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PRODUCT INFORMATION
I r 1 . FORM NO. A22-193 REV. 3 Supersedes Form No. A22-193 Rev. 2 Commercial High -Efficiency Condensing Units 10 & 12.5 TON MODEL [35.2 & 44.0 kW] Wifmu Numb )0G 6GANNED BY ;t. Lucie County 15 & 20TON MODEL [52.8 & 70.3 kW] 10 THROUGH 20 NOMINAL TON UNITS [35.2 THROUGH 70.3 kW] c@us RAWL-SERIES LISTED TABLE OF CONTENTS Model Number Designation............................................2 Electrical & Physical Data Table....................................11 Accessories................................................................3 Cooling Performance Data......................................12-15 Standard Unit Features..............................................3-4 Installation................................................................16 Selection Procedure Limited Warranty ........................................................16 MatchedSystems......................................................5 Piping..................................................................17-18 Gross Capacity and Power Tables................................6-7 Wiring Schematic..................................................19-20 Unit Dimensions........................................................8-9 Sequence of Operation................................................21 AHRI Ratings............................................................10 Sample Specifications................................................22 WHY USE A HIGH EFFICIENCY, AIR COOLED SPLIT SYSTEM? • The size ranges offered by Ruud® allow you to mix or match components to meet actual job requirements, thus eliminating the need to use oversized or undersized equipment. Equip- ment sized to meet the actual load will provide better operating economy, better humidity control, and longer equipment fife. • With an air cooled system, you have no water or sewer con- nections to make, and no troublesome and costly water treat- ment problems. • Since the condensing unit is located outside the building, and the low profile air handling unit can be installed in the drop ceil- ing or in the conditioned space, you will not need a separate equipment room which takes up valuable building space. • Remote mounting of the already quiet condensing unit keeps the compressor and condenser fan noise outside, and the ver- tical discharge fans carry the sound up and away from the sur- rounding area. • Because of the simple design of the Ruud condensing unit, Installation is quick and simple, and very little maintenance Is required. • Energy Eircienry Ratings (EER's) to 11.21 MODEL NUMBER DESIGNATION A Z LZ-ScmliComprossor Design Variation A -Standard [ ] Designates Metric Conversions Designation C.208-23D-360 D-460-3-60 Y-575-3-60 120 =10.0 Tons [35.2 kWJ (Single Compressor) 125 =10.0 Tons [35.2 kWJ (Tandem Compressor) 150= 12.5 Tons(44.0 kW] (random Compressor) 160 = 15.0 Tons [52.8 kW] (Tandem Compressor) 240 = 20.0 Tons [70.3 kW] (Tandem Compressor) Design Series (R-410A) Type W-High Efficiency Commercial Condensing Unit Ruud Ruud Heating, Cooling and Water Heating , CONDENSING UNIT, ,ESSORIES ACCESSORY DESCRIPTION MODEL NUMBER I SI ED ON Sight Glass RXAG-A048 120, 25 Sight Glass RXAG-AO20 180,240 Liquid Line Solenoid Valve' RXAV-CD120 120, 125, 150 Liquid Line Solenoid Valve' RXAV-CD180 180,240 'Cannot be used as a pump down solenoid. STANDARD UNIT FEATURES CABINET --Galvanized steel with a durable powder paint fin- ish. Stamped louvered panels offer 100% protection for the condenser coil. COMPRESSOR —The Scroll Compressor is hermetically sealed with internal overload protection and durable Insulation on motor windings. The entire compressor Is mounted on rub- ber grommets to reduce vibration and noise. CONDENSER COIL —Constructed with copper tubes and alu- minum fins mechanically bonded to the tubes for maximum heat transfer capabilities. BASE PAN —Galvanized steel with powder paint finish. REFRIGERANT CONNECTIONS —Field piping connections are made through a fixed panel. This allows removal of access panels after piping connections have been made. CRANKCASE HEATERS —Standard, all models. Prevents refrigerant migration to compressor(s). LOW AMBIENT CONTROL —A pressure sensitive fan cycling control to allow unit operation down to 0°F [-17.8°C] is standard. SERVICE VALVES —Standard on liquid and suction lines. Allows outdoor section to be isolated from indoor rail. SERVICE ACCESS —Control box as well as the compressor and other refrigerant controls are accessible through access panels. Control box may be open without affecting the normal operation of the unit. Condenser fan motors are accessible by removing wire grilles. [ ] Designates Metric Converslons FILTER DRIER —Standard (uninstalled) on all models. Helps ensure refrigerant cleanliness. TRANSFORMER —Step-down type, line to 24 volts. Provides control circuit voltage. CONTACTOR —The contactor Is an electrical switch which operates the compressor and condenser fans. HIGH PRESSURE CONTROL —Opens the contactor circuit on high refrigerant pressure; manual reset. LOW PRESSURE CONTROL —Stops compressor operation in the event of loss of refrigerant. CONDENSER FAN MOTOR (Direct Drive) —Ball bearing 1075 RPM motors are mounted to minimize vibration and noise problems. These are permanent split capacitor types. TESTING —All units are run tested at the factory prior to ship- ment. Units are shipped with a holding charge of nitrogen. EXTERNAL GAUGE PORTS —Allows pressures to be checked without removing access panel. COIL LOUVERS —Helps prevent damage to outdoor coils. TIME DELAY —Supplied on tandem compressor models to pro - ,Ads a delay between stages. EOUIPMENTGROUND—Lug forfield connection of ground wire. Ruud Heating, Cooling and Water Heating 10,12.5915 & 20TON [35.2144.0152.8 & 70.3 kW] MODELS RAWL-120 LOW VOLTAGE CONNECTOdi CONTROL BOX R 4, RAWL T (-125, -150, -180 & -240) SHOWN, OTHER TANDEM COMPRESSOR MODELS TYPICAL LGWVDLTAGE ODNNEGnOW TF'♦FIySPOPMIA oaPAMCM UNEVOLTA.6g w j 4m u ewm VOLTAGE im4 PRESSUREY� EHTWY PRESSUM CxpSEFORT GtWE PORT LMPRESBURE smem .r Ra. YPo Y' Kf"' 4 Ruud Heating, Cooling and Water Heating [ ] Designates Metric Conversions SELECTION PROCEG IE- MATCHED SYSTEMS Example 1: Determine the Net System Performance of Condensing Unit RAWL-120 with RHGL-120 at 3800 CFM [1793.4 Us] at .30" external static pressure [.07 kPa], 800F [26.7°C] DB/67°F [19.4°C] WB entering indoor air and 95°F [35.0°C] DB outdoor ambient. From Cooling Performance Data, Condensing Unit RAWL-120 with Air Handler RHGL-120 Total Cap. (gross) = 121.8 x 1000=121,800 BTUH [35.69 kW] Sens. Cap. (gross) = 91.3 x 1000 = 91,300 BTUH [26.76 kW] Power (gross) = 9.1 x 1000 = 9,100 WATTS From Commercial Air Handler Form Airflow Performance Data. Power= 1,455 WATTS (K-Drive, 2 turns open) = 1,455 x 3,412 = 4,964 BTUH [1.4 kW] Therefore, the Net Performance is Total Cap. (net) = 121,800 — 4,964 = 116,836 BTUH [34.24 kW] Sens. Cap (net) = 91,300 — 4,964 = 86,336 BTUH [25.30 kW] Power(net)= 91,000+ 1,455=10,555WATTS EER = 116,836 —.10,555 = 11.07 BTUH/WATT [3.24 w/w] Example 2: Determine the Sensible Net Capacity at 750F [23.9°C] DB entering indoor air with the other conditions from Example 1 being the same. From Cooling Performance Data, Condensing Unit RAWL-120 with Air Handler RHGL-120 Sens. Cap (net) = 86,336 BTUH [25.30 kW] (from Example 1) Adjust Capacity for temperature other than 80OF [26.7°C] entering air: adjustment: [1.10 x 3,600 x (1-.16) x (75-80])=-17,556 BTUH [5.14 kW] Therefore, Sensible Capacity (net) at 750F [23.9°C] entering air is: 86,336—17,556 = 68,780 BTUH [20.15 kW] (Sensible) [ ] Designates Metric conversions Ruud Heating, Cooling and Water Heating N-. CONDENSING UNIT-GR055 CAPACITY AND POWER RAWL-120 OF PC] SATURATED EVAPORATOR TEMPERATURE OF [°C] OUTDOOR AMBIENT 40 [4.4] 45 [7.2] so [10.0] TEMPERATURE MSH[kM KW MSH[kW] KW MBH [kW] KW 75 [24] 118.0 [34.581 7.2 129.4 [37.91] 7.3 141.2 [41.371 7.5 80 [27] 114.6133.591 7.5 125.7 [36.831 7.7 137.2 [40.201 7.9 85 [29] 111.2 [32.591 7.9 122.0 [35.751 8.1 133.2 [39.031 8.2 90 [32] 107.8 [31.601 8.3 118.3 [34.661 8.5 129.2 [37.871 8.6 95 [35] 104.4 [30.601 8.7 114.6 [33.581 8.9 125.3 [36.701 9.0 100 [38] 101.0 [29.611 9.1 110.9 [32.501 9.3 121.3135.531 9.4 105 [41] 97.6 [28.61] 1 9.5 IN 2 [31.42] 9.7 117.3 [34.371 9.8 110 [43] 94.3 [27.621 9.9 103.5 [30.34] 10.1 113.3 [33.201 10.2 115 [46] 90.9 [26.62) 1 10.3 99.8 [29.251 10.4 109.3 [32.03] 1 10.6 RAWL-125 OF [°C] SATURATED EVAPORATOR TEMPERATURE OF PC] OUTDOOR AMBIENT 40 [4.4] 4517.21 50 [10.0] TEMPERATURE MBH [kW] MBH [kW] KW MBH [kW] KW 751241 117.5 [34.431 7.0 128.6 [37.681 7.1 140.3 [41.121 7.2 80 [27] 114.0 [33.391All 124.9 [36.59 7.5 136.4 [39.951 7.7 85 [29] 110.4 (32.351 121.2 . 