Tecumseh AEA4448YXA Performance Data Sheet
Performance Data Sheet
AEA4448YXA
General Information
Model AEA4448YXA Refrigerant R-134a
Test Condition ARI Performance Test Voltage 115V ~ 60HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type CSIR
Performance Information
Evap Temp (°F)
20
25
30
35
40
45
50
55
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 3180 3170 3030 2800 2510 2210 1930
Watts 443 473 498 517 532 543 552
Amps 6.40 6.42 6.50 6.60 6.70 6.78 6.81
Lb/h 41.1 42.9 43.0 41.8 39.8 37.2 34.7
Btu/h 3520 3500 3360 3120 2830 2520 2220
Watts 469 500 526 548 566 581 595
Amps 6.62 6.62 6.69 6.79 6.90 7.01 7.07
Lb/h 45.5 47.6 47.9 46.9 45.0 42.6 40.1
Btu/h 3970 3940 3780 3520 3210 2880 2550
Watts 498 530 557 581 602 622 640
Amps 6.88 6.86 6.92 7.03 7.16 7.29 7.40
Lb/h 51.4 53.6 54.1 53.1 51.3 48.9 46.4
Btu/h 4510 4460 4270 3990 3650 3280 2930
Watts 528 560 590 616 641 664 687
Amps 7.17 7.13 7.19 7.31 7.46 7.62 7.78
Lb/h 58.7 61.0 61.4 60.5 58.6 56.1 53.5
Btu/h 5140 5050 4830 4520 4140 3730 3340
Watts 558 592 623 652 680 708 736
Amps 7.45 7.41 7.47 7.60 7.78 7.98 8.18
Lb/h 67.3 69.5 69.9 68.8 66.8 64.1 61.4
Btu/h 5860 5730 5460 5100 4670 4220 3770
Watts 589 624 657 688 720 752 785
Amps 7.73 7.68 7.74 7.89 8.10 8.35 8.60
Lb/h 77.2 79.2 79.4 78.2 75.8 72.9 69.8
Btu/h 6650 6470 6150 5730 5240 4730 4220
Watts 620 655 690 725 759 796 835
Amps 7.97 7.92 8.00 8.17 8.41 8.70 9.01
Lb/h 88.2 90.0 89.9 88.3 85.7 82.4 78.8
Btu/h 7510 7260 6880 6390 5840 5260 4680
Watts 649 686 722 760 798 839 883
Amps 8.16 8.12 8.21 8.41 8.69 9.03 9.40
Lb/h 100 102 101 99.3 96.2 92.4 88.3
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 -4.825392E+03 -3.068657E+02 8.224631E+00 -6.739910E+01
C2 -1.142091E+02 7.366271E+00 1.143588E-01 -2.000169E+00
C3 2.345970E+02 1.446656E+01 -8.967268E-02 3.057306E+00
C4 4.274562E+00 9.471474E-02 1.903011E-03 5.375632E-02
C5 1.049032E+00 -1.370208E-01 -2.813596E-03 1.945208E-02
C6 -2.186226E+00 -8.637878E-02 1.150177E-03 -2.713333E-02
C7 -8.974782E-03 -8.907061E-04 -2.385196E-05 -1.090582E-04
C8 -1.926089E-02 1.811313E-04 8.619141E-06 -1.990046E-04
C9 -1.612710E-03 8.317769E-04 1.163924E-05 -3.263622E-05
C10 5.895440E-03 1.442898E-04 -4.163595E-06 7.097279E-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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