Performance Data Sheet
AWG5524WXT
General Information
Model AWG5524WXT Refrigerant R407C/R22
Test Condition ARI (R22) Test Voltage 230V 3~ 60HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type 3PH
Performance Information
Evap Temp (°F)
-15
-10
-5
0
5
10
15
20
Condensing Temperature (°F)
80 90 100 110 120 130 140 150
Btu/h 5790 4830
Watts 978 947
Amps 3.48 3.40
Lb/h 74.1 65.0
Btu/h 7510 6520 5470
Watts 1090 1080 1060
Amps 3.71 3.66 3.62
Lb/h 95.9 86.9 76.6
Btu/h 9310 8260 7170 6040
Watts 1190 1190 1190 1180
Amps 3.91 3.90 3.89 3.87
Lb/h 118 109 99.1 87.6
Btu/h 11200 10100 8920 7740 6530
Watts 1280 1300 1310 1320 1320
Amps 4.08 4.11 4.14 4.16 4.16
Lb/h 141 132 122 111 98.2
Btu/h 13200 12000 10800 9510 8240
Watts 1350 1390 1420 1450 1460
Amps 4.23 4.30 4.37 4.43 4.47
Lb/h 165 156 146 135 122
Btu/h 15300 14000 12700 11400 10000 8660 7290
Watts 1420 1470 1520 1570 1600 1620 1620
Amps 4.37 4.47 4.58 4.67 4.76 4.80 4.81
Lb/h 191 181 171 160 147 134 119
Btu/h 17500 16100 14700 13300 11900 10400 9000
Watts 1470 1540 1610 1670 1720 1760 1790
Amps 4.48 4.62 4.76 4.90 5.02 5.12 5.17
Lb/h 217 208 198 186 174 160 145
Btu/h 19900 18400 16900 15400 13900 12300 10800 9270
Watts 1520 1610 1690 1770 1840 1890 1940 1960
Amps 4.58 4.75 4.93 5.11 5.27 5.41 5.51 5.56
Lb/h 246 236 225 214 201 187 173 157
Btu/h 22600 20900 19300 17600 16000 14300 12700 11100
25
30
35
40
45
50
55
Watts 1560 1660 1760 1850 1940 2010 2080 2120
Amps 4.66 4.87 5.08 5.30 5.50 5.69 5.83 5.93
Lb/h 276 266 255 243 230 216 202 186
Btu/h 25400 23600 21800 20000 18300 16500 14700 13000
Watts 1590 1710 1820 1930 2040 2130 2210 2270
Amps 4.73 4.97 5.22 5.48 5.72 5.95 6.14 6.28
Lb/h 309 298 287 274 261 247 232 216
Btu/h 28400 26500 24600 22600 20700 18800 16900 15100
Watts 1620 1750 1880 2000 2120 2230 2330 2410
Amps 4.78 5.06 5.35 5.64 5.93 6.19 6.43 6.62
Lb/h 344 333 321 308 294 280 265 249
Btu/h 31700 29600 27500 25400 23400 21300 19300 17300
Watts 1640 1780 1930 2070 2200 2330 2440 2550
Amps 4.83 5.14 5.46 5.79 6.12 6.43 6.71 6.94
Lb/h 382 370 357 344 330 315 300 283
Btu/h 35300 33000 30700 28500 26200 24000 21800 19600
Watts 1650 1810 1970 2130 2280 2420 2550 2670
Amps 4.87 5.21 5.57 5.93 6.30 6.65 6.97 7.26
Lb/h 422 409 396 382 368 353 337 320
Btu/h 39100 36700 34200 31700 29300 26900 24600 22200
Watts 1670 1840 2010 2180 2350 2500 2650 2790
Amps 4.89 5.27 5.66 6.07 6.47 6.86 7.23 7.56
Lb/h 466 452 438 424 409 393 377 360
Btu/h 43300 40600 37900 35300 32700 30100 27500 25000
Watts 1680 1860 2050 2230 2410 2580 2750 2900
Amps 4.92 5.32 5.75 6.20 6.64 7.07 7.48 7.86
Lb/h 513 498 483 468 452 436 419 402
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 1.826734E+04 1.185945E+03 5.268317E+00 1.750161E+02
C2 5.356825E+02 -6.069039E+00 -8.638939E-03 5.335864E+00
C3 -6.373487E+01 -2.894974E+00 -4.497254E-02 -4.790434E-02
C4 4.256283E+00 -1.619750E-01 -3.859796E-04 3.313021E-02
C5 -2.308259E+00 2.265403E-01 3.394641E-04 -1.379487E-02
C6 -3.639058E-01 8.452571E-02 5.346767E-04 -4.127280E-03
C7 2.747443E-02 1.096170E-03 2.220456E-06 3.137292E-04
C8 -2.686270E-02 -7.833635E-04 -6.947015E-07 -1.640202E-04
C9 5.322314E-03 6.627812E-04 2.231035E-06 7.428285E-05
C10 6.678262E-04 -4.278339E-04 -1.975234E-06 -6.751217E-06
Value = C1 + C2 * Te + C4 * Te^2 + C7 * Te^3 + (C3 + C5 * Te + C8 * Te^2) * Tc + (C6 + C9 * Te) * Tc^2 + C10 * Tc^3
Te = Evaporator Temperature
Tc = Condensing Temperature