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9509-026 (SFD)
LICENSED CONTRACTOR DECLARATION I hereby affirm that I am licensed under provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professionals Code, and my License is in full force and effect. 562506 3/31/97 License # Lic. Class Exp. Date Date Signatureof Contractor OWNER -BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for the following reason: ( ) 1, as owner of the property, or my employees with wages as theirsole compensation, will do the work, and the structure is not Intended or offered for sale (Sec. 7044, Business & Professionals Code). () I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044; Business & Professionals Code). O .I. am exempt under Section B&P.C. for this reason . Date Sig atureoia+ nei WORKER'S COMPENSATION DECLARATION I hereby affirm under penalty of perjury one of the following, declarations: ( ) "1 have and.will maintaln a certificate of consent to self-insure'for workers' compensation,as provided for".by..Section* 3700 of the Labor Code, for the performance of the:worli for which this permit is issued. O I -have and will meintein,woikers' compensation.insurancer.as required.by Section 3700 of-the.Labor Code,'for the performance of the" work for.which this permit is issued.` My workers' compensation insurance carrier' & policy no. are: Carrier RTpTJR'trNn Policy -No. 11 (This section need not be completed;if.ths permit valuation Is for:$100:'00 or less). . O I certify thatin the performance of the work .for which`this permR is issued, V shall..not'employ.any, person in any -manner so` as to become subject to'the' workers' compensation laws "of California, and agree that if I should become subject to the workers' compensation provisions of Section 3700 of.the Labor Code,1 shall forthwith comply with those provisions. Date: Applicant J Warning: Failure to secure Workers' Compensation coverage is unlawful and shall subject an employer to criminal penalties and civil fines up to $100,000, in addition to the cost of compensation, damages as provided for in Section 3706 of the Labor Code, Interest and attorney's fees. IMPORTANT Application is hereby made to the Director of Building and Safety for a permit subject to the conditions and restrictions set forth on his application. 1. Each -person upon whose behalf this application is made & each person at whose request and for whose benefit work is performed under or pursuant to any permit issued as a result of.this application agrees to, & shall, indemnity & hold harmless,the City of Indian Wells, its officers, agents and employees. 2. Any permit issued as a result of this application becomes null and void if work is not commenced within 180 days from date of issuance of such permit, or cessation of work for 180 days will subject permit to cancellation. I certify that I. have read this application and state that the above information is correct. I agree to comply with all City, and State laws relating to the building construction, and hereby authorize representatives of this City to enter upon the above-mentioned property for inspection purposes. Signature (Owner/Agent) Date— ALC 0 ate ALS. BUILDING PERMIT � PERMIT26 DATE VALUATION LOT 3 TRACT IJLK. 174 JOB SITE ADDRESS 5"" Avenida Obregon 774-045-pp3 7744)"3 OWNER CONTRACTOR FARACY CONSTRUCTION FARACY CONSTRUCTION 81-824 TRADER PLACE #C 53-040 Avenida Obregon INDIO CA 92201 INDIO CA 92201 (619)775-1760 CBL# (619)775-1760 OESIGNEWENGINEER USE of PERnINGLE FAMILY DWELLING PERMIT DOES NOT INCLUDE BLOCK WALLS OR POOL. FEE DESCRIPTION FEES TRACT CONSTRUCTION 11592.00 SF PORCWPATIO 114:00 SF GARAMCARPORT. 498.00 SF ESTIMATED COSTOF CONSTRUCFION 97,722.fli0 PERMIT FEE SUMMARY ` CONSTRUCTION FM` 1014000-418-000 $630.50 MECHANICAL FEE. 1014000-421-000 $53.50 ELECTRICAL FEB 1014000-420-000 $129.18 PLUMBING FEE 1014000-419-M $139.30• PLAN CIIF,CK FEE 1014000439-318 $531.35 STONG MOTION FEE - RESID 100-000-241-000 $9.77 GRADING FEE 1014000-423.000 $20.00 INFRASTRUCTURE FEE 225.000-443-342 $2.164.64 PRECISE PLAN 101-000-441-345 $25.00 FEE DEPOSIT -$230.00 SUB -TOTAL CONSTRUCTION AND PLAN CHECK $3,703.44 LESS PRE -PAID FEES -$250.00 TOTAL PERMIT FEES DUE NOW 53,453.44 TOTAL PROJECF PERMIT FEES 3,703.44 RECEIPT DATE BY DATE RNALED INSPECTOR `DESERT'SANDS UNIFIFbSC'HOOL DISTRICT . '8M7.9,.HighwdY ill NOTICE: Indio, -':CA, 92201 A Document Cannot Be Duplicated, 619-775-3500 Date 10/20/95 Type of Permit La Quinta No. 13785 Permit # Log Owner Name Michelle Fafdcy No'. 53-040 Street Ave. 0 egon, City La Quinta Zip ,92253'_ Study Area 111 APN # F77-4-045-003 1 Tract Lot # D j Square uare Footage 11592 Type of Development Single 'Rimily,Residence No. of units Comments At the. 'ps resent time, the Desert Sands Unified School,.�bi trict,does not collect fees on garages/carports, covered patios /walkways;` residential addition s. under 500 square feet, detached accessory structures or replacement rnobileh6mes. It has been determined the above-named owner is exempt from p a-y'ing.'eschool. fees at this. time due to the following reason: EXEMPTION NOT. APPLICABLE This certifies that school facility fees imposed pursuant to :G6vern' 6nt Code 53080 in the amount of 1 72 X 1592 or 4,73824 have beenp aid, to D.S.U.S.D. for the prop erty. listed'abo've' and, that building . permits and/or Certificates of -Occupancy for this square footage inAhis'proposed, roj be'llss'p-pd. p e�c Fees Paid By, Faracy-Constkuction.: Telephone 775-1760 Nitii6 on the 614e'._k By Dolores A. Balleste.ros Superintendent,.. Fee collected empted by FAen, Patino.,, Payment Received Signature $2,738.2 4,Check No. 1998 Collector: Attach a copy of county or city�plan check application form to district copy for all waivers. Embossed Original- Building D&pt./Apphcant Copy - Applicant/Receipt Cop'.- Accounting Copy 4 4 78-495 CALLE TAMPICO - LA QUINTA, 'CALIFORNIA 92253 - (619) 777-7000 FAX (619) 777-7101 February 20, 1996 Faracy Construction 81-824 Trader Place #C Indio, CA 92201 Dear Mr. Faracy: Please be advised of an address change for the following structure. The structure formally addressed as 53-040 Avenida Obregon, APN#774-045-003, lot 3 block 174, will now be addressed as. 53-050 Avenida Obregon. Please note this change and feel -free to contact me if I may be of further assistance. Thank you. Sincerely, BUILD G & SAFETY DEPARTMENT Ke ly Tr pple Counter Technician MAILING ADDRESS - P.O. BOX 1504 - LA QUINTA, CALIFORNIA 92253 �'�J `0•CT-13-05 FRI-03:24 PM FAM ILIAN PALM SPR INGS .6-7) 13 Highest Recovery 12(High Recovery 13 Standard Recovery 9 M4 125 155 .,-155 175 zi A H U 8 .FAX- NO. '6193 289859 P, 01 Ell Double Insulation (816.7) i4Sin gle Insulation (R8.3) VEnergy Saver To lower - operating cost for the homeowner, see the High Recovery/R16.7 model. SPECIFICATIONS (dimensions shown in inches) R 3`11, 11 L Via' Fig �W mno W T���r�\K"j. p, Iff G51 -29T40 -3N T611 29 40,'000 .40.5 40.5 .58 G51 -40540-3N Short A 40,000 AO 1 000 40.4 40.4 .56 G51 -40T40 -3N Tall 40 40,000 40,000 40.5 40.5 .56 G51 -40T46 -4N Tall '40 46,000 46f000 46.6 46.6 56 G51 -50T50 -4N Tall 7%%'w 50,000 50,000, 50,7 50.7 .5 R 3`11, 11 L Via' vv V W �W "a" T���r�\K"j. p, Iff Y R, "'A ve _A B C H J K 591/A 16 56 121/2 513/8, 56 3 125 513/4 20 48'/2. :_' °;':,12'/2 -1 21&� -.42 - -N" A81/2- I .-3,. - 135 .1 c -'61 31A - % --------- z7" -5 8 -1/i 3 I— Vic. -�7- A 0 - OCT -13-95 FRI 03:26 PM FAM I L I AN'PALM SPRINGS FAX NO.,,6193289859 *UNITS DO NOT FALL UNDER SCOPE OF N.A.E.C.A. Estimates are based on a National Average of 60.54 cents per therm. Energy Factors provided from the 1993 ,LAMA Directory, Ener y Factors show the overall efficiency of a partic0lar product combining standby wo Ei H UN 0 go R8.3 STANDARD G51 -30530-3N 53 48 42 .58 $156 G51 -40533-3N 62 56 50 .56 $162 G51,40T34-3N 54 49 43 .58 —$156 G51 -50T40 -3N 79 71 63 .54 $168 R8.3 HIGH RECOVERY G51 -29T40 -3N 62 56 50 .58 -$-156 G51 -,405,40-3N 62 56 50 .56 $162 G51 -40T40 -3N 69 62 55 .56 $162 G51-40T46,4N 74 67— 59 .56 $162 G51 -50T50 -4N 87-- 78 70 .54 $168 R 16.7 HIGH RECOVERY G52 -29T40 -3N 62 56 50 62 $146 G52 -40540-3N 62' 56 50 5-8 —$156 G52 -40T40 -3N 69 62 55 .60 $151 G52 -40T46 -4N 74 67 59 .60 $151 R 16.7 SUPER EAGLE G52 -40T60 -4N 86 77 69 .58 $156 156G52-5OT63-4N G52-50T63-4N 95 86 76 .58 $156 G52 -75T80 -4N 139 125 Ill *.48 $189 G52 -100T88 -4N 165 149 132 *.44 $206 R8.3 NAUTILUS SCG51-40T38-3N 72 65 58 60 -$151 5CG51-50T40-3N 81 73 65 .59 $154 R 16.7 NAUTILUS SCG52-40T38-3N 72 65 58 .62 $146 SCG52-50T40-3N 81 73 65 .60 $151 R 16.7 POWERFLEX PVG52-40T50-3N 74 67 59 60 $151 PVG52-50T63-3N 103 93 82. .58 $156 PVG52-75T80-3N 139 125 111 *.48 $187 *UNITS DO NOT FALL UNDER SCOPE OF N.A.E.C.A. Estimates are based on a National Average of 60.54 cents per therm. Energy Factors provided from the 1993 ,LAMA Directory, Ener y Factors show the overall efficiency of a partic0lar product combining standby wo Ei will e i 16:05 INTERNATIONAL WINDOW _ !S' 'rJ � ./ 1'17 t i.. .� 'iJ:,. '.%:•:^wi.,,.:. ,,y, . ^ :f,:?':`,1j"w...�:.... INTERNATIONAL WINDOW CORPORATION I"Imnatignu I Aluminum 00rPOrNlon CALIFORNIA ENERGY COMMISSION DEFAULT U _VALUE Aluminum • 7/1s' Low. With Window Single Air E desig- a NON. NOW Glaze Grids nation O a. RESIDENTIAL RESIDENTIAL RfS10ENTIAI RESIDENTIAL space Glass HORIZONTAL .25 • SLIDER • 2 't 0.82 -, 3 0.82 0.77 • • SINGLE • • HUNG 4 0.92 0.82 - 6 0.87 0.77 6 • PROJECTEO 7 1 28 1 ,28 _ 8' 0.87 0.87 • CASEMENT 9 0.82 0`82 • 10 0.92 0.87 �. 11 0.87 0.82 > �4 , •. • El 12 • FIXED 13 1.19 1.19 • Y' • 14 0.72 0.72 15; 0..67 0.66 • • O 16- 0.77 0.72 • • 72 0.86 n. • • • -� 22 0.82 0.78 23 0.77 0.69 ., ' • • • 24 • GREENHOUSE 2J (3 1.,55 • WJNOOW9 • .71-45 0.94 7 1.35 0.86 • • !� 28 1.45 0.94 • • 29 1.40 0.86 • • 4P Manufacturer certifies U -Value rating was determlried in accordance with California Energy Com mission approved default tables, and complies with air infiltration requirements of Title 24, section 116 (a) 1; 1992 California Energy, Efficiency Standards. 21F."i(i riti� 'ids?i�iE:•:�4Fi iJt:'c.!Y' TOTAL P.02 • Q W S° 0 ,DOORS CjJt'IOULDING ouornT>ION. w l ' DOW i x 63.183 RIV. (909)784.2020 Fex (909)1684 8384 G•CAM (805) 484 7939 Fax (805) 482 2�r1 ` No.. G S.D. (619) 593 2585 Fax (619)?593 2598° LO,SAC (916) 381y7330Fgx (918) 381 5004, ",O 1RV +(714)474=MO Faz (714)''474 1054 CUS76mi R - — — f� i. J 4r: J�1 CA _ DATbuo E : -AEOUBTEO By; FORT `RECUIREO _ POR!DELNERY )08 NAME QUOTED—t- PHONE NO. w- �aXEO BACK O PMO'`1E0'BACK ;MAILED _ . �• QUAN• OESCRIp710N N; . UNIT -:PRICE h oZZ This quotation is not an offer to sell and should not be relied on unless and until you;place,a written ord& with Cobb and the order is accepted in writing by_Cobb.'This quotation notwithstanding,`Cobb may,,accepf or reject your order at its sole discretion. Prices are firm for 30 days from date�of this quotation, unless otherwise stated " . 1.� THANK YOU' -FOR CALLING T M, r-6. ! MPAT�NY� ��T q�sT+ M 334PY 11� ~h�m 0Heating A Coating Systaims ' -- -- __......... ........ _........ _ � ! / The FA4A,,1FB4-A-,,! and FC4B direct. expansion fan coils are de- signed to cover awide range of air handling requirements. They .Air Handling Technology At Its Finest . , crawlspace, attic, utility room, or closet. All units -come with, solid�state power board controls, 1 -.1 in�tdff� skiA insulation with an Rvalue of 4.2, super -quiet multispb6d"r tors, and fully wettable coils. Units can accoi �-i r�-,-or field -installed heaters from 3 to 30 kw. 0 The FA4A is the residential new . '- mo- tors ^'"'"^^ through "^" sizes, and .3 -speed motors in 042 through 080 sizes. The FA4Ais equipped with uChoohFlo'HuterOmeter- ing "e,~=. ThnFB4A is the standard fan nized steel casing and has a 3 -speed motor in the full range of sizes 01 8.through.070. All FB4A units are equipped with a Check- Flo-Rate� metering -device and are also shipped with a cleanable, permanent frarK6d filter. The:!FC4B is the deluxe design in the fan coil group. It incorpo- rates -all the features found in the F134A. In addition, it has a hard shut-off thermostatic expansion valve (TXV) metering device with internal check valve for mvamolow bypass capability. The FC48 is available in sizes 024 through 070. UNIT CONNECTION SIZES 7�a D. (22.2) K.O.• . CONDENSATE DRAINS ata FPT HORIZONTAL -A' COIL APPS: 3/4 FEMALE PVC FOR LOW VOLTAGE GLUE JOINT VIA FITTINGS PROVIDED .(47:6)..ta,;`;,'•r ��5;::. CONTROL WIRING SUCTION; 018.024: 5/81_D. SWEAT. 030.036: 3141.D. SWEAT, i .. c.'> l 633.038 THROUGH 070: 7/8 1. D. SWEAT ,I �•i'�- II (25.4) LIQUID: 3/81. D, SWEAT tl t 1s'ie 134.9] .r (49.2) ' e ., 11]2 , 2.0 (22.2. 27.8. 50.8 K.O.'S) B I FOR HIGH VOLTAGE POWER WIRING i _ 1516 )D (23.8) DISCONNECT OR , . - ' CIRCUIT,. BRAKER'- i.� LOCATICJJ ALTERNATE BLOWER CONTROL 7/e D. (22.2) K.O. FOR LOW VOLTAGE +- 8 ELECTRIC HEATER - E- _}. ACCESS. PANEL •• CONTROL WIRING v 'c LIQUID LINE COIL ACCESS ` - 'PANEL l D INLET AIR OVNECTION � .::lyeF.I,TTING LIQUID LINE CONNECTION JL4 Ya C7 �LIQUIDaIJNE ? sa { X SUCTION• UNE 21V Y r 1 CONN CONNECTION � - -'- '.sem" .yr l'" •ase• �, �'Q,,,'e` 1 107/eleg ._..... 72663',6•'; r... (273.1). 91/4 ...". 235.0) 5. - I - 5 SUCTION LINE SLOPE COILS 127.0 FILTER ACCESS. CONNECTION () DOWNFLOW OR HORZ. II�� .-PANEL SLOPE COIL.DETAILS RIGHT APPLICATIONS ._ (19.1) I .'OPENING CONNECTION LOCATIONS SHOWN AND F FOR. UPFLOW OR HORZ. W COILS INLET AIR LEFT APPLICATIONS DOWNFLOW APPLICATIONS 1 DIMENSIONS 22`/16-" (560.4) 101k16�1I.� ;e 21,a (258.8) (279.4) (22.2) (54.0) 1 OUTLET, 1 25.4) AIR a .s'ti 1 -sr i x 1SNALTERNATE F (19.1) `•�7h„1 #2.0 D K MODULAR x.(222;5278 508ICO.S) UNITS WILL t OR?kj)tiGH VOLTAGE HAVE'A TWO pOWWHq-m0�1Cei --- PIECE PIECE CABINET =;,,,Fo5ITEjS)DE. i L ca J�.'r 1 V4 1 a t �`•.-,.vim x?;- .}7 (; 738.0) . `. L '' k 19sy a 2.112 1V,6 /1T'•� (4830j..-.i�t1 (64.0) (17.5) 11420 ,6 .. . �( 09 6) .I . INLET AIR 'OPTIONAL FIELD CONVERTED RIGHT SIDE RETURN (SLOPE COIL UNITS ONLY) A92443 UNIT COIL A i -l3 C I F G Kt L SIZE': ;TYPEIn. � mm - In. mm •In:' mm In. mm In. mm In. mm 018.024- Slope 42-11116 1084.3 14=5/16 I -363.5 12-7/16 316.0 12-11716 322.3 10-7/16 265.1 - -1 12 - 030 Slope 47-11/16 1211.5 17-5/8 447.5 15-3/4 400.1 16 406.4 15-3!8 390.5 - - 17 - 036 Slope 49-5!8 1260.5 17-5/8 .447.5 15-3/4 400.1 ..16 406.4 15-3t'8 390.5 - - 17 - Q33, 042 Slope 53-7!16 1'357.3 21-1/8 536.5 19-1/4 489.0 19.1/2 495.3 19-3116 487.0 1 25 .635 19 - 048 Modular A :53-7;16 1357.3. 21-178 536.5 19-1/4 489.0 19-1/2 495.3 19-1/2 495.3 ( 25 635 - - 048- ' ' ^'A 49-5:'8 1260.3 21-1/8 536;5 19-1/4 489.0 19-1/2 495.3 15-11/16 398.3 - - - - 038,"060: A 53-7/16 1357.3 21 -1 /8 536.5 19-1/4 489.0 19-1/2 495.3 19-1/2 495.3 1 25 635 - 054,070 A' 59-3116 1503.4 24-11116 627.0 22-3/4 577.9 23 584.2 25-114 1 841.5 25 635 - - .' Descriptions and dimensions apply to all versions (FA4A. F64A, and FC413, etc.), unless otherwise specified. --- - t Applicable for modular units only. SPECIFICATIONS '(rji�l'7 � OPERATING WT - 1 94 Fli.i11 i3N17 98 1 1 126 ' �1 '.���IL'7�7Y1•L 128 147 - .:147` v I•lll'll•1•�������-•"•-�'�®�� 158 154' 168 ti 168 199 199 REFRIGERANT Bypass Check -Flo -Rater (FA4A; FB4A), TXV Factory Installed on FC4B' METERING DEVICE = 8a 88 88 -7andl4.5 PISTON SIZE 52..- _ 69 73 2-1/2 ton 80 3 ton 2-1/2 ton 3 ton 4 ton 4`ton 5 ton 4 ton 5 ton 2 ton COIL Rows and Fins14.5Per In. 2 and 14.5 3 and 14.5' 3 and 14.5 3 and 14.5 3and:14.5. 3 and 14.5 3 and 14.5 3 gr d 14:5 3 and 14.5 3 and 3 and Face Area (Sq Ft) 2.23 2.23 2.97 2.97 3.46- ` 3.46 ' 4.45 4.45, 5.93: 5.93 2 7.42 7.42 2 Configuration Slope Slope Slope Slope Slope Slope A A A A A A FAN .Air Discharge CFM (Nominal) 650 850 1100 1300 1100 1500 1700 1700 1300 1/3 2000 3/4 1700 1/2 2000 3/4 Motor Hp(PSC) 1/5 1/4 1/3 1/3 113 172' 3/4. 3/4. FILTER (In.)$ 21-1/2 x 13 21-1/2 x 16-318 21-1/2 x'19-7/8? 21-112 x 23-5116 Fan coil units with TXV used in conjunction with reclprocaung curnprtisswl 111uw U.. W. av �•�,• ��r -••- -• _ ._._,..._._ __ __ - - specifications. t FC4B factory -installed TXV is hard shut-off; bypass flow -type for heat pump application. t Filters must be field supplied for FA4A products. NOTE: Descriptions and dimensions apply to all versions (FA4A, FB4A, FC48, etc.). unless otherwise specilied. t,•d.' . v r I�">'!t T�1 1 GF7L .%� hf �1 .: yA aN'' �i SEv J i - .lar... i r �M 7dI.L.r ': - r 1 •J`r (ice' 7i Ili .