0] 8.0 132.4 [38.781 8.1 90 [32] 106.9 [31.31 ] . 34.411 8.4 128.4 (37.621 8.5 95 [35] 103.3 [30.271 113.7 [3 . 8.8 124.4 [36.45] 9.0 100 (38] _ 99.8 [29.231 110.0 [32.23] 9.3 120.4 [35.281 9.4 105 [41 ] 96.2 [28.191 106.3 [31.141 9.7 116.4 [34.111 9.9 110 [43] 92.7 [27.151 102.5 [30.051 10.1 112.4 [32.94] 10.3 115 [46] 89.1 [26.111. 98.8 (28.961 10.6 108.4 [31.77J 10.7 RAWL-150 OF [°C] SATURATED EVAPORATOR TEMPRRATURE "F [°C] OUTDOOR AMBIENT 40 [4.4] 45 [/.2 50 [70.0] TEMPERATURE MBH[kW] KW MBH[ KW MBH[kW] KW 751241 151.6144.421 9.5 164.3 .13] 9.6 177.2 [51.901 9.7 80 [27) 147.0 [43.061 10.0 .4 [46.69] 10.1 172.0 (50.391 10.3 85 [29] 142.3 [41.701 10.6 .5 [45.261 10.7 166.8 [48.881 10.8 90 [32] 137.7 [40.331 11.1 149. 821 11.2 161.7147.361 11.3 95 [35] 133.0 [38.971 .6 144.6 [42.36 11.7 156.5 [45.85] 11.9 100 [38] 128.3 (37.611 12.1 139.7 [40.941 12.3 151.3 [44.341 12.4 105 [41 ] 123.7 [36.241 12.7 134.8 [39.50] 12.8 146.2 [42.821 12.9 1101431 119.0 [34.881 13.2 129.9 [38.0, 13.3 147.0 [41.311 13.4 115 [46] 114.4 [33.51] 13.7 125.0 [36.63] 13.8 135.8 [39.80] 14.0 KW -Condensing Unit Power (Compressor+ Fan) MBH-Gross Capacity x 1000 BTUH [kW] NOTES: 1. All values at approximately 20°F [11.100) subcooling 2. Data includes 25 feet [7.62 m] of recommended vapor and liquid lines [ ] Designates Metric Conversions Ruud Heating, Cooling and Water Heating t r, CONDENSING UNIT ROSS CAPACITY AND POWEk - .ont.) RAWL-180 .F VC] SATURATED EVAPORATOR TEMPERATURE °F [°C] OUTDOOR AMBIENT 40 14 [7 45 .2] 50 [70.0] TEMPERATURE MBH [kW] KW MBH [kW] I KW MBH [kW] KW 751241 200.8 [58.84] 11.4*164.1[48.081 216.316W] 11.8 222.7165.241 12.2 80 [27] 194.3156.94] 12. 61.47] 12.6 217.8 [63.821 12.9 85 [29] 187.8155.031 13.059.561 13.3 213.0 [62.401 13.7 90 [32] 181.3153.121 13.864] 14.1 208.1 [60.981 14.5 95 [35] 174.8 [51.22] .555.73 14.8 203.3 [59.561 15.2 100 [38] 168.3 [49.31 ] 15.353.821 15.6 198.4 [58.141 16.0 105 [41] 161.8 [47.40] 16.151.901 16.3 193.6 [56.72] 16.7 110 [43] 155.3 [45.50] 16.949.99] 17.1 188.7 [55.30] 17.5 115 [46] 148.8 [43.591 17.6[48.08] 17.8 183.9 [53.881 18.2 RAWL-240 °F PC] qATURATED EVAPORATOR TEMPERATURE °F [°C] OUTDOOR AMBIENT 40 [4.4] 45 [7.2] 50 [10.0] TEMPERATURE MBH[kM KW MBH[kW] KW MBH[kW] KW 75 [24] 272.7 [79.901 17.6 294.3 [86.2 . 18.0 316.7 (92.791 18.5 80 [27] 264.1 [77.391 18.5 2 . .671 18.9 307.7 [90.141 19.4 85 [291 255.6 [74.881 19.4 6.9 1.121 19.9 298.6 [87.501 20.3 90 [32] 247.0 [72.37] 20. 268.1 [78. 20.8 289.6 (84.861 21.3 95 [35] 238.5 [69.87] 21.3 259.4 [76.011 21.7 280.6 [82.221 22.2 100 [38] 229.9 [67.361 22.2 1 250.71.451 22.6 271.6 [79.581 23.1 105 [41 ] 221.3 [64.85] 23.1 242:0 [70.891 23.5 262.6 [76.941 24.1 110 [43] 212.8 [62.35] 24.0 233.2 [68.341 24.4 253.6 [74.29] 1.0 115 [46] 204.2 [59.84] 24.9 224.5 [65.781 25.3 244.5 [71.65] 25.9 KW -Condensing Unit Power (Compressor+ Fan) NOTES: 1. All values at approximately 20°F [11.1°C] subcooling MBH-Gross Capacity x 1000 BTUH [kW] 2. Data includes 25 feet [7.62 m] of recommended vapor and liquid lines [ ] Designates Metric Conversions Ruud Heating, Cooling and Water Heating UNIT DIMENSIONS AND WNUHTS L TOTAL WEIGHT LBS. [kg] Comer Weights, Lbs. [kg] A B C D RAWL-120 501 [227] 123 [56] 132 (60] 119 [54] 127 [58] TMWE--12-5 586 [266] 144 (65] 154 [70] 139 [63] 149 [67] RAWL-150 650 [295] 160 [72] 171 [78] 154 [70] 165 [75] RAWL-180 746 [338] 183 [83] 196 [89] 177 [80] 189 [86] RAWL-240 952 [432] 234 [106] 251 [114] 226 [103] 241 [110] [35.2 kW] 12.5TON [44 kW] BOTTOM VIEW t. 3&�/A, 1416A6' / [9747 mm]\ BASEPAN SUPPORT -\ [1016 mm] [1141,mm] + 1 [ I I y, i I ' 5 mJ°•'^g ] I750.8 mm] I [570.3mm][1005mm] 11428mm]\I7578 1713/a' aaw (437 mm] ASE RAIL 59xs/ 778.i mml "' " 1" '— ..�MI091�t (749.3 mm] [1510 _ 150.8mm] I 608 mm] i I [50.8Imm]II (50.8m ]� �[]014mm] 39,51le (50 BOTTOM VIEW BASEPANSUPPORT 4' u/v [20.1 mm] 313116' ''". [701.6 mm] TYP... 1' f—'%sue-__ c �.. a..s •r� SO.B mm + V [0 mm] b'st,61 282118e [751.0 mm] P 19.5 mm] 45ehd 6761/m [1157.2 [1726 mm] 73�/ea' [7877 mm] mm] 13 2++he" 236/u' \ [1 [1290.50.5 mm] 71+3/6a' [68.2 mm] [586.2 mm] rMIDDLE BASE RAIL 11808.5=1 1 361/2'-- f353/8" , 1927.1 mm] I [898.7 mm] 150.8 mm] 5 [5 II i - I I 2'� I I 0.8 mm] [50.8 mm] (50.8 mm I 3916/1d I I II 'I [1014mm] [50.8 mm] ! I 1 8 Ruud Heating, Cooling and Water Heating [ ] Designates Metric Conversions 15 1 UNIT DIMENSIONS (c ,t.) 15 TON & 20 TON [52.8 kW & 70.3 kW] a/e r mm] BOTTOM VIEW 4SEPAN SUPPORT-74' 61/� [101.6 mm] 120.1 mm] P [0 mm]J [150.8 mm] 21V,e [77 (68.2 mm] --[1117 CONTROL ACCESS SIDE VIEW HIGH VOLTAGE 1a/e'r.5 mm] DIA.[ OLE d•—LOWVOLTAGE 1 Ve W2 mm] DIA. HOLE LIQUID LINE 6/e [[15.9 mm]] DIA. I.D. ((10-15 TON) ! lie[222 mm] DIA. I.D. (20 TON) —SUCTION LINE / 1a/e 35 mm] DIA. I.D.(10-12.5TON) 151e E41.3 mm] DIA.I.D. (15-20TON) T-1 T/Y �I( 1 —JII Bala' [791.Bim] ! j ` [222 mm] ,• � . � 161/4' [285.1 r!e 1 _28Vr 4412.6 mm] I [198.2 mml ALL MODELS [ ] Designates Metric Conversions .6 mm] mm] i ✓ 7 r <'(• TYR 47.7 mm 826yy 881/e [2107.0 mml [2251.8 mm] nm]�.` 586Ae (1481.1 mm] 863ha' \\ (2189.5 mm] Y--MIDDLE BASE RAIL 427/e .�—[1069.2 mm]� I-r 2' �1 50.8 mm]I [50 8 mm] 391Me' [1014.4 mm] L11 Ruud Heating, Cooling and Water Heating 9 PERFORMANCE DATA @ AhNI STANDARD CONDITIONS-i;vOLING: RAWL- MODEL NUMBERS 80-F [26.5-C] DB/67-F [19.5°C] WB INDOOR AIR 95°F [35-C] DB OUTDOOR AIR SOUND RATING dB INDOOR CFM[LIS] OUTDOOR UNIT RAWL- INDOOR COIL AND/OR AIR HANDLER TOTAL CAPACITY BTU/H [kW] NET SENSIBLE BTU/H [kW] NET LATENT BTU/H [kW] EER IPLV Rev. 8/14/2008 RHGL-120Z © 117,000 [34.3] 86,500 [25.3] 30,500 [8.9] 11.20 WA 88 3,800 (1793] 120CAZ RCCL-D5013 118,000 [34.6] 86,600 [25.3] 31,500 [9.2] 11.20 WA 88 3,800 [1793] 120DAZ RHGL-12OZ 117,000 [34.3] 86,500 [25.3] 30.500 [8.9] 11.20 WA 88 3,800 [1793] RCCL-D5013 118,000 [34.6] 86,500 [25.3] 31,500 [9.2] 11.20 WA 1 88 3,800 [1793] 120YAZ RHGL-120Y 117,000 [34.3] 86.500 [25.3] 30,500 [8.9] 11.20 WA 88 3,800 [1793] RCCL-135013 118,000 (34.6] 86,500 [25.3] 31.500 [9.2] 11.20 WA 88 3,800 [1793] 125CAZ RHGL-120Z O 116.000 [34.0] 87,000 (25.5] 29.000 [8.5] 11.20 14 88 3,800 (1793] RCCL-D5013 116,000 [34.0] 85.000 [24.9] 31,000 [9.1] 11.20 14 88 3,800 [1793] 125DAZ RHGL-120Z 116,000 [34.0] 87,000 [25.5] 29,000 [8.5] 11.20 14 88 3,800 (1793] RCCL-D5013 116,000 (34.0] 85,000 [24.9] 31,000 [9.1] 11.20 14 88 3,800 [1793] 125YAZ RHGL-120Y 116,000 [34.0] 87,000 [25.5] 29.000 [8.5] 11.20 14 88 3,800 [1793] RCCL-D5013 116,000 [34.0] 85.000 [24.9] 31,000 [9.1] 11.20 14 88 3.800 (1793] 150CAZ RHGL-180Z O 146,000 (42.8] 112,000 [32.81 34,000 (10.01 11.10 15 88 5,000 (2360] 150DAZ RHGL-180Z 146,000 [42.8] 112,000 [32.8] 34,000 [10.0] 11.10 15 88 5,000 [2360] 150YAZ RHGL-180Y 146,000 [42.8] 112,000 [32.8] 34,000 [10.0] 11.10 15 88 5,000 [2360] 180CAZ RHGL-180Z O 178,000 [52.2] 125.000 [36.6] 53.000 [15.5] 11.00 12.3 88 5,100 [2407] 180DAZ RHGL-18OZ 