Tecumseh HGA9468ZXD Performance Data Sheet
Performance Data Sheet
HGA9468ZXD
General Information
Model HGA9468ZXD Refrigerant R-404A
Test Condition ARI Performance Test Voltage 230V ~ 60HZ
Return Gas 4.4°C (40°F) RETURN GAS Motor Type CSR
Performance Information
Evap Temp (°F)
0
5
10
15
20
25
30
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 6770 6190 5610 5030 4440 3860 3270
Watts 769 826 884 942 1000 1060 1120
Amps 3.88 4.11 4.33 4.56 4.79 5.01 5.24
Lb/h 116 112 109 106 103 99.8 96.6
Btu/h 7610 6960 6300 5650 4990 4330 3670
Watts 777 840 902 965 1030 1090 1150
Amps 3.90 4.15 4.40 4.65 4.90 5.15 5.40
Lb/h 131 127 124 120 117 113 109
Btu/h 8460 7730 7010 6280 5550 4820 4080
Watts 786 853 920 987 1050 1120 1190
Amps 3.92 4.19 4.46 4.74 5.01 5.28 5.56
Lb/h 146 142 139 135 131 127 123
Btu/h 9320 8520 7720 6920 6120 5320 4510
Watts 795 866 938 1010 1080 1150 1230
Amps 3.93 4.22 4.52 4.81 5.11 5.41 5.70
Lb/h 162 158 154 150 146 141 137
Btu/h 10200 9320 8450 7580 6700 5820 4940
Watts 804 880 957 1030 1110 1190 1260
Amps 3.92 4.24 4.56 4.88 5.20 5.52 5.84
Lb/h 179 174 170 165 161 156 151
Btu/h 11100 10100 9180 8230 7280 6330 5380
Watts 814 895 976 1060 1140 1220 1300
Amps 3.91 4.25 4.59 4.93 5.28 5.62 5.97
Lb/h 195 191 186 181 176 171 166
Btu/h 11900 10900 9900 8880 7860 6840 5820
Watts 826 912 997 1080 1170 1260 1340
Amps 3.87 4.24 4.60 4.97 5.34 5.71 6.08
Lb/h 212 207 202 197 192 186 181
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 1.139448E+04 3.095899E+02 2.074362E+00 1.397543E+02
C2 2.830511E+02 -5.742805E+00 -3.144054E-02 3.517747E+00
C3 -5.796475E+01 5.757381E+00 2.262077E-02 -3.065707E-01
C4 3.404641E-01 -1.307522E-02 -1.068642E-04 1.339406E-02
C5 -1.467620E+00 9.497019E-02 4.534696E-04 -7.380895E-03
C6 5.589788E-03 -6.681767E-04 -1.065510E-06 1.259763E-04
C7 -4.650892E-03 5.913157E-04 -3.333854E-06 -1.333453E-04
C8 9.907172E-05 -1.603546E-05 3.862403E-07 4.900670E-06
C9 4.945161E-05 -6.113622E-06 2.047429E-08 1.321006E-06
C10 -4.393177E-05 5.268394E-06 6.917314E-09 -9.995367E-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
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