� I, �a � li �'r��.i�9 1� ��ba�7 �l: �. C' Sr' �1 6 V' l I. P t a ln' ` 4 r . �, W PERFORMANCE DATA AIRFLOW PERFORMANr_F MODEL EXTERNAL STATIC PRESSURE (IN. WC) AND BLOWER MOTOR 0.10 0.20 0.30__ 0.40 0.50 SIZE SPEED 208VFA4 230V 208V 230V 208V 236V 208V 230V 208V 230V 0.60 208V 230V 018 018 High 630 710 575 655 520 600 450 530 345 425 Low 550 630 495 575 425 520 350 450_ 345 FB4A High Medium 880 633 937. '•830 . 890 780 833 717 770 640 695 517 580 018 Low 713 603 680 567 640 523 595 460 530 370 430 FA4A High 545 960 633 1010 508 910 603 470 567 425 _523 373 460 312 370 024 Low 815 900 775 955 855 855 890 780 825 725 755 635 650 High 975 1.010. " .-..920-t-9 60. 730 860 805 905 685 750 630 680 550 575 FB4A, FC4B 024 Medium 835 905 790 850 740 800 __790 - 835 705 755 --- ' 585 635 ' Low 560 650 535 620 500 585 680730 600 480 535 FA4A High 1060 1175 1020 1120 970 1065 •450 920 530 1000 380 850 470 030 Low 810 940 790 912 775 875 745 825 700 925 765 730 810 F84A, FC48 High 1265 1325 1205 1260 1145 1190 1080 1115 1005 1035 640 915 G70 935 030 Medium 1065 1170 1020 1120 - 975 1065 920 1000 850 925 Low 810 945 795 915 775 880 730 830 690- 765 810 705 FA4A 036 High 1245 1365 1200 1315 7150 1260 1100 1205 1045 _ 7145 980 1075 Low 1005 1135 965 1095 920 1050 100_5_ 820_ 950_ 750 875 FB4036 High 1465 1550 1420 1495 7370 1440 _870_ 1310 1370, 1250 1305 1770 1225 036 Medium 1175 1330 1150 1295' 1120 1255 1085 1210 1040 7155 980 1095 Low 970 1115 950... .1095..930 1070 . 900 1035 860 995 805 930 FA4A,FB4A, FC48 High 1580 1710 1540 `'' 1650 " '1490" '1600' 1435 1535 1380 7465 1305 1380 042 Medium 1390 1560 1365 .; .,1 ,520.,. .1.330 ,.., 1475... 1290 1430 7230 1360 1170 1280 Low 1200 1370 11'80 "1345 1 `11677 ' ' 1310 ` 1125 1275 1075 1220 1010 1145 FA4A, F84A, FC48.NMedium. High 1845 1970 1875'• 1905 :•1795- '. 1890 1715.• '1750'. 1625 1660 1525 1560 048; 1790 %1'875 1725 %'-4`800 :1650 :4725 1575 - 1640 _ 1490 1 550 1390 ' 1.,1450 ^ Low'.' 1450;' '1625!_ 1415 `J_ -1 575` 1380 ' 1.520 __ 1330' 1460 ' _ 1280'' 1396.1215' 1320 FA4A, F84A, High 21201 2205';•.. p2060�_., 12140=,. 1990 2060' 1995, 1920 1770 1840 FC48 060 Medium .1995'....'21115: _ 1945' 2050' ' 1890 1980 _1925 1820 1920 _1850_ 1750 1845' 1675 1765 Lpw 9665' 1880' 16'25 1845 1590 1790 1560 .1745 1525 1680 1480 1625' FB4070 High 2:925'.o -'(2390%a 121'50";.:'2225 X2075 2145 9980` 2050' 1890 1955 1780 1850' 070 Medium 1910 :2095:.:. 1870 .2035 1830 1975 1770 1900 1695 1825' 1600 1715 Low 1610 1855 1590' :1825 .1560 1780 7525 1715 1460 1640 1390 1565 FC4D High 1315 1385 ;.1255'. :,1315' 1185 1240 1115 1165 1035 1080 950 995 033 Medium 1045 :1170' 1010' 1130" 970 1080 925 1020 870 960 790 870 Low 775 . 900 765 880' 740 855' 710_ 82_5_ 655 780 715` FC48 High 1570 ;1700 .1525' ;1645 1475 1580 1420 1515 _ 1355 _ 1440 _570 1285 ' 038. Medium 1215 1420 11$0 9380 , 1150 . 1340 1110 1290 1060 1240 1000 .1360 11.70 Low 1020 .1200 995 . ,1185 960 1130 925 109 0 1040 835 980 FC4B High 1700' 1835. .1640 11760. '1570` ^1685' 1500_ 1605 _880 1420 1330 1430 054 _ Medium 1505 .1660' 1455 1600 1395 1540 1330 147,0 1260 _1520 1395 1175 '1310 Low 1300 1460' 1260 .1410 1205 1350 1145 7290 1080 1220 1000 1140' NOTES: 1. Dry coil at 230v with filter and el@c(ric heater (2 element heater, siies 018 through 036: 3 clement healer. sizes 042 Ihrn,,i h narn COOLING CAPACITIES (MBtuh) Continued -aaturateo suction leaving evaporator coil. Sensible Heat Capacity (1000 Btuh) 5. SHC is based on 80'F db temperature of air entering coil. Below 80'F sub- BF—Bypass Factor tract (corr factor x CFM) from SHC. NOTES: Above 80'F db, add (corr factor x CFM) to SHC. 1. Net capacities shown include a deduction for eviporator (8n RldtOr'tieal: 2. Contact manufacturer for cooling capacities at conditions other -than shown SHC CORRECTION FACTOR in table. " ' 3. Formulas: sensible heat cap. " Leaving db = entering db .1009.x CFM' Leaving wb - wb corresponding to enthalpy of air leaving coil_.(h,,,&-. total capacity (Btuh) 4.5 x CFM; where h,.,,,; = enthalpy of air entering coil. BYPASS-_-, FACTOR EVAPORATOR AIR 79 74: 77 76 75 COIL REFRIGERANT TEMPERATURE (°F) 81 " 82' 83 - 85 3540 45 50 55 --- _84 Correction Factor.':. UNIT CFM AND BF 1.96 1.74 1.53 2.94 2.62 2.29 3.92 3.49 3.05 4.91 4.36 3.82 Evaporator Air — Entering Wet -Bulb Temp (°F) 15 and 20 kw Fuse Filler Kit (6,Pack) J ,, ; ; KFAFK0106SML FA4A 018, 0241 72-1 67 62 72 67 62 `72 67 62 72 67 62 72 67 62 KFAFK0306LRG 1300 89 1 72 58 79 63 49 70 53 39 58 42 29 45 29 24 0.03 41 44 46 37' 39 41 33 35 36 28 30 29 23 25 24 FA4A.FB4A 060 FC46 038,060 1600 0.05 101 83 67 91 73 57 80 61 44 68 49 35 53 34 29 47 51 54 42 ,46 49 38 41 42 33 36 35 27 30 29 1750 107 88 71 96 77 60 84 65 48 72 51 38 56 37 31 0.05_ 49 54 58 45 -49 52 40 44 46 35 38 38 29 32 1 31 2000 114 94 76 103 83 65 91 71 52 77 56 42 61 40 35 _ 0.06 53 59 64 48 54 58 43 48 51 38 42 42 32 36 35 1300 91 75 61 83 67 51 73 57 41 62 44 32 48 31 26 0.02 42 45 48 39 41 43 34- 37 38 30 31 31 25 25 26 1`84A 1600 102 85 70 93 76 59 83 65 48 71 51 38 56 36 31 070 0.03_ 47 52 56 43'°` 48' 51 39 43 45 34 37 38 29 31 31 'FC4B 054,070 1750 107 89 73 98 79 63 87 '68 51 74 55 41 59 3 0.04 50 55 60 46 •50 •54 41 45 48 36 40 41 31�3U738 2000 113 95 78 104 ....85 68 93 73 55 80 58 46 7 64 0.05 53 59 65 49 55 60 44 50 53 39 44 46 34 -aaturateo suction leaving evaporator coil. Sensible Heat Capacity (1000 Btuh) 5. SHC is based on 80'F db temperature of air entering coil. Below 80'F sub- BF—Bypass Factor tract (corr factor x CFM) from SHC. NOTES: Above 80'F db, add (corr factor x CFM) to SHC. 1. Net capacities shown include a deduction for eviporator (8n RldtOr'tieal: 2. Contact manufacturer for cooling capacities at conditions other -than shown SHC CORRECTION FACTOR in table. " ' 3. Formulas: sensible heat cap. " Leaving db = entering db .1009.x CFM' Leaving wb - wb corresponding to enthalpy of air leaving coil_.(h,,,&-. total capacity (Btuh) 4.5 x CFM; where h,.,,,; = enthalpy of air entering coil. BYPASS-_-, FACTOR ENTERING AIR DRY-BULB TEMP (`F) 79 74: 77 76 75 Under 75 81 " 82' 83 - 85 OVO 85 _84 Correction Factor.':. b:10 - . ' 0:20. 0.30 0.98 0.87.' 0.76' ' 1.96 1.74 1.53 2.94 2.62 2.29 3.92 3.49 3.05 4.91 4.36 3.82 ' Use foImula, shown below' 4. Direct interpolation is permissible. Do not extrapolate. Interpolation is peFmissible. Correction Factor = 1.09 x (1 — BF) x (db — 80) , i... .. , ACCESSORIES ITEM ACCESSORY PART NO.' ' FAN COIL SIZE USED WITH Disconnect Kit KFADK0101DSC Cooling controls and*heaters 3 kw, through; 10 kw Downflow Base Kit KFACB0101CFE1 018.024 KFACB0201CF6 030,036 KFAC80,301CFB 033, 038,042, 048, 060 . KFACB0401CFB 054,070 Downflow Conversion Kit KFADCO201 SLP, Slope Coil Units -018, 024, 030, 033, 036, 042.. KFADC0301ACL A -Coil Units -038, 048, 054, 060, 070 Single -Point Wiring Kit KFASP0101SPK 15 and 20 kw Fuse Filler Kit (6,Pack) J ,, ; ; KFAFK0106SML FA4A 018, 0241 KFAFK0206MED_—_-_ _FA4A 030, 036t KFAFK0306LRG FA4A'042-0601 t-aciory autnonzed and listed. Neto installed. t Can also be. used as a,replacement for F84A, FC46 in related sizes . . SPLIT SYSTEM µ662C (60 Hz) ff ,HEAT PUMP` UNITS A k ,*. Sizes 018 thru 060 a Heating B Cooling,. ' The 662C Outdoor Sections of Split -System Heat Pumps are de- signed for quiet, reliable heating during the winter and cooling during the summer. With a•SEER of up -to 1.3.0 and HSPF of up to 8.3, these heat pump systems provide economy of operation through energy conservation. They recover heat for indoor com- fort from outdoor air during the heating season and; by automat- ically reversing the refrigerant system, remove indoor heat and excess humidity during the cooling season. All models are listed with UL, c -UL, CEC, and ARI. FEATURES ELECTRICAL RANGE—All units are offered in single phase 208-230v. WIDE RANGE OF SIZES—Available in 7 nominal sizes from 018 through 060 to meet_ the needs of residential and light com- mercial applications. COMPRESSOR—This unit features a scroll compressor (except 018 size), which is significantly more efficient than conventional' compressors:,lts simple. design offers improved reliability, and P cornpressor,s;mounted on rubber• isolators for additional sound r*eduction For improved serviceability, the 018:through 042°m`odels are.,equipped-with a compressor• term inalplug,;Con- 'tin uous operation is approved down to -30°F (-34:4°C) in the heating mode and'down.to 55°F (12.8°C) in the cooling.mode. (See heating and cooling performance tables.) " BUILT -IN -RELIABLE COMPONENTS—Includes a suction - tube accumulator that reduces the amount of liquid refrigerant that reaches ,the .compressor, a high-pressure switch for high- . pressure protection (except 018, 048-060 size), and a loss of charge switch. DEFROST :CONTROL BOARD—Incorporates a defrost relay, defrost timer, and low -voltage -terminations. The defrost control is a"time/temperature initiation/termination control which in- cludes 3 field -selectable time periods of 30, 50, and 90 minutes. The control includes a built-in 5 minute compressor delay. DISCHARGE MUFFLER -Incorporated to minimize low fre- quency sound and.pressure pulsation generatedby compressor discharge gas. WEATHER -PROTECTIVE. CABINET --Steel is•protected with a galvanized coating then,'treated with a layer of zinc phosphate. A coat of modified polyester,powder coating is then applied and baked on. This provides each unit with.a hard, smooth finish that will last for many, years.. All screws on cabinet exterior are coated for a long-lasting, rust - resistant, quality appearance. UNIT DES IGN=All units are equipped with totally enclosed fan motors for greater reliability under rain and snow conditions. The ,large,- wraparound coil uses copper tube and enhanced alumi- num fin and is designed for optimum heat transfer during heating and. cooling. The vertical air discharge carries the sound and air up and away from adjacent patio areas and foliage. The con- denser coil can be'cleaned with a common garden hose. EXTERNAL SERVICE VALVES -Both service valves are brass, front seating type with sweat field connections. Valves are externally located so refrigerant tube connections can be made quickly and easily; Each valve has a service port for ease of checking operating refrigerant pressures. LIMITED WARRANTY—Standard 1 year on all parts. Additional 4 years on compressor. Form No. PDS 662C_18.2D CP�y EDto ft �NpENi V' -1�p�q< O p/'4 �p< u US P NDPRO FOR PUB\>�'� CERTIFICATION APPLIES ONLY WHEN THE COMPLETE SYSTEM IS LISTED WITH ARI. RECOMMENDED TUBE DIAMETERS UNIT SIZE TUBE LENGTH (Ft)* LIQUID TUBE DIAMETER (In.) VAPOR TUBE DIAMETER (In.) 018 0 to 50 3/8 5/8 024, 030, 036 3/4 042 7/8 048,060 1-1/8 For tube set over 50 ft, consult Long -Line Application Guideline. 4 G.0%``O,COI pral�07 U 9001 CERTIFICATION OF MANUFACTURING SITE. CHECK-FLO-RATER CHART UNIT SIZE -SERIES OUTDOOR PISTON INDOOR PISTON 018-A 43 57 024-A 52 61 030-A 55 67 036-A 63 76 042-A 65 82 . 048-A, B . 73 90 060-A, B 78 TXV WA - -2- It• SPECIF !CATIONS y, ► 0.. Unit Size—Series 018-A 024-A 030-A 036-A/B Operating Weight = .- _ :.s � 1113 ELECTRICAL lJrnfVolts—Hertz=Phasev,- �.,,....�.�-�,:n,:.-.,......._.�:...._. �.,...-...,.. .._,��. _ ...,.- ..._. ...... Operating Voltage Range' , "' ' 197=253 ` Compressor—Rated Load Amps -9.6 -""' ;10.9 "15.3 ` ' 16.7/16.1, 19.9/19.0 , Locked Rotor Amps 49.0 ; .r 61.0. 75.0" ' 95:0/82.0 115.0/105.0 Condenser Fan Motor—Full'Load Amps- 0.5 ` ` 0.5 ` ''"0:8 ;1.4 1.4 Min Unit Ampacity for Wire Sizing 12.5' 14:1" 18.9 1 722.3, 26.3. Min Wire Size (60°/75° Copper) AWG" 14/14 " ' 14/,1'4 " 14/14" 2/12. 10/.10 Max Wire Length'(60°/75°) (Ft)$ ' 75/75 - -:1:,65/65 > ' "43/43 65/65 85/85 Max Branch Circuit Fuse•Sizet- COMPRESSOR 15r" `;:' e ` 20 gin'""% ' _ `30 . 30 .:40 Compressor=Manufacturer'& Type°`'";.; _ .;�,,. ,_ ,Tecumseh°&`Recip""•Milleniurri"& Scroll; Tecumseh'8`Recip Temperature and Current Protection ' Internal Line Break Refrigerant—Type•and Amount (Lb) R-22 4.50 .-R722 5.00.-_ R-22 6.00 R-22.6.25/6.00 _ R-22 675 Refrigerant Tubes (In. OD) Vapor and Liquid;(up to_ 50 ft) CONDENSER • • FAN 5/8 and 3/8�..3/4d 3/8 7/8; and 3/8. Coil"Face Area (Sq'Ft) :,,'.a`.' __ _ '`TS .� - '.10:S F'' ".. c' 12:4 Fan Motor=FP"and Rpm 1/12 and 4125 ' ""1/10 and 1125 1/5 and 825 114 -and 1125 ; Volts=Hefty-Phase 208/230=60-1 Condenser,Airflow.(CFM)'_ _ . ;. `. ' _ ; r ' ti;1900" " 7-. 7 .eft_ ".,: 33001.. 4 OPTIONAL E• .�.a:_. u.,^a..-:.,.-...r�.+..v .,... �.-. _..:.i....vr�M. --+..a .,...oa..._...re:�e«>-.:.ry 7—w —. i--' _ Hard Sfart Kit" "' . - •, ,.. KSAHS0301'AAA.� - ""KSAHSO401AAA/KSAFS_0301AAA . Start Assist—PTC` - "` KAACS0201 PTC Liquid Solenoid Valve -KAALS0101 LLS' ' Cycle'Protector KSACY0101AAA Standard/KSACY01 01 AAA Low -Ambient Controller -P251'-0083 (RCD) Winter Start Kit'- `KAAWS0101AAA Evaporator Freeze Thermostat KAAFT0101AAA High -Pressure Switch ; - 'KSAH10101 HPS' Low -Pressure Switch "„ ' 'KAALP0101 LPS ' Time-Delay-Relay -KAATD0101TDR " Filter Drier- KH45LD065I KH43LE062_ Coastal Filter KAACF0401MED' KAACF0501LRG Crankcase Heater "KAACH1001AAA- KAACH1201AAA/KAACH1,001AAA Sound Hood KSASH1361TEC KSASH1901CYUKSASH0801.TEC. Thermostatic ExpansionValve'(RPB) KAATX0201RPB '7KAATX0301RPB-' I KAATX0401RP8 KAATX0501RP6. Thermostatic Expansion Valve_(Hard'Shut-off) KAATX0901HSO- - KAATX1001HSO I KAATX1101HS0 , •: ' . KAATX1201HSO Motor Master '32LT660004 (RCD)'`$$ Ball Bearing -Fan Motor HC34GE231 "" = -_ HC40GE230 Thermostat, Auto Changeover, Non -Programmable, °F/°C, 1 -Stage Heat, 1 -Stage Cool - TSTATXXNAC01-Att Thermostat, Auto Changeover, 7 -Day Programmable, °F/°C, 1 -Stage Heat, 1 -Stage Coop ^' y TSTATXX PAC01 -Att Thermostat, Manual Changeover, Non -Programmable, OF, 1 -Stage Heat, 1 -Stage Cool HH07AT212 Outdoor Sensor-' ' ' TSTATBBSEN01 SPECIFICATIONS Continued Unit Size—Series Operating Weight ,, ti 196 0.r 213 ELECTRICAL Unit Volts—Hertz—Phase 208-230-60-1 Operating Voltage Range' 197-253 Compressor—Rated Load Amps 26.4 32.1 Locked Rotor Amps 140.0/129.0 169.0 Condenser Fan Motor—Full Load Amps 1.4 1.4 Min Unit Ampacity for Wire Sizing 34.4 41.5 Min Wire Size (60'/75' Copper) AWG" 8/8 6/8 Max Wire Length (60775') (Ft)# 100/100 130/85 Max Branch Circuit Fuse Sizet 50 60 COMPRESSOR AND REFRIGERANT Compressor—Type and Rpm Millennium, Copeland & Scroll Temperature and Current Protection Internal Line Break Refrigerant—Type and Amount (Lb) R-22 8.50!7.00 R-22 10.00/8.88 Refrigerant Tubes (In. OD) Vapor and Liquid (Up to 50 ft) 7/8 and 3/8 1-1/8 and 3/8 CONDENSER COILAND FAN Coil Face Area (Sq Ft) 19.9/14.9 22.4/19.9 Fan Motor—HP and Rpm 1/4 and 1125 Volts—Hertz—Phase 208-230-60-1 Condenser Airflow (CFM) 3300 OPTIONAL EQUIPMENT Hard Start Kit KSAHSO401 AAA Start Assist—PTC KAACS0201 PTC Liquid Solenoid Valve KAALS0101 LLS Cycle Protector Standard Low -Ambient Controller P251-0083 Winter Start KAAWS0101 AAA Evaporator Freeze Thermostat KAAFT0101 AAA High -Pressure Switch KSAH10101 HPS Low -Pressure Switch KAALP0101 LPS Time -Delay Relay KAATD0101TDR Filter Drier KH43LE062 Coastal Filter KAACF0501 LRG Crankcase Heater KAACH1201AAA Sound Hood KSASH2O01CYUKSASH2101COP Thermostatic Expansion Valve (RPB) KAATX0601 RPB KAATX0701 RPB Thermostatic Expansion Valve (Hard Shut-off) KAATX1301 HSO KAATX1401 HSO Motor Master 32LT660004 (RCD) $# Ball Bearing Fan Motor HC40GE230 Thermostat, Auto Changeover, Non -Programmable, °F/°C, 1 -Stage Heat, 1 -Stage Cool TSTATXXNAC01tt Thermostat, Auto Changeover, 7 -Day Programmable, °F/°C, 1 -Stage Heat, 1 -Stage Cool TSTATXXPAC01tt Thermostat, Manual Changeover, Non -Programmable, OF, 1 -Stage Heat, 1 -Stage Cool HH07AT212 Outdoor Sensor TSTATBBSEN01 • Permissible limits of the voltage range at which unit will operate satisfactorily. Operation outside these.limits may result in unit failure. t Time -delay fuse or HACR breaker. # Length shown is as measured 1 way along wire path between unit and service panel for voltage drop not to exceed 2%. If wire is applied at ambient greater than 30'C (86'F), consult Table 310-16 of the NEC (ANSI/NFPA 70). The ampacity of nonmetallic -sheathed cable (NM), trade name ROMEX, shall be that of 60'C (140'F) conductors, per the NEC (ANSI/NFPA 70) Article 336-36. tt Where XX appears, insert BB for Bryant, DD for Day & Night, or PP for Payne brand. #$ Fan motor with ball bearings required. N/A—Not applicable in this application. NOTES: 1. All motors and compressors contain internal overload protection. 2. Copper wire must be used from service disconnect to unit. 3. Control circuit is 24v on all units and requires external power source. —4— COMBINATION RATINGS:!