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Home My WebLink AboutProduct Reviews; Rheem Air ConditionersFORM NO. S71-920 REV. 3 Supersedes Form No. Stt-920 Rev.2 FILE COPY RLMA- SERIES HIGH EFFICIENCY RLKA-SERIES STANDARD EFFICIENCY SELF-CONTAINED AIR CONDITIONERS EPA PGLLOTION PREVENTER •RLMA Models only IRD Init shown with optional louver anels installed. to 7.5 Tons o 26.4 kW] ........ SEER 3s A'.�'�'RRECi10NQ�R N10 Atlt�PEiQRSTHAi RLKA Models Only 'a�t�k?�+EL; -j$l,b tY� _.......,_.sEER C(D LISTED RLMA Models only `CERi7FIED UNDER THE A.R.I. CERTIFICATION PROGRAM—A.R.I. STANDARD 21 R` TABLE OF CONTENTS MODEL IDENTIFICATION Model Identification................................................................2 Engineering Features......................................................2 & 3 UnitDimensions................................................................4-8 Selection Procedures & Weights............................................9 Performance Data & Limited Warranty..................................10 Physical & Electrical Data (High Efficiency) ....................11 & 12 Physical & Electrical Data (Standard Efficiency) ..............13 & 14 Airflow Performance Data Direct Drive & Belt Drive ............15-18 Gross System Performance Data RLMA ........................19 & 20 Gross System Performance Data RLKA............................21-23 Heater Kits..................................................................24 & 25 Accessory Equipment......................................................26-31 Typical Wiring Schematics..............................................32-35 Thermostats........................................................................36 Sample Specifications..........................................................36 'Electric Heat Approved for Canada ENGINEERING FEATURES RLKA-/RLMA- Series Self -Contained Air Conditioners K 000 Electric Heat 000 = No Resistance Heat 006 = 6 kW Resistance Heat 010 = 10 kW Resistance Heat 012 = 12 kW Resistance Heat *015 = 15 kW Resistance Heat 020 = 20 kW Resistance Heat *021 =20 kW Resistance Heat - *024 = 24 kW Resistance Heat Drive Package K = Direct Drive L = Belt Drive M = Bell Drive —High Static Electrical Designation J = 208/230 V, 1 PH, 60 Hz C = 20B/230 V, 3 PH, 60 Hz D = 460 V, 3 PH, 60 Hz y = 575 V, 3 PH, 60 Hz Cooling Capacity (BTUH) [kW] 036 = 36,000 [10.55] 042 = 42,000 [12.31] 048 = 48,000 [14.07] 060 = 60,000 (17.581 072 = 72,000 (21.10] 085 = 85,000 [24.911 Future Technical Variations Design Series A = 1 st Design Efficiency Designation K = Standard Efficiency M = High Efficiency Product Classification L = Packaged Air Conditioner — Commercial Trademand R = Rheem [ ] Designates Metric Conversions 1. All models feature Copeland® Compliant Scroll® compressors offering maximum reliability, efficiency, and quiet operation. The 75 ton [26.4 kW] model features two -stage cooling. 2. One-piece top over the indoor section with drip lip, drawn painted base pan, and 1" [25.4 mm] raised flanges for supply/return air connections provides superior water management. 3. Convertible horizontal and vertical airflow design allows maximum field flexibility and minimizes inventory requirements. 4. Standard full perimeter forkable baserail with lifting holes for easier maneuvering and installations. 5. Factory installed one -inch [25.4 mm] throw away filter with provisions for two-inch [50.8 mm] filter and two-inch [50.8 mm] filters for 7.5 ton [26.4 kW] models. 6. Direct or belt drive options to accommodate a wide range of design conditions as high as 1.5 inches [.37 kPa] of external static pressure. (6 & 7.5 ton [10.6 & 26.4 kW] models available with belt drive only.) 7. Easily removable filter, blower, electric heat, and compressor/control access panels permits prompt service. B. Number and color coded wiring helps facilitate service and maintenance. 9. Common cabinet and components allows for installation flexibility and fewer parts to inventory. to. Standard freezestat control offers evaporator coil freeze protection. (Optional for 7.5 ton [26.4 kW] models.) 11. Standard high and low pressure controls on high efficiency models and a factory or field installed option on standard efficiency models. 12. Externally mounted refrigerant gauge ports for easy service diagnostics. 13.Side and base electric power entry helps minimize roof penetrations. 14.Quick assembly common roof curbs help save field labor and maximize size flexibility. 15. Factory or field installed electric heat kits available up to 24 KW. 16• Easy to install plug-in, slip -in economizers; 3 position and 100% fully modulating. 17. Quality powder paint finish offers long lasting protection against extreme weather conditions and is able to withstand 1000 HR salt spray test. PA These quality features are included in the Rheem Self -Contained Outdoor Air Conditioning Unit • Non -corrosive plastic condensate pan EvaAorator Coil/Filter Access • Return air fitters, normally provided, are removed in this photo. Optional Electric Heater Kit Blower Access • Belt drive model shown. (available on 3-phase models only.) Control Bo: A, cess t' ■ z is ,st !; Compressor Access (3 to 6 Ton [10.6 to 21.1 kW] Models) Compressor Access (7.5 Ton 126.4 kW] Models) • Dual compressors (available in 7.5 ton [26.4 kW] models only) provide 3 UNIT DIMENSIONS SELF-CONTAINED AIR CONDITIONERS 75'/z° [1918 mm] COIL/FILTER ACCESS 35' BLOWER [889 mm] ACCESS 11 53/6° 1137 mm] 241 [610 mm] BB- CONDENSATE DgAIN 3l4" [19 mm]NPT FEMALE 1616 mm] POWER az" _ ENTRY 77/ { 1183 mm] SUPPLY AND RETURN DIMENSIONS 3 TO 6 TON [10.6 TO 21.1 kWj MODELS 461/20 11181 mm] ?. CONDENSER COIL CONTROL ENTRY 111/e" 1283 mm] 183116„ [462 mm] COMPRESSOR/ CONTROL BOX ACCESS ELECTRIC HEAT ACCESS RETURN 121/4" AIR [311 mm] SUPPLY 191/8" 35', AIR [486 mm] 1889 mm] [' gR02FILLER PANEL [139 fl1m] 1323/32" I I . . I I I602 mm] 1100 0 121148 [311 mm] 5112" 76114" (140 mm] [1937mm] OO819^ We Conversions O313116" [97 mm] 416/16' 19118" [125 mm] [486 mm] UNIT DIMENSIONS 3 TO 6 TON [10.6 TO 21.1 kW] MODELS SELF-CONTAINED AIR CONDITIONERS OCOIL/FILTER ACCESS BLOWER 317132" ACCESS [793 mm] 2 [51 mm[ 31. 68 [97 mm] SUPPLY COVER 765h8" [1938 mm] RETURN COVER I" [1121 mm) [ j Design[ McWc Conversions I� / 5,lz„ 'IV mm f To (N (TO CEE TER LINE OF DRAIN) 4831m" [1222 mm] mml CONDENSATE DRAIN 3/4" [19 mm[ NPT FEMALE BASE ELECTRICAL ENTRY 2" [51 mm] /2'la [1835 mm[ 1 BOTTOM VIEW a UNIT DIMENSIONS Z5 TON [26.4 kW] MODELS SELF-CONTAINED AIR CONDITIONERS .. COIL/FILTER / - ACCESS - BLOWER - ACCESS [792 mm] 197 mm] i " I[736 mm) 8�1h" SUPPLY... OVER 2089 mm T 461Aa [ 6e 1221mm [ T 24113Z 1610 mm] RETURN COVER CONDENSATE DRAIN 3/4" [19 mm] NPT FEMALE BASE ELECTRICAL ENTRY RECOMMENDED N. DISCONNECT MOUNTING LOCATION i o BOTTOM VIEW [11.7 mmj 20" �. 99Ae" 1508 mm] [243 mm] cc 2114" 2" 131/e" [57 mmj [51 mm] [333 mm] 260 147/16' 1C 613he„ [3667 mm] [173 mm) [6U0 mm] 2" mm] .. 411e 1311e [51, mm 437/e" 1114: mm] [333 mmj [1114 mm] 4112„ 781/m 31/4" [114 mm] [7988 mm] 2„ [83 mmj [51 mm] 2"_ [ j Designates Metric Conversions [51 mml 6 UNIT DIMENSIONS Z5 TON [26.4 JCW] MODELS SELF-CONTAINED AIR CONDITIONERS 46V [1181 mm] [2071 mm] 1 ELECTRIC HEAT ENTRY 1/2"[13 mm] NPT 35° [183 mm]r 1889 mm] CONDENSER COIL 30114" [768 mm] BURNER ACCESS I ® \ e �� CdNTROLENTRY COMPRESSOR/ J CONTROL BOX ACCESS SUPPLY AND RETURN DIMENSIONS 191/e" [486 m(Ir I I RETURN AIR �_121/4" 251/8"— [311 mm] [638 mm] — ,, ' [2089 mml 51/z' [140 mm] BOTTOM VIEW 481116' [1221 mm] p � . 121Yh5" \[322 mm] 173/4" 145/e" [451 mm] �[371 mm] ,A ---7 [889 mm] 12'14" [�311 mm] 11323 az 6v1u„ [348 mm] 74 mm] — 415A6" [125 mm] 45/e" [117 mm] — 41/2" [114 mm] le" mm] [22 mm] _23/e" [60 mm] -- 2" [51 mm] [ ] Designates Metric Conversions 7 — vci• [2089 mm] or — UNIT DIMENSIONS SELF-CONTAINED AIR CONDITIONERS Z5 TON [26.4 kW] MODELS CONDENSER FAN GRILLE" `461/2 [1181 mm] 611]/32" [2071 mm] _ CONDENSER COIL CONTROL ENTRY r173/4" ®-145/e, COIL/FILTER[451 mm] �; [371 mm) ACCESS " 1211/4, 35„ [3 ] [889 mm] BLOWER e® ACCESS I [136 mm) 24'13 ' ELECTRIC [610 mm] o ACCESS e HEAT y y' CONDENSATE. 68 m [768 mm] DRAIN . LELECTRIC HEAT 77/32" ENTRY [183 mm] 35" [889 mm] ELECTRIC HEAT ENTRY 77/32" [183 mm) 00 301/4" -I [768 mm] ELECTRIC HEAT ACCESS — [ ] Designates Metric Conversions — 821/4" — [2089 mm] CONDENSER FAN DISCHARGE BOX CONTROL ENTRY 145/e", 4 [371 mm] POWER ENTRY 1211/ ' [322 mm] ---1-- OOH I I J F 17A" [451 mm] COMPRESSOR/CONTROL BOX ACCESS 8 I� SELECTION PROCEDURE Determine cooling and heating requirements at design 9 and thefor- And also, at 76°F [24°C] db indoor entering elFl 1. conditions. mula at the bottom of the page: 10.74 kW] Sensible capacity ....................36,646 Bfi�H [ Example: Total cooling capacity ............43600 BTUH [12.78 kW] 3. Determine blower speed and power to meet the system Sensible cooling capacity ......34:000 BTUH [9.96 kW] air [35°C] requirements. At the given external static pressure of 1.1 in 6dg, the belt model Condenser entering ..........95°F Evaporator entering air ..........630F [17°C] wbf76°F [24°C] db Us] must be selected. Enter the belt drive blower performance table CFM Us] and 1.1 in wg ESP: Indoor air flow ........................1600 CFM [755 on page _ at 1600 [755 _ External static pressure .......... 1.1 in wg SEER RPM ..................1195 Watts Required efficiency ................12 ..................755 Drive 2. Select unit to meet cooling requirements. Since total cooling is within the range of 4 ton [14.07 kW] unit and ..................M 4. Calculate indoor blower BTUH heat effect. requires 12 SEER efficiency level, enter cooling performance BTUH = Watts x 3.413 = 2577 table, page _, at 95°F [35°C] outdoor temperature, 63°F [17°C] wb entering Indoor air, and 1600 CFM [755 Us]: 5. Calculate net cooling capacities. Net total cooling = 46,600 — 2577 = 44,023 BTUH [12.90 kW] Total capacity..........................46,600 BTUH [13.66 kW] Net sensible cooling = 36,646 — 2577 = 34,069 BTUH Power input ............................4.2 kW [9.98 kW] WEIGHTS z , - Aaf�ssor9.=ar ,- :. sb1pPlPg—!br[kg] Operating-lbs [kfiV nr mA- RLKA- _ fl - ,3g[ss] unit I shipping up, Iles lkgl Ibt A036 498 [2261 491 A048 A072 12521 1 549[24 [2541 553j25 466 [211] 459 482 {219] d76i.. 522[2371 515 541 12451 . 534. 557 12531 550 CLEARANCES (3 to 7.5 Ton [10.6 to 26.4 kW] Models) The following minimum clearances must be observed for proper unit performance and serviceability. VERTICAL E CLEARANCE A NOTE: Supply duct may be installed with "0" inch clearance to combustible materials, provided 1" [25.4 mm) minimum. Fiberglass insulation is applied either inside or on the outside of the duct. Economizer 142 [64] Power Exhaust 30 Est. 25 Est. Horizontal Economizer 90 [411 801361 Fresh Air Damper (Manual) 11 [5] 9 [4] Fresh Air Damper (Motorized) 13 [6) 11 [51 Roof Curb 14" 921421 881401 Roof Curb 24' 108 j49] 104 [47] Side Discharge Concentric Diffuser 35 [16] 20 [9] CENTER OF GRAVITY (C.G.) ..CapacityTons[kW]_ ^� _ 3t [10.6-21.1 ] 38Va [972] 253/a [654] 7.5 [26.4] 1 39 [991] I26Ve [664] Caps ty Tons [01 A 8 C D 3-6 [10.6-21.1 ] 22°/, 27% 23% 28% 7.5 [26.41 23°/, 29% 21% 270/6 ] Designates Metric Conversions LIFTING DETAIL B SPREADER BAR' A'� s/e" [16 mm] SHACKLE (EACH CORNER) CABLE OR CHAIN CLEARANCES 3 to 7.5 Ton [10.6 to 26.4 kW] Models 9 C PERFORMANCE DATA SELF-CONTAINED AIR CONDITIONER —HIGH EFFICIENCY 8TlpH Ckw] TU/H [kW1 A036 36,000 [10.561 27,000: [7.921 A042 40,500 [11.85) . 31,000 P.061 A048 48,000 [14.101 35,500 [10.381 ? A060 58,500 [11.10},. 