Performance Data Sheet
AWG5528EVA
General Information
Model AWG5528EVA Refrigerant R-22
Test Condition ARI Performance Test Voltage 220V ~ 50HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type PSC
Performance Information
Evap Temp (°F)
-15
-10
-5
0
5
10
15
20
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 6750 5920
Watts 1040 1080
Amps 5.40 5.54
Lb/h 86.9 79.6
Btu/h 8010 7150 6290
Watts 1120 1170 1190
Amps 5.75 5.92 6.03
Lb/h 103 95.3 87.7
Btu/h 9400 8480 7570 6670
Watts 1190 1240 1280 1300
Amps 6.08 6.29 6.44 6.52
Lb/h 120 112 105 96.4
Btu/h 10900 9940 8960 8000 7050
Watts 1260 1320 1360 1400 1410
Amps 6.39 6.63 6.82 6.96 7.03
Lb/h 138 131 123 114 106
Btu/h 12600 11500 10500 9440 8410
Watts 1320 1390 1440 1490 1520
Amps 6.66 6.95 7.19 7.37 7.50
Lb/h 158 151 143 134 125
Btu/h 14400 13300 12100 11000 9900 8780 7660
Watts 1370 1450 1520 1580 1620 1640 1650
Amps 6.91 7.24 7.53 7.77 7.96 8.09 8.17
Lb/h 180 172 164 155 146 136 125
Btu/h 16400 15200 13900 12700 11500 10300 9080
Watts 1420 1510 1590 1660 1720 1760 1780
Amps 7.12 7.51 7.85 8.14 8.39 8.60 8.74
Lb/h 204 196 187 178 168 158 147
Btu/h 18600 17200 15900 14600 13300 11900 10600
Watts 1460 1560 1650 1740 1810 1870 1910
Amps 7.31 7.74 8.14 8.50 8.81 9.08 9.30
Lb/h 229 221 212 203 193 182 170
Btu/h 21000 19500 18100 16600 15200 13700 12300
25
30
35
40
45
50
55
Watts 1500 1610 1710 1810 1900 1980 2040
Amps 7.46 7.95 8.40 8.82 9.20 9.55 9.85
Lb/h 257 248 239 229 219 208 196
Btu/h 23500 22000 20400 18800 17300 15700 14100
Watts 1530 1650 1770 1880 1980 2080 2160
Amps 7.59 8.13 8.64 9.12 9.58 9.99 10.4
Lb/h 287 277 268 258 247 235 223
Btu/h 26300 24600 22900 21200 19500 17800 16100
Watts 1550 1680 1810 1940 2060 2180 2280
Amps 7.67 8.27 8.85 9.40 9.92 10.4 10.9
Lb/h 319 309 299 289 277 265 252
Btu/h 29300 27500 25600 23800 22000 20100 18300
Watts 1560 1710 1850 2000 2140 2270 2400
Amps 7.72 8.38 9.03 9.65 10.2 10.8 11.4
Lb/h 353 343 333 322 310 297 284
Btu/h 32600 30600 28600 26600 24600 22600 20600
Watts 1570 1730 1890 2050 2210 2360 2510
Amps 7.74 8.46 9.17 9.87 10.5 11.2 11.8
Lb/h 390 380 369 357 345 332 318
Btu/h 36100 33900 31800 29600 27500 25300 23100
Watts 1560 1740 1910 2090 2270 2440 2610
Amps 7.72 8.51 9.29 10.1 10.8 11.6 12.3
Lb/h 430 419 408 396 383 369 354
Btu/h 39900 37500 35200 32900 30500 28200 25800
Watts 1550 1740 1930 2130 2320 2520 2710
Amps 7.66 8.51 9.37 10.2 11.1 11.9 12.7
Lb/h 472 461 449 436 423 409 393
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 1.952885E+04 5.414161E+02 2.658634E+00 2.044322E+02
C2 4.213379E+02 1.188296E+01 2.646635E-02 3.932260E+00
C3 -1.185539E+02 8.819988E+00 6.315948E-02 -1.037144E+00
C4 4.461292E+00 -2.010244E-01 -9.654411E-04 3.673960E-02
C5 -1.197655E+00 -1.260585E-01 9.114465E-06 9.940855E-04
C6 1.696210E-01 2.990497E-02 -1.757056E-04 4.318458E-03
C7 1.569225E-02 -5.270091E-04 -1.504271E-06 1.642597E-04
C8 -1.936041E-02 1.217126E-03 5.205277E-06 -6.880772E-05
C9 -1.071592E-03 1.696317E-03 4.787238E-06 -2.388141E-05
C10 -4.050341E-04 -3.577875E-04 -3.928706E-07 -2.112104E-05
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
Performance Data Sheet
AWG5528EVA