�,,i.,• See notes on page 8. -5- 1 ARI STANDARD RATINGS* .Cooling r , ar Heating Seasonal-Efficiency'SEER--:ic y, ";srsc _ Factory - Supplied Enhance- Standard .Accessory UNIT` SIZE= INDOOR .High -Temp; Low -Temp, r Seasonal Efficiency Sound Ratin SERIES UNIT. TC merit Rating 'TDR$' TXV'.. `„TC it COP, TC COP:" HSPF (Bels F(A,B)4ANF024t 18,000 TDR :' + 11:00•' -.'Y �1 .00 x'.17,000 -3.04 11,500 2.28. 7.40 7.8 F(A,B)4ANF018 .17,300 TDR"; 0.50 - 10.50'.. 1.6,500 2.88 X1;1;200, 2:20 '. 7.00 7.8 FC4BNF024 1,8;000 TDR & TXV 11.00 -- - 17;000 3.041 „11;500 2.28 7.20 7.8 FWANA018 ;18,000 10.70..,, None •. - 10:70 -16,600 2.92 ,1-1,;300 2.22 7.00 7.8 FMANA024 18,000 None 10.20'. " 11.00 - „ 11:007 _16,700 : ,• 3.04! 1;1",300 2.30 7.20 7.8 FF1(A,B)NA018 17,400 None 10.00 10.50 • -10.50 16,400 `2:941 ' .11,100 2:24 7.00 7.8 FF1(A,B)NA024 1.8,000 '18,000 None 10.20 11:00., 11.001 •,16,900. 3.06- 11;400 2.30 7.40 7.8 FG3AAA024 None :" 10.00 11.00 11:00 '16,800 " 3.00"-, '11;400 2:26' 7.20 7.8 FK4BNF001 18,000' TDR & TXV 12.10 - - 16,600 3.26 10,900 2.46 •7.90 7.8 FK4BNF002 '18,000 TDR & TXV 12.10 - - 16,600• 3:32 10,900 2.48 8.00 7.8 CC5A/CD5A/CD5BA018 18,000 None - '10.50 10":50 `16,300 -" 2.84 11,100 2.20' 7.00 7.8 018-A CD3(A,B)A018 .18;000 None - 10.50 1_0;50_`,%')6;300 x'2:84 '` 11=,100 2.20 7.00 7.8 CCSA/CD5A/CD5BA024-,18;000 None 10.00 11.00 ' 11.00•• � 16,700' ' ~ 2:96,. 11;300 2.24 7.20 7.8 CD3(A,B)A024 ^' 18;000 None 10.00 11:00 ' 11.00' 16,700 2'96, 11,300 2:24 7.20 7.8 CD3CA024 18;000 None - 11.00. 11:00° �-'16;900 "3'.02` 11',500 2.28 7.40 7.8 CE3AA024 18,000 None 10.00' 11.00' 11100 16,800 -'3:00 11;400`' 2:26 7:20 7.8 CF5AA624 16;000 None ' 10.10 11.00 '11.00 16;800 3.00 '1:1--,400 . •2.26 7.20 7.8 CG5AA024 18;000 'TXV 1.1.00 11.00 ' ' - 16,800 3.00' '.,11',400 2.26 7.20 7.8 w,e :;ta .' COILS + 333(B,J)AV036060 FURNACE,; ,' CC5A/CD5A/CD5BA024 .18,000 . - None .-.: 12.00-00 16,000 ' ^ 3.04 10500 2:36 7.50 7.8 CC5A/CD5A/CD5BW024' X18,000 .` None - ' 12.00 - « ` 12:00 16,000 3.04 a, . 10,500 2':36 7.50 7.8 CD3(A,B)A024. '`"'18,000. None 12.00." -''" ' 12.00' 16 600 3.04, t, ` 10;500 2,36 7.50 7.8 CE3AA024 18,000 None 12.00 - u ` 12.00 16,000 J:3.08; ` .10,600 '1-4',400 2.38 7:50 7.8 F(A,B)4ANF024t 22;600 r.],;TDR :"; 11.00 - 11.00 23,600: ..3.32 re 2:16 7.20 7.8 FB4AN(A,F)030 23,000 • •TDR 11.00 - w,'- 11.00 23,600 ,. 3.32. ? 14400 2.16. 7.50 7.8 FC4BNF024 22,600: TDR & TX•V 11.00 23,600 3.32 14;400 2.16, 7.50 7.8 FC48NF030 '23;000- TDR.& TXV 11.50 - - : 23,600 3.32 14;400 2.16 7.50 7.8 FWANA024 22,200 None-. - 10:50 ` °;10.50 23,600_ 3.26 14,300 2.16 7.40 7.8 FWANA030 23,200 None - 11:00 11:00 123,600 3.42 14;500 2.20 7.50, 7.8 FF1(A,B)NA024 22;600 TDR 10.50 - 10.50 , 23,600 3.32 14,500 2.16 7.50; 7.8 FF1(A,B)NA030 29,200 TDR 11.00 - 11:00. ••23,600: ; . 3.38 14,500 2.18 7.50 7.8 r. FG3AAA024 22,200 . None = 10.50. 10,5 0; .23,600• ., 3.24 14,400 2.14 7.35 7.8 FK4BNF001 23,200 TDR&r TXV ' 12.50 R t. - 23,600 3.54 - 14,000 2.30 7.80 7.8 FK4BNF002 23,400 TDR & TXV 12.50' - = `' •23;600 3.68 14,000 2.36 7.80 7.8 FK4BNF003 123,800 TDR &TXV: .12 50 ,' 23;800 „ 3:70 13,800 2.38 8.00 7.8 CC5A/CD5A/CD5BA024 22,400 None ,1050 10.50. .23,600 : -, 3:20 ::1.4,300 2.12 7.30 7.8 - CD3(A,B)A024 22,400 None - ;10:50 ; .10:50, 23,600 , ;,14,300 2.12 7.30 7.8 024-A CCSA/CD5A/CD56A030 22,600 None ., - ; 11500'.. , 11.00; 23,600 ::.x;3.22 ..3.20. 1.4,400 2:14, 7.30 7.8 CC5A/CD5A/CD5BW030 22,600None 11200 1100- 23,600 3:22 14,400 2.14 7.30 7.8 `CD3(A;B)A030 22,600'None "fr" '11:00.' 11 00� ,23,600 3.22 14,400 2.14 7.30 7.8 CD3CA024 22,400 :: _None -' r ,10'80"10:50 ,23.600 :-.3.28, 14,400 2.16 7.35 7.8 CD3CA030 .22,400 ',22,400 _ None ,. - ,{10:50' '10'.50r "23,600 j�;3.28. f;. 14;400 2.16 7.35 7.8 CD3CA036 None - ; : 11=00 11.00. 123,600 ., 3.32 14,400 2.16 7.35 7.8 CE3AA024 22,600 None - `' 10.50 10.50-`c23,6001' :,r 3.24 1.4,400 2.14. 7.30 7.8 CE3AA030 23,000 None - 11.00 - 11:00,, :23,600•, . 3.341 ••-14;400-. 2.18 - 7.50 7.8 CF5AA024 22,600. None - 11:00 ' , 11.001' 7,23,600 "3.24 14,400 2.14 7.30 7.8 CG5AA024 ;22;600 .TX :,V 11 M ,:11:00 -•, ,23,600 +;+3.24 , ..14400;, 2.14..; 7.30, 7.8 COILS +"333(B;J)AV036060 FURNACE,!'; CC5A/CD5A/CD5BA030 22,600 . None 1 12.00:: , - : 12A.':','?23,600 '-3 .28 ' ;`13;700 p13;700 2.22 7.40 7.8 CC5A/CD5A/CD56W030: ?22,600 None 12.00 : - 12.00'° 23,600 3.28 2.22 7.40 7.8 CD3(A,B)A030 22;600 None 12.00::':. - 12:00 23,600 • 3.28 13',700 2.22 7.40 7.8 CE3AA030 22,800 None 12.00 - 12.00 X23,600 3.40', 13;800 2.26. 7.50 7.8 F(A',B)4ANF030t 28;400 TDR 11.00 - 11.00 29;600..' 3.38 17;800 2:38 .7.60 7.8 F(A,B)4ANF036 28,400 TDR 11.00 - 11.00 29,600 3.42, 18,300 2.38. 7.60 7.8 FC4BNF030 28,000 TDR & TXV 11.50 - - ".29,600 1.38 17;900 2.38 , 7.60 7.8 FC4BNF036 28,400 TDR & TXV 11.50 - - ' 29,600 3:42' 18,300, 2.36.. 7.60 7.8 FWANA030 28,200 None - 11:00., 11.00 29,600' 3:46 `;17;900; 2.42` .7.50 7.8 FF1(A;8)NA030 28;200 TDR 11.06 - :,11.00 "29,400 8.44 17;900'' 2.40 . 7.50 7.8 FG3AAA038 28;400 None - 11%00 11.00 29,400 :3.44 1,7;9001 ::2.42 7.50 7.8 FK4BNF001 28;600 TDR & TXV 12.00 - , - 29,200 -3:58 17„600' 2:;48, 7.90' 7.8 ,FK4BNF002 28,600 TDR & TXV ,. ,12.00 - - 29,200 ` ` 3.66' . A7;500 2;64 8.00 7.8 FK4BNF003 29,000 TDR & TXV -12.00 - - 28,800 3.70 , : 17,300 2.58 8.00 7.8 FK4BNF004 •29;200 TDR & TXV 12.00 - - 29,200, 3.82 17;500 2.60 8.00 7.8 CC5A/CD5A/CD5BA030 27,800 None - 11-00'' 11.00 29;000 3.26 2:32 7.30. 7.8 CC5A/CD5A/CD5BW030 27,800 ,. None - , 11.00 11.00 29,000 3.26 .17;800 17,;8,00 2.32 :7.30 7.8 zCD3(A,B)A030 27,800 None - 11.00 '.,1100 -29,000 3.26 17;800 2.32 7.30 7.8 030-A CC5NCD5A/CD5BA036 .28;800 :'` None - 11.00. ' 11:00.: -29,400 ' 3.46 17,900 2.40 7.50 7.8 CD5A/CD5BW036 28;800 None - 11.00 - 11:00 t 29,400 '3.46. 1T900 2.40 -7.50 7.8 CD3(A,B)A036 28,800 None - 11:00' 1:1:00. 29,400 3.46 17900 2.40 " . 7.50 7.8 CD3CA030 27,400 None - 11.003 _1.100 29,600 3.30 4100 2'.36 7.50 7.8 CD3CA036 28,000 None, - 11:00 ' -'11.00., '% 29,600 3,36 18,000 2.38 7.60 7.8 CE3AA030 28,000' None - 11.00 ,11.00" `.;29;400 3.38 17,900 2.38:. 7.50 7.8 CE3AA036 28,400 None - 11.00 11.00: -29,400 , 3.40 17,900 2:38, 7.50 7.8 CF5AA036 28,400 None - 11.00 11.00 c29,400 ; 17;900 • 2.46: 7.50 7.8 CG5AA036 28,400 TXV 11.00 • 11.00 - 29,400 , 13.42 ,.,•3.42 .17900 2.40 7.50 7.8 --r-^COILS + 333(8;J)AV036060 FURNACE `28,800 CC5A/CD5A/CD5BA036 None 12.00 - 12.00 29,400 3.54, 17,500' 2.50 7:80 7.8 CD5A/CD5BW036 28,800 None 12.00 - 12.00 29,400 3.54 17,500 2.50 7.80 7.8 CD3(A,B)A036 28,800 None 12.00 - 12.00 29,400 3.54 17,500 2.50 7.80 7.8 CE3AA036 28,400 None 12.00 - 12.00 29,400 3.46 17,500 2.46 7.80 7.8 See notes on page 8. -5- 1 COMBINATION RATINGS Continued See notes on page 8. ARI STANDARD RATINGS' Cooling Heating Seasonal Efficiency SEER Factory- Supplied Field -Supplied Accessory UNIT High -Temp Low -Temp Seasonal Sound SIZE- INDOOR Enhance- Standard Efficiency Rating TDR$ TXV" I TC I COP TC I COP SERIES UNIT TC ment Rating HSPF (Bels) COILS + 333(B,J)AV048080 FURNACE CC5A/CD5A/CD5BA036 28,800 None 12.50 - 12.50 29,400 3.58 17,400 2.52 7.80 7.8 030-A CD5A/CD5BW036 28,800 None 12.50 - 12.50 29,400 3.58 17,400 2.52 7.80 7.8 CD3(A,B)A036 28,800 None 12.50 - 12.50 29,400 3.58 17,400 2.52 7.80 7.8 CE3AA036 28,400 None 12.00 - 12.00 29,400 3.50 17,400 2.50 7.80 7.8 F(A,B)4ANF036t 33,200 TDR 11.00 - 11.00 36,000 3.32 22,600 2.32 7.60 7.8 F(A,B4AN(F,B)042 33,800 TDR 11.50 - 11.50 35,800 3.40 22,600 2.36 8.00 7.8 F 4BNF036 33,000 TDR & TXV 11.00 - - 36,000 3.30 22,600 2.32 7.60 7.8 FC4BN(F,B)042 33,800 TDR & TXV 11.50 - - 35,800 3.44 22,600 2.36 8.00 7.8 FG3AAA036 33,000 None - 11.50 11.50 35,800 3.38 22,400 2.36 7.70 7.8 FK46N13005 35,200 TDR & TXV 12.00 - - 35,600 3.84 22,000 2.60 8.30 7.8 FK46NF003 34,000 TDR & TXV 12.00 - - 35,200 3.60 22,000 2.48 8.10 7.8 FK46NF002 33,000 TDR & TXV 11.50 - - 35,400 3.50 22,400 2.42 8.00 7.8 FK4BNF004 33,600 TDR & TXV 12.00 - - 35,400 3.68 22,000 2.52 8.20 7.8 CC5A/CD5A/CD5BA036 33,600 None - 11.50 11.50 35,800 3.38 22,400 2.36 7.70 7.8 CD5A/CD513W036 33,600 None - 11.50 11.50 35,800 3.38 22,400 2.36 7.70 7.8 CD3(A,B)A036 33,600 None - 11.50 11.50 35,800 3.38 22,400 2.36 7.70 7.8 CC5A/CD5A/CD5BA042 33,600 None - 11.50 11.50 35,800 3.38 22,400 2.36 7.70 7.8 CD3(A,B)A042 33,600 None - 11.50 11.50 35,800 3.38 22,400 2.36 7.70 7.8 CD3CA036 32,400 None - 11.00 11.00 35,600 3.28 22,600 2.32 7.50 7.8 CD3CA042 32,400 None - 11.00 11.00 35,600 3.28 22,600 2.32 7.50 7.8 C133CA048 33,200 None - 11.30 11.30 36,000 3.38 22,600 2.36 7.70 7.8 CC5A/CD5A/CD5BW042 33,400 None - 11.50 11.50 35,800 3.34 22,400 2.34 7.60 7.8 CE3AA036 33,200 None - 11.50 11.50 35,600 3.32 22,400 2.34 7.60 7.8 CE3AA042 33,800 None - 11.50 11.50 36,000 3.44 22,600 2.38 7.70 7.8 CF5AA036 33,400 None - 11.50 11.50 35,800 3.36 22,400 2.34 7.70 7.8 CG5AA036 33,400 TXV 11.50 11.50 - 35,800 3.36 22,400 2.34 7.70 7.8 036-A COILS + 333(B,J)AV036060 FURNACE CC5A/CD5A/CD5BA042 33,400 None 12.50 - 12.50 35,400 3.40 22,000 2.42 7.80 7.8 CC5A/CD5A/CD5BW042 33,400 None 12.50 - 12.50 35,400 3.40 22,000 2.42 7.80 7.8 CD3(A,B)A042 33,400 None 12.50 - 12.50 35,400 3.40 22,000 2.42 7.80 7.8 CE3AA042 33,600 None 12.50 - 12.50 35,600 3.46 22,000 2.44 7.80 7.8 COILS + 333(B,J)AV048080 FURNACE CC5A/CD5A/CD5BA042 33,600 None 12.70 - 12.70 35,200 3.44 21,800 2.46 7.80 7.8 CC5A/CD5A/CD5BW042 33,600 None 12.70 - 12.70 35,200 3.44 21,800 2.46 7.80 7.8 CD3(A,B)A042 33,600 None 12.70 - 12.70 35,200 3.44 21,800 2.46 7.80 7.8 CE3AA042 33,800 None 12.70 - 12.70 35,400 3.50 21,800 2.46 8.00 7.8 COILS + 333(B,J)AV060100 FURNACE CC5A/CD5A/CD5BA042 33,600 None 13.00 - 13.00 35,200 3.48 21,600 2.46 7.80 7.8 CC5A/CD5A/CD5BW042 33,600 None 13.00 - 13.00 35,200 3.48 21,600 2.46 7.80 7.8 CD3(A,B)A042 33,600 None 13.00 - 13.00 35,200 3.48 21,600 2.46 7.80 7.8 CE3AA042 33,800 None 13.00 - 13.00 35,200 3.54 21,800 2.48 8.00 7.8 COILS + 333(B,J)AV060120 FURNACE CC5A/CD5A/CD513A042 33,600 None 12.70 - 12.70 35,200 3.44 21,800 2.46 7.80 7.8 CC5A/CD5A/CD5BW042 33,600 None 12.70 - 12.70 35,200 3.44 21,800 2.46 7.80 7.8 CD3(A,B)A042 33,600 None 12.70 - 12.70 35,200 3.44 21,800 -2.46 7.80 7.8 CE3AA042 33,800 None 12.70 - 12.70 35,400 3.50 21,800 2.46 8.00 7.8 F(A,B)4AN(F,B)042t 39,500 TDR 11.00 - 11.00 42,500 3.46 27,000 2.46 7.60 7.8 F(A,B)4AN(F,B)048 40,000 TDR 11.00 - 11.00 43,000 3.62 27,200 2.52 8.00 7.8 FC4BN(F,B)042 39,500 TDR & TXV 11.00 - - 42,500 3.46 27,000 2.46 7.60 7.8 FC4BN(F,B)048 40,000 TDR & TXV 11.50 - - 43,000 3.60 27,200 2.52 8.00 7.8 FG3AAA048 39,500 None - 11.00 11.00 42,500 3.62 27,000 2.54 7.70 7.8 FK46NB005 41,500 TDR & TXV 12.00 - - 42,500 3.88 26,600 2.68 8.30 7.8 FK46NF003 39,500 TDR & TXV 11.30 - - 41,500 3.56 26,400 2.64 7.90 7.8 CC5A/CD5A/CD5BA042 39,000 None - 11.00 11.00 42,000 3.46 26,600 2.46 7.50 7.8 CO3(A,B)A042 39,000 None - 11.00 11.00 42,000 3.46 26,600 2.46 7.50 7.8 CC5A/CD5A/CD5BW042 39,000 None - 11.00 11.00 43,500 3.42 26,600 2.44 7.50 7.8 CD5A/CD56A048 40,000 None - 11.00 11.00 42,500 3.52 26,800 2.50 7.60 7.8 CD3(A,B)A048 40,000 None - 11.00 11.00 42,500 3.52 26,800 2.50 7.60 7.8 CD3CA042 37,800 None - 10.70 10.70 42,000 3.30 26,600 2.40 7.50 7.8 042 A CD3CA048 39,000 None - 11.00 11.00 42,500 3.46 26,800 2.48 7.70 7.8 CC5A/CD5A/CD5BC048 39,000 None - 11.00 11.00 42,000 3.38 26,800 2.44 7.50 7.8 CC5A/CD5A/CD5BW048 40,000 None - 11.00 11.00 42,500 3.52 26,800 2.50 7.60 7.8 CE3AA042 39,500 None - 11.00 11.00 42,500 3.52 26,800 2.50 7.60 7.8 CE3AA048 40,000 None - 11.00 11.00 42,500 3.56 27,000 2.52 7.70 7.8 CF5AA048 40,000 None - 11.00 11.00 42,000 3.50. 26,800 2.48 7.60 7.8 CG5AA048 40,000 TXV 11.00 11.00 - 42,000 3.50 26,800 2.48 7.60 7.8 COILS + 333(B,J)AV048080 FURNACE CD5A/CD5BA048 39,000 None 12.00 - 12.00 42,000 3.54 26,000 2.56 7.80 7.8 CC5A/CD5A/CD58W048 39,000 None 12.00 - 12.00 42,000 3.54 26,000 2.56 7.80 7.8 CD3(A,B)A048 39,000 None 12.00 - 12.00 42,000 3.54 26,000 2.56 7.80 7.8 CC5A/CD5A/CD5BC048 38,500 None 12.00 - 12.00 41,500 3.38 25,800 2.50 7.80 7.8 See notes on page 8. COMBINATIOWRATINGS. Continued r. See notes on page 8. -7- ... ARI STANDARD RATINGS*, Cooling,ij!i *,.-, V-1-! io Heating .-I�!;;iSeago-nil'Effididh-ey SEER Factory- Ir Field -Supplied UNIT SIZE- INDOOR Supplied Enhance- Standard �,,Accessoryv\ High -Temp. io, Lo Jernp w Seasonal Effi6lency Sound 'Rating SERIES UNIT tc ment Rating' HSPP (Bels) TDR*. TXV",, TC COP TC COP COILS +,333(13,J)AV06010.0 FURNACE-,, 7 CE3AA048 39,500 None 12.00 - 12.00 !,42,000-, 3.56 i 26,200 2.56 7.80 7.8 CD5A/CD5BA048 39,500 None 12.50 - '12.50 41;500 3.58 25,800 2.60 8.00 7.8 CC5A/CD5A/CD5BW048 39,500 None 12.50 - 12.50 41,500 3.58 25,800 2.60 8.00 7.8 CD3(A,B)A048 39,500 None 12.50 - 12.50 41,500 3.58 00 25,800 2.60 8.00 7.8 CC5A/CD5A/CD5BC048 39,000' None 12.20 - 12.20 41,500 . 3.42 2.52 8.00 7.8 042-A CE3AA048 39,500 None 12.50 - 12.50 42,000- 3.62 .25,600 26,000 2.60 8.00 7.8 -COILS +`333(B,J)AV060120 FURNACE CD5A/CD5BA048 39,000 None 12.00 12.00, 42,000 3.54 26,000 2.56 7.80 7.8 CC5A/CD5A/CD5BW048 39,000 None 12.60 - 12.00 42,000 3.54 26,000 2.56 7.80 7.8 0D3(A,I3)A048 39,000 None 12.00 - 12.00 42,000 3.54 26,000 2.56 7.80 7.8 CC5A/CD5A/CD5BC048 38,500 None 12.00 - 12.00 - 41,500 3.38 25,800 2.50 7.80 7.8 1. CE3AA048 39,500 None 12.00 - 12.00 42,000 3.56 26,200 2.56 7.80 7.8 lE(A_',l3)TAN_(E_,B_)_04_EFf_- :45-A00 =,T1jR= 48;000A `3. 2,200- _::2-_42- =.60- =7.8::3 F(A,B)4AN(F,B)060 47,000 TDR 11.00 11.00 48,0 3.42 32,600 2.44 7.70 7.8 ,FI34AN6070 48,000 TDR 11.50 11.50 48,000 3.56 32,400 2.52 8.00 7.8 FC413N�F,13)048 45,500 TOR & TXV 11.00 - 48,000 3.24 31,800 2.40 7.60 7.8 Ft4BN F,B)060 46,500 TDR & TXV 11.00 48;000 3.38 32,400 2.44 7.70 7.8 FC413N6070 48,000 TDR & TXV 11.50 - 48,000 3.56 32,400 2.52 8.00 7.8 FG3AAA048 45,000 None - 11.00 11.00 48;000 3.32 32,000 2.42 7.50 7.8 FG3AAA060 46,000 - .None - 11.00 11.00 48,000 3.38 32,000 2.46 7.70 7.8 FK413NB006 47,000 TDR & TXV 12.00 - 48,000 3.64 31,000 2.62 8.00 7.8 CD5A/CD5BA048 44,500 None - 11.00 11.00 48,000 3.22 31,800 2.38 7.40 7.8 CI)3(A,B)A048 44,500 None - 11.00 11.00 48,000 X3.22 31,800 2.38 7.40 7.8 CC5A/CD5A/CD5BC048 44,000 None - 11.00 11.00 48,000 3.02 31,400 2.30 7.00 7.8 CC5A/CD5A/CD5BW048 44,500 None - 11.00 11.00 48,000 3.22 31,800 2.38 7.40 7.8 CC5A/CD5A/CD5BA060 45,000 None - 11.00 11.00 48,000 3.18 31,800 2.36 7.30 .7.8 CD3(A,B)A060 45,000 None - 11.00 11.00 48,000 3.18 31,800 2.36 7.30 7.8 CD3CA048 44,000 None - 10.80 10.80 48,000 3.12 31,800 2.34 7.30 7.8 CD3CA060 45,500 None - 11.00 11.00, 48,000 3.28 32,000 2.42 7.50 7.8 CD3CA070 46,000 None - 11.10 11.10 48,000 3.34 32,000 2.44 7.70 7.8 CC5A/CD5A/CD5BW060 46,500 None - 11.00 11.00 48,000 3.36 32,000 2.44 7.70 7.8 048-A CE3AA048 45,000 None - 11.00 11.00 48,000 3.26 31,800- 2.40 7.50 7.8 B CE3AA060 46,500 None - 11.50 11.50 48,000 3.36 32,000 2.44 7.70 7.8 CF5AA048 45,000 None - 11.00 11.00 48,000 3.16 31,600 2.36 7.30 7.8 CG5AA048 45,000 TXV 11.00 11.00 48,000 3.16 31,600 2.36 7.30 7.8 COILS -4-333(B.I)AV048080FURNACE,�z" I. .1 11 1 - _t CC5A/CD5A/CD5BA060 4450 Non: 11.50 11M 48,000- 311:200 2.38 7.40 7.8 CD3(A,B)A060 44 Non 11.5 0 11.50 48000 2 1144 3 200 2.38 7.40 7.8 CC5A/CD5A/CD5BW060 46,000 None 11.80 11.80 48:000 3.34 31,400 2.48 7.60 7.8 CE3AA060 46,500 None 11.80 11-80 48,000. 3.34 31,400 2.48 7.60 7.8 -,,COILS+333(B,,J)AV0601001FURNACE •12.00 CC5,A/CD5A/CD5BA060 45,000 None -12.00 '48,000, 3.18 31:000 2.42 7.40 7.8 CD3(A,B)A060 .- 45,000 None 12.00 - 12.00 48,000 3.18 31,000 2.42 7.40 7.8 CC5A/CD5A/CD5BW060 46,500 None 12.20 - 12.20 48,000 3.40 31,000 2.52 7.80 7.8 CE3AA060 46,500 None 12.20 12.20 48,000 3.40 31,200 2.52 7.80 7.8 -COILS+ 333(%J)AV060120:FURNACE CC5A/CD5A/CD5BA060' 45-'000 None 11.50 - 11.56 48,000. 3.16 31,000 2.40 7.40 7.8 CD3(A;l3)A060 45,000 None 11.50 - 11.50 48,000 3.16 31,000 2.40 7.40 7.8 CC5A/CD5A/CD5BW060 46,000 None 12.00 - 12.00 48,000 3.36 31,200 2.50 7.80 7.8 CE3AA060 46,500 None 12.00 - 12-00 48,000 3.36 31,200 2.50 7.80 7.8 F134ANI3070t 55,500 TOR 11.00 - 11.00 60,500 3.28 37,600 2.40 7.50 8.0 F(A,B)4AN(F,B)060 54,000 TDR 11.00 - 11.00 60,500 3.14 37800 2.32 7.30 8.0 FC413N6070 55,000 TDR & TXV 11.00 60,500 3.26 37:800 2.38 7.50 8.0 FC4BN(F,B)060 54,000 TOR & TXV 11.00 60,500 3.14 37,800 2.32 7.30 8.0 FG3AAA060 53,000 None 11.00 11.00 59,500 3.08 37,200 2.32 7.20 8.0 FK4ANF006 55,500 TDR & TXV 11.50 - 60,000 3.36 37,000 2.46 7.70 8.0 FK413NI3006 55,500 TDR & TXV 11.50 60,000 3.38 37,000 2.48 7.80 8.0 CC5A/CD5A/CD5BA060 52,000 None - 11.00 11.00 58,500 a 2.88 37,000 2.22 6.80 8.0 CD3(A,B)A060 52,000 None - -11.00 11.00 58,500 2.88 37,000 2.22 6.80 8.0 CD3CA060 52,000 None - 11;00 11.00 60,000 3.08 37,600 2.32 7.20 8.0 CD3CA070 53,000 None - 11.00- 11.00 60,000 3.16 37,800 2.34 7.20 8.0 CC5A/CD5A/CD5BW060 53,500 None - 11-.00 11.00 59,500 3.016 37,200 2.30 7.10 8.0 060-A, CE3AA060 54,000 None - 11.00 11.00 ,1 59,500 3:08 37,200 2.32 7.20 8.0 B" .. � � . 