Tecumseh AWZ5520EXN User Manual

Performance Data Sheet

AWZ5520EXN

General Information

Model AWZ5520EXN Refrigerant R22
Test Condition ASHRAE Test Voltage 208-230V ~ 60HZ
Return Gas 35°C (95°F) RETURN GAS Motor Type PSC

Performance Information

Evap Temp (°F)

-15

-10

-5

0

5

10

15

20

Condensing Temperature (°F)

80 90 100 110 120 130 140 150

Btu/h 1810
Watts 463 387
Amps

Lb/h 252 254

Btu/h 5110 1580
Watts 696 596 601
Amps 0.49

Lb/h 217 219 216

Btu/h 8100 4710 1950
Watts 906 786 771 831
Amps 2.63 1.45 0.63 0.11

Lb/h 192 193 190 184

Btu/h 10800 7560 4910 2760 961
Watts 1100 956 925 970 1060
Amps 4.31 3.26 2.58 2.17 1.96

Lb/h 177 177 174 168 158

Btu/h 13400 10200 7620 5540 3820
Watts 1270 1110 1060 1100 1180
Amps 5.59 4.67 4.11 3.81 3.71

Lb/h 170 170 166 160 150

Btu/h 15800 12600 10100 8100 6430 4970 3580
Watts 1420 1250 1190 1210 1290 1370 1440
Amps 6.52 5.73 5.28 5.09 5.08 5.17 5.28

Lb/h 172 170 166 159 150 138 123

Btu/h 18100 15000 12500 10500 8840 7400 6030
Watts 1560 1370 1310 1320 1390 1470 1540
Amps 7.17 6.50 6.16 6.07 6.15 6.32 6.50

Lb/h 181 178 173 166 156 144 130

Btu/h 20300 17300 14800 12800 11100 9660 8280 6830
Watts 1680 1490 1410 1420 1490 1570 1640 1660
Amps 7.59 7.03 6.80 6.81 6.97 7.21 7.45 7.61

Lb/h 197 193 187 179 169 157 143 127

Btu/h 22600 19500 17000 15000 13300 11800 10400 8900

25

30

35

40

45

50

55

Watts 1780 1590 1510 1520 1580 1660 1740 1770
Amps 7.83 7.39 7.26 7.35 7.59 7.90 8.20 8.40

Lb/h 219 214 207 198 187 175 161 145

Btu/h 25000 21900 19300 17200 15500 13900 12400 10900
Watts 1880 1680 1600 1610 1670 1760 1840 1880
Amps 7.96 7.63 7.59 7.76 8.08 8.45 8.79 9.04

Lb/h 247 240 232 222 211 198 183 168

Btu/h 27600 24300 21700 19500 17700 16000 14400 12800
Watts 1960 1760 1680 1690 1760 1860 1950 2000
Amps 8.04 7.80 7.85 8.10 8.48 8.91 9.30 9.58

Lb/h 280 272 261 250 238 225 210 194

Btu/h 30300 26900 24200 21900 20000 18200 16500 14700
Watts 2040 1840 1760 1780 1860 1960 2060 2130
Amps 8.11 7.96 8.09 8.42 8.86 9.34 9.77 10.1

Lb/h 318 307 295 283 269 255 240 224

Btu/h 33300 29800 26900 24500 22400 20500 18600 16700
Watts 2110 1910 1840 1860 1950 2070 2180 2260
Amps 8.24 8.18 8.39 8.78 9.28 9.80 10.3 10.6

Lb/h 359 346 332 318 303 288 272 256

Btu/h 36600 32900 29900 27300 25000 23000 20900 18800
Watts 2170 1980 1920 1950 2050 2180 2310 2410
Amps 8.48 8.51 8.78 9.24 9.79 10.3 10.8 11.2

Lb/h 404 388 372 356 340 323 307 290

Btu/h 40200 36400 33200 30400 27900 25700 23400 21100
Watts 2230 2040 1990 2040 2150 2300 2450 2570
Amps 8.90 9.00 9.34 9.85 10.4 11.0 11.6 11.9

Lb/h 451 432 414 396 378 360 343 325

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 7.616029E+04 1.001405E+04 3.527246E+01 5.564453E+01
C2 3.376927E+02 7.957656E+01 7.161458E-04 1.108594E+00
C3 -1.414910E+03 -2.371583E+02 -7.339479E-01 2.840625E+00
C4 3.385417E-01 -7.871875E-01 -7.123438E-03 2.067187E-01
C5 2.641667E+00 -7.150000E-01 4.512500E-03 -6.625000E-02
C6 9.302083E+00 2.004375E+00 5.403125E-03 -1.656250E-02
C7 7.562500E-02 1.937500E-03 7.635417E-05 -8.437500E-04
C8 -5.416667E-02 5.000000E-03 -1.125000E-05 -3.750000E-04
C9 -3.750000E-03 2.125000E-03 -1.062500E-05 3.125000E-04

C10 -2.277778E-02 -5.416667E-03 -1.333333E-05 3.469447E-18

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