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Transcript of GCH C - Aclima - дистрибьютор климатического...
SS-IGCH7 www.goodmanmfg.com 10/14Supersedes 6/14
Cooling Capacity: 87,000 — 116,000 BTU/hHeating Capacity: 87,000 — 120,000 BTU/h
GCH CommerCial
7½- TO 10-TON THREE-PHASE PACKAGED HEAT PUMP
UP TO 11.5 EER & 3.4 COP
■ ContentsNomenclature ......................... 2Product Specifications ............ 3Expanded Cooling Data ......... 4Expanded Heating Data ........ 10Airflow Data .......................... 11Heat Kit Electrical Data ........ 14Dimensions .......................... 15Wiring Diagrams .................. 19Accessories ........................... 2
■ Standard Features• R-410A chlorine-free refrigerant• High-efficiency scroll compressors• Suitable to operate at 125° F
ambient temperature• Two-stage cooling• Copper tube / aluminum fin coils• Power block for field wiring• High-capacity, steel-cased filter drier• Single-point entry• 24-volt terminal strip• Convertible airflow orientation• Easy to service• Built-in filter rack with standard 2” filters
■ Cabinet Features• Heavy-gauge, galvanized-steel cabinet
with UV-resistant powder-paint finish• Full perimeter rail• Sloped drain pan
2 www.goodmanmfg.com SS-IGCH7
Product SPecificationS Product SPecificationS
NomeNclature
G C H 090 045 5 B * * * A *1 2 3 4,5,6 7,8,9 10 11 12 13 14 15 16
Revision LevelsMajor & Minor
Brand Factory-‐Installed Op7onsG Goodman X No OpAons
Configura7on Factory-‐Installed Op7onsC Commercial X Standard Aluminized Heat Exchanger
S Stainless-‐Steel Heat ExchangerApplica7on
C Cooling Factory-‐Installed Op7onsG Gas Heat X No OpAonsH Heat Pump
Supply Fan/Drive Type/MotorNominal Cooling Capacity B Belt Drive036 3 Tons 102 8½ Tons048 4 Tons 120 10 Tons060 5 Tons 180 15 Tons072 6 Tons 240 20 Tons Voltage090 7½ Tons 1 208-‐230/1/60 4 460/3/60
3 208-‐230/3/60 5 400/3/50Nominal Hea7ng CapacityGas/Electric A/C H/P Factory-‐Installed Electric Heat180 180,000 BTU/h XXX No Heat 030 30 kW300 300,000 BTU/h 016 15 kW 045 44 kW350 350,000 BTU/h
See product specificaAons for heat size(s) available for each capacity.
accessories
Filed-Installed Item #
DescriptionFits
Model Sizes
DDNECNJ90150 Downflow Economizer 7½-10 tons
DHZECNJ90150 Horizontal Economizer 7½-10 tons
Electric Heat Kits All Models
HSKT090 High-Static Kit 7½ tons
HSKT120 High-Static Kit 10 tons
SS-IGCH7 www.goodmanmfg.com 3
Product SPecificationS Product SPecificationS
Product sPecificatioNs
GCH090***5B***A*
GCH102***5B***A*
GCH120***5B***A*
Cooling Capacity
Total BTU/h 87,000 97,000 116,000
Sensible BTU/h 65,700 73,440 84,700
EER / IEER 11.5 / 11.5 11.1 / 11.2 11.3 / 11.5
Decibels 83 83 83
Heating Capacity
BTU/h / COP (47° F) 87,000 / 3.4 102,000 / 3.4 120,000 / 3.4
BTU/h / COP (17° F) 53,000 / 2.4 55,500 / 2.25 '56,000 / 2.4
Evaporator Motor / Coil
Motor Type Belt Drive Belt Drive Belt Drive
Indoor Nominal CFM 3,000 3,400 4,000
Indoor Motor FLA (Cooling) 4.6 4.6 4.6
Horsepower - RPM 3.0 - 1,725 3.0 - 1,725 3.0 - 1,725
Piston Size (Cooling) 0.074 0.078 0.086
(#) Filter Size (4) 16" x 24" x 2" (4) 16" x 24" x 2" (4) 16" x 24" x 2"
Drain Size (NPT) ¾" ¾" ¾"
R-410A Refrigerant Charge: Cir #1/ #2 (oz.) 225 / 225 195/ 195 194/194
Evaporator Coil Face Area (ft²) 10.2 10.2 10.2
Rows Deep / Fins per Inch 4 / 16 4 / 14 4 / 14
Belt Drive Evap Fan Data
# of Wheels (D x W) 1 (15" x 12") 1 (15" x 15") 1 (15” x 15”)
Motor Sheave / Blower Sheave VL40 / AK59 VL40 / AK59 VL40 / AK59
Belt AX48 AX46 AX46
Condenser Fan / Coil
Quantity of condenser Fan Motors 2 2 2
Horsepower - RPM ⅓ - 1,050 ⅓ - 1,050 ⅓ - 1,050
Fan Diameter / # Fan Blades 22 / 3 22 / 3 22 / 3
Outdoor Expansion Device 0.052 0.059 0.064
Outdoor Nominal CFM 7,200 7,200 7,200
Face Area (ft²) 32.4 32.4 32.4
# Coils / Rows Deep - Fins per Inch 2 X 2 - 20±1 2 X 2 - 22±1 2 X 2 - 22±1
Compressor
Quantity / Type / Stage 2 / Scroll / 1 2 / Scroll / 1 2 / Scroll / 1
Compressor RLA / LRA 6.3/55.0 7.8/52.0 10.9/64.0
Electrical Data
Voltage / Phase / Frequency 400 / 3 / 50 400 / 3 / 50 400 / 3 / 50
Max External Static 1.0" 1.0" 1.0"
Outdoor Fan HP / FLA ⅓ / .85 (2) ⅓ / .85 (2) ⅓ /.85 (2)
Total Unit Amps 18.9 21.9 28.1
Min. Circuit Ampacity¹ 20.5 23.9 30.8
Max. Overcurrent Protection (amps)² 25 30 40
Entrance Power Supply & Control Voltage Locating Dimple Locating Dimple Locating Dimple
Operating Weight (lbs) 1135 1285 1285
Ship Weight (lbs) 1175 1310 1310
¹ Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes.² May use fuses or HACR-type circuit breakers of the same size as noted.Note: Always check the S&R plate for electrical data on the unit being installed.
4 www.goodmanmfg.com SS-IGCH7
ExpandEd data ExpandEd data
cooliNg data — 7½ toNsO
utd
oo
r A
mbi
ent
Tem
pera
ture
6575
8595
105
115
Ente
rin
g In
doo
r W
et B
ulb
Tem
pera
ture
IDB
Air
flo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
3375
MBh
85.3
88.4
96.8
-83
.386
.394
.6-
81.3
84.3
92.3
-79
.382
.290
.1-
75.3
78.1
85.6
-69
.872
.379
.3-
S/T
0.75
0.63
0.44
-0.
780.
650.
45-
0.80
0.67
0.46
-0.
830.
690.
48-
0.86
0.72
0.50
-0.
860.
720.
50-
∆T17
1511
-18
1512
-18
1512
-18
1512
-18
1512
-16
1411
-kW
5.67
5.78
5.95
-6.
076.
196.
38-
6.43
6.56
6.76
-6.
746.
887.
10-
7.01
7.16
7.38
-7.
247.
407.
63-
Am
ps12
.512
.712
.9-
13.1
13.4
13.7
-13
.914
.114
.5-
14.6
14.8
15.2
-15
.215
.515
.9-
15.9
16.2
16.6
-H
I PR
234
252
266
-26
228
229
8-
298
321
339
-34
036
638
6-
382
411
434
-42
245
448
0-
LO P
R10
811
512
6-
114
122
133
-11
912
613
8-
125
133
145
-13
113
915
2-
135
144
157
-
3000
MBh
82.8
85.8
94.0
-80
.883
.891
.8-
78.9
81.8
89.6
-77
.079
.887
.4-
73.1
75.8
83.1
-67
.870
.276
.9-
S/T
0.72
0.60
0.42
-0.
740.
620.
43-
0.76
0.64
0.44
-0.
790.
660.
46-
0.82
0.68
0.47
-0.
820.
690.
48-
∆T18
1612
-18
1612
-18
1612
-19
1612
-18
1612
-17
1511
-kW
5.63
5.74
5.90
-6.
036.
156.
33-
6.38
6.51
6.71
-6.
696.
837.
04-
6.96
7.10
7.33
-7.
197.
347.
57-
Am
ps12
.412
.612
.9-
13.1
13.3
13.6
-13
.814
.114
.4-
14.5
14.7
15.1
-15
.115
.415
.8-
15.8
16.1
16.5
-H
I PR
231
249
263
-26
027
929
5-
295
318
336
-33
636
238
2-
378
407
430
-41
845
047
5-
LO P
R10
711
412
4-
113
120
132
-11
812
513
7-
124
132
144
-13
013
815
0-
134
143
156
-
2400
MBh
76.4
79.2
86.8
-74
.677
.384
.7-
72.8
75.5
82.7
-71
.173
.780
.7-
67.5
70.0
76.7
-62
.564
.871
.0-
S/T
0.69
0.58
0.40
-0.
720.
600.
42-
0.74
0.61
0.43
-0.
760.
630.
44-
0.79
0.66
0.46
-0.
800.
660.
46-
∆T20
1813
-21
1813
-21
1813
-21
1814
-20
1813
-19
1613
-kW
5.50
5.61
5.77
-5.
896.
016.
19-
6.23
6.36
6.55
-6.
546.
676.
88-
6.79
6.94
7.15
-7.
027.
167.
39-
Am
ps12
.212
.412
.6-
12.8
13.0
13.3
-13
.613
.814
.1-
14.2
14.4
14.8
-14
.815
.115
.5-
15.5
15.7
16.1
-H
I PR
224
242
255
-25
227
128
6-
286
308
326
-32
635
137
1-
367
395
417
-40
643
646
1-
LO P
R10
411
112
1-
110
117
128
-11
412
113
3-
120
128
139
-12
613
414
6-
130
138
151
-
75
3375
MBh
86.7
89.3
96.6
103.