178,000 [52.2] 125,000 [36.6] 53,000 [15.5] 11.00 12.3 88 5,100 [2407] 180YAZ RHGL-180Y 178,000 [52.2] 125,000 (36.6] 53,000 [15.5] 11.00 12.3 88 5,100 [2407] 240CAZ RHGL-240Z O) 244,000 [71.5] 169,000 [49.5] 75,000 [22.0] 10.00 13.7 88 6,900 [3256] 240DAZ RHGL-24OZ ":0'0'1.5] 169,000 [49.5] 75,000 [22.0] 10.00 13.7 88 6,900 [3256] 240YAZ RHGL-240Y 244,000 [71.5] 169,000 [49.5] 75,000 [22.0] 10.00 13.7 88 6.900 [3256] O Highest sales volume tested combination required by D.O.E. test procedures. WA= Not applicable [ ] Designates Metric Conversions 10 Ruud Heating, Cooling and Water Heating ELECTRICAL & PHYSICAL DATA: RAWL- ELECTRICAL PHYSICAL ' Model No. RAWL- Phase Frequency (Hz) Voltage (Volts) Compressor Full Load Amperes (FLA) Minimum Circuit Ampacity Amperes Fuse or HACK Circuit Breaker Ouldeer Coil Refri Circuit Oz. [g) Weight 0 Rated Load Amperes (RLA) Locked Rotor Amperes (LRA) Fan Motor Minimum Amperes Maximum Amperes Face Area Sq. Ft. [Sq. m] Ne. Rows CFM [Us] Net Lhs. [kg] Ship Lhs. [kgl Rev. 8/14/2008 120CAZ 3.60-20a/230 30.1130.1 225 4.8 1 43/43 50/50 60/60 27.00[2.51] 2 8000 [3775] 1 339 [9611] 501[227.31 541[245.41 120DAZ 3-60-460 16.7 114 2.8 24 1 30 1 40 27.00[2.51] 2 1 8000 [3775] 1 339 [9611] 501[227.31 541 [245.4] 120YAZ 3-60-575 12.2 80 2 18 25 25 27.00[2.51] 2 1 8000 [3775] 1 339 19611] 501 [227.31 541 [245.41 [ ] Designates Metric Conversions COOLING PERFORMANCE _;ETA CONING RAWL-120 OLN UNITG RHGL-120 COIL ENTERING INDOOR AIR @ 8O'F [26.7°C] dbE O+ wbE 71°F 121.7°Cl 67°F [19.4°Cl 631 [17.2'CI CFM[LIS] 4560[21521 3800117931 1 3940[14351 458D 121521 3800[17931 3040[14351 4560121521 3800117931 3040 114351 DR O .05 .08 .13 .05 .08 .13 .05 .08 .13 75 Total BTUH [kW] 146.6142.961 141.5 [41.47] 136.3 [39.951 140.6 [41.211 135.6 [39.741 130.7 [38.301 136.0 [39.861 131.2 [38.461 126.4 [37.041 [23.91 Sens BTUH [kW] 94.5 [27.70] 81.3 (23.83] 69.0120.221 112.1 [32.85] 97.5 [28.571 84.0124.621 127.9 [37.48] 112.2 (32.881 97.4128.551 O Power 7.7 7.6 7.5 7.6 7.5 7.4 7.5 7.4 7.3 Total BTUH IkW] 143.1 [41.941 138.1 [40.471 133.0 [38.98] 137.1 [40.18] 132.2 [38.74] 127.4 [37.341 132.5 (38.831 127.8 [37.45] 123.2 [36.11] 126.7] UcWI 92.6 [27.14] 79.7 [203.36] 67.6 [89.81] 110.2 [302.30] 95.9 [98.11] 82.6 [�4.21] 126.17[96.96] 110.6 [82.41] 96.17[s8.16] o PeweBTUH O R B5 Total BTUH [kW] 139.5 [40.881 134.6 [39.451 129.7138.01] 133.5 [39.12] 128.8 [37.75] 124.1 [36371 128.913778] 124.4 [36461 119.9 [35.141 129'41 Sens BTUH RW] 90.6 [26.55] 78.0 [22.86] 66.3 [19.431 108.2 [31.711 94.3 (27.64] 81.2 [23:80] 124.1 [36:37] 109.0 [31:941 94.7 [27.75] 1 D Power 8.5 8.3 1 8.2 8.4 1 8.2 8.1 8.3 8.1 8.0 y 90 Total BTUH IkW] 135.9 [39.83] 131.1 [38.42] 126.4 [37.041 129.9 [38.071 125.3136.721 120.7 [35.371 125.3 [36.72] 120.9 [35.43] 116.5 [34.141 [32 21 Sens BTUH [kWl 88.9 [26.05] 76.5 [22.42] 65.1 [19.08] 106.5 [31.21] 92.8 [27.201 80.0123.45] 122.3 [35.841 107.5 [31.51] 93.5 [27.40] B Power 8.9 8.7 8.6 8.8 8.6 8.5 8.7 8.5 8.4 � Total BTUH [kWl 132.2 [38.74] 127.6 [37.401 122.9 [36.021 126.2 [36.991 121.8 [35.70] 117.3 [34.38] 121.6 [35.64] 117.3 [34.38] 113.1 [33.15] B 1351 Sens BTUH IkW] 87.0 [25.601 75.0 [21.98] 63.7 [18.67] 104.6130.661 91.3 [26.76] 78.7 [23.06] 120.5 [35.32] 105.9 [31.04] 92.2127.02] Pawar 9.3 9.2 9.0 9.2 9.1 8.9 9.1 9.0 8.8 e Tola[ BTUH [kW] 128.5 [37.66] 124.0 [36.34] 119.5 [35.021 122.5 [35.90] 118.2 [34.64] 113.9 [33.38] 117.9 (34.55] 113.7 [33.32] 109.6 [32.121 P [37 8] Seion ns BTUH RW] 85.3 [25.00] 73.5 [21.54] 62.6 [18.351 102.9 [30.161 89.8 [26.32] 77.5 [22.711 117.9 [34.551 104.4 [30.601 90.9 [26.641 E Power 9.8 9.6 9.4 9.7 9.5 9.3 9.6 9.4 9.2 R Total BTUH IkWI 124.7 [36.551 120.3 [35.26] 116.0 [34.00] 118.7 [34.79] 114.5133.56] 110.4 [32.36] 114.1 [33.441 110.1 [32.27] 106.1 [31.09] U [40.61 Sens BTUH [kW1 83.6 [24.471 72.0 [21.101 61.4 [17.99] 101.1 [29.63] 88.3 [25.88] 76.3 [22.36] 114.1 [33.441 103.0130.19] 89.8 [26.32] Power 10.2 10.1 9.9 10.1 10.0 9.8 10.0 9.9 9.7 R Total BTUH RW1 120.9 [35.43] 116.6 [34.17] 112.4 [32.94] 114.8 [33.64] 110.8 [32.47] 106.8 (31.30] 110.3132.33] 106.4 [31.181 102.5 [30.04] E 143 31 Sens BTUH RINI 81.8 [23.971 70.5 [20.66] 60.1 [17.61] 99.3 [29.101 86.8 [25.441 75.1 122.01] 110.3 [32.33] 101.5 88.5 [25.941 T Power 10.7 10.5 10.4 10.6 10.4 10.3 10.5 .9.751 10.3 10.2 [,q Total BTUH [kW] 117.0 [34.29] 112.9 [33.09] 108.8 [31.89) 111.0 [32.53] 107.1 [31.39] 103.2130.24] 106.4 [31.18] 102.7 [30.101 98.9 [28.98] [46.11 Sens STUN [kW] 80.0 [23.451 69.1 [20.25] 58.9 [17.261 97.7 [28.63] 85.5 [25.06] 74.0121.69] 106.4 [31.181 100.1 [29.34] 87.3 [25.591 Power 11.3 11.1 10.9 11.1 11.0 10.8 11.0 10.9 10.7 CONrrH UNITING RAWL-120 COOLING RCCL-D5013 COIL ENTERING INDOOR AIR @ BOV [26.7°C] dbE OO wbE 71°F 121.7°CI 67°F [19.4°Cl 63°F [17.2°Cl CFM [L/s] 4560[21521 3800 [17931 1 3040[14351 4560[21521 3800[17931 304011435) 4560121521 3800117931 1 3040 [14351 DR O .05 .09 .14 .05 .09 .14 .15 .09 .14 75 Total BTUH [kW] 147.6143.261 142.4 [41.73] 137.3140.24] 141.6 (41.50] 136.6 [40.031 131.6 [38.571 137.0 [40.15] 132.2 [38.74] 127.4 [37.341 123.91 Sens BTUH [kW] 94.5127.70] B1.2 [23.80] 69.0120.22] 112.1 [32.85] 97.5 [28.57] 83.9 [24.591 127.9 [37.481 112.2 [32.881 97.4 [28.55] ower 7.8 7.7 7.6 7.7 7.6 7.5. 7.6 7.5 7.4 80 Total BTUH IkM 144.1 [42.231 139.0 [40.74] 134.0 [39.27] 138.1 [40.471 133.2 [39.04] 128.4 (37.631 133.5 [39.12] 128.8 [37.75] 124.1 [36.37] D [25.71 Sens BTUH [kW] 92.6 [27.141 79.6 [23.33] 67.6 [19.811 110.2132.30] 95.9 [28.11] 82.6 [24.211 126.1 [36.96] 110.6 [32.411 96.0 [28.131 O Power 1 8.2 8.1 7.9 8.1 8.0 7.8 8.0 7.9 7.7 R 85 Total BTUH [kW1 140.5 [41.181 135.6139.74] 130.7 [38.301 134.5 [39.42] 129.8 [38.04] 125.1 [36.661 129.9 [38.07] 125.4 (36.751 120.8 [35.401 [29.41 Sens BTUH [kW] 90.6 [26.55] 78.0 [22.86] 66.3 [19.431 108.2 [31.71] 94.3 [27.64] 81.2 [23.801 124.1 [36.37] 109.0 [31.941 94.7 [27.751 D Power 8.6 1 8.4 8.3 1 8.5 8.3 1 8.2 8.4 1 8.2 8.1 y 90 Total BTUH [kW] 136.9 [40.12] 132.1 [38.71] 127.3 [37.311 130.9 [38.36] 126.3 [37.011 121.7 [35.671 126.3 [37.01] 121.9 [35.73] 117.4 [34.41] [32.21 Sens BTUH IkW1 88.9 [26.05] 76.5 [22.42] 65.0 [19.051 106.5 [31.21] 92.8 [27.20] 80.0 [23.45] 122.3 [35.84] 107.5 (31.51] 93.4 [27.371 e Power 9.0 8.8 8.7 8.9 8.7 8.6 8.8 8.6 8.5 IU. Total BTUH RW] 133.2 [39.04] 128.6 [37.691 123.9 [36.311 127.2 [37.28] 122.7 [35.96] 118.3 [34.671 122.6 [35.93] 118.3 (34.67) 114.0 [33.411 O 1351 Sens BTUH IkW] 87.0 [25.501 75.0 [21.98] 63.7 [18.67] 104.6 [30.66] 91.2 [26.731. 78.7 [23.061 120.5 [35.32] 105.9 (31.041 92.1 [26.99] Power 9.4 9.3 9.1 9.3 9.1 9.0 9.2 9.0 8.9 e ion Total BTUH [kW] 129.5 (37.95] 125.0 [36.631 120.4 [35.291 123.5 [36.19] 119.1 [34.901 114.8133.641 118.9 [34.85] 114.7 [33.62] 110.6 [32.41] P [37 8] Sens BTUH [kW] 85.3125.00] 73.5 [21.54] 62.5 (18.32] 102.9 [30.16] 89.7 [26.291 77.4122.681 118.7 [34.79] 104.4 [30.60] 90.9 [26.64] E Power 9.9 9.7 9.5 9.8 9.6 9.4 9.7 9.5 9.3 R Total BTUH [kW] 125.7 [36.84] 121.3 [35.55] 116.9 [34.26] 119.7 (35.081 115.5 [33.85] 111.3 [32.62] 115.1 [33.731 111.1 [32.56] 107.0 (31.361 U [40.61 Sens BTUH D W1 83.5 [24:471 72.0 [21.10] 61.3 [17.971 101.1 [29.631 88.3125.88] . 