1 11 , - " vCOILS+333(P,J)AV060100 FURNACE,s 0 14 �v CC5A/CD5A/CD5BA060 52,000 None - - 11.20 58,500 2.94, 37,200 2.26 6.90 8:0 '0 CD3(A,B)A060 52,000 None - - 11.20 (58,500 2.94 37,200 2.26 6.90 8.0 CC5A/CD5A/CD5BW060 53,500 None - 11.50 59,500 3.16 37,200 2.38 7.20 8.0 CE3AA060 54,000 None - 11.50 .59,500 3.16 37,400 2.36 7.20 8.0 At! COILS-,+'333(B,J)AV060120 FURNACE,; CC5A/CD5A/CD5BA060 .52000 None - - 11.00 58,500 2.92 37,4 . 00 2.24 6.90 8.0 CD3(A,B)A060 52:000 None - - 11.00, 58,500 2.92 37,400 2.24 6.90 8.0 CC5A/CD5A/CD5BW060 53,500 None - - 11.20- 59,500 3.12 37,400 2.34 7.20 8.0 CE3AA060 54,000 None - - 11.20 59,500 3.12 37,600 2.34 7.20 8.0 See notes on page 8. -7- * Ratings are net values reflecting the effects of circulating fan heat. Supplemental electric heat is not included. Ratings are based on: Cooling Standard: 80°F (27°C) db, 67*F (19°C) wb indoor entering air temperature and 95*F (35°C) db air entering outdoor unit. High -Temperature Heating Standard: 70°F (21°C) db indoor entering air temperature and 47*C (8°C) db 43*F (6°C) wb air entering outdoor unit. Low -Temperature Heating Standard: 70*F (21 °C) db indoor entering air temperature and 17*F (-9°C) db, 15°F (-10°C) wb air entering outdoor unit. t Outdoor section/indoor section combination tested in accordance with DOE test procedures for heat pumps. Ratings for other combinations are determined under DOE computer simulation procedures. t TDR is on all furnaces, except 394HAD. 4 0 ** Requires field -installed TXV, except FC4 and FK4 which have TXV factory installed. COP I — Coefficient of Performance HSPF= Heating Seasonal Performance Factor SEER— Seasonal Energy Efficiency Ratio TC —Total Capacity (Btuh) TDR —Time -Delay Relay TXV —Thermostatic Expansion Valve go= DETAILED COOLING;CAPACITIES* EVAPORATOR CONDENSER ENTERING AIR TEMPERATURESo F. AIR 85 95 x.1.05 '•`_` 115 4£' :„ 125 Capacity MBtuht Total:, Capacity ;: MBtuht „Total Capacity, - MBtuht Total Ca, a6i MBtuht Total . Capacity MBtuh# Total System System System System System Total +, ;Sens 7,hTotal a `Sens$= Sens'KwsY, .,Total :Sens ; Notal, Sens a*CFIN EWB Kw• �.' `-sKw!,Total 3Kw■yam Kw!� 662COl 8-A Outdoor Secti•n With F(A,B)4ANF024 Indoor• 72" 20.5 L, x 1'0.1- 1.76 ; 1'9.4 :' ' 9.71.: 1:89'. 18 3;'- 67 :, 18.6` 12.7 1.74 , 17.6 12.3. 1.86 ' 16.6 1"1.9 : 1:98 1.5.5 11.5 2.10 14.5 11.1 2.22 550 63tt 17.2 12.3 1'.72 16.2 11.9 1.84 15.3" 11.5,.' . 1.95 14.3 11.1 2.06 13.2 10.6 2.16 ., 62 16:9 15.3 1.71.. 16.0 14.8 1.83 15:0 14.4 1.94 14.1 13.9. 2.05 13.2 13.2 2.16 57 16.3 11 16.3 1'.70 15.6 15.6 1.82 " 14.8 .. 14.8. 1.94 14.0 14.0 ;;: 2.05 ' 13.2 13.2 2.16 '72 20.9, , 10.7 1.80 _ 19.9,: 10.3 1.94 18.7 9.91 ; • 2.08. 17.5, 9.5V 2.21 16.3 9.10 2.34 67 19.1 13.8 . 1.78 1'8.0 13.3 1.91- 16:9 ` • 12.9 2.041, 15.8 ^ 12.5 2.16 14.7 12.1 2.28 650 63tt 17.6 13.3: 1.77.., 16.6 ,. 1219 1.89,. 15.6., '' 12.4 ". 2.00,_ .. 14.6 12.0 2.12 13.5 19.6 2.22 62 17.4 16.7" " 1;.76 1 16.5 , 16.2 1.88;. 15.6 15.6 • 2:00 14.7 14.7 2.12 13.9 13.0- 2.24 57 17.1 1 17.1 1.76 16.4 ` 16.4 1.88 15.6 15.6 2.00 14.7 14.7 .: 2.12 13.9 13.9 1 2.24 72 21.3 11.2 1.85 20.1 10.9 1.99 19.0 10.5 2.13 17.7 10.1 2.26 16.5 9.66 2.39 67 19.4 14.7 1.83 18.3 14.3•„ 1'.96 17.2 13.9, 2.09 16.1 . -13.5. 2.21 14.9 13.0 2.33 ; 750 63tt 17.9 14.2 1.81 16.9 . '13.8 , : 1.94 15.8 13.3 2.06 , 14.8 � ' 12.9 2.17 13.7 12.4 2.28 62 17.9 17 :6 1.81 17.0 , ":.17.0;:` _ 1.94 1.6.1 16.1 2.06 15.3 •15.3 2.19 14.4 14.4 2.31 57, 17.8 17.8 1 1.61 JTQ' ' .;17.0, 1.94 16.1 T6. 1., 2:06.. 1.5-1, `;x.15.3 2.19 14.3 14.3 2.31 M Multipliers.for Determining the Performance, With Otherindoor Sections, Indoor Unit, Cooling -Indoor "' = Umt Cooling Section Size Capacity Power Section . - Siie, Capacity Power F(A,B)4ANF. ,. 018 .,... 0:9.6 0:98! `_: "; _ CD3(A,B)A 018 1.00 0:98" 024 1.00 1.00 024 1.00 0.99 FC4BNF 024 1.00 1.00 a CD3CA 024 1.00 0.99 FD3ANA 018 1.00 0.99 ` UAA 024 1.00 0.99 024 1:00 0.97 CF5AA 024 1.00 0.99 FF1(A,B)NA 018 0.97 0.96 CG5AA 024: 1:00., 0.99" 024 1.00 0.99 COILS`+ 333 B^J AV036060.FURNACE " �.; �_.,..).. .._... , ._ . . FG3AAA. 024 1.00 0:99` CC5A(CD5A/CD5BA, 024, 1.00 '0.89 FK4BNF 001 1.00 0:90 CC5A/CD5A/CD5BW 024; 1..00 -'0:89. 002 ,_; 1:00' 0.91 CD3(AB)A "'"024, '± 1:00 0.89 CC5A/CD5A/CD5BA :< 018 1.00 0:98; s%�;'" CE3AA 024: 1:00 0.89 024 1.00 See notes on page 15. E&M DETAILED COOLING CAPACITIES* Continued EVAPORATOR CONDENSER ENTERING AIR TEMPERATURES °F AIR 85 95 105 115 125 Capacity Total Capacity Total Capacity Total Capacity Total Capacity Total MBtuht System MBtuht System MBtuht System MBtuht System MBtuht System Total Sens$ Total I Sens$ Total I Sens$ Total I Sens$ Total Sens$ CFM EWB Kw** Kw** Kw** I Kw** Kw** .. 1 Outdoor Section1 •••Section 72 25.4 12.8' 2.05 24.4 12.4 2.24 23.4 12.1 2.47 22.3 11.7 2.72 21.2 11.3 3.01 67' 23.2 16.4 2.02 22.3 16.0 2.22 21.3 15.6 2.44 20.3 15.2 2.69 19.3 14.9 2.98 725 63tt 21.5 15.9 2.01 20.6 15.5 2.20 19.7 15.1 2.42 18.7 14.7 2.67 17.8 14.3 2.95 62 21.2 19.8 2.01 20.3 19.4 2.20 19.5 18.9 2.42 18.6 18.4 2.67 17.8 17.8 2.95 57 20.7 20.7 2.00 20.0 20.0 2.20 19.3 19.3 2.42 18.5 18.5 2.67 17.8 17.8 2.95 72 25.8 13.4 2.09 24.7 13.0 2.28 23.7 12.6 2.51 22.6 12.3 2.77 21.5 11.9 3.06 67 23.6 17.4 2.07 22.6 17.0 2.26 21.6 16.6 2.48 20.6 16.2 2.74 19.5 15.8 3.02 825 63tt 21.8 16.8 2.05 20.9 16.4 2.24 19.9 16.0 2.46 19.0 15.6 2.72 18.0 15.2 3.00 62 21.7 21.1 2.05 20.8 20.5 2.24 19.9 19.9 2.46 19.2 19.2 2.72 18.4 18.4 3.00 57 21.5 21.5 2.05 20.7 20.7 2.24 1 19.9 19.9 1 2.46 19.2 1 19.2 2.72 1 18.4 18.4 1 3.00 72 26.1 13.9 2.13 25.0 13.5 2.33 23.9 13.2 2.55 22.8 12.8 2.81 21.7 12.4 3.10 67 23.9 18.3 2.11 22.9 17.9 2.30 21.8 17.6 2.52 20.8 17.1 2.78 19.7 16.7 3.07 925 63tt 22.1 17.7 2.09 21.1 17.3 2.28 20.2 16.9 2.51 19.2 16.5 2.76 18.2 16.1 3.04 62 22.1 22.0 2.09 21.3 21.3 2.29 20.5 20.5 2.51 19.7 19.7 2.76 18.2 18.9 3.05 57 22.1 22.1 2.09 21.3 21.3 2.28 20.5 20.5 2.51 19.7 19.7 2.76 18.9 18.9 3.05 Multipliers for Determining the Performance With Other Indoor Sections Indoor Unit Cooling Indoor Unit Cooling Section Size Capacity Power Section Size Capacity Power FB4AN(A,F) 030 1.02 1.00 CC5A/CD5A/CD5BW 030 1.00 1.00 F(A,B)4ANF 024 1.00 1.00 CD3(A,B)A\ 024 0.99 1.00 FC4BNF 024 1.00 1.00 030 1.00 1.00 030 1.02 1.00 CD3CA 024 0.99 1.00 FD3ANA 024 0.98 0.99 030 0.99 1.00 030 1.03 1.00 036 0.99 1.00 FF1(A,B)NA 024 1.00 1.00 CE3AA 024 1.00 1.00 030 1.03 1.01 030 1.02 1.00 FG3AAA 024 0.98 1.00 CF5AA 024 1.00 1.00 FK4ANF 002 1.01 0.90 CG5AA 024 1.00 1 1.00 FK4BNF 001 1.03 0.91 COILS + 333(B,J)AV036060 FURNACE 002 1.04 0.90 CC5A/CD5A/CD5BA 030 1.00 0.91 003 1.05 0.89 CC5A/CD5A/CD5BW 030 .1.00. 0.91 CC5A/CD5A/ 1 024 0.99 1 1.00 CD3(A,B)A 030 1.00 0.91 CD5BA 1 030. 1.00 1 1.00 CE3AA 030 1.01 0.91 See notes on page 15. -10- DETAILED COOLINGCAPACITIES* Continued = . EVAPORATOR CONDENSER'ENTERING AIR`TEMPERATURES °F AIR 85 "V 95`.'"`iY 115 q25 ° Capacity MBtuht Total ... _ Capacity = MBtuht Total; , 'Capacity ^' MBtuht Total , y ;Capacity, MBtuht Total Capacity" MBtuht Total System System System » L ' System "System Total,, `Sens$ . Totals :Sens$' Total `, .Sens$ Totals Sens$, Total, Sens# CFM 1EWB� 'tKw*= fKw!!„ ;r Kw**" aKw** .Kws* .. 1 1 Outdoor Secti• " 1 1 Indoor Section 72 ' 320f1,1612441308';15'7 29.4' r265t j295� T152:289gL282s'`147w X3`:16 X268 X14.3 "3:46 67 20.7. 2 40 ,: ;' 28.2 20:2 2.61 , 27.0, =2.85 25.Z 19.2 ' ' 3.11 ". `24:5 ` ` 1'817 3:41 900 .63tt 27.3 20.0 2,37 ` 26.2 19.6. 2.58'' x.25.0 19.1 2.81 : , 23:8 18.6, 3.08'' ' 22.6 18.1 3.37 62 26.9 " 25.0" `f 2.36 25:9' 24.5 2.57 .'. 24.8 23.9 2.81 „ 23.7-,. , 23.3"::3.07 "' 22:6„ 22.5 3.37 57 26.2 , . 26.2. 2`.35 25.4', 25.4 2.56,'', , 24.524.5 ;. ` 2.80. ,. ' 23:5,x; ` 23.5. " 3.07. .22.6 22.6 3.37 72 3.2.2 16 41 , :`,2.46 31.0 15.9 2.67 1; 'i 29.7 15.5 2.91 • ..28:33 � 15.0 3.18 27.0 14.5 • 3.48 67 29.6 21 1 '. •""2:42 28.4 . 20.7 2 63.- 27.2 _ 20:2 ,. _ 2.87 25.9 19.7 3.13 24.6 19:2 3.43 950 63tt 27.5 26.5.-' _ 2:39 " +. 26.3 20:0 2.60 ' 25.2 t 19.5 ` ,` 2.83 24;0" 19.0 Y ' 3.10 22.7 18.5 3.40 62 27.2 25.6. ' 2.38 26.1, : 25.1 2.59 , 25.0,, ., 24.5 ; ; 2.83'.` ; 23.9. 23.8 3.10 22.8 22.8 3.40 57 26.6:,* '26.6' ; 2.38 25.7 25.7 ' : 2:59 ' ; 24.8.'- '. 24.8." 2.83., 23.8 23.8 3.10 22.8 22.8 1 3.40 72 32.7,o ,, 1.7.2 :2:53. 31.4 16.8 2.75, 30.1+ 16.3 2,99 28.7: 15.9; : 3.26 27.3 15.4L67 30.1 ;"22.7 2.49 28.9 22.3 2 70" 27.6• 21'.8 '2:94; 26.3 21.3 3.21 24.9 20:81125 63tt 27.9 " ..22.0 2.46 26.8 21.5 2.67 25.5 = 21.0 2:90, 24.3.. 20.5 3.17 23.1 19.962 27.8 , 27.5 2.46 26.8 26.7 2:67 25.8 25.8,....2.91 24.7 24.7 3.18 23.7 23.757 27.7 27.7 2.45 26.8 26.8 ; . 2.67 25.8 25.8 : ' 2.91 , ; 24'.7 24.7 3.18 23.7 23.7 Multipliers- for Determining the Performance With.Other Indoor Sections Indoor Unit Cooling .Indoor Unit Cooling Section Size Capacity Power Section Size Capacity Power F(A,B)4ANF 030 1x00 1-.00 CD3CA =030 0.96 1:00 036' 1.00 1:05 036 0.99 1.00 FC4BNF 0300 0.99 .1.00,: ;; CD5A/CD5BW 036- 1.01 1,01 033i 1.01 ,r ,0.98 ,, CE3AA 030., 0.99 1.00 036 1.00 1:04 036 1.00 .1.01 FMANA 030 0'.99 •1.0T'. CF5AA 036. 1.00 1.01 FF1(A,B)NA 030 0.99 1.01 CG5AA 403&1f , 1.00 1.01 FG3AAA 036 1.00 :1., 1.01 COILS`+'333(B,J)AV0360.60 FURNACE Asa W-,vf •4� FK4BNF 001 11.01 0.94 t CC5A(CD5A/CD5BA 036' 1.01 0.95 002 1:01' "'0192,., CD5Q/CD56W 036 1.01 0.95 003 1'.02 0:91" CD3(A;13)A 036' 1.01 0.95 004 1.03 0:924 CE3AA ` 036 1.00 0.95 CC5A/CD5A/ 030 ;.+ .0:98 . 1.00 COILS,+'333(B,J)AV048080,FURNACE ? = N CD5BA 036 1.01, 1.01 CC5A/CD5ALCD56A 036 1.01. 0.93 CC5A/CD5A/CD5BW 030' 0.98 1.00 CD5A/CD5BW 036 1.01 0.93 CD3(A,B)A 030 0.98 1.00•' CD3(A,B)A 036 1.01 0.93 036 1.01 1:01 CE3AA 036 1.00 0.93 gee notes on page 15. DETAILED COOLING CAPACITIES* Continued EVAPORATOR CONDENSER ENTERING AIR TEMPERATURES °F AIR 85 95 105 115 125 CFM EWB Capacity MBtuht Total System Kw** . Capacity MBtuht Total System Kw** 3.26 3.22 3.19 3.19 3.18 Capacity MBtuht Total I Sens# 34.4 17.9 31.4 23.4 29.1 22.6 28.9 28.4 28.7 28.7 Total I System I Kw** 1 . 3.57 3.53 3.49 3.49 3.49 Capacity MBtuht Total System Kw** 3.90 3.86 3.82 3.82 3.82 Capacity MBtuht Total System Kw** 4.27 4.21 4.17 4.17 4.17 Total Sens$ 1 Total Outdoor 36.0 32.9 30.5 30.3 29.9 Sens# Secti• 18.5 24.0 23.2 29.1 29.9 ,Total Indoor 32.7 29.8 27.6 27.6 27.5 Sens# Section 17.3 22.8 22.0 27.5 27.5 Total 31.0 28.2 25.9 26.2 26.2 Sens$ 16.7 22.1 21.3 26.2 26.2 1100 72 67 63tt 62 57 37.5 34.3 31.9 31.5 30.9 19.0 24.5 23.8 29.8 30.9 2.99 2.95 2.92 2.92 2.91 1200 72 67 63tt 62 57 37.8 34.6 32.2 32.0 31.6 19.5 25.5 24.7 31.0 1 31.6 3.04 3.00 2.97 2.96 2.96 36.3 33.2 30.8 30.7 1 30.5 19.0 25.0 24.1 30.2 30.5 3.31 3.27 3.24 3.24 1 3.24 34.7 31.7 29.4 29.4 29.3 18.5 24.4 23.5 29.3 1 29.3 3.62 3.57 3.54 3.54 3.54 33.0 30.1 27.8 28.1 1 28.1 17.9 23.8 22.9 28.1 28.1 3.95 3.90 3.87 3.87 3.87 31.2 28.4 26.2 26.7 26.7 17.3 23.1 22.2 26.7 26.7 4.32 4.26 4.22 4.23 4.23 1350 72 67 63tt 62 57 38.2 35.0 32.5 32.5 32.5 20.4 27.0 26.0 32.4 32.5 3.11 3.07 3.04 3.04 3.04 36.6 33.5 31.1 31.3 31.3 19.8 26.4 25.4 31.3 31.3 3.38 3.34 3.31 3.31 3.31 35.0 32.0 29.7 30.1 30.1 19.2 25.8 24.8 30.1 30.1 3.69 3.64 3.61 3.62 3.62 33.2 30.4 28.1 28.8 28.8 18.7 25.1 24.2 28.8 28.8 4.02 3.98 3.94 3.95 3.95 31.4 28.6 26.4 27.4 27.4 18.1 24.5 23.4 27.4 27.4 4.39 4.33 4.29 4.31 4.31 Multipliers for Determining the Performance With Other Indoor Sections Indoor Section Unit Size Cooling Capacity Power Indoor Section Unit Size Cooling Capacity Power F(A,B)4ANF 036 1.00 1.00 CG5AA 036 1.01 0.98 F(A,B)4AN(F,B) 042 1.02 0.99 COILS + 333(B,J)AV036060 FURNACE FC4BNF 036 0.99 1.01 CC5A/CD5A/CD5BA 042 1.01 0.92 FC4BN(F,B) 042 1.02 0.99 CC5A/CD5A/CD5BW 042 1.01 0.92 FG3AAA 036 0.99 0.98 CD3(A,B)A 042 1.01 0.92 FK4BNB 005 1.06 0.90 CE3AA 042 1.01 0.92 FK4BNF 002 0.99 0.95 COILS + 333(B,J)AV048080 FURNACE 003 1.02 0.92 CC5A/CD5A/CD5BA 042 1.01 0.90 004 1.01 0.91 CC5A/CD5A/CD5BW 042 1.01 0.90 CC5A/CD5A/ 036 1.01 0.98 CD3(A,B)A 042 1.01 0.90 CD56A 042 1.01 0.98 CE3AA 042 1.02 0.91 CD5A/CD5BW t 036 1.01 0.98 COILS + 333(B,J)AV060100 FURNACE CD3(A,B)A 036 1.01 0.98 CC5A/CD5A/CD5BA 042 1.01 0.89 042 1.01 0.98 CC5A/CD5A/CD5BW 042 1.01 0.89 CD3CA 036 0.98 0.97 CD3(A,B)A 042 1.01 0.89 042 0.98 0.97 CE3AA 042 1.02 0.90 048 1.00 0.98 COILS + 333(B,J)AV060120 FURNACE CC5A/CD5A/CD5BW 042 1.01 0.98 CC5A/CD5A/CD5BA 042 1.01 0.90 CE3AA 036 1.00 0.98 CC5A/CD5A/CD5BW 042 1.01 0.90 042 1.02 0.98 CD3(A,B)A 042 1.01 0.90 CF5AA 036 1 1.01 0.98 CE3AA 042 1.02 0.91 See notes on page 15. 12 DETAILED,CO3, !I , G CAPACITIES* Continued EVAPORATOR CONDENSER ENTERING.AII3;TEMPERATURES-F... . AIR,-' 85 95 105' "';,'.,. ;..f15 125 CFM, t 1275 "- '.'EWB 72 67 63tt 62 57 'Capacity MBtuht� Total System ' Kw!*� Oudoor 3.43 3.38 3134. 3.34: 3.33 Capacity a s _MBtuht Totala System ,;Kw*;Totals 3:76` 3.70 3.66 3.66, 3.65 . ' Capaci r� MBfuht �w .Total System EKw*�'yTotal 1 Capacity ,MBtuht fSens$=wKw*Total • • •r Section _tj�Total System ': Capacity MBtuht Total System Kw** - Notal ;Sens$: .. 44.322.5 40.7 37.8. 37.4 36.7 1 `' 29.1 28.2 35.3 36.7 wTotal -Sens# ..42:5` 39.0 36.2- 35.9 35.4 Section• 21.8` =.'" 28.4 27.5 34.5. 35.4 ;Sens$• • • ,Sens$ 40.5 r 37.1 '.34.4 734.3 4 34,0_,- 21:1 `,27.6 26:7 316 34.0; 4:12' 4.06- 4.01- 4:0132.6 4:01 " = 38:5`` 35.2 32.6 _ 32.5 -20.4 26.9 25.9 '32.5 32.5. 4.51'' 4.44 4.39 .4.39 4.39 364 33.2 30.3 30.7 30.7 19.7 26.1 25.0 30.7 30.7 4.93 4.85 4.78 4.79 4.79 1475 72 67 63tt 62 57 45.0 41.3 38.4 38.2 38.0 23.6 31.0 ,, 30.0: ` 37.6. 38.0 3.53 `3.47 3'.43 3.43 .' 3.43 43.0. 39.5 36.7.. 36.7 36.6 22.9 30.3 .- 29.3 36.5' .. 36.6, 3.85,,Y 3.80': 3,7,53 3.75` 3.75 .' 41.0' 37.6 ' 34.9' ,_25.1 ..'35.1. 22 2';; - 29:6 28:5.• 35:1 - 35:1 4:21:. 4:15;^= 4'.11. 4.1A 4.11 '`• 39.0 s 35.7.. 33.0,S 33:6; 33:6 21.5 .' • 28.8' L427.771 -33.6 . 33.6" '' 4,60 4.54 . 4.48 r 4.50 4.50 36.8 d 33.6 30.8 31.8 31.8 20.8 28.0 26.8 31.8 31.8 5.02 4.95 4.88 4.91 4.91 1675 72 67 63tt 62 57 45.4 41.7 38.8 39.1 39.1' 24.6. .. 32.9 31.7 39.1 39.1 3.62 3.56, 3.52 3.5.3 3.53- 43.4 39.9. 37.0 37.6 .37.6 23:9 ` 32.2 31.0 37.63.85 37.6 3.94 189 3:85 ° �1_3.85'. t' -41.4 38.0 35.2 36.1 36.1 23.2 31.4. 30Z 5 36,1 '- .36:1' 4:30 4.24' • 4.20 . 4.21 .-4.21 5, 39.2 " . 36.0 , 33.3`" 34.4 34.4:. 22.5 30:6 29.4 34.4 34.4 4.69 4.63 4.58 4.60 4.60 37.0 33.8 31.1 32.7 32.7 21.8 529.8 •28.4 32.7 32.7 - 5.12 5.04 4.98 5.01 5.01 Multipliers for.Determining the Performance With .Other.Indoor Sections, r Indoor Section Unit Size _Cooling ". " Indoor":" Capacity Power •Section Unit Size. Cooling Capacity Power (F(A,B)4AN(F;B) 042 1.00 1.00. CG5AA . 048 1.01' 0.98 X048�"-01 y1:00`) ",• ;?� . 4 x COILS +"333(B,J)AV048080 FURNACE;,', FC4BN(F,B) .042,- ;1:00. ;1::00 r�"CDSA/CDSBA 048'- - 0.99: '0:91 048 `- -1.01 1.00 CC5A/CD5NCD5BW 048 0.99 0.91 FG3AAA 048 1.00 `0.98 CD3(A;B)A 048 0.99 -0.91 FK4BNB 005 _ 1.05 0.94' CC5A/CD5A/CD5BC '046- 0.97 0.91 FK4BNF 003• 1.00 0.94 CE3AA-. 048» 1.00 - 0.92 CC5A/CD5A/CD56A 042 ;. 0.99 0.97 -.• (r�rX, .COILS'+ 333(6 J)AV060100 FURNACE�.xz ; +r; CD3(A,B)A 042 ' +` 0.99 0.97 > CD5A/CD5BA 046,= 1.00 0.90 048 1.01 0.98- _>= %CC5A/CD5A/CD5BW 048 - •--• 1.00 0.90 CD3CA 042 0.96 0:97 ' - • - CD3(A;B)A 048 1.00 0.90 048 0.99 0.97 - CC5A/C_D5A/CD5BC 048 a' 0.99 0:89 CC5A/CD5A/CD5BW 042 0:99 0.97 � CE3AA: 048 1.00 `0.90 048 1; 01 0.98,x_ W .,r y `1T COILS'+.':333(B;J)AVO60120 FURN. ACEsia+wir: CD5A/CD5BA 048 1'01.