Performance Data Sheet
VSA9512ZNA
General Information
Model VSA9512ZNA Refrigerant R-404A
Test Condition ARI Performance Test Voltage 230V ~ 60HZ
Return Gas 4.4°C (40°F) RETURN GAS Motor Type CSR
Performance Information
Evap Temp (°F)
0
5
10
15
20
25
30
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 10700 10100 9330 8550 7730 6860 5930
Watts 1300 1420 1570 1730 1900 2100 2310
Amps 5.71 6.30 6.96 7.68 8.47 9.32 10.2
Lb/h 183 182 181 180 178 176 174
Btu/h 12100 11300 10500 9600 8660 7670 6630
Watts 1300 1430 1580 1750 1930 2130 2350
Amps 5.74 6.34 7.02 7.76 8.56 9.43 10.4
Lb/h 206 205 204 202 200 198 196
Btu/h 13600 12700 11700 10700 9640 8520 7360
Watts 1300 1440 1590 1760 1950 2150 2380
Amps 5.75 6.37 7.05 7.81 8.63 9.52 10.5
Lb/h 232 230 229 227 225 223 220
Btu/h 15200 14100 13000 11900 10700 9430 8140
Watts 1300 1440 1600 1770 1960 2170 2400
Amps 5.75 6.38 7.08 7.85 8.68 9.58 10.5
Lb/h 260 258 257 255 252 250 247
Btu/h 16900 15700 14400 13100 11800 10400 8990
Watts 1290 1440 1600 1780 1980 2190 2420
Amps 5.75 6.39 7.10 7.88 8.72 9.63 10.6
Lb/h 291 289 287 285 282 279 276
Btu/h 18600 17300 15900 14500 13000 11500 9920
Watts 1290 1440 1600 1780 1990 2200 2440
Amps 5.77 6.41 7.13 7.91 8.76 9.68 10.7
Lb/h 325 323 321 318 315 312 308
Btu/h 20500 19000 17500 15900 14300 12600 10900
Watts 1290 1440 1610 1790 1990 2220 2450
Amps 5.81 6.45 7.17 7.95 8.81 9.73 10.7
Lb/h 362 360 357 354 351 347 343
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 1.439904E+04 8.901203E+02 3.352035E+00 1.776184E+02
C2 4.813901E+02 -6.423527E+00 -1.587867E-02 4.648260E+00
C3 -2.670534E+01 -1.731450E+00 3.047504E-03 1.995178E-01
C4 1.713069E+00 -4.104931E-02 -5.388770E-05 5.487132E-02
C5 -2.619931E+00 8.840655E-02 2.375220E-04 -4.569530E-03
C6 -2.383023E-01 8.512410E-02 3.312924E-04 -1.612204E-03
C7 1.895406E-02 2.212634E-03 1.217692E-05 1.598278E-04
C8 -8.961269E-03 -1.026385E-03 -5.646486E-06 -6.651827E-05
C9 1.090265E-03 1.230358E-04 6.766093E-07 7.009071E-06
C10 -2.017863E-05 -2.246814E-06 -1.236063E-08 -9.236469E-08
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
VSA9512ZNA
General Information
Model VSA9512ZNA Refrigerant R-404A
Test Condition ARI Performance Test Voltage 230V ~ 60HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type CSR
Performance Information
Evap Temp (°F)
20
25
30
35
40
45
50
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 17000 16100 15100 14000 12700 11300 9760
Watts 1280 1430 1600 1770 1960 2160 2370
Amps 5.75 6.43 7.15 7.92 8.74 9.60 10.5
Lb/h 273 273 273 271 267 263 257
Btu/h 19000 18000 16800 15500 14100 12600 10900
Watts 1280 1430 1610 1790 1990 2200 2430
Amps 5.70 6.41 7.17 7.99 8.85 9.76 10.7
Lb/h 304 304 303 301 298 294 289
Btu/h 21200 19900 18600 17100 15600 13900 12100
Watts 1260 1430 1610 1800 2010 2230 2460
Amps 5.62 6.36 7.16 8.01 8.91 9.86 10.9
Lb/h 338 338 337 335 332 328 323
Btu/h 23400 22000 20500 18800 17100 15300 13300
Watts 1250 1420 1600 1800 2020 2250 2490
Amps 5.53 6.29 7.11 7.99 8.93 9.92 11.0
Lb/h 376 376 374 372 369 365 360
Btu/h 25900 24200 22500 20700 18700 16700 14600
Watts 1230 1400 1590 1800 2020 2260 2510
Amps 5.42 6.20 7.04 7.95 8.92 9.94 11.0
Lb/h 419 418 416 413 410 406 401
Btu/h 28600 26700 24700 22600 20500 18300 15900
Watts 1210 1390 1580 1790 2020 2260 2520
Amps 5.30 6.10 6.96 7.89 8.88 9.93 11.0
Lb/h 466 464 462 459 455 450 445
Btu/h 31400 29300 27000 24800 22400 19900 17400
Watts 1180 1370 1560 1780 2010 2260 2520
Amps 5.20 6.00 6.88 7.82 8.83 9.90 11.0
Lb/h 518 515 512 508 504 499 493
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 7.114924E+03 7.470713E+02 3.232378E+00 1.436646E+02
C2 5.942163E+02 -6.577339E+00 -3.624546E-02 3.011267E+00
C3 8.059232E+01 6.431077E-01 9.027125E-03 9.615767E-01
C4 2.301280E+00 -1.269109E-01 -5.446745E-04 7.568256E-02
C5 -3.596978E+00 1.430093E-01 6.467862E-04 -3.507375E-03
C6 -5.697122E-01 6.796828E-02 2.657282E-04 -5.095561E-03
C7 3.801742E-02 2.203160E-03 1.089417E-05 3.483309E-04
C8 -3.604192E-02 -2.101011E-03 -1.037754E-05 -3.285809E-04
C9 1.064718E-02 6.238990E-04 3.077201E-06 9.665621E-05
C10 -9.725771E-04 -5.723673E-05 -2.818151E-07 -8.799859E-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
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