Page 1
Performance Data Sheet
AJEK513ZXA
General Information
Model AJEK513ZXA Refrigerant R-404A
Test Condition Tecumseh Europe Performance Test Voltage 100V ~ 50HZ
Return Gas -6.7°C (20°F) SUPERHEAT Motor Type CSR
Performance Information
Evap
Temp (°C)
-23.3
-20
-15
-10
-6.7
-5
0
Condensing Temperature (°C)
30 40 50 60
Watts
(Capacity)
Watts (Power) 726 688 654 617
Amps 9.62 9.34 9.06 8.79
Watts
(Capacity)
Watts (Power) 801 770 753 742
Amps 9.94 9.87 9.82 9.77
Watts
(Capacity)
Watts (Power) 908 887 894 921
Amps 10.5 10.7 11.0 11.2
Watts
(Capacity)
Watts (Power) 1010 995 1020 1090
Amps 11.0 11.6 12.1 12.7
Watts
(Capacity)
Watts (Power) 1070 1060 1100 1190
Amps 11.4 12.1 12.9 13.6
Watts
(Capacity)
Watts (Power) 1100 1090 1140 1240
Amps 11.6 12.4 13.3 14.1
Watts
(Capacity)
Watts (Power) 1180 1180 1250 1390
Amps 12.3 13.3 14.4 15.4
1230 927 676 475
1510 1170 880 639
2000 1590 1240 927
2590 2100 1660 1270
3030 2480 1980 1530
3270 2690 2160 1680
4060 3380 2750 2160
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 6.443290E+03 1.696850E+03 9.369604E+00
C2 2.349630E+02 2.973260E+01 1.357653E-03
C3 -8.823550E+01 -3.184260E+01 8.989062E-02
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C4 3.068210E+00 -7.831490E-02 2.499693E-03
C5 -2.155770E+00 -8.872470E-01 4.520646E-03
C6 3.116320E-01 5.342220E-01 3.172780E-04
C7 1.277980E-02 3.252860E-06 0.000000E+00
C8 -2.320450E-02 -2.732940E-03 -5.178320E-05
C9 -3.432890E-04 1.412810E-02 -3.600000E-07
C10 -5.208430E-04 -1.497180E-03 -2.150000E-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
Page 3
Performance Data Sheet
AJEK513ZXA
General Information
Model AJEK513ZXA Refrigerant R-404A
Test Condition Tecumseh Europe Performance Test Voltage 115V ~ 60HZ
Return Gas -6.7°C (20°F) SUPERHEAT Motor Type CSR
Performance Information
Evap
Temp (°C)
-23.3
-20
-15
-10
-6.7
-5
0
Condensing Temperature (°C)
30 40 50 60
Watts
(Capacity)
Watts (Power) 887 836 791 758
Amps 9.43 9.14 8.87 8.60
Watts
(Capacity)
Watts (Power) 956 912 882 870
Amps 9.54 9.47 9.41 9.35
Watts
(Capacity)
Watts (Power) 1060 1030 1020 1040
Amps 9.85 10.1 10.3 10.6
Watts
(Capacity)
Watts (Power) 1150 1140 1160 1220
Amps 10.3 10.8 11.3 11.9
Watts
(Capacity)
Watts (Power) 1210 1210 1250 1340
Amps 10.7 11.4 12.1 12.8
Watts
(Capacity)
Watts (Power) 1240 1250 1300 1400
Amps 10.9 11.7 12.5 13.2
Watts
(Capacity)
Watts (Power) 1320 1350 1440 1590
Amps 11.7 12.7 13.7 14.7
1450 1100 809 578
1780 1380 1050 771
2360 1880 1470 1110
3050 2480 1960 1510
3570 2920 2340 1820
3860 3170 2550 1990
4790 3980 3240 2550
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 7.655570E+03 1.530210E+03 8.868804E+00
C2 2.786260E+02 1.362830E+01 3.165100E-02
C3 -1.074710E+02 -1.375100E+01 8.730794E-02
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C4 3.624230E+00 -3.115990E-01 4.311071E-03
C5 -2.610370E+00 -2.499450E-01 4.596351E-03
C6 4.273390E-01 2.047050E-01 2.923510E-04
C7 1.501510E-02 2.689240E-04 0.000000E+00
C8 -2.767610E-02 6.662280E-03 -4.107770E-05
C9 9.780000E-05 1.080090E-02 -3.600000E-07
C10 -8.911840E-04 6.736470E-04 -1.980000E-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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