General Information
Model AWG5528EVA Refrigerant R-22
Test Condition ARI Performance Test Voltage 265V ~ 60HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type PSC
Performance Information
Evap Temp (°F)
-15
-10
-5
0
5
10
15
20
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 7060 6160
Watts 1310 1330
Amps 5.17 5.18
Lb/h 91.0 82.7
Btu/h 8690 7720 6770
Watts 1410 1440 1450
Amps 5.55 5.60 5.62
Lb/h 111 103 94.3
Btu/h 10500 9430 8400 7390
Watts 1500 1540 1560 1580
Amps 5.90 6.00 6.06 6.09
Lb/h 134 125 116 107
Btu/h 12400 11300 10200 9080 7980
Watts 1590 1630 1670 1690 1710
Amps 6.23 6.37 6.48 6.56 6.61
Lb/h 157 149 139 130 120
Btu/h 14600 13300 12100 10900 9720
Watts 1670 1720 1770 1810 1840
Amps 6.53 6.72 6.88 7.01 7.11
Lb/h 183 174 165 155 144
Btu/h 16900 15600 14200 12900 11600 10300 9010
Watts 1740 1810 1870 1920 1960 1990 2010
Amps 6.80 7.04 7.25 7.44 7.60 7.72 7.81
Lb/h 211 202 192 182 171 159 147
Btu/h 19400 18000 16500 15100 13700 12200 10800
Watts 1810 1890 1960 2030 2080 2130 2170
Amps 7.05 7.34 7.60 7.84 8.06 8.24 8.39
Lb/h 241 231 221 211 200 188 175
Btu/h 22100 20500 19000 17400 15900 14300 12800
Watts 1880 1960 2050 2130 2200 2260 2320
Amps 7.28 7.61 7.93 8.23 8.50 8.74 8.95
Lb/h 273 263 253 242 230 218 205
Btu/h 25000 23300 21600 20000 18300 16600 14900
25
30
35
40
45
50
55
Watts 1930 2030 2130 2230 2310 2390 2460
Amps 7.48 7.86 8.23 8.58 8.91 9.22 9.49
Lb/h 307 297 286 275 263 250 237
Btu/h 28200 26300 24500 22700 20800 19000 17200
Watts 1980 2100 2210 2320 2420 2520 2610
Amps 7.65 8.09 8.51 8.92 9.30 9.67 10.0
Lb/h 343 333 322 310 298 285 271
Btu/h 31600 29600 27600 25600 23600 21600 19600
Watts 2030 2150 2280 2400 2520 2640 2750
Amps 7.79 8.28 8.76 9.23 9.67 10.1 10.5
Lb/h 382 371 360 348 335 322 307
Btu/h 35200 33000 30900 28700 26600 24400 22200
Watts 2060 2200 2340 2480 2620 2750 2880
Amps 7.91 8.46 8.99 9.51 10.0 10.5 11.0
Lb/h 423 412 400 388 375 361 346
Btu/h 39000 36700 34400 32000 29700 27400 25100
Watts 2080 2240 2390 2550 2710 2860 3010
Amps 8.01 8.60 9.19 9.77 10.3 10.9 11.4
Lb/h 467 455 443 431 417 403 387
Btu/h 43100 40600 38100 35600 33100 30600 28100
Watts 2100 2270 2440 2610 2790 2960 3130
Amps 8.07 8.72 9.37 10.0 10.6 11.3 11.9
Lb/h 513 501 489 475 462 447 431
Btu/h 47400 44800 42100 39400 36700 34000 31300
Watts 2110 2290 2480 2670 2860 3060 3250
Amps 8.11 8.82 9.52 10.2 10.9 11.6 12.3
Lb/h 562 550 537 523 509 493 477
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 2.269232E+04 1.145739E+03 4.326954E+00 2.367416E+02
C2 5.473796E+02 1.087316E+01 6.897752E-03 5.204903E+00
C3 -1.460380E+02 4.111215E+00 2.881576E-02 -1.277598E+00
C4 4.915439E+00 -1.793369E-01 -6.342329E-04 4.048149E-02
C5 -1.608248E+00 -3.246529E-02 4.872432E-04 -1.306120E-03
C6 2.784928E-01 4.284346E-02 -2.705180E-05 5.726405E-03
C7 1.067103E-02 -5.734404E-04 -2.965938E-07 9.976884E-05
C8 -1.720904E-02 9.774803E-04 1.671637E-06 -3.441304E-05
C9 -1.467212E-03 1.329804E-03 2.621714E-06 -1.928058E-05
C10 -6.908510E-04 -3.171815E-04 -4.547662E-07 -2.676116E-05
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
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