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Goodman GPH16M User's Manual PDF
Summary of Content for Goodman GPH16M User's Manual PDF
SS-GPH16M www.goodmanmfg.com 12/20 Supersedes 10/20
GPH16M Cooling Capacity: 24,000 - 58,000 BTU/h Heating Capacity: 22,800 - 55,000 BTU/h
Contents Nomenclature ........................................ 2 Product Specifications ........................... 3 Expanded Cooling Data ......................... 4 Airflow Data ......................................... 16 Expanded Heating Data ....................... 21 Auxiliary Heat Data ............................. 23 Heat Kit Electrical Specs ...................... 24 Dimensions .......................................... 25 Wiring Diagrams ................................. 30 Accessories .......................................... 32
High-Efficiency Packaged Heat Pump
2 to 5 Tons Up to 16 SEER / 8.2 HSPF
Standard Features High-efficiency two-stage scroll
compressor with internal relief valve Two-stage heating and cooling Multi-Speed ECM indoor blower motor Copper tube/aluminum fin condenser coils All-aluminum evaporator
coil on 2- to 4-ton units Aluminum-copper evaporator coil on 5-ton units Liquid-line filter drier Convertible airflow: horizontal or downflow Totally enclosed, permanently
lubricated condenser fan motor Electric heat kit available
as a field-installed option OTHPPKG (Outdoor Thermostat Kit) when used
on 2.0 and 2.5 ton allow the unit to achieve 8.2 HSPF
Cabinet Features Heavy-gauge galvanized-steel cabinet
with attractive two-tone Architectural Gray powder-paint finish
Aluminum foil-facing internal insulation reinforced with fiberglass scrim
Fully insulated air-handling compartment with convenient access panels
Louvered condenser coil protection Meets cabinet air leakage requirements when
tested in accordance with ASHRAE standard 193
2 - 4 Tons
5 Tons
* Complete warranty details available from your local dealer or at www.goodmanmfg.com. To receive the 2-Year Unit Replacement Limited Warranty and 10-Year Parts Limited Warranty, online registration must be completed within 60 days of installation. Online registration is not required in California or Quebec.
2 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 3
Nomenclature
G P H 16 36 M 4 1 * *
1 2 3 4,5 6,7 8 9 10 11 12
Brand Engineering
G Goodman brand Minor Revision
Product Category Engineering
P Packaged Unit Major Revision
Type Voltage Designator
H Heat Pump 1 208-230/1/60
C Air Conditioner 3 208-230/3/60
Efficiency Refrigerant
14 14 SEER 16 16 SEER 4 R-410A
15 15 SEER
Configuration
Nominal Capacity H Horizontal
24 2 Tons 36 3 Tons 48 4 Tons M Multi-position
30 2 tons 42 3 Tons 60 5 Tons
2 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 3
Product Specifications
GPH16 24M41A*
GPH1624M41 A*+OTHPPKG
GPH16 30M41A*
GPH1630M41 A*+OTHPPKG
GPH16 36M41A*
GPH16 42M41A*
GPH16 48M41A*
GPH16 60M41A*
GPH16 60M41B*
