Performance Data Sheet
AEA3448YXA
General Information
Model AEA3448YXA Refrigerant R-134a
Test Condition ARI Performance Test Voltage 115V ~ 60HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type RSIR
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 3710 3400 3100 2800 2480 2120 1700
Watts 429 467 494 514 528 539 550
Amps 6.28 6.51 6.67 6.78 6.85 6.90 6.94
Lb/h 49.6 46.8 44.5 42.1 39.3 35.6 30.7
Btu/h 4140 3810 3490 3180 2850 2500 2100
Watts 452 492 522 544 562 577 593
Amps 6.40 6.65 6.83 6.97 7.07 7.16 7.25
Lb/h 55.0 52.2 50.0 47.8 45.4 42.2 37.9
Btu/h 4640 4270 3930 3600 3260 2900 2510
Watts 475 518 550 576 597 616 637
Amps 6.53 6.80 7.00 7.17 7.30 7.43 7.56
Lb/h 61.6 58.7 56.3 54.3 52.1 49.3 45.6
Btu/h 5210 4800 4420 4060 3710 3330 2940
Watts 499 544 579 607 632 656 681
Amps 6.68 6.96 7.19 7.38 7.55 7.71 7.88
Lb/h 69.3 66.1 63.6 61.6 59.5 57.0 53.7
Btu/h 5860 5390 4970 4570 4190 3790 3380
Watts 524 570 608 640 668 696 725
Amps 6.85 7.15 7.39 7.61 7.80 8.00 8.21
Lb/h 78.2 74.6 71.8 69.6 67.6 65.2 62.3
Btu/h 6580 6050 5570 5130 4700 4280 3840
Watts 548 597 637 672 704 736 770
Amps 7.03 7.34 7.61 7.84 8.07 8.30 8.55
Lb/h 88.3 84.1 81.0 78.5 76.4 74.1 71.3
Btu/h 7370 6770 6230 5730 5260 4790 4320
Watts 573 624 667 705 740 776 815
Amps 7.23 7.55 7.83 8.09 8.34 8.60 8.89
Lb/h 99.6 94.8 91.1 88.3 85.9 83.6 80.8
Btu/h 8240 7560 6940 6380 5850 5330 4820
Watts 598 651 696 737 777 817 860
Amps 7.44 7.77 8.07 8.35 8.62 8.91 9.23
Lb/h 112 107 102 99.0 96.2 93.7 90.9
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 6.099849E+03 -6.797622E+02 -3.336427E-01 1.077675E+02
C2 5.268807E+01 4.121276E+00 -2.407471E-03 4.358225E-01
C3 -7.209212E+01 2.478596E+01 1.579685E-01 -1.795644E+00
C4 2.866458E+00 2.256313E-02 7.147798E-04 3.865856E-02
C5 -1.005360E+00 -4.492667E-02 -3.177985E-04 -1.501807E-02
C6 5.726265E-01 -1.856723E-01 -1.203092E-03 1.692222E-02
C7 8.154755E-04 -1.315247E-04 -1.103680E-06 3.637007E-05
C8 -1.864706E-02 -9.633010E-06 -3.282462E-06 -2.387776E-04
C9 7.872633E-03 5.120034E-04 5.009394E-06 1.444084E-04
C10 -2.537104E-03 4.497205E-04 2.777073E-06 -6.670508E-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