784
.787
.294
.410
1.3
82.7
85.1
92.1
98.9
80.6
83.0
89.9
96.5
76.6
78.9
85.4
91.6
71.0
73.1
79.1
84.9
S/T
0.86
0.77
0.58
0.37
0.89
0.79
0.60
0.39
0.91
0.81
0.62
0.40
0.94
0.84
0.64
0.41
0.97
0.87
0.66
0.42
0.98
0.88
0.67
0.43
∆T20
1915
1120
1915
1120
1915
1121
1916
1120
1915
1119
1814
10kW
5.71
5.82
5.99
6.17
6.12
6.24
6.43
6.63
6.48
6.61
6.82
7.03
6.80
6.94
7.16
7.38
7.07
7.22
7.44
7.68
7.30
7.46
7.69
7.94
Am
ps12
.512
.713
.013
.413
.213
.413
.714
.114
.014
.214
.615
.014
.714
.915
.315
.715
.315
.616
.016
.416
.016
.316
.717
.2H
I PR
236
254
268
280
265
285
301
314
301
324
342
357
343
369
390
407
386
415
439
458
427
459
485
506
LO P
R10
911
612
713
511
612
313
414
312
012
813
914
912
613
414
615
613
214
115
416
313
714
515
916
9
3000
MBh
84.2
86.7
93.8
100.
782
.284
.691
.698
.380
.382
.689
.496
.078
.380
.687
.393
.774
.476
.682
.989
.068
.970
.976
.882
.4S/
T0.
820.
730.
550.
360.
850.
760.
570.
370.
870.
780.
590.
380.
900.
800.
610.
390.
930.
830.
630.
400.
940.
840.
630.
41∆T
2119
1611
2120
1611
2120
1611
2120
1611
2120
1611
2018
1510
kW5.
675.
785.
956.
136.
076.
196.
386.
586.
436.
566.
766.
976.
756.
897.
107.
327.
017.
167.
397.
627.
257.
407.
637.
88A
mps
12.5
12.7
12.9
13.3
13.1
13.4
13.7
14.0
13.9
14.1
14.5
14.9
14.6
14.8
15.2
15.6
15.2
15.5
15.9
16.3
15.9
16.2
16.6
17.1
HI P
R23
425
226
627
726
228
229
831
129
832
133
935
434
036
638
640
338
241
143
445
342
245
448
050
1LO
PR
108
115
126
134
114
122
133
141
119
126
138
147
125
133
145
154
131
139
152
162
135
144
157
167
2400
MBh
77.7
80.0
86.6
92.9
75.9
78.1
84.6
90.8
74.1
76.3
82.6
88.6
72.3
74.4
80.5
86.4
68.7
70.7
76.5
82.1
63.6
65.5
70.9
76.1
S/T
0.79
0.70
0.53
0.34
0.82
0.73
0.55
0.36
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.38
0.90
0.80
0.61
0.39
0.90
0.81
0.61
0.39
∆T23
2218
1224
2218
1224
2218
1224
2218
1224
2218
1222
2017
11kW
5.54
5.65
5.81
5.99
5.93
6.05
6.23
6.42
6.28
6.41
6.60
6.81
6.59
6.72
6.93
7.15
6.85
6.99
7.21
7.44
7.07
7.22
7.45
7.69
Am
ps12
.312
.412
.713
.012
.913
.113
.413
.713
.613
.914
.214
.614
.314
.514
.915
.314
.915
.215
.616
.015
.615
.816
.216
.7H
I PR
227
244
258
269
254
274
289
302
289
311
329
343
330
355
375
391
371
399
421
439
410
441
466
486
LO P
R10
511
212
213
011
111
812
913
711
512
313
414
312
112
914
115
012
713
514
715
713
114
015
316
2
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) R
ating
Con
ditio
nsA
mps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
acc
ess
fitting
s.D
esig
n Su
perh
eat 7
±2 °F
, Des
ign
Subc
oolin
g 12
±2
°F p
ress
ures
mea
sure
d @
the
sucti
on a
nd li
quid
ser
vice
por
ts, A
HRI
95
test
con
ditio
ns
SS-IGCH7 www.goodmanmfg.com 5
ExpandEd data ExpandEd data
cooliNg data — 7½ toNs (coNt.)O
utd
oo
r A
mbi
ent
Tem
pera
ture
6575
8595
105
115
Ente
rin
g In
doo
r W
et B
ulb
Tem
pera
ture
IDB
Air
flo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
3375
MBh
88.2
90.2
96.3
103.
086
.288
.194
.110
0.6
84.1
86.0
91.9
98.2
82.1
83.9
89.6
95.8
78.0
79.7
85.1
91.0
72.2
73.8
78.9
84.3
S/T
0.94
0.88
0.72
0.54
1.00
0.91
0.74
0.56
1.00
0.94
0.76
0.57
1.00
0.97
0.79
0.59
1.00
1.00
0.82
0.61
1.00
1.00
0.82
0.62
∆T23
2219
1523
2219
1523
2219
1522
2219
1521
2219
1520
2018
14kW
5.75
5.87
6.04
6.22
6.17
6.29
6.48
6.68
6.53
6.66
6.87
7.08
6.85
7.00
7.21
7.44
7.13
7.28
7.50
7.75
7.36
7.52
7.76
8.01
Am
ps12
.612
.813
.113
.413
.313
.513
.814
.214
.114
.314
.715
.114
.815
.015
.415
.815
.415
.716
.116
.616
.116
.416
.817
.3H
I PR
238
257
271
283
268
288
304
317
304
328
346
361
347
373
394
411
390
420
443
462
431
464
490
511
LO P
R11
011
812
813
711
712
413
614
412
112
914
115
012
713
614
815
813
414
215
516
513
814
716
017
1
3000
MBh
85.7
87.5
93.5
100.
083
.785
.591
.497
.781
.783
.589
.295
.379
.781
.487
.093
.075
.777
.482
.788
.470
.171
.776
.681
.8S/
T0.
900.
840.
680.
510.
930.
870.
710.
530.
950.
890.
730.
540.
980.
920.
750.
561.
000.
960.
780.
581.
000.
960.
780.
59∆T
2423
2016
2423
2016
2423
2016
2423
2016
2323
2016
2121
1815
kW5.
715.
825.
996.
176.
126.
246.
436.
636.
486.
616.
827.
036.
806.
947.
167.
387.
077.
227.
457.
687.
307.
467.
697.
94A
mps
12.5
12.7
13.0
13.4
13.2
13.4
13.7
14.1
14.0
14.2
14.6
15.0
14.7
14.9
15.3
15.7
15.3
15.6
16.0
16.4
16.0
16.3
16.7
17.2
HI P
R23
625
426
828
026
528
530
131
430
132
434
235
734
336
939
040
738
641
543
945
842
745
948
550
6LO
PR
109
116
127
135
116
123
134
143
120
128
139
149
126
134
147
156
132
141
154
164
137
145
159
169
2400
MBh
79.1
80.8
86.3
92.3
77.2
78.9
84.3
90.1
75.4
77.0
82.3
88.0
73.6
75.2
80.3
85.8
69.9
71.4
76.3
81.5
64.7
66.1
70.7
75.5
S/T
0.86
0.81
0.66
0.49
0.90
0.84
0.68
0.51
0.92
0.86
0.70
0.52
0.95
0.89
0.72
0.54
0.98
0.92
0.75
0.56
0.99
0.93
0.76
0.57
∆T26
2522
1726
2522
1827
2522
1827
2622
1826
2522
1825
2420
16kW
5.58
5.69
5.86
6.03
5.98
6.10
6.28
6.47
6.33
6.46
6.66
6.86
6.64
6.78
6.99
7.21
6.90
7.05
7.27
7.50
7.13
7.28
7.51
7.75
Am
ps12
.312
.512
.813
.113
.013
.213
.513
.813
.714
.014
.314
.714
.414
.615
.015
.415
.015
.315
.716
.115
.716
.016
.316
.8H
I PR
229
246
260
271
257
277
292
305
292
315
332
346
333
358
378
395
375
403
426
444
414
445
470
490
LO P
R10
611
312
313
111
211
913
013
911
612
413
514
412
213
014
215
112
813
614
915
913
314
115
416
4
85
3375
MBh
89.8
91.5
95.8
102.
387
.789
.493
.699
.985
.687
.391
.497
.583
.585
.189
.295
.179
.380
.984
.790
.473
.574
.978
.583
.7S/
T0.
980.
950.
860.
701.
000.
980.
890.
721.
001.
000.
910.
741.
001.
000.
940.
761.
001.
000.
980.
791.
001.
000.
980.
80∆T
2424
2219
2424
2320
2324
2320
2323
2320
2222
2319
2020
2118
kW5.
795.
916.
086.
276.
216.
346.
536.
736.
586.
726.
927.
146.
917.
057.
277.
507.
187.
337.
567.
817.
427.
587.
828.
07A
mps
12.7
12.9
13.2
13.5
13.4
13.6
13.9
14.3
14.2
14.4
14.8
15.2
14.9
15.1
15.5
15.9
15.5
15.8
16.2
16.7
16.2
16.5
16.9
17.4
HI P
R24
125
927
428
527
029
130
732
030
733
134
936
435
037
739
841
539
442
444
846
743
546
849
551
6LO
PR
112
119
130
138
118
125
137
146
122
130
142
152
129
137
149
159
135
143
157
167
139
148
162
173
3000
MBh
87.2
88.9
93.1
99.3
85.1
86.8
90.9
97.0
83.1
84.7
88.7
94.7
81.1
82.7
86.6
92.4
77.0
78.5
82.2
87.7
71.4
72.7
76.2
81.3
S/T
0.94
0.91
0.82
0.66
0.97
0.94
0.85
0.69
1.00
0.96
0.87
0.71
1.00
0.99
0.90
0.73
1.00
1.00
0.93
0.76
1.00
1.00
0.94
0.76
∆T25
2523
2025
2524
2025
2524
2025
2524
2124
2423
2022
2222
19kW
5.75
5.87
6.04
6.22
6.17
6.29
6.48
6.68
6.53
6.66
6.87
7.08
6.85
7.00
7.21
7.44
7.13
7.28
7.50
7.75
7.36
7.52
7.76
8.01
Am
ps12
.612
.813
.113
.413
.313
.513
.814
.214
.114
.314
.715
.114
.815
.015
.415
.815
.415
.716
.116
.616
.116
.416
.817
.3H
I PR
238
257
271
283
268
288
304
317
304
328
346
361
347
373
394
411
390
420
443
462
431
464
490
511
LO P
R11
011
812
813
711
712
413
614
412
112
914
115
012
713
614
815
813
414
215
516
513
814
716
017
1
2400
MBh
80.5
82.0
85.9
91.6
78.6
80.1
83.9
89.5
76.7
78.2
81.9
87.4
74.8
76.3
79.9
85.2
71.1
72.5
75.9
81.0
65.9
67.1
70.3
75.0
S/T
0.91
0.87
0.79
0.64
0.94
0.91
0.82
0.66
0.96
0.93
0.84
0.68
0.99
0.96
0.86
0.70
1.00
0.99
0.90
0.73
1.00
1.00
0.91
0.73
∆T28
2726
2228
2826
2328
2826
2328
2826
2327
2826
2325
2624
21kW
5.62
5.73
5.90
6.08
6.02
6.15
6.33
6.52
6.38
6.51
6.71
6.92
6.69
6.83
7.04
7.26
6.96
7.10
7.32
7.56
7.19
7.34
7.57
7.81
Am
ps12
.412
.612
.913
.213
.113
.313
.613
.913
.814
.014
.414
.814
.514
.715
.115
.515
.115
.415
.816
.215
.816
.116
.516
.9H
I PR
231
249
263
274
260
279
295
308
295
318
335
350
336
362
382
399
378
407
430
448
418
450
475
495
LO P
R10
711
412
413
311
312
013
114
011
812
513
714
612
413
114
415
313
013
815
016
013
414
315
616
6
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s A
HRI
Rati
ng C
ondi
tions
Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)H
igh
and
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
and
sucti
on a
cces
s fitti
ngs.