43 O Sound rating in dB in accordance with ARI Standard 270. PERFORMANCE DATA SELF-CONTAINED AIR CONDITIONER —STANDARD EFFICIENCY 9,000 [2.641 12,500 [3.721 10.50 I 12.00 ,1 78.0 10.40 I - 12.00 I �_,I 78;0.. [ ] Designates Metric Conversions 1200 1600[7551 BEFORE PURCHASING THIS APPLIANCE, READ IMPORTANT ENERGY COST AND EFFICIENCY INFORMATION AVAILABLE FROM YOUR RETAILER. GENERAL TERMS OF LIMITED WARRANTY* Rheem will furnish a replacement for any part of this product Condenser Coil and Evaporator Coil leaks R which fails in normal use and service within the applicable caused by factory defects (75 ton models),,,,,, UI e (1) Year Periods stated, in accordance with the terms of the limited COmpfeSSO� �0 SEER We (5) Years warranty. ( phase models and an (10) Years Electric Heating Elements all 3-phase models).......... One (1) Year for Optional Electric Heating Kits........... Compressor (12 SEER 1-phase models) 'V ll Condenser Coil and Evaporator Coil leaks pplicabie Five (5) Years Any Other Part.................................................On( caused by factory defects (3-6 ton models) ....Five (5) Years Terms and conditions, See , Tor Complete Details of the Limited warranty, Including Appg, Manufacturer for a Copy. your Local Installer or Contact tom_ ELEC Imo' Model No. RLMA- A036CK A036CL A036CM A036DL A036DM A036JK A036YL A036YM AOq$ K A0- AOAO Cl AO ggAO pL - :TRICAL AND PHYSICAL DATA -HIGH EFFICIENCY (WITHOUT ELECTRIC HEAT) ` ELECTRICAL " PHYSICAL ., ...Phase Compressor Frequent Full Load Amperes` Minimum Fuse or HACR "Circuit` Filter Outdoor Coll Weight Yolta e Y (Hx) Rated Load Lacked Rotor B (Volts) (FLA) Circuit acity Breaker Drive Type Recommended andze Simm[ R22 0 [g] Area Sq. FL No. CFM Ws1 Net Ship Amperes Amperes " Fan Blower Amperes Minimum Maximum [mmo. (RUL) (LRA)T Motor Motor - Amperes Amperes. [Sq. ml Rows Lhs. [kgl Lhs. [kg] 3-60-208/230 10.3/10.3 77 2.0 3.0 18118 25/25 25125 Direct (2) 1 x 16 x 25 16.9 [1.570] 1.00 4000 [1888] 104 (2948] 491 [222.7] 498 [225.91 125 x 406 x 6351 3-60-208/230 10.3/10.3 77 2.0 2.8 18/18 25/25 25/25 Belt (2) 1 x 16 x 25 16.9 [1.5701 (' ] 1.00 4000 1888 [ ) 2948 104 [ ] 491 222.7 [ ) 225.9 498 [ ] 125 x 406 x 6351 3-60-2pg/230 10.3/10.3 77 2.0 4.0 20/20 30/30 30/30 Belt (2) 1 x 16 x 25 125 x 406 x 6351 16.9 [1.570) 1.00 4000 [1888] 104 [2948] 491 [222.7] 498 [225.91 3-60-460 5.1/5.1 39 1.0 1.4 9/9 15/15 15115 Belt (2) 1 x 16 x 25 16.9 [1.570] 1.00 4000118881 104 [2948] 491 [222.71 498 [225.9) 125 x 406 x 6351 3-60-460 5.1/5.1 39 1.0 2.0 11 15/15 15 Belt (2)1 x 16 x 25 125 x 406 x 6351 16.9 [1,5701 1.00 4000 [1888] 104 [2948] 491 [222.71 498 [225.9] -60-208/230 16.5/16.5 95 2.0 3.0 26/26 30/30 40/40 Direct (2) 1 x 16 x 25 [25 x 406 x 635] 16.9 [1.570] 1.00 4000 [1888] 104 [2948] 491 [222.7] 498 [225.91 '.. 3-60 -575 4.y4.2 36 .7 1.3 8/8 15/15 15/15 Belt (2) 1 x 16 x 25 125 x 406 x 635] 16.9 [1.570] 1.00 4000 [1888) 104 [2948] 491 [222.71 498 [225.9) 3-60-575 q 2/4 2 =, 36 .7 2.0 10 15 15 Belt (2)1 x 16 x 25 [25 x 406 x 635] 16.9 [1.570] 1.00 4000 [18881 104 [2948] 491 [222.71 498 [225.91 i0 208/2g0 ' 12.4112A 88 20 3.0 21/21 2525 30/30 Direct (2)1 x 16 x 25 125 x 406 x 635] 16.9 [1..570] 1.00 4000 [1888] 104 [2948] 516 [234.1] 523 [237.2] 0-2D8/230 12.4712.4 88 2.0 2.8 2121 2525 30/30 Beh (2)1 x 16 x 25 16.9 [1.570] 1.00 4000 (1888] 104 [2948] 516 1234.1] 5231237.21 [25 x 406 x 635] 0-208J230 12 4/12 4 88 2.0 4.0 23/23 2525 35/35 Belt (2)1 x'16 x 26 [25 x 408 x 635] 16.911.5701 1.00 4000 [1888] 104 [2948] 516 [234.1] 523 [237.21 60480 6.1/6.1 44 1.0 1.4 - 11/11 15/15. 15/15 Belt (2)1 x 16 x 25 125 x 406 x 6351 16.9 [1.5701 1.00 4000 [1888] 104 [2948) 516 [234.1] 523 [237.2] 60 460 6,1/6.1 44 1.0 2.0 12 15/15 15 Belt .'. (2)1 X 16 x 25 125 x 406 x 635] 16.9 [1,5701 1.00 4000[18881 104 (2948] 516 [234.11 523 [23Z2] 208/230 i nu-[Ja/< u 1 El "ma.0 104 2.0 3.0 28128 35135 45/45 Direct (2) 1 x 16 x 25 125 x 406 x 535Jj 16.9 [1.570] 1.00 4000 [1888] 104 (2948] 516[234.11 523 [237.21 3-69-575 4 i(/4.8 35 .7 1.3 8/8`' 15/15 15/15 ' Belt ` (2)1:x 16 x 25 [25 x 406 x 635J 16.9 (1.570] 1.00` 4000 [18881 104 [2948] 516 [234.11 523 [237.2] 3-60-575 - 4,814.8 35 J 2.0 10 15/15 15 Belt (2)1 x 16 x 25 [25 x 408 X 635] 16.9 [1.570] 1.00 4000 [18881 104 [2948] 516 [234.11 523 [237.21 3-60-208230 13.5/13.5 120 2.0 3.0 22/22 30/30 35135 Direct (2) 1 x 16 x 25 (25 x 406 x 635] 16.6 [1.542] 2.00 3700 [7746] 176 [4990] 549 [249.0] 556 (252.2] 3-60-208230 13.5/13.5 120 2.0 2.8 22/22 30/30 35/35 Belt (2) 1 x 16 x 25 125 x 406 x 6351 16.6 [1.542] 2.00 3700 [7746] 176 [4990] 549 [249.0] 556 [252.2] 3-60-208230 13.5/13.5 120 2.0 4.0 24/24 30/30 35/35 Belt [(2 x 406 x 6351 16.6 [1.542] 2.00 3700 [1746] 1761419901 549 [249.01 556 [252.21 3-60-460 7.417.4 49.5 1.0 1.4 12/12 15/15 15/15 Belt (2) 1 x 16 x 25 (25 x 406 x 635] 16.6 [1.542) 2.00 3700 [1746] 176 [4990] 549 [249.0] 556 [252.21 ( , ��8F9natea Metric Conversions ELECTRICAL AND PHYSICAL DATA -HIGH EFFICIENCY /WITHMIT FI FCTR[r WF=AT% rr'^nf i N ELECTRICALS PHYSICAL Model No. Phase Compressor Full Load - Amperes Minimum Fuse or HACR Circuit Filter flLMA- Frequency (Hz) F (LA) Circuit Breaker Drive Recommended Outdoor Coil R22 Weight Rated Load Locked Rotor voltage volts 9 (volts) Amperes -. Amperes ': Fan Blower Ampacity Amperes Minimum Maximum Type No. and Size [mm x mm x mm] Oz. Ig] Area Sq. FL No. Net Ship (flLA) (LRA) Motor Motor Amperes Amperes [Sq. m] Row, CFM [L/s] Lhs. [kq] Lha. [kg] A0480M 3-60-460 7.4/7.4 49.5 1.0 2.0 13 15/15 20 Belt (2) 1 x 16 x 25 125 x 406 x 635] 16.6 [1.542] 2.00 3700 [1746] 176149901 549 [249.0] 556 [252.2] A048JK 1-60-20B/230 23.7/23.7 129 2.0 3.0 35/35 45/45 50/50 Direct (2)1 x 16 x 25 [25 x 406 x 6351 16.6 [1.542] 2.00 3700 [7746] 176 [4990] 549 [249.OJ 556 [252.2] A048YL 3-60-575 5.815.8 40 .7 1.3 10/10 15/15 15/15 Belt (2)1 x 16 x 25 (25 x 406 x 635) 16.6 [1.542] 2.00 3700 17461 [ 178 [49901 549 [249.0] 55fi [252.2] A048YM 3-60-575 5.8/5.8 40 .7 2.0 11 15/15 15 Belt (2) 1 x 16 x 25 [26 x 406 x 635] 16.6 [1.542] 2.00 3700 [1746] 176 [4990] 549 [249.0] 556 [252.2] A060CL 3-60-208/230 17.3/17 3 123 2.6 2.6 27/27 35135 40/40 Belt (2) t x 16 x 25 [25 x.406 x 635] 16.6 [1.542] 2.00 4000 [18881 184 [5216) 553 [250.8] 560 [254.01 A060CM 3-60-208/230 17.3/17.3 123 2.6 4.0 30/30 35/35 45/45 Belt l2) 1 x i6 x 25 125 x 406x 6351 16.6 [1.542] [ ' 2.00 4000 [18881 184 [52161 553. [250.8) 560 [254.0 1 A060DL 3-60-460 9.0/9.0 62 ` 1.0 1.3 14/14 - ` 20/20 20/20 Belt (2)1 x 16 x 25 125 x 406 x 635] 16.6 [7.542] 2.00 4000 [1888] 184 [5276] 353 [250.8] 560 [254.0] A0600M 3-60-460' 9.0/9.0 62 1.0 2.0' 16 20 220 20 Belt (2)1 x 16 x 25 [25 x 406 x 6351 16.6 [1.542] 2.00 4000 [ 1888] 184 [5216 ] 553 [250.81 560 [254.01 A060JL 1-60-208/230 28.8/28.8 169 2.6 3.4 42142 :. 60/50 70/70 Belt (2).1 x 16 x 25 -125 x 406 x 635) 16.6 (1.542] 2.00 4000 [1888J 184 [5276] 553. [250.81 560 [254.01 A060YL 3-60-575 7.1l7.1 50 .9 1.3 - 12/12 15/15 15/15 Belt (2) t x 16 x 25 [25 x 406 x 635] 16.6 [1.5421 2.06 4000 [7888] 184 [5216) 553 [250.8] 560 [254.01 AO60YM ;3-60-575 ': 7.1/7.1 50 .9 2 0 `: 13 15715 ' 20' Belt (2)1 x 16 x 25 (25 x 406 x 635] ' M 11.542] 2.00 4000 [1888] 184 [52161 553 [250.8] 560 [254.01 [ ] Designates Metric Conversions K J r r%ArA c-rAK1nAI2n GFFIrIFNry MTHOUT ELECTRIC HEAT) Hll,AL Hriv rr r r ...xrv..,_ PHYSICAL ELECTRICAL Model Compressor `Full Load Amperes Minimum Fuse or HACK Circuit Drive Filter Recommended Outdoor Coil R22 Weight 9 Na. Phase Frequency (Hz) {fLA) Circuit Ampacity, Breaker Type No. and Size Oz. III) Rated Load Locked Rotor Area Sq. Ft. No. Not Ship RLitA _ Voltage (Volts) Amperes Amperes Fan Blower Amperes Minimum Maximum Imm x mm x mm1 [Sq. m] Rows CFM [L/31 Lbs. [kg1. Lbs. [k91 - (RLA) ,, (LRA) ,,: Motor .Motor Amperes .Amperes _ BB 2.0 3.0 21/21 25/25 30/30 Direct (2) 1 x 16 x 25 406 x 635] 11 0 [1.022] 1.00 3600 11699) 72 [2041 j 459 [208.21 466 [211.41 A036CK 3-60-208230 12RLA) 4 125 x 2.8 21/21 25/25. 30/30 Belt x 16 x 25 (2)1x406 11.0 [1.0221 1.00 3600 [1699] 72 [2041 ] 459 [208.2] 466 [211.41 A036CL 3-60-208/230 12.4/12.4 88 2.0 [25 x 635] 88 2.0 4.0 23/23 25125 35/35 Belt (2) 1 x 16406xx 25635J 11.0 [1.022] 1.00 3600 [1699] 72 [20411 459 [208.21 466[211.41 A036CM 3-60-208/230 12.4/12.4 [25 x 1.0 1.4 11/11 15/15 15/15 Belt (2)1 x 16 x 25 11.0 [1.022] 1.00 3600 [1699] 72 [20411 459 [208.21 4661211.41 A036DL 3-60.460 6.1/6.1 44 [25 x 406 x 6351 1.0 2.0 12/12 15/15 15 Belt (2)1 x 16 x 25 635] 11.0 11.022] 1.00 3600 [1699] 72 [20411 4591208.21 466 [211.41 A036DM 3-60-460 6.1/6.1 44 125 x 406 x 104 2.0 3.0 28/28 35/35 45/45 Direct 406 (2) 1 x 16x x 25635] 111.0 [1.022] 1.00 3600 [16991 72 [2041 ] 459 [208.21 466 [211.41 A036JK 1-60-208230 18.0/18.0 [25 x 1.3 B/8 15/15 15/15 Belt (2)1 x 16 x 25 11.0 11.022] 1.00 3600 [16991 72 [2041 ] 4591208.21 466 [211.41 A036YL 3-60-575 4.8/4.8 35 .7 125 x 406 x 6351 1.3 10 15/15 15 Belt x 25 11.0 [1.0221 1.00 3600 [1699] 72 [2041 ] 459 [208.2] 466 [211.41 A036YM 3-60-575 4.8/4.8 35 .7 125)x 406x 635] '. -. 120 2.0 f 3.0 2222 30/30 35/35 Direct (2)1 x 16 z 25 [25 x 4tl6 x fi35] 11.0 (1.022] 1.00 3600 [1699] 77 [2183) 475 [215.5] 4821218.61 @ i 2.8 2222 30130 35/35 Belt (2)1x16x25 110 [1.022] 1.00 3600 [1699] 77 [2183] 475 [215:5] 482 [218.6) ar , 5 0 2p$123k : r13 G11S 120 2.0 125 x 406 z fi35] 4.0 24/24 30/30 3585 Belt (2) 1 x 16 x 25 11.0 (1:022] 1.00 3600 [1699] 77 [2183] 475 (215.5] 482 [218.6] 120 ! 2.0 S [25 x 406 z 6351 kart I "49.5 1.0 1.4 12/12 15/15 15/15 Belt [25 x 406 x 635] 11.0 [1.022] 1.00, 3600[7699J 71 [2183] 475 [215.5] 482 [218.61.. '"' r 15/15 20 Belt 11.0 (1.0221 1.00 3600 [1699] 77 [2183] 475 [215.5) 4821218.61 7� t° • i� j- 49. 1.0 22.013 [26 x 406 x 835] 3a i r��Yr t i' 29 2.0 3.0 35/35 45/45 50/50 Direct [26 x 406 is 635] 1 x16x25 it 0 [1.022] 1.00. 3600 116991 77 [21831 475 [215.51 482 [218.61 P 575 5 8/5 8 4D .7 t3 id/10 15/15 15/15 Belt 2)1x16x25 125 x 406 x 835] t1.0 [1.022] :. 1.00 3600 [1699] 77 [2183] 475 [215.5] 482 [278.6] - ;; "•� dlmn ' , ` `� rl �. h'4 1.3 11 15115 15 Belt (2)1 x 16 z'25 [25 x 406 x 635] 11.0 [1.0221 1.00:. 3600 [1699] 77 [2183] .. 475 [215.51 482 [218.61 3.0 2222 30/30 35135 Direct (2)1 x16x25 16.9 [7.570] 1 �0 4000 [1888] 106 [3005] 515 [233.6] 522 [236.Bj A048CK 3-60-208230 13.5/13.5 120 2.0 125 x 406 x 635] 120 2.0 2.8 2222 30/30 35I35 Be (2)1 x 16 x 25 406 x 635] 16.9 [1570] 1.00 4000 [18881 10613WS] 515 [2�ti% 522 jt22"i A046CL 3-60-208230 13.5/13.5 125 x 120 2.0 4D 2424 30/30 35/35 Belt (2)1 x 16 x 25 406 635] 16.9 [1.570] 1.00 4000 [18881 106 [3005) 515 [233.6) 522 [236.81 A048CM 3-60-208230 13.5/13.5 [25 x x 49.5 1.0 1.4 12/12 15/15 15115 Belt l5)1 z 16 x 25 [25 x 406 x 635] 16.9 [7.570] 1.00 4000 [7888] 1Z [3005] 515 [233.6J 522 [236.8] A048DL 3-60-460 7.4/7.4 49.5 1.0 2.0 13 15/15 20 Belt (2)1 x 16 x 25 x 406 x 6351 16.9 [1.570] 1.00 4000 [1888] 106 [30051 515 [233.61 522 [236.81 A0480M 3-60-460 7.4/7.4 [25 1-60-208230 23.7/23.7 129 2.0 3.0 35/35 45/45 50/50 Direct (2)1 x 16 x 25 16.9 [1.570] 1.00 4000 [1688] 106 [3005] 515 [233.6] 522 [236.8] [25 x 406 x 635j A048JK [ ] Designates Metric Conversions A ELECTRICAL ANu PHYSICAL DATA -STANDARD EFFICIENCY (WITHOUT ELECTRIC HEAT) (Cont.) ELECTRICAL :. PHYSICAL '.. Model : Compressor '.KFu11LoaFuse Minimum or HACflPhase Circuit FilterNo. Frequency (Hz) Circuit Breaker Orive Recommended 'Outdoor CoilWeight R22RLKA- Rated Load Locked Rotor (Voila) Amperes Amperes Amperes Amperes Minimum Maximum Type No. and Size [mmxmmxmm] Oz.[Voltage Al Area3 .Ft. q No. Net Ship (RLA) (LRA) Amperes Amperes [Sq. m] : Rows CFM iL/sl {bs.[kgl' lbs.