Tecumseh AED4456YXA Performance Data Sheet

Performance Data Sheet

AED4456YXA

General Information

Model AED4456YXA Refrigerant R-134a
Test Condition Tecumseh Europe Performance Test Voltage 100V ~ 50HZ
Return Gas -6.7°C (20°F) SUPERHEAT 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) 489 508 527 546

Amps 7.73 7.89 8.04 8.20
Watts

(Capacity)

Watts (Power) 499 522 546 569

Amps 7.77 7.97 8.16 8.36
Watts

(Capacity)

Watts (Power) 526 563 600 637

Amps 7.89 8.22 8.54 8.87
Watts

(Capacity)

Watts (Power) 547 601 655 708

Amps 7.99 8.47 8.95 9.43
Watts

(Capacity)

Watts (Power) 555 617 679 740

Amps 8.02 8.58 9.14 9.70
Watts

(Capacity)

Watts (Power) 564 636 709 782

Amps 8.06 8.73 9.39 10.1
Watts

(Capacity)

Watts (Power) 575 669 764 858

Amps 8.11 8.99 9.87 10.7

1150 976 800 623

1240 1060 871 685

1540 1320 1110 890

1890 1630 1380 1130

2050 1780 1520 1250

2280 1990 1700 1410

2720 2390 2050 1720

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 2.189372E+03 4.159662E+02 6.909077E+00
C2 8.389992E+01 -4.337564E+00 -6.475550E-02
C3 -2.164612E+01 3.610643E+00 3.307496E-02

C4 1.224755E+00 -2.589480E-01 -2.092359E-03
C5 -6.550255E-01 3.047295E-01 2.867137E-03
C6 -3.997960E-04 2.157739E-03 -1.419380E-05
C7 0.000000E+00 0.000000E+00 0.000000E+00
C8 -8.403156E-03 5.161385E-03 5.486390E-05
C9 5.960000E-11 2.500000E-06 -2.030000E-08

C10 2.670000E-06 -1.390000E-05 1.120000E-07

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

AED4456YXA

General Information

Model AED4456YXA Refrigerant R-134a
Test Condition Tecumseh Europe Performance Test Voltage 115V ~ 60HZ
Return Gas -6.7°C (20°F) SUPERHEAT 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) 584 607 630 652

Amps 7.66 7.81 7.97 8.13
Watts

(Capacity)

Watts (Power) 599 627 655 682

Amps 7.75 7.94 8.13 8.33
Watts

(Capacity)

Watts (Power) 639 684 730 775

Amps 7.99 8.32 8.65 8.98
Watts

(Capacity)

Watts (Power) 674 741 807 873

Amps 8.22 8.72 9.22 9.72
Watts

(Capacity)

Watts (Power) 688 765 842 918

Amps 8.32 8.90 9.48 10.1
Watts

(Capacity)

Watts (Power) 704 795 886 977

Amps 8.44 9.14 9.84 10.5
Watts

(Capacity)

Watts (Power) 729 848 967 1090

Amps 8.65 9.57 10.5 11.4

1370 1160 949 740

1470 1250 1030 812

1820 1560 1310 1050

2220 1920 1630 1330

2410 2100 1780 1470

2670 2330 1990 1650

3190 2790 2400 2010

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 2.585808E+03 5.055015E+02 6.994589E+00
C2 9.727074E+01 -4.019349E+00 -4.336026E-02
C3 -2.556667E+01 4.396715E+00 3.356248E-02

C4 1.383329E+00 -3.181901E-01 -2.195018E-03
C5 -7.559329E-01 3.848425E-01 3.035363E-03
C6 -4.777930E-04 2.603579E-03 -1.455600E-05
C7 0.000000E+00 0.000000E+00 0.000000E+00
C8 -9.407946E-03 7.174429E-03 6.408340E-05
C9 -2.700000E-10 2.870000E-06 -1.810000E-08

C10 3.190000E-06 -1.680000E-05 1.150000E-07

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