Des
ign
Supe
rhea
t 7±2
°F, D
esig
n Su
bcoo
ling
12 ±
2 °F
pre
ssur
es m
easu
red
@ th
e su
ction
and
liqu
id s
ervi
ce p
orts
, AH
RI 9
5 te
st c
ondi
tions
6 www.goodmanmfg.com SS-IGCH7
ExpandEd data ExpandEd data
cooliNg data — 8½ toNsO
utd
oo
r A
mbi
ent
Tem
pera
ture
6575
8595
105
115
Ente
rin
g In
doo
r W
et B
ulb
Tem
pera
ture
IDB
Air
flo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
3825
MBh
95.1
98.5
107.
9-
92.8
96.2
105.
4-
90.6
93.9
102.
9-
88.4
91.6
100.
4-
84.0
87.1
95.4
-77
.880
.688
.4-
S/T
0.77
0.64
0.44
-0.
800.
670.
46-
0.82
0.68
0.47
-0.
840.
700.
49-
0.88
0.73
0.51
-0.
880.
740.
51-
∆T18
1512
-18
1512
-18
1512
-18
1612
-18
1512
-17
1411
-kW
6.44
6.57
6.76
-6.
907.
047.
26-
7.31
7.46
7.69
-7.
677.
838.
08-
7.98
8.15
8.41
-8.
248.
428.
69-
Am
ps13
.213
.413
.7-
13.9
14.1
14.5
-14
.715
.015
.3-
15.4
15.7
16.1
-16
.216
.416
.8-
16.9
17.2
17.6
-H
I PR
234
252
266
-26
228
229
8-
298
321
339
-34
036
638
6-
382
411
434
-42
245
448
0-
LO P
R10
811
512
6-
114
122
133
-11
912
613
8-
125
133
145
-13
113
915
2-
135
144
157
-
3400
MBh
92.3
95.6
104.
8-
90.1
93.4
102.
4-
88.0
91.2
99.9
-85
.889
.097
.5-
81.6
84.5
92.6
-75
.578
.385
.8-
S/T
0.73
0.61
0.42
-0.
760.
630.
44-
0.78
0.65
0.45
-0.
800.
670.
47-
0.83
0.70
0.48
-0.
840.
700.
49-
∆T18
1612
-19
1612
-19
1612
-19
1612
-18
1612
-17
1511
-kW
6.39
6.52
6.71
-6.
856.
997.
20-
7.26
7.41
7.63
-7.
617.
778.
01-
7.92
8.08
8.34
-8.
188.
358.
62-
Am
ps13
.113
.313
.6-
13.8
14.0
14.4
-14
.614
.915
.2-
15.3
15.6
16.0
-16
.016
.316
.7-
16.7
17.0
17.5
-H
I PR
231
249
263
-26
027
929
5-
295
318
336
-33
636
238
2-
378
407
430
-41
845
047
5-
LO P
R10
711
412
4-
113
120
132
-11
812
513
7-
124
132
144
-13
013
815
0-
134
143
156
-
2720
MBh
85.2
88.3
96.7
-83
.286
.294
.5-
81.2
84.2
92.2
-79
.282
.190
.0-
75.3
78.0
85.5
-69
.772
.379
.2-
S/T
0.71
0.59
0.41
-0.
730.
610.
42-
0.75
0.63
0.43
-0.
780.
650.
45-
0.80
0.67
0.47
-0.
810.
680.
47-
∆T20
1813
-21
1814
-21
1814
-21
1814
-20
1813
-19
1713
-kW
6.25
6.37
6.56
-6.
706.
837.
04-
7.09
7.23
7.45
-7.
447.
597.
82-
7.73
7.89
8.14
-7.
988.
158.
41-
Am
ps12
.913
.113
.4-
13.6
13.8
14.1
-14
.314
.614
.9-
15.0
15.3
15.7
-15
.716
.016
.4-
16.4
16.7
17.1
-H
I PR
224
242
255
-25
227
128
6-
286
308
326
-32
635
137
1-
367
395
417
-40
643
646
1-
LO P
R10
411
112
1-
110
117
128
-11
412
113
3-
120
128
139
-12
613
414
6-
130
138
151
-
75
3825
MBh
96.7
99.5
107.
711
5.6
94.4
97.2
105.
211
2.9
92.2
94.9
102.
711
0.2
89.9
92.6
100.
210
7.6
85.4
88.0
95.2
102.
279
.181
.588
.294
.6S/
T0.
870.
780.
590.
380.
910.
810.
610.
390.
930.
830.
630.
400.
960.
860.
650.
420.
990.
890.
670.
431.
000.
900.
680.
44∆T
2019
1511
2119
1611
2119
1611
2119
1611
2019
1511
1918
1410
kW6.
496.
626.
817.
026.
967.
107.
317.
547.
377.
527.
758.
007.
747.
908.
148.
408.
048.
228.
478.
758.
318.
498.
769.
04A
mps
13.3
13.5
13.8
14.1
14.0
14.2
14.5
14.9
14.8
15.1
15.4
15.8
15.5
15.8
16.2
16.6
16.3
16.6
17.0
17.4
17.0
17.3
17.7
18.2
HI P
R23
625
426
828
026
528
530
131
430
132
434
235
734
336
939
040
738
641
543
945
842
745
948
550
6LO
PR
109
116
127
135
116
123
134
143
120
128
139
149
126
134
146
156
132
141
154
163
137
145
159
169
3400
MBh
93.8
96.6
104.
611
2.3
91.7
94.4
102.
210
9.6
89.5
92.1
99.7
107.
087
.389
.997
.310
4.4
82.9
85.4
92.4
99.2
76.8
79.1
85.6
91.9
S/T
0.83
0.75
0.56
0.36
0.86
0.77
0.58
0.38
0.89
0.79
0.60
0.39
0.91
0.82
0.62
0.40
0.95
0.85
0.64
0.41
0.96
0.86
0.65
0.42
∆T21
1916
1121
2016
1121
2016
1122
2016
1121
2016
1120
1815
10kW
6.44
6.57
6.76
6.97
6.91
7.05
7.26
7.48
7.31
7.46
7.69
7.94
7.67
7.84
8.08
8.34
7.98
8.15
8.41
8.68
8.25
8.42
8.69
8.97
Am
ps13
.213
.413
.714
.013
.914
.114
.514
.814
.715
.015
.315
.715
.415
.716
.116
.516
.216
.416
.817
.316
.917
.217
.618
.1H
I PR
234
252
266
277
262
282
298
311
298
321
339
354
340
366
386
403
382
411
434
453
422
454
480
501
LO P
R10
811
512
613
411
412
213
314
111
912
613
814
712
513
314
515
413
113
915
216
213
514
415
716
7
2720
MBh
86.6
89.2
96.5
103.
684
.687
.194
.310
1.2
82.6
85.0
92.0
98.8
80.6
83.0
89.8
96.4
76.5
78.8
85.3
91.6
70.9
73.0
79.0
84.8
S/T
0.80
0.72
0.54
0.35
0.83
0.74
0.56
0.36
0.85
0.76
0.58
0.37
0.88
0.79
0.60
0.38
0.91
0.82
0.62
0.40
0.92
0.83
0.62
0.40
∆T24
2218
1224
2218
1224
2218
1224
2218
1324
2218
1222
2017
12kW
6.30
6.42
6.61
6.81
6.75
6.88
7.09
7.31
7.14
7.29
7.51
7.75
7.49
7.65
7.89
8.14
7.79
7.96
8.20
8.47
8.05
8.22
8.48
8.75
Am
ps12
.913
.213
.413
.813
.613
.914
.214
.514
.414
.715
.015
.415
.115
.415
.816
.215
.816
.116
.517
.016
.516
.817
.217
.7H
I PR
227
244
258
269
254
274
289
302
289
311
329
343
330
355
375
391
371
399
421
439
410
441
466
486
LO P
R10
511
212
213
011
111
812
913
711
512
313
414
312
112
914
115
012
713
514
715
713
114
015
316
2
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) R
ating
Con
ditio
nsA
mps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
acc
ess
fitting
s.D
esig
n Su
perh
eat 7
±2 °F
, Des
ign
Subc
oolin
g 12
±2
°F p
ress
ures
mea
sure
d @
the
sucti
on a
nd li
quid
ser
vice
por
ts, A
HRI
95
test
con
ditio
ns
SS-IGCH7 www.goodmanmfg.com 7
ExpandEd data ExpandEd data
cooliNg data — 8½ toNs (coNt.)O
utd
oo
r A
mbi
ent
Tem
pera
ture
6575
8595
105
115
Ente
rin
g In
doo
r W
et B
ulb
Tem
pera
ture
IDB
Air
flo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
3825
MBh
98.4
100.
510
7.4
114.
896
.198
.210
4.9
112.
193
.895
.910
2.4
109.
591
.593
.599
.910
6.8
86.9
88.8
94.9
101.
580
.582
.387
.994
.0S/
T0.
960.
900.
730.
551.
000.
930.
760.
571.
000.
960.
780.
581.
001.
000.
800.
601.
001.
000.
830.
621.
001.
000.
840.
63∆T
2322
1915
2322
1915
2322
1915
2222
1915
2121
1915
1920
1814
kW6.
546.
676.
877.
077.
017.
157.
377.
607.
437.
587.
828.
067.
807.
968.
218.
478.
118.
288.
548.
828.
388.
568.
839.
12A
mps
13.3
13.6
13.9
14.2
14.1
14.3
14.6
15.0
14.9
15.2
15.5
16.0
15.6
15.9
16.3
16.8
16.4
16.7
17.1
17.6
17.1
17.4
17.8
18.4
HI P
R23
825
727
128
326
828
830
431
730
432
834
636
134
737
339
441
139
042
044
346
243
146
449
051
1LO
PR
110
118
128
137
117
124
136
144
121
129
141
150
127
136
148
158
134
142
155
165
138
147
160
171
3400
MBh
95.5
97.6
104.
311
1.5
93.3
95.3
101.
910
8.9
91.1
93.1
99.4
106.