76.3 [22.36] 115.1 [33.731 103.0 [30.19] 89.7 [26.29] Power 10.3 10.2 10.0 10.2 10.1 9.9 10.1 10.0 9.8 e 110 Total BTUH [kW1 121.9 [35.73] 117.6'31171 113.3 [33.201 115.9 [33.97] 111.8 [32.77] 107.7 [31.561 111.3132.621 107.4131.48] 103.5 [30.33] [43.31 Sens BTUH [kW] 81.8 [23.97] 70.5 [20:66] 60.0 [17.581 99.4 [29.13] 86.8125.44] 75.0 [21.98] 111.3 [32.62] 101.5 [29.75] 88.5 [25.94] T Power 10.8 10.6 10.5 10.7 10.5 10.4 10.6 10.4 10.3 [°O1 Total BTUH [kW] 118.0 [34.1" 113.9 [33.38] 109.7 [32.15] 112.0 [32.82] 108.0 [31.651 104.1 [30.51] 107.4 [31.48] 103.6 [30.36] 99.9 [29.281 14611 Sens BTUH [kW] 80.0 [23.45] 69.1 [20.25] 58.6 [17.23] 97.7 [28.63] 85.4 [25.03] 73.9 [21.66] 107.4 [31.48] 100.0 [29.311 87.3 [25.59] Power 11.4 11.2 11.0 11.2 11.1 10.9 11.1 11.0 10.8 DR -Depression ratio Total Total capacity x 1000 BTUH NOTES: dbE-Entering air dry bulb Sens -Sensible capacity x 1000 BTUH CD When the entering air dry bulb is other than 801 [270C], adjust the sensible capacity wbE-Entering air wet bulb Power -KW input from the table by adding [1.10 x CFM x (1- DR) x (dbE-80)1. Q Data includes 25 feet [7.62 m] of recommended suctioMiquid lines. [ 1 Designates Metric Conversions 12 Ruud Heating, Cooling and Water Heating COOLING PERFORM CE DATA CONDENS ING WITH RAWL-125 AIR RHGL-120 HANDLER ENTERING INDOOR AIR @ 807125.70CI dhE 0) wbE 71°F 121.7°Cl 67°F [19.4°CI 531 [17.2'Cl CFM [Us] 4550 [21521 3800[1793] 1 3040 [1435] 4560[21521 3800117931 1 3040[1435] 1 4550121521 3800 0793] 1 3040[1435] O8 O .03 .07 .11 .03 .07 1 .11 1 03 .07 1 .11 Total BTUH DIM 145.7 (42.701 140.6 [41.211 135.5 [39.711 140.4 [41.151 135.5139.71 1 130.5138.251 139.2 [40.801 134.3 [39.361 129.5 [37.951 75 [23.91 Sens BTUH IkW1 95.2127.901 82.0 [24.031 69.7 [20.431 112.8 [33.061 98.3 [28.811 84.6 [24.791 131.3 [38.481 115.2 [33.761 100.1 129.341 0 Power 7.4 7.3 7.2 7.4 7.2 7.1 7.3 7.2 7.1 Total BTUH [kW] 141.6 [41.501 136.6 [40.031 131.6 (38.57] 136.3 [39.95] 131.5138.54] 126.7 [37.131 135.1 [39.591 130.4 [38,221 125.6 [36.811 T 7] Sens BTUH [kW] 93.2127.311 80.2 [23.50] 68.2 [19.99] 110.6 [32.41] 96.4 [28.25] 83.1 [24.351 129.2 [37.861 113.5 [33.26] 98.6 [28.901 O [280 Power 7.8 7.7 7.6 7.8 7.6 7.5 7.7 7.6 7.4 O H Total BTUH [kW] 137.6 [40.33J 132.8 [38.92] 128.0 [37.51 ] 132.4 [38.80] 127.7 [37.431 123.1 [36.081 131.2 [38.451 126.6 [37.101 122.0 (35.751 95 Sens BTUH [kW] 91.1 (26.70] 78.5 [23.01] 66.8 [19.58] 108.7 [31.86] 94.7 [27.75] 81.7 [23.941 127.3 [37.31] 111.8 [32.77] 97.2 [28.491 0 [29.4] Power 8.3 8.1 8.0 8.2 8.0 7.9 8.1 8.0 7.8 R Total BTUH [kW] 133.9 [39.24] 129.2 [37.861 124.5 [36.491 128.7 [37.721 124.1 [36.37] 119.6 [35.05] 127.5 (37.37] 123.0 (36.05] 118.5 [34.73] 9. Sens BTUH [1 1 89.2 [26.14] 76.9 [22.54] 65.5 [19.201 106.9 [31.331 93.2 [27.311 80.4 [23.56] 125.4 [36.751 110.2 [32.301 95.8 [28.081 B [322] Power 8.7 8.6 8.4 8.6 8.5 8.3 8.6 8.4 8.3 Total BTUH [kW] 130.4 [38.22] 125.9 [36.901 121.3135.55] 125.1 [36.66] 120.8 [35.40] 116.4 [34.111 124.0 [36.341 119.6 [36.05] 115.3 [33.79] B Sens BTUH [kWl 87.6 [25.67] 75.6 [22.161 64.4118.871 106.1 [30.80] 91.8 [26.901 79.2 [23.21] 123.7 [36.25] 108.7 [31.86] 94.7 [27.751 [351 Power 9.2 9.0 8.9 9.1 9.0 1 8.0 ' 9.1 8.9 8.7 E Total BTUH Di 127.1 [37.251 122.7 [35.96] 118.2 [34.64] 121.9 [35.73] 117.6 [34.47] 113.3 [33.20] 120.7 [35.37] 116.4 [34.111 112.2 [32.88] M 100 Sens BTUH IkW] 85.9 [25.17] 74.2 [21.751 63.2 (18.52] 103.6 [30.361 90.5 [26.52] 78.2 [22.921 120.7 [35.371 107.4 [31.48] 93.6 [27.43] P [37.81 Power 9.7 9.5 9.3 . 96 9.5 9.3 9.6 9.4 9.2 R Total BTUH [kWJ 1R.1 [36.37] 119.7 [35.08] 115.3 [33.791 118.8 [34.821 114.6 [33.591 110.4 [32.36] 117.E 134.471 113.5 (33.26] 109.3 [32.031 T Sens BTUH [kW] 84.6 [24.79] 73.0 [21.39] 62.2 [18.23] 102.2 [29.951 89.3 [26.171 77.2 [22.63] 117.6 [34.47] 106.3 [31.15] 92.6 [27.14] [40.61 Power 10.2 10.0 1 9.9 10.2 10.0 9.8 10.1 9.9 9.7 R Total STUH [kW1 121.2135.521 116.9 [34.26] 112.7 [33.03] 115.9 [33.97] 111.8 [32.77] 107.8 [31.59] 114.7 [33.62] 110.7 [32.44] 106.7 [31.27] 31 Sens BTUH [kW] 83.4124.44] 72.0 [21.10] 61.5 [18.02] 100.9 [29.57] 88.2 [25.85] 76.3 [22.361 114.7 [33.62] 105.2 [30.83] 91.8 [26.901 F [43 Power 10.8 10.6 10.4 10.7 10.5 10.3 10.6 10.5 10.3 [°O] 115 Total BTUH IkW1 118.5 [34.73] 114.3 [33.50J 110.2 [32.301 113.2 [33.181 109.2 [32.00] 105.3 [30.86] 112.0 [32.82] 108.1 [31.68] 104.2 [30.541 [4fi 1] Sens BTUH [kW] 82.2 [24.09] 71.0 [20.81] 60.7 [17.79] 99.7 [29.221 87.2 [25.56] 75.5 [22.13] 112.0 [32.82] 104.3 [30.571 91.0 [26.67] Power 11.4 11.2 11.0 11.3 11.1 10.9 11.2 11.0 10.8 CONWITH UNITING RAWL-125 AIR RCCL-D5013 HANDLER ENTERING INDOOR AIR @ 80'F 126.7°CI dhE O wbE T1'F121.7°Cl 67°F[19.4'Cl 63°F[17.2°C] CFM [LIS] 4560121521 3800117931 1 3040 [14351 4560121521 1 3890 [17931 3040114351 1 4560 R1521 3800117931 1 3040 [14351 BB O+ .07 .11 - .16 .11 1 .11 .16 1 .07 .11 1 .16 Total BTUH [kW] 145.7-[42.701 140.5 (41.181 135.4 [39.681 140.4141.151. 135.4 [39.68] 130.5 [38.25) 139.2 (40.801 134.3 [39.361 129.4 [37.921 75 [23.91 Sens BTUH [kW] 93.0 [27.261 79.9 [23A21 67.8 [19.87] 110.6 [32.411 96.2 [28.191 82.8 [24.27] 129.1 [37.841 113.2 [33.181 98.2 [28.781 ower 7.4 7.3 7.2 7.4 7.2 7.1 7.3 7.2 7.1 U Total BTUH [kW] 141.5 [41.471 136.6 [40.03] 131.6 [38.57] 136.2 [39.921 131.5138.541 126.7 [37.13] 135.1 [39.59] 130.3138.191 125.6 [36.811 o [2fi 7] Sens BTUH [kW] 90.9 [26.64] 78.2 [22.921 66.4 (19.46] 108.3 [31.74] 94.4 [27.671 81.2 [23.80] 127.0 [37.221 111.4 (32.65] 96.7 [28.34] O Power 7.8 7.7 7.6 7.8 7.6 7.5 7.7 7.6 7.4 Total BTUH [kW] 137.6 [40.33] 132.8 [38.92] 128.0 [37.511 132.3138.771 127.7 [37.43] 123.0 [36.05] 131.2 [38.45] 126.6 [37.10] 122.0 135.751 R 85 [29 41 Sens BTUH [kW] 88.9126.05] 76.5 [22A2] 65.0 [19.051 106.4 [31.181 92.7 [27.171 79.8 [23.39] 125.1 [36.661 109.8 [32.181 95.4 [27.96] o Power 8.3 8.1 8.0 8.2 8.1 1 7.9 8.1 8.0 1 7.9 y Total BTUH [kW] 133.9 [39.241 129.2137.861 124.5 [36.49] 128.6 [37.691 124.1 [36.37] 119.6 [35.05] 127.5 [37.37] 123.0 [36.05] 118.5 [34.73] 90 I32 2] Sens BTUH [kWl 87.0 [25.50] 74.9121.95] 63.6 [18.64] 104.6 [30.66] 91.2 [26.731 78.6123.04] 123.2 [36.1l] 108.2 [31.711 94.0 [27.551 e Power 8.7 8.6 8.4 8.7 8.5 8.3 8.6 8.4 8.3 Total BTUH [kWI 130.4 [38.221 125.8 [36.87] 121.3 [35.55] 125.1 [36.66] 120.7135.371 116.3 [34.08] 124.0 (36.34] 119.6 [35.05] 115.3133.791 B [351 Sens BTUH [kW] 85.4 [25.031 73.5 [21.541 62.6 [18.35] 102.9130.16] 89.7 [26.291 77.3 [22.651 121.5 [35.61] 106.7 [31.27] 92.8127.201 Power 9.2 9.0 8.9 9.1 9.0 8.8 9.1 8.9 8.8 E Total BTUH [kW] 127.1 [37.25] 122.7 [35.96] 118.2 [34.64] 121.8 (35.70] 117.6 [34.471 113.3 [33.201 120.7 [35.37] 116.4 [34.111 112.2 [32.88] P137.81 Sens BTUH [kW1 83.7 [24.53] 72.2 [21.16] 61.4 [17.99] 101.4 [29.72] 88.5 [25.94] 76.3 [22.36] 119.9 [35.14] 105.4 [30.89] 91.8 [26.90] Power 9.7 9.5 9.4 9.6 9.5 9.3 9.6 9.4 9.2 R _ Total BTUH [kW] 124.0 (36.341 119.7 [35.081 115.3 [33.79] 118.7 [34.791 114.6 [33.591 110.4 [32.36] 117.6 [34.471 113.4 [33.231 109.3 [32.03] T 5 Sens BTUH [kW] 82.3 [24.121 71.0 [20.811 60.4 [17.70] 99.9 [29.28] 87.3125.591 75.3 [22.07] 117.6 [34.471 104.2 [30.54] 90.8 [26.61] [40 Power 10.2 10.0 9.9 10.2 10.0 9.8 10.1 9.9 9.8 H Total BTUH [kW] 121.1 [35.49] 116.9134.26] 112.6133.00] 115.9 [33.97] 111.8132.77] 107.7 [31.561 114.7 [33.62] 110.7 [32.44] 106.6131.24] F [43 3] Sons BTUH [kWl 81.1 [23.771 70.0 (20.51] 59.6 [17.471 98.7128.931 86.2 [25.261 74.4 [21.80] 114.7 [33.62J 103.2 [30.241 89.9126.35] 1 Power 10.8 10.6 10.4 10.7 10.5 10.3 10.7 10.5 10.3 [°Ol Total BTUH [kW] 118.5 [34.731 114.3 [33.50] 110.2 [32.30] 113.2 [33.18] 109.2 [32.00] 105.2 [30.831 112.0 [32.821 108.1 (31.681 104.2 [30541 [46 11 Sens BTUH IkW] 80.0 [23.45] 69.0 [20.221 58.8 [17.23] 97.5 [28.57] 85.2 [24.971 73.6 [21.57] 112.0 [32.82] 102.3 [29.981 89.2 [26:14] 1 Power 11.4 11.2 11.0 11.3 11.1 10.9 11.2 11.0 10.8 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: dbE -Entering air dry bulb Sens -Sensible capacityx 1000 BTUH O When the entering air dry bulb is other than 80°F [27°C], adjust the sensible capacity wbE-Entering air wet bulb Power -KW input from the table by adding 11.10 x CFM x (1 - DR) x (dbE-80)]. ® Data includes 25 feet [7.62 m] of recommended suctionAiquid lines. [ ] Designates Metric Conversions Ruud Heating, Cooling and Water Heating 13 COOLING PERFORMANCE uATA CONUNIIT a RAWL-150 COOLING RHGL-180 COIL ENTERING INDOOR AIR @ 80°F [26.7°C] dhE 0 wbE 71°F [21.7°CI 671 119.4°Cl 63'F [17.2°Cl CFM [LIS] 6000 [28321 5000 [23601 4000 [18881 6000 [28321 