• 0.98 -• - CD5A/CD56A " 048 0.99 0.91 CC5A/CD5A/CD5BC 048 0.99 -. .,;0;98' ,. CC5A/CD5A/CD5BW 048 0.99 0.91 CE3AA 042 1.00 - 0:98 CD3(A,B)A •- 048 0.99 0.91 048 1`61- --0.,99- CC5A/CD5A7CD5BC 048 - 0.97 •- 0.91 CF5AA 048 1.01 0.98 CEMk 048, 1.00 0.92 See notes on page 15. r -13- S s DETAILED COOLING CAPACITIES" Continued EVAPORATOR CONDENSER ENTERING AIR TEMPERATURES *F AIR 85 95 105 115 125 CFM EWB Capacity MBtuht Total System Kw** Capacity MBtuht I Total System Kw** Capacity MBtuht Total System Kw** Capacity MBtuht Total System Kw** Capacity MBtuht Total System Kw** 6.34 6.24 6.15 6.15 6.15 Total Sens$ Total Sens$ Total Sens$ Total Sens$ Total 41.5 37.7 34.4 34.3 34.3 Sens$ 21.9 28.6 27.3 34.2 34.3 662CO48-A,BOutdoor Secti•n With F(A,B)4AN(F,B)048 46.6 42.6 39.4 39.0 38.3 23.7 30.5 29.5 37.0 38.3 5.19 5.13 5.07 5.07 5.06 IndoorSection 44.1 40.3 37.2 36.8 36.5 22.8 29.6 28.5 35.9 36.5 5.75 5.67 5.61 5.60 5.59 1400 72 67 63tt 62 57 51.3 46.9 43.5 42.9 41.5 25.4 32.3 31.3 38.9 41.5 4.20 4.15 4.11 4.11 4.09 49.0 44.8 41.5 41.0 39.9 24.5 31.4 30.4 38.0 39.9 4.68 4.62 4.58 4.57 4.56 1600 72 67 63tt 62 57 52.1 47.7 44.3 43.8 43.0 26.4 34.2 33.1 41.5 43.0 4.30 4.25 4.21 4.20 4.20 49.7 45.5 42.2 41.8 41.4 25.6 33.3 32.2 40.5 41.4 4.77 4.71 4.67 4.67 4.66 47.2 43.2 40.0 39.8 39.6 24.7 32.4 31.3 39.3 39.6 5.29 5.22 5.17 5.17 5.17 44.7 40.8 37.7 37.8 37.8 23.8 31.5 30.3 37.8 37.8 5.85 5.77 5.71 5.71 5.71 42.0 38.2 34.9 35.6 35.6 22.9 30.5 29.1 35.6 35.6 6.44 6.35 6.25 6.27 6.27 1800 72 67 63tt 62 57 52.7 48.3 44.8 44.6 44.3 27.5 36.1 34.9 43.8 44.3 4.39 4.34 4.30 4.30 4.29 50.2 46.0 42.7 42.6 42.6 26.6 35.2 33.9 42.5 42.6 4.87 4.81 4.76 4.76 4.76 47.7 43.7 40.4 40.7 40.7 25.8 .34.3 33.0 40.7 40.7 5.39 5.32 5.27 5.27 5.27 45.1 41.2 38.1 38.8 38.8 24.9 33.3 32.0 38.8 38.8 5.94 5.87 5.80 5.82 5.82 42.3 38.6 35.3 36.6 36.6 23.9 32.3 30.8 36.6 36.6 6.54 6.44 6.36 6.39 6.39 Multipliers for Determining the Performance With Other Indoor Sections Indoor Section Unit Size Cooling Capacity Power Indoor Section Unit Size Cooling Capacity Power - F64ANB 070 048 1.05 1.00 1.00 1.00 CE3AA 048 0.99 0.98 F(A,B)4AN(F,B) 060 1.02 0.98 060 1.03 1.01 CF5AA 048 0.99 0.97 FC4BNB 070 1.05 1.00 CG5AA 1 048 1 0.99 1 0.97 FC4BN(F,B) 048 1.00 0.99 COILS + 333(B,J)AV048080 FURNACE 060 1.02 1.01 CC5A/CD5A/CD5BA 060 0.98 0.94 FG3AAA 048 0.99 0.98 CD3(A,B)A 060 0.98 0.94 060 1.01 0.98 CC5A/CD5A/CD5BW 060 1.01 0.94 FK4BNB 006 1.03 0.90 CE3AA 060 1.02 0.94 CD5A/CD5BA 048 0.98 0.98 COILS + 333(B,J)AV060100 FURNACE CD3(A,B)A 048 0.98 0.98 CC5A/CD5A/CD5BA 060 0.99 0.92 CC5A/CD5A/CD5BC 048 0.97 0.97 CD3(A,B)A 060 0.99 0.92 CC5A/CD5A/ 048 0.98 0.98 CC5A/CD5A/CD5BW 060 1.02 0.92 CD5BW 060 1.02 0.98 CE3AA 060 1.02 0.93 CC5A/CD5A/CD5BA 060 0.99 0.98 COILS + 333(B,J)AV060120 FURNACE CD3(A,B)A 060 0.99 0.98 CC5A/CD5A/CD5BA 060 0.99 0.93 CD3CA 048 0.97 0.96 CD3(A,B)A 060 0.99 0.93 060 1.00 0.97 CC5A/CD5A/CD5BW 060 1.01 0.93 070 1.01 0.97 CE3AA 060 1.02 0.93 See notes on page 15. -14- DETAILED! COOLING `CAPACITIES* `Contin`ued EVAPORATOR `-CONDENSER,ENTERING°AIR TEMPERATURES -°F, AIR 85 _ ...95.' _' _ 105 . _ . _ '_` .. 115 125 ` ' f1 Capacity MBtuht E b �Toial? Capacity MBtuht ;Totalr +: •Capacity,, MBtuht aTotal zSCapacity,. Total Capacity MBtuht Total FM u t; EWB System TKw**4 • ._ System YKw**x = Notal Sens$ System Kw**rt "MBtuht f,Totalr Sens$1Kw!*;; System System Kv s", Sens$ Totalp Notal; +Sens$ ..,Total ;Sens$; .. 1.1 • ••• • 3 :1 1 •••Section ' 72 82 4'' r 31 5' 5 33 ' •'59 9'' 30 6 39 5:87'57 3 '29 7 = 6.46 6.36 54,5 1 28:7'` 37.8', ' T.10 7.00 '°' 51.6 47.6 27;7, 36.7' 7.80 7.68 67 57.Se' 40 8 5 25 X5,18' -55 3 i Q 8 5.78 3 ;� 52.9 X38 8 ;_' _ :50;3 •_ " '•46:9 1750 63tt 54.0ni . 39.7 .51 7,,' ;x.38.7 • 5.71.! =49.4 r t 37'7 'x6.29 ' >36.6 6.92 44.4 35.5" 7.59 r62 53:3,} , 49.6 5.17' : •51.2 *, 48.6 , 15.70. P 4819 . 47 5' i it 6:28 - .46)7 -46:2 6.91' . 44.4 44.4 7:59 57 52.2 52:2 5.15 _ ::50.4 ,50.4: ^ ; 5.69.; .48:5;" ' . 48.5,w ' 6.27 _ t 46;_5. • 46.5 -" 6.91 44.4 _ 44.4 7.59 _ 72' 63.1 32.9, . 5.46 `. 1,6095 32.0" 5.99`"` .;57:8 31:1 '°6.58 , '55:0 i ' ;30;1' 7.22 "52.0 29.1 7.92 67 58.4 43.3' ; ; 5.37 ; 56:1 42.3 5.90 • j53.5 41°"4 :; 6.49. t- .50"9. . 40.3 ' 7.12 48.1 39.2 7.81 2000 63tt 54.7 42.1 530 " 52.4 ' - 41:1 5.83 50:0 " = 40.1 6.41 47:5 -• 39:0 • --7.04 44.9 37.9 7.72 62 54.3 53.0 5.30 ` Z X52.2 = 1'51.1.t, 5.83' 50 0 50.0 '6:41 = 47.91!. 47.9 7.05 45.7 45.7 7.74 57 53.9 53.9 '5:29 ''52.0`.` '52.6-* 5:83: 50:1 "" ` 50.1 ' 6.41 ,; ;, 47.9 47.9 7.05 45.7 45.7 7.74 72 P 63.5 34.0 5.54 33.1 6.08 58.1 3Z.1- 6. i7" -55.2 ,�, 31.2 7.32- 52.2 30.2' 8.01 67 58.9 45.2" 5.46 '4,:60.9 '•,56:4 -44.3.. 6:00 X53:8 43.,3-. -;6:58 � - 51:2 -- -, 42:3 =,,-7.22 - 48.4 41.1 7.90 2200 63tt 55.1 43.9 :. 5.40 '52.8 42.9. ` n5."93 -50.3- 419 _6.51 - ' 47.8 40.8 7.14 45.1 39.6 7.81 62 55.1 •55.0 5.40 53.1 53.1 ' 5,93' x' 51;1 51.1 6.52 , .48.8 ' 48.8 7.16 46.5 46.5 7.85 57 55:1 55.1 .5.40 53.T ""53 1 ;F5:93 x.51:0" 51.O;F ` 6.52'i"48:8, - 48.8 7.16 46.5 46.5 7.85 t' Multipliers'for Determining the -P'erfo'rmance Witlibttier Indoor Sections Unit Cooling .' .- ._ , Indoor. Umt" Cooling Capacity Power .Indoo`r Section•: Size Capacity Power" _ b' -^ Section. Size` ` FB4ANB~ "070'-' " 1.00 ._"1:00 _ .:;� ,CE3AA"4,___ ;'' _O60'_.._' 0.98., 0.97 F(A,B)4AN(F,B)... _060,_ 0.98. COILS_+333(B,J)AV060100 FURNACEy� FC4BN6 .. 070 1.01 Q99?`" ;CC5A/CD5A/CD5BA. A60.:' 0.95 0.96 FC46N(F,B) 060 0.98 1"00=;�„,CD3(A;B)A• -. ;-. = 060- = 0.95" 0.96 FG3AAA 060' - 0.96 0:97" CC5A/CD5A%CD5BW ` = - •060 0.97 ' = 0.96 FK4ANF,, ' ,#006ca, ia.:': 1:01• .-. X0:96. py,.: ::,".:CE3AA., a060z.s,:; �+0.98.�.-.'' 0:9,6•. __,K46NB,_ s006mw -'°;-x;.;1.01 t� ., lsr$0.,95' #3� jirTr�+ t COILS,+-333(B;J)AV060100FURNACE ",,�'r' ; CC5A/CD5A/CD5BA , 060 , %' 0.95 ' 0.97; `'CC5A/CD5A/CD5BA• t•060 , ' 0.95 0.98 CD3(A,B)A 060 ` 0:95 0:9T :M3(A,B)A'1;, . � ,' 060 0.95 0.98 CD3CA 060 0-.95 0.98' CCWCD5A/CD5BW� "' `060 0.97 _ '0:97 070 0:96 0.98; , .. CE3AA 060 0.98 0.98 :CD56W„ a, 060 • 0.97, - 0.9T r. .fir. * Detailed cooling capacities are based on indoor and outdoor�unit at the same elevation per:ARlsfandard 210/240 89. If additionaFtubing length and/or indoor unit is'located above -outdoor unit a'slight variation in capacrity may -occur. t Total and sensible capacities are net capacities'Blower motor heathas been subtracted # Sensible:capacities"shown are iased'on 80°F'(27°C) entering air:at the'indoor coil.'For sensible capacities'at other than 80°F (27°C), deduct 835Btuh (245 kw) per 1000CFM (480 US) of indoor coil -air for each degree -below 80°F -(27°C); or.`add 835 Btuh'(245;kw) per 1000 CFM;(480 US) of indoor coil air per degree above°80°F (270C). ** System kw is total of indoor and outdoor unit kilowatts. tt At TVA rating indoor condition (750F edb/63°F ewb). All other indoor air temperatures are at 80°F-66., EWB-Entering Wet Bulb - -s1;5- HEAT PUMP HEATING PERFORMANCE See notes on page 19. -16- OUTDOOR COIL ENTERING AIR TEMPERATURES °F -3 7 17 27 37 47 57 67 INDOOR AIR Capacity MBtuh Total Powe Capacity MBtuh Total Powe Capacity MBtuh Total Capacity Powe MBtuh Total Powe Capacity Total MBtuh Powe Capacity Total MBtuh Powe Capacity MBtuh Total Powe Capacity MBtuh Total Powe EDB 65 CFM 550 650 750 Total 8.04 8.29 8.50 Linteg' 7.39 7.62 7.82 KwtTotal 1.30 1.34 1.38 Integ• .. 1 9.79 8.99 10.1 9.24 10.3 9.44 Kwt 1.36 1.40 1.44 Total Outdoor 11.6 11.8 12.1 Integ' 10.5 10.8 11.0 Kwt Total Secti•n 1.42 13.4 1.46 13.7 1.49 13.9 Integ' With 11.9 12.2 12.4 Kwt F(A,B)4ANF024 1.49 1.51 1.54 Total 15.2 15.6 15.8 Integ• Kwt 13.9 1.55 14.2 1.57 14.4 1.60 jAAg1jnLet1 KL IndoorSection 17.1 17.1 1.62 17.3 17.3 1.63 17.2 17.2 1.63 Total 18.5 18.1 18.3 linten' 18.5 18.1 18.3 Kwt 1.66 1.66 1.67 Total 19.2 18.8 18.7 Integ' 19.2 18.8 18.7 Kwt 1.72 1.69 1.69 70 550 650 750 7.66 7.91 8.13 7.04 7.28 7.48 1.31 1.35 1.39 9.45 8.69 9.71 8.93 9.94 9.13 1.3810.2 1.41 1.45 11.5 11.7 10. 5 10.7 1.44 1.48 1 .51 13.0 13.3 13.6 11.6 11.8 12.1 1.51 1.54 1.57 14.8 15.2 15.5 13.5 13.8 14.1 1.58 1.61 1.63 16.7 17.0 17.0 16.7 17.0 17.0 1.66 1.67 1.67 18.4 18.3 18.3 18.4 18.3 18.3 1.73 1.72 1.72 19.4 19.1 18.7 19.4 19.1 18.7 1.79 1.76 1.75 75 550 650 750 7.23 7.49 7.71 6.65 6.89 7.10 1.31 1.35 1.40 9.11 8.37 9.37 8.61 9.59 8.81 1.39 1.43 1.47 10.9 11.1 11.4 9.90 10.2 10.4 1.46 1.50 1.53 12.6 13.0 13.2 11.2 11.5 11.7 1.54 1.56 1.60 14.5 14.8 15.1 13.2 13.5 13.7 1.61 1.64 1 1.66 16.3 16.7 1 16.9 16.3 16.7 1 16.9 1.70 1.71 1 1.72 18.1 18.2 1 18.0 18.1 18.2 1 18.0 1.78 1.77 1 1.77 19.1 19.0 1 18.6 19.1 19.0 1 18.6 1.83 1.81 1 1.80 Multipliers for Determining the Performance With Other Indoor Sections Indoor Section Unit Cooling Indoor Unit Cooling Size Capacity Power Section Size Capacity Power F(A,B)4ANF 018 0.97 1.02 CD3(A,B)A 018 0.96 1.03 024 1.00 1.00 024 0.98 1.01 FC4BNF 024 1.00 1.00 CD3CA 024 0.99 1.00 FD3ANA 018 0.98 1.02 CE3AA 1 024 1 0.99 1.00 024 0.98 0.98 CF5AA 024 1 0.99 1.00 FF1(A,B)NA 018 0.96 1.00 CGSAA 024 1 0.99 1.00 024 0.99 0.99 COILS + 333(B,J)AV036060 FURNACE FG3AAA 024 0.99 1.00 CCC5A/CD5A/C05BA 024 0.94 0.94 FK4BNF 001 0.98 0.91 CC5A/CD5A/CD5BW 024 0.94 0.94 002 0.98 0.89 CD3(A,B)A 024 0.94 0.94 CC5A/CD5A/CD5BA 725 9.44 8.68 65 825 9.62 8.85 925 9.79 9.00 018 0.96 1.03 CE3AA 024 0.94 0.93 024 0.98 1 1.01 - - - .. 1 Outdoor Secti•n With F(A,B)4ANF024 IndoorSection 1.78 11.9 11.0 1.83 14.4 13.1 1.87 17.1 15.2 1.91 20.2 18.4 1.95 23.6 23.6 2.01 27.6 27.6 2.09 32.0 32.0 2.21 1.81 12.1 11.1 1.85 14.6 13.3 1.88 17.3 15.4 1.91 20.4 18.6 1.94 23.8 i 23.8 1.99 27.9 27.9 2.07 32.4 32.4 2.18 1.84 12.2 11.3 1.87 14.8 13.4 1.90 17.5 15.6 1.92 20.6 18.8 1.95 24.1 11 24.1 1.99 28.2 28.2 2.06 32.7 32.7 2.17 70 725 825 925 9.14 9.33 9.49 8.41 8.58 8.73 1.84 1.87 1.89 11.7 10.7 11.9 10.9 12.0 11.1 1.89 1.91 1.94 14.2 14.4 14.6 13.0 13.1 13.3 1.94 1.95 1.97 16.9 17.1 17.3 15.0 1.99 15.2 1.99 15.4 2.00 20.0 20.2 20.4 18.2 18.4 18.6 2.04 23.3 2.03 23.6 2.03 23.8 23.3 23.6 23.8 2.10 2.08 2.08 27.3 27.6 27.8 27.3 27.6 27.8 2.19 2.16 2.15 31.7 32.0 32.3 31.7 32.0 32.3 2.32 2.28 2.26 75 725 825 925 8.83 9.01 9.18 8.12 8.29 8.45 1.90 1.92 1.95 11.4 10.5 11.6 10.7 11.8 10.8 1.96 1.98 2.00 14.1 14.2 14.4 12.8 13.0 13.1 2.02 2.03 2.05 1 16.8 16.9 17.1 14.9 2.07 15.0 2.07 15.2 2.08 1 19.8 20.0 20.2 1 18.0 18.2 18.3 1 2.13 23.1 2.12 23.4 2.12 1 23.6 1 23.1 23.4 23.6 1 2.20 2.18 2.17 27.0 27.3 27.5 1 27.0 27.3 27.5 1 2.30 2.26 2.25 1 31.3 31.7 32.0 1 31.3 31.7 32.0 2.43 2.38 2.36 Multipliers for Determining the Performance With Other Indoor Sections Indoor Section Unit Heating Indoor Size Capacity Power Section Unit Heating Size Capacity Power FB4AN(A,F) 030 1.00 1.00 CC5A/CD5A/CD5BW 030 1.00 1.03 F(A,B)4ANF 024 1.00 1.00 CD3(A,B)A 030 1.00 1.00 024 1.00 1.04 030 1.00 1.03 FC4BNF 024 1.00 1.00 CD3CA 030 1.00 1.00 024 1.00 1.02 024 1.00 1.01 030 1.00 1.01 FD3ANA 036 1.00 1.00 030 1.00 0.97 CE3AA 024 1.00 1.00 024 1.00 1.02 FF1(A,B)NA 030 1.00 0.99 030 1.00 0.98 CF5AA 024 1.00 1.02 FG3AAA 024 1.00 1.02 CG5AA 024 1.00 1.02 FK4BNF 001 1.00 0.94 COILS+ 333(B,J)AV036060FURNACE 002 1.00 0.90 CCC5A/C05A/CD5BA 030 1 1.00 1.01 003 1.01 0.90 CC5A/CD5A/CD5BW 030 1.00 1.01 CC5A/C05A/CD5BA 024 1.00 1.04 CD3(A,B)A 030 1.00 1.01 030 1.00 1.03 CE3AA 030 1.01 0.98 See notes on page 19. -16- HEAT PUMP HEATINGPERFORMANCE Continued See notes on page 19. 17 A OUTDOORCOIL` ENTERING AIR TEMPERATURES'F -3 7 17 27 37 47 57 67 INDOOR AIR Capacity MBtuh Total Pdwe Capacity, MBtuh�+'Powe_ Total Capacity MBtuh Total Capacity? Powe ' _,MBtuh •Powe ,Total Capacity„ Total ..',MBtuh °Powe Capacity Total ^"MBtuh'"''Powe - 'Capacity' 'MBtuh ="Powe Total Capacity MBtuh Total Powe EDB ` ;CFM Total, Integ• . Kwt. _Total Integ' .. 1 Kwt,: 1 Total. Outdoor Integ'. , Kwt, Total Secti• Integ` . Kwt, Totaf Integ• _ Kwt. 1 1 ;Total Indoor ;29.8 `30.0' 30.4,,,3014; Integ' `Kwt, Section _29.8 '2.41 .30;0" 2.46. 2.46 TotaP 35.5, 35.7 36.2 Integ' `35.5 35.7 36.2 -Kwt`Total- 2.68. 2.66 2.65 41.7 ` 41.9 42.5 Integ' 41.7 .;41.9 42.5 _Kwt 2.93 2.92 2.89 65 900 950 1125 12.1 12.2 12.4 11.1 11.2 11.4 1.93 1.94 1.97 14.9 13.7 14.9 13.7 15.2 13.9 2.01 .2.02 2.05 17.9 .18.0. 18.3 16.3 ;16.4 16.6 2.10 2.10 '2:13 21.3 ,21.4 21.8..19.3` .19.0 •19.0 2.20. 2.20':25,4 2.22 ; '25.3 '25.8 '23.0'."232.' 23.2 ':23.5 2.32 2:33 70 900 950 1125 11.9 12.0 12.2 11.0 11.0 11.3 ,2.00 '2.01 2.05 14.7 13.5 14.8 13.6 15.0' 13.8 2.10, 2.10 2.13 17.7 `17.8 -18.11 116.2 16.2 :.16.5 -2.19 2..19 '2.21 `21.1 21.2 ' 21.5 18.8: 18.8: 19.11 2.29 k2:29 2.31 25.0 .25.2 25.5. c22.8';2.42 '22.9 23.2 2:42 2:42- 29.5 29.6 30.0 29.5`'.2;57 29.6 30.0 2.57 2.56 35.0 35.2 35.7 35.0 35.2 35.7 2.79 2.77 2.75 41.1 41.3 42.0 41.1. 41.3 42.0 3.05 3.03 3.00 75 900 950 1125 11.7 11.7 12.0 10.7 10.8 11.1 2.08" 2.09 2.13. 14.6 13.41,2.10' '.14.7 13.5 14.9 13.7 ,2.19' 2.19 2.22 ;17.6 ;17.6 -.17.9,,,'16.3.,'2.30 16.0: 16.9`; :2.28 -2.29 20.9 .21.0 21.3 18.6 18 .7, 18.9- 2.40 " 2.39 2:40 24.8 24.9 25.2 22.5 22.6 23.0', 2.53 2.52 2.52 29.1 29.3 29.7 29.1 29.3 29.7 2.69 2.68 2.66 34.6 34.8 35.3 34.6 34.8 35.3 2.91 2.89 2.86 40.6 40.8 1 41.4 1 40.6 40.8 41.4 3.18 3.16 1 3.12 Multiplies for Determining the Performance With Other Indoor Sections Indoor Section Unit Heating Indoor Size; Capacity' _: Power Section - Unit Heating Size Capacity - Power F(A,B)4ANF 030 1.00 1.00 CD3CA 036 -1.00 0.99 030 1.00 1.02 036 1.00 1.01 FC4BNF 030 1.00 1.00 CD5A/CD5BW. 036 0.99 0.97 036 1.00 0.99 CE3AA 030 1.00 " 0.98 030 0.99 0.99 FWANA 036 0.99 0.99 FF1(A,B)NA 030 0.99 0.98 CF5AA 036 0.99 0.98,. FG3AAA 036 0.99 0.98 CGSAA 036 0.99 0.98 FK4BNF 001 0.99 _ .. _ 0.93 COILS + 333(B,J)AV036060 FURNACE ✓�",' ' =`' C'' 002 0.99 0.91- '' CC5A/CD5A/CD5BA,' 036' . 0.99 0.95 .003 0.97 0.89 ' .CD5A/CD5BW 036' 0.99 0.95 004 0.99 0.87.. CD3(A,B)A, 036 0.99 0.95 CC5A/CD5A/CD5BA 030 0.98 1.02 CE3AA_- _ 036 0.99 0.97 036 0.99 0.97,+ COILS .+ 333(B,J)AV048080 FURNACE' CC5A/CD5A/CD58W 030' 0.98 ' .1.02_ CC5A/CD5A/CD5BA 036 0.99 0.94 CD3(A,B)A 030 0.98. '1.02CD5A/CD5BW 036 0.99 0.94 036 0.99 0.97 •_,; _CD3(A,B)A. �.. 036 0.99 0.94 ALU-CE3AA*. ,-036. , L0.99'.: 0.96 662CO36-AOutdoor Secti• 1 . Indoor Section 65 5:100 1200' 1350 15.6 15:8 16.1 '•14:4; ',.14.6 `14.8 ' 2 55 ,2-58,. 282'i19.5 •T.9:1. ,;19:3 ;17.7: `18.0-'2.70 i 2:64:23.6.*3. ' 2.66 22:8 :.23.1' 20.8 21.1' 2.74.: 2.77 26.8; 1.27.1' _23.8 '. 2.82 24'1.:;:;2.84 •313 ; 31.6'; ;28.4• 28.7,'2.93 2;92,- 2:92 -36.5 -36.9 36i$-' 36.9. 3.05 3:05`, 43'.0 43.5 43.0 43.5' 3.23 3.23 49.9 50.5. 49:9 50.5 -3.46 "3.44 70 1100 1200 1350 15.2 15.4 15.7 ,-14.0 14.2 14.5 2;64 2.67' 2.72 .18.8 17.3' 19.0 17.5, 19.3 17.7 2.74 .2.76 ' 2.80 -,22.4 22.6 22.9 20.4 20.6 20.9 2.84 2.85' 2.88 :26.3 ",26.5 .26:8 .23.3 '.2:94 23.5 2.94 23.8' 2.96 M'7; 230.9' 31.3 27,91 28.1 28:4 3.05 3.05 3.06 35.7 :36.0 . 36.4 .35.7 36.0' ' 36.4 3.19 3.18 3.18 42.0 42.4 1 42.9 42.0 42.4 42.9 3.39 3.37 3.36 48.8 49.2 49.8 48:8 49.2 49.8 3.63 3.60 3.58 75' 1100 1200 13501 14.8 15.0 15.3 '13.6 13.8: 14.1 2.74. 2.77 2.81 18.4 16.9 18.6 -17.1 1 18.9 1 17.4 2.84 2.86 1 2.90 22.1 22.3 1,22.6 20.2 •20.4 1 20.6 2.96 2.97 1 3.00 26.0 .26.2 1 26.5 23.1 3.06 23.3 3.07 1 23.6 1 3.09 :30.3 '30:6 1'30.9 27.6 27.8 1 28.1 3.18 3.18. 1 3.19 35.3 35.6 36.0 35.3 35.6' ' 36.0 3.33 3.32 3.31 41.5 41.9 '42.4 41.5 41.9 42.4..3:50 3.53 3.51 48.1 48.5 49.1 48.1 48.5 49.1 3.78 3.75 3.72 Multipliers for Determining the Performance With Other Indoor Sections Indoor Section 'Heating Heating Unit Indoor; Unit o , �;• Size - Capacity'.;';'. Power-,�,;.; .. Section- Size w .Capacity Power F(A,B)4ANF .. 036 1.00 1.00 '--. CF5AA i 036 0.99 a 0.98 F(A,B)4AN(F,B) 042 0.99.. 0.97 '; CG5AA'_ .. _ _036" 0.99' _ 0.98 FC4BNF 036 1.00 :°i . 1.01 . COILS + 333(BJ)AV036060 FURNACE ,. w y FC4BN(F,B) 042 0.99 - 0.96 CC5A/CD5A/CD5BA 042 ; 0.98 , 0.96 FG3AAA 036 0.99 0.98 ` CC5A/CD5A/CD5B,W -- 042 0.98 " 0.96 FK4BNB 005. 0.99 0.85 CD3(9,B)A - 042 0.98 0.96 FK4BNF 002 0.98 0.93 -U- CE3AA 042 -0.99 0.95 003 0.98 0:90 , COILS + 333(B,J)AV048080 FURNACE 4 a S' • : _ 004 0.98 -0.89:1 CC5A/CD5A/CD5BA 04211 0.98 1 0.94 CC5A/CD5A/CD5BA 036 0:99 - 0.98 • CC5A/CD5A/CD5BW 042 1 0.98 1 0.94 042 0.99-- 0.98 CD3(A,B)A - 042. 1 0.98 1 0.94 043 0.99 0.98, CE3" 042 1, 0.98 0.93 CD5A/CD5BW 036 0.99. 0.98 -• -COILS+ 333(B,J)AV060100FURNACE.' j'; r X , CD3(A,B)A 036 0.99 •-:0.98 CC5A/CD5A/CD5BA 042. 0.98 0.93 042 0:99 0.98 CC5A/CD5A/CD5BW 042,; 0.98 0.93 CD3CA 036 0.99 _ 1:00 CD3(A,B)A 042 -• 0.98 0.93 042- - 0.99 - 1.00 CE3AA --. 042, -0.98 0.92 048 1.00 0.98 COILS + 333(B,J)AV060120 FURNACE, CC5A/CD5A/CD5BW 042 0.99 0.99 - CC5A/CD5A/CD5BA- -042---, 0.98 0.94 043 0.99 0.98 CCSA/CD5A/CD5BW 042 0.98 0.94 CE3AA 036 0:99 0.99 ---CD3(A,B)A -042 0.98 0.94 042 1.00 0.97 CE3AA 042 0.98 0.93 See notes on page 19. 17 A HEAT PUMP HEATING PERFORMANCE Continued See notes on page 19. -18- OUTDOOR COIL ENTERING AIR TEMPERATURES °F 3 7 17 27 37 47 57 67 INDOOR AlR Capacity MBtuh Total Powe Capacity Total Capacity Total MBtuh Powe MBtuh Powe Capacity Total Capacity MBtuh Powe MBtuh Total Powe Capacity MBtuh Total Capacity Powe MBtuh Total Powe Capacity MBtuh Total Powe EDB 65 CFM 1275 1475 1675 Total 19.0 19.4 19.8 Integ• 17.5 17.9 18.2 Kwt 2.86 2.92 2.98 Total lnteg• Kwt Total .. 