Cooling Capacity Total BTU/h 24,000 24,000 29,000 29,000 33,600 41,000 47,000 58,000 58,000 Sensible BTU/h 18,200 18,200 22,000 22,000 25,200 30,000 35,800 44,000 44,000 SEER / EER 16.0/ 12.5 16.0/ 12.5 15.5/ 12.0 15.5/ 12.0 16.0/ 12.0 16.0/ 12.0 16.0/ 12.0 16.0/ 12.0 16.0/ 12.0 Decibels 76 76 76 76 76 78 78 78 78 AHRI #s 8143312 10061984 8143313 10061985 8143314 8143315 8143316 9134480 205726737 Heating Capacity BTU/h (47F) 22,800 22,800 28,400 28,400 33,600 38,000 45,500 55,000 58,000 C.O.P (47F) 3.6 3.6 3.5 3.5 3.6 3.6 3.7 3.8 3.7 BTU/h (17F) 12,500 12,500 16,600 16,200 19,400 21,600 27,000 30,000 33,000 C.O.P (17F) 2.3 2.3 2.4 2.4 2.4 2.3 2.4 2.4 2.4 HSPF 8.0 8.2 8.0 8.2 8.2 8.2 8.2 8.2 8.2 Evaporator Motor Type ECM ECM ECM ECM ECM ECM ECM ECM ECM Wheel (D x W) 10 x 9 10 x 9 10 x 9 10 x 9 10 x 9 10 x 9 10 x 9 11x 10 11x 10 Nominal Cooling CFM 850 850 1,050 1,050 1,200 1,300 1,600 2,000 1,800 FLA 4.3 4.3 4.3 4.3 4.3 5.8 5.8 6.9 6.9 No. of Speeds 5 5 5 5 5 5 5 5 2 Horsepower - RPM -1,050 -1,050 -1,050 -1,050 -1,050 - 1,050 - 1,050 1 - 1,050 1 - 1,050 Evaporator Coil Face Area (ft) 4.5 4.5 4.5 4.5 4.5 6.2 6.2 8.9 8.9 Rows Deep/ Fin per Inch 4/ 14 4/ 14 4/ 14 4/ 14 4/ 14 4/ 14 4/ 14 4/ 16 4/ 16 Expansion Device TXV TXV TXV TXV TXV TXV TXV TXV TXV Drain Size (NPT) " " R-410A Refrigerant Charge (oz.) 137 137 137 137 137 170 170 240 225 Condenser Fan / Coil Horsepower - RPM - 850 - 850 - 850 - 850 - 850 - 1,075 - 1,075 1/3 - 1,090 1/3 - 1,150 FLA/LRA 1.5/ 3.0 1.5/ 3.0 1.5/ 3.0 1.5/ 3.0 1.3/ 3.0 1.4 / 2.9 1.4 / 2.9 2/ 4.4 3.5/ 4.4 Fan Diameter / # Fan Blades 22 / 3 22 / 3 22 / 3 22 / 3 22 / 3 22 / 3 22 / 3 22 / 4 22 / 3 Expansion Device TXV TXV TXV TXV TXV TXV TXV TXV TXV Face Area (ft) 15.5 15.5 15.5 15.5 15.5 19.4 19.4 19 16 Rows Deep/ Fin per Inch 2 / 16 2 / 16 2 / 16 2 / 16 2 / 16 2 / 16 2 / 16 2 / 20 2 / 20 Compressor Quantity 1 1 1 1 1 1 1 1 1 Type Scroll Scroll Scroll Scroll Scroll Scroll Scroll Scroll Scroll Stage Two Two Two Two Two Two Two Two Two Electrical Data Voltage/ Phase/ Hz 208-230/ 1 208-230/ 1 208-230/ 1 208-230/ 1 208-230/ 1 208-230/ 1 208-230/ 1 208-230/ 1 208-230/ 1 Compressor RLA/ LRA 11.7 / 58.3 11.7 / 58.3 13.1 / 73 13.1 / 73 15.6 / 83 17.9 / 96 21.2 / 104 26.9/ 152.9 26.9 / 139.9 Indoor Blower FLA 4.3 4.3 4.3 4.3 3.8 5.8 5.8 6.9 7 Total Unit Amps 17.5 17.5 18.9 18.9 20.7 25.1 28.4 35.8 35.9 Min. Circuit Ampacity 20.4 20.4 22.2 22.2 24.6 29.6 33.7 42.5 44 Max. Overcurrent Protection 30 30 35 35 40 45 50 60 70 Shipping Weight (lbs) 376 376 385 385 438 492 490 612 688
ENERGY STAR Certified NO NO NO NO NO
Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. 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. OTHPPKG stands for Outdoor Thermostat Heat-Pump Package
4 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 5
Expanded Cooling Data GPH1624M41** O
ut do
or A
m bi
en t
Te m
pe ra
tu re
65 F
75 F
85 F
95 F
10 5
F 11
5 F
En te
ri ng
In do
or W
et B
ul b
Te m
pe ra
tu re
ID B
Ai rf
lo w
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
70
95 0
M Bh
23 .2
24 .0
26 .3
- 22
.6 23
.5 25
.7 -
22 .1
22 .9
25 .1
- 21
.6 22
.3 24
.5 -
20 .5
21 .2
23 .3
- 19
.0 19
.7 21
.5 -
S/ T
0. 76
0. 63
0. 44
- 0.
79 0.
66 0.
46 -
0. 81
0. 67
0. 47
- 0.
83 0.
70 0.
48 -
0. 86
0. 72
0. 50
- 0.
87 0.
73 0.
50 -
T 17
15 11
- 17
15 11
- 17
15 11
- 17
15 11
- 17
15 11
- 16
14 11
- kW
1. 47
1. 50
1. 55
- 1.
