Page 1
Performance Data Sheet
AJE2422ZXA
General Information
Model AJE2422ZXA 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) 372 347 305 246
Amps 5.53 5.30 4.97 4.52
Watts
(Capacity)
Watts (Power) 430 421 396 353
Amps 5.90 5.81 5.61 5.30
Watts
(Capacity)
Watts (Power) 491 498 489 463
Amps 6.35 6.40 6.33 6.16
Watts
(Capacity)
Watts (Power) 555 578 585 575
Amps 6.87 7.05 7.13 7.10
Watts
(Capacity)
Watts (Power) 577 606 618 614
Amps 7.06 7.29 7.42 7.43
Watts
(Capacity)
Watts (Power) 621 660 683 690
Amps 7.46 7.79 8.00 8.10
Watts
(Capacity)
Watts (Power) 689 745 784 807
Amps 8.13 8.59 8.94 9.19
Watts
(Capacity)
Watts (Power) 760 832 888 927
Amps 8.87 9.47 9.96 10.3
342 249 159 77.4
496 381 266 159
687 542 398 259
917 738 557 382
1010 813 619 429
1190 971 749 530
1510 1250 976 708
1890 1570 1240 919
Page 2
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 4.030430E+03 4.964278E+02 7.293033E+00
C2 1.425510E+02 5.740330E+00 1.028640E-01
C3 -3.734520E+01 1.628163E+01 1.260542E-01
C4 1.607620E+00 5.008803E-02 1.483289E-03
C5 -1.262720E+00 3.239690E-01 2.756137E-03
C6 -1.478140E-01 -8.333820E-02 -5.503370E-04
C7 4.977750E-03 0.000000E+00 0.000000E+00
C8 -1.192440E-02 0.000000E+00 0.000000E+00
C9 -1.270740E-03 0.000000E+00 0.000000E+00
C10 9.236700E-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
Page 3
Performance Data Sheet
AJE2422ZXA
General Information
Model AJE2422ZXA 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) 451 425 373 297
Amps 4.58 4.39 3.98 3.35
Watts
(Capacity)
Watts (Power) 528 520 488 430
Amps 5.16 5.13 4.88 4.41
Watts
(Capacity)
Watts (Power) 607 618 604 565
Amps 5.79 5.92 5.83 5.51
Watts
(Capacity)
Watts (Power) 688 717 722 703
Amps 6.46 6.75 6.81 6.66
Watts
(Capacity)
Watts (Power) 716 752 763 750
Amps 6.70 7.04 7.16 7.05
Watts
(Capacity)
Watts (Power) 770 819 843 842
Amps 7.17 7.62 7.84 7.84
Watts
(Capacity)
Watts (Power) 855 923 965 983
Amps 7.93 8.53 8.92 9.08
Watts
(Capacity)
Watts (Power) 942 1030 1090 1130
Amps 8.73 9.49 10.0 10.4
397 289 185 89.8
576 441 309 185
797 629 461 301
1060 856 647 443
1170 943 718 498
1380 1130 869 615
1760 1450 1130 821
2190 1820 1440 1070
Page 4
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 4.675299E+03 5.991405E+02 5.887116E+00
C2 1.653591E+02 7.010241E+00 8.654597E-02
C3 -4.332043E+01 2.112922E+01 1.857907E-01
C4 1.864839E+00 3.969731E-02 8.631420E-04
C5 -1.464755E+00 3.772783E-01 3.167365E-03
C6 -1.714642E-01 -1.244340E-01 -1.112198E-03
C7 5.774190E-03 0.000000E+00 0.000000E+00
C8 -1.383230E-02 0.000000E+00 0.000000E+00
C9 -1.474058E-03 0.000000E+00 0.000000E+00
C10 1.071457E-03 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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