Performance Data Sheet
AJE2433ZXA
General Information
Model AJE2433ZXA Refrigerant R-404A
Test Condition EN12900 ASERCOM Performance Test Voltage 100V ~ 50HZ
Return Gas 20°C (68°F) RETURN GAS Motor Type CSR
Performance Information
Evap
Temp (°C)
-40
-35
-30
-25
-23.3
-20
-15
-10
Condensing Temperature (°C)
30 40 50 60
Watts
(Capacity)
Watts (Power) 521 505 467 406
Amps 7.03 6.85 6.52 6.01
Watts
(Capacity)
Watts (Power) 604 612 597 560
Amps 7.66 7.71 7.59 7.32
Watts
(Capacity)
Watts (Power) 689 721 731 718
Amps 8.38 8.65 8.76 8.70
Watts
(Capacity)
Watts (Power) 778 834 867 878
Amps 9.18 9.67 10.0 10.2
Watts
(Capacity)
Watts (Power) 809 873 914 933
Amps 9.47 10.0 10.4 10.7
Watts
(Capacity)
Watts (Power) 870 950 1010 1040
Amps 10.1 10.8 11.3 11.7
Watts
(Capacity)
Watts (Power) 965 1070 1150 1210
Amps 11.0 12.0 12.7 13.3
Watts
(Capacity)
Watts (Power) 1060 1190 1300 1380
Amps 12.1 13.2 14.2 15.1
573 430 294 166
797 624 458 301
1070 855 651 456
1380 1130 876 634
1500 1230 960 701
1760 1440 1140 842
2190 1810 1440 1080
2680 2230 1790 1360
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 5.770030E+03 6.094133E+02 8.641071E+00
C2 1.909660E+02 6.910299E+00 1.180509E-01
C3 -6.346880E+01 2.537481E+01 2.174176E-01
C4 2.060730E+00 6.256912E-02 1.653734E-03
C5 -1.877720E+00 4.767790E-01 4.437193E-03
C6 8.819040E-03 -1.125034E-01 -8.185790E-04
C7 6.306660E-03 0.000000E+00 0.000000E+00
C8 -1.684500E-02 0.000000E+00 0.000000E+00
C9 2.290300E-04 0.000000E+00 0.000000E+00
C10 2.835000E-04 0.000000E+00 0.000000E+00
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
AJE2433ZXA
General Information
Model AJE2433ZXA Refrigerant R-404A
Test Condition EN12900 ASERCOM Performance Test Voltage 115V ~ 60HZ
Return Gas 20°C (68°F) RETURN GAS Motor Type CSR
Performance Information
Evap
Temp (°C)
-40
-35
-30
-25
-23.3
-20
-15
-10
Condensing Temperature (°C)
30 40 50 60
Watts
(Capacity)
Watts (Power) 633 602 542 453
Amps 6.41 6.11 5.57 4.80
Watts
(Capacity)
Watts (Power) 731 729 698 638
Amps 7.17 7.13 6.85 6.34
Watts
(Capacity)
Watts (Power) 835 862 860 829
Amps 8.01 8.23 8.21 7.96
Watts
(Capacity)
Watts (Power) 946 1000 1030 1030
Amps 8.94 9.42 9.66 9.66
Watts
(Capacity)
Watts (Power) 984 1050 1090 1090
Amps 9.27 9.84 10.2 10.3
Watts
(Capacity)
Watts (Power) 1060 1150 1200 1230
Amps 9.95 10.7 11.2 11.4
Watts
(Capacity)
Watts (Power) 1180 1300 1380 1440
Amps 11.0 12.0 12.8 13.3
Watts
(Capacity)
Watts (Power) 1310 1450 1570 1650
Amps 12.2 13.5 14.5 15.3
665 499 341 193
925 724 532 350
1240 992 755 529
1610 1310 1020 736
1750 1430 1110 814
2040 1670 1320 977
2540 2100 1670 1260
3110 2590 2080 1580
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 6.693234E+03 8.077518E+02 8.101197E+00
C2 2.215206E+02 1.118143E+01 1.213700E-01
C3 -7.362380E+01 3.029272E+01 2.592379E-01
C4 2.390447E+00 1.190234E-01 1.656117E-03
C5 -2.178155E+00 5.793822E-01 5.173420E-03
C6 1.023009E-02 -1.459315E-01 -1.176476E-03
C7 7.315725E-03 0.000000E+00 0.000000E+00
C8 -1.954020E-02 0.000000E+00 0.000000E+00
C9 2.656748E-04 0.000000E+00 0.000000E+00
C10 3.288600E-04 0.000000E+00 0.000000E+00
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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