59 1.
62 1.
67 -
1. 69
1. 72
1. 78
- 1.
77 1.
81 1.
87 -
1. 85
1. 89
1. 95
- 1.
91 1.
96 2.
02 -
Am ps
6. 6
6. 7
6. 9
- 7.
0 7.
2 7.
3 -
7. 5
7. 7
7. 9
- 8.
0 8.
1 8.
3 -
8. 4
8. 6
8. 8
- 8.
8 9.
0 9.
3 -
H i P
R 21
6 23
3 24
6 -
24 3
26 1
27 6
- 27
6 29
7 31
4 -
31 4
33 8
35 7
- 35
4 38
0 40
2 -
39 1
42 0
44 4
- Lo
P R
11 1
11 8
12 9
- 11
7 12
5 13
6 -
12 2
13 0
14 2
- 12
8 13
6 14
9 -
13 4
14 3
15 6
- 13
9 14
8 16
1 -
85 0
M Bh
22 .8
23 .7
25 .9
- 22
.3 23
.1 25
.3 -
21 .8
22 .6
24 .7
- 21
.2 22
.0 24
.1 -
20 .2
20 .9
22 .9
- 18
.7 19
.4 21
.2 -
S/ T
0. 73
0. 61
0. 42
- 0.
75 0.
63 0.
44 -
0. 77
0. 65
0. 45
- 0.
80 0.
67 0.
46 -
0. 83
0. 69
0. 48
- 0.
84 0.
70 0.
48 -
T 18
16 12
- 18
16 12
- 18
16 12
- 18
16 12
- 18
16 12
- 17
15 11
- kW
1. 47
1. 50
1. 54
- 1.
58 1.
61 1.
66 -
1. 68
1. 71
1. 77
- 1.
76 1.
80 1.
86 -
1. 84
1. 88
1. 94
- 1.
90 1.
94 2.
01 -
Am ps
6. 5
6. 7
6. 9
- 7.
0 7.
1 7.
3 -
7. 5
7. 6
7. 8
- 7.
9 8.
1 8.
3 -
8. 3
8. 5
8. 8
- 8.
8 9.
0 9.
2 -
H i P
R 21
5 23
1 24
4 -
24 1
25 9
27 4
- 27
4 29
5 31
1 -
31 2
33 6
35 5
- 35
1 37
8 39
9 -
38 8
41 7
44 1
- Lo
P R
11 0
11 7
12 8
- 11
6 12
4 13
5 -
12 1
12 9
14 1
- 12
7 13
5 14
8 -
13 3
14 2
15 5
- 13
8 14
7 16
0 -
75 0
M Bh
21 .7
22 .5
24 .6
- 21
.2 22
.0 24
.1 -
20 .7
21 .4
23 .5
- 20
.2 20
.9 22
.9 -
19 .2
19 .9
21 .8
- 17
.8 18
.4 20
.2 -
S/ T
0. 70
0. 58
0. 40
- 0.
72 0.
60 0.
42 -
0. 74
0. 62
0. 43
- 0.
76 0.
64 0.
44 -
0. 79
0. 66
0. 46
- 0.
80 0.
67 0.
46 -
T 19
16 12
- 19
16 12
- 19
16 12
- 19
16 12
- 19
16 12
- 17
15 11
- kW
1. 44
1. 47
1. 52
- 1.
55 1.
59 1.
64 -
1. 65
1. 68
1. 74
- 1.
73 1.
77 1.
83 -
1. 81
1. 85
1. 91
- 1.
87 1.
91 1.
97 -
Am ps
6. 4
6. 6
6. 7
- 6.
9 7.
0 7.
2 -
7. 4
7. 5
7. 7
- 7.
8 7.
9 8.
2 -
8. 2
8. 4
8. 6
- 8.
6 8.
8 9.