[kgl A04BYL 3-60-575 5.8/5.8 40 10110 15/15 15/15 Belt (2) 1 x 16 x 25 [25 x 406 x 6351 16.9 1.570 [ ] 1.00 4000 1888 [ ] 106 3005 [ ] 515 [233.6] 522 [236.81 A048YM 3-60-575 5.815.8 40 .7 1.3 11 15/15 15 Belt (2) 1 x 16 x 25 [25 x 406 x 635] 16.9 [1.570] 1.00 4000 [18881 106 [30051 515 [233.6] 522 [236.8] AD60CK 3-60-208230 °17 3/17.3 137 2.0 5.4 30,0/30.0 35/35 '" 45/45 Direct (2)1 x 16 x 25 [25 x 406 x 635] : j 6 6 1 542 [ ' ] 1.50 3700 7746] [ 131 (3714 1 534 242.2] [ 547 [245.4] A060CL - 3-60-208230 `17 3/17.3 137 'r 2.0 3.4 2828 36/35 : 40/40 Belt (2)1 x 16 x 25 125 x 406 x 6351 16.6 [1.5421 [ ' 21 1.50 3700 [7746] 731 3714 . [ ) 534 242.21 [ 541 [245.4] A060CM 3-60-208230 17.3/17.3 137 2.0 4.0 2929 35/35 45/45 Belt (2).1 x 16 x 25 [25 x 406x 6351 16.6 [7.542] 150 3700 [7746] 137 [3714] 534 [242.2] 541 [245.4] AO60DL 3-60-460 9.019.0 62 1.0 1.3 14114 20/20 'I 2020 Belt (2)1 x 16 x 25. [25 x 406 x 6351 16.6 [1.5421 1.50 3700 [7746] 131 (3714] 534 [242.2] 541 [245.41 A060DM 3-60-460 _ 9.019.0 62 1.0 2.0 ' 15 20/20 20 Belt " (2} 1 x 16 x 25 [25 x 406 x 635] 16.6 [1.542] 1.50 3700 [1746] 131 [3714] 534 [242,21 541 [245.41 A06WK 1-60-208230 29.029.0 169 2.0 5.4 44/44 60160 70170 Direct (2)1 x 16 x 25 [25 x 406x 6351 - 16.6 [7.542] 1.50 3700 [7746] 137 [3714] 534 [242.2] 541 [245.4] A060YL 3-60-575 7.117.1 50 7 1.3 11/11 15115 15/15 Belt (2) 1 x 16 x 25 [25 x 406 x 635J i6.6 [7.542] 1.50 3700 7746' [ } 131 3714 [ 1 534 242.2] [ 541 (245.4) A060YM 3-60-575 7ARA :.. 50 :.7 1.4:: 13 ` ' 15/15 20 Belt (2).t x 16 x 25: [25 x 406 x 6351 16.6 (1.542] 1.50 3700 [7746] 131 [3714) 534 [242,21 541 [245.41 A072CL 3-60-208/230 18.6/18.6 156 2.6 5.8 32/32 40/40 50/50 Belt (2) 1 x 16 x 25 [25 x 406 x 6351 16.6 [1.542] 2.00 4000 [i888] 176 [4990] 550 [249.5] 557 [252.7] A072CM 3-60-20030 18.6/18.6 156 2.6 6.0 33/33 40/40 50/50 Beft (2)1 x 16 x 25 [25 x 406 x 6351 18.6 11.5421 2.00 4000 [7888j 176 [4990] 550 [249.5] 557 [252.71 A072DL 3-60-460 9.0/9.0 70 1.2 2.8 16116 20/20 2020 Belt (2)1 x 16 x 25 [25 x 406 x 635] 16.6 [1.5421 2.00 4000 [7886] 176 [49901 550 [249.5] 557 [252.7] A072DM 3-60-460 9.019.0 70 1.2 3.0 17 2020 25 Belt (2)1 x 16 x 25 [25 x 405 x 635] 16.6 [1.5421 [' I 2.00 4000 (1886] 176 4990 [ 1 550 249.51 I 557 [252.7] A072YL 3-60-575 7.417.4 54 .9 2.1 13/13 15/15 15/15 Belt (2)1 x 16 x 25 [25 x 406 x 635] 16.6 [1.5421 [' I 2.00 - 4000 1888 [ 1 176 4990 I 1 550 249.Sj [ 557 [252.7j Ao72YM 3-60-575 7.417.4 54 .9 2.1 14 15/15 20 Belt (2)1 x 16 x 25 125 x 406 x 635] 16.6 [7.542] 2.00 4000 1888] [ 176 4990 [ 1 550 249.51 [ 557 [252.7] A085CL : 3.60-208/230 13.2/13 2 88 2:6 5.8 - 39/39' 40/40 50/50 Belt (4) 2 x 16 x i6 [51 x406x 4061 16.6 [1.5421 " 2.00 4000 [188B). . 192I5443 1 619 280.81 [. .628 [284.91 AOBSCM 3-60-208/230 13.2/13.2 86 2.6 5.8 39/39 40/40 50/50 Belt (4) 2k 16 x i6 [51x4416x4061 16.6 [1.5421 2.00 4000 1888 [ ] IcA If�31 F61!!tj 80.B r'628'[284-.9j AUM jwgotr 7.2F7.2 44 1.2 2.8 2020 20/20 - 2525 Belt - (4) 2 x 16 x 16 : [51 x 406 x 406] i6' fi [1.542} 2.00 4000 (1888] 192 [5443] 619 [260.8j 628 [284.9] A085DM 3.60-460 L2/7.2 44 " 1.2 2.8. 20/20 20/20 2525 '- Belt (4) 2 x 16 x 16 - [51 x 406 x 4061 i6 6 [].542] 2.00 4000 [1888] 192 [5443] 619 [280.8] 628 [284.9] A085YL 3.60.575 5.6/5.6 34' .9 2.1 16/16 15/15 2020 Belt (4) 2 x 16 x 16 [51x4a8x406]: 16 6 [].542 I. 2.00 4000 1888 [ } 192 5443) [ _ 619 [280.8] 626 [284.9] A085YM 3-60.575 5.6/5.6 34 .9 2.1 16/16 15115 2020 Belt (4) 2 x 16 x 161. [51 x 406 x 406 16.6 [7.542] 2 00 4000 1888 I 1 192' 5443] [ '619 [280:8] 628 [284.9] r i rwd�naroa Metric Cnnvpreinna r i ......,.._- r 1A ti DIRECT D ER AIRFLOW PERFORMANCE - Unit Model RIVE BLOW Factory Speed ar,. wl Mulur Speeds Blower Size Motor Speed CFM [L/s] Alr Delivery (Wags)-208 Volts - sidaDischa e—D Coli CFM IC/sl SldeDlschare-0 Air Delivery (Watts)-230 Volts Call DA L021 External 0.2 L051 Static Pressure 0.3 [.07] I.W.G. 0.4 [.10] [kPa] 0.5 [.12] 0.61.151 0.11.021 External 0.2 [.05] Static Pressure 0.31.071 LW.C. 0.41.101 [kPa] 0.61.121 0.61.151 :1/2 1275 [ 021 1235 [ 83]1214 [871] 1184 [257] 11343134] 10440293) 1455 [887] 14256572] 1385 [955] 1345 8 5] 12608] 121f73j 10 812 SEER -036 Low 373] 3 10 x 10 Low 1397 [6591 1344 [634) 1319 [6221 1297 [612] 1249 [589] 1147 [541) 16017J,756] 1561 [737j 15174[716j 1466 (692] 1401 1661 ] 13177[622] 529 10812SEER-042 Medium 373] 3 10 x 10 Medium 561 537 522 508 488 4, 6 9 636 613 589 5 1766 rr833] 17191811] 1671 [7891 1617 [763] 1550 [732J 1465 [691] 1964 [927] 1902 (898] 1839.(866] 1771 (836] 1693 [799] 721 1602 [756] 688 10 8 72 SEER -048 High 9 1/2 [373] 3 10 x 10 High 733 719 697 6 1 639 6 3 8 7 811 7 0 7 1 135216351 1348 [636] 1344 [634] 133916321 1307 [617] 1252 [591 ] 786 36711 7791368] 772 1364] 4 76413611 6 4) 748 f3531 (6 8 716 [338] (5 ) Low 3/4 [559] 3 10 x 10 Low (638 619) (600) 5 6) (542) 50) (7 7 9 (6 19399 [[9151 19144 [ 3] 18782(285] 18278060] 17573226] 1656 779j 2159�5 161 2099 f589] 2038 I959] 19583323] 1864�80] 17573r829] 10 SEER -060 Medium 3/4 [559] 3 11O x 10 Medium High 22801110761 22052) 1 39] 211 943 00] 204911064] 1943 [�917) 1839 [8681 23711[1119] 22910TT6282] 21960Y71536j 21077�994] 20192749j 188874�j High 3/4 [559] 3 10 x 10 BELT -DRIVE AIRFLOW PERFORMANCh Ga acl 383.SToh[10.55812.31kW]Self-Contained Al7Cendliloner 10812SEER Air Flow ' CFM [L/31 425 472 1100 519 1200 566 1300 [6141 1400 [6611 1500 708 1800 755 17091302 1800 850 0.1 [.021 RPM 625 655 684 730 755 790 W. 315 340 380 420 465 500 0.2 [.051 RPM 625 640 670 700 730 755 790 825 B50 W-- 275 300 315 330 365 390 435 475 530 0.31.071 RPM 665 HMI) 710 -735 '770 795 825 850 875 890 W .:RPM 290 315 330 350 385 415 455 505 550 0.4 (.101 780 800 830 no B70 89D 915 935 W 3 325 145 370 400 435 490 535 570 0.51.121 RPM 830 850 875 890 915 935 955 975 W 340 365 400 430 450 505 550 600 3 PH-208 0.6 [.151 RPM 830 850 875 890 915 935 955 970 985 1020 W 3308 345 365 385 415 445 480 525 570 650 0.71.171 P 75 915 935 955 975 990 1005 1040 1080 W 36 0900 3751000 390 410 440 470 505 550 630 690 .1 Static 0.8 [.20] RP0 92 935 955 975 990 1010 1075 tun, 1100 1125 Pressure 3W 75 390 405 430 450 500 545 605 685 740 --Inches 0.9 L22] R9P6M0 970 990 1010 1040 1070 1090 1110 1135 1165 of 3W90 410 430 450 495 540 640 640 710 770 Water 1.01.25] R9P9M0 1015 1040 1060 1085 1110 1160 1160 1185 1210 (kPa] 4W10 435 /50 475 530 575 630 680 750 330 1.1 L271 R10P4M0 1065 1080 11tl0 1 25'.":565 1150- 1180 1200 1225 1245 4W45 465 485 i520 ;615 660 730 800 570 1.2 [.3D] R10P8M0 1100 1115 1145 1165 1195 1220 1245 1265 1290 4W70 500 540 560 590 645 720 780 830 910 1.31•321 R11P4M0 1160 1180 1200 1220 1230 1255 1280 5W10 530 540 600 645 685 740 1.4 [.35] R11P9M0 1210` 1230 1250 1280 1280 12&5 -5W40 560 600 630 675 1.5 [.371 R12P3M5 5W90 1255 610 1270 630 1285 660 1305 710 725 1325 7fi0 785 1350 820 800 1325 840 1385 885 1295 875 1350- 1310 930 — — — — Drive Package L M N (Field -Supplied) MotorH.P. fwj 1/2 13731 (3/4 F5691 -575V 3/4 559 3/4 559 Blower Sheave 6.9 Pitch Diameter 6.4 Pitch Diameter 6.4 Pitch Diameter Motor Sheave Ad'ustable 2.4-3.4 Pitch Diameter Ad'ustahle 3.4-4.4 Pitch Diameter Ad astable 4.0-5.0 Pitch Diameter Tams Open 0 1:- 2 3 4 5 6 0 1 2 3 RPM 935 1 875':' 830 1 730 1 730 I Wu I 625 1295 11230 11185 11135 11085 1 1000 1 955 RPM Range 1090-1365 -_ 5adtory settings are saaddd. NOTES: 1. Performance shown with dry coil 8 standard 2' [50.8 mm] filters. 2. Standard CFM 0.075 Ibslcu. ft. 3. Motor efficiency = 80% 4. BHP = Watts x Motor Etf. 746 5. Add component resistance to duct static to determine E.S.P. as shown on charts. [ ] Designates Metric Conversions BELT -DRIVE AIRFLOW PERFORMANCE m Capacity 4 Ton 114.06 kW1-Self-Contained Air Conditioner 10 & 12 SEER Air Flow 3 PH-208/230 Volt --External Static Pressure -inches of Water [kPa1 CFM [Usl 0.1 [.021 1 0.2 [.051 0.3 [.071 0.4 L101 : 0.51.121 - .' 0.6 [.151 -. 0.71.171. 1 0.8 [.201 0.9 [.221 , 1.0t.251 . 1.1 L271 ' 1.2 [.301 1.3 [ 321 7.4 [.35} , 1.5 4371 . ,RPM I W'I RPM W .RPM W .:RPM W ,::RPM IN ,RPM W RPM W:: RPM W , RPM IN RPM, �Wc. RPM W : RPM I Wr1, RPM W I RPM I W. RPM ;.W;,, 1200 566 - - - - 745 340 810 375 865 390 900 400 945 420 1000 440 1040 460 1075 490 1115 540 1170 1 580 1 1215 620 1991 650 1300 685 1300 614 - - 695 330 770 365 835 395 880 415 920 435 975 455 1010 470 1060 490 1100 530 1140 570 1190 600 1235 440 1270 1 685 1315 740 1400 661 - - 725 350 795 9395 855 420 895 435 945 455 995 470 1030 500 1070 52Q, 11-15 560 1160 600 1205 640 1250 685 1290 745 1335 810 1500 [7081 690 360 750 390 820 ..25 875 450 920 465 970 480 1010 500 1055 560 1100 580'- �.1140 630 1180 660 1230 70' 1270 760 134 $15 1350 865 1600 755 720 390 780 430 850 ,f t 895 480 945 5D0 990 530 1035 565 1075 590 1715 835E dl 0 680 1205 725 1250. 770 1290 830 1335 .-$90 1365 935 1700 002 750 430 810 465 870 485 920 500 970 530 1015 570 1055 600 1090 645 1440 695 "10 735 1225 790 1270 845 1315 910 135Q'. 77960 18D0 850 780 475 $40 515 895 540 945 555 990 600 1035 625 1080 660 1115 710 1155 740 1205 800 1250 860 1295 930 1340 995 1365 1030 1900 897 820 520 870 560 925 580 970 600 1015 640 1060 690 1115 750 1145 790 1185 835 1225 880 1275 900 1315 7010 7355 1060 2000 944 850 585 900 610 950 630 1000 665 1045 715 1090 760 1730 810 1170 865 1205 900 1255 965 1300 1050 1340 4100 1365 1140 Drive Package L M N (Field -Supplied) Motor H.P. w 1/2 373 3/4 559 -575 _3/4 559 3/4 559 Blower Sheave 6.9 Pitch Diameter 6.4 Pitch Diameter 6.4 Pitch Diameter Motor Sheave Adjustable 2.8-3.8 Pitch Diameter Adjustable 3.4-4.4 Pitch Diameter Adjustable 4.0-5.0 Pitch Diameter Turns Open 0 2 3 4 5 6 0- 1 4Z,M-' 3 4 5 6 RPM 990 9 s 895 600 800 750 695 1270 1225 ;. 470-. 1115 1 1065 1 1015 1 965 RPM Range 1090-1365 Factory settings are shaded. NOTES: 1. Performance shown with. dry coil & standard 2" [50.8 mm] filters. 2. Standard CFM @ .075 lbs./cu. ft. 3. Motor efficiency = 80% 4. BHP = Watts x Motor Eff. 746 5. Add component resistance to duct static to determine E.S.P. as shown on charts. BELT -DRIVE AIRFLOW PERFORMANCE 5 TON [17.58 kW]-12 SEER, SINGLE PHASE MODEL Capacity 6iTon 117.58 kWJ-J2 SEER"dWd`�.-."g=,.._ Air Voltage `. 208/23"Ingle Phase ,-,,60 Flow 1 PH-208 Volt -External Static Pressure -Inches o1 Water [kPa1nchesot Water [kPa1 CFM [L/sl 0.1 [.021 1: 0.2 6051 0.3 [.071 : .0.4 [A 01. 0.5 L121 0.6 [.151 0.7 [.171 0.11.021 :: . _: - a 0.51.121 1 0.6 [•151 0.7 [.171 '. :RPM W ::RPM W {: RPM.. W; RPM dW RPM I W RPM,-; W :.RPM I W I RPM I W r:: m. - ;:,RPM I W -. RPM Wr: RPM. W.'. 1400 661 - - 765 360 830 380 890 400 950 1 420 990 435 1020 455 - - 765 350 830 360 890 380 950 400 990 445 1030 450 1500 708 - - 795 395 855 425 925 460 960 1 480 1005 510 - - - 795 380 855 440 925 440 960 460 1005 475 1050 500 1600 [7551 770 410 835 440 880 460 940 490 980 500 1015 540 - - 1 770 400 835 425 680 445 940 475 980 490 1015 530 1065 560 1700 [8021 825 460 860 450 925 520 955 540 1010 560 1035 590 825 440 860 470 925 490 955 515 1010 540 1035 580 1800 850 860 520 905 540 945 565 995 580 1030 630 1045 650 860 500 905 540 995 570 1030 605 1045 640 1900 897 905 565 945 600 980 640 1010 660 1040 710 905 555 945 600 1010 650 1040 670 1065 710 2000 944 905 640 980 670 1010 710 1030 740 - - 950 620 980 700 1030 730 1065 750 2100 991 990 730 1015 760 1040 800- - - - - 990 690 690 1015 L575580 750 1065 790181030825 1040 870 - - - - - - z= ;_' - - 1030 1015 2300 1085 1060 860 208V 230V Drive Package L L Motor H.P. w 3/4 559 -4 Pole -Single Phase 3/4 559 -4 Pole -Sin le Phase Blower Sheave_ 6.4 Pitch Diameter 6.4 Pitch Diameter MoterTsheave DW'usta8te 2.t8-3.8 Pitch Diameter Ad"ustable 2.8-3.8 Pitch Diameter TungO en : 0. 2 3 4 5 6 0 '7 •7 2 3 4 5 6 RPM 1045, 955 905 860 810 745 1065 jW1O2&,,J 980 1 930 1 880 1 830 1 765 Factory settings are shaded. [ ] Designates Metric Conversions NOTES: 1. Performance shown with dry coil & standard 2" [50.8 mm] filters. 2. Standard CFM 0.075 IbsJcu. ft. 3. Motor efficiency = 50% 4. BHP = Wa6 x Ulsbw Eff. 746 5. Add component resistance to duct static to determine E.S.P. as shown on charts. �ka r4-yee r.U1n in Q 17 CFI=P 14 PMARF MODELS or-11-i-urnVC Air Flow CFM [L/sl 1400 661 1500 [7081 1600 755 1700 802 1800 850 1900 897 2000 [9441 2100 991 2200 1038 2300 1085 2400 1133 AunrWw rcnrvnmrun%.c .