388
.990
.897
.010
3.7
84.4
86.3
92.2
98.5
78.2
79.9
85.4
91.2
S/T
0.91
0.86
0.70
0.52
0.95
0.89
0.72
0.54
0.97
0.91
0.74
0.55
1.00
0.94
0.77
0.57
1.00
0.98
0.79
0.59
1.00
0.98
0.80
0.60
∆T24
2320
1624
2320
1624
2320
1624
2320
1623
2320
1621
2118
15kW
6.49
6.62
6.82
7.02
6.96
7.10
7.31
7.54
7.37
7.52
7.76
8.00
7.74
7.90
8.14
8.40
8.05
8.22
8.47
8.75
8.31
8.49
8.76
9.04
Am
ps13
.313
.513
.814
.114
.014
.214
.514
.914
.815
.115
.415
.915
.515
.816
.216
.616
.316
.617
.017
.417
.017
.317
.718
.2H
I PR
236
254
268
280
265
285
301
314
301
324
342
357
343
369
390
407
386
415
439
458
427
459
485
506
LO P
R10
911
612
713
511
612
313
414
312
012
813
914
912
613
414
715
613
214
115
416
413
714
515
916
9
2720
MBh
88.2
90.1
96.2
102.
986
.188
.094
.010
0.5
84.1
85.9
91.8
98.1
82.0
83.8
89.5
95.7
77.9
79.6
85.1
90.9
72.2
73.7
78.8
84.2
S/T
0.88
0.83
0.67
0.50
0.91
0.86
0.70
0.52
0.94
0.88
0.71
0.53
0.97
0.91
0.74
0.55
1.00
0.94
0.77
0.57
1.01
0.95
0.77
0.58
∆T26
2522
1727
2522
1827
2522
1827
2622
1826
2522
1825
2421
16kW
6.35
6.47
6.66
6.86
6.80
6.94
7.14
7.36
7.20
7.35
7.57
7.81
7.55
7.71
7.95
8.20
7.85
8.02
8.27
8.53
8.11
8.29
8.55
8.82
Am
ps13
.013
.213
.513
.913
.714
.014
.314
.614
.514
.815
.115
.515
.215
.515
.916
.315
.916
.216
.617
.116
.616
.917
.317
.8H
I PR
229
246
260
271
257
277
292
305
292
315
332
346
333
358
378
395
375
403
426
444
414
445
470
490
LO P
R10
611
312
313
111
211
913
013
911
612
413
514
412
213
014
215
112
813
614
915
913
314
115
416
4
85
3825
MBh
100.
110
2.0
106.
911
4.0
97.8
99.7
104.
411
1.4
95.4
97.3
101.
910
8.7
93.1
94.9
99.4
106.
188
.590
.294
.410
0.8
81.9
83.5
87.5
93.3
S/T
1.00
0.97
0.87
0.71
1.00
1.00
0.91
0.74
1.00
1.00
0.93
0.75
1.00
1.00
0.96
0.78
1.00
1.00
1.00
0.81
1.00
1.00
1.00
0.81
∆T24
2422
1924
2423
2023
2323
2022
2323
2021
2223
2020
2021
18kW
6.59
6.72
6.92
7.13
7.06
7.21
7.43
7.66
7.49
7.64
7.88
8.13
7.86
8.02
8.27
8.54
8.17
8.35
8.61
8.89
8.45
8.63
8.90
9.19
Am
ps13
.413
.614
.014
.314
.214
.414
.715
.115
.015
.315
.616
.115
.716
.016
.416
.916
.516
.817
.217
.717
.217
.518
.018
.5H
I PR
241
259
274
285
270
291
307
320
307
331
349
364
350
377
398
415
394
424
448
467
435
468
495
516
LO P
R11
211
913
013
811
812
513
714
612
213
014
215
212
913
714
915
913
514
315
716
713
914
816
217
3
3400
MBh
97.2
99.1
103.
811
0.7
94.9
96.8
101.
310
8.1
92.7
94.5
98.9
105.
590
.492
.296
.510
3.0
85.9
87.5
91.7
97.8
79.6
81.1
84.9
90.6
S/T
0.96
0.92
0.83
0.68
0.99
0.96
0.86
0.70
1.00
0.98
0.89
0.72
1.00
1.00
0.92
0.74
1.00
1.00
0.95
0.77
1.00
1.00
0.96
0.78
∆T25
2523
2025
2524
2125
2524
2124
2524
2123
2424
2022
2222
19kW
6.54
6.67
6.87
7.07
7.01
7.15
7.37
7.60
7.43
7.58
7.82
8.06
7.80
7.96
8.21
8.47
8.11
8.28
8.54
8.82
8.38
8.56
8.83
9.12
Am
ps13
.313
.613
.914
.214
.114
.314
.615
.014
.915
.215
.516
.015
.615
.916
.316
.816
.416
.717
.117
.617
.117
.417
.818
.4H
I PR
238
257
271
283
268
288
304
317
304
328
346
361
347
373
394
411
390
420
443
462
431
464
490
511
LO P
R11
011
812
813
711
712
413
614
412
112
914
115
012
713
614
815
813
414
215
516
513
814
716
017
1
2720
MBh
89.7
91.4
95.8
102.
287
.689
.393
.599
.885
.587
.291
.397
.483
.485
.189
.195
.079
.380
.884
.690
.373
.474
.978
.483
.6S/
T0.
920.
890.
800.
650.
960.
920.
830.
680.
980.
950.
850.
691.
000.
980.
880.
721.
001.
000.
920.
741.
001.
000.
920.
75∆T
2828
2623
2828
2623
2828
2623
2828
2723
2727
2623
2525
2421
kW6.
396.
526.
716.
916.
856.
997.
207.
427.
267.
407.
637.
877.
617.
778.
018.
277.
928.
088.
348.
608.
188.
358.
628.
89A
mps
13.1
13.3
13.6
13.9
13.8
14.0
14.4
14.7
14.6
14.9
15.2
15.6
15.3
15.6
16.0
16.4
16.0
16.3
16.7
17.2
16.7
17.0
17.5
18.0
HI P
R23
124
926
327
426
027
929
530
829
531
833
535
033
636
238
239
937
840
743
044
841
845
047
549
5LO
PR
107
114
124
133
113
120
131
140
118
125
137
146
124
131
144
153
130
138
150
160
134
143
156
166
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s A
HRI
Rati
ng C
ondi
tions
Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)H
igh
and
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
and
sucti
on a
cces
s fitti
ngs.
Des
ign
Supe
rhea
t 7±2
°F, D
esig
n Su
bcoo
ling
12 ±
2 °F
pre
ssur
es m
easu
red
@ th
e su
ction
and
liqu
id s
ervi
ce p
orts
, AH
RI 9
5 te
st c
ondi
tions
8 www.goodmanmfg.com SS-IGCH7
ExpandEd data ExpandEd data
cooliNg data — 10 toNsO
utd
oo
r A
mbi
ent
Tem
pera
ture
6575
8595
105
115
Ente
rin
g In
doo
r W
et B
ulb
Tem
pera
ture
IDB
Air
flo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
4500
MBh
115.
611
9.8
131.
3-
112.
911
7.1
128.
3-
110.
311
4.3
125.
2-
107.
611
1.5
122.
1-
102.
210
5.9
116.
0-
94.7
98.1
107.
5-
S/T
0.74
0.62
0.43
-0.
770.
640.
45-
0.79
0.66
0.46
-0.
820.
680.
47-
0.85
0.71
0.49
-0.
850.
710.
49-
∆T18
1512
-18
1512
-18
1512
-18
1612
-18
1512
-17
1411
-
Hi P
r24
626
427
9-
276
297
313
-31
433
735
6-
357
384
406
-40
243
245
7-
444
478
504
-
Lo P
r10
711
412
4-
113
120
131
-11
812
513
7-
124
131
144
-13
013
815
0-
134
143
156
-
4000
MBh
112.
311
6.4
127.
5-
109.
711
3.7
124.
5-
107.
011
0.9
121.
6-
104.
410
8.2
118.
6-
99.2
102.
811
2.7
-91
.995
.310
4.4
-
S/T
0.71
0.59
0.41
-0.
730.
610.
43-
0.75
0.63
0.44
-0.
780.
650.
45-
0.81
0.67
0.47
-0.
810.
680.
47-
∆T18
1612
-19
1612
-19
1612
-19
1612
-18
1612
-17
1511
-
Hi P
r24
326
227
6-
273
294
310
-31
033
435
3-
354
381
402
-39
842
845
2-
440
473
499
-
Lo P
r10
611
312
3-
112
119
130
-11
612
413
5-
122
130
142
-12
813
614
9-
133
141
154
-
3200
MBh
103.
610
7.4
117.
7-
101.
210
4.9
114.
9-
98.8
102.
411
2.2
-96
.499
.910
9.5
-91
.694
.910
4.0
-84
.887
.996
.3-
S/T
0.68
0.57
0.40
-0.
710.
590.
41-
0.73
0.61
0.42
-0.
750.
630.
43-
0.78
0.65
0.45
-0.
780.
660.
45-
∆T20
1813
-21
1814
-21
1814
-21
1814
-20
1813
-19
1713
-
Hi P
r23
625
426
8-
265
285
301
-30
132
434
2-
343
369
390
-38
641
543
8-
426
459
484
-
Lo P
r10
310
912
0-
109
116
126
-11
312
013
1-
119
126
138
-12
413
214
4-
129
137
149
-
75
4500
MBh
117.
612
1.1
131.
014
0.6
114.
911
8.3
128.
013
7.4
112.
111
5.4
125.
013
4.1
109.
411
2.6
121.
913
0.8
103.
910
7.0
115.
812
4.3
96.3
99.1
107.
311
5.1
S/T
0.84
0.76
0.57
0.37
0.88
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.96
0.86
0.65
0.42
0.97
0.87
0.66
0.42
∆T20
1915
1121
1916
1121
1916
1121
1916
1120
1915
1119
1814
10
Hi P
r24
826
728
229
427
930
031
633
031
734
136
037
536
138
841
042
840
643
746
148
144
848
351
053
1
Lo P
r10
811
512
613
411
412
213
314
111
912
613
814
712
513
314
515
413
113
915
216
213
514
415
716
7
4000
MBh
114.
211
7.5
127.
213
6.6
111.
511
4.8
124.
313
3.4
108.
911
2.1
121.
313
0.2
106.
210
9.3
118.
412
7.0
100.
910
3.9
112.
412
0.7
93.5
96.2
104.
211
1.8
S/T
0.81
0.72
0.55
0.35
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.37
0.88
0.79
0.60
0.38
0.92
0.82
0.62
0.40
0.93
0.83
0.63
0.40
∆T21
1916
1121
2016
1121
2016
1122
2016
1121
2016
1120
1815
10
Hi P
r24
626
427
929
127
629
731
332
731
433
735
637
235
738
440
642
340
243
245
747
644
447
850
552
6
Lo P
r10
711
412
413
311
312
013
114
011
812
513
714
612
413
114
415
313
013
815
016
013
414
315
616
6
3200
MBh
105.