5000123601 4000 08881 6000 [28321 5000 [2360] 4000 [18881 OR © .06 .01 .14 .06 .01 .14 .06 .01 .14 75 Total BTUH [kW] 159.8 [46.8] 154.2 [45.21 148.6 [43.6] 164.1 [48.1] 158.3 [46.41 152.6 [44.7] 157.5 [46.2] 152.0144.51 146.5 [42.9] 123.91 Sens BTUH [kW] 108.4 [31.8] 93.5 [27.4] 79.7 [23.4] 135.8 [39.8] 118.4 [34.7] 102.2 [30.0] 151.0 [44.3] 132.6 [38.9] 115.2 [33.8] 0 Power 10.5 10.3 1 10.1 11.5 11.3 11.1 12.4 12.2 12.0 Total BTUH RIM 159.9 [46.91 154.3 [45.2] 148.7 [43.6] 164.2 [48.1] 158.4 [46.4] 152.7 [44.8] 157.7 [46.21 152.1 [44.6] 146.6 [43.0] D [26 7] Sens BTUH [kW] 108.8 [31.9] 93.9 [27.5] 80.1 [23.5] 136.2 [39.91 118.8 [34.8] 102.5 [30.01 151.5 [44.41 133.0 [39.0] 115.6 [33.91 0 Power 1 11.1 10.9 10.7 12.0 11.8 11.6 13.0 12.8 12.6 R 85 Total BTUH NW1 159.0 [46.61 153.5 [45.0] 147.9 [43.3] 163.3 [47.91 157.6 [46.21 151.9 [44.5] 156.8 [46.01 151.3 [44.31 145.8 [42.7] 129.41 Sens BTUH [kWJ 108.6 [31.8] 93.8 [27.5] 80.0 [23.5] 136.0 [39.91 118.7 [34.8] 102.5 [30.0] 151.3 [44.4] 132.9 [39.0] 115.5 [33.91 0Power 11.7 11.5 11.3 12.7 12.5 12.2 13.7 1 13.4 13.2 y 90 Total BTUH [kWJ 157.2 [46.1] 151.7 [44.51 146.1 [42.8] 161.4 [47.3] 5.71 150.1 [44.01 154.9145.41 149.5 [43.81 144.0 [42.21 [32.21 Sens BTUH [kWl 107.7 [31.6] 93.0 [27.3] 79.2 [23.21 135.0 [39.6] 4.6] 101.7 [29.8] 160.3 [44.1] 132.1 [38.7] 114.8 [33.7] B U Pawer 12.4 12.1 11.9 13.3 1 12.9 14.3 14.1 13.8 L 95 Total BTUH DIM 154.3 [45.2] 148.9 [43.61 143.5 [42.1] 158.6 [46.5] 4.8] 147.5 [43.2] 152.0 [44.5] 146.7 [43.01 141.4 [41.41 G 1351 Sens BTUH RW] 106.1 [31.1] 91.6 [26.9] 78.2 [22.91 133.5 [39.1] 4.2] J149.3(43.81 100.6 [29.51 148.7 [43.6] 130.7 [38.3] 113.7 [33.31 T Power 13.1 12.8 12.6 14.0 13.5 15.0 14.8 14.5 M 100 Total BTUH [kW] 150.5 [44.1] 145.2 [42.6] 139.9 [41.0] 154.7 [45.3] 3.8] 143.9 [42.2] 148.2 [43.41 143.0 [41.9] 137.8 [40.4] P [37.81 Sens BTUH [kW] 103.8 [30.41 89.6 [26.31 76.4 [22.4] 131.1 [38.41 3.6] 98.9 [29.0] 146.4 [42.9] 128.7 [37.7] 112.0 [32.8] Power 13.8 13.6 13.3 14.8 14.3 15.7 15.5 15.2 A 105 Total BTUH [kW] 145.6 (42.71 140.5 [41.2] 135.4 [39.7] 149.9 4439] .[2.41 139.4 [40.91 143.3 [42.0] 138.3 [40.51 133.3 [39.1] T [405 Sens BTUH [kW] 100.7 [29.51 87.0 [25.5] 74.3 [21.81 128.1 [37.61 111.9 [32.8] 96.7 [28.3] 143.3 [42.01 126.1 [37.0] 109.8 [32.21 U Power 14.6 14.3 14.1 15.5 15.3 15.0 16.5 16.2 15.9 R Total BTUH [kW1 139.8 [41.0] 134.9 [39.51 130.0 [38.1] 144.1 [42.2] 139.0 [40.7] 133.9 [39.2j 137.5 [40.3] 132.7 [38.91 127.9 [37.5] E [43 3] Sens BTUH [kW1 97.1 [28.5] 83.9 [24.6] 71.6 [21.0] 124.4 [36.5] 108.7 [31.9] 93.9 [27.5] 137.5 [40.3] 123.0 [36.1] 107.2 [31.4] `F Power 15.4 15.1 14.8 16.4 16.1 15.8 17.3 17.0 16.7 ['C] 115 Total BTUH [kW] 133.0 [39.0] 128.3 [37.6] 123.6 136.21 137.2 [40.21 132.4 [38.81 127.6137.41 130.7 [38.31 126.1 [37.01 121.5 [35.6] [46.11 Sens BTUH [kW] 92.7 [27.2] 80.1 [23.5] 68A [20.11 119.9 [35.1] 104.9 [30.81 90.8 [26.6] 130.7 [38.3] 119.1 114.9] 103.8 [30.41 Power 16.2 15.9 15.7 17.2 16.9 16.6 18.2 17.9 17.6 CONUNTINa RAWL-180 COOLING RHGL-180 COIL ENTERING INDOOR AIR @ 807 [26.7'C] IRE OO wbE 71'F [21.7'CI 67'F 119.4°Cl 63'F [17.2'Cl CFM D/sl 5120[28881 5180124071 4089119261 6120[28881 5100 [24071 1 4080 t19261 6120 [28881 5180 [24071 4080119261 OR 0 .01 .07 .14 .01 .07 .14 .01 .07 .14 75 Total BTUH RM 238.4 [69.91 230.0 [67.41 221.6 [64.91 217.6 [63.81 210.0 [61.51 202.4 (59.31 210.9 [61.81 203.5 (59.61 196.1 [57.5] [23.91 Sens BTUH [kWJ 148.4 [43.5] 127.3 [37.3] 107.8 [31.6) 164.2 [48.1] 142.6 [41.8] 122.4 [35.9] 180.8 [53.0] 158.0 [46.31 136.5 [40.0] 0 Power 15.8 15.6 15.3 14.5 14.2 14.0 13.1 12.9 12.6 u 80 Total BTUH [kW] 232.3 [68.1] 224.1 [65.71 216.0 [63.3] 211.5 (62.01 204.1 [59.8] 196.7 [57.6] 204.8 [60.01 197.6 [57.9] 190.4 [55.81 D [26.71 Sens BTUH [kW] 145.6 [42.7] 125.0 [36.6] 106.0 [31.11 161.5 [47.3] 140.3 [41.1] 120.5 [35.3] 178.1 [52.2] 155.7 [45.61 134.6 [39.5] 0 Power 16.4 16.1 15.9 15.0 14.8 14.5 13.7 13.4 13.2 R Total BTUH [kW] 226.4 [66.4] 218.5 [64.01 210.5 [61.7] 205.7 [60.3] 198.5 [58.21 191.2 [56.0] 198.9 [58.3] 192.0 [56.31 185.0 [54.21 I29 41 Sens BTUH [kWl 142.9 [41.91 122.8 [36.0] 104.1 [30.51 158.8 [46.5] 138.0 [40.5] 118.5 [34.7] 175.3 151.41 153.4 [45.0] 132.7 [38.9] D Power 1 17.0 1 16.7 16.4 1 15.7 15.4 15.1 14.3 14.0 13.8 y 90 Total BTUH [kW] 220.8 [64.7] 213.0 [62.4] 205.3 [60.2] 200.0 [58.61 193.0 [56.6] 186.0 [54.51 193.3 [56.7] 186.5 [54.7] 179.7 [52.71 [32.21 Sens BTUH [kW1 140.1 [41.1] 120.3 [35.3] 102.1 [29.91 155.9 [45.7] 135.6 [39.8] 116.6 [34.2] 172.5 [50.61 151.0 [44.3] 130.7 [38.31 G u Power 17.7 17.4 17.1 16.3 16.0 15.7 14.9 14.7 14.4 95 al BTUH [kW] 215.3 [40.21 7.8 [34.6] 200.2 [29.31 [44.9] 187.7 [39.0] 0.9 [33.6] 187.8 [49.7] 181.2 [43.51 174.7 [37.71 G [35] Sens BTUH [kW] 137.1 117.9 100.0 153.1 133.1 114.5 169.6 148.5 128.7 T Power 18.4 18.1 17.7 17.0 16.7 16.4 15.6 15.4 15.1 E Total BTUH [kW] 210.1 [61.61 202.7 [59.4] 195.3 [57.2] 189.3 [55.51 182.7 [53.5] 176.1 [51.61 182.6 [53.5] 176.2 [51.6] 169.8 [49.8] P [37.81 Sens BTUH [kWl 134.2 [39.3] 115.3 [33.8] 97.8. [28.7] 150.0 [44.01 130.6 [38.3] 112.4 [33.0] 166.5 14B.81 145.9 (42.81 126.5 [37.11 E Power 19.1 18.8 18.4 17.7 17.4 17.1 16.4 16.1. 15.8 105 Total BTUH [kW] 205.1 [60.11 197.9 [58.01 190.7 [55.91 184.3 [54.0] 177.9 [52.1] 171.4 [50.2] 177.6 [52.01 171.4 [50.2] 165.1 [48.4] A T [40.6] Sens BTUH [kW] 131.1 [38.4] 112.7 [33.0] 95.7 [28.1] 146.9 [43.1] 128.0 [37.5] 110.2 [32.3] 163.5 [47.91 143.3 [42.0] 124.2 [36.4] u Power 19.9 19.5 19.2 18.5 18.2 17.9 17.1 16.8 16.5 e 110 Total BTI1H [kW] 200.3 [58.71 193.3 [56.7] 186.2 [54.61 179.5 [52.61 173.2 [50.8] 166.9 [48.9] 172.8 [50.6] 166.7 [48.91 160.7 [47.1] [43.31 Sens BTUH [kW] 127.9 [37.51 110.0132.21 93.3 [27.4] 143.8 [42.2] 125.2 [36.7] 107.8 [31.6] 160.4 [47.01 140.6 [41.21 122.0 [35.8] 'F Power 20.7 20.3 20.0 19.3 19.0 18.6 17.9 17.6 17.3 rcl 115 Total BTUH [kW] 195.7 [57.4] 188.8 [55.3] 182.0 [53.3] 175.0 [51.3] 168.8 [49.5] 162.7 [47.7] 168.2 [49.3] 162.3 [47.61 156.4 [45.81 [46.11 Sens BTUH [kW] 124.6 [36.51 107.1 [31.4] 90.9 [26.71 140.6 [41.21 122.4 [35.91 105.4 [30.9] 157.1 146.1] 137.8 [40.41 119.6 [35.1] Power 21.5 21.1 20.8 20.1 19.8 19.4 18.8 18.4 18.1 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: dbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH O When the entering air dry bulb is other than 80°F [27°C], adjust the sensible capacity wbE-Entering air wet bulb Power -KW input from the table by adding 11.10 x CFM x (1- DR) x (dbE- 80)]. ® Data Includes 25 feet [7.62 m] of recommended suction/liquid lines. [ ] Designates Metric Comerslons 14 Ruud Heating, Cooling and Water Heating COOLING PERFORM CE DATA CONDENSING TING RAWL-180 WITH AR RHGL-240 HANDLER ENTERING INDOOR AIR @ 80°F [26.7°C] dbE O wbE 717121.7'C] 67`F [19.4'Cl 631 [17.2`Cl CFM[L!s] 8040 [3794] 6700[3152] 1 5360[25301 8040 13794] 1 6700 [31621 5360 125301 8040137941 6700 131621 1 5360[25301 DR O+ .06 .01 .13 .06 .01 .13 .06 .01 1 .13 75 Total BTUH ]kW] 251.1 [73.61 242.3 [71.01 233.5 [68.41 230.4 [67.51 222.3 [65.11 214.2 [62.81 223.7 [65.61 215.8 [63.2] 1 208.0 [61.01 [23.91 Sens BTUH [kW1 172.1 [50.41 148.6 [43.6] 126.8 [37.21 188.1 [55.1] 163.9 [48.01 141.3 [41.41 204.7 [60.01 179.3 (52.61 155.5 [45.61 0 Power 16.2 15.9 15.6 14.8 14.6 14.3 13A 132 13.0 7 80 Total BTUH [kM 245.1 [71.8] 236.5 [69.3] 227.9 [66.8] 224.3 [65.71 216.4 [63.41 208.6 [61.11 217.6 [63.81 209.9 [61.5] 202.3 [59.3] D 126.71 Sens BTUH 1kW] 169.5 [49.7] 146.4 [42.9] 124.9 [36.6] 185.3 [54.3] 161.6 [47.4] 139.4 [40.9] 201.9 [59.21 177.0 (51.91 153.6 [45.0] 00 Power 16.8 16.5 16.2 15.4 15.1 14.9 14.0 13.8 13.5 R B5 Total BTUH [kW1 239.2 [70.1] 230.8 [67.61 222.4 [65.2] 218.4 [64.0] 210.8 [61.81 203.1 [59.5] 211.7 [62.01 204.3 [59.9] 196.8 [57.7] [29.41 Sens BTUH ]kW] 166.7 [48.9] 144.1 [42.2] 123.0 [36.11 182.5 [53.51 159.3 [46.71 137.4 [40.31 199.1 [58.41 174.7 [51.21 151.6 [44.4] D Power 17.4 17.1 16.8 16.0 1 15.7 15.5 1 14.6 14.4 14.1 y 90 Total BTUH 1kW1 233.5 [68.4] 225.3 [66.0] 217.1 [63.6] 212.8 [62.4] 205.3 [60.21 197.9 [58.01 206.0 [60.4] 198.8 [58.3] 191.6 [56.2] (32 21 Sens BTUH [kW] 163.8 [48.01 141.6 [41.51 120.9 [35.4] 179.7 [52.7] 156.9 [46.0] 135.5 [39.7] 196.3 [57.51 172.3 [50.5] 149.7 [43.9] a U Power 18.0 17.7 17.4 16.7 16.4 16.1 15.3 15.0 14.8 L 95 Total BTUH [kW] 228.1 [66.81 220.1 [64.5] 1 212.1 [62.21 207.3 [60.8] 200.1 168.6] 192.8 [56.5] 200.6 [58.8] 193.6 [56.71 186.5 [54.7] B 1351 Sens BTUH [kWl 160.9 [47.2] 139.2 [40.81 119.0 [34.9] 176.8 [51.8] 154.5 [45.3] 133.5 [39.1] 193.4 [56.7] 169.9 [49.8] 147.6 [43.3] 7 Power 18.7 18.4 18.1 17.4 17.1 16.8 16.0 15.7 15.4 E 100 Total BTUH [kW] 222.9 [65.3] 215.0 [63.0] 207.2 [60.7] 202.1 [59.2] 195.0 [57.1] 187.9 [55.1] 195.4 [57.31 188.5 155.21 181.7 [53.3] P [37 8] Sens BTUH NW] 158.0 146.31 136.6 [40.01 116.8 [34.21 173.8 [50.91 151.9 f44.51 131.3 [38.5] 190.4 [55.8] 167.2 [49.0] 145.4 [42.61 E Power 19.5 19.1 18.8 18.1 17.8 17.5 16.7 16.4 16.1 R 105 Total BTUH IkW] 217.8 [63.8] 210.2 [61.6] 202.6 [59.4] 197.1 [57.8] 190.2 [55.7] 183.3 [53.7] 190.4 [55.81 183.7 (53.81 177.0 [51.9] T [4061 Sens BTUH [kW] 154.8 [45.4] 134.0 [39.31 114.6 [33.6] 170.8 [50.1] 149.3 [43.81 129.1 [37.8] 187.3 [54.9] 164.6 [48.2] 143.2 [42.0] U Power 20.2 19.9 19.5 18.9 18.5 1 18.2 1 17.5 17.2 16.9 e 110 Total BTUH [kW] 213.1 [62.51 205.6 [60.31 198.1 [58.11 192.3 [56.4] 185.6 [54.41 178.8 [52.4] 185.6 [54.4] 179.1 [52.51 172.6 [50.6] [43 3] Sens BTUH [kW] 151.8 [44.5] 131.3 [38.5] 112.2 [32.91 167.6 [49.11 146.6 [43.0] 126.8 [37.2] 184.2 [54.0] 162.0 [47.5] 141.0 [41.3] o F Pawer 21.0 20.7 20.3 19.7 19.3 19.0 18.3 18.0 17.6 1`01 115 Total BTUH [kW] 208.5 [61.1] 201.2 [59.01 193.8 [56.8] 187.7 [55.0] 181.2 [53.1] 174.6 [51.2] 181.0 [53.0] 174.6 [51.2] 168.3 [49.31 146.11 Sens BTUH [kW1 148.5 [43.51 128.5 [37.71 109.8 [32.2] 164.3 [48.2] 143.8 [42.2] 124.4 [36.5] 180.9 [53.0] 159.1 [46.61 138.5 [40.61 Power 21.9 21.5 21.1 20.5 20.1 19.8 19.1 18.8 18.4 CONWITH UNITING RAWL-240 AIR RHGL-240 HANDLER ENTERING INDOOR AIR @ 801 [26.7°C] dbE OO wbE 71°F[21.7°CI 67°F[19.4'C] 637[17.2'C] Cl [LIS] 8643 [40781 7200 13398] 1 5760 [27181 8640 14078] 1 7200 [33981 5760 [27181 8540 0078] 1 7200 [33981 5760 [2718] OR OO .0 .01 .07 .0 .01 .07 .0 .01 .07 75 Total BTUH [kW] 299.6 [87.8] 289.1 [84.71 278.6 [81.61 286.3 [83.91 276.3 [81.01 266.2 (78.01 278.9 [81.71 269.2 [78.9] 259.4 [76.01 [23 91 Sens BTUH RW] 198.4 [58.2] 171.0 [50.11 145.5 [42.7] 229.1 [67.2] 199.5 [58.51 171.7 [50.3] 260.1 [76.2] 228.2 [66.91 198.0 [58.0] 0 Power 17.9 17.6 17.3 17.5 17.2 16.9 17.1 16.8 16.5 u 80 Total BTUH [kW] 292.6 [85.8] 282.3 [82.71 272.0 [79.7] 279.3 [81.9] 269.5 [79.01 259.7 [76.1] 271.9 [79.7] 262.4 [76.9] 252.8 [74.1] 0 [26 71 Sens BTUH 1kW1 194.7 [57.11 167.8 [49.2] 142.8 [41.9] 225.3 [66.01 196.3 [57.51 169.1 [49.61 256.4 [75.21 225.0 [66.0] 195.3 [57.2] o Power 18.9 18.6 18.3 18.5 18.2 17.8 18.1 17.7 17.4 R B5 Total BTUH [kW] 285.4 [83.61 275.4 [80.71 265.4 [77.8] 272.2 (79.81 262.6 [77.01 253.1 [74.2] 264.8 [77.61 255.5 [74.9] 246.2 [72.2] [29.4] Sens BTUH [kW] 191.0 [56.0] 1 164.7 [48.3] 140.3 [41.11 221.7 [65.0] 193.2 [56.6] 166.6 [48.8] 252.8 [74.1] 221.9 [65.0] 192.8 [56.5] Fi Power 20.0 19.6 19.3 19.6 19.2 18.9 19.1 18.8 1 18.5 y 90 Total BTUH [kW] 278.1 [81.5] 268.3 [78.61 258.6 [75.8] 264.8 [77.6] 255.5 [74.91 246.2 [72.2] 257.4 [75A] 248.4 [72.8] 239.4 [70.21 [32 2] Sens BTUH [kW] 187.3 [54.9] 161.5 [47.3] 137.6 [40.31 217.9 [63.91 190.0 [55.7] 163.8 [48.0] 249.0 [73.0] 218.7 [64.1] 190.1 [55.7] B U Pawer 21.1 20.8 20.4 20.7 20.3 20.0 20.3 19.9 19.6 L 95 Total BTUH [kW] 270.6 [79.3] 261.1 176.5] 251.6 [73.7] 257.3 (75.41 248.3 (72.81 239.3 [70.11 249.9 [73.21 241.2 [70.71 232.4 [68.1] G 1351 Sens BTUH [kW] 183.6 [53.8] 158.4 [46.4] 135.0 [39.6] 214.2 [62.8] 186.9 [54.81 161.3 [47.3] 245.2 [71.9] 215.6 [63.2] 187.5 [55.01 7 Power 22.3 21.9 21.5 21.9 . 21.5 21.1 21.5 21.1 20.7 E 100 Total BTUH [kW] 262.9 [77.0] 253.7 [74.4] 244.5 [71.7] 249.7 [73.21 240.9 [70.6] 232.2 [68.1] 242.3 [71.0] 233.8 [68.5] 225.3 [66.0] P 137.8] Sens BTUH RW] 179.7 [52.7] 155.2 [45.5] 132.4 [38.8] 210.5 [61.71 183.7 [53.81 158.7 [46.5] 241.5 [70.8] 212.4 [62.3] 184.9 [54.2] E Power 1 23.6 23.2 22.8 23.2 22.8 22.4 22.7 22.3 21.9 R 105 Total BTUH IkW1 255.1 [74.8] 246.2 [72.21 237.2 [69.51 241.9 [70.9] 233.4 [68.4] 224.9 [65.91 234.5 [68.7] 226.3 (66.31 218.0 [63.9] A [40.61 Sens BTUH 1kW1 176.1 [51.6] 152.2 [44.6] 129.8 [38.1] 206.9 [60.6] 180.7 [53.0] 156.1 [45.8] 234.5 [68.7] 209.4 [61.41 182.3 [53.4] U Power 24.9 24.5 24.1 24.5 24.1 23.6 24.1 23.6 23.2 e 110 Total BTUH [kW] 247.1 [72.4] 238.5 [69.9] 229.8 [67.31 233.9 [68.5] 225.7 [66.11 217.5 [63.7] 226.5 [66.41 218.6 [64.11 210.6 [61.71 [110 Sens BTUH [kW] 172.4 [50.51 149.1 [43.71 127.3 [37.31 203.1 [59.5] 177.6 [52.1] 153.6 [45.0] 226.5 [66.41 206.2 [60.4] 179.7 [52.71 'F Power 26.3 25.9 25.4 25.9 25A 25.0 25.5 25.0 24.6 rci 116 Total BTUH [kW] 239.0 [70.0] 230.6 [67.61 222.2 [65.11 225.8 [66.2] 217.9 [63.91 209.9 [61.5] 218.4 [64.01 210.7 [61.8] 203.1 159.5] [46.11 Sens BTUH [kWJ 168.7 [49.5] 145.9 [42.81 124.7 [36.6] 199.4 [58.4] 174.5 [51.2] 151.0 [44.3] 218.4 (64.0] 203.1 [59.51 177.3 [52.0] Power 27.8 27.3 26.8 27.3 26.9 26.4 26.9 26.5 26.0 DR -Depression ratio Total -Total capacity x 1000 BTUH dbE-Entering air dry bulb Sens -Sensible capacityx 1000 BTUH wbE-Entering air wet bulb Power -KW input 1 ] Designates Metric Conversions NOTES: (1) When the entering air dry bulb is other than 807 [270C], adjust the sensible capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE -80)]. ® Data includes 25 feet [7.62 m] of recommended suction/liquid lines. Ruud Heating, Cooling and Water Heating 15 RIGGING ROOFTOP INSTALLATION If rooftop Installation is required, make certain that the building construction is adequate for the weight of the unit. (Refer to physical data chart.) Before placing the unit on the roof, make certain that the nylon rigging slings are of sufficient length to maintain equilibrium of the unit when liff]ng. Under no circumstances should the unit be lifted by only one comer for rooftop installation. GENERAL INSTALLATION The condensing unit should be installed outdoors. It should be located as near as possible to the evaporator section to keep connecting refrigerant tubing lengths to a minimum. The unit must be installed to allow a free air flow to the condenser coils. If several units are installed adjacent to each other, care must be taken to avoid recirculation of air from one condenser to another. In all installations, adequate space must be provided for installation and servicing. CLEARANCES 1 I 36' min. [914 mm] I I '1' I I I 24'min. 24' min. [610mm] [610mm] IH H I 1 I 36' min. 1914 mm--------------- I I I SLAB INSTALLATION Condensing units should be set on a solid level foundation. When installed at ground level, the unit should be placed on a cement slab. If the pad is formed at the installation site, do not pour the pad tight against the structure, otherwise vibration will be transmitted from the unit through the pad. The unit must not be connected to any duct work. Do not locate unit under a roof drip; if necessary, install gutters, etc., to pre- vent water run-off from hitting the unit. To prevent air recircula- tion, it is recommended that the unit not be installed under an overhang, but if necessary allow a minimum of 60 inches 11524 mm] above the unit for air discharge. [ ] Designates Metric Conversions GENERAL TERMS OF LIMITED WARRANTY* Ruud will furnish a replacement for any part of this product which fails in normal use and service within the applicable periods stated, in accordance with the terms of the limited warranty. Compressor .......................................................Five (5) Years Any Other Part ...........................................:....One (1) Year Tor Complete Details of the Limited Warranty. Including Applicable7enns and Conditions, See Your Local Installer or Contact the Manufacturer for a Copy. 16 Ruud Heating, Cooling and Water Heating �I ,r TYPICAL REFRIGERA, _. r PIPING RECOMMENDATION! General Notes: 1. Vertical risers not to exceed 60 feet [18.29 mm]. 