+ I�vv L•, Ca ecl 5 Tod [ 7.68 kW1^16 & 12 S Efl - . �� .J xM IOPressure-Inches 'YO Tr 171 W490 1015 600 1035 640 1055 710 1070 775 1105 830 1130 910 1155 980 1180 1050 1225 1140 8 8 [ 201 R10P3M0 W540 045 595 1060 640 1075 680 1100 760 1120 810 1145 875 1170 950 1195 1020 1225 1095 1260 1175 or Water CkPal 0 9 (.221 -R10P6M5 W570 1105 615 1105 680 1120 725 1140 785 1160 850 1180 910 1210 995 1240 1055 1265 1125 1300 1210 1.0 6251 -R1P10M5 W595 1135 650 1145 705 1160 755 1175 810 1200 890 1225 950 1250 1020 1275 1100 1310 1175 1340 1255 : 1.111.27 1 -RPM 1165 fi75 1180 730 1200 790 1225 850 1245 915 1260 980 1290 1060 1320 1140 1350 1230 1370 1315 1.2 [.30] 1215 700 1225 750 1245 815 12fi0 880 1290 960 1320 1035 1335 1100 1360 7180 1375 1260 1,3 [.321 W R1235 660 1255 735 1275 790 1300 855 1.4 [.351. RPM W 1300 705 1320 775 1.5 [.371 RPM W 1340 745 1355 805 voltage 0.1 (.021 'BPM. W - - RN- 780'455 800 485 0 550 860 615 895 680 940 755 970 825 208/230-460 0.2 [.051 RPM - 780 795 815 850 880 115 945 975 1015 W - 390 450 470 530 605 655 735 795 880 & 575-3 0.3 L07] :RPM 780 805 840 870 895 930 955 995 1015 1040 Phase 0.4 (.101 W -RPM 370 815 425 870 490 895 540 915 590 945 855 970 705 1005 780 1030 830 10fi5 925 1100 385 470 530 540 fi40 700 760 830 910 1005 0.5 (.12] 875 915 990 965 995 1015 1040 1060 1100 I M 425 510 570 fi75 fi75 730 820 880 965 1055 �0 6 C 930 965 990 1010 1035 1055 1090 1120 1150 .... T [itetni1lSta 151 ' 460 '9P70 560 605 660 720 790 870 940 1025 1085 1340 840 1375 1355 905 1375 940 940 1320 1335 930 1000 1365 1375 985 1050 1390 1405 1020 1100 1350 1075 1385 1120 - _ 1370 1150 1400 7200 ' - 1385 1225 - - 1405 1320 1400. 1375 - - - - - Drive Package L M Motor H.P. w 3/4 rsqqi 1 746 Blower Sheave 6.4 Pitch Diameter 5.4 Pitch Diameter Motor Sheave Ad'ustable 2.8-3.8*Pitch Diameter Adjustable 3.4-4.4 Pitch Diameter Turns Open RPM 0 1 Zx1i `<. 3 4 5 6 1095 1040 ft99 t*�1 940 890 835 780 0 1 2 9::> 4 5 5 1405 1360 1305 i,12501 1195 1145 1095 vactory settings are snaaea. V BELT -DRIVE AIRFLOW PERFORMANCE-6 TON (21.10 kW] MODEL �Ca aclt 8 Te1t [21.10 01 Air Volta a 208230-460 & 575---3 Phased External Staile Pressure -Inches o Flow CFM [L/s1 0.1-[.021 0.21.051 1 [.111 111 1111 0.51.121 0.61.151 0.7 [.17] -.. 0.8 L201" 1 RPM W. 'RPM I W RPM W I RPM I W I APM I W<I RPM W :RPM W RPM W R] - 7a5 560 MUfi05 895 ... 930 6701 975 720 1 It Drive Package L M Motor H.P. [wl 1118.5 1-12 1111H.b Blowar,$h - 6.4 Pitch Diameter 6.4 Pitch Diameter 'Motbr�Sheave Adjustable2.8.3.8Richtyiameter Adjustable 3.4-4.4 Pitch Diameter 6 Turns 0 en 0 1 'x 3 4 5: 6 845 780 0 1 2 :- 3 4 5 1295 1230 1195 1145 ".. 1100 1050 1000 RPM 1100 1050 .®4E0.. 945 895 r i n-.;... sec Mnfi4r. Cnnverslons NOTES: 1. Performance shown with dry coil &standard 2° 150.8 mmj filters. 2. Standard CFM G .075 lbsJcu. ft. 3. Motor efficiency = 80% 4. BHP = Watts x Motor Eff. 746 5. Add component resistance to duct static to determine E.S.P. as shown on charts. 160 185 205 225 235 250 1250 1355 1450 1 1580 1575 1775 1200 1220 1230 1 1240 1255 1295 1325 1430 1530 1635 1730 1Z20 1235 1250 13ru 1470 rzau /255 14L0 1525 - - - - 1580 1295 1630 - - 1270 I i... - - - - - - - - - - - - - - 290 1 1895 - - - - - NOTES: 1. Performance shown with dry coil & standard 2" [50.8 mm] filters. 2. Standard CFM @ .075 lbs./cu. ft. 3. Motor efficiency = 80% 4. BHP = Watts x Motor Eff. 746 5. Add component resistance to duct static to determine E.S.P. as shown on charts. raciory settings are shaded. a AIRFLOW PERFORMANCE-7.5 TON 1-26.4 M BELT DRIVE Capacity 7.5+OVAlsr' 1,_i4=,. Air.. Flow - External Static Pressure -Inches of Water.IkPal CFM [L/sl - 2200 19441 2300 1085 0.1 (.021 RPM W - - - - 10.2 [.051 RPM W - - - - 0.3 RPM - - [.071 , W - - 0.4 00110.5 RPM W;:..RPM - - - - 1.121 W - 970 929 988 1029 D.6 RPM 9981 1017 L751 W 989 1089 OJ L17] RPM '. W. 1026 1050 1045 1150 0.8 RPM 1055 1271 L201. W:- 0.9 [.221 RPM -W.'. 1170 1102 1270 1.01.251 RPM 1112 1131 W. 1231 1331 11.1: [.271 RPM W, 1140 1291 1159 1391 1.2 [.301. RPM W.: 1168 1351 1737 1451 11.3 [.321 RPM 1197 1216 ,W; 1411 1511 1:4 RPM 1225 124415721273 L351 W 1472 1.6 [.371 RPM 1254 W 1532 1632 1.6 RPM 1282 1301 (,401 ,W 1592 1692 1.7 RPM 1311 1329 L42] W :RPM 1653 1753 1.81 1339 1358 .45W1 1713 1813 1.9 RPM 1367 1386 [:471 W ^JRPMJ 1773 18732400 2.01.501 13M W. 1833 1133 2500'1180 - - - - - - - -. - 969 - 1108 979 998 1069 1169,1026 1007 1129 1229 1036 1055 1189 1289 1064 1083 1250 1350 1093 1112 1121 1140 1370 1470 1149 1168 1431 1531 1178 1197 1491 1591 1206 1225 1551 1651 1235 1254 1611 1711 1263 1282 1672 1772 1292 1310 7732 1832 1320 7339 1792 1892 1348 1368 1853 1953 1377 1396 1913 2013 - - 2600 1227 - - - - 988 1208 1017 12 1045 1329 1074 1389 1102 1450 1130 1159 1570 1187 1631 1216 1691 1244 1751 1273 1811 1301 1872 13291932 1358 1992 1386 2053 - 2700 1274 - - 979 1248 1007 1308 1036 1369 '1084 1429 1093 1489 1121 1550 1149 1178 1670 1206 1731 1235 1791 1263 1851 1291 1911 1320 1972 1348 2032 1377 2092 - 2800 1321 969. 1288 998 1348 1026 1408 10551469108315291111 1589 1140 1650 1168 1197 j11701083 1770 1225 1831 1253 1891 1282 1951 1310 2011 1339 2072 1367 21321396 2192 - 2900 1369 988 1388 1017 1448 1045 1508 1073 1569 1102 1629 1130 1689 1159 1750 1187 1216 1870 1244 1931 1272 1991 1301 2051 1329 2111 1358 2172 13863000 1416 1007 1488 1036 1548 1064 1608 1092166911211729 1149 1789 1178 1850 1206 234 1970 1263 2031 1291 2091 1320 2151 1348 2211 1311 22723100 1463 1026 1588 1054 1648 7083 1708 1111 17fi9 1140 1829 1168 1889 1197 1950 1225 1253 2070 1282 2131 1310 2191 7339 2251 1367 2317 1395 2372 - 3200 1510 1045 1688 1073 1741 1102 1102 1130 1869 1159 1929 1187 1989 1215 2050 1244 1272 2170 1301 2231 1329 2291 i357 2351 1386 2411 -3300 1557 1064 1788 1092 1848 1121 1908 1149 1969 1177 2029 1206 2089 1234 2150 1263 1291 2270 1320 2331 1348 233400 1605 1083 1888 1111 1948 1140 2008 1168 20fi9 1196 2129 1225 2189 1253 2250 1282 1310 2370 1338 2431 1367 2491 1395 2551 - Drive Package L M Motor H.P. W 11/2 1119 11/2 1119 Blower Sheave AK66 AK59 Motor Sheave IVP-50 IVP-50 Turns Open 0 1 2 4 5 6 0 1 2 s=i3.L 4 5 6 RPM 1250 1222 1174 " '. 1080 1033 986 1397 1341 1286 - . 21A 1176 1 1121 1 1067 Shipped at 3 Turns Open Shi ed at 3 Turns 0 en COMPONENT AIR RESISTANCE Stanci indoor Airflow-CFM [L/a1 M 33[ 2600112271 2800 [1321] 3200115101. 3400[1f1051- _'."Rasiatansa -inches lNaiarEkPa1..; Wet Coll .079 ."0 .102 .118 .128 .135 Downflow. .061 .079 .089 .100 .108 .112 Economizer R.A. Damper 09 .10 .11 .12 .13 .15 MOTES: 1. Performance shown with dry coil & standard 2" 150.8 mm] filters. 2. Standard CFM 4s .075 Ibs./cu. ft. 3. Motor efficiency = 80% 4. BHP = Watts x Motor Eft. 746 5. Add component resistance to duct static to determine E.S.P. as shown on charts. [ 1 Designates Metric Conversions GROSS SYSTEMS PERFORMANCE DATA-RLMA-An_R ENTERING INDOOR AIR @ 80°F [26.7°C] dbE T wbE 71-F 121.7'C] 677 119.4'CI 63'F[17.2'Cl CFM [Us] 15M [797.91 1200 1566.31 1 900 [424.81 1500[707.91 1200[566.31 900 [424.81 1500[707.91 1200 1566.31 9001424.81 Dfl i0 .16 .12 .06 .16 .12 66 .16 .12 .06 75 Total BTUH [kW] 46.8 [13.721 45.1 (13.22] 43.4 [12.721 43.8 [12.84) 42.1 (12.34] 40.4 [11.84] 41.2 [12.07] 39.5 (11.58] 37.8'[11.081 123.91 Sens BTUH [kW] 30.52 [68.94] 27.22 57.97] , 23.82 [46.98] 35.0 31.62 59.26] 28.32 [8.291 38.52[161.28] 35.22[1 .32] 31.9Z 2.6 59.351 T 80 Total BTUH IkW] 45.3 [13.281 43.6 (12.781 41.9 [12.281 42.2 (12.37] 40.5 [11.87] 38.8. (11.37] 39.7 [11.63] 38.0 [11.14] 36.3 [10.641 [26.7] Sens BTUH [kW] 29.2 [8.56] 25.9 [7.591' 22.6 [6.62] 33.7 [9.881 30.4 [8.91] 27.0 [7.91] 37.3 [10.93] 33.9 [9.94] 30.6 [8.97) p Power 2.7 2.7 . 2.6 2.7 2.6 2.6 2.7 2.7 2.6 R 85 Total BTUH MW] 44.1 [12.921. 42.4 [12.43] 40.7 [11.93] 41.0 [12.02] 39.3 [11.521 37.6 [11.02] 38.5 [11.28] 36.8 [10.781; 35.1 110.291 [29.4] Sens BTUH [kW] 28.4 [8.321 25.1 [7.36) 21.7 [6.361 32.8 [9.611 29.5 [8.651 26.2 [7.68] 36.4 [10.67] 33.1 [9.70] 29.8 [8.73] D Power 2.9 2.8 2.7.. 2.8 2.8 2.7 2.9 2.8 2.7 R 9. Total BTUH [kW] 43.2 [12.66] 41.5 [12.16] 39.7 [11,63] 40.1 [11.75] 38.4 (11.25] 36.7 [10.761 37.5 [10.991 35.8 [10.49] 34.1 [9.99] [322] Sens BTUH [kWJ 27.8 [8.151 24.5 [7.18] 21.2 [6:.211 32.3 [9.47] 28.9 [8.47] 25.6 [7.51] 35.9 [10.52] 32.5 [9.521 29.2 [8.56] B Power 3.0 2.9 2.9. 3.0 2.9 2.9 - 3.0 3.0 2.9 � 95 Total BTUH [kWJ 42.3 (12.40] 40.6 [11.90]. 38.9 [11.401 39.3 111.52] 37.6 (11.02] 35.9 [10.521 36.7 [10.761 35.0 [10.26) 33.3 [9.761 B 1351 Sens BTUH [kWJ 27.4..18.031 24.1 [7.06] 20.8 [6.10] 31.9 [9.351 28.6 (8.381 25.2 [7.39] 35.5.[10.40] 32.1 [9.41] 28.8 [8.441 T Power 3.2 3.1 3.0 3.1 3.1 3.0 -3.2 3.1 &0 - E 100 Total BTUH [kW] 41.6 [12.191 39.9 [11.69] 38.2 [11.201 38.5 [11.28] 36.8 [10.78] 35.1 [10.29] 36.0 [70.55J 34.2 [10.02] - 32.5 [9.521. P [37.8] Sens BTUH [kW] 27.1 [7.941 23.8 [6.98] 20.4 [5.981 31.6 [9.26]. 28.2 [8.261 24.9 [7.30] 35.1 [10.29] 31.8 [9.321 28.5 - [8.35] E Power 3.3 3.2 3.2 3.3 3.2 3.2 3.3 3.2 3.2 a Total BTUH [kW] 40.8.[11.961 39.1 [11.46] 37.4 [10.96] 37.7111.05] 36.0.[10.551 343 [10.051 35.1.[10,291 33.4 [9.79] 31.7 [9.29] T [40.61 Sens BTUH [kW] 26.7 [7.821; 23.4 [6.86] 20.1 [5.891 31.2 [9.14] 27.9 [8.181 24.5 [7.18] 34.8 [10.20] 31.4 [9.201 28.1 [8.24] U Power 3.4 3.4 3.3 3.4 3.4 3.3 3.5 3.4 3.3 E 110 Total BTUH [kW] 39.8 f 11.66]. 38.1 [11.171 36.4 [10.67] 36.8 (10.781 35.0 f10.26] 33.3 [9.76] 34.2.[10.021 32.5. [9.52] 30.8 [9.03] 'F [43.31 Sens BTUH [kW] 26.2 [7.68) • 22.8 [6.68] 19.5 [5.71] 30.6 [8.97] 27.3 [8.00] 24.0 [7.03] 34.2 [10.021, 30.9 [9.06) 27.5 [8.06] 1,C] Power 1 3.6 3.5 3.5 3.6 3.5 3.4 3.6 3.5 3.5 5 Total BTUH [kW] 38.7 [11.34] 36.9 (10.811 35.2 [10.32] 35.6 [10.43] 33.9 [994] 32.2 [9.44] 33.0 [9.67] 31.3 [9.17] 29.6 [8.67] Ll115 [1 Sens BTUH [kW] 25.3 [7.41] 22.0 [6.45] 18.7 [5.48] 29.8 [8.731 26.4 F74] 23.1 [6.77] 33.0 [9.67] 30.0 [8.79] 26.7 [7.82] Power 3.7 1 3.7 3.6 3.7 3.7 3.6 3.7 3.7 3.6 GROSS SYSTEMS PERFORMANCE DATA-RLMA-Anaq ENTERING INDOOR AIR @ 80°F [26.7'C] dbE T wbE 7PP 121.7'CI 67-F [19.4'C] 53-F 117.2'Cl CFM [t/s] 1759[825.91 1400 [660.71 1050 [495.51 1750(825.91 1400 [560.71 1059[496.51 17501825.91 1400[660.71 1050[495.51 OR T .16 .11 . 55 .15 .11 .OS .16 .11 .05 75 Total BTUH [kW] 51.0 [14.94] 49.1 [14.39] 47.1 [13.801 48.1 [14.09] 46.1 (13.511 44.2 [12.95J 44.6 [13.07] 42.6 [12.48] 40.7 [11.93] [23.91 Sens BTUH [kWJ 36.7 [10.75] 32.9 [9.64] 29.0 [8.50] 42.4 [12.421 38.6 [11.311 34.7 [10.17] 44.6 [13.071 42.6 (12.48] 39.6 [11.60] 0 Power 2.8 2.8 2.7 2.8. 2.7 2.6 2.8 2.7 2.6 T 60 Total BTUH [kW] 49.9 (14.62] 47.9 [14.031 46.0 [13.48] 46.9 [13.74] 45.0 [13.19] 43.1 [12.63] 43.4 [12.72] 41.5.[12.16] 39.6 [11.601 D f28.71 Sens BTUH [kW] 33.1 [9.70] 29.3 [8.58] 25.5 [7.47] 38.9 [11.401 35.0 [10.261 31.2 [9.14] 43.4 [12.72] 41.5 [12.16] 36.0 [10.55] 0 Power 3.0 2.9 2.9 2.9 2.9 2.8 2.9 2.9 2.8 q 85 Total BTUH [kW] Sens BTUH [kW] 48.9 [14.33] 31.4 [9.20J. 47.0 [13.77] 27.6 [8.09] 45.0 [13.191 23.7 [6.94] 46.0 [13.48] 37.1 [10.871 44.0 [12.891 33.3 (9.76] 42.1 [12.34] 29.5 42.5 [12.45] 42.5 40.5 [11.871 38.6 [11.31] p [29 41 Power 3.2 3A 3.0 3.1 3.1 [8.64] 3.0 [12.45] 3.1 40.5 [11.871 3.0 34.3 [10.051 3.0 v 90 Total BTUH [kW] Sens BTUH [kWJ 48.0 [14.06] 30.9' 19.05] 46.1 [13.511 27.0 [7.91) 44.2 [12.991 23.2 [6.801 45.1 113.21] 36.6 [10.72) 412 [12.661 32.8 [9.611 41.3 112.10] 28.9 41.6 [12.19] 41.6 39.7 [11.631 37.8 [11.08] B u [32.21 Power 3.4 3.3 3.2 3.3 3.2 [8.471 3.2 [12.191 3.3 39.7 (11.631 3.2 33.8 . [9.90] 3.1 t. B 95 Total BTUH RW] Sens BTUH NW] 47.2 (13.83]. 31.0 [9.08] 45.3 [13.271 27.1 [7.941 43.4 [12.72] 23.3 [6.83] 44.3 [12.981 36.7 [10.75] 42.4 [12.42] 32.9 40.4 [11.841 29.0. 40.8 [11.95] 40.8 38.9 [11.40] 36.9 [10.81) T [351 P 1 3.5 3.5 3.4 3.5 [9.64] 3.4 [8.501 3.3 [11.95] 3.5 38.9 [11.40] 3.4 1 33.9' [9.93] 3.3 E 100 Total BTUH [kW] 46.4 [13.601 44.4 [13.01) 42.5 (12.451 43.4 [12.721 41.5 [12.16] 39.6 [11.60] 39.9 [11.69] 38.0 [11.13] 36.1 110.58] P [37 Sens BTUH [kW] 31.0 [9.081 27.2 [7.97] 23.4 [6.86] 36.8 [10.781 32.9 [9.64] 29.1 18,53] 39.9 [11.69] 38.0 [11.13] 33.9 [9.93] E Power 3.7 3.6 3.6 3.6 3.6 3.5 3.6 3.6 3.5 A 105 Total BTUH [kWJ 45.4113.19] 43.5 [12.751 41.6 [12.19] 42.5 [12.45] 40.5 [11.87] 38.6 [11.311 39.0 [11.431 37.0 [10.84] 35.1. [10.28] T [40.6.1 Sens BTUH [kWJ 30.5 [8.94] 26.7 [7.82] 22.8 [6.681 36.2 (10.61] 32.4 [9.49] 28.6 [8.381 39.0 [11.43] 37.0 [10.841 33.4, [9.79] -3.9 3.8 3.7 3.8 -. 