14Outdoor 22.8 21.0 2.96 26.9 23.2 21.3 3.00 27.3 23.5 21.6 3.06 27.7 Integ• Kwt Section14 24.5 3.05 24.9 3.09 25.2 3.13 Total 31.4 31.8 32.2 Integ' Kwt Total Integ' Kwt Total Integ' •••Section Kwt Total Integ' Kwt Total Integ• Kwt 27.9 28.2 28.6 3.16 3.18 3.21 36.4 36.9 37.3 33.1 33.5 33.9 3.28 3.29 3.31 42.5 43.0 43.5 42.5 43.0 43.5 3.46 49.9 3.45 50.6 3.47 51.1 49.9 50.6 51.1 3.71 3.69 3.69 57.6 58.4 59.1 57.6 58.4 59.1 4.00 3.97 3.97 70 1275 1475 1675 18.6 19.0 19.4 17.1 17.5 17.8 2.96 3.02 3.08 22.6 22.9 23.3 20.7 3.08 21.1 3.12 21.4 3.18 26.6 27.0 27.4 24.3 3.19 24.6 3.22 25.0 3.26 31.0 31.5 31.8 27.6 27.9 28.3 3.30 3.31 3.34 36.0 36.5 36.9 32.7 33.2 33.6 3.43 3.43 3.45 41.9 42.5 43.0 41.9 42.5 43.0 3.61 49.2 3.60 49.9 3.61 50.5 49.2 49.9 50.5 3.86 3.84 3.84 56.8 57.6 58.3 56.8 57.6 58.3 4.17 4.13 4.12 75 1275 1475 1675 18.1 18.5 18.9 16.7 17.0 17.4 3.07 3.12 3.19 22.2 22.6 23.0 20.4 3.20 20.8 3.25 21.1 1 3.30 26.3 26.7 1 27.1 24.0 3.32 24.3 3.35 1 24.7 1 3.39 30.7 31.1 1 31.5 27.3 27.6 1 28.0 3.44 3.46 1 3.49 35.6 36.1 36.5 32.4 32.8 33.2 3.58 3.58 3.60 41.4 42.0 42.5 41.4 42.0 42.5 3.77 48.6 3.75 49.3 3.76 49.9 48.6 49.3 49.9 4.03 4.00 3.99 56.0 56.9 57.5 56.0 56.9 57.5 4.34 4.29 4.28 Multipliers for Determining the Performance With Other Indoor Sections Indoor Unit Heating Indoor Section_ Size Capacity Power Section Unit Size Heating Capacity Power L-F(A,B)4AN(F,13)---� 042 _ 1.00 1.00 CG5AA 048 0.99 0.98 qr^_ _ _ 048- 1.01 0.97 ) COILS + 333(B,J)AV048080 FURNACE FC4BN(F,B) 042 1.00 1.00 CD5A/CD5BA 048 0.99 0.97 048 1.01 0.97 CC5A/CD5A/CD5BW 048 0.99 0.97 FG3AAA 048 1.00 0.96 CD3(A,B)A 048 0.99 0.97 FK4BNB 005 1.00 0.89 CC5A/CD5A/CD5BC 048 0.98 1.00 FK4BNF 003 0.98 0.95 CE3AA 048 0.99 0.96 CC5A/CD5A/CD5BA 042 0.99 0.99 COILS + 333(8,J)AV060100 FURNACE CD3(A,B)A 042 0.99 0.99 CD5A/CD5BA 048 0.98 0.94 048 1.00 0.98 CC5A/CD5A/CD5BW 048 0.98 0.94 CD3CA 042 0.99 1.04 CD3(A,B)A 048 0.98 0.94 048 1.00 1.00 CC5A/C05A/CD5BC 048 0.98 0.99 CC5A/CD5A/CD5BW 042 1.02 1.04 CE3AA 048 0.99 0.94 048 1.00 0.98 COILS + 333(8,J)AV060120 FURNACE CD5A/CD5BA 048 1.00 0.98 CD5A/CD5BA 048 0.99 0.97 CC5A/CD5A/CD5BC 048 0.99 1.01 CC5A/CD5A/CDSBW 048 0.99 0.97 CE3AA 042 1.00 0.98 1 CD3(A,B)A 048 0.99 0.97 048 1.00 0.97 CC5A/CD5A/CD5BC 048 0.98 1.00 65 CF5AA 1400 1600 1800 23.4 23.8 24.2 048 662CO48-A,BOutdoor 21.5 3.51 21.9 3.56 22.3 3.61 27.8 25.6 28.2 25.9 28.6 26.3 0.99 0.98 Section14: 3.62 32.1 29.3 3.71 36.7 3.65 32.5 29.7 3.72 37.1 3.70 32.9 30.0 3.75 37.5 32.6 3.80 33.0 3.80 33.3 3.82 CE3AA 41.7 42.2 42.7 048 0.99 0.96 Indoor Section 38.0 3.91 48.0 48.0 4.08 55.4 -577-4.37 62.8 62.8 4.59 38.4 3.89 48.6 48.6 4.03 56.1 56.1 4.24 63.7 63.7 4.51 38.9 3.90 49.1 49.1 4.02 56.8 56.8 4.22 64.5 64.5 4.47 70 1400 1600 1800 22.8 23.2 23.6 21.0 3.64 21.4 3.70 21.7 3.75 27.4 27.8 28.2 25.2 25.6 25.9 3.77 3.81 3.85 31.8 32.2 32.6 29.0 29.4 29.7 3.88 3.90 3.93 36.3 36.7 37.1 32.3 3.99 32.6 3.99 33.0 4.00 41.3 41.8 42.2 37.5 38.0 38.4 4.11 4.09 4.09 47.4 48.0 48.5 47.4 48.0 48.5 4.28 4.24 4.22 54.7 55.4 56.0 54.7 55.4 56.0 4.53 62.0 4.45 62.9 4.42 63.6 62.0 62.9 63.6 4.82 4.72 4.67 75 1400 1600 1800 22.1 22.6 23.0 1 20.3 3.78 20.7 3.83 21.1 3.89 26.9 27.3 27.7 24.7 25.1 25.5 3.92 3.96 4.00 31.5 31.9 32.2 28.7 29.1 29.4 4.06 4.08 1 4.11 1 35.9 36.4 36.8 1 31.9 4.18 32.3 4.17 32.7 1 4.19 1 40.8 41.3 41.8 1 37.1 37.6 38.0 4.31 4.29 1 4.29 46.8 47.4 1 48.0 1 46.8 47.4 48.0 1 4.49 4.44 4.43 54.0 54.7 1 55.3 1 54.0 54.7 55.3 4.75 61.1 4.67 62.0 1 4.63 1 62.8 1 61.1 62.0 62.8 1 5.05 4.94 4.89 Multipliers for Determining the Performance With Other Indoor Sections Indoor Section Unit Heating Indoor Size Capacity Power Section Unit Heating Size Capacity Power FB4ANB 070 1.00 0.93 CE3AA 048 1.00 1.00 048 1.00 1.02 F(A,B)4AN(F,B) 060 1.00 0.99 060 1.00 0.97 CF5AA 048 1.00 1.05 FC4BN(F,B) 048 1.00 1.02 CG5AA 048 1.00 1.05 060 1.00 0.98 COILS + 333(B,J)AV048080 FURNACE FG3AAA 048 1.00 1.00 CC5A/CD5A/CD5BA 060 1.00 T 1.06 060 1.00 0.98 CD3(A,B)A 060 1.00 1.06 FC4BNB 070 1.00 0.93 CC5A/C05A/CD5BW 060 1.00 0.99 FK4BNB 006 1.00 0.91 CE3AA 060 1.00 0.99 CD5A/CD5BA 048 1.00 1.03 COILS + 333(B,J)AV060100 FURNACE CD3(A,B)A 048 1.00 1.03 CC5A/CD5A/CD5BA 060-T 1.00 1.04 060 1.00 1.04 CO3(A,B)A 060 1.00 1.04 CD3CA 048 1.00 1.06 CC5A/CD5A/CD5BW 060 1.00 0.98 060 1.01 1.02 CE3AA 060 1.00 0.98 070 1.01 1.00 COILS + 333(B,J)AV060120 FURNACE CC5A/CD5A/CD5BC 048 1.00 1.10 CC5A/CD5A/CD5BA 060 1.00 L 1.05 CC5A/CD5A/CD5BW 048 1 1.00 1.03 CD3(A,B)A 060 1.00 1.05 060 1 1.00 1 0.99 CC5A/CD5A/CD5BW 060 1.00 0.99 CC5A/CD5A/CD5BA 1 060 1 1.00 1 1.04 CE3AA 060---T-1.00 0.99 See notes on page 19. -18- I Dimensions UNIT W W ELEC CHAR A In. B In. C In. D In. E In. F In. G In. H In. J In. KM In. In. In. N In. p In. SHIPPING WEIGHT Lb. 662CO18 A X 010 1 1 1 ,'• O 22 1/z 3715/16 33/16 5/b 3 11/16 18 1% 193/4 21 5/§ 14 3/6 18 7/6 221/16 103/4 11 141/4 144 662CO24 A X 010 1-- 1 1 1 1 I I I I O 30 2715/16 33/16 3/4 6 ! 23 1h 271/4 29 1/t 20 26 3/tf 299/16 '151/12 15 , 11 3/4 171 662CO30 A X 010 01 30 1 39 15/16 33/16 1 3/4 6 1112 23 1112 271/4. 29 A/6 20 ' 26 3% '29 9/16 15 3/4 ` 143/4 -163/4 193 662CO36 A X O O O 30 2915/16 33/16 3/4 6 1112 23 1112 271/4 29 1/t 20 263/8 299/16 141/4 .15 .114 213 662CO42 A X O O O 30 2915/16 31/4 7/8 61112 23.1/1 271/4 291A 20 '263% -29;9/i'6 151/2 143/4 141/4 .,214 :j,662C048_.'A•B-'X''O O O `_30_J_315/16 3?/4 '7113 6 231112 27_7/a _29j<b '. 20 263/b 20N 15'1`214,4/ 14 255 662CO60 A, B X O O O . 30 3915/16 3 1/4 ?its 6 1112. 23 1112 1 27 1/4 29 1% 1 20 1.26 3/8 1 29 9/16 .14 3/4 13 1142. 15 1112 283 BUILDING HEAT LOSS, 1000 BTU/HR .UNIT INTEGRATED HEATING CAPACITY, 1000 BTU/HR N W � CT1 O)• -!W . a Via. O O O O, O O p40 O O X=YES co `9 O=NO O' r- O cocr) - O 0, N OD I- O .... Aso .. - :xr..'• - :I,. R�1�`, AIR DISCHARGE M AIR1N AIR DISCHARGE FIELD POWER SUPPLY CONN. 7/8 IN -DIA HOLE WITH_- r.D• •O y. -.s .:. o.. ,-':® + 11/8 IN. DIA. -KNOCKOUT a: AND.13 / IN..DIA. ! N'. •. KNOCKOUT:..., a! i O K . E•- n1 AIR IN FIELD CONTROL SUPPLY AIR IN' _ L i CONN..?/g IN. DIA.'_ HOLE %IN. DIA. _ TIEDOWN. ®, `'�3/81N. DIA. LIQUID , KNOCKOUTS I LINE CONN; ,t- r • ! (2) PLACES O . :v P Q .. 0,17 i1 AIR DISCHARGE o 7/8 C E AIR IN F �I - 'D DIA. VAPOR -LINE CONN -/' "'.0/4 „ G NOTES: 1. Allow 301n. clearance to service side of ` unit, 48 In. above unit, 6 In. on MINIMUM one side, 12 In. on remaining side, and 24 In. UNIT SIZE MOUNTING PAD - between units for proper airflow. DIMENSIONS (in.) 2. Minimum outdoor operating ambient in cooling mode is 18 22 1112 x 22 1/2 55°F, max 125°F. 3. Maximum outdoor operating ambient in heating mode is 66°F. 24, 30, 36, 42, 48, 60 30 x 30 4. 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L' I I I I I I T 1 1 T 1 1 1 1 0 I I I T I I T ..'i. , �, ., '.W -r-+-'1--r- +I', I I I 'y --r- O - 1 1 N• 11 1.:I A I I I 1, I '� '-I _W. 11 - -i- I 17 1 1 1 1 -r-ry--r- 1 1 A I 1 I I I I 1 0 I 1 O I O 1 A - -r-r- -�-' -r -r -�-y t-�--r- r 1� 11 � O .. N coO r CD KW :-I v b it N' A94407 ©1995 BDP Co. Indpls, IN 46206 PRINTED IN U.S.A. -22- SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE UNIT MUST BE INSTALLED IN ACCORDANCE • WITH INSTALLATION INSTRUCTIONS Cancels: PDS 662C.18.1 D Catalog No. DN -3266-203 8-95 HEAT PUMP HEATING PERFORMANCE Continued ' The Btuh heating capacity values shown are net integrated values from which the defrost effect has been subtracted. The Btuh heating from supplement heaters should be added to those values to obtain total system capacity. t The kw values include the compressor, outdoor fan motor, and indoor blower motor. The kw from supplement heaters should be added to these values to obtain total system kilowatts. EDB -Entering Dry Bulb SYSTEM DESIGN 1. Intended for outdoor installation with free air inlet and outlet. Outdoor fan external static pressure available is less than 0.01 -in. wc. 2. Minimum outdoor operating air temperature for cooling mode without low -ambient operation accessory is 55°F (12.80C). 3. Maximum outdoor operating air temperature for cooling mode is 125°F (51.7C). 4. Minimum outdoor operating air temperature for heating mode is -30°F (-34.40C). 5. Maximum outdoor operating air temperature for heating mode is 66°F (18.9°C). 6. For reliable operation, unit should be level in all horizontal planes. 7. Maximum elevation of indoor coil above or below base of outdoor unit is: indoor coil above = 50 ft, indoor coil below = 150 ft. (See items 8 and following.) 8. For interconnecting refrigerant tube lengths greater than 50 ft, consult Long -Line Application Guideline available from equipment distributor. 9. Not more than 36 in. of refrigerant tube should be buried in the ground. If necessary to bury tubes under a sidewalk, provide a minimum 6 -in. vertical rise to the valve connections at the unit. 10. Use only copper wire for electric connection at unit. Aluminum and clad aluminum are not acceptable for the type of connector provided. 11. Mixmatches of indoor coil capacity more than 1 size larger than outdoor unit capacity may result in inadequate indoor comfort. OPTIONAL EQUIPMENT DESCRIPTION AND USAGE 1. Compressor Start Assist-Capacitor/Relay Type Start capacitor and start relay gives "hard" boost to compressor motor at each start-up. SUGGESTED USE: Installations where interconnecting tube length exceeds 50 ft. Installations where outdoor design temperature exceeds 105°F (40.6°C). Replacement installations with hard shut-off expansion valve or liquid line solenoid on indoor coil. Units installed with low -ambient controller. 2. Crankcase Heater An electric resistance heater which mounts to the base of the compressor to keep the lubricant warm during off cycles. Improves compressor lubrication on restart and minimizes chance of refrigerant slugging. May or may not include a thermostat control. SUGGESTED USE: When interconnecting tube length exceeds 50 ft. When unit will be operated below 55°F (12.8°C) outdoor air temperature. (Use with low -ambient controller.) All commercial installations. 3. Evaporator Freeze Thermostat An SPST temperature actuated switch which stops unit operation when evaporator reaches freeze-up conditions. SUGGESTED USE: All units where low -ambient controller has been added. 4. Filter Drier -Bl -flow A device for removing contaminants from refrigerant circulating in an air conditioner or heat pump system; bi-flow for heat pumps. SUGGESTED USE: All field -connected split -system units. 5. Heat -Pump Risers Six in. tall plastic rails that are used to elevate outdoor units above mounting pad. The risers are adjustable from 24- to 34 -in. long. SUGGESTED USE: Heat pump installations in light to moderate snowfall areas. Coastal installations. Windy areas or where debris can circulate. Rooftop installations. 6. High -Pressure Switch Auto reset SPST switch activated by refrigerant pressure on high side of refrigerant circuit. Cycles compressor off if refrigerant pressure rises to about 425 psig. Provides protection against compressor damage due to loss of outdoor airflow. SUGGESTED USE: Installations exposed to very "dirty" outdoor air. Installations where condenser inlet air temperature exceeds 115°F (46.7°C). 7. Interface Control An electric control for controlling a heat pump and gas or oil furnace system for maximum energy savings. It allows heat pump to operate down to a predetermined economic balance point temperature, then switches to allow furnace operation only below that temperature. KHAIC0101AAA requires outdoor thermostat (item 12) to be adjusted for economic balance point temperature. SUGGESTED USE: All heat pump and gas- or oil -fired furnace combination systems. S. Isolation Relay An SPDT relay which switches the low -ambient controller out of the outdoor fan motor circuit when the heat pump switches to heating mode. SUGGESTED USE: All heat pumps where low -ambient controller has been added. 9. Liquid Solenoid Valve (LSV) An electrically operated shut-off valve to be installed at the outdoor unit and which stops and starts refrigerant liquid flow in response to compressor operation. Maintains a column of refrigerant liquid ready for action at next compressor operation cycle. SUGGESTED USE: For improved system performance in air conditioners for certain combinations of indoor and outdoor units. (Refer to ARI Unitary Directory.) In certain long -line applications. (Refer to Long -Line Application Guideline.) 10. Low -Ambient Controller Head pressure controller is a cycle control device activated by a temperature sensor mounted on a header tube of the outdoor coil. It is designed to cycle the outdoor fan motors in order to maintain condensing temperature within normal operating limits (approximately 10('F high and 60°F low). The control will maintain working head pressure at low -ambient temperatures down to -20°F when properly installed. SUGGESTED USE: Cooling operation at outdoor temperatures below 55°F (12.8°C). 11. Motormaster A fan speed control device activated by a temperature sensor. Designed to control condenser fan motor speed in response to the saturated, condensing temperature during operation in cooling mode only. For outdoor temperatures down to -20°F, it maintains condensing temperature at 100°F t 10°F. SUGGESTED USE: Cooling operation at outdoor temperatures below 55°F. All commercial installations. 12. Outdoor Thermostat An SPDT temperature actuated switch which turns on supplemental electric heaters when outdoor air temperature drops below setpoint. SUGGESTED USE: Heat pump installations with multiple -stage supplemental heaters. Used with KHAIC00101AAA (Interface Control) 13. Secondary Outdoor Thermostat An SPDT temperature actuated switch which turns on a third stage of supplemental electric heaters when outdoor air temperature drops below the second -stage set point. SUGGESTED USE: Heat pump installations where 3 -stage operation of supplemental heaters is desired. 14. Service Alarm A current -sensing lockout relay which provides immediate notification that compressor is not operating during a call for heating or cooling. Used with proper room thermostat, the thermostat light is turned on signifying service is required. This can minimize electrical cost increase due to operation of supplemental heaters only. SUGGESTED USE: As a feature to notify owner immediately when the system is not operating most efficiently. 15. Sound Blanket Wraparound sound attenuation cover for the compressor. Reduces the sound level by about 0.2 bels. SUGGESTED USE: Unit installed closer than 15 ft to quiet areas -bedrooms, etc. Unit installed between 2 houses less than 10 ft apart. 16. Thermostatic Expansion Valve (TXV) A modulating flow -control valve which meters refrigerant liquid flow rate into the evaporator in response to the superheat of the refrigerant gas leaving the evaporator. Kit includes valve, adapter tubes, and extemal equalizer tube. Both hard shut-off and RPB valves are available. SUGGESTED USE: For improved system performance in cooling mode for certain combinations of indoor and outdoor units. (Refer to ARI Unitary Directory.) 17. Time -Delay Relay An SPST delay relay which briefly continues operation of the indoor blower motor to provide additional cooling after the compressor cycles off. SUGGESTED USE: For improved efficiency ratings for certain combinations of indoor and outdoor units. (Refer to ARI Unitary Directory.) -19- -20- OUTDOOR COIL ENTERING AIR TEMPERATURES *F -3 7 17 27 37 47 57 67 INDOOR AIR Capacity MBtuh Total Power Capacity MBtuh Total Capacity Power MBtuh Total Power Capacity MBtuh Total Power Capacity MBtuh Total Power Capacity MBtuh Total Power Capacity MBtuh Total Power Capacity MBtuh Total Powe EDB CFM Total Integ' Kwt Total integ' Kwt Total Integ' .. 1 . 1 Outdoor Kwt Total Secti•n Integ' Kwt With Total F134ANI3070 Integ' Kwt Total Integ' Indoor Section Kwt Total Integ' 72.9 73.5 73.4 Kwt 5.59 5.49 5.44 Total 83.5 82.4 82.3 Integ' 83.5 82.4 82.3 Kwt 5.94 5.77 5.72 65 1750 2000 2200 27.3 27.8 28.1 25.1 25.6 25.8 4.12 4.18 4.23 32.6 29.9 33.0 30.3 33.3 30.6 4.28 38.3 4.32 38.8 4.36 39.1 34.9 35.3 35.6 4.45 4.47 4.50 44.7 45.2 45.5 39.7 40.1 40.4 4.63 4.64 4.66 52.1 52.7 53.2 47.5 48.0 48.4 4.86 61.5 4.85 62.2 4.86 62.7 61.5 62.2 62.7 5.17 5.14 5.14 72.9 73.5 73.4 70 1750 2000 2200 26.9 27.3 27.7 24.7 25.1 25.4 4.29 4.35 4.40 32.3 32.7 33.0 29.7 30.1 30.3 4.48 38.0 4.52 38.4 4.56 38.8 34.6 35.0 35.4 4.65 4.68 4.71 44.3 44.8 45.1 39.3 39.8 40.1 4.85 4.86 4.88 51.6 52.2 52.7 47.0 47.5 47.9 5.09 5.07 5.08 60.8 61.5 62.1 60.8 61.5 62.1 5.41 5.37 5.37 72.1 72.9 73.3 72.1 72.9 73.3 5.84 5.78 5.72 83.1 82.3 82.4 83.1 82.3 82.4 6.24 6.05 6.01 75 1750 2000 2200 26.4 26.8 27.2 24.3 24.7 25.0 4.46 4.52 4.57 32.0 32.4 32.7 29.4 29.8 30.1 4.67 37.7 4.71 38.1 4.76 38.4 34.3 34.7 35.1 4.87 4.89 4.92 43.9 44.4 44.8 39.0 39.4 39.8 5.08 5.08 5.10 51.1 51.7 52.1 46.5 47.0 1 47.4 5.33 5.31 1 5.31 60.1 60.9 1 61.4 60.1 60.9 1 61.4 1 5.66 5.61 5.61 71.2 72.1 1 72.7 71.2 72.1 1 72.7 6.11 6.04 1 6.02 82.6 83.0 1 82.4 82.6 83.0 1 82.4 6.56 6.41 1 6.30 Multipliers for Determining the Performance With Other Indoor Sections Indoor Section Unit Size Heating Capacity Power Indoor Section Unit Size Heating Capacity Power FC4BNB 070 1.00 0.99 CE3AA 060 0.98 1.04 FC4BN(F,B) 060 1.00 1.04 COILS+ 333(B,J)AV060100FURNACE F(A,B)4AN(F,B) 060 1.00 1.04 CC5A/CD5A/CD5BA 1 060 1 0.97 1.07 FB4AN6 070 1.00 0.99 CD3(A,B)A 060 0.97 1.07 FG3AAA 060 0.98 1.04 CC5A/CD5A/CD5BW 060 0.98 1.01 FK4ANF 006 0.99 0.96 CE3AA 060 0.98 1.01 FK4BN6 006 0.99 0.96 COILS + 333(B,J)AV060120 FURNACE CC5A/CD5A/CD5BA 060 0.97 1.09 CC5A/CD5A/CD5BA 060 0.97 1.08 CD3(A,B)A 060 0.97 1.09 CD3(A,B)A 060 0.97 1.08 C133CA 060 0.99 1.05 CC5A/CD5A/CD5BW 060 0.98 1.03 CC5A/CD5A/CD5BW 1 070 060 1 1 0.99 1 0.98 1 1.02 1.05 CE3AA 060 - 0.98 - 1.03 - ' The Btuh heating capacity values shown are net integrated values from which the defrost effect has been subtracted. The Btuh heating from supplement heaters should be added to those values to obtain total system capacity. t The kw values include the compressor, outdoor fan motor, and indoor blower motor. The kw from supplement heaters should be added to these values to obtain total system kilowatts. EDB -Entering Dry Bulb SYSTEM DESIGN 1. Intended for outdoor installation with free air inlet and outlet. Outdoor fan external static pressure available is less than 0.01 -in. wc. 2. Minimum outdoor operating air temperature for cooling mode without low -ambient operation accessory is 55°F (12.80C). 