1 -
H i P
R 21
0 22
6 23
9 -
23 6
25 4
26 8
- 26
9 28
9 30
5 -
30 6
32 9
34 8
- 34
4 37
0 39
1 -
38 0
40 9
43 2
- Lo
P R
10 8
11 5
12 5
- 11
4 12
1 13
3 -
11 9
12 6
13 8
- 12
5 13
3 14
5 -
13 1
13 9
15 2
- 13
5 14
4 15
7 -
75
95 0
M Bh
23 .6
24 .3
26 .3
28 .2
23 .0
23 .7
25 .7
27 .5
22 .5
23 .1
25 .0
26 .9
21 .9
22 .6
24 .4
26 .2
20 .8
21 .4
23 .2
24 .9
19 .3
19 .9
21 .5
23 .1
S/ T
0. 86
0. 77
0. 58
0. 38
0. 89
0. 80
0. 61
0. 39
0. 92
0. 82
0. 62
0. 40
0. 95
0. 85
0. 64
0. 41
0. 98
0. 88
0. 67
0. 43
0. 99
0. 89
0. 67
0. 43
T 20
18 15
10 20
18 15
10 20
18 15
10 20
19 15
10 20
18 15
10 19
17 14
10 kW
1. 49
1. 52
1. 56
1. 61
1. 60
1. 63
1. 69
1. 74
1. 70
1. 74
1. 79
1. 85
1. 79
1. 83
1. 89
1. 95
1. 86
1. 91
1. 97
2. 04
1. 93
1. 97
2. 04
2. 11
Am ps
6. 6
6. 8
6. 9
7. 2
7. 1
7. 2
7. 4
7. 6
7. 6
7. 7
7. 9
8. 2
8. 0
8. 2
8. 4
8. 7
8. 5
8. 6
8. 9
9. 2
8. 9
9. 1
9. 3
9. 7
H i P
R 21
8 23
5 24
8 25
9 24
5 26
4 27
9 29
0 27
9 30
0 31
7 33
0 31
7 34
2 36
1 37
6 35
7 38
4 40
6 42
3 39
5 42
5 44
8 46
8 Lo
P R
11 2
11 9
13 0
13 9
11 8
12 6
13 8
14 6
12 3
13 1
14 3
15 2
12 9
13 8
15 0
16 0
13 6
14 4
15 7
16 8
14 0
14 9
16 3
17 3
85 0
M Bh
23 .2
23 .9
25 .9
27 .8
22 .7
23 .4
25 .3
27 .1
22 .1
22 .8
24 .7
26 .5
21 .6
22 .2
24 .1
25 .8
20 .5
21 .1
22 .9
24 .5
19 .0
19 .6
21 .2
22 .7
S/ T
0. 83
0. 74
0. 56
0. 36
0. 86
0. 77
0. 58
0. 37
0. 88
0. 79
0. 59
0. 38
0. 91
0. 81
0. 61
0. 40
0. 94
0. 84
0. 64
0. 41
0. 95
0. 85
0. 64
0. 41
T 21
19 16
11 21
19 16
11 21
19 16
11 21
20 16
11 21
19 16
11 20
18 15
10 kW
1. 48
1. 51
1. 56
1. 61
1. 59
1. 62
1. 68
1. 73
1. 69
1. 73
1. 78
1. 84
1. 78
1. 82
1. 88
1. 94
1. 85
1. 89
1. 96
2. 02
1. 92
1. 96
2. 03
2. 09
Am ps
6. 6
6. 7
6. 9
7. 1
7. 0
7. 2
7. 4
7. 6
7. 5
7. 7
7. 9
8. 2
8. 0
8. 1
8. 4
8. 6
8. 4
8. 6
8. 8
9. 1
8. 8
9. 0
9. 3
9. 6
H i P
R 21
7 23
3 24
6 25
7 24
3 26
2 27
7 28
8 27
7 29
8 31
5 32
8 31
5 33
9 35
8 37
4 35
5 38
2 40
3 42
0 39
2 42
2 44
5 46
4 Lo
P R
11 1
11 8
12 9
13 8
11 8
12 5
13 7
14 5
12 2
13 0
14 2
15 1
12 8
13 7
14 9
15 9
13 5
14 3
15 6
16 6
13 9
14 8
16 2
17 2
75 0
M Bh
22 .1
22 .7
24 .6
26 .4
21 .5
22 .2
24 .0
25 .8
21 .0
21 .7
23 .4
25 .2
20 .5
21 .1
22 .9
24 .5
19 .5
20 .1
21 .7
23 .3
18 .1
18 .6
20 .1
21 .6
S/ T
0. 79
0. 71
0. 54
0. 34
0. 82
0. 73
0. 56
0. 36
0. 84
0. 75
0. 57
0. 37
0. 87
0. 78
0. 59
0. 38
0. 90
0. 81
0. 61
0. 39
0. 91
