Tecumseh HGB9443YAA Performance Data Sheet
Performance Data Sheet
HGB9443YAA
General Information
Model HGB9443YAA Refrigerant R-134a
Test Condition ARI Performance Test Voltage 115V ~ 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 3580 3360 3140 2920 2700 2470 2250
Watts 455 486 517 548 579 610 642
Amps 6.02 6.20 6.38 6.55 6.73 6.91 7.08
Lb/h 49.2 48.4 47.5 46.7 45.9 45.0 44.2
Btu/h 4090 3840 3580 3320 3060 2800 2540
Watts 466 499 532 565 599 632 666
Amps 6.02 6.22 6.43 6.63 6.83 7.04 7.24
Lb/h 56.1 55.2 54.2 53.2 52.3 51.3 50.3
Btu/h 4650 4350 4060 3760 3470 3170 2870
Watts 477 512 548 584 620 656 692
Amps 6.03 6.26 6.49 6.72 6.95 7.18 7.42
Lb/h 63.8 62.7 61.6 60.5 59.4 58.2 57.1
Btu/h 5240 4910 4580 4240 3910 3570 3240
Watts 486 525 563 602 641 680 719
Amps 6.04 6.30 6.56 6.82 7.08 7.34 7.60
Lb/h 72.3 71.1 69.8 68.5 67.3 66.0 64.7
Btu/h 5890 5520 5150 4770 4400 4020 3650
Watts 494 535 577 618 660 702 744
Amps 6.05 6.33 6.62 6.91 7.20 7.49 7.78
Lb/h 81.9 80.5 79.0 77.6 76.1 74.6 73.1
Btu/h 6600 6190 5780 5360 4950 4530 4120
Watts 497 541 586 631 676 721 766
Amps 6.05 6.36 6.68 7.00 7.32 7.64 7.96
Lb/h 92.6 91.0 89.4 87.7 86.1 84.4 82.7
Btu/h 7380 6930 6480 6020 5560 5100 4650
Watts 494 542 590 638 687 735 784
Amps 6.03 6.38 6.73 7.07 7.42 7.78 8.13
Lb/h 105 103 101 99.1 97.2 95.3 93.4
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 5.346467E+03 2.076908E+02 4.624357E+00 5.579379E+01
C2 1.560715E+02 -1.508810E+00 -4.334303E-02 1.490903E+00
C3 -2.218958E+01 3.116366E+00 1.760525E-02 -8.448481E-02
C4 7.582089E-01 1.293663E-02 1.889390E-04 1.513277E-02
C5 -6.999390E-01 4.047804E-02 5.129571E-04 -2.044369E-03
C6 2.912807E-03 -3.984853E-04 -2.663779E-06 4.411351E-05
C7 1.048085E-02 -2.181003E-03 -7.973840E-06 1.807025E-04
C8 -2.049528E-03 4.202785E-04 1.446220E-06 -3.511841E-05
C9 -9.260960E-05 2.027337E-05 8.960261E-08 -1.630303E-06
C10 -1.696639E-05 1.952347E-06 1.743364E-08 -2.464973E-07
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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