410
8.5
117.
412
6.0
102.
910
6.0
114.
712
3.1
100.
510
3.4
112.
012
0.2
98.0
100.
910
9.2
117.
293
.195
.910
3.8
111.
486
.388
.896
.110
3.2
S/T
0.78
0.69
0.53
0.34
0.81
0.72
0.55
0.35
0.83
0.74
0.56
0.36
0.85
0.76
0.58
0.37
0.88
0.79
0.60
0.39
0.89
0.80
0.60
0.39
∆T24
2218
1224
2218
1224
2218
1224
2218
1324
2218
1222
2017
12
Hi P
r23
825
727
128
326
728
830
431
730
432
734
636
134
637
339
441
139
041
944
346
243
146
348
951
0
Lo P
r10
411
112
112
911
011
712
813
611
412
113
314
112
012
813
914
812
613
414
615
513
013
815
116
1
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) R
ating
Con
ditio
nsA
mps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
acc
ess
fitting
s.D
esig
n Su
perh
eat 7
±2 °F
, Des
ign
Subc
oolin
g 12
±2
°F p
ress
ures
mea
sure
d @
the
sucti
on a
nd li
quid
ser
vice
por
ts, A
HRI
95
test
con
ditio
ns
SS-IGCH7 www.goodmanmfg.com 9
ExpandEd data ExpandEd data
cooliNg data — 10 toNs (coNt.)O
utd
oo
r A
mbi
ent
Tem
pera
ture
6575
8595
105
115
Ente
rin
g In
doo
r W
et B
ulb
Tem
pera
ture
IDB
Air
flo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
4500
MBh
119.
712
2.3
130.
713
9.7
116.
911
9.4
127.
613
6.4
114.
111
6.6
124.
613
3.2
111.
311
3.8
121.
512
9.9
105.
810
8.1
115.
512
3.4
98.0
100.
110
7.0
114.
3
S/T
0.93
0.87
0.71
0.53
0.96
0.90
0.73
0.55
1.00
0.92
0.75
0.56
1.00
0.95
0.78
0.58
1.00
1.00
0.81
0.60
1.00
1.00
0.81
0.61
∆T23
2219
1523
2219
1523
2219
1523
2219
1522
2219
1520
2018
14
Hi P
r25
127
028
529
728
130
332
033
332
034
436
437
936
439
241
443
241
044
146
648
645
348
751
553
7
Lo P
r10
911
612
713
511
612
313
414
312
012
813
914
812
613
414
615
613
214
115
316
313
714
515
916
9
4000
MBh
116.
211
8.7
126.
913
5.6
113.
511
6.0
123.
913
2.4
110.
811
3.2
121.
012
9.3
108.
111
0.4
118.
012
6.1
102.
710
4.9
112.
111
9.8
95.1
97.2
103.
811
1.0
S/T
0.88
0.83
0.67
0.50
0.92
0.86
0.70
0.52
0.94
0.88
0.72
0.54
0.97
0.91
0.74
0.55
1.00
0.94
0.77
0.57
1.00
0.95
0.77
0.58
∆T24
2320
1624
2320
1624
2320
1624
2320
1624
2320
1622
2118
15
Hi P
r24
826
728
229
427
930
031
733
031
734
136
037
536
138
841
042
840
643
746
148
144
848
351
053
2
Lo P
r10
811
512
613
411
412
213
314
111
912
613
814
712
513
314
515
413
113
915
216
213
514
415
716
7
3200
MBh
107.
210
9.6
117.
112
5.2
104.
810
7.0
114.
412
2.3
102.
310
4.5
111.
611
9.3
99.8
101.
910
8.9
116.
494
.896
.810
3.5
110.
687
.889
.795
.810
2.5
S/T
0.85
0.80
0.65
0.49
0.88
0.83
0.67
0.50
0.91
0.85
0.69
0.52
0.93
0.88
0.71
0.53
0.97
0.91
0.74
0.55
0.98
0.92
0.75
0.56
∆T26
2522
1727
2522
1827
2522
1827
2622
1826
2522
1825
2421
16
Hi P
r24
125
927
428
527
029
130
732
030
733
134
936
435
037
739
841
539
442
444
746
743
546
849
451
6
Lo P
r10
511
212
213
011
111
812
913
711
512
313
414
312
112
914
115
012
713
514
715
713
114
015
216
2
85
4500
MBh
121.
812
4.1
130.
013
8.7
118.
912
1.2
127.
013
5.5
116.
111
8.4
124.
013
2.2
113.
311
5.5
120.
912
9.0
107.
610
9.7
114.
912
2.6
99.7
101.
610
6.4
113.
5
S/T
0.97
0.94
0.85
0.69
1.00
0.97
0.88
0.71
1.00
1.00
0.90
0.73
1.00
1.00
0.93
0.75
1.00
1.00
0.96
0.78
1.00
1.00
0.97
0.79
∆T24
2422
1924
2423
2024
2423
2023
2423
2022
2223
2020
2121
18
Hi P
r25
327
228
830
028
430
632
333
732
334
836
738
336
839
641
843
641
444
647
149
145
749
252
054
2
Lo P
r11
011
712
813
711
712
413
514
412
112
914
115
012
713
514
815
813
314
215
516
513
814
716
017
1
4000
MBh
118.
212
0.5
126.
213
4.7
115.
511
7.7
123.
313
1.5
112.
711
4.9
120.
312
8.4
110.
011
2.1
117.
412
5.3
104.
510
6.5
111.
511
9.0
96.8
98.7
103.
311
0.2
S/T
0.93
0.89
0.81
0.65
0.96
0.93
0.84
0.68
0.98
0.95
0.86
0.70
1.00
0.98
0.89
0.72
1.00
1.00
0.92
0.75
1.00
1.00
0.93
0.75
∆T25
2523
2025
2524
2126
2524
2125
2524
2124
2424
2022
2322
19
Hi P
r25
127
028
529
728
130
332
033
332
034
436
437
936
439
241
443
241
044
146
648
645
348
751
553
7
Lo P
r10
911
612
713
511
612
313
414
312
012
813
914
812
613
414
615
613
214
115
316
313
714
515
916
9
3200
MBh
109.
111
1.2
116.
512
4.3
106.
610
8.6
113.
812
1.4
104.
010
6.1
111.
111
8.5
101.
510
3.5
108.
411
5.6
96.4
98.3
103.
010
9.8
89.3
91.1
95.4
101.
7
S/T
0.89
0.86
0.78
0.63
0.93
0.89
0.81
0.65
0.95
0.92
0.83
0.67
0.98
0.95
0.85
0.69
1.00
0.98
0.89
0.72
1.00
0.99
0.89
0.72
∆T28
2826
2328
2826
2328
2826
2329
2827
2328
2826
2326
2624
21
Hi P
r24
326
227
628
827
329
431
032
331
033
435
336
835
338
040
241
939
842
845
247
143
947
349
952
1
Lo P
r10
611
312
313
111
211
913
013
911
612
413
514
412
213
014
215
112
813
614
915
913
314
115
416
4
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s A
HRI
Rati
ng C
ondi
tions
Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)H
igh
and
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
and
sucti
on a
cces
s fitti
ngs.
Des
ign
Supe
rhea
t 7±2
°F, D
esig
n Su
bcoo
ling
12 ±
2 °F
pre
ssur
es m
easu
red
@ th
e su
ction
and
liqu
id s
ervi
ce p
orts
, AH
RI 9
5 te
st c
ondi
tions
10 www.goodmanmfg.com SS-IGCH7
ExpandEd data ExpandEd data
HeatiNg data
GCH090xxxxxxxx
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 113.1 107.1 100.8 94.2 90.0 87.2 81.0 74.7 66.0 61.0 56.1 53.0 51.0 45.8 40.6 35.4 30.2 24.8
T/R 34.9 33.1 31.1 29.1 27.8 26.9 25.0 23.1 20.4 18.8 17.3 16.4 15.8 14.1 12.5 10.9 9.3 7.6
kW 8.31 8.15 7.99 7.82 7.73 7.66 7.51 7.34 6.42 6.28 6.14 6.06 6.00 5.86 5.72 5.59 5.44 5.31
Amps 19.6 18.5 17.5 16.7 16.3 16.0 15.3 14.8 14.3 13.8 13.4 13.2 13.0 12.6 12.0 11.5 11.0 10.3
COP 3.98 3.85 3.69 3.52 3.41 3.33 3.16 2.98 3.01 2.84 2.68 2.56 2.49 2.29 2.08 1.85 1.62 1.36
EER 13.6 13.1 12.6 12.0 11.6 11.4 10.8 10.2 10.3 9.7 9.1 8.8 8.5 7.8 7.1 6.3 5.5 4.7
HI PR 459 440 423 404 395 387 372 357 342 327 314 307 301 290 278 267 258 248
LO PR 139 129 121 111 105 101 93 83 75 67 59 54 53 44 38 32 28 22
GCH102xxxxxxxx
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 128.2 121.4 114.2 106.8 102.0 98.8 91.8 84.7 71.0 65.6 60.4 57.0 54.9 49.2 43.7 38.1 32.5 26.6
T/R 34.9 33.1 31.1 29.1 27.8 26.9 25.0 23.1 19.3 17.9 16.4 15.5 14.9 13.4 11.9 10.4 8.8 7.2
kW 8.56 8.39 8.23 8.06 7.97 7.90 7.74 7.58 6.04 5.91 5.79 5.72 5.67 5.55 5.42 5.30 5.18 5.05
Amps 19.5 18.3 17.4 16.6 16.2 16.0 15.3 14.7 14.3 13.8 13.4 13.2 13.0 12.6 12.0 11.6 11.0 10.3
COP 4.39 4.23 4.06 3.88 3.75 3.66 3.47 3.27 3.44 3.24 3.05 2.92 2.83 2.60 2.36 2.10 1.84 1.54
EER 15.0 14.5 13.9 13.2 12.8 12.5 11.9 11.2 11.8 11.1 10.4 10.0 9.7 8.9 8.1 7.2 6.3 5.3
HI PR 459 440 423 404 395 387 372 357 342 327 314 307 301 290 278 267 258 248
LO PR 139 129 121 111 105 101 93 83 75 67 59 54 53 44 38 32 28 22
GCH120xxxxxxxx
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 150.8 142.8 134.4 125.6 120.0 116.3 108.0 99.6 87.7 81.0 74.6 70.4 67.8 60.8 53.9 47.0 40.1 32.9
T/R 34.9 33.1 31.1 29.1 27.8 26.9 25.0 23.1 20.3 18.7 17.3 16.3 15.7 14.1 12.5 10.9 9.3 7.6
kW 10.70 10.50 10.31 10.11 10.00 9.92 9.73 9.54 8.65 8.47 8.30 8.20 8.13 7.95 7.78 7.61 7.44 7.27
Amps 41.3 38.9 36.9 35.3 34.3 33.8 32.4 31.2 30.2 29.3 28.3 27.8 27.6 26.6 25.4 24.4 23.3 21.8
COP 4.13 3.98 3.82 3.64 3.51 3.43 3.25 3.06 2.97 2.80 2.63 2.51 2.44 2.24 2.03 1.81 1.58 1.32
EER 14.1 13.6 13.0 12.4 12.0 11.7 11.1 10.4 10.1 9.6 9.0 8.6 8.3 7.6 6.9 6.2 5.4 4.5
Hi Pr 439 421 405 387 378 371 356 342 328 313 301 293 288 277 266 256 246 238
Lo Pr 133 123 115 106 100 96 89 79 71 64 56 52 50 42 37 31 27 21
Above information is for nominal CFM and 70 degree indoor dry bulb. Instantaneous capacity listed. KW = Total system power
High pressure is measured at the liquid line gauge port connection AMPS = unit amps (comp.+fans)
SS-IGCH7 www.goodmanmfg.com 11
ExpandEd data ExpandEd data
airflow data — 7½ toNs
Standard Belt Drive — Horizontal
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.1 --- --- --- --- --- --- --- --- --- --- --- --- 3434 745 0.96 3264 701 0.79
0.3 --- --- --- --- --- --- --- --- --- 3424 800 1.05 3165 747 0.90 2921 704 0.79