3.7 3.7 3.8 3.7 3.7 E 110 Total BTUH [kWJ Sens BTUH [kWJ 44.3 [12.981 28.7 [8.41] 42.4 (12.421 24.9 [7.30] 40.4 (11.84] 21.1 41.3 [12.101 34.5 39.4 [11.54] 37.5 [10.99] 37.8 [11.08] 35.9 [10.52] 34.0 [9.96] °F [48 3] Power [6.18] [10.11] 30.6 [8,971 26.8 [7.851 37.8 [11.081 35.9 [10.52] 31.6 [9.26] 1,C] 4.0 4.0 3.9 4.0 3.9 IS 4.0 3.9 3.8 j5 Total BTUH [kW] 42.9 [12.57] 41.0 [12.01 ] 39.1 [11.46] 40.0 [11.72] 38.0 [11.13] 36.1 [10.58] 36.5 {10.1391 34.5 [10.111 32.6 [9.55] Sens BTUH [kW] Power 25.2 [7,38] 4.2 21.3 [6.24] 17.5 [5.13] 30.9 [9.051 27.0 [7.91] 23.2 [6.80] 36.5 [10.69] 34.5 [10.11] 28.1 [8:23J 4.1 4.1 4.2 4.1 4.0 4.1 4.1 4.0 dbE- ression ratio Total -Total capacity x 1000 BTUH NOTES: Bring air dry bulb Sens -Sensible capacity x 1000 BTUH T When the entering air dry bulb is other than 807 [27°131, adjust the sensible wbE ring air wet bulb Power -KW input capacity from the table by adding [1.10 x CFM x (1- DR) x (dbE- 80)]. [ ] DRAgnates Metric Conversions r_Qncc cvaTFnnc PFRFnRMANCE DATA-RLMA-A048 - - -- - ENTERING INDOOR AIR @ 80°F [26.7'C] dbE O - wbE 71°F 121.7°C1 67°F119.4°CI 63°F [17.2'Cl CFM IL/al Man [943.91 1600[755.11 1200 [566.3] 2000 1943.91 1500 1755.11 12001555.31 2000[943.91 1500[755.11 1200 LOU 31 OR i0 .18 .14 .09 .18 .14 .09 .18 .14 .09 75 Total BTUH [kWI 60.5.[17.731 37.0 58.2 (17.061 32.7. 55.9 [16.381 28.3 [8.29] 56.6 [16.591 43.5112.75]. 54.3 (15.91]. 39.2 [11.49] 52.0 [15.241 34.8110.20] 53.1 [15.561 48.7 [14.27] 50.8 [14.891 44.3 [12.98]. 48.6 [14.241 39.9 [11.691 [23.91 Sens BTUH [kW] Power [10.841 4.2 [9.58] 4.1 4.0 4.1 4.0 3.9 3.5 3.4 3,3 o_ Total BTUH [kW] 59.6 [17.47] 57.3 [16.79] 55.0 [16.12] 55.7 [16.32] 53.4 [15.65] 51.1 [14.981 52.2: [15.30] 50.0 [14.65] 47.7 [13.981 7 8. Sens BTUH [kW] 36.7 [10.76] 32.3 [9.47] 27.9 [8.18] 43.2 [12.66] 38.8 [11.37] 34.4 [10.08] 48.3 [14.16] 43.9 [72,871 39.5 [11.58] 0 [26.7] Power '4.4 4.3 4.2 4.3 4.2 4.1 3.7 3.6 3.5 Total BTUH [kWI 58.6[17.17] 56.3 [16.50] 54.0 [15.83j: 54.7 [16.03] 52.4 [15.36] 50.1 [14.68] 51.2[15.01] 49.0 [14.36]. 46.7 [13.69] q85 Sens BTUH [kWI 36.3 [10.641 31.9 19.351 27.5 [8.06] 42.8 [12.54] 38.4111.25] 34.0 [9.96] 47.9 [14.04] 43.6 [12.781 39.2 [11..49] D [29.41 Power 4.6 4.5 4.4F[12.131 4.4 4.3 3.9 3.8 3.7 R Total BTUH [kW] 57.5 [16.85) 55.2 [16.18] 52.9115.50].71] 51.3 [15.031 49.0114.36) 50.1 [14.68) 47.8 [14.01] 45.6 [13.36] v 9U Sens BTUH [kW] 35.9 [10.52] 31.5 [9.23] 27.1 [7.94].43) 38.0 [11.141 33.6 [9.85] 47.5 [13.92] 43.2 [12.66] 38.8 [11.37] B 132.21 Power 4.7 4.6 4.6 4.6 4.5 4.1 4.0 3.9 �.....95 Total BTUH [kW] 56.2 [16.47] 54.0 [15.83] 51.7 [15.15].331 50.1 [14.681 47.8 [14.01] 48.9 [14.33] 46.6 [13.661 44.3 (12.981 e. Sens BTUH 1kW] 35.4 [10.37] 31.1. [9.11] 26.7 [7.82].28] 37.6 [11.02] 33.2 [9.73] 47.1. [13.80] 42.7 [12.51] 38.3 [11.22] 1351 Power ` 4.9 4.8 4.7 4.8 4.7 4.3 4.2 4.1 E Total BTUH [kW] 54.9 [16.09]` 52.7 [15.44] 50.4 [14.77].95] 48.8 [14.30] 46.5[13.63] 47.6 [13.95] 45.3 [13.261 43.0 [12.60] P 100 Sens BTUH [kW1 34.9110.23] 30.6 [8,94] 26.2 [7.68].2.13]. 37.1 [10.87] 32.7 [9,581 46.6 [13.66] 42.2 [12.37] 37.8[11.081 E [37 81 Power 5.1 5.0 4.9 5.1 5.0 4.9 4.5 4.4 4.3 A Total BTUH [kW] 53.6 [15.71] 51.3 [15.03] 49.0 [14.36] 49.7 [14.57] 47.4 [13.891 45.1 113.22] 46.2.[13.54] 44.0 [12.90] 41.7 [12.221 105 [kW] 34.353.051 29.95[8,76] 25.6517.51] 40.8 [13.961 36.4 [120.67] 32.1519.41] 46.04[13.48] 41.64162.19] 37.2415 .901 U 140.61 POweBTUH R Total BTUH [kW1 52.2 [15.30] 49.9 [14.621. 47.6 [13.95] 48.3114.161 46.0 [13.48]. 43.7 [12.81] 44.8 [13.13]. 42.5 [12.46] 40.3 [11.81] E 110 Sens BTUH [kW] 33.6 [9.85] 29.2 [8.56] 24.8. [7.27] 40.1 [11.75] 35.7 [10.46] 31.3 [9.17] 44.8 [13.13] 40.9 [11.991 36.5 [10.70] 'F [43.31 power 5.5 5.4 5.3 5.5 5.4 6.3 4.9 4.8 4.7 [°C] Total BTUH [kWl.. 50.7 [14.86] 48.5 [14:21] 46.2 [13.54] 46.8 [13.72] 44.6 [13.071 42.3 [12.40] 43.4 [12.721 41.1 [12.05] 38.8 [11.37] Sens BTUH 1kW] 32.7. [9.58j 28.8 [8.29] 24.0 [7.03] 39.2 [11.49] 34.8 [10.20j 30.5 [8.94] 43.4 [12.72] 40.0 [11.72] 35.6110.43] 6.1 [46.11 power 1 5.7 1 5.6 1 5.5 1 5.7 5.6 -5.5 5.1 5.0 4.9 r_Rncc cvCZTFMS PFRF®RMANCE DATA-RLMA-A060 ENTERING INDOOR AIR 49 80°F [26.7°Cl dbE O wbE 71°F 121.7°Cl 67'F [19.4°Cl 63°F 177.2°C] CFM [Ih] 2380[1123.21 1 19001896.71. 1430167C[I 238011123.21 1900[896.71 1 1430[674.91 2380[1123.21 19001896.7] 143 74.91 OR ) .17 .13 .OB .17 .13 OB .17 .13 75 Total BTUH [kW] 74.4 [21.801 71.6 [20.98] 68.8 [20.161 69.9 [20.491 67.2 [19.69]18.87] r431 65.0 (19.051 62.2 [18.23) 53.3 59.4 (17.411 48.0 [14.07] - 9] Sens BTUH [kW] 46.8 [13.72] 41.5 [12.16j 36.2 [10.61] 53.7 [15.74] 48.3 [14.1612.60] 56.6 [17.17] [15.62] 3.9 [23 Power 4.1 4.0 3.9 4.1 4.0.9 4.1 4.0 Total BTUH [kW] 72.2 [21.16] 69.4 [20.341 66.7119.55) 67.8 [19.87] 65.0 [19.05]. 62.2 [18.231 62.9 [18.431 60.1 [17.61] 57.3 [16.79] Sens BTUH [kWJ 45.8 [13.42] 40.4 [11.84] 35.1 110,29] 52.6 [15.421 47.3 [13.861 42.0 [12.31] 57.5-[16.1351 52.2 [15.30] 46.9 [13.74] p [26071 Power 4.3 4.2 4.1 4.3 4.2 4.1 4.3 4.2 4.1 Total BTUH [kWj 70.8 [20.751 68.0 [19.931 65.3 [19.14]..._66.4 [19.46] 63.6 [18.641 60.8 [17.821 61.5 [18,02) 58.7 [17.20] 55.9116.38] a 85 41 Sens BTUH [kW] 45.0 [13.19] 39.7 [11.63] 34.4 [10.081 51.9115.21]. 46.6 [13.66] 41.2 [12.07] 56.8 [16.65] 51.5 [15.09] 46.2 [13.54] D 129 Power 4.6 4.5 4.4 4.6 4.5 4.4 4.5 4.4 4.3 R Total BTUH [kW] 69.7120.431 66.9 [19.611 64.1 [18.791 65.2 [19.111 62.5118.32] 59.7117.50] 60.3 [17.67] 57.5 [16.851 54.8 [16.06] 90 Sens BTUH [kW] 44.5 [13.04] 39.2 [11.49] 33.9 [9.94] 51.4 [15.061 46.1 [13.511 40.7 [11.93] 56.3 [16.50]. 51.0 [14.95] 45.7113.39] e [390 21 Power 4.8 1 4.7 4.6 4.8 4.7 4.6 4.7 4.6 4.5 Total BTUH [kW] 68.3 [20.02] 65.5 [19.20] 62.8.(18.40] 63.9 [18.73] 61.1 [17.911 58.3.117.09] 59.0 [17.29] 56.2.116,471 53.4 [15.65] e. 95 Sens BTUH [kW] 44.1 (12.92] 38.8 [11.37] 33.5 [9.82] 50.9 [14.921 45.6113.36] 40.3 [11.81] 66.0116.41] 50.6 [14.831 45.2 [13.251 [35] Power 5.0 4.9 4.8 5.0 4.9 4.8 4.9 4.8 4.7 e Total BTUH [kWI 66.3 [19.431 63.5 [18.61] 60.7 [17.79] 61.9 [18.14] 59.1 [17.321 56.3 [16.501 56.9 [16.681 54.2 [15.881 51.4 [15.061 M 100 Sens BTUH [kW] 43.6 [12.78] 38.3 [11.22] 33.0 [9.671 50.5.[14.80) 45.1 [13.221 39.8 [11.66] 55.4 [16.241, 50.1 [14.68] 44.6 [13.131 P E 137.81 power 5.2 5.1 5.0 5.2 5.1 5.0 5.1 5.0 4.9 A Total BTUH [kW] 63.1 [18.491 60.3 [17.671 57.6 [16.881 58.7 [17.20] 55.9116.381 53.1. [15.56] 53.8 [15.77] 51.0 [14.951 48.2 [(14.131 A 105 Sens BTUH WIN] 42.9 [142.571 37.6[1.02] 32.35 [9.47] 49.8 [14.59] 44.5 [13.041 39.1 [111.46].. 53.8 [1 49.4 [13.48] 44.1 [12.921 [405 Pow 5.2 45,77] 6112.72] R iota] BTUH 1kW] 58.3 [17.091 55.5 [16.271 52.8 [15.47) 53.9 [15.801 51.1 [14.98] 48.3 [14.161 49.0 [14.36] 46.2 [13.541 43. [43 3I Sens BTUH NW] 41.9 [12.281 36.6 [10.731 31.3 [9.171 48.8 [14.301 43.4 [12.721 38.1 [11.17] 49.0 [14.36] 46.2 [13.54] 43.��'q'631 F [°�l Power 5:6 5.5 5.4 5.6 5.5 5.4 5.6 5.5 10.70] 115, iota] BTUH [kWI Sens BTUH [kWl 51.4 [15.06] 40.451�1.84] 48.6 [14.24j 35.15 45.9 [13.451 29.85 r8.73] 47.0 [13.77j 47.051�3.77j 44.2 [12.95] . 41.4 [12.131 42.1 [12.341 39.3 [11.521 36.E 1s .701 [46.11 Power 80.29] 41.95 8 .28j 36.65 0.73j 42.1 [12.341 39.3 [11.521 36. 8 5.E -fD -n° I°�� mwi -local capacity l00087UH dbE-Entering air dry bulb Sens -Sensible capacity 1000 BTUH wbE--Entering air wet bulb Power -KW input II ..--..°.. 1 I 1 Designates Metric Conversions NOTES: b (D When the entering air dry bulb is otherthan 80°f [271C], adjust the sensible capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE- 80)]. In GROSS SYSTEMS PERFORMANCE DATA-RLKA-A036 m ' ENTERING INDOOR AIR 0 80°F [26.7°C] dbE D wbE 71"F 121.7'CI 67°F[19.4°CI 63°F 117.2°CI CFN[Usl 1500 1707.91 1 1200 1566.31 900[424.81 1500[707.91 " 12001566.31 900 1424.81 15001707.91 12001566.31 900[424.81 OR T .18 .15 .10 .18 .15 .10 .18 .15 .10 - 75 Total BTUH 1kW1 43.4 [12.72] 41.7 [12.22) 40.0 [11.72] 41.6 [12.19) 39.9 [11.69] 38.2 [11.201 39.8 [11,66] 38.1 111.171 36.4 [10.67) [23.91 [kW] 28.22 25.02 [7.33] 21.72 33.12 29.82 [8.73] 26.52 38.02[ 1 [.14) 34.7 31.52 O PSens ower 58.26] 2.5 36.36] 59.70] 37.77] 2.30.171 39.23] T 80 Total BTUH [kW] 42.9 [12.571 41.2 [12.07] 39.5 [11,581 41.1 [12.051 39.4 [11.55]' 37.7 [11.051 39.3 [11.52) 37.6 [11.02] 35.9 [10.521 T [26.7] Sens BTUH [kW] 27.8 [8.151 24.5 [7,18], 21.2 [6.21] 32.6 [9.55] 29.3 [8.59]. 26.0 [7.62] -2.5 37.5 [10.991 34.3 [10.05] 31.0 [9.09] O Power 2.6 2.6 -.2.5 2.6 2.6 2.6 2.5 2.5 R 85 Total BTUH [kW] 42.4 [12.43] 40.6 [11.90] -38.9 (11.40] 40.6 [11.90] 38.9 [11.40]"` "37.2 [10.90j 38.8 [11.371 37.1 [10.87] 35.4 [10.37] [29.41 Sens BTUH [kW] 27.3 [8.00] 24.0 [7.03] 20.8 [6.10] 32.1 [9.41] 28.9 [8.47] 25.6 [7.51] 37.1 [10.871 33.8 [9.91] 30.5 [8.941 p Power "2.8 2.7 . 2.7 2.8 2.7 2.7 2.8 1 2.7 2.6 y 90 Total BTUH [kW] 41.7112.221 40.0 [11.721 38.3 [11.22] 40.0 [11.721 38.3 [11.221 36.6,[10.731 38.2 [11.20] 36.5 [10.701 34.7 [10.171 [32.21 Sens BTUH [kW) 26.9 [7.88] 23.6 [6.921 20.4 [5.98] 31.7 [9.29] 28.5 [8.35] 25.2 [7.39] 36.7 [10.76] 33.4 [9.791 30.1 [8.82] 13Power 3.0 2.9 2.8 3.0 2.9 2.8 2.9 2.9 2.8 e 95 Total BTUH [kWl 41.0 39.3 [ 37.6 [ [ 37.6 [ [ 37.4 [10.64] 35.7 [ 4.0 1351 Sens BTUH [kW] 26.5.[ [7.77] 23.2 [6.80] 20.0 [5.86] 31.3 [9.17] 28.11 [8.24] 24.8 17.27] 36.3 33.0 [9.671 29.77 [B.6111 T Power 3.1 3.1 3.0 3.1 3.1 3.0 3.1 3.0 3.0 E100 Total BTUH [kW] 40.2 [11.781 38.5 [ 11.281 36.8 [10.78] 38.4 [11.25] 36.7 [10.76] 35.0 [10.26) 36.6 [10.731 34.9 [10.231 33.2-[9.73] P [376] Sens BTUH [kW] 26.1 ;(7.65) 22.8 [6.68]' 19.6 [5.74] 30.9 [9.06] 27.7 [8.12] 24.4 [7.15] 35.9 [10.521 32.6 ,[9.55] 29.3 `[8.59], E Power 3.3. - 3.2 3.2 3.3 3.2 3.2 3.3 3.2 3.1 n 105 Total BTUH [kW] 39.2[11.491 37.5 [10.99] 35.8 [10.49] 37.5 [10.991 35.8 [10.491 34.1 [9.991 35.6 [10.43] 33.9 [9.94) 32.2 [9.441 T [40.61 Sens BTUH [kW] 25.7 [7.53] 22.4 [6.561 19.1 [5.601 30.5 [8.94]. 27.2 [7.971 24.0 [7.03] 35.5 [10.40] 32.2 [9.441 28.9 [8.47] UPower 3.5 3.4 3.4 3.5 3.4 3.4 3.4 3.4 3.3. E 110 Total BTUH [kW] 38.1 [11.17] 36.4 [10.67] 34.7 [10.17] '.36.3 [10.641 34.6 (10.14]' 32.9 [9.64] 34.5 [10.111 32.8 [9.611 31.1 [9.11] 'F [43.3] Sens BTUH [kW] 25.2 [7.39] 21.9 [6.42] 18.7 [5.48] 30.0 [8.79] 26.8 [7.85] 23.5 [6.89] 34.5 [10.111 31.7 [9.29] 28.4 18.32] . Power 3.7 3.6 3.5 3.6 3.6 3.5 3.6 3.5 3.5 ['F 115 Total BTUH [kWl 36.8[10.78] 35.1 [10.291 33.4 [9.79] 35.1. [10.29] 33.3 [9.761 31.6 [9.261 33.2 [9.73] 31.5 [9.231 29.8 [8.73] Sens BTUH [kW] 24.7 [7.24] 21.4 [6.271 18.1 [5.30) 29.5 [8.65] 26.3 [7.71] 23.0 [6.74] 33.2 [9.73] 31.2 [9.141 27.9 [8.18] [46.11 Power 3.8 3.8 3.7' 3.8 3.8 3.7 - 3.8 3.7 3.6 GROSS SYSTEMS PERFORMANCE DATA-RLKA-A042 ENTERING INDOOR AIR 0 80°F [26.7-C] dbE O -- - wbE 71°F[21.7°Cl 67°F[19.4°CI 637[17.2°Cl CFN MI 17501825.91 14001660.71 1050 [495.51 1750 [825.91 1400 [660.71 1 1050 [495.51 1750:[825.91 1400 [660.71 10501495.51 DR T .13 .09 .03 .13 .09 .03 .13 .09 .03 75 Total BTUH [kW] 49.5 [14.51] 47.5 [13.92]'. 45.6 [13.36] 48.0 [14.071 46.0 [13.48] 44.0 [12.90] 45.4 [13.31] 43.4 [12.721 41.5 [12.161 [23.91 Sens BTUH [kW] 34.5 [10.11] 30.6 [8.97]. 26.6 [7.80] 39.5 [11.58] 35.6 [10.43] 31.6 [9.26) 46.4 [13.311 41.9 [12.28] 37.9 [11.11] O Power 3.5 3..4 3.3 3.5 3.4 3.4 3.4 3.3 3.3 U 80 Total BTUH [kW1 49.1 [14.39]' 47.1 [13.80] 45.1 [13.22] 47.6. [13.95] 45.6 [13.361 43.6 [12.78] 45.0 [13.19] 43.0 (12.60] 41.0 (12.021 T p [26.71 Sens BTUH [kWI 34.1 [9.99] 30.2 [8.85] 26.2 [7,68] 39.1 [11.46] 35.1 [10.29] 31.2 [9.14] 45.0 [13.19] 41.5 [12.16] 37.5 [10.99] O Power 3.8 3.7 3.6 3.8 3.7 3.6 3.7 3.6 3.5 05 8 8 Total BTUH [kW] 48.6 [14.241 46.6 [13.66] 44.6 [13.07] 47.1 [13.80] 45A [13.221 43.1 [12.63] 44.5 [13.041 42.5 [12.461 40.5 [11i87] ; [ 41 Sens BTUH [kW] 33.7 [9.881 29.8 [8.731 25.8 [7.56] 38.7 [11.34] 34.7 [10.17] 30.8 [9.03] 44.5 [13.04] 41.0112.021 37.1: [10.87] p Power 4.0 3.9 3.8 4.0 3.9 3.8 3.9 3.8 3.7 R 90 Total BTUH [kW] 48.1 [14.101 46.1 [13.51] 44.1 [12.921 46.5,,[13.63] 44.5 (13.04] 42.6 [12.48] 44.0 [12.901 42.0 [12.31] 40.0 [11.72] [32.21 Sens BTUH [kW] 33.3 [9.76] 29.3 18.59] 25.4 [7.44] 38.3,.