0. 81
0. 62
0. 40
T 21
20 16
11 22
20 16
11 22
20 16
11 22
20 16
11 22
20 16
11 20
19 15
10 kW
1. 45
1. 48
1. 53
1. 58
1. 56
1. 60
1. 65
1. 70
1. 66
1. 70
1. 75
1. 81
1. 75
1. 79
1. 85
1. 91
1. 82
1. 86
1. 92
1. 99
1. 89
1. 93
1. 99
2. 06
Am ps
6. 5
6. 6
6. 8
7. 0
6. 9
7. 1
7. 3
7. 5
7. 4
7. 6
7. 8
8. 0
7. 8
8. 0
8. 2
8. 5
8. 3
8. 4
8. 7
9. 0
8. 7
8. 9
9. 1
9. 4
H i P
R 21
3 22
9 24
2 25
2 23
9 25
7 27
1 28
3 27
1 29
2 30
8 32
2 30
9 33
2 35
1 36
6 34
8 37
4 39
5 41
2 38
4 41
3 43
6 45
5 Lo
P R
10 9
11 6
12 7
13 5
11 5
12 3
13 4
14 3
12 0
12 7
13 9
14 8
12 6
13 4
14 6
15 6
13 2
14 0
15 3
16 3
13 6
14 5
15 8
16 9
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AC
CA (T
VA ) c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g
8 2
F @
th e
liq ui
d ac
ce ss
fi tti
ng c
on ne
cti on
A H
RI 9
5 te
st c
on di
tio ns
. D es
ig n
Su pe
rh ea
t 1 5
2 F
@ th
e co
m pr
es so
r s uc
tio n
ac ce
ss fi
tti ng
c on
ne cti
on .
4 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 5
Expanded Cooling Data GPH1624M41 (cont.)
O ut
do or
A m
bi en
t Te
m pe
ra tu
re 65
F 75
F 85
F 95
F 10
5 F
11 5
F En
te ri
ng In
do or
W et
B ul
b Te
m pe
ra tu
re ID
B Ai
rfl ow
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
80
95 0
M Bh
24 .0
24 .5
26 .2
28 .0
23 .4
23 .9
25 .6
27 .3
22 .9
23 .4
25 .0
26 .7
22 .3
22 .8
24 .4
26 .0
21 .2
21 .7
23 .1
24 .7
19 .6
20 .1
21 .4
22 .9
S/ T
0. 95
0. 89
0. 72
0. 54
0. 98
0. 92
0. 75
0. 56
1. 00
0. 94
0. 77
0. 57
1. 00
0. 97
0. 79
0. 59
1. 00
1. 00
0. 82
0. 62
1. 00
1. 00
0. 83
0. 62
T 22
21 18
15 22
21 19
15 22
21 19
15 22
21 19
15 21
21 18
15 19
19 17
14 kW
1. 50
1. 53
1. 58
1. 63
1. 61
1. 65
1. 70
1. 76
1. 71
1. 75
1. 81
1. 87
1. 80
1. 84
1. 90
1. 97
1. 88
1. 92
1. 99
2. 05
1. 95
1. 99
2. 06
2. 13
Am ps
6. 7
6. 8
7. 0
7. 2
7. 1
7. 3
7. 5
7. 7
7. 6
7. 8
8. 0
8. 3
8. 1
8. 2
8. 5
8. 8
8. 5
8. 7
9. 0
9. 3
9. 0
9. 2
9. 4
9. 7
H i P
R 22
1 23
7 25
1 26
1 24
8 26
6 28
1 29
3 28
2 30
3 32
0 33
4 32
1 34
5 36
4 38
0 36
1 38
8 41
0 42
8 39
9 42
9 45
3 47
2 Lo
P R
11 3
12 0
13 2
14 0
12 0
12 7
13 9
14 8
12 4
13 2
14 4
15 4
13 1
13 9
15 2
16 2
13 7
14 6
15 9
16 9
14 2
15 1
16 4
17 5
85 0
M Bh
23 .6
24 .1
25 .8
27 .6
23 .1
23 .6
25 .2
26 .9
22 .5
23 .0
24 .6
26 .3
22 .0
22 .5
24 .0
25 .7
20 .9
21 .3
22 .8
24 .4
19 .3
19 .8
21 .1
22 .6
S/ T
0. 91
0. 85
0. 69
0. 52
0. 94
