Page 1
Performance Data Sheet
AJE4461YXA
General Information
Model AJE4461YXA 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) 448 489 515 527
Amps 7.31 7.66 7.89 8.00
Watts
(Capacity)
Watts (Power) 458 503 536 554
Amps 7.37 7.78 8.06 8.23
Watts
(Capacity)
Watts (Power) 484 544 594 632
Amps 7.55 8.11 8.55 8.87
Watts
(Capacity)
Watts (Power) 507 580 647 705
Amps 7.72 8.44 9.04 9.51
Watts
(Capacity)
Watts (Power) 515 595 669 735
Amps 7.80 8.58 9.25 9.79
Watts
(Capacity)
Watts (Power) 526 613 696 773
Amps 7.89 8.76 9.51 10.1
Watts
(Capacity)
Watts (Power) 541 642 741 838
Amps 8.04 9.07 9.98 10.8
1170 996 820 644
1270 1080 894 707
1590 1360 1140 912
1970 1690 1420 1150
2160 1850 1560 1270
2410 2080 1750 1440
2930 2530 2140 1770
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 2.291309E+03 2.711289E+02 5.159678E+00
C2 9.959464E+01 -2.298727E-01 -5.831978E-02
C3 -2.372422E+01 7.524894E+00 9.770047E-02
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C4 1.612579E+00 -5.791907E-02 -1.581999E-04
C5 -1.066254E+00 8.326002E-02 3.113528E-03
C6 1.008981E-02 -2.624684E-03 -5.969151E-04
C7 8.680244E-03 3.976802E-04 0.000000E+00
C8 -1.512368E-02 -6.034687E-04 0.000000E+00
C9 2.428373E-03 2.858805E-03 0.000000E+00
C10 3.850762E-05 -3.769901E-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
Page 3
Performance Data Sheet
AJE4461YXA
General Information
Model AJE4461YXA 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) 558 610 640 627
Amps 7.51 7.94 8.13 8.08
Watts
(Capacity)
Watts (Power) 574 631 669 667
Amps 7.61 8.11 8.36 8.37
Watts
(Capacity)
Watts (Power) 620 692 752 780
Amps 7.89 8.58 9.03 9.23
Watts
(Capacity)
Watts (Power) 663 748 829 886
Amps 8.16 9.04 9.69 10.1
Watts
(Capacity)
Watts (Power) 680 771 861 930
Amps 8.27 9.24 9.97 10.5
Watts
(Capacity)
Watts (Power) 700 798 899 984
Amps 8.41 9.49 10.3 10.9
Watts
(Capacity)
Watts (Power) 732 841 962 1070
Amps 8.66 9.93 11.0 11.7
1400 1210 987 738
1510 1320 1080 815
1890 1660 1380 1070
2330 2060 1730 1370
2540 2250 1910 1520
2830 2520 2140 1720
3420 3050 2620 2130
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 2.125460E+03 5.492198E+02 4.338866E+00
C2 9.480333E+01 9.342390E+00 -6.092770E-02
C3 6.730249E+00 -5.431974E+00 1.550799E-01
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C4 1.586396E+00 -8.890157E-03 -2.437696E-04
C5 -2.475499E-01 -2.424579E-01 3.866658E-03
C6 -5.681552E-01 3.656181E-01 -1.225288E-03
C7 8.090249E-03 -1.422069E-03 0.000000E+00
C8 -1.132577E-02 -2.154292E-03 0.000000E+00
C9 -6.857683E-03 7.532333E-03 0.000000E+00
C10 2.711764E-03 -3.517325E-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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