR COILS AF M anar C4 UF, C4 PF G4PT, CHPF,AND OU -- - -- - -- --- -- --- - -- - ----- - - ----- -- CASED, PAINTED UPFLOWIDOWNFLOW, UNCASED UPFLOWIDOWNFLOW, HORIZONTAL "A,AND HORIZONTAL SLAB F , tandardFeatures s R AlI-Aluminum evaporator coil CALIF " • Optimized for use with R-410A refrigerant Y•n Uncased * • Some models suitable for use with R-410A or R-22 refrigerant • CAPT models feature factory-installed Y thermal expansion valves for cool- r�:=. ° g.,; inand h irtw:�,;,t>�• �`" .-� CAPF eat pump applications Cased • Check flowrator for cooling and F' heat pump applications #" * • Vertical and horizontal models available 21"depth for easier attic access I CHPF Split seam front for easy access ; Horizontal`rA'r Foil-faced insulation covers the internal j 'k casing to reduce cabinet condensation • Galvanized,leather grain-embossed finish Rust resistant,thermoplastic drain pans ys= � featuring a low water-retention design DecaBDE-free thermoplastic drain pan + with secondary drain connections • UV-resistant drain pan ` APT AHRI certified;ETL listed Cased with Internal TXV CSCF Horizontal Slab Note: Do not use these coils on oil furnaces or any applications where the temperature on the drain pan may exceed 300°F If these coils are applied with an oil furnace or another application where high tempera- tures threaten or jeopardize the durability of the drain pan,you must re- place the factory-installed drain pan with a high-temperature drain pan High-temperature drain pan kits are available as field-installed accessories I I , o i cow y. intertek er'! 'Complete warranty details available from your local dealer or at wwwamana-haccom To receive the 10-Year Parts Limited Warranty,online registration must be completed within 60 days of Installation Online registration Is not required In California or oudbec SS-AColl www amana-hac com 9/16 Amana'Is a trademark of Maytag corporation or Its related companies and used under license to Goodman company,L P,Houston,Texas Supersedes 3/16 GAS-FIRED WATER HEATER A Spa language version of these instructions is available by contacting the company listed on the rating plate. La version espanola de estas instrucciones se puede obtener al escribirle a la fabrica cuyo nombre aparece en la placa de especificaciones. INSTALLATIONOPERATING INSTRUCTION • Flammable System EquippedWater Heater WARNING: If the information in these instructions is not followed exactly, a fire or explosion may result causing property damage, personal injury or death. FOR YOUR SAFETY -Do not store or use gasoline or other flammable, combustible, or corrosive vapors and liquids in the vicinity of this or any other appliance. - WHAT TO DO IF YOU SMELL GAS Do not try to light any appliance. • Do not touch any electrical switch; do not use any phone in your building. • Immediately call your gas supplier from a neighbor's phone. Follow the gas supplier's instructions. • If you cannot reach your gas supplier, call the fire department. - Installation and service must be performed by a qualified installer, service agency or the gas supplier. For your family's comfort, safety and convenience, we recommend this water heater be installed and serviced by a plumbing professional. �, `",'fir°=•;-f-d4':-,.F"" i�: •-a• ,.,e,-.: -":�„-...� s Flammable Vapors 238-44219-OOK REV 6/12 tU __.___...__..... ... _. ..._. - ...__. _-._._.. ._. _. .__._ w . _..__•.- __..�.... _ _ ____-._. _.-. 1. f I + i • � � � ;�k-$.-���T"y KIS I - — �J `f I i h�,AlOCCUPANCY OR USE IS UNLAWFUL WITHOUT CERTIFICAT NPROD AS NOTED OF OCCUPANCY DATB.P.# SZ_ Ad idond FEE: BY:. -: c� ���""^tion I NOTIFY BUIL01HG FjL, ...MENT AT uire& � 765-1802 8 AM TO 4 PM FOR THE �;� � " c� FO:.I_C'';ING INSPECT j 1. FOUNDATION - TV, '-iEQU!RED FOR PC' GC,,.%El E �FT/Xl STORM WATER RUNOFF 2. ROUGH - FPA : PLUMBING PURSUANT TO CHAPTER 3. INSULATION QF WE TOWN CODE. 4. FINAL - !':." :,)l MUST BE COMt 00.0, ALL CONSTi i :''I SHALL MEET THE PL:Un 9'N.7 REQUIREMEN.5 OF THE CODES OF N_W ALL P LU'.i7. • ; vVA r YORK STATE. NOT RESPONSIBLE FOR f ;&VAT& =-S NEED ! DESIGN OR CONSTRUCTION ERRORS. TtSTING BE: rE COVE;, I -- COMPLY WITH ALL CODES OF i NEW YORK STATE & TOWN CODES -_--_-_ r' CONC�I-,ONS F � .�_-.__..,�._.�_..__ . .,__ -�_.--...:..._AS REQUIRED ± SwIM OWN ZSA N.Y.S.DSC 77 PLUMBER CEF7 lF 1�;!',-`.'0,rV i -3T a ON I:EAD CONT i r " "r3E �:, ;� SICS4 CERTIFICATE OF " ,_j.' ANCY SOLDER USEh I:` - r ER SUPPLY -Sur APPROVED BY: DRAWNWY-111 DATE REVI8ED -DRAWING UMBER I � I f i I i i _ __ '��C�-STC-�►=�4 �c c..w , � ___-__._ .�_`. C_..,.� • _ w s k; jj ---- �n7A Y� a,1J .� __ 45 i vUcuI SCALE: -v APPROVED BY: DRAWN B DATE Y fx = - - REVISED : T'r"-- DRAWING NUMBER