0. 88
0. 72
0. 54
0. 96
0. 90
0. 74
0. 55
0. 99
0. 93
0. 76
0. 57
1. 00
0. 97
0. 79
0. 59
1. 00
0. 98
0. 79
0. 59
T 23
22 19
15 23
22 20
16 23
23 20
16 24
23 20
16 23
22 19
16 21
21 18
15 kW
1. 49
1. 52
1. 57
1. 62
1. 60
1. 64
1. 69
1. 75
1. 70
1. 74
1. 80
1. 86
1. 79
1. 83
1. 89
1. 96
1. 87
1. 91
1. 97
2. 04
1. 93
1. 98
2. 04
2. 11
Am ps
6. 6
6. 8
7. 0
7. 2
7. 1
7. 2
7. 4
7. 7
7. 6
7. 7
8. 0
8. 2
8. 0
8. 2
8. 4
8. 7
8. 5
8. 7
8. 9
9. 2
8. 9
9. 1
9. 4
9. 7
H i P
R 21
9 23
6 24
9 26
0 24
6 26
5 27
9 29
1 28
0 30
1 31
8 33
1 31
8 34
3 36
2 37
7 35
8 38
6 40
7 42
5 39
6 42
6 45
0 46
9 Lo
P R
11 2
12 0
13 1
13 9
11 9
12 6
13 8
14 7
12 3
13 1
14 3
15 3
13 0
13 8
15 1
16 0
13 6
14 5
15 8
16 8
14 1
15 0
16 3
17 4
75 0
M Bh
22 .5
22 .9
24 .5
26 .2
21 .9
22 .4
23 .9
25 .6
21 .4
21 .9
23 .4
25 .0
20 .9
21 .3
22 .8
24 .4
19 .8
20 .3
21 .7
23 .2
18 .4
18 .8
20 .1
21 .4
S/ T
0. 87
0. 81
0. 66
0. 50
0. 90
0. 84
0. 69
0. 51
0. 92
0. 87
0. 70
0. 53
0. 95
0. 89
0. 73
0. 54
0. 99
0. 93
0. 75
0. 56
1. 00
0. 94
0. 76
0. 57
T 24
23 20
16 24
23 20
16 24
23 20
16 24
23 20
16 24
23 20
16 22
22 19
15 kW
1. 47
1. 50
1. 54
1. 59
1. 58
1. 61
1. 66
1. 72
1. 68
1. 71
1. 77
1. 83
1. 76
1. 80
1. 86
1. 92
1. 84
1. 88
1. 94
2. 01
1. 90
1. 94
2. 01
2. 08
Am ps
6. 5
6. 7
6. 9
7. 1
7. 0
7. 1
7. 3
7. 5
7. 5
7. 6
7. 8
8. 1
7. 9
8. 1
8. 3
8. 6
8. 3
8. 5
8. 8
9. 1
8. 8
9. 0
9. 2
9. 5
H i P
R 21
5 23
1 24
4 25
4 24
1 25
9 27
4 28
6 27
4 29
5 31
1 32
5 31
2 33
6 35
5 37
0 35
1 37
8 39
9 41
6 38
8 41
7 44
1 46
0 Lo
P R
11 0
11 7
12 8
13 6
11 6
12 4
13 5
14 4
12 1
12 9
14 1
15 0
12 7
13 5
14 8
15 7
13 3
14 2
15 5
16 5
13 8
14 7
16 0
17 0
85
95 0
M Bh
24 .4
24 .9
26 .1
27 .8
23 .8
24 .3
25 .5
27 .2
23 .3
23 .7
24 .8
26 .5
22 .7
23 .1
24 .2
25 .9
21 .6
22 .0
23 .0
24 .6
20 .0
20 .4
21 .3
22 .8
S/ T
0. 99
0. 96
0. 86
0. 70
1. 00
0. 99
0. 90
0. 73
1. 00
1. 00
0. 92
0. 75
1. 00
1. 00
0. 95
0. 77
1. 00
1. 00
0. 98
0. 80
1. 00
1. 00
0. 99
0. 81
T 23
23 22
19 23
23 22
19 23
23 22
19 22
22 22
19 21
21 22
19 19
20 20
18 kW
1. 51
1. 54
1. 59
1. 64
1. 63
1. 66
1. 71
1. 77
1. 73
1. 77
1. 82
1. 88
1. 82
1. 86
1. 92
1. 98
1. 90
1. 94
2. 00
2. 07
1. 96
2. 01
2. 07
2. 14
Am ps
6. 7
6. 9
7. 0
7. 3
7. 2
7. 3
7. 5
7. 8
7. 7
7. 9
8. 1
8. 3
8. 1
8. 3
8. 6
8. 8
8. 6
8. 8
9. 0
9. 3
9. 0
9. 2
9. 5
9. 8
H i P
R 22
3 24
0 25
3 26
4 25
0 26
9 28
4 29
6 28