2. Locate the condensing unit and evaporator(s) as close together as possible to minimize piping runs. 3. Condensing units are shipped with a nitrogen holding charge. Evacuate condensing unit before charging with refrigerant. EQUIVALENT LENGTH (Fr.) [M] OF STRAIGHT TYPE "L" TUBING FOR NON-FERROUS VALVES AND FITTINGS (BRAZED) TUBE SIZE (IN.)[minl 0.0. SOLENOID VALVE ANGLE VALVE SHORT RADIUS ELL RADIUS ELL LONGb2.4[O.71 TEE BRANCH FLOW 112 [1271 70 [21.31 8.3 [2.51 1.6 [0.5] 1.0 [0.3]1 3.1 [0.9] 5/8115.881 72 [21.91 10.4 [3.2] 1.9 [0.61 12 [CA]] 3.6 [1.1] 314119.051 75 [22.91 12.5 [3.81 2.1 [0.7] 1A [OAl] 4.2 [1.31 3/8 [22.231 78 [23.81 14.6 [4.4] 2.4 [0.7] 1.6 [0.5]51 4.8 [1.5] 1118 [20.581 !.- '"•' 18.8 [5.71 3.0 [0.9] 2.0 [0.6]6] 6.011.81 1318 [34.931 '� , 22.9 [7.0] 3.6 [1.1] 2.4 [0.7]71 7.2 [2.2] 15/8 [41.28j .c;] 27.1 I8.31 4.2 [7.3] 2.810.8] 2.8 [0.8] 8.4 [2.6] 21/8153.981 35.4 [70.8] 5.311.61 1 3.511.11 1 3.5 [1.1] 10.713.31 LIQUID L EQUII i .INE PRESSURE DROP PER 100 FEET /ALENT LENGTH (TYPE L COPPER TUI a lezel °°. . 25 P6.31 T✓ � ss[526] �a. b ls5.r1 RB.,I 7[u.a) e[m.,] 5 m.61 �$ gta17 �/• °,� 311e61 rAb A• 25I69] °• °°pF� 217.0] a\•"y6 e 113.51 6 2.5 4 6 6 10 1 IV-112z-61 141.41 t5a21 1ee41 7. U3>'c] rta a 5 15 25 RO.n INIM 140.31 .. IMA 141A1 PRESSURE DROP-PSIG PdIal 30.48 m] 31NG) NOTES: 1) When evaporator troll is above condenser, the pressuredrop due to vertical lift (.5 PSIG per foot of lift) [1.05 kPa per meter] must be added to the pres- sure drop derived from this curve. 2) Size liquid fine for no more than IOoF [5.60C] loss (approximately 50 PSIG [206.8 kPa] total pressure drop). 3) Do not oversize liquid line. Oversized liquid lines add significantly to the amount of refrigerant required to charge the system. 4) The maximum recommended velocity with solenoid valves or other quick closing devices in the liquid line is 300 RPM (1.5 Ms]. [ 1 Designates Metric Conversions RECOMMENDED VAPOR AND LIQUID LINE SIZES TO VARIOUS LENGTH OF RUN EQUIVALENT LENGTH TO EVAPORATOR (FT.)fell LIQUID LINE O.D. (IN.) Imml VAPOR LINE O.D. (IN.) fmml COOLING MODEL COOLING MODEL 120 125 120 125 1-15 [1-4.571 5/8115.91 5/a [15.91 13/a [34.91 1318134.91 16-5014.88-16.241 5/8115.91 5/8 [15.91 13/8 [34.91 13/8 [34.91 51-100115.54-30.481 5/8 (15.91 518 [15.9] 13/a [34.91 13/8(34.91 101-150 [30.7845.721 5/8 (15.9] 1 5/8 [15.9] 15/8141.31 1 15/8 [41.3] RECOMMENDED VAPOR AND LIQUID LINE SIZES TO VARIOUS LENGTH OF RUN EQUIVALENT LENGTH TO EVAPORATOR (FT.)[m] LIQUID LINE O.D. (IN.) fmm] VAPOR LINE O.D. (IN.) [mm1 COOLING MODEL COOLING MODEL 550 180 240 150 180 240 1-15 [1457] 5/a [15.9] 5/8115.91 7/8[222j 13/8 [34.9] 15/e [41.3] 15/8141.31 16-50 [4.88-15.241 5/8 [15.91 5/8 [15.91 3/8122.21 15/8 [41.31 15/8 [41.31 1516141.31 51-100 [15.54-30.48] 5/e [75.9] 3/4 I79.1] 7/8122.21 15/a [41.31 15/a [41.3] 2Va [53.9] 101-150 [30.78-45.721 Z. [75.91 3/d [19.1 ] 2/e [2221 2+1a [53.9] 21/s [53.9] 21/8 [53.91 NOTE: Runs between condenser and evaporator not to exceed an equiva- lent length greater than 150 [45.7 m] feet. It; VAPOR LINE SYSTEM CAPACITY LOSS IN PERCENT PER 100 FEET [30.48 m] EQUIVALENT LENGTH (TYPE L COPPERTUBING) M■■N■E\I ■■■■�►�1111�■ moull km 5•\� I� .:i� \5I . i�.owMiLgmm Imo...\I'M iuu� U8S1 ■m; ice■ 1m■ M■ �ME �1 W211111111 MINIM l�III-!mom ..AI1m■ A■_ ossonimm .1 .15 2 25 .3 A A 4.7 As 1.0 14 2 25 3 4 5 5 7 0 010 15 20 CAPACITY LASS IN PERCENT I%) NOTES: 1) The minimum velocity line (700 fpm) [3.6 Ms] is recommended. 2) For vapor pressure drop (PSIG) [6.9 kPa], multiply percent (/) loss by 1.18. 3) Size vapor lines for no more than 2°F tl.1"C] loss which corresponds to approximately 5 PSIG 120.7 kPa] pressure drop. 4) Pitch all horizontal vapor lines downward in the direction of flow (1/2' (12.7 mm] tol0' [3.0 m] run). WARNING Do not use oxygen to purge lines or pressure system for leak test. Oxygen reacts violently with oil, which can cause an explosion resulting in severe personal injury or death. Ruud Heating, Cooling and Water Heating 17 TYPICAL REFRIGERANT Fir NG RECOMMENDATIONS (cook., COIL ABOVE CONDENS7;; UNIT T% L s � CpNp NOTE: LIQUID LINE SOLENOID VALVE MUST NOT BE INSTALLED FOR PUMP DOWN. LIQUID LINE SOLENOID VALVE MAY BE INSTALLED FOR"REFRIGERANT ISOLATION" ONLY DURING THE OFF-CYCLE.THE SOLENOID VALVE SHOULD BE CLOSED WHENTHE THERMOSTAT IS SATISFIED (VALVE CLOSED WHEN "Y" IS DE -ENERGIZED) FOR EFFECTIVE "REFRIGERANT ISOLATION". REQUIRED OZS. [91 R410A CHARGE PER FT. [m] OFTUBING TUBE SIZE O.D. (IN.) [mm] "LIQUID ' (OZ.) [g] VAPOR (OZ.) 191 1/2 [12.71 1.06 [30.01 .04 [1.131 5/8[15.881 1.65146.71 .07 [1.981 314 [19.051 2.46 [69.71 .10 [2.83] 7/e [22.231 328 [92.91 .13 [3.68] 1118[28.50] .22 [6.23] 13/8 [34.931 .34 [9.63] 15/8 [41.281 .48 [13.60] 2Vs [53.98] .84 [23.81] Quantities based on 110"F liquid and 45°F vapor. BASIC SYSTEM CHARGE* RAWL-120 RAWL-125 BAWL-150 RAWL-180 RAWL-= 339 oz. [9610 g] 300 oz. [8505 9] 378 oz. [10716 91 506 oz. [14345 91 655 oz. [18569 9] 'System with 0 feet [m] of tubing. [ I Designates Metric Conversions 18 Ruud Heating, Cooling and Water Heating TYPICAL WIRING SC', VATIC-RAWL-12010T0N [3 _, RW] LNG r r NO WG 2 3 DISC CIO L 6 L2 6 2 L] —P.I� 0 IEL q FIELD Ip SUPPLIED 1 12 1] IA 15 I6 1> IB 19 20 21 22 23 TH zA n zs I z6 I 0-1 — 'I_ — — zfi I rI I 31 I 32 33 ]I 35 36 ]1 3B 31 AR II At M = COMPONENT CODE NOTES: WIRE COLOR CODE a a CONPEssm CONTACTOR 1. A XENEIIT VqE s NSES EEsr az WIRING INFORMATION BK BLACK 0 ORANGE • IXx ERaw6 M NEATER SAKE ruff 0 si AS ORIGINAL. LINE VOLTAGE BR BROWN PR PURPLE CT"" COMPRESSOR 2' 6 I�ORN BE ffKE�C.e nLL¢a -FACTORY STANDARD BL BLUE R RED -D TTRRANSFpNER OWES. -FACTORY OPTION _____ I G15[ FAN MOTOR QSWITCHONTX FC FAO Norm WxTxmR 1 N? .. IN Ru91 VA NOT ro EI�FO A2 vA. -FIELD INSTALLED — — — — — G GREEN W WHITE A A, n5m 512E BASED m LOW VOLTAGE Gv GRAY v YELLOW N HIT HERION w HEATER G s 25 OEmEEs [ IH9EArim OIWFA VIBE -FACTORY STANDARD WIRING SCHEMATIC I, O, AMBIENT Lt LOWrMEiSSUNEMwL WL PeESURE WxTwL -FACTORY OPTION ----- (a LNIGHOW cunxW LPc wr -FIELD INSTALLED — — — — — - , L STRIP T nCrK STRIP an DurWm FAO norm REPLACEMENT WIRE CONDENSING UNIT M e w Rm CNEIrm -MUST 9E THE SAME SIZE AND TYPE OF 10 TON R MAY Im HfmDU ra ruL BLOCK2BB-230. INSULATION AS ORIGINAL E105 C MIN.) 460. 575. 3PH 50 4 60 HZ a rx TIFEULAT roc nnC G6wv CYvrwL WgCNING -CAB MET MUST BE PEflMANENTLY ABIN 3BO.3PH.60 HZ ^ Chi' THIN ROTOR SWETT NERHOSTA1 TOR THERM OVERLOAD RELAY GROUNDED AND CONFORM TO LE.C..N.E.C.. R. ET P v OATS OWG.NO. v 29 ur WIRE NOT C.E.C.. AND LOCAL CODES AS APPLICABLE. a 1m-w-m 90-42663-10 00 Ruud Heating, Cooling and Water Heating 19 i, ; I TYPICAL WIRING SCHEM , - RAWL-125,150,180, 240 10TON [35.2144.0, 52.% 70.3 kW] Orm 2ONO_ UG 3 DEsc TR cn K LI �^ 1 BK—ILI—BK� �IT] BK 6 L2 � 2 BK—IL IT2 COMPI 6 i LJ ---- 0-C— 3 fiK—IL] li3 BN e L y 9 FIELD 0 BK LCHI 10 SUPPLIED BK 11 CC2 Ix —2T1 BK 13 2L2—BK� 2T2 COMP2 1. 