[11.22] 34.3 [10.05] 30.4 [8.911 44.0 [12.90) 40.6 [11.90] 36.7 [10.761 B Power 4.2 4.1 4.0 '4.2 4.1 4.1 4.1 4.0 4.0 � 95 Total BTUH [kW] 47.4 [13.89] 45.4 [13.31] 43.4 (12.721 45.8.[13.42] 43.9 [12.87] 41.9 [12.281 43.3 [12.69] 41.3 [12.101 39.3 [11.52] B 1351 Sens BTUH [kW] 32.9 [9.64] 28.9 [8.47] 25.0 [7.331 37.8[11.08] 33.9 [9.94] 29.9 [8.76] 43.3.[12.69] 40.2 [11.78] "36.2 [10.61] T Power 4.5 4.4 4.3 4.5 4.4 4.3 4.4 4.3 4.2 E 100 Total BTUH [kW] 46.5 [13.631 44.5 [13.041 42.5 [12.46] 44.9.[13.161 42.9 [12.57] 40.9 [11.99] 42.4 [12.431 40.4 [11.84] 30.4 [11.251 P [37 81 Sens BTUH [kWI 32.3 [9.47).. 28.4 [8.32] 24.4 [7.15] 37.3[10.931 33.3 [9.76] 29.4 [8.62] 42.4[12,431 39.7 [11.63] 35.7 [10.461 E Power 4.7 4.6 4.5 4.7 4.6 4.5 4.6 4.5 - 4.4 R Total BTUH [kW] 45.3 [13.28]' 43.3 (12.69] 41.3 [12.10] 43.7 [12.81] 41.7[12.22] 39.7 [11.63] 41.2 [12.07] 39.2 [11.49] 37.2 [10.901 u [40.61 Sens BTUH 1kW1 31.74 [[9.29) 27.84 [88.15] 23.84 [6.98] 36.74[1�0.761 32.74[89.58] 28.84 [88.441 41.2 (182.07] 39.1 [11.46] 35.1 [10.29] Power E 11g Total BTUH RINI 43.7 [12.811 41.7 [12.221 39.7 [11.631 42.2[12.371 40.2 [11.78] 38.2 [11.191 39.6 [11.61] 37.6 [11.021 35.6[10.431 .F [43.gj Sens BTUH RINI 31.05 29.09] 27.0517.91] 23.15 [06.77] 35.9112 .52] 32.0519.38] 28.05 [08.21] 39.6 [111.611 37.6 [101.021 34.3 [1�0.05] [.Cl - Power 11 Total BTUH [kW] 41.7 11222] 39.7 [11.63] 37:7 [11.05] 40.2 [11.78) 38.2 [11.20] 36.2 [10.61] 37.6 [11.02] 1 35.6 [10.43] 33.6 [9,851 [46.1] Sens BTUH [kW] 30.0 26.15 22.1 35.0 [1 .261 31.09.09] 27.1[27.941 37.6 [1 .02]Power 35.6512 .43] 33.4519.79] 48.79] 5 3 57.65] 2 56.48] 3 5 1 5.3 un "llFiission ratio Total -Total capacity x 1000 BTUH NOTES: dbE-Ent, ing air dry bulb Sens -Sensible capacity x 1000 BTUH T When the entering air dry bulb IS Other than E04F [2%°Cj, adjust the sensible wbE-Entarng air wet bulb Power -KW input capacity from the table by adding [1.10 x CFM x (1- DR) x (dbE- 80)]. [ 1 DesiSetes Metric Conversions r--ancc CVSTFMC PFRFnRMANCF- DATA-RLKA-A048 ENTERING INDOOR AIR @ 80'F [26.7'C] dbE O wbE 71'F [21.7°CI 67'F 119.4°Cl 63'F[17.2%] CFM [Usl 2000[943.91 16001755.11 12001566.31 2000[943.91 1600[755.11 12001556.31 28001943.91 16001755.11 1 12801566.31 DR O .18 .14 .09 .18 .14 .09 .18 .14 1 .09 -: 75 Total BTUH [kW] 54.2 [15.881 51.9115.21] 49.7114.571 25.8 [7.56]. 52.9 [15,501 42.1 112.341 50.6 [14.831 37.7 [11.051 48.3 [14.161 33.3 [9.76] 51.0 [14.95] 48.4 [14.181 48.7114.271 44.1 [12.921 46.5 [13.631 39.7 [11.631 123.91 Sens BTUH [kW) 34.6 [10.14] 30.2 [8.851 3.5 3.6 3.5 3.5 3.6 3.5 3.4 Power 3.6 3.5 o. 6. Total BTUH [kWl 54.1 [15.86] 51.8 [ 55.181 49.5 [14.511 25.9 %52.7 [15.441: 42.3 [12.40) 50.4 [14.77]: 37.9 [11.11] 48.2 [14.131 33.5 [9.82] 50.9 [14.921 48.6 [14.24] 48.6 [14.241 44.2 [12.95] 46.3 [13.571 39.8 [11,66] T' 0 [26.71 Sens BTUH [kWI power 34.7 [10.17] 3.9 30.3 [8.88] 3.8. [7.59] 3.7 1 3.9 3.8 3.7 3.8 3.7 3.6: Total BTUH [kW] 54.0 115.83] 51.7 [15.15) 49.4 [14,48] 52.7 [15.44] 50.4 [14.77] 4B.1 [14.10] 50.8 [14.891 48.5 [14.21) 46.2.[13.54] R 85 Sens BTUH [kW] 34.7 [10.17) 30.3 [8.88] 25.9 [7.59] 42.3 [12.401 37.9 [11.11] 33.5 [9.82] 48.6114.241 44.2 [12.95] 39.8 [11.66] D [29 4] Power 4.1 4.0 3.9 4.1 4.0 3.9 4.0 3.9 3.8 R Total BTUH [kW1 53.9 [15.80] 51.7 [15.151 49.4 [14.48] 52.6 [15.42] 50.3 [14.741 ,48.1 [14.10] 50.7 [14.86] 48.5 [14.21) 46.2 [13.54) v Sens BTUH [kWl 34.6 [10.14) 30.2 18.85) 25.8 17.56] 42.2 [12.37] 37.8 [11.08] 33.4 [9.79] 48.5 [14.211 44.1 [12.92] 39.7 [11.63] e 2. [32.21 Power 4.3 .:. 4.2 4.1 4.3 4.2 4.1 4.2 4.1 4.1 Total BTUH [kW1 53.7 115.74] . 51.5 [15.09] 49.2 [14.42] 25.7 17.53] 52.4 [15.361 42.0 [12.31] 50.1:[14.681 37.6 [11.021 47.9 [14.091 33.2 [9.73] 50.6 [14.83]. 48.4 [14.181 48.3 [14.16] 44.0 [12.90] 46.0.[13.48) 39.6 [11.611 -B [35] Sens BTUH [kW] Power 34.5 [10.111 4.5 30.1 [8.82] 4.4 4.3 4.5 4.4 4.3 4.5 4.4 4.3. Mr 00 100 Total BTUH [kW1 53.3 [15.62] 51.0 [14.951 48.7 [14.27] 25.6 52.0 115.241 '41.9 [12.28) 49.7 [14.57] 37.5 [10.99) 47.4 [13.89] 33.1. [9.70] 50.1 [14.68] 48.2 [14.131 47.8 [14.01] 43.8 [12.84] 45.5 [13.33] 39.5 [11.581 ` P [3 Sens BTUH [kW] 34.3 [10.05] 30.0 [8,79] 17.51] 4.7 4.6 4.5 4.7 4.6 4.5 E Power 4.7 4.6 4.6 R Total BTUH [01 52.5115.39] 50.2 [14.71) 47.9 [14.041 51.1 [14.981 48.9 [14.33) 46.6 [13.661 49.3 [14.451 47.0 [13.77] 44.7 [13.101 Y05 [kWl 34.3 [100.051 29.94 [[8.76] 25.54 [17.47] 41.9 [102.28) 37.5 [1�0.99] 33.1419.701 48.2 [1�4.131 43.8 [162.84] 39.4 [11 .55] U [40.61 PoweBTUH 4. _ R E Total BTUH [kW] 51.1 [14.98] 48.8 [14.301 30.0 46.6113.66) 25.6 [7.51] 49.8 [14.59] 42.0 [12.31] 47.5 [13.921 37.6 [11.02] 45.2113.251 33.2 [9.73) 47.9 [14.04) 47.9 [14.04] 45.6 [13.361 43.9112.87] 43.4 [12.721 39.5 [11,58] [43 31 Sens BTUH [kW] 34.4 [10.081 [8.79] 5.2 5.1 5.0 5.1 5.0 4.9 F Power 5.2 5.1 5.0 ["CI 115 Total BTUH [kW]r4g.1 [14.39] 46.9 [73.74] 44.6 [73.07] 25.9 47.8 [14.01]. 42.3 [12.40] 45.5 [73.33] 37.9 [11.11] 43.3 [12.69] 33.5 [9.82] 46.0 [13.481 46.0 [13:48] 43.7[12.81) 43.7 [12.81] 41.4 [12.131 39.8 {31.66] [4fi 1] Sens BTUH [kWl.7 [10.171 5.4 30.3 [8.88] 5.3 [7.59] 5.2 5.4 5.3 5.2 5.3 5.2 '5.2 Power ummnee eve -maim CCRFnRNIANCF nATA-RLKA-A060 ENTERING INDOOR AIR 0 80°F [26.7-C1 dbE O wbE CFM [US) 71'F 121.7°CI 2500 [1179.91 20001:43.91 15001707.91 67'F 119.4°CI 2500 [1179.91 2000 1943.91 1500 [707.9 63°F I77.2°CI 22500 [1179.91 2000 [943.91 1500 [707.91 OR p .18 .14 .09 .18 .14 .09 .18 .14 .09 Total BTUH [kW] 72.7 [21.31] 69.8 [20.461 66.9 [19.61] 69.3120.311 66.4 [19.461 63.6 [18.641 65.8 [19.281 62.9 [18.431 60.1 [17.611 75 Sens BTUH [kW] 46.0 [13.48] 40.5 [11,87] 35.0 [10.26] 54.6 [16.00] 49.1 [14.391 43.6 [12.781 62.7 [18.38] 57.2 [16.76] 51.7 [15.151 4.2 [23 9] Power 4.6 4.5 4.3 4.5 4.4 4.3 4.4 4.3 `� Total BTUH [kW] 72.2121.161 45.5 69.3 [20.311 40.0 [11.72] 66.4.119.46] 34.5 [10.11] 68.8 [20.16] 54.0 [15.83) 65.9 [19.311 48.5 [14.211 63.0 [18.46] 43.1 [12.631 65.3 [19.141 62.1 [18.20] 62.4 [18.291 56.6 [16.591 59.6 [17.47) 51.2 [15.011 o [280 6.7] Sens BTUH [kW] Power [13.33] 4.9 4.8 4.6 4.8 4.7 4.6 4.7 4.6 4.5 0. 85 Total BTUH [kW1 71.4 [20.93] 68.6 [20.10] 39.5 65.7 [19.251 34.0 [9.96] 681.[19,961 53.5 [15.681 65.2 [19.11) 48.1 [14.10] 62.3 [18.26] 42.6 [12.48] 64.6 [18.931 61.6 [18.05] 61.7 [18.081 36.2 [16.47] 58.8 [17.231 50.7 [14.86] D [29 41 Sens BTUH [kW1 Power 45.0 [13.19] 5.2 [11.581 5.1 4.9 5.1 5.0 4.9 - 5.0 4.9 4.8 R 90 Total BTUH [kW] 70.5 [20.66] 67.6 [19.811 39.0 64.8 [18.99) 33.5 [9.82] 53.1 [15.56]951 67.1 [19.66]F[13.77] 821 61.4117.991 42.1 [12.341 63.6 [18.641 61.1 [17.91] 60.8 [17.821. 55.7 [16.32] 57.9 [16.971 50.2 [74.71] B [32 21 Sens BTUH [kW1 Power 44.5 [13.041 5.5 [11.43] 5.3 5.2 5.4 5.2 5.3 5.2 5.1 � 95 Total BTUH [kW] 69.3 [20.31] 66.4 [19,461 63.5.[18.61] 33.0 65.9 [19.31].461 52.5115.391.77] 60.2117.641 41.5[12.16]60.7 62.4 [18.29] [17.79] 59.6 [17.47] 55.1 [16.15] 56.7 [16.621 49.6 [14.54] B [35] Sens BTUH [kW] 43.9 [12.871 38.5 [11.28] [9.671 5.7 5.5 5.6 5.5 5.4 Power 5.8 5.6 5.5 e Total BTUH [kW] 67.8 [19.87]. 64.9 (19.021 62.0118.171 64.4[18.871.02] 58.7 [17.201 60.9 [17.851 58.0 [17.00) 55.2 [16.181 M 100 Sens BTUH [kW] 43.3 [12.69] 37.8 [11.08] 32.3 [9.47] 51.9115.211.601 40.9 [11.991 60.0 [17.581 54.5 [15.97] 49.0 [14.361 5.7 P E [37.8] Power 6.0 5.9 5.8 6.0 5.9 5.8 5.9 5.8 R Y05 Total BTUH [kWl 66.0119.34] 42.46[3.431 63.1 [18.49] 37.06[120.841 60.2117.641 31.5619.23]. 62.6 [18.35] 51.0[14951 59.7.[17.50] 45.5 56.8116.651 40.Ofi1r.72] 59.1 [17.321 59.182.321. 56.2 [16.471 53.65115.71] 53.4 [15.65] 48.1s104.10] u [40.61 PoweBTUH[kW1 BY 6[123.331 e Total BTUH [kW] 63.8 [18.70] 60.9 [17,85] 58.1 [17.03]' 60.4,[17.701 57.5 [16.851 54.7 [16.031 56.9 [16.681 54.1 [15.861 51.2 [15.011 Y10 [43,31 Sens BTUH [kWJ 41.3 [12.101 35.9 [10.52] 30.4 [8.911 49.9.[14.62) 44.4 [13.011 38.9 [11.40] 56.9 [16.681 52.5 [15.391 47.0 [13.77] °F Power 6.6 6.5 1 6.6 6.5 6.4 6.5 6.4 6.3 1'C] Yib Total BTUH [kW] 61.2 [17.94] 58.4 [17.12] 55.5 [16.27] 57.9.[16.97] 55.0 [16.12] 52.1 [15.27] 54.4 [15.941 51.5 [15.091 48.6 [14.24] Sens BTUH [kW] 39.96[191.69]: 34.56[160.11) 29.0678.501 48.511�4.211 43.06[182.60] 37.55 0.99] 54.46[185.94] 51.1 [14.981 45.61 Power 6.76[15.36] DR-Deptbssion ratio. Total -Total capacity x 1000 BTUH dbE-Erdpring air dry bulb Sens -Sensible capadty x 1000 BTUH wbE-Ent4Fing air wet bulb Power -KW input [ ] Designates Metric Conversions NOTES: O When the entering air dry bulbis other than 80°F [27°131, adjust the sensible capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. 72 GROks SYSTEMS PERFORMANCE DATA-RLI I ENTERING INDOOR AIR 43 80-F [26.7'C] dbE 1) wbE 71-F[21.7'Cl 57'F[19.4'Cl 53'F[17,2'Cl CFM [Lis] 300011415.81 246011132.7] 1 1800[849.51 300011415.81 2400[1132.71 1800[949.51 3001111415.81 240011132.71 1800[849.51 OR T .25 .22 1 .18 .25 .22 .18 .25 .22 - .18. 71 Total STUN [kW] 90.0 [26.381 86.7 [25.41] 83.3 [24.411 '42.1 83.4 [24.441 80.0 [23.451 76.7 [22.481 74.1 [21.721 70.8 [20.751 67.5[19.78] [23.41 [kW] 54.4 [155.941 48.3 [144.161 [13.341 63.0 [13.461 56.85 2.651 50.6 [11 .831 66.8 [119.581 60.6 [107.761 54.5 (185.971 PoweBTUN U 11 Total BTUH [kW] 89.5 [26.23] 86.1 [25.23] 82.8 (24.271 82.8 [24.27] 79.5 [23.301 76.2 [22.331 73.6 [21.571 70.3 [20.601 66.9 [19.61] T [2/.71 [kW1 53.3 [185,62] 47.2 [13.83] 41.0 61.9 [168.14] 55.7 [15.32] 49.5 (14.511 65.7 [149.251 59.55 3.441 53.4 [115.65] PSens oweBTUH 5.7 5[15.02) A 81 Total BTUH [kW] 88.0 [25.79] 84.7 [24.82] , 81.4 [23.861 81.4 [23.86] 78.1 (22.89] 74.7 (21.891. 72.2 [21.16) 68.8 [20.161 65.5 [19.201 129,41 Sens STUN WIN) 52.4 (115.36] 46.26(103.541 40.0 [18132] 60.9 [1�7.851 54.7 [186.03] 48.6 [15.s .24] 64.7 [18.961 58.6 [1 52.4 [15.361 D Power 5.7 5.17] y 90 Total BTUH [kW] 85.9:[25.17] -51.5 82.6 [24.211, 79.2 [23.21] 79.3 [23.241 75.9 [22.24] 72.6 [21.28] 70.0 [20.51] 66.7119.551 63.4 [18.581 [32 2] Sens BTUH [kW] [15.09] 45.3 [13.281 39.1 [11.461 60.0 [17.581 53.8 [15.77] 47.6 [13.95] 63.8 [18.70] 57.7 [16.91] 51.5.[15.091 B Power 6.4 6.2 6.1 1 6.2 6.1 5.9 6.0 5.8 5.7 Total BTUH [kW] 83.3 [24.41] 80.0 [23.45] 76.7 [22.481 76.7 [22.481 73.4 [21.51 ] 70.0 [20.51] 67.4 [19.75] 64.1 [18.79] 60.8 [17.82] B [35] Sens BTUH [kW] 50.5 [14.801 44.3 [12.98] 38.2 [11.201 59.0 (17.291 52.9 [15.501 46.7 [13.69] 62.9 [18.431 56.7 (16.621 50.5 [14.80] 6.0 Power 6.7 6.5 6.4 6.5 6.3 6.2 6.2 6.1 E 100 Total BTUH [kW1 80.5123.591 77.2 122.63] 73.9 [21.66] 73.9121.66] 70.6 [20.691 67.2.[19.691 64.7 [18.96] 61.3 [17.97] 58.0 [17.001 P [37 Sens BTUH [kW] 49.4.[14.48] 43.2 [12.66] 37.1 (10.87] 57.9 [16.97] 51.8. [15.181 45.6 [13,361 61.8 [18.111 55.6 [16.29] 49.4 [14.48] E Power - -6.9 6.8 6.7 6.8 6.6 6.5: 6.5 6.4 6.3 R Total BTUH [kWl 77.8 [22.80] 74.4 [21.80]. 71.1 [20.84] 71.1. [20.84] 67.8 [19.87] 64.5 [18.901 61.9 [18.14] 58.5 [17.141 55.2 [16.18] * 105u 48.1[1z.101 42.0(112.31) 35.8�100.49] 56.7�106.62] SOSS19.80] 44.3578.98] 60:5S1a.73]. 54.351�.91] 48.2fi5.13] [406) POwsBTUH[kW] E Total BTUH [kW] 75.2 (22.041 71.9 [21.071 68.6 [20.10] 68.6 [20.101 65.3 [19.14] 61.9 [18.141 59.3 [17.381 56.0 [16.41] 52.7 [15.441 110 Sens BTUH [kW] 46.5 [13.63] 40.4 [11.84] 34.2 [10.021 55.1 [16.15] 48.9 [14.331 42.7 [12.511 58.9 [17.261 52.7 [15.44] 46.6 [13.66) eF. [43.3] Power 7.5 7.4 7.2 7.3 7.2 7.1 7.1 7.0 6.8 ['C1 Total BTUH [kW] 73.2 [21.451 69.9 [20.491 66.5 [19.49] 66.6 [19.521 63.2 [18,521 59.9 [17.55] 57.3 [16.79] 54.0 [15.831 50.6 [14.831 115 Sens BTUH [kWl 44.6 [13.071 38.4 [11.251 32.2 [9.44] 53.1 [15.56] 46.9113.741 40.7 [11.93] 56.9 [16.68] 50.8 [74.891. 44.6 [13.07] [46 1J Power 7.8 7.7 7.5 7.6 7.5 7.4 7.4 7.2 7.1 GROSS SYSTEMS PERFORMANCE DATA-FiLKA-AU85 ENTERING INDOOR AIR @ 8O'F [26.7'Cl dbE O whE - 71'F[21.7'C] 67'F119.4'C1 I 63'F[17.2'Cl CFM [U3] 3560 [1680.11 2850 [1345.11 2140 [1010.81 356 [1680.1] 1 2850 [1345.11 2140 [1010.01. 