4 30
6 32
3 33
7 32
4 34
9 36
8 38
4 36
4 39
2 41
4 43
2 40
3 43
3 45
7 47
7 Lo
P R
11 4
12 2
13 3
14 1
12 1
12 9
14 0
14 9
12 6
13 4
14 6
15 5
13 2
14 0
15 3
16 3
13 8
14 7
16 1
17 1
14 3
15 2
16 6
17 7
85 0
M Bh
24 .0
24 .5
25 .7
27 .4
23 .5
23 .9
25 .1
26 .8
22 .9
23 .4
24 .5
26 .1
22 .4
22 .8
23 .9
25 .5
21 .2
21 .7
22 .7
24 .2
19 .7
20 .1
21 .0
22 .4
S/ T
0. 95
0. 92
0. 83
0. 67
0. 99
0. 95
0. 86
0. 70
1. 00
0. 97
0. 88
0. 71
1. 00
1. 00
0. 91
0. 74
1. 00
1. 00
0. 94
0. 76
1. 00
1. 00
0. 95
0. 77
T 25
24 23
20 25
25 23
20 25
25 23
20 24
25 23
20 23
23 23
20 21
22 22
19 kW
1. 50
1. 53
1. 58
1. 63
1. 62
1. 65
1. 70
1. 76
1. 72
1. 76
1. 81
1. 87
1. 81
1. 85
1. 91
1. 97
1. 88
1. 93
1. 99
2. 06
1. 95
1. 99
2. 06
2. 13
Am ps
6. 7
6. 8
7. 0
7. 2
7. 1
7. 3
7. 5
7. 7
7. 7
7. 8
8. 0
8. 3
8. 1
8. 3
8. 5
8. 8
8. 5
8. 7
9. 0
9. 3
9. 0
9. 2
9. 4
9. 8
H i P
R 22
1 23
8 25
1 26
2 24
8 26
7 28
2 29
4 28
2 30
4 32
1 33
5 32
2 34
6 36
5 38
1 36
2 38
9 41
1 42
9 40
0 43
0 45
4 47
4 Lo
P R
11 4
12 1
13 2
14 0
12 0
12 8
13 9
14 8
12 5
13 3
14 5
15 4
13 1
13 9
15 2
16 2
13 7
14 6
15 9
17 0
14 2
15 1
16 5
17 6
75 0
M Bh
22 .8
23 .3
24 .4
26 .0
22 .3
22 .7
23 .8
25 .4
21 .8
22 .2
23 .3
24 .8
21 .2
21 .7
22 .7
24 .2
20 .2
20 .6
21 .6
23 .0
18 .7
19 .1
20 .0
21 .3
S/ T
0. 91
0. 88
0. 79
0. 64
0. 94
0. 91
0. 82
0. 67
0. 97
0. 93
0. 84
0. 68
1. 00
0. 96
0. 87
0. 71
1. 00
1. 00
0. 90
0. 73
1. 00
1. 00
0. 91
0. 74
T 25
25 24
21 26
25 24
21 26
25 24
21 26
26 24
21 25
25 24
21 23
23 22
19 kW
1. 48
1. 51
1. 56
1. 61
1. 59
1. 62
1. 68
1. 73
1. 69
1. 73
1. 78
1. 84
1. 78
1. 82
1. 88
1. 94
1. 85
1. 89
1. 96
2. 02
1. 92
1. 96
2. 03
2. 09
Am ps
6. 6
6. 7
6. 9
7. 1
7. 0
7. 2
7. 4
7. 6
7. 5
7. 7
7. 9
8. 2
8. 0
8. 1
8. 4
8. 6
8. 4
8. 6
8. 8
9. 1
8. 8
9. 0
9. 3
9. 6
H i P
R 21
7 23
3 24
6 25
7 24
3 26
2 27
7 28
8 27
7 29
8 31
4 32
8 31
5 33
9 35
8 37
4 35
5 38
2 40
3 42
0 39
2 42
2 44
5 46
4 Lo
P R
11 1
11 8
12 9
13 8
11 8
12 5
13 7
14 5
12 2
13 0
14 2
15 1
12 8
13 7
14 9
15 9
13 5
14 3
15 6
16 6
13 9
14 8
16 2
17 2
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AH
RI c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g
8 2
F @
th e
liq ui
d ac
ce ss
fi tti
ng c
on ne
cti on
A H
RI 9
5 te
st c
on di
tio ns
. D es
ig n
Su pe
rh ea
t 1 5
2 F
@ th
e co
m pr
es so
r s uc
tio n
ac ce
ss fi
tti ng
c on
ne cti
on .
