Performance Data Sheet
AKA5510EXV
General Information
Model AKA5510EXV Refrigerant R-22
Test Condition ASHRAE Performance Test Voltage 115V ~ 60HZ
Return Gas 35°C (95°F) RETURN GAS Motor Type PSC
Performance Information
Evap Temp (°F)
-15
-10
-5
0
5
10
15
20
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h
Watts
Amps
Lb/h
Btu/h
Watts
Amps
Lb/h
Btu/h
Watts
Amps
Lb/h
Btu/h
Watts
Amps
Lb/h
Btu/h
Watts
Amps
Lb/h
Btu/h
Watts
Amps
Lb/h
Btu/h
Watts
Amps
Lb/h
Btu/h
Watts
Amps 88700 88700 88700 88700 88700 88700 88700
Lb/h
Btu/h
25
30
35
40
45
50
55
Watts 45600 45700 45800 45800 45800 45900 45900
Amps 35500 35500 35500 35500 35500 35500 35500
Lb/h 59800 59800 59800 59900 59800 59800 59800
Btu/h 1810 3510 4160 4030 3370 2410 1430
Watts 8770 8840 8900 8950 9000 9030 9060
Amps 6340 6340 6340 6340 6340 6340 6340
Lb/h 10700 10800 10800 10800 10800 10800 10800
Btu/h 10700 12500 13200 13100 12400 11400 10300
Watts
Amps
Lb/h
Btu/h 11700 13500 14300 14200 13500 12400 11300
Watts
Amps
Lb/h
Btu/h 9210 11100 11900 11800 11100 10000 8790
Watts 757 862 955 1040 1110 1180 1240
Amps 2.65 3.17 3.59 3.93 4.22 4.46 4.69
Lb/h 92.6 126 143 149 146 137 126
Btu/h 7760 9730 10500 10500 9710 8580 7290
Watts 5560 5680 5780 5870 5960 6030 6100
Amps 3800 3800 3800 3800 3800 3800 3800
Lb/h 6510 6540 6560 6570 6570 6560 6550
Btu/h 11800 13800 14700 14600 13800 12600 11300
Watts 732 858 973 1080 1170 1260 1340
Amps 2.61 3.15 3.61 4.00 4.35 4.68 5.00
Lb/h 122 159 179 186 184 175 164
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 -5.400473E+05 8.469959E+05 6.687559E+05 1.125880E+06
C2 3.356767E+04 -6.069542E+04 -4.791969E+04 -8.074620E+04
C3 1.860670E+03 1.214054E+01 2.531348E-01 2.519664E+01
C4 -7.860417E+02 1.411470E+03 1.114609E+03 1.878055E+03
C5 6.780551E+00 2.339135E-01 -7.430365E-04 9.378433E-02
C6 -1.556663E+01 -8.264545E-02 -1.698170E-03 -2.061008E-01
C7 5.978867E+00 -1.069409E+01 -8.444011E+00 -1.422748E+01
C8 -6.498643E-03 1.911038E-04 -2.052649E-06 6.223053E-05
C9 -2.879276E-02 -2.050650E-04 6.952152E-06 -3.972080E-04
C10 4.166712E-02 1.388931E-04 3.314937E-06 5.455198E-04
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