1356011680.11 2850 [1345.11 1 2140 [1010.01 OR i0 .16 .12 .07 _15 1 .12 .07 .16 .12 - 07 75 Total BTUH [kW] 102.3.[29.971 98.2 128.771 94.2 127.601 95.7 [28.041 91.6 [26.841 87.6 (25.671 92.9 (27,221 88.9 [26.05] 84.8 [24.851 (23 g] Sens BTUH [kW1 64.5 [18.90] 56.6 [16.58] 48.7114.271 75.6 [22.15] 67.7 [19.841 59.8 117.52] 87.2 [25.551 79.2 [23.211 71.3 [20.901 Power 6.6 6.4 6.2 6.5 6.3 6.1 6.4 6.2 6.1 Total BTUH [kW] 101.9 [29.861 97.8. (28.66] 93.7 [27.45] 95.3 [27.921 91.2 [26.721 67.1 [25.52] 92.5 [27.101 88.4 [25.901 84.4 [24.73] T 8U [26.71 Sens BTUH [kW] 64.6118.931 56.7 [16.61] 48.8 [14.30] 75.8122.211 67.9 [19.891 '59.9 [17.55] 87.3[25.58] 79.4[23.26] 71.4 [20.921 D Power 7.0 6.8 6.7 6.9 6.7 6.5 6.8 6.6 6.5 85 Total BTUH [kW] 101.5 [29.74] 97.4 [28.541 93.3 [27.34] 94.9 [27.81] 90.8 [26.60] 86.8 [25.43] 92.1 [26.99] 88.1 [25.81] 84.0. [24.611 R [29 4] Sens BTUH [kW] 64.8 [18.99] 56.9 [16.67]. 49.0 [14.361 75.9 [22.24] 68.0 [19.921 60.1 [17.61] 87.4 [25.611 79.5 [23.291 71.6120.98] D Power 7.4 7.2 7.1 7.3 7.1 6.9 7.2 7.0 6.9 y BU Total BTUH [kW] 101.0 [29.591 96.9 [28.39] 92.8 [27.19] 94.4 [27.66] 90.3 [26.46] 86.3 (25.291 91.6 [26.84] 87.6 [25.671 83.5 [24.47] [ago Sens BTUH [kWJ 64.9 [19.02) 56.9 [16.67] 49.0 [14.36] 76.0 [22.271 68.1 [19.95] 60.1 [17.61] 87.5125,641 79.6 [23.32] 71.7 [21.01] B Power ,7.8 7.6 7.5 7.7 7.5 7.3 7.6 7.4 7.3 � 95 Total BTUH [kW] 100.2-{29.36] 96.1 [28.161 92.0 [26.961 93.6 [18.06] 89.5 [26.221 85.5 [25.05] 90.8 [26.601 86.8 [25.431 82.7 [24.23] e [351 Sens BTUH [kW1 64.7 [18.96] 56.8 [16.64] 48.9114.331 75.8 [22.211 67.9 [19.891 60.0 [17.58] 87.4 [25.611 79.4.[23.261 71.5 120.95] Power -8.2 8.0' 7.9 8.1 7.9 1 7.7 8.0 7.9 7.7 E 100 Total BTUH [kW] 98.9 [28.981 94.9 [27.811 90.8 [26.60] 92.4 [27.071 88.3 [25.87] 84.2 [24.671' 89.6 [26.251 85.5.[25.051 81.4 [23.851 P [37 81 Sens BTUH [kW] 64.2 [18.81] 56.3 [16.501 48.4 [14.18] 75.4 [22.091 67.4 [19.751 59.5 [17.43] 86.9125.461 78.9 [23.12] 71.0 (20.811 E Power 8.6 8.4 _ 8.3 - 8.5 8.3 8.2 8.4 8.3 8.1 R Total BTUH [kW] 97.0 (28.42] 93.0 [27.251 88.9126,05] 90.5 [26.521 86.4 (25.32] 82.3 [24.11] "87.7 [25.70] 83.6 [24.50] : 79.6 [23.32] [406] Sens STUN [kWl 63.33[118.55] 55.38[16.201 47.48[13..89] 74.482�1.60] 66.581�.48] 58.6 a1s .17] 85.98285.17] 78.0B 72:65] 70.1.85.54] T E Total BTUH [kW] 94.4 [27.661 90.3126.461 86.2 [25.261 87.8 [25.73] 83.7 [24.52) 79.6 [23.32] 85.0 [24.91] 80.9 [23,701 76.9 [22.53] . [43 31 Sens BTUH [kW] 61.7 (18.08] 53.8115.761 45.9113.451 72.9 [21.36] 64.9 [19.021 57.0 [16.70] 84.4 [24.731 76.4 [22.391 68.5 [20.07] F CCl Power 9.4 9.3 9.1 9.3 9.1 9.0 9.2 9.1 8.9 Total BTUH [kWJ 90.7 [26.581 86.6 [25.371 82.6 [24.20] Sens BTUH 84.1 [24.641 80.1 [23.471 76.0122.27] 81.4 [23.85] 77.3 [22.651 73.2 [21.45j [1�11 [kW] 59.5 [17.431 51.6 [15.12] 43.6 [12.77] Power 9.8 9.7 70.6 [20.691 62.7 [18.37] 54.8 [16.06] 81.4 [23.85] 74.2 [21.74] 66.3 [19.45 9.5 DR-00tkssion ratio Tm.i _- T..-, ------ 9,7 9.5 9.4 9.6 9.5 9.3 coo-tf8tin air bulb ---.".""""""7AIVVUUIUr� NOTES: wbE-E 9 ry Sens -KW i-Sensn u capacity x 1000 BTUH O When the entering air dry bulb is other than 80'F [27'C], adjust the sensible (�ng air wet bulb Power -KW input capacity from the table by adding [1.10 x CFM x (i - DR) x (dbE- 80)]. [ 1 Ue*ates Metric Conversions UNITS WITH HEATER KITS ;208-230/1 PHASE) HLKA- HLMA- Heater Kit Minimum Max. Fuse Minimum Max. Fuse Size Model No. Heater kW Circuit or Circuit Circuit or Circuit HXJJ 208/240/10 Ampacity Breaker. Ampaeity Breaker ,. A06J 4.2/5.6 31/35 45/45 31/35 40/40 Al OJ 7.2/9.6. 49/55 50/60 49/55 50/60 *A11J 7.2/9.6 49/55 50/60 49/55 50/60 A036J Al2J 8.4111.2 56/64 60/70 56/64 60RO A15J 10.8/14.4 70/80 70/80 70180 70/80 A20J 14.4/19.2 92/105 100/1.10 : 92/105 .. 100/110 *A21J 14.4/19.2 92/105 1001110 ', 92/105 100/110 "r ; AU61 42/5.6 -.36136 '49155 60/60 60160 `.31135 -49/55 ` 45/45 50/60 — :A10J '7 A11J 7Z9.6' 72/9.6 49/55 60160 0 `A9/55 ' 50160 Al2J 8.4/11.2 56/64 . sa7a i ,56/64 - 60170 A15J 10.8/14.4 70/80 ."-700 0 - 70/80 '100/1]0 A20J : 14.4/192 921105 100f110 =,; '92/105 OR �,*A21J �14Ai19,2 921105 100l71a 105 ,.-:927OR `100fl10 A06J 4.2/5.6 36/36 60/60 36/36 60/60 A10J 7.2/9.6 49155 60/60 49/55 60/60 *A11J 7.2/9.6 49155 60/60 49/55 60/60 A048J Al2J 8.4/11.2 56164 60/t0 70/60 56/64 70/80 60/70 70/80 At5J A20J 10.8/14.4 14.4/19.2 70/80 92/105 100/110 92/105 100/110 *A21J '. 14.4/19.2 92/105 - 100/ 10 921105 100/110 UNITS WITH HEATER KITS A06C 4.2/5.6 23/23 35P35 A10C 7.2/9.6 31/34 35/35 'A11C 7.2/9.6 31/34 35/35 A036C Al2C 8.4/11.2 35/39 40/40 A15C 10.8/14.4 43/49 45/50 A20C 14.4/19.2 56/63 60/70 'A21C 14.4/19.2 56/63 60f7O 35/35 35/35 35/40 45/50 60/70 6080 : 7.2/9.6 f 7.279:8. S -4/11.2 35/39' ` :. .•. r 14.4/192 t. 14.4/19.2 58i63 ti ... A06C 4.2/5.6 24/24 - 35P35 24P24 35135 A10C 7.2/9.6 31/34 35/35 31/34 35/35 *A11C 7.2/9.6 31/34 35/35 31/34 35/35 A048C At2C 8.4/11.2 35/39 40/40 35/39 35/40. A15C 10.8114.4: 43/49 45/50 43/49 45/50 A20C 14.4/19.2 56163;. 60170 56163 60(70 •A91r. 14.4119.2 '. 56/63 60770 56/63 60170 AO6C. 42/' AtOC 7V *A11C 7.2/' A072C Al2C 8.4/' A75C 10.8P A20C 14.4/' A21C 14AP A24C 18.oC F 1 712BC � *=For Canadian use only. Uses "P" fuses for inductive circuit. i 33/33 5u/50 i 33/37 50/50 i 33/37 50/50 .2 37/42 50/50 .4 46/51 50/60 .2 58/66 60170 .2 58/66 AO/70 0 71/80 80/80 N/A N/A 2a UNITS WITH HEATER KITS (460/3 PHASE)ii' Heater Kit Size Model No. HXJJ- A06D 5.6 12 15 i. A101) 9.61 17 20 t( "A11D 9.6,. 17 20 A036D Al2D 11.2 20 20 " A15D - 14.41'1 .25 25 A20D 19.2! . 32 35 _. "A210 19.2.,. : - 32 :..35.. " j. ' A06D 5.6 13 20 - Al OD .. 9.6,- 17 20 'A11D 9.6 17 '20.. A048D , At 2D. - 11.2 20 -20 At5D 14A 25 .25 A20D .19.2, 32 ' 35 *A210 19.12; - 32 '35 �M 11 17 17 20 25 32 32 17 17 20 25 32 32 29 20 20 25 35 35 20 20 20 25 35 35 . µ A060 5.6 17 25 A101) 9.6 19 25 _ A11D 9.6 19 25 A072D Al2D 11.2 21 25 N/A N/A At5D 14.4 26 30 A20D 19.2 33 _35 A21D 19.2 33 - 35 A24D 24.0 40 40 A15D _ sf`:( 144 A0850 A20D i : 19 Z'�- .A24D:. .. 24A .. ' = For Canadian use only. Uses "P" fuses for inductive circuit. UNITS WITH HEATER KITS (575/3 PHASE) HLKA HIMA- Heater KH , .. , .- Minimum Max. Fuse -Minimum' rMat Model No: °`. - =4' -s Circuit or Circuit Circuit orC HXJJ-.Ampacity Breaker Ampacity 8 A036Y A15Y 14.4 19 20 20 20 _ A20Y '-' 19.2 :,25 25'- ': 26 :30 .. A048Y At5Y 14.4 19 - 120 21 20 .., ...._ - A20Y 19.2 '. ;.25 , 25.. 27 ,.. 30. t2j' A15Y14.4 20-.A072Y A20Y 19.230N/A N/A 35 ' .` ACCESSORY EQUIPMENT Accessory Factory Installed Accessory Factory Installed - Accessory Model Application - 3 to 6 Ton Model No.. Option Codes Model No. Option Codes Description g0.6to21.7kW1 3to6Ton (10.6 to 21.1 kW1 3to6Ton 110.6 to 21.1 k1111 7,5Ton [26.4kWI 7.5Ton [26.4kW1 RXRX-BBCDB21 RoofcurbAdapters RLMA-/RLKA- RXRX-BBCDB22 RXRX-BBCDB23 Economizer with Outdoor Air RLMA-/RLKA- RXRD-EECM2 RXRD-ECCM2 Economizer with Single Enthalpy RLMA-/RLKA- RXRD-EECM3 RXRD-ECCM3 Economizer with Dual Enthalpy RLMA-/RLKA- RXRD-EECM4 RXRD-ECCM4 CO,Sensor RLMA-/RLKA- RXRX-AJO1 RXRX-AJ01 RXRX-BFF02 RXRX-BFF03 Power Exhaust RLMA-/RLKA- (C,O, or Y) (C,D, or Y) Fresh Air Damper Manual RLMA-/RLKA- RXRF-FBA1 RXRF-FCAI Fresh Air Damper Motorized RLMA-/RLKA- RXRF-FBBI RXRF-FCB1 Rectangular to Round 18' RLMA-/RLKA- RXMC-CB03 Duct Adapters for Concentric Diffuser lar to Round 20' RLMA-/RLKA- RXMC-CB04 RXMC-CC04 or Concentric Diffuser Diffuser 18' Step RLMA-/RLKA- RXRN-FA60 N/A Diffuser 18' Rush ow RLMA-/RLKA- RXRN-FA70 N/A Diffuser 20" Step RLMA-/RLKA- RXRN-FA65 RXRN-FA65 Diffuser 20' Flush RLMA-/RLKA- RXRN-FA75RXRN-FA75 fcurb 14' RLMA-/RLKA- RXKG-BAD14 RXKG-BAD14 Rcofcurb 24' RLMA-/RLKA- RXKG-BAD24 RXKG-RAD24 Rectangular to Round 16' Side RLMA-/RLKA- RXMC-BB01 WA Louver Kit (2 Sides) RLKA-A036/A042 RXRX-AAD01A 629 N/A Kit 3 Sides) RLKA-AO48/A06O/A072 RXRX-AADO18 629 RXRX-AAD01 B 597 Lower ( All RLMA- Models High Pressure Control RLKA- RXAB-A02 D10 M RXAB-AO5 DOI Low Pressure Control RLKA- RXAC-Ao2 D10 ® RXAC-A05 ' D01 Time Delay RLMA-/RLKA- RXMD-B01 623 RXMO-BO4 595 Low Ambient Control to O'F [-1 BIC] RLMA-/RLKA- RXRZ-A18 618 RXRZ-A85 571 High and Low Pressure and Time Delay O I RLKA- L07 L10 Side Supply/Return Configuration (D I RLMA-/RLKA- 627 589 Louver Panels/Side Supply ® TRLMA-/RLKA- D18 D76 `Voltage J = 208230 VAC-1 PH-60HZ D = 460 VAC-3PH-60HZ C = 208/230 VAC-3PH-60HZ Y = 575 VAC-3PH-60HZ [ ] Designates Metric Conversions Rookurb Adapters Old Models MEDIUM CABINET (3 TON [11 kW]) (-)SNC, (-)SND, (-)SNE (-)RGE, (-)RGF, (-)RGG (-)PNC, (-)PND LARGE CABINET (3-31h TON [1142 kW]) (-)RGE, (-)RGF, (-)RGG, (-)RGH (3 TON [11 kW]) EXTRA LARGE CABINET (31/2-5 TON [12-18 kW]) (-)SNC, (-)SND, (-)SNE (-)RGE, (-)RGF, (-)RGG (4-5 TON [14-18 kW]) (-)PNC, (-)PND, (-)RGH (31/2, 4 TON [12-14 kW]) NOTES: M Ships from factory as side supply/return. ® Factory mounted double option with both factory mounted louver panels and side supply/return. ® Factory Installed option includes both high and low pressure controls. () Factory mounted triple option. OLD CURB MODEL ROOFCURB ADAPTER NEW MODEL EE-0- RXPA-CA21 (1) RXRA-DB21 (2) E-0- RXPA-CA22 (1) RXRA-DB22 (2) 23 SERIES —1• RXRX-BBCDB21 —► RXRX-BBCDB22 Viz) —► RXRX-BBCDB23 (-)KKA (-)KMA (-)LKA (-)LMA (-)JKA . (-)JMA COMMERCIAL PACKAGE UNIT (-)LKA-A085 (7.5 TON [26 kW]) �RXRK-E50 ---► RXRX-CCCE50 (-)KKA-AO85 (-)RCF, (-)REF, (-)RGF131 (1) SLOPE TYPE (2) FULL PERIMETER TYPE 26 ROOFCURBS (Full Perimeter) ■ Rheem's new roofcurb design can be utilized on 3 through 7.5 ton [10.6-26.4 kW] models. ■ Two available heights (14" [356 mm) and C 24" [610 mm]) for ALL models. ■ Quick assembly comers for simple and fast assembly. a Opening provided in bottom pan to match the "Thru the Curb" electrical connection opening DOWN provided on the unit base pan. TVA KE icfi. 19 ° . 2" [51 mm] x 4" [102 mm] Nailer provided.' ■ Insulating panels provided. GASKET—�� (FULL PERIMETER III Sealing28' 11 mm provided AND ON DIVIDERS, gasket ( L� ]) MUST BE ABOVE DUCT °q _ with RoofcUrb. - AND INSULATION PANEL FLANGES.) Packaged for easy field assembly. RoofcurrrMaBuT RXKG-BAD74 RXKG-BAD24 24' [610 mm[ INSULATION PANELS—/ (2) SUPPLIED NAILING STRIP SUPPLY DUCT' RETURN DUCT' ROOFTOP UNIT ' ROOFTOP UNIT GASKET COUNTER FLASHING' ATTACHING NAILER STRIP — _ SCREW' DUCT' INSULATION' CANT STRIP' ROOFCURB ROOF FELT' ' `—HOLD INSULATION' DOWN / CLIP ROOF DECK' ROOF STRUCTURAL ( MEMBER' l\ 'By CONTRACTOR 2D°/u 22" [515 / mml mm] ' 'REF REP. REF. 1435:8mml j346.1 mm] PER [47.6 mm] I w 147.6 mm] 14' OR 24' 377/e" [962 mm] [355.6 OR 609.6 mml ROOFCURB FOR 7.5 TON REF [26.4 kW] MODELS - 70-/x" 20"/s 271/2' [1802.4 mm] [515.1 mm] REF. (698.5 mm] REF. REF 42'Ae" 17%e [1081.1 mm] 1435.8 M.] PER a 'REF t3 MM] ' REF. 9e"46.1 1 IIm ' [47.6 mml 147I8/mmj. 147.6mm] ROOFCURB FOR"7'6 TON a3e/," [1101.7 mm] 14"OR24" soasmml [10.6-21.1 kW] MODELS REF. 70?shz" ". [1802.4 mmi REF. 4. [10 m] 81 M m FI1.E REF. [47.6 mm] _. TYR [ 1 Designates Metric conversions ECONOMIZERS F F F F F F F ECONOMIZER WITH INTEGRAL POWER EXHAUST (FIELD INSTALLED ONLY) RXRX-BFF04C-3-6 Ton [10.6-21.1 kW] Models 208/230 V, 3 PH, 60 Hz RXRX-BFF04D-3-6 Ton [10.6-21.1 kW] Models 460 V, 3 PH, 60 Hz RXRX-BFF04Y-3-6 Ton [10.6-21.1 kW] Models 575 V, 3 PH, 60 Hz RXRX-BFF03C-7.5 Ton [26.4 kW] Models 2081230 V, 3 PH, 60 Hz RXRX-BFF030-7.5 Ton [26.4 kW] Models 460 V, 3 PH, 60 Hz RXRX-BFF03Y-7.5 Ton [26.4 kW] Models 575 V, 3 PH, 60 Hz w PJPJ �� P N5 FRESH AIR DAMPER I( I( 3 to 6 Ton [10.6 to 21.1 kW] Models RXRF-FBA1 (Manual) RXRF-FBB1 (Motorized) 7.5 Ton [26.4 kW] Models RXRF-FCA1 (Manual) RXRF-FCB1 (Motorized) SHIP HOOD REMOVED DUCT ADAPTERS ae it ls� m] �aia.DaR lass m s E9 mm FLRNOE ON BXK SIDE y 10Ve• (264mm] Rectangular to Round Transitions (Downflow) Two sizes available m j597 97 mm] y^ (18" [457 mm] and lsss mm) [25 mml { /2 20" [508 mm] round) [38 mm] [106 mml fit all units. Drops 37" into and secures to [94, mm] RXKG- Series Roofcurbs. For use with 21'/4 Concentric Diffusers. [es2 mm] decessoty Mq�al lio. - Medel APptl RXMC-CB03 1 3-6 Tons [10.6-21.1 kw] I 18 [457] Round RXMC-CB04 3-6 Tons [10.6-21.1 kw] 20 [5081 Round RXMC-CC04 7.5 Tons [26.4 kw] f 20 [5081 Round PLACE Ve" [3 mm] x Vi" [13 m ON UNDERSIDE OF y+/z" [38 r mml I -.... [ 1 Designates Metric Conversions 29 R ' SIDE DISCHARGE CONCENTRIC DI RXRN-FA60 (3 to 6 Ton [10.6 to 21.1 kW] Models) RXRN-FA65 (3 to 7.5 Ton [10.6 to 26.4 kW] Models) mlifil`AIs:InNe1 neTe Modal No 113/e' 21 Vz' 451/z 22Vz' G H 1 J . K Duct Size 475/e'-235/e' 11 Vz" 103/4" 45Vz'. 