Tecumseh AWG5530EVA Performance Data Sheet

Performance Data Sheet

AWG5530EVA

General Information

Model AWG5530EVA 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 6780 5910
Watts 1110 1160
Amps 5.86 6.04

Lb/h 87.2 79.4

Btu/h 8290 7380 6490
Watts 1180 1240 1280
Amps 6.21 6.43 6.56

Lb/h 106 98.4 90.5

Btu/h 9880 8920 7980 7040
Watts 1260 1320 1370 1400
Amps 6.54 6.79 6.97 7.08

Lb/h 126 118 110 102

Btu/h 11600 10600 9550 8550 7560
Watts 1330 1400 1460 1500 1520
Amps 6.84 7.14 7.37 7.52 7.61

Lb/h 147 139 131 122 113

Btu/h 13400 12300 11200 10100 9080
Watts 1390 1470 1540 1590 1620
Amps 7.12 7.47 7.74 7.95 8.09

Lb/h 169 161 153 144 135

Btu/h 15400 14200 13000 11800 10700 9540 8400
Watts 1450 1540 1620 1680 1730 1760 1780
Amps 7.38 7.77 8.09 8.35 8.56 8.71 8.83

Lb/h 192 184 176 167 157 147 137

Btu/h 17500 16200 14900 13700 12400 11200 9930
Watts 1500 1600 1690 1770 1830 1880 1910
Amps 7.61 8.04 8.42 8.74 9.00 9.23 9.41

Lb/h 217 209 200 191 182 171 160

Btu/h 19800 18400 17000 15600 14300 12900 11600
Watts 1550 1660 1760 1850 1930 2000 2050
Amps 7.80 8.29 8.72 9.10 9.43 9.72 9.98

Lb/h 244 235 226 217 207 197 185

Btu/h 22200 20800 19300 17800 16300 14800 13300

25

30

35

40

45

50

55

Watts 1590 1710 1820 1930 2020 2110 2180
Amps 7.97 8.51 9.00 9.44 9.84 10.2 10.5

Lb/h 273 264 255 245 235 224 212

Btu/h 24900 23300 21700 20100 18500 16900 15200
Watts 1620 1750 1880 2000 2110 2220 2310
Amps 8.11 8.71 9.25 9.76 10.2 10.7 11.1

Lb/h 304 295 285 275 264 253 240

Btu/h 27900 26100 24300 22600 20800 19100 17300
Watts 1640 1790 1930 2070 2200 2320 2430
Amps 8.22 8.87 9.48 10.0 10.6 11.1 11.6

Lb/h 337 328 318 307 296 284 271

Btu/h 31000 29100 27200 25300 23400 21500 19600
Watts 1660 1820 1980 2130 2270 2420 2550
Amps 8.29 9.00 9.68 10.3 10.9 11.5 12.1

Lb/h 373 364 353 342 330 318 304

Btu/h 34500 32400 30300 28300 26200 24100 22000
Watts 1670 1840 2010 2180 2350 2510 2670
Amps 8.33 9.10 9.84 10.5 11.2 11.9 12.6

Lb/h 412 402 391 380 367 354 340

Btu/h 38200 35900 33700 31400 29200 26900 24700
Watts 1680 1860 2040 2230 2410 2600 2780
Amps 8.34 9.17 9.98 10.8 11.5 12.3 13.0

Lb/h 454 444 432 420 407 393 378

Btu/h 42200 39800 37300 34900 32500 30000 27600
Watts 1670 1870 2070 2270 2480 2680 2880
Amps 8.30 9.20 10.1 10.9 11.8 12.6 13.4

Lb/h 500 488 476 463 450 435 420

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 2.044233E+04 2.536465E+02 1.150637E+00 2.132053E+02
C2 4.487713E+02 1.351558E+01 2.328930E-02 4.176675E+00
C3 -1.204748E+02 1.743853E+01 1.138720E-01 -1.012550E+00
C4 4.174621E+00 -1.870407E-01 -8.526838E-04 3.185098E-02
C5 -1.110471E+00 -1.531365E-01 8.201881E-05 3.536530E-03
C6 1.457295E-01 -3.611786E-02 -6.019332E-04 3.731961E-03
C7 2.359014E-02 -4.421327E-04 -1.637969E-06 2.680642E-04
C8 -2.174530E-02 1.075753E-03 4.481410E-06 -9.303310E-05
C9 -1.385774E-03 1.862971E-03 4.505569E-06 -3.021713E-05

C10 -3.035120E-04 -1.791309E-04 8.468730E-07 -1.850595E-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