3. Maximum outdoor operating air temperature for cooling mode is 125°F (51.7C). 4. Minimum outdoor operating air temperature for heating mode is -30°F (-34.40C). 5. Maximum outdoor operating air temperature for heating mode is 66°F (18.9°C). 6. For reliable operation, unit should be level in all horizontal planes. 7. Maximum elevation of indoor coil above or below base of outdoor unit is: indoor coil above = 50 ft, indoor coil below = 150 ft. (See items 8 and following.) 8. For interconnecting refrigerant tube lengths greater than 50 ft, consult Long -Line Application Guideline available from equipment distributor. 9. Not more than 36 in. of refrigerant tube should be buried in the ground. If necessary to bury tubes under a sidewalk, provide a minimum 6 -in. vertical rise to the valve connections at the unit. 10. Use only copper wire for electric connection at unit. Aluminum and clad aluminum are not acceptable for the type of connector provided. 11. Mixmatches of indoor coil capacity more than 1 size larger than outdoor unit capacity may result in inadequate indoor comfort. OPTIONAL EQUIPMENT DESCRIPTION AND USAGE 1. Compressor Start Assist-Capacitor/Relay Type Start capacitor and start relay gives "hard" boost to compressor motor at each start-up. SUGGESTED USE: Installations where interconnecting tube length exceeds 50 ft. Installations where outdoor design temperature exceeds 105°F (40.6°C). Replacement installations with hard shut-off expansion valve or liquid line solenoid on indoor coil. Units installed with low -ambient controller. 2. Crankcase Heater An electric resistance heater which mounts to the base of the compressor to keep the lubricant warm during off cycles. Improves compressor lubrication on restart and minimizes chance of refrigerant slugging. May or may not include a thermostat control. SUGGESTED USE: When interconnecting tube length exceeds 50 ft. When unit will be operated below 55°F (12.8°C) outdoor air temperature. (Use with low -ambient controller.) All commercial installations. 3. Evaporator Freeze Thermostat An SPST temperature actuated switch which stops unit operation when evaporator reaches freeze-up conditions. SUGGESTED USE: All units where low -ambient controller has been added. 4. Filter Drier -Bl -flow A device for removing contaminants from refrigerant circulating in an air conditioner or heat pump system; bi-flow for heat pumps. SUGGESTED USE: All field -connected split -system units. 5. Heat -Pump Risers Six in. tall plastic rails that are used to elevate outdoor units above mounting pad. The risers are adjustable from 24- to 34 -in. long. SUGGESTED USE: Heat pump installations in light to moderate snowfall areas. Coastal installations. Windy areas or where debris can circulate. Rooftop installations. 6. High -Pressure Switch Auto reset SPST switch activated by refrigerant pressure on high side of refrigerant circuit. Cycles compressor off if refrigerant pressure rises to about 425 psig. Provides protection against compressor damage due to loss of outdoor airflow. SUGGESTED USE: Installations exposed to very "dirty" outdoor air. Installations where condenser inlet air temperature exceeds 115°F (46.7°C). 7. Interface Control An electric control for controlling a heat pump and gas or oil furnace system for maximum energy savings. It allows heat pump to operate down to a predetermined economic balance point temperature, then switches to allow furnace operation only below that temperature. KHAIC0101AAA requires outdoor thermostat (item 12) to be adjusted for economic balance point temperature. SUGGESTED USE: All heat pump and gas- or oil -fired furnace combination systems. S. Isolation Relay An SPDT relay which switches the low -ambient controller out of the outdoor fan motor circuit when the heat pump switches to heating mode. SUGGESTED USE: All heat pumps where low -ambient controller has been added. 9. Liquid Solenoid Valve (LSV) An electrically operated shut-off valve to be installed at the outdoor unit and which stops and starts refrigerant liquid flow in response to compressor operation. Maintains a column of refrigerant liquid ready for action at next compressor operation cycle. SUGGESTED USE: For improved system performance in air conditioners for certain combinations of indoor and outdoor units. (Refer to ARI Unitary Directory.) In certain long -line applications. (Refer to Long -Line Application Guideline.) 10. Low -Ambient Controller Head pressure controller is a cycle control device activated by a temperature sensor mounted on a header tube of the outdoor coil. It is designed to cycle the outdoor fan motors in order to maintain condensing temperature within normal operating limits (approximately 10('F high and 60°F low). The control will maintain working head pressure at low -ambient temperatures down to -20°F when properly installed. SUGGESTED USE: Cooling operation at outdoor temperatures below 55°F (12.8°C). 11. Motormaster A fan speed control device activated by a temperature sensor. Designed to control condenser fan motor speed in response to the saturated, condensing temperature during operation in cooling mode only. For outdoor temperatures down to -20°F, it maintains condensing temperature at 100°F t 10°F. SUGGESTED USE: Cooling operation at outdoor temperatures below 55°F. All commercial installations. 12. Outdoor Thermostat An SPDT temperature actuated switch which turns on supplemental electric heaters when outdoor air temperature drops below setpoint. SUGGESTED USE: Heat pump installations with multiple -stage supplemental heaters. Used with KHAIC00101AAA (Interface Control) 13. Secondary Outdoor Thermostat An SPDT temperature actuated switch which turns on a third stage of supplemental electric heaters when outdoor air temperature drops below the second -stage set point. SUGGESTED USE: Heat pump installations where 3 -stage operation of supplemental heaters is desired. 14. Service Alarm A current -sensing lockout relay which provides immediate notification that compressor is not operating during a call for heating or cooling. Used with proper room thermostat, the thermostat light is turned on signifying service is required. This can minimize electrical cost increase due to operation of supplemental heaters only. SUGGESTED USE: As a feature to notify owner immediately when the system is not operating most efficiently. 15. Sound Blanket Wraparound sound attenuation cover for the compressor. Reduces the sound level by about 0.2 bels. SUGGESTED USE: Unit installed closer than 15 ft to quiet areas -bedrooms, etc. Unit installed between 2 houses less than 10 ft apart. 16. Thermostatic Expansion Valve (TXV) A modulating flow -control valve which meters refrigerant liquid flow rate into the evaporator in response to the superheat of the refrigerant gas leaving the evaporator. Kit includes valve, adapter tubes, and extemal equalizer tube. Both hard shut-off and RPB valves are available. SUGGESTED USE: For improved system performance in cooling mode for certain combinations of indoor and outdoor units. (Refer to ARI Unitary Directory.) 17. Time -Delay Relay An SPST delay relay which briefly continues operation of the indoor blower motor to provide additional cooling after the compressor cycles off. SUGGESTED USE: For improved efficiency ratings for certain combinations of indoor and outdoor units. (Refer to ARI Unitary Directory.) -19- -20- ' ' ^ ' TITLE-.2440041 FOR, ..' ' SINK? FAMILY RESIDENCE * � ^ 453%46 A\EWI)A. OB;W0 N~ ' LA QUINTA, .. ' ` ' ,PROJE,T DE5I8 ^ N. ` ~ �, ' FA AYCONS'RUCTD]N- TRAD�R �ACE ' ' ` - JNCI3; [)A. 9227(..'.e-:" � 611"77571760 , ` ~ ' � REPORT PREPARED BY: WENI�EL' .1W. VEITH ^ W^ vEIT, � H ARCHITECT WENDELL ' PO BnA 195p,* ' pALM GS, 'CA 1163 . (619) 310-1211 n . Ths SOMPLY24 computer oVogna&:ha; ~'' �used to `� o6yform the calculations s�ummarized inthis comoliap?e rebortt_- Thig`ologram has approval and is a:thorized by the Calf nia g��Commiision 4or use with both the Residential ' ,. and Nonresidehti4l ` ° �ui inq Energy Efficienty Standards. This prpgram develbp6d 'by Gabel bodd -Associates ' {518) 428-0803. . r'a 1 p Of i_..on.,,hnt s for Title 04 _ _. ':..::.' page . .. . . . . . a . . . . . . . . _ . ..+ . . .. .. . . . . . . . . :. . . . A . . . . . . . . . . 1 Table _ Contents n u _ a a + e . . . e e u u. . v v . n . a e u e a u . . " a . . . . . . . . . . . . . u i Form i_:" -`-IR Cert 1 , : _.:ite _Ip I_:i imI_11 +._.i1Ce; ReAQEt'ntiali . _ . . + ., . .. :. . . . . ., . . . . . 3 Form C"':_R C omputl'_r Method Summary . . . . . . . . . . . . . . .�.. . . . . . . . . . . . J Form .....+:_,.' Point _: ..>tE-_m summary e . _ . .... _ . _ ... + a e .. _ . , .... e a ........ u ±- ,-: r r:'; MF—IR hj iid r_t ::5 t !.'r' (:? F.; C h E' t k s :L s '1- v R e r.. 1 ij F_' I"i t : a + . _ + . e . . + . . Mandatory HVAC_gin & 'O::?ci11::E_ Wads 47Ui71mar . . . . + . . . . . . . . . . . . . . . . . . . . . 1 . Form m !.". '--6!" +.fl`' -t' _ l 1 at _on Cert; 1 f 11=at Rf?s1Caf._nt :.at_ . . . . . . . . . . . . . . . . . . 1:t CERTIFICATE OF COMPLIANCE: Residential (part. 1 of 2) CF -1R oaqe 3 of 14 Project Name: SINGLE FAMILY RESIDENCE Qate: 10/19/1995 Address: 53-040 AVENIDA OBREGON ` (______ _ LA QUINTA, CA. !Building Permit No . Designer: FARCAY CONSTRUCTION !Chocked by / Date .` . ` . Documentation: WENDELL W. VEITH, ARCHITECJ` !COMPLY 24 User 3904 ..... .... .... ..... .... �.... .... .... .... ..... -------------------------------------------------------------------- GENERAL INFORMATION Cumuliance Method: Climate Zone: Ccnditioned Floor Area: Building Type. E:ildinp Front Orientation: Number of Dwelling Units.- Floor nits:Fioor Constrcction'Type: , BUILDING SHELL INSULATION �cmponen� ----------------------- R-13 Wall w/1" EPS solid w000 Door K136ARA6EWALL R-38 Roof(R'38.2x4!24) Slab Pekimeter w/R-0.0 Kab Perimeter w/R-0.0 COMPLY 24 version 4.5. 15 1592 sqft SingleFam Det . v270 deg (W) 1 � Slab on 6rAde' U -Value Location/Comme 0.059 H 0.387 HdUSE ' 0.067 HOUSE 0.027 HOUSE 0.900 HOUSE ' 0.720 HOUSE FENESTRATION'.' Shading Devices Frame Orient. Area U -Val Type Interior Exterior OHSF Type _________ Left (N) ______ 33.3 _____ 0.05 ______ Double _______________ Std Draoe _______________ Standard Bud Scr N N Wood Left (N) 18.0 0.72 Double none none Al N Metal Left (N) 4.0 0.72 Double none' none N N Metal Riqnt (S) 33.3 &55 Double Std Draoe Standard Bug Scr N N Wood Ripht (S) 11'5 0.72 Double Std Drape none N N Meta] Right (S) 80.0 0.70 Double Std Drape ' Standard Bug Scr N N Metal Right (S) 16.0 0.87 Double Std.Drape Stanua'd Bug Scr N N Meta:i Trant /6) 54.0 0.55 Double 'Std D/qpe ~ Standard Bug Scr Y N Wood Front (W) 27.0 .0.57 Double Std Drape none Y N Wood Skyliqht 20'0 0.80 Double none none . N N Metal THERMAL MASS Area Thick Tvpe Covering -------- (sf) ` (in) ---- ----- Location/Description -------------------------------- --------------------- Concrete, Heavyweight Exposed ^ 7 248 4.00 Slab on Grade Concrete, Heavyweight Covered 1344 3.50 Slab on Grade . CERTIFICATE OF . COMPLIANCE: Residential. ' (oart 2 of 2) CF -1R oage 4 of 14 _____-_______-____- "�_O��ect Na�me: ____............. _----------------------------------------- ` SI06LE FAMILY RESIDE�CE, !Date: 10/19/1995 Documentation: ___-___________________________________________.___________________________ WEN|ELL W. VEITH. A'H -. - �!COMPLY 24 User 3904 HVAC SYSTEMS Minimum Distrib Type Duct TStat System Type Effic iAncy and Location � Gal, Type � --__ ...... Location/Comments ........................... ----------- F�rnace ---------- 0.00 AFUE ________________ Ducts in Attic 4.2 56tBck HOUSE SoltAirCond12.000 SEER Ducts in Attic 4.2 Set.Bck� ' � Water No. Tank Ext. WATER HEATING SYSTEMS ' Mater "in Energy Size Insul S,Item Name .... .... .... ..... .... ..... ... ... ____ Distribution Type Type _______-__-_______ _��-___ Sys Factor -7 - ______ (gal) _____ R -Val _____ .... ........ .... _.... 4CSPFCAO0 ..... ..... ..... .... ... . Stand�rd '' ' ^� StorGas 1 0'62 50.0 16.C. WATER HEATER EQUIPMENT DETAIL Svstem Name System Type ... ..... .... ..... .... ..... ... ..... _.... .... ---------- __ ___________ AO3PFCC5C-- DomesticHW SPECIAL FEATURES/REMARKS COMPLIANCE STATEMENT Rated Stdby Input Loss _____ 40000 0.040 Tank Pil0t R -Val Light _____ ----- 12.0 0 This Certificate of Compliance lists the b6ilding features and oerformance snicifications needed to comply with Title 24.ja?ts 1 & 6 of the Califor- nia Code of Regulations, and the idmInistrative regulations to zmulement them' This certificate�has been signed by the individual with overall design responsibility. When this certificate ofcompliance is submitted for a single building plan to be built in multiple orientutions, any shading feature that is varied is indicated in the SpecdAl'Features/Remarks section DESIGNER oi OWNER ' .Per Business & Pryfqssions Code) ` FARCAY CONSTRUCTIO;'.4 81-824 TRADER PLACE ` 1NDI0, CA. 92270 ' 9 77 ���ignat^^�^i ENVORCEMENT AGENCY Name: Title: _ Agency:_______ Telephone' 'DOCUMENTATION AUTHOR PENDELL W. VEI0H 'WENDELL W. VEITH. ARCHITECT PO BOX 1951� PALM SPRINGS, CA 92263 (619) 320-1211 _ ___ (signature/stamp) ........... (date) RESSIM RESULTS NOT CALCULATED GENERAL INFORMATION Compliance Method: Climate Zone: Conditioned Floor Area: Building Tyoe: Building Front Orientation; Number of Dwelling Units: Number of Stories: Floor Construction Tvoe: Total Conditioned Volume: Conditioned Footprint Area: Ground Floor Area: BUIL'DIN6 ZONE INFORMATION COMPLY 14 version 4.11 15 0592 soft Single FamDet 270 deg (W) 1 1 Slab oh Grade 15124 cuft 1592 sqft 1592 sq -ft Floor # of . Vent Zone Name' Area Volu`d- Units Zone Moe TStat Tvoe Hot Area HOUSE 1592 15124 1.00 Conditioned Setback .2 n/a OPAQUE SURFACES Act Solar ' Type Area U -Val L—L Azm Tilt Gains Norm 3Reference Location/Comments ....................... ZONE �n.. NAME . ... = HOUSE .... ...... ....................... Wall 151 0.059 270 90 Yes R-13 Wall w/1'EPS HOUSE Door 20 0.387 270 90 Yes Solid Wop, Poor HOUSE Wall 282 0.059 180 90 1 Yes R-13Wah ' w!1" EPS HOUSE Wall 414 0.059 90 90 Yes R-13 Wall w/1" EPS ' HOUSE Wall 409 0.059 0 90 Yes R-13 ` � . Wall w/1�' EPS .HCUSE Wall 192 0.067 270 90 Yes R13GARAGEWALL � HOUSE Door 18 0.367 270 90 Yes Aolid . `Wood Door HOUSE Roof 1572 0.027 270 22 Yes R-38 Roof(R.38.2x4.24) HOUSE J1.-",~. '_ ' r� ' .COMPUTER METHOD SUMMARY . C-2R� Owe 6 of 14 ---------------------------------- ____�-------------------- _------------------ Project Name: SINGLE FAMILY RESIDEmCE !Date; 10/ 19/ Documentation: WENDELL W. VEITH. ~RCHITEVT :COMPLY 24 User 390'. ..... ..... �..... .... .... .... ..... .... .... .... .... ..... ..... ..... ..... .... .... ..... ..... ..... ..... ..... .... ..... .... .... ... ... ..... ���..... ..... ... ..... ... ..... ....������������������������������� PERIMETER LOSSES Type Length ZONE NAME = HOUSE Exposed 6.0 Covered 164.0 FENESTRATION SURFACES F2 insulation Factor R Val Depth Location/Comments .... .... .... .... .... ..... ocation/Comments___-__ _----------------- 0.90 -____-______-__0.90 0.0 0 in H8USE 0.72 0.0 {/ in HOUSE Act Area Frame D�v U -Val Azm`Tilt ����� ����� ��� --- �_ A -- ---- # Type 0w88 HOUSE Area Frame D�v __ _____________ ZONE NAME = HOUSE _____ _____ --- 1 Wdw Front (W) 27.0 Wood No 2 Wdw Front (W) 54,0 Wood No 3 Wdw Right (S) 16.0 Metal No 4 Wdw Right (S) 4.0 Metal No 5 Wdw Right (S) 33.3 Wood No 6 Wdw Right (S) 7.5 Metal No 7 Wdw Right (S) 40.0 metal No 8 Wdw Right (S) 40.0 Metal No 9 Wdw Left (N) 33^3 'Wood No 10 Wdw Left (N) 6.0 Metal No 11 Wdw Left (N) 4.0 Metal Yes 12 Wdw Left (N) 4.0 ��tal No 13 Wdw Left (K) 4.