Performance Data Sheet
AJE4492YXA
General Information
Model AJE4492YXA Refrigerant R-134a
Test Condition EN12900 ASERCOM Performance Test Voltage 100V ~ 50HZ
Return Gas 20°C (68°F) RETURN GAS Motor Type CSIR
Performance Information
Evap
Temp (°C)
-6.7
-5
0
5
7.2
10
15
Condensing Temperature (°C)
30 40 50 60
Watts
(Capacity)
Watts (Power) 603 660 696 710
Amps 10.3 10.6 10.8 11.0
Watts
(Capacity)
Watts (Power) 618 683 727 751
Amps 10.3 10.8 11.1 11.3
Watts
(Capacity)
Watts (Power) 659 745 815 867
Amps 10.6 11.2 11.8 12.3
Watts
(Capacity)
Watts (Power) 696 803 899 980
Amps 10.8 11.7 12.5 13.2
Watts
(Capacity)
Watts (Power) 711 828 934 1030
Amps 10.9 11.9 12.8 13.7
Watts
(Capacity)
Watts (Power) 729 858 979 1090
Amps 11.1 12.2 13.2 14.2
Watts
(Capacity)
Watts (Power) 758 909 1060 1200
Amps 11.3 12.7 13.9 15.1
1670 1420 1140 865
1820 1540 1250 960
2290 1960 1620 1270
2830 2440 2040 1630
3100 2680 2250 1800
3460 3000 2530 2050
4190 3650 3090 2530
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 3.088035E+03 3.241722E+02 8.170502E+00
C2 1.336240E+02 -6.196544E-01 -9.226007E-02
C3 -2.057906E+01 1.276689E+01 9.250773E-02
C4 2.083305E+00 -9.218746E-02 -8.898023E-05
C5 -1.047526E+00 1.653607E-01 4.713551E-03
C6 -2.493855E-01 -4.457871E-02 -3.959801E-04
C7 1.009588E-02 5.404311E-04 0.000000E+00
C8 -1.771289E-02 1.956911E-04 0.000000E+00
C9 -1.184138E-03 3.794385E-03 0.000000E+00
C10 1.447358E-03 -2.882423E-04 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
AJE4492YXA
General Information
Model AJE4492YXA Refrigerant R-134a
Test Condition EN12900 ASERCOM Performance Test Voltage 115V ~ 60HZ
Return Gas 20°C (68°F) RETURN GAS Motor Type CSIR
Performance Information
Evap
Temp (°C)
-6.7
-5
0
5
7.2
10
15
Condensing Temperature (°C)
30 40 50 60
Watts
(Capacity)
Watts (Power) 746 814 819 725
Amps 10.4 10.6 10.6 10.4
Watts
(Capacity)
Watts (Power) 769 844 863 787
Amps 10.6 10.9 10.9 10.8
Watts
(Capacity)
Watts (Power) 839 931 982 956
Amps 11.1 11.6 11.9 11.9
Watts
(Capacity)
Watts (Power) 919 1020 1090 1110
Amps 11.6 12.3 12.8 13.0
Watts
(Capacity)
Watts (Power) 960 1060 1140 1170
Amps 11.8 12.7 13.2 13.6
Watts
(Capacity)
Watts (Power) 1020 1120 1210 1250
Amps 12.2 13.1 13.8 14.2
Watts
(Capacity)
Watts (Power) 1140 1230 1320 1390
Amps 12.8 13.9 14.8 15.5
1940 1680 1300 832
2100 1830 1440 955
2610 2310 1880 1340
3190 2850 2370 1770
3470 3110 2600 1970
3850 3460 2920 2240
4610 4160 3540 2780
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 2.366506E+03 6.842346E+02 7.924028E+00
C2 1.158684E+02 2.707010E+01 -2.377131E-02
C3 4.273324E+01 -5.315154E+00 1.426768E-01
C4 2.145493E+00 7.492201E-01 7.709623E-04
C5 9.496238E-02 -8.968681E-01 4.211151E-03
C6 -1.315619E+00 5.334187E-01 -1.280259E-03
C7 1.190617E-02 9.379817E-03 0.000000E+00
C8 -2.190192E-02 -1.797283E-02 0.000000E+00
C9 -1.132972E-02 1.627560E-02 0.000000E+00
C10 5.302619E-03 -6.157773E-03 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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