0.5 --- --- --- --- --- --- 3496 850 1.14 3102 803 0.92 2785 749 0.83 2545 706 0.66
0.7 --- --- --- 3397 900 1.32 3158 851 1.06 2735 805 0.82 2345 753 0.73 --- --- ---
0.9 3440 946 1.44 3079 901 1.16 2778 855 1.01 --- --- --- --- --- --- --- --- ---
1.1 3122 948 1.27 2745 906 1.07 2382 857 0.86 --- --- --- --- --- --- --- --- ---
1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
High-Static Belt Drive — Horizontal
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.7 --- --- --- --- --- --- --- --- --- --- --- --- 3446 902 1.26 3098 849 1.11
0.9 --- --- --- --- --- --- --- --- --- --- --- --- 3110 905 1.17 2745 851 0.96
1.1 --- --- --- --- --- --- --- --- --- 3200 963 1.37 2769 909 1.09 --- --- ---
1.3 --- --- --- --- --- --- 3256 1017 1.66 2889 964 1.31 --- --- --- --- --- ---
1.5 --- --- --- 3443 1087 1.91 2923 1022 1.47 --- --- --- --- --- --- --- --- ---
1.7 3586 1129 2.18 3038 1081 1.62 2509 1029 1.28 --- --- --- --- --- --- --- --- ---
1.9 3221 1137 1.87 2588 1073 1.50 --- --- --- --- --- --- --- --- --- --- --- ---
2.1 2827 1144 1.71 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
Standard Belt Drive — Down Shot
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.1 --- --- --- --- --- --- --- --- --- --- --- --- 3481 747 0.95 3240 698 0.78
0.3 --- --- --- --- --- --- --- --- --- 3498 795 1.09 3197 748 0.88 2889 702 0.71
0.5 --- --- --- --- --- --- 3414 844 1.22 3091 796 0.91 2837 749 0.79 2491 701 0.59
0.7 3720 935 1.58 3414 889 1.35 3060 845 1.14 2715 800 0.85 --- --- --- --- --- ---
0.9 3351 940 1.45 3066 894 1.18 2688 847 0.99 --- --- --- --- --- --- --- --- ---
1.1 3114 942 1.34 2677 896 1.05 --- --- --- --- --- --- --- --- --- --- --- ---
1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
High-Static Belt Drive — Down Shot
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.7 --- --- --- --- --- --- --- --- --- --- --- --- 3428 900 1.25 3045 846 1.06
0.9 --- --- --- --- --- --- --- --- --- 3521 958 1.49 3084 905 1.14 2679 850 0.95
1.1 --- --- --- --- --- --- --- --- --- 3181 964 1.31 2756 908 1.06 --- --- ---
1.3 --- --- --- --- --- --- 3358 1020 1.59 2885 967 1.22 --- --- --- --- --- ---
1.5 --- --- --- 3470 1075 1.81 2950 1024 1.40 2452 972 1.13 --- --- --- --- --- ---
1.7 3465 1130 2.11 3065 1080 1.67 2492 1030 1.25 --- --- --- --- --- --- --- --- ---
1.9 3147 1136 1.89 2706 1087 1.53 --- --- --- --- --- --- --- --- --- --- --- ---
2.1 2719 1142 1.70 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
Notes• Assume dry coil with filter in place; CFM correction for wet coil = 3%• Any adjustment made to the blower should not cause the motor to draw more than the motor rated RLA. Applica-
tions that exceed the above could require a larger motor. Minimum rated SCFM is 350 per ton.
12 www.goodmanmfg.com SS-IGCH7
Product SPecificationS Product SPecificationS
airflow data — 8½ toNs
Standard Belt Drive — Horizontal
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.1 --- --- --- --- --- --- --- --- --- 4190 792 1.29 3862 743 1.02 3546 695 0.86
0.3 --- --- --- --- --- --- 4141 839 1.41 3850 794 1.19 3540 747 1.00 3152 699 0.81
0.5 --- --- --- 4057 883 1.46 3759 843 1.27 3471 798 1.12 3175 747 0.91 2692 700 0.67
0.7 4120 934 1.61 3775 894 1.41 3415 846 1.14 3097 800 0.99 2652 752 0.70 --- --- ---
0.9 3780 938 1.49 3338 894 1.27 3030 850 1.04 2497 805 0.82 --- --- --- --- --- ---
1.1 3311 942 1.36 2904 899 1.06 2375 855 0.87 --- --- --- --- --- --- --- --- ---
1.3
High-Static Belt Drive — Horizontal
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.7 --- --- --- --- --- --- --- --- --- 4157 938 1.73 3462 854 1.24 3338 832 1.15
0.9 --- --- --- --- --- --- 4160 969 1.89 3865 941 1.60 3237 873 1.17 2855 838 0.96
1.1 --- --- --- --- --- --- 3882 985 1.79 3480 949 1.47 2849 886 1.09 --- --- ---
1.3 --- --- --- 4082 1053 2.15 3495 999 1.55 3097 957 1.32 --- --- --- --- --- ---
1.5 4188 1108 2.38 3760 1061 1.87 3108 1010 1.41 --- --- --- --- --- --- --- --- ---
1.7 3884 1117 2.15 3371 1070 1.66 --- --- --- --- --- --- --- --- --- --- --- ---
1.9 3499 1126 1.98 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
Standard Belt Drive — Down Shot
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.1 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3818 698 1.02
0.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3450 701 0.84
0.5 --- --- --- --- --- --- --- --- --- 3801 795 1.20 3563 773 1.04 3012 704 0.81
0.7 --- --- --- --- --- --- 3760 844 1.27 3355 799 1.05 3099 774 0.98 --- --- ---
0.9 --- --- --- 3724 891 1.44 3350 846 1.17 2707 801 0.90 2497 778 0.78 --- --- ---
1.1 3795 947 1.50 3205 897 1.25 2673 851 0.98 --- --- --- --- --- --- --- --- ---
1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
High-Static Belt Drive — Down Shot
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.7 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3679 830 1.20
0.9 --- --- --- --- --- --- --- --- --- --- --- --- 3784 894 1.35 3265 836 1.12
1.1 --- --- --- --- --- --- --- --- --- 3833 952 1.59 3247 900 1.23 2742 843 0.94
1.3 --- --- --- --- --- --- 3943 1007 1.88 3361 957 1.45 2867 905 1.08 --- --- ---
1.5 --- --- --- --- --- --- 3522 1012 1.73 2928 962 1.33 --- --- --- --- --- ---
1.7 --- --- --- 3638 1469 1.99 3018 1020 1.47 --- --- --- --- --- --- --- --- ---
1.9 3725 1118 2.24 3018 1078 1.66 --- --- --- --- --- --- --- --- --- --- --- ---
2.1 3326 1126 2.04 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
Notes• Assume dry coil with filter in place; CFM correction for wet coil = 3%• Any adjustment made to the blower should not cause the motor to draw more than the motor rated RLA. Applica-
tions that exceed the above could require a larger motor. Minimum rated SCFM is 350 per ton.
SS-IGCH7 www.goodmanmfg.com 13
Product SPecificationS Product SPecificationS
airflow data — 10 toNs
Standard Belt Drive — Horizontal
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.1 --- --- --- --- --- --- --- --- --- 4190 792 1.29 3862 743 1.02 3546 695 0.86
0.3 --- --- --- --- --- --- 4141 839 1.41 3850 794 1.19 3540 747 1.00 3152 699 0.81
0.5 --- --- --- 4057 883 1.46 3759 843 1.27 3471 798 1.12 3175 747 0.91 2692 700 0.67
0.7 4120 934 1.61 3775 894 1.41 3415 846 1.14 3097 800 0.99 2652 752 0.70 --- --- ---
0.9 3780 938 1.49 3338 894 1.27 3030 850 1.04 2497 805 0.82 --- --- --- --- --- ---
1.1 3311 942 1.36 2904 899 1.06 2375 855 0.87 --- --- --- --- --- --- --- --- ---
1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
High-Static Belt Drive — Horizontal
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.7 --- --- --- --- --- --- --- --- --- 4157 938 1.73 3462 854 1.24 3338 832 1.15
0.9 --- --- --- --- --- --- 4160 969 1.89 3865 941 1.60 3237 873 1.17 2855 838 0.96
1.1 --- --- --- --- --- --- 3882 985 1.79 3480 949 1.47 2849 886 1.09 --- --- ---
1.3 --- --- --- 4082 1053 2.15 3495 999 1.55 3097 957 1.32 --- --- --- --- --- ---
1.5 4188 1108 2.38 3760 1061 1.87 3108 1010 1.41 --- --- --- --- --- --- --- --- ---
1.7 3884 1117 2.15 3371 1070 1.66 --- --- --- --- --- --- --- --- --- --- --- ---
1.9 3499 1126 1.98 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
Standard Belt Drive — Down Shot
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.1 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3818 698 1.02
0.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3450 701 0.84
0.5 --- --- --- --- --- --- --- --- --- 3801 795 1.20 3563 773 1.04 3012 704 0.81
0.7 --- --- --- --- --- --- 3760 844 1.27 3355 799 1.05 3099 774 0.98 --- --- ---
0.9 --- --- --- 3724 891 1.44 3350 846 1.17 2707 801 0.90 2497 778 0.78 --- --- ---
1.1 3795 947 1.50 3205 897 1.25 2673 851 0.98 --- --- --- --- --- --- --- --- ---
1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
High-Static Belt Drive — Down Shot
ESP (“ W.C.)