21 Vz" 71/i'18RD RXRN-FA60 [1210 mm] [600 mm] 1289 mm] [546 mm] [1156 mm] [572 mm] [292 mm] [273 mm] [1156 mm] 1546 mm] [781 mm] 475/e 295/8' 143/a' 271le 451/2' 22Vz 11 Vi 133/4' 45Vz' 27Vz' 8Ve 20RD RXRN-FA65 [1210 mm] [752 mm] [365 mm] [699 mm] [1156 mm] [572 mm] [292 mm] [349 mm] [1156 mm] [699 mm) [206 moll FNr;INFFPINr. DATA -►lo-. .. t:.: .. �- _ CFM:ILJs1 Static Pressure'.. -- ' Throwlo - feet 351 .... 351 20„ 1000 [4721 .14 10-17 1200 [566] .17 11-18 421- 421 20 1400 [661] .20 12-19 491 491 20 1600 [755] .24 12-20 561, 561 20 ,RXRN-FA60 1800 [850] .30 13-21 632 632 20 20000 [944] .36 14-23 702 702 20 220[1038] .40 16-25 772 772 20 2600[1227] .17 24-29 669 669 20 2800[1321] .20. 25-30 720 - 720 25 RXRN-FA65 3000 [1416] .25 27-33 772 772 25 3200[15101 .31 28-35 823 ..823 25 3400 [1605] .37 30-37 874 874 30 FLUSH MOUNT CONCENTRIC DIFOUSER RXRN-FA70 (3 to 6 Ton [10.6 to 21.1 kW] Models) RXRN-FA75 (3 to 7.5 Ton [10.6 to 26.4 kW] Models) G D E F �4 \ i -x [51 mm] C / K\ Model No. A B C D E IF _ 0 RXRN-FA70 41111" 235/8' 113/8" 211/2" 451/2 22Vz' 111/2' 10114' 451/2' 21Vz' 7Ve' 18RD: [1210 mm] 1600 mm] [2B9 mm] [546 mm] [1156 mm] [572 mm] [292 mm] [273 mm] [1156 mm] [546 mm] [181 mm] RXRN-FA75 471W 295/a' 143/a 27V2' 451/2' 22Vi 11Vi 133/4' 451/2' 271/2 SVe` 20R0 [1210 mm] 1 [752 mm] [365 mm] [699 mm] [1156 mm] [572 mm] [292 mm] [349 mm] [1156mm) I [699 mm] {206 mm ENGINEERING DATA Model Na. ., CfM [Us] Static Pressure'. Throw -'Feet Neck - VeTe '`. �. 1000 [472] .14 15-20 391 694 20 - 1200 [566] .17 16-22 469 833 25 1400 [661] " .20 17-24 547 972 30 RXRN-FA70 1600 [755] .24 18-25 625 1111 30 1800 [850]_. .30 20-28 703 1250 35 2000 [9441 .36 21-29 781 1389 40 2200[1038] .40 22-30 859 1528 40 2600 [1227] .17 19-24 663 1294 30 2800[13211 .20'. 20-28 714 1393 35 RXRN-FA75 3000[1416] .25- 21-29 765 1492 35 3200 [1510] .31', 22-29 816 1592 40 3400 [1605] .37 22-30 - -.867 -1692 40 [ ] Designates Metric Conversions 31 WIRING DIAGRAM ' WIRING SCHEMATIC w N w BR CC COMP FT GL END HPC IDMDD LAC LPC, aFM PL RC TB TOO MIN COMPONENT CODE D WIRING DIAGRAM, /�l NOTES: 1. CONNECTORS SUITABLE FOR USE WITH COPPER CONDUCTORS ONLY. 2. COMPRESSOR MOTOR THERMALLY PROTECTED. ALL 3 PHASE MODELS ARE PROTECTED UNDER PRIMARY SINGLE PHASE CONDITIONS. 3. CONTROL TRANSFORMER PRIMARY LEADS: RED -COMMON. BLUE-20OV. BLACK-23DV. TRANSFORMER FACTORY WIRED FOR 230 VOLTS ON'J' 6 -C- MODELS. MISCHANCE BLACK AND BLUE LEADS FOR 208 VOLT OPERATION, 4. CONTACTOR FACTORY WIRED, CONNECT FIELD WIRE TO FACTORY SUPPLIED PIGTAIL. 5, LOW VOLTAGE CIRCUIT IS N.E.C. CLASS 2 WITH A CLASS 2 TRANSFORMER. 24V, 50160 HZ SUPPLIEO. 6. CONNECT FIELD WIRING IN GROUNDED RAIN TIGHT CONDUIT TO 60 HZ FUSED DISCONNECT. 7. MOTOR FACTORY WIRED FOR CORRECT SPEED.. B. SEE FUSE LABEL ON UNIT FUSE BOX FOR FUSE SIZING AND CLASSIFICATION. 9. WIRES FROM PL2 (7 A 8) GO TO THE MIXED AIR SENSOR ON THE OPTIONAL ECONOMIZER, 10. Y21S USED ONLY FOR THE OPTIONAL ECONOMIZER. WIRING SCHEMATIC L2 L3 WIRING INFORMATION LINE VOLTAGE -FACTORY STANDARD -FACTORY OPTION , -FIELD INSTALLED LOW VOLTAGE -FACTORY STANDARD -FACTORY OPTION _._._,_- -FIELD INSTALLED __-----___ REPLACEMENTWIRE -MUST BE THE SAME Siff AND TYPE OF INSULATION AS ORIGINAL OW C MIN.) WARNING -CABINET MUST BE PERMANENTLY GROUNDED AND CONFORM TO N.E.C., (C.E.C.CANADA) AND LOCAL CODES. n D r z C) N 0 m Z C) O z 1 Q rn rF O 1 al 00 Y Y2 [ WIEt9 O 0 m r N WIRE COLOR CODE 0 BK BLACK 0 ORANGE OR BROWN PR PURPLE z BL BLUE R RED r G GREEN W WHITE BY GRAY Y YELLOW WIRING DIAGRM 2O8R30,3 PHASE DIRECT DRIVE PACKAGE AIR CONDITIONER 90-23597.03-03 WIRING DIAGRAM WIRING SCHEMATIC PIGIAIL TO LI L2 LJ . YI 4 w Y2 C WIE 9 COMPONENT CODE NOTES: WIRING INFORMATION WIflECOlOflCODE Be BLOWER MOTOR 1. CONNECTORS SUITABLE FOR USE WITH COPPER CONDUCTORS ONLY. LINE VOLTAGE BR BLOWER RELAY 2. COMPRESSOR MOTOR THERMALLY PROTECTED. ALL 3 PHASE MODELS ARE PROTECTED UNDER PRIMARY SINGLE -FACTORY STANDARD SK BLACK 0 ORANGE BR BROWN PA PURPLE CC COMPRESSOR CONTACTOR PHASE CONDITIONS -FACTORYOPTION BL BLUE R RED COMP COMPRESSOR CT CONTROL TRANSFORMER 3. CONTROL TRANSFORMER PRIMARY LEADS: -FIELD INSTALLED LOW VOLTAGE G GREEN W WHITE FT FREEZE STAT 88 HZ. RED-COMMON.BLUE-208V.BLACK-23OV,BLACK/RED46OV,BLACK(BLUE-575V. TRANSFORMER FACTORY WIRED -FACTORY STANDARD GY GRAY Y YELLOW GL GROUNDLUG GND GROUND FOR 230 VOLTS ON W&"C'MODELS. INTERCHANGE BLACK AND BLUE LEADS FOR 208 VOLT OPERATION. 460& -FACTORYOFTION—.—.—.—. -FIELD INSTALLED HPC HIGH PRESSURE CONTROL 575 VOLT MODELS FACTORY WIRED FOR CORRECT VOLTAGE. --------_ IBMBD-INDOORB R@ ITT DRJVE,_ LARAC LOVLOWS1 I'=111l1005N, 0L 50 HZ. m/aYlNfE-QOMNOfN. R11luIF. _:_ BLAGH—A15V. REPLACEMENTWIRE -MUST BE THE GAME SIZE AND TYPE OF WIRING DIAGRAM '20829E/ LPC LOW PRESSURE CONTROL 4. CONTACTOR FACTORY WIRED, CONNECT FIELD WIRE TO FACTORY SUPPLIED PIGTAIL. INSULATION AS ORIGINAL (105' C MIN.) E 0 HZ. 3 PHASE 60 HZ. DIM OUTDOOR FAN MOTOR PL PLUG S. LOW VOLTAGE CIRCUIT IS N.E.C. CLASS 2 WITH A CLASS 2 TRANSFORMER. 24V, SOBO HZ SUPPLIED. WARNING -CABINET MUST BE 220220V & 380/415V, RC RUN CAPACITOR B. CONNECT FIELD WIRING IN GROUNDED RAIN TIGHT CONDUIT TO 60 HZ FUSED DISCONNECT. NEC.,C.NTLYGROUNDN CONFORMOCALCDES. TO N..C., (GE.C: CANADA)AND PHASE 50 3BELT DRIVE TB TERMINAL BLOCK((LOW VOLTAGE) Z MOTOR FACTORY WIRED FOR CORRECT SPEED LAND LOCAL CODES. PACKAGE AIR CONDITIONER TOC TIME DELAY CONTflOL 8. SEE FUSE LABEL ON UNIT FUSE BOX FOR FUSE SIZING AND CLASSIFICATION. WN WIRE NUT 9. WIRES FROM P1.2IF & 8) GO TO THE MIXED AIR SENSOR ON THE OPTIONAL ECONOMIZER. 10. Y2 IS USED ONLY FOR THE OPTIONAL ECONOMIZER. 90-23597-05-04 r ' Y \-= COMPONENT CODE NOTES: -OWER MOTOR CONTACTOR RELAY 1. CONNECTORS SUITABLE FOR USE WITH COPPER CONDUCTORS ONLY. PRIMARY SINGLE )MPRR CONTACTOR 2. COMPRESSOR MOTOR THERMALLY PROTECTED, ALL 3 PHASE MODELS ARE PROTECTED UNDER IMPRESSOR PHASE CONDITIONS. )NTROL TRANSFORMER 3, CONTROL TRANSFORMER PRIMARY LEADS: IEEZE STAT HOUND LUG 60 HL RED -COMMON. BLUE-208V. 8LACK-230V, BLACKIREDA60V, BLACK/BLUE-575V. TRANSFORMER FACTORY WIRED FOR IOUND 230 VOLTS ON'J" 8'U MODELS. INTERCHANGE BLACK AND BLUE LEADS FOR 208 VOLT OPERATION. 460 8 575 "H PRESSURE CONTROL VOLT MODELS FACTORY WIRED FOR CORRECT VOLTAGE. ODOR 8 LOWER MOTOR BELT DRIVE 50 W AMBIENT COOLING CONTROL. ORANGE -COMMON, BLUE-300V, BLACK-415V. r'bB ALCgBACTOB FACTORYWIRED. CONNECT FIELD WIRETO FACTORY SUPPLIED PIGTNL. ddtf FAN'MOTORF� 5. LOW VOLTAGE CIRCUIT IS N.E.C. CLASS 2 WITH A CLASS 2 TRANSFORMER, 24V, 50M HZ SUPPLIED. PLUG RUN CAPACITOR 6, CONNECT FIELD WIRING IN GROUNDED RAIN TIGHT CONDUIT TO 60 HZ FUSED DISCONNECT. I TERMINAL BLOCK ILOW VOLTAGE) 7. MOTOR FACTORY WIRED FOR CORRECT SPEED. )C TIME DELAY CONTROL 8. SEE FUSE LABEL ON UNIT FUSE BOX FOR FUSE SIZING AND CLASSIFICATION. N WIRE NUT 9. WIRES FROM PL2(780) GO TO THE MIXED AIR SENSOR ON THE OPTIONAL ECONOMIZER. WIRING SCHEMATIC LI L2 LT WIRING INFORMATION LINE VOLTAGE -FACTORY STANDARD -FACTORYOPTION . -FIELD INSTALLED — — — — — — LOW VOLTAGE -FACTORY STANDARD -FACTORY OPTION ._._._._ -HELD INSTALLED _________ REPLACEMENTWIRE -MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL(105' CMIN.) WARNING -CABINET MUST BE PERMANENTLY GROUNDED AND CONFORM TO N.E.C., (C.E.C.-CANADA) AND LOCAL CODES. WIRE COLOR CODE BK BLACK 0 ORANGE BR BROWN PR PURPLE BL BLUE R RED G GREEN W WHITE GY GRAY Y YELLOW WIRING DIAGRAM 208/230/46W575V 3 PHASE 60 HE 2G0/22GV b 30D1415V 3 PHASE 50 HZ. BELT DRIVE DUAL CIRCUIT 90-23597-09-91 THERMOSTATS -SELF-CONTAINED AIR CONDITIONERS RECOMMENDED THERMOSTATS WITH ANp W/O ECONOMIZER i -Single Stage Cool w/o Economizer Two Stage Cool w/Economizer < Maple Chase —Model #0970 Honeywell -Model #T7300-A1005 Honeywell -Model #T8602C Honeywell —Model #T874D-1959 s Maple Chase —Model #0960 White Rodgers -Model #1 F91-59 Robertshaw—Model #CM64A-USAJ SAMPLE SPECIFICATIONS Unit shall be completely factory assembled and performance tested to provide the required cooling and heating functions suit- able for outdoor installations. Unit shall be UIJcUL listed and rated in accordance to ARI Standard 210. CABINET Unit casing, base pan and framework shall be manufactured of galvanized sheet metal primed and finished with powder paint capable of withstanding a 1000-hour salt spray test per ASTM B 117. Unit interior cabinet surfaces shall be insulated with a minimum 1/2-inch thick foil faced insulation. Access panels shall be easily removable providing access to the blower, filter, heating compartment, and compressor/control box. Unit base rails shall be provided with fork insertion slots and rigging holes. Condensate drain pan shall be of sloped design to conform to 'ASHRAE 62. Unit shall be supplied ready for vertical airflow and be easily convertible to horizontal airflow at or before installation. COMPRESSOR(S) Unit shall be provided with fully hermetic scroll oompressor(s) with intemally protected safety controls. Two compressors shall be utilized on 7.5 ton [26.4 kW] models. COILS The evaporator and condenser coils shall be fabricated of copper tubes with mechanically bonded aluminum plate fins. They shall be pressure tested prior to assembly into the unit, and electroni- cally leak tested after assembly. CONDENSER FAN A single direct drive propeller fan shall discharge air vertically .:upward. The fan motor shall be permanently lubricated and have built-in overload protection. `EVAPORATOR BLOWER A single, double inlet, centrifugal wheel shall rotate in perma- nently lubricated ball bearings. The wheel shall be made from steel with corrosion resistant finish and shall be statically and dynamically balanced. ACCESSORIES ROOFCURB Curb shall be full perimeter type, complying with the standards of the National Roofing Contractors Association. Design shall pro- vide for drop -in of supply and return ducts prior to setting unit, and include an insulating panel for the rest of the curb area. ECONOMIZER Economizer shall be completely assembled for field installation. Unit shall include all controls and dampers including the baro- metric relief damper. MANUAL FRESH AIR DAMPER - - Damper shall consist of damper and rainhood which is manually preset to admit up to 35% of outside air for field installation. MOTORIZED FRESH AIR DAMPER Damper shall consist of motor, damper, and rainhood which can admit up to 350% of outside air for field installation. ELECTRIC HEAT KITS Electric heat kits shall be available in a wide range of capacity with branch circuit fusing allowing single point wiring. Kits shall be UL/cUL approved. Each kit shall be offered as a field or fac- tory installed option. PRESSURE CONTROLS High and low pressure controls shall be included for field or fac- tory installation. LOW AMBIENT CONTROL Low ambient control shall be provided to cycle the condenser fan in response to condensing pressure and allow operation to 0 degrees F. The option shall be field or factory installed. TIME DELAY CONTROL Time delay control shall be provided to prevent the compressor from restarting 5 minutes after shutdown. The control shall be field or factory installed. LOUVER PANEL KITS Field or factory installed louver kits shall be provided for con- denser coil protection against hail or flying debris. e / rI � G s a lf\ 36 *,,...;, ....