�} Metal No 14 Wdw Left (N) 4.0 Metal No 15 Sky Front (H) 20.Q Metal No SC blass. Only Location/Comments _____ _____________________ O.57'270 90 0w88 HOUSE 0.55` 270 90 0.88 HOUSE 0.871 180 90 0.88 HOUSE 0.+2 180 90 0.88 HOUSE 0.55 180 90 0.88 HOUSE 0.71 180 90 0.8S.HOUSE .0�,78 0.97 180 90 0.01 HOUSE 0.77 180 :90 0.88 HOUSE 0.55 0 90 0.8G AOUSE 0,72 0 90 0.86 AUSE . 0.72 0 90 0.8GMSUSE Wdw 0.72, 0 90 0.88 HOUSE 0.72 0 90 0.88 HOUSE 0°72 0 90 0.88 HOUSE �80 210' 0 0.88 BUSE INTERIOR & EXTERIOR 5HADVN6 ' # Type Interior Shade Type _..... --------------------- SC ' Exterior 3hade Tyoe SC 1 Wdw Std Draoe ____ 0.'7P _________________ ----------------------- None ___1 1.00 2 Wdw Std Drape .0�,78 Standard Buq Screen 0.87 2 Wdw Std 'Dr aoe 0.7G Standard Bug Screen 87 4 Wdw Std Drape 0.78 None 1.0� 5 Wdw Std Draoe 0.78 Standaid`Bug Screen 0.S7 6 Wdw StdDrape 0.78 None !.00 7 Wdw Std Drape 6.78`Atandard Bug Screen 0.87 8 Wdw Std D,ace 0.78 Standard Bug Screen 0.87 9 Wdw Std D raoe 0.78 Standard Bug Screen 0.87 10 Wdw None 1.06 None A.00 11 Wdw None 1.00 Nono 1.00 12 Wdw None 1.00x None 1.00 13 Wdw None 1.00' Nbne 1.00 14 Wdw None 1.00 None 1.00 15 Sky None 1'00 None 1.0'� , ' ^ COMPUTER METHOD SUMMARY- ^ ` C -2R oage 7 of 1* ----------------------------------- ...... ................................... Projett Name: SINGLE FAMILY RESIDENCE . � ,. !Date: 10/119/120'! ` .| Documentation! WENDILL-W. yEfTH, ARCHITECT ` `:COMPLY 24 User 39�4 _____________________�_�___________---__-____________�___________-____-�___- - ' . ' , `^ OVERHA�6S/SIDE FI�S `« , . ' 2 Fin--- ---Rioht Fin-- # Tyoe At W'Len Ht LExt REx��_ [/ist >eh Ht Dist� Lon H^� � � _'� � = � __ __ _ ___ ____ ____ __- ___� __ '_ __ ___ ____ ____ ^ . 1 Wdw 9,0 2 0.1 6.0 2 Wdw 9.0 3.0 6'0 0.1 6.0 6.0 ' ' ^ ` ' THERMAL MASS Area Thick Heat Inside �Location Type (sf) (in) Can Gond -Form 3 RefYerence ' R -Val . Comments �- ------------- -_-_ --- - _____ ____ ------ ___ ZONE NAME = HOUSE Exoosed Slab 1=8 4.00- 28 CV9n nYa Covered Slab 134& 3.50 2E\ 0,'98,n/a � 2 ^ HVAC SYSTEMS Minimum Distrib Type Act Mat ^ System Type Efficiency and Location ' RvalTy, L�cation/Comm�nt�� ' ___________ _'__'_-_- -_______ ____ ______-'_- _ ' '---_-__-_ __-__'___-__-- Furnace 0.780 AFUE Ducts in Attic 4.2 SetBck HO�SE SpltAirCond12. 000 SEER Ducts in Attic 4.2 SetBck, -Water No. Tank Ext. � ' � Energy Si ` 1 WATER HEATING SYSTE �� ' � Heater in nergy zo ^nsu System Name Distribution Type Type Sys Factor (gal) R Va.;. ... .... ..... ..... . . .... ..... ... . ' AOSPFCG50 Standard StorSas' 1' 0.62 50.0 ' WATER HEATER EQUIPMENT DETAIL /Rec Rated System Name System Type Eff .Input ----------------------- _ ____ ..... AOSPFC850 DomesticHW `0.780 40000 ' � SPECIAL FEA7URES/REPARKS Stdby Loss 0,040 � ^ ' 7aok Pilot R -Val Ligh� 12.0 '/ POINT SYSTEM SUMMARY � ` ' �' ' P_2R nage 8 of 14 -------------------------- ----------------- ____-------------------------- Project Na: G'� � �AMILY RB�IDENCE � meSIN , _� _ ~ !Date: 10/19/1995 Documentation: WENDELL4' VWN ARCHITECT ' `� !COMPLY 24 Use/ 390:� ______________-------------------------- -------- -------------------------------- , ` BUILDING DATA ^ ` Conditioned Floqr* Area '0592 qc/ft Number of Stories 1 Occupancy Type Single |am Det SCORE CARD Mvasure 1 Points ------------------------- -------- � 1. Roof Insulation 0.0273 (U -Value) <) ' 2, Wall Insulation ' 8,0597 `(U -Value) _1 3.. Raised Floor insulation 0.0000 (:�Va-lue) -| . | 3a. Controlled Vent Crawlspace '0.V (R�Value) ` |-` 4. Slab Edge Insulation 0.7264 (f2 factor) | _ 5. Infiltration Standard ' C ' ' ' G. Glass Heat Loss .65 ` ' Sum 1-S -� 7. Fenestration Heat Gain' Sc Orientation Area ^% Glass Ooen Of % SER ___________ -___ � _ _______ North 55.3 3.5 x` 0.57 = / ��0 0.14 1 x East �.0 0.0 0: OP. = 0.0 0,00 4 South 140.8 8.8 x 0N9 = ' 6�'v: j0.86 -10 West 81.0 5.1 x- Q.40.= 210. M8 � Skylight 20.0 1.3 x 0.71 S. Interior Thermal M��s , 25 ` ^ �^ 0 ` 9. Et x erior Wall Mass' Sum 7-9 10. Heating System ` Zonal Control; No 11 Cooling Systec ` . � `. 12, Water Heating ` , � Foint Total� 0 "PamoQ0 SWITO seb buTuAnq SrOnUTWOD ON Iom;uoD pup Aadwep anjA joAquoD pup Aadwep'qjTm:aAe4uj .ale apjsjn0 -q loop sseld AO je;aw alqPASO13 .t7, jjTnq.AAojDej pue AmosvW spq Pue SaDueTIddv Sq@ aAT4el6DAU"jaDejdaATj jo uojqejIU;suI 1MOOT "Dag mpAepueqs 441jenb uoTssImoo sqaaw IgV -Dag qqT Ajdmc::. ol palle4suT AaT,4eq uoT;ejjTTjuT jeTDadS z(;)0gj -Dag Vj S allOZ 0QeWjj3 UT'AM04epU5P SAaTlAwq,modeA :(6)0gT -DaS -pajeas Pyr PallneD suotqem4auad Puv_.. SIUTOV TIE SMOPUTM pue sloop joTjeqx3 paTjT4isD/m.jaqej a1eq,sqDnpoAd uoTqPA4sauaj pain4negnueW �c:j 7abeleal ATe jTWTj 01 PaMTEap SaDTM., PauOTITPumur pup PaU0111PUon uaamqaq SMOPUTM pup S100C v.,. STOAWOO ITIM/Tv"UY a SA000 im 'Simpond uOT;eAqshuaj,:L;j.gjT -nag -::I mioj q adQ aqwDTmuj spAepueqs.QjIemb uolssTawoo X5mu.71 eTuIr! pTivo ajapw pajjFqsuj i,D.paTjTD_ad s wolleTnsul :STI -nag qDU I IWA vaaeaM O -Z Ueq! OW a;TY U0TSSj.11 SqeW; AOdeA lajeM '%E-0 UUqq lajeaAb OU'' a,A ucjjaAosqe va;eA . uoj4eInsuj a5pa-qvIS :(yogj -Dag "SA001) pasTel,aJaIDUOD UT S -N WMWTUTW MA001, PaweAl UT UOTIRInsup AOOI; PasjeA SJW8 WnWjUTW :(P)0qj -Dag 0 "(STIUM WOW AOTAajxa 01 x1doe qoU saoy) silem PaWeAj ul U0fqeInsUT 1jum tj.8 W6WTUTW :(D)OgT "Dag i:*., sAaAnqDpjnuew UolleInsul III; asool :(q)0qj -Dag *,'uOTjWrnsuj 5UTITaD qT-y WnWTUTW :(F)0gj 'Das :'.I jUaWaDAO;u3 S3dnEV3W M01BAN3 TNICIM.''i AjUO ;s;IjDaqD sTqj 60 A0 S;uawmop aq; U.-. aAaqmsia uoqam AQqj•SaAseAm1aqna1pqj ; 3mewm1=14A& juacuomoD wnWiuyw OuTpuTq se saTImeo Me Aq pRAapTSUO::; aq 11e1s Pavou sainquaj al. 4 'sjuawnDop ymad aqq :"i' II pawyowomi s-.- 19TTIDEW EM uoqm, -amelidwoo ;0 LIjIJao aq4 U0 PP;STj y4uawmTkba... anueTIdw,DD aulbuTils aAow Aq p6pasAadns aq Am (*) IsTya;sv we yqTf.%. pajmw Ewa!! -pas, won aq; 10 ysalpAebal SaAnsmaw uleaum 4snw spappuejS aqq of jDafqns s51.;TpI11.1q IvTjuapjsan aslAmol ;WOP.4 --------------------- --------------------------------------- 7 -------------- vom Aasn vz Aidwom 103ILHOWU 'H113A WWOMM :uOTW4UaWnjc0 266T/61/OT 10490: 33NEWS30 A11WV4 319NIS :aWvN 4DmMj_i ------------------------------------------ 7 ------ ........ 0 ................... 11 10 6 abed (Z ;o I 41ed) 1SI103HO S30MVEW AMOMaNK.; MANDATORY MEASURES CHEC�LI� (part 2 of 2) MF-1R page 10 of 14 ' ' ' ^- ---------- ___'_____��___��__________-�-__ --_^______________ Proje'�t Name: SIN B FAMILY RESIDENCE' - |Date: 10/19/1995 Documentation: WENDELL W. VEITH, ARCQTECT �!COMPLY 24 User 3904 ________________________________-� � ' -. ` . __�-___ -_______`�- __________�_ � SPACE CONDITIONING. WATER HEATING AND PLUMBING SYSTB,^j MEASURES Enforcement u Sec. 110713g HVAC equipment, wate heaters,` showerheads and faucets certified by the, Commission. � o Sec. 150(i); Setback thermostat`rie\�1 oapplicable heating systems. ^ ' ` ` � o Sec. 1501j); Pipe and Tan' �nsylation 1' Indirect hot water tAnhs leg unfited stoVage tanks or backup solar hot water tankh. hav2'insulatian 61anket w(R-12 greater) or combd�ned .inte�io,/ext&i4 insulation (R-11S or greater). . � 2, First 5 feet of pioes oluses.t ,to watep heater tank., non-recirculation systems4 ipsul ated (%4 or_ greater . 3. All bu�ied or exposed piping insulated in recirculation sections �of hot water ' system, /` ' 4. Cooling system'pipfng`below 55 F insul^*Qud. 5. Pioing insulated between heating source.and indirect hot .water tank. o Sec. 150(m) Ducts anciFans * 1. Ducts constructed, installedhw s�aLed to comol y wit�-! UMCSectiohs' 1002'and 1804:3`ucts insulated to a minimum R-4.2 or ducts enclosed ent irel? within conditioned space. 2. Exhaust systems have backdraft'or hutom*tic dampers. 3. Gravity Xentilati}�g systems se�king conditioned.space have either automati0or readily" acceissiole manually operated dampersi ` ... ����������� C) sec. 114:Pnol and Spa Heating Systems and Eryipmect A. System is certifiedwith 78% tMermal efticiencv. on-off switch, weatherproof cperat ing. in'stjAht ions, no al^,ctr i, 'eoistance oeating and no pilot light. ` 2. System is installed with: ' a. At least 36" pipe between filter and heater for future solar heating. b. Cover for outdoor pools or - ou d oor spas. 3. Pool system has ditectionkl inlets and a circuiatiwn pump t ime ,switch. o Sec. 115: Gas-fired central f�urnacb� �,pool heater, spA /�enter or household ��ook ing appl iaoce have �o continuously. burning pilot light. (Exception: Non!electrical cookMg appliance with pilot < 150 Btuh) ` LIGHTING MEASURES o Sec. 150(k)` Lighting - 40 lumenp/watt or greater for general lighting in kitchens and 'doW with water closets: and recessed ceiling fixtures IC (i/ ulation ocver` approvqd. HVAC: ZONE HEATING -& 1 OOLINI LOAD -SUMMARY page 11 -of .. 14 F='r••.ie•.t Name: SINGLE FAMILY REO-.1.DENC: ,.: ;Date: 10/19/199.5 D• ument at i m: WENDELL W'.:VE I TH,9 AF''1= H ITE1..T ;COMPLY '�4 . User 3-904 HVAC ZONE DESCRIPTION HVAC Zane Name.:. HOUSE Heating System Name: RHEENF'l3PH015NAUER 1= _ •1 ing System Name: F'1-IEEMF?AJEgC)48JA System MUl t ipl ier: 1 .. Fan Schedule: 4 1-I r. Fans STD Peak: Load M,et hcld 1-O LN1=: I DEN1 Relative Humidity: COOL I N1 SPA1-ES IN THIS ZONE PEAb : HEA)" LNG ': P.EAF--: RES I DENT I -AL SF`A).;E HEgTIN& LOAD SUMMA Y page 1'1 � , f. 14 Project Name: -SINGLE NGLE, F•'AMJ;LY REST, DENCE,. :Date. 1 i �/ 19/ 1995 : D•„_ ument at i o in-: WENDELL : W.: V.E ITH:, ARCH I TEC .T_ ---------------------- ; COMPLY 24 User 3904 Space Name:' HOUSE. Design Indo.cor- .Dry BUl'b Tempe.ratcc.re:. < 7ci F` Design Outdo „_,r• .W.in-t-e:r Dry` B'cl,b,.:Tem,pE�,r't.ur.e... 9 F Design Temper:atUre `Diff;er.ena_e: 41'; F. )_,_,ndL),_t icon Area U--Va1 Lie TD Btu/hr F:-13 Wall w/1" EPS 1=.9x . C)5E35 x 41.0 - 3C i 13 F:1313AF:A1=�EWALL` _ 192. 0 `% 0. c) .73 x 41 . O = 536 d c l� Dr S• �1 id W�ic iD' J8a ci x ci. 3872. x 41 . O. = G-03 D„uble Clear Default (F:) 33.'3. x 5.500 x= 41 . �) c 7J1 D,::,uble Clear DefatiltCF:? 1:8,:c_). �i.,7,iyci 41.0 = 531 Double )_lear. Defa'W't(F:;) :;; i), 7.i_i0 41.0 = 118 DC,uble Clear -DefaLilt 33.3•. ir, 5t>U 4i.ci = 751 DC- ub1 e Cl ear Def.aul t (R:) 1.1::5C). .. 7200 x 41. c:) -, 33'J D"uble Clear Def ault.c;F':) f3E�.:0 0. x 41.0 2526 Doub 1 e C:l ear De f aUl t c.'F: 16.0 x c:). 87Oc:) ' x 41. C) _ 571 D, abl e C:I ear Default (F*: ):. 154.T) x O. 5.5Oo x 41.0 - 1218 D,uble i:lear DefaLAIt(R): X7_•.0 ; C). 5700,.' x 41.0 = 631 D,uble )=dear DE?f.au.l . ):v , . c;,.) x... c). 8.000 x 41.(d - -5L F,_..38 F::• ,r, f GF:. 38. �#.. ) .'_ 1'57e :.O ' x 0. 0273 x 4.1 . 0 - 1757 Slab ,n Grade F'er i:m �.: ci 43 Slab on Grade F'er i m...._ 164 ..(- x 43 7052.. Infiltr-a.tic,n: 1. )ci .x C) 018 x' .1592 s 'x 9.5 ft x I.'00 Ai_ x 41.0 = 11157 TOTAL. _HQU.k:LY HEAT. LOSS FOR SPACE 3246' Heating AirFl ow: '246' Bt:u/hr. / '11 . Oe x 35.F Del t-aT;) I= 85'� c fm RES I DENT I AL SPACE. COOL I NG LOAD' SUMMA-R-Y' Nage 13 r 14 Pr ojName: SINLLE:.FAMILY RES.IDEN►E.. ----------- D.cae: ---Project. 10/ i.9/199-1 D� �cumentat i:� Win: WENDELL W. VEI TH, :•'ARCH'17ECT 1 COMPLY 24 User 3904 Spa,_e Name:. HOUSE Design I.ndoo.r Dry ,BU 1 b Temp ter at. ure.: ° 78 F Design Outdc,or Summer Dry. Eiulb-TPrnpe;ratur;e' 11'2 f-' " Design Temperature Di.f.fer,ence: °.. 34 F '-:.:,ridu_t i,,n Area -U'-Value DETD Btu/I-i)" R-'-13 Wall w/1" EPS 1255.9 x i), 0585 x 2''rJ. G _ -217:::, R'' l 3GARAGEWALL..... 19'2.:0 .. x I)_ Q6 7 3 x 29. G = 3G. S,--.1 id, Wood Dc-or: 38'. pi, x....._. Q-3872 r, ''9. G = 43G .._.._ Dc,ubl-e• C'l'ear Default(R) 33.3:' x Ci; 55(,)(:) x 34.0 -. i.;Z3 Double-01 ear-. Default.(R) :t.8 01. .x •.: 0..7200 x 34.ci - 441 Double Clear Default.(R) 1': 0)'",..:; Ci,7.20C) x 34. C) _ D8 Dr_.ub1e Clear Defaul't•.(-R) 33:3: x 0:.5::10.) x 34,ci = G23 DoUb1 e Gl.ear befau1 t„(F:) 11 :'S. x 0. 7'200 x 34. C) = ' 202:D .ub 1 e Clear De f au l t.(*R-) 8E): t> , x 0:7700) x 34. c:) - 2094 DC_Cub1e Clear DefaUlt(R) 1-6:C> .,x. .0.8700.x .34.0 - 473 Double GlearDefauIt(R).: 54.0 `Y; 0.:500 a ,; 34,c:) -. 10)10 Double Ca ear Default('R) 27.`0 x 0..5700 x 34..0 = 523 -Double Clear DefaUIt.(R)' 201:c:i•:..x' `.., ci.8CiCic:> x 34.0 = =44 . ;. .,.•R--38 Roc,f (R.-38.2x4'2 ) 157:.0: 0.0::73 x 50. U - 214.3 Infiltration.:. 1.00 x 0.018 'x .1592 s;f x 9.5' Jt ' x 1.00 AC''x 34.0? 925'171 ,Shaded Unshaded Solar Gain* . Orient.. :Area . `SGF Ar ea SGF 51-: Double Cl ear -Def au t ('R) West C 14 ..1,: x. 1'c + :1 _.9 x 73.1 < 0.58 = 6fJ .J DOub1e Cl ear. •'6efau1t.(F,'),. West C 28,.;2 '25.8 r 733 ,.•0.37 = 844 Double Clear De:f au-It:('R) South C 0.0.5c 15 + 16.0 x 323 x (),•66 = 337 Double Clear Def-aUlt.(R....Scut'h C: "0. 0.x';-.15-'.+ .... 4.0 x 323 x C).GO, = 87' D Dc Clear Def C 0,ci .r;"' C lv 'i". ^" ^' J.-,.3 x 311 ^- x 0.37 = 390 DbubI a Clear De.f:aUl t iR) South C 0-0 x-' 1,5 + 7.5 x 321 x 0.68 = 163 Dc,ub I e Clear Default <R) South C 0. 0 y,• i-5" + }ii.'i; X 32'7 x 0. 66 = 848 Doc tb1P..Gl.e.ar..-Defaul.t(R) South . C 0.0 x ,15 + 40.22 x 323 x C).66.,= DQUb•l e• Cl ear. be f aul t (F.' ). 'North „C 0.`� •0 x�' 1-5 :.:. +', . ^3 3 ., 151 _.�E x C) . 37 = 1.3 3 Doubt e Cl ear DefaU Y.t.(R)' .North C 0. 0 ., 1:5' + . O x - 1.51 x 0. 79 _. 71 .._...- D-_,uble C1'ear Default;(R:) North C 0.C)". <15 + 4.C) ;; 15 .'! x 2).73 = 44 ' D -ub-le Clear Default(F.'i' Nar+th C. U Ci x* 1'5'+ 4.0 x. 15I,.x f_).79 - 48 DOUble Clear. befault(R)' North C 0.d.'x 15:+ .4-,'0 A '153 x. C). 79 = 48 Dc,ub1e Clear De;,$aul.t(R) North C 0'.0 x 1.5' + 'x4 .0 x 153 x, 0. 79 = 40 Double Clear Defaul'•t('R) ..Skyld,ght C 0;.o X'.. 1,5 + 20..0 x15'2'3 x (.). 7'9 _ 24ob Internal' Gain Op Frei. Area -Heat main Uonv. Lighting1.DC>• r, 15.92..0: x..2:2.':'020 v, 3.413_ 1087Equipment I . Q0 x 1'5921.-0! x ' .02. 100' x `3-413, _ 54.3 C)ccupant.s 1. 00. x ..• 15 J: 0: r". :5 ... % 2 3a3 = 10>7G TOTAL . HOURLY SENS:ICBLE ..HEAT GA,I N -FOR. SPACE • 3.1256 Latent Gain Op-,Frac.'- Area. Heat Gain. Cony. Btu/hr Equipment 1. 00 X. :.159. 0. x� Cixx .3. 413 = C) OCC_upants 1.00 .r .;. 1,59.2.0..,' Y.",.. i:c{J /:. 33^, - lc)76 Infiltration: 1.00 x.-0.018 x 15'32 s"f x `'9.5',.4t r:.r•1.00.AC: x -0.3 = --85 r. TOTAL FIOURLY:1.ATENT 'HEAT GAIN FOR SPACE 9.83 Cool inq AirFlow: 31256 Btu/hr* C'I.08..r; 3 F De.1taT' 1 = 1259 -c f m N INSTALLATION !=ERTIFI! fl.TE ' ! F -F—Rp.-i,Ge '•14 q 14 F'rcDject Name: SINGLE FAMILY RESTDENC:E ;Dzitte: 10/19/199 • D� jc Ument at i ,n :. WEN,DLL'L .. W. VEITH, ARCH I -TE! -:1T ; !=:OMF'LY 41 User 8904 I, the Under•sig.n.ed, verify thralt the_: equd< pment.;.l isted in the category ah sve rr,y signature is the, .actUa"1 egUipment-inatal'led and .that the egUipme,nt me_,ets cir. e ceeds .tree requirements -.f' the` A:p.' i_�nce "Ef••f ic.ien�.y 'Standards. In addit is in, I Have.v.er i f,'i.ed that the ':equipment`; .-is eq•uival ent tc - ."Ir mor. e of f i._ ient than the eqL(ip-m6nt. spe,= i f ied .�_�n `the '!�er t i f i:..ate �f C:ompl iance sUbmitted to demonstrate c ompIianc.e w.it.h the. EnerU,y.. Efficiency Standards fc-r- residential bLtildinqs. HVA!=: SYSTEMS Heat. EqU i p C:EC: .C:er t i f .i ed 'MAn,U f . Ac t,ua l D i st r i b Type 1)Uc t Heat Heat System Type Make °< Mc,del Number :. Ef:f. and Locat. i -nn Rva1 ad . Output Fur na . e RHEENR'13PHQ5NAUER 0. 180,. DUc •t s in Attic 4 .2 3357Ci8 50C C-) Cool . EgUip !=EC, .►_`er t i f ied ManUf. ACtual D:istr ib Type DUrt System Type Make. & Mo del .Number` ;E•t f_i.l enCy and -,.;scat icin -RVal --------------------------------------- Sp1 tAir!_cnd r=I IELMF AJt«.)48JA 12. Q SEER DUcts in Attic 4.' Signature Date Nafive - —.�-- Water: No. fan k: Ext.. WATER HEATING S`/STEMS Heater in Energy Size' InsuI !_L!_ Cert. Mage & Mr,d:ed Distr ibut.ign Type Type Sys Facts r (gal ? F: -.Val ------------ AOSPFC G50 Standard St or Gas ' 1 0 62' 50.0 16. 0 'AFUE WATER HEATER EQUIPMENT -DLTA I L V Re' ,---: Rated St clby Tan,F:: Pi 1 cit System Name System. Tvp,6' .: E,.f •f c Inj�ut LCISS R ---Val Light AOSPF!= !335c i Domest i;_.HWa 0;.780' i :LCOC i0 t , C -4c> 12. Cr c i FAUC:ETS &< SHOWEF' HEADS Al l faUcets and 5h'0wer-heads ar•e 1 istedr.,in. the °Commissicnni,i .Directory Of. Uert i f,ied _ Faurets And Sh.ow.e.rhea.ds, p�t,rs' Uanttc. Ti Lle 4, Fart 6, SUbchapter 2., Sect i on `1'11 Signature - �` Dat` Name- — ---