15 BLI 81_2 3—BK---- Zi] I6 AUX 2 p-p BK CCH2 IR 19 20 B BK LAC BK RCI 21 2] CT 23 24 1 # THIRD FAN 25 24V REOUIREO ON OFM1 26 15120 TON ONLY. RC2 27 26 29 MPC LAC R 30 FM2 31 u - � flC3 � 333 4—�� 335 6 THI I 6 Yll m _.R R o—F-- CC I I L___—_OFM3 ___J 37 I 3. I I o-2� - -1] 6 K CD2 391 e I TUC R .2 I G, AX BR 43 I r----,---------- I Wo-L _� -� XR � = COMPONENT CODE NOTES: WIRE COLOR CODE WIRING INFORMATION BK BLACK 0 ORANGE o • IX [aRWS6m CONTACTOR mH CRANKCASE WATER I, iEPLA[E NI MIRE 6 ME5 MST BE SAHIE I11Pc 6 5rzE AS CRIGIxAL. LINE VOLTAGE BR GROWN PR PURPLE COW COMPRESSOR 2. UNIT HST M PERMANENTLY GROUNDED -FACTORY STANDARD BL BLUE R RED .0 B CT CWR3L IRANSFORER DISC D¢CORAWCT SWITCH a CONFORM To M.c.E Lax roofs. ] MRIHN IN MUSH MI TO EXCEED -FACTORY OPTION — • --- 'G GREEN W WHITE I FC FAN MOTOR CINTACTm 1A 92 1A. -FIELD INSTALLED - - - - - GY GRAY Y YELLOW ? N OHO GROUND W WATER MAI I. WHINUN WIRE SITE BASED ON 15 DEGREES E INSULATION COPPER WIRE. LOW VOLTAGE WIRING SCHEMATIC "` M'm�S�E�'ROL LAC LOW AMMR cCnRa -FACTORY STANDARD -FACTORY OPTION — -_-__--__ m m LOWMET PIErnW caRML -FIELD INSTALLED � HIS M O FAN mn MOM FAN norm REPLACEMENT WIRE CONDENSING UNIT m CA R RWLAETAY.IIOR -MUST BE THE SAME SIZE AND TYPE OF 10, 16 EI 20 TON MAMMALTWANUS iION AS ORIGINAL f105"C MIN.) INSULATION 208-230. 0. 460,, 575, 3PH 50 & 60 HZ iM A1L� WARNING 380, 380. 3PH, 60 HZ TUC TINE DEWY MFRC_ -CABINET MUST BE PERMANENTLYDED INN MTCR SAFETY THERMSTAT AND CONFORM TO I.E.0 . P.Br DAreB CW90-42663-08 (mJl im vwEl�LarlERLmOREUY C.E.L,GROU,AND LOCAL CODES AS APPLICA6 E.IuR wRY 05 20 Ruud Heating, Cooling and Water Heating SEQUENCE OF OPERi -_-:JN RAWL-120, Single Stage 1. When the room thermostat is set on "Cool", "Fan Auto", and the temperature is higher than the thermostat setting, the thermostat "Y1" circuit closes and energizes the compres- sor contactor (CC) through the closed contacts of the high pressure and low pressure controls. Power to the crankcase heater (CCH) will be de -energized by the auxil- iary contacts (AUX-1) 2. Simultaneously, the "G" circuit provides power to the Indoor blower motor circuit and starts indoor air circulation through the evaporator coil. 3. When the discharge pressure increases to 450 psig, the contacts on the low ambient control (LAC) will allow supply power to start the outdoor fan motors (ODF) which begin to pull air through the condenser coils. SEQUENCE OF OPERATION RAWL-125,150,180, 240,Two Stage 1. When the room thermostat is set on "Cool", "Fan Auto", and the temperature is higher than the thermostat setting, the thermostat "Y1" circuit closes and energizes the number one compressor contactor (CC1) through the closed cool- ing relay (R) contacts. Power to the crankcase heater (CCH1) will be de -energized by the auxiliary contacts (AUX-1). 2. Simultaneously, the "G" circuit provides power to the indoor blower motor circuit and starts indoor air circulation through the evaporator coil. 3. When the discharge pressure increases to 450 psig, the contacts on the low ambient control (LAC) will allow supply power to start the outdoor fan motors (ODF) which begin to pull air through the condenser coils. The system is now in first stage cooling, operating at near fifty percent of full load capacity. 4. If the temperature at the thermostat continues to increase, the thermostat "Y2" circuit closes and after a 30 second delay, power passes through the time delay control (TDC) and energizes the number two compressor contactor (CC2) through the second set of closed cooling relay (R) contacts. Power to the crankcase heater (CCH2) will be de -energized by theauxiliary contacts (AUX-2) ( I Designates Metric Conversions 4. The system will continue cooling operation, as long as the room thermostat "Y11" circuit and all safety device contacts are closed. The low ambient control (LAC) will open and close, allowing the outdoor fans to maintain discharge pres- sure between 250 and 450 psig. 5. When the thermostat is satisfied, the "Y1" circuit will open and de -energize the compressor contactor (CC), stopping compressor operation and closing the auxiliary contacts (AUX-1), which energizes the crankcase heater (CCH). 6. The thermostat "G" circuit will stop blower operation. 5. The system will continue cooling at maximum capacity, as long as the room thermostat is demanding full load and all safety device contacts are closed. The low ambient control (LAC) will open and close, allowing the outdoor fans to maintain discharge pressure between 250 and 450 psig. 6. As the temperature at the thermostat drops enough to sat- isfy "Y2", the circuit will open and de -energize the compres- sor contactor (CC2), stopping compressor operation and closing the auxiliary contacts (AUX-2), which energizes the crankcase heater (CCH2). 5. When continued cooling satisfies the "Y1" circuit, it will open and de -energize the compressor contactor (CC1), stopping compressor operation and closing the auxiliary contacts (AUX-1), which energizes the crankcase heater (CCH1). 6. The thermostat "G" circuit will stop blower operation. Ruud Heating, Cooling and Water Heating 21 SAMPLE SPECIFICATIONS Furnish and install as shown on the drawing Ruud Model air cooled condensing unit suitable for out- door application. COMPRESSOR —Unit shall have scroll compressor(s). It shall be externally mounted on rubber grommets to reduce vibration transmission and noise to surrounding area. Maximum power input shall not be more than at conditions specified. LOW AMBIENT CONTROL —All units shall have standard head pressure controls that cycle the condenser fan motors to maintain condensing pressures for operation down to 0'F [-17.8°C] ambient (12.5 and 15 ton 144.0 and 52.8 kWj models only.) CAPACITY —Capacity shall be BTU/H when oper- ating at OF rq saturated suction temperature. MOTORS & FANS —Each unit shall have 1075 RPM sleeve bearing, permanently lubricated motor(s) fixed with direct - drive, dual bladed fan(s). Motor(s) shall be equipped with inherent overload protection. Motor(s) & fan(s) shall be mounted on top panel for easy access. Condenser air shall discharge vertically. COILS —Coils shall be fabricated of 3/8° [9.53 mm] O.D. seam- less copper tubing and aluminum fins with die -formed collars mechanically bonded to tubes arranged in a staggered pat- tem. All coils shall be submitted to a pressure test after fabri- cation and dehydrated. Units shall be shipped with a dry nitro- gen holding charge. Airflow shall be drawn through design providing uniform air distribution across the coil surface. [ ] Designates Metric Conversions CASINGS —Casings shall make unit suitable for outdoor installation. Casing, base pan and framework shall be manu- factured of galvanized sheet metal subjected to multistage cleaning, primed, and finished with a durable powder coat paint, capable of withstanding a 1000-HR salt spray test per ASTM B 117. Units shall have stamped louver panels offering 100% protection of the condenser coil. Openings shall be pro- vided for power. Dimensions of entire assembly shall be not more than _ inches [mm] high, _ Inches [mm] long and Inches [mm] wide. REFRIGERATION CIRCUIT —Shall include the compressor, the condenser coils, all Internal refrigerant piping and liquid and suction line service valves. Refrigerant stubs shall be extended through the cabinet for external field connection without affecting accessibility to compressor compartment. CONTROL PANEL —The panel shall be designed for single power source to the compressor and fan motor(s) and shall include fan cycling control, and compressor contactor. SAFETY CONTROLS —Manual reset high pressure and auto- matic reset low pressure control shall be provided. FACTORY TESTING —All units shall be test run at the factory 22 Ruud Heating, Cooling and Water Heating Ruud Heating, Cooling and RI�IIJD Water Heating Before proceeding with installation, refer to Installation instructions packaged With each model, as well as complying with all Federal, State, Provincial, and Local codes, regulations, and practices. P.O. Box 17010, Fort Smith, AR 72917 "in keeping with its policy of continuous progress and product Improvement, Ruud reserves the light to make changes without notice." PRINTED IN U.S.A. 4-10 DO FORM NO. A22-193 REV. 3 S.P..ede. Form Na. A22.193 R.v.2