Turns Open
0 1 2 3 4 5
CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP
0.7 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3679 830 1.20
0.9 --- --- --- --- --- --- --- --- --- --- --- --- 3784 894 1.35 3265 836 1.12
1.1 --- --- --- --- --- --- --- --- --- 3833 952 1.59 3247 900 1.23 2742 843 0.94
1.3 --- --- --- --- --- --- 3943 1007 1.88 3361 957 1.45 2867 905 1.08 --- --- ---
1.5 --- --- --- --- --- --- 3522 1012 1.73 2928 962 1.33 --- --- --- --- --- ---
1.7 --- --- --- 3638 1469 1.99 3018 1020 1.47 --- --- --- --- --- --- --- --- ---
1.9 3725 1118 2.24 3018 1078 1.66 --- --- --- --- --- --- --- --- --- --- --- ---
2.1 3326 1126 2.04 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
Notes• Assume dry coil with filter in place; CFM correction for wet coil = 3%• Any adjustment made to the blower should not cause the motor to draw more than the motor rated RLA. Applica-
tions that exceed the above could require a larger motor. Minimum rated SCFM is 350 per ton.
14 www.goodmanmfg.com SS-IGCH7
Product SPecificationS Product SPecificationS
Heat Kit electrical data — 7½ toNs
miNimum airflow for electric Heat
Heater Size (kW) Minimum CFM
30 3,000
Model and Heat Kit Usage
MCA¹ at 400V
MOP² (amps) at 400V
Actual kW at 400V
RecommendedAirflow Range
GCH090***5B*** 20.5 25
EHK4-30 57.9 60 21 3000-3375 CFM
¹ Minimum Circuit Ampacity ² Maximum Overcurrent Protection device
Kw correctioN factor
kW Correction Factor for 400V Units
Supply Voltage 390 380
Correction Factor 0.95 0.91
For other voltage, use voltage² / 400²
Heat Kit electrical data — 8½ toNs
Model and Heat Kit Usage
MCA¹ at 400V
MOP² (amps) at 400V
Actual kW at 400V
Recommended Airflow Range
(Downshot)
Recommended Airflow Range
(Horizontal)
GCH102***5B*** 23.9 30
EHK4-30 61.3 70 21 3400 - 3825 CFM 3400 - 3825 CFM
¹ Minimum Circuit Ampacity ² Maximum Overcurrent Protection device
miNimum airflow for electric Heat
Heater Size (kW) Minimum CFM
30 3,400
Kw correctioN factor
kW Correction Factor for 400V Units
Supply Voltage 390 380
Correction Factor 0.95 0.91
For other voltage, use voltage² / 400²
Heat Kit electrical data — 10 toNs
Model and Heat Kit Usage
MCA¹ at 400V
MOP² (amps) at 400V
Actual kW at 400V
RecommendedAirflow Range
GCH120***5B*** 30.8 40
EHK4-30 62 70 21 3500 - 4500 CFM
¹ Minimum Circuit Ampacity ² Maximum Overcurrent Protection device
miNimum airflow for electric Heat
Heater Size (kW) Minimum CFM
30 4,000
Kw correctioN factor
kW Correction Factor for 400V Units
Supply Voltage 390 380
Correction Factor 0.95 0.91
For other voltage, use voltage² / 400²
SS-IGCH7 www.goodmanmfg.com 15
Product SPecificationS Product SPecificationS
dimeNsioNs
61.7
30
6.15
0
13.8
75
"A"
23.9
30
"B"
6.15
2
36.3
75
7.25
128
.312
42.8
7512
.625
38.8
84
19.6
88
4.47
523.2
86
53.6
86
6.19
2
50.2
39
99.9
80
DC
*090
-150
***
7.5
THR
U 1
2.5
TON
CO
MM
ERC
IAL
ALL
DIM
ENSI
ON
S G
IVEN
AR
E IN
INC
HES
ALL
DIM
ENSI
ON
S AN
D S
PEC
IFIC
ATIO
NS
ARE
SUBJ
ECT
TO C
HAN
GE
WIT
HO
UT
NO
TIC
E
GAS
LIN
E EN
TRAN
CE
CO
MBI
NAT
ION
AI
R IN
LET
(GAS
UN
IT)
FLU
E / V
ENT
OU
TLET
FRO
NT
VIEW
RET
UR
N A
IR S
UPP
LY
SUPP
LY A
IR D
UC
T
CO
ND
ENSA
TE D
RAI
N O
UTL
ET
LIFT
ING
SH
ACKL
E H
OLE
SBO
TH S
IDES
AN
D E
ND
S
RIG
HT
END
VIE
W
DIS
CO
NN
ECT
SWIT
CH
TOP
VIEW
MO
DEL
TO
NN
AGE
"A"
"B"
7.5
TON
CO
MM
ERC
IAL
GAS
, HT
PUM
P, A
IR C
ON
DIT
ION
ER53
.339
20.0
55
8.5
TON
CO
MM
ERC
IAL
GAS
, HT
PUM
P, A
IR C
ON
DIT
ION
ER53
.339
20.0
55
10 T
ON
CO
MM
ERC
IAL
GAS
, HT
PUM
P, A
IR C
ON
DIT
ION
ER53
.339
20.0
55
12.5
TO
N C
OM
MER
CIA
LG
AS, H
T PU
MP,
AIR
CO
ND
ITIO
NER
58.8
3918
.055
16 www.goodmanmfg.com SS-IGCH7
Product SPecificationS Product SPecificationS
uNit clearaNces
electrical eNtraNce locatioNs
Low-Voltage Entrance
Dimples Mark Drill Locations
High-Voltage Entrance
10 3/16”
3 3/4”
26 ½”
3¾”
103/16”
36” Min.
48”
75”
48”
48”
Maintain an adequate clearance around the unit for safety, service, maintenance, and proper unit operation. Leave a total clearance of 75” on the main control panel side of the unit for possible removal of fan shaft, coil, electric heat, and gas furnace. Leave a clearance of 48” on all other sides of the unit for possible compressor removal or service access, and to ensure proper ventilation and condenser airflow. Do not install the unit beneath any obstruct- ion. Install the unit away from all building exhausts to inhibit ingestion of exhaust air into the unit’s fresh-air intake.
SS-IGCH7 www.goodmanmfg.com 17
Product SPecificationS Product SPecificationS
roof curb iNstallatioN — riggiNg
Provisions for forks have been included in the unit base frame. No other fork locations are approved.
• Unit must be lifted by the four lifting holes lo-cated at the base frame corners.
• Lifting cables should be attached to the unit with shackles.• The distance between the crane hook and the top of the
unit must not be less than 60”.• Two spreader bars must span over the unit to prevent dam-
age to the cabinet by the lift cables. Spreader bars must be of sufficient length so that cables do not come in contact with the unit during transport. Remove wood struts mount-ed beneath unit base frame before setting unit on roof curb. These struts are intended to protect unit base frame from fork lift damage. To remove the struts, extract the sheet metal retainers and pull the struts through the base of the unit. Refer to rigging label on the unit.
Important: If using bottom discharge with roof curb, duct-work should be attached to the curb prior to installing the unit. Duct-work dimensions are shown in Roof Curb Installation Instructions Manual.Refer to the Roof Curb Installation Instructions for proper curb installation. Curbing must be installed in compliance with the National Roofing Contractors Association Manual.Lower unit carefully onto roof mounting curb. While rigging the unit, the center of gravity will cause the condenser end to be lower than the supply air end.Bring condenser end of unit into alignment with the curb. With condenser end of the unit resting on curb member and using curb as a fulcrum, lower opposite end of the unit until entire unit is seated on the curb. When a rectangular cantilever curb is used, take care to center the unit. Check for proper alignment and orientation of supply and return openings with duct. Corner & Center-of-Gravity Locations
CG
DB
A C
Return
Supply
Evaporator Coil
Compressor 1
Compressor 2
Y
X
30”
49”
Note: These weights are calculated without accessories installed.
Unit Weights7½-Ton
Weights (lbs)8½-Ton
Weights (lbs)10-Ton
Weights (lbs)
Weight A 285 345 345
Weight B 285 325 325
Weight C 285 320 320
Weight D 285 300 300
Shipping Weight 1175 1310 1310
Operating Weight 1135 1285 1285
Wiring Diagram Wiring Diagram
18 www.goodmanmfg.com SS-IGCH7
Product SPecificationS Product SPecificationS
roof curb iNstallatioN (coNt.)
Curb installations must comply with local codes and should follow the established guidelines of the National Roofing Contractors Association.Proper unit installation requires that the roof curb be firmly and permanently attached to the roof structure. Check for adequate fastening method prior to setting the unit on the curb.Full perimeter roof curbs are available from the factory and are shipped unassembled. The installing contractor is responsible for field assembly, squaring, leveling, and mounting on the roof structure. All required hardware necessary for the assembly of the sheet metal curb is included in the curb accessory package.
• Determine sufficient structural support before locating and mounting the curb and package unit.• Duct-work must be constructed using industry guidelines. The duct-work must be placed into the roof curb be-
fore mounting the package unit. Our full perimeter curbs include duct connection frames to be assembled with the curb. Cantilevered-type curbs are not available from the factory.
• Contractor furnishes curb insulation, cant strips, flashing, and general roofing material.• Support curbs on parallel sides with roof members. To prevent damage to the unit, the roof members cannot
penetrate supply and return duct openings.Note: The unit and curb accessories are designed to allow vertical duct installation before unit placement. Duct installation after unit placement is not recommended.
See the manual shipped with the roof curb for assembly and installation instructions.
3-d View
15⅜ x 31⅛Supply Opening
14⅝ x 38⅜Return Opening
92¼ 53¼
14
1⅝¾
14
1⅜
3
42
1
6
RCCF
FANC
FANC
RCCF
FANC
FANC
PowerWiring
ThermostatWiring
Power & Low-Voltage Block Locations
toP View
SS-IGCH7 www.goodmanmfg.com 19
Wiring Diagram Wiring DiagramProDuct SPecificationS ProDuct SPecificationS
gcH 7½ – 10 toNs (400V/ 50 Hz, tHree-PHase belt driVe)
Wir
ing
is s
ubje
ct to
cha
nge.