6 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 7
Expanded Cooling Data GPH1630M41** O
ut do
or A
m bi
en t
Te m
pe ra
tu re
65 F
75 F
85 F
95 F
10 5
F 11
5 F
En te
ri ng
In do
or W
et B
ul b
Te m
pe ra
tu re
ID B
Ai rf
lo w
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
70
11 75
M Bh
28 .0
29 .0
31 .8
- 27
.4 28
.4 31
.1 -
26 .7
27 .7
30 .3
- 26
.0 27
.0 29
.6 -
24 .7
25 .7
28 .1
- 22
.9 23
.8 26
.0 -
S/ T
0. 75
0. 63
0. 44
- 0.
78 0.
65 0.
45 -
0. 80
0. 67
0. 46
- 0.
83 0.
69 0.
48 -
0. 86
0. 72
0. 50
- 0.
86 0.
72 0.
50 -
T 16
14 11
- 17
14 11
- 17
14 11
- 17
15 11
- 17
14 11
- 15
13 10
- kW
1. 89
1. 94
2. 00
- 2.
04 2.
09 2.
16 -
2. 17
2. 22
2. 30
- 2.
29 2.
34 2.
42 -
2. 39
2. 44
2. 52
- 2.
47 2.
53 2.
61 -
Am ps
8. 3
8. 5
8. 7
- 8.
9 9.
1 9.
3 -
9. 6
9. 8
10 .0
- 10
.1 10
.3 10
.6 -
10 .7
10 .9
11 .3
- 11
.3 11
.5 11
.9 -
H i P
R 22
8 24
5 25
9 -
25 5
27 5
29 0
- 29
0 31
3 33
0 -
33 1
35 6
37 6
- 37
2 40
0 42
3 -
41 1
44 2
46 7
- Lo
P R
10 9
11 5
12 6
- 11
5 12
2 13
3 -
11 9
12 7
13 8
- 12
5 13
3 14
5 -
13 1
14 0
15 2
- 13
6 14
4 15
8 -
10 50
M Bh
27 .6
28 .6
31 .3
- 26
.9 27
.9 30
.6 -
26 .3
27 .3
29 .9
- 25
.7 26
.6 29
.1 -
24 .4
25 .3
27 .7
- 22
.6 23
.4 25
.6 -
S/ T
0. 72
0. 60
0. 42
- 0.
75 0.
62 0.
43 -
0. 77
0. 64
0. 44
- 0.
79 0.
66 0.
46 -
0. 82
0. 68
0. 47
- 0.
83 0.
69 0.
48 -
T 17
15 11
- 18
15 12
- 18
15 12
- 18
15 12
- 18
15 12
- 16
14 11
- kW
1. 88
1. 92
1. 99
- 2.
03 2.
08 2.
14 -
2. 16
2. 21
2. 28
- 2.
28 2.
33 2.
40 -
2. 37
2. 43
2. 51
- 2.
46 2.
51 2.
60 -
Am ps
8. 3
8. 4
8. 7
- 8.
8 9.
0 9.
3 -
9. 5
9. 7
10 .0
- 10
.1 10
.3 10
.6 -
10 .6
10 .9
11 .2
- 11
.2 11
.4 11
.8 -
H i P
R 22
6 24
3 25
7 -
25 4
27 3
28 8
- 28
8 31
0 32
8 -
32 8
35 3
37 3
- 37
0 39
8 42
0 -
40 8
43 9
46 4
- Lo
P R
10 8
11 5
12 5
- 11
4 12
1 13
2 -
11 8
12 6
13 7
- 12
4 13
2 14
4 -
13 0
13 9
15 1
- 13
5 14
3 15
7 -
92 5
M Bh
26 .2
27 .2
29 .8
- 25
.6 26
.5 29
.1 -
25 .0
25 