Alw
ays
refe
r to
the
wir
ing
diag
ram
or
the
unit
for t
he m
ost u
p-to
-dat
e w
irin
g.⚠
W
arn
ing
Hig
h Vo
ltag
e: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces m
ay b
e pr
esen
t. F
ailu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r dea
th.⚡
0140
L030
27-A
BK
CM1FC
1F C
T1T2
L1L2
CM2
PU
FC2
F C
RD
RD
CM
CPU
PU
COMP1
T2T3 T1
L3T3
CL2 L1
T2 T1 CC
1
YLR
DBK
C460575
TR
24V
COMP 2
T2T3 T1
L3T3
CL2 L1
T2 T1
CC
2
YLR
DBK
BL
BL
BL
BL
BK
BL
BK
PB
RD
RD
RD
BK BK
BK
BK
LPS1
HPS
1
LPS
2H
PS 2
EM
L3T3
CL2 L1
T2 T1
BC
RD
OR
RD
BK
BK
6
28 5
7
39
4 1
PLF 1WH
GN
D
COLO
R CO
DEBK
-----
------
---- B
LAC
KBL
-----
------
---- B
LUE
BR --
------
------
- BR
OW
NO
R --
------
------
- OR
ANG
EPU
-----
------
---- P
UR
PLE
RD
-----
------
---- R
EDW
H --
------
------
WH
ITE
YL --
------
------
- YEL
LOW
PK --
------
------
- PIN
KG
R---
------
------
- GR
EEN
WIR
ING
CODE
FAC
TOR
YW
IRIN
GH
IGH
VO
LTAG
ELO
W V
OLT
AGE
OPT
ION
AL H
IGH
VO
LTAG
EFI
ELD
WIR
ING
HIG
H V
OLT
AGE
53
2 14
NC
NO
S1S2
RC
GW
1W
2Y1
Y2O
RD
PK
DFT1 DFT2
RVC1 RVC2
CO
M
R
NC
NO
UP
C
K1
SPEE
DK1
M1
XFM
R-C
EBTD
R
XFM
R-R
M2
3 2 1
96
8 745
RD
WH
PU
PK
PK
YL
WH
YLBR
GR
GRG
R
GR
BL
BL
BL
RD
HVD
R DF2
C R
DC
O O R
LVD
R
Y DFTW2
DF1
RD
RD
BLYL
PU
PUPU
PU
BRBR
BR
BR
BLBR
SSH
R
OR
RD
RD
RD
RD
WH
WH
WH
PU
YL YL
BK BK
BKBK
BLBL
BL
BL
BL
OR
RD
BL
BK
BKBK
BK
PU BRBKBR
YL
YL
RD
RD
GR
GR
GR
GR
YLYL
YL
OR
RD
BK
OR
OR
OR
RD
RD
RD
BL
BL
BLBR
RD
RD
YLO
RO
R
YL
BL
BL
RD
WH
RDRD
RD
OR
WH
G
RD
OR
24V
460
575
C
ORR
D
PK
BL
TR
53
21
4N
C
NO
DR
BL
RD
OR BK
BL
REP
LAC
E JU
MPE
R W
ITH
SMO
KE/F
IRE
DET
ECTO
R
BL
BL
BL
SEE
NO
TE 4
SEE
NO
TE 5
SEE
NO
TE 5
SEE
NO
TE 3
GR
POW
ER S
UPP
LY40
0/3/
50SE
E N
OTE
2
PLF
2
208
240
208240
YL
YLYL
BR BR BK
20 www.goodmanmfg.com SS-IGCH7
Product SPecificationS Product SPecificationS
Goodman Manufacturing Company, L.P., reserves the right to discontinue, or change at any time, specifications or designs without notice or without incurring obligations. © 2014 Goodman Manufacturing Company, L.P. • Houston, Texas • Printed in the USA.
gcH 7½ – 10 toNs (400V/ 50 Hz, tHree-PHase belt driVe)
Wir
ing
is s
ubje
ct to
cha
nge.
Alw
ays
refe
r to
the
wir
ing
diag
ram
or
the
unit
for t
he m
ost u
p-to
-dat
e w
irin
g.⚠
W
arn
ing
Hig
h Vo
ltag
e: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces m
ay b
e pr
esen
t. F
ailu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r dea
th.⚡
R
R
HVDR
RVC2
SEE UNIT RATING PLATE FOR TYPE AND SIZE
5
OF OVER CURRENT PROTECTION
4
BLOWER CONTACTOR
COMPRESSOR CONTACTORCONDENSER MOTORCONDENSER MOTOR CONTACTORCOMPRESSORDEFROST CONTROLDEFROST THERMOSTATECONOMIZERELECTRONIC BLOWER TIME DELAYEVAPORATOR MOTOR RELAYRELAYEVAPORATOR MOTORFAN CAPACITOREQUPIMENT GROUNDHIGH PRESSURE SWITCHHIGH VOLTAGE DEFROST RELAYLOW PRESSURE SWITCHLOW VOLTAGE DEFROST RELAYLOW VOLTAGE JUNCTION BOXPOWER DISTRIBUTION BLOCKFEMALE PLUG / CONNECTORREVERSING VAVLE COILTERMINAL BLOCK (24V SIGNAL)TRANSFORMER
LVDR
W2R
DFT2
C
BC
CCCMCMCCOMPDCDFTECONEBTDEMRREMFCGNDHPSHVDRLPSLVDRLVJBPBPLFRVCTB1TR
6
COMPONENT LEGEND
R
R
G
NOTES:
1. REPLACEMENT WIRE MUST BE SAME SIZE AND TYPE INSULATION AS ORIGINAL (AT LEAST 105°C) USE COPPER CONDUCTOR ONLY.2. USE COPPER CONDUCTORS ONLY ++ USE N.E.C. CLASS 2 WIRE3. ECONOMIZER PLUG LOCATED IN THE RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO THE ECONOMIZER ACCESSORY.4. FOR TWO STAGE OPERATION REMOVE W1 TO W2 JUMPER WIRE.
EBTDR
CC1HPS1
LPS1
LOW VOLTAGE
LINE VOLTAGE
FIELD WIRING
LOW VOLTAGE OPTIONAL
HIGH VOLTAGE
FACTORY WIRING
HIGH VOLTAGE
CC2
GR GREEN
WIRE CODE
BL BLUE
PU PURPLEPK PINK
WH WHITE
BK BLACK
RD RED
BR BROWN
OR ORANGE
YL YELLOWYL/PK YELLOW WITH PINK STRIPBL/PK BLUE WITH PINK STRIP
CMC
CMCCM2
T2
CC2
T3
T1COMP2
CC2T1
CC2T2
CMC
CC1
L2
T3
COMP1
F
SUPPLY VOLTAGE
CM1
L1
CC1T1
C
CC1
L3
T2
TR24V
8
7
9
ORO O
BL
Y1
GR
PK
TB1
W1
RG
C
R
2 STAGE COOLING
YL
G
C
WH
Y2
Y1
STAT
W1
RD
THERMOSTATFIELD WIRING
W2 BR W2
NONC
PLF29
7
8 56
4
32
1
SEE NOTE 3
O
SSHR SECOND STAGE HEATER RELAYEM
LPS2HPS2
EBTDR
BLOWER RELAYCIRCUIT BREAKERCOMPRESSOR CONTACTOR RELAY
BRCBCCR
FC
DFT1R
R EBTDR BC
R
HVDR
Y
SEE UNIT RATING PLATE FOR TYPE AND SIZE
5
OF OVER CURRENT PROTECTION
4
BLOWER CONTACTOR
COMPRESSOR CONTACTORCONDENSER MOTORCONDENSER MOTOR CONTACTORCOMPRESSORDEFROST CONTROLDEFROST THERMOSTATECONOMIZERELECTRONIC BLOWER TIME DELAYEVAPORATOR MOTOR RELAYRELAYEVAPORATOR MOTORFAN CAPACITOREQUPIMENT GROUNDHIGH PRESSURE SWITCHHIGH VOLTAGE DEFROST RELAYLOW PRESSURE SWITCHLOW VOLTAGE DEFROST RELAYLOW VOLTAGE JUNCTION BOXPOWER DISTRIBUTION BLOCKFEMALE PLUG / CONNECTORREVERSING VAVLE COILTERMINAL BLOCK (24V SIGNAL)TRANSFORMER
LVDR
W2 DFT
R
DFT2
C
BC
CCCMCMCCOMPDCDFTECONEBTDEMRREMFCGNDHPSHVDRLPSLVDRLVJBPBPLFRVCTB1TR
6
COMPONENT LEGEND
R
R
C
400/3/50 0140L02569-A
PLF1
G
NOTES:
1. REPLACEMENT WIRE MUST BE SAME SIZE AND TYPE INSULATION AS ORIGINAL (AT LEAST 105°C) USE COPPER CONDUCTOR ONLY.2. USE COPPER CONDUCTORS ONLY ++ USE N.E.C. CLASS 2 WIRE3. ECONOMIZER PLUG LOCATED IN THE RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO THE ECONOMIZER ACCESSORY.4. FOR TWO STAGE OPERATION REMOVE W1 TO W2 JUMPER WIRE.
EBTDR
CC1
DC
HPS1
LPS1
LOW VOLTAGE
LINE VOLTAGE
FIELD WIRING
LOW VOLTAGE OPTIONAL
HIGH VOLTAGE
FACTORY WIRING
HIGH VOLTAGE
CC2
TO THERMOSTAT
GR GREEN
WIRE CODE
BL BLUE
PU PURPLEPK PINK
WH WHITE
BK BLACK
RD RED
BR BROWN
OR ORANGE
YL YELLOWYL/PK YELLOW WITH PINK STRIPBL/PK BLUE WITH PINK STRIP
CMC
CMC
FC2
CM2
T2
CC2
T3
T1COMP2
CC2T1
CC2T2
CMC
CC1
L2
T3
COMP1
F
SUPPLY VOLTAGE
CM1
L1
CC1T1
C
CC1
L3400/3/50
T2
TR24V
8
7
9
ORO O
BL
Y1
GR
PK
TB1
W1
RG
C
R
2 STAGE COOLING
Y2
YL
G
C
WH
Y2
Y1
STAT
W1
RD
THERMOSTATFIELD WIRING
W2 BR W2
SSHRNONC
9
7
8 56
4
32
1
SEE NOTE 3
O
SSHR SECOND STAGE HEATER RELAY
T2
EM
BC
BC
LPS2HPS2
EBTDR
BLOWER RELAYCIRCUIT BREAKERCOMPRESSOR CONTACTOR RELAY
BRCBCCR
FC
BC
DFT1R
DR NODRNC
TR24V
C
TR24V
RVC1
FC1
5. MOVE WIRE(S) TO APPROPRIATE INPUTVOLTAGE TERMINAL ON TRANSFORMER.
CSEE NOTE 5
SEE NOTE 5
++ NOTE 4TB1
RO G CY1W1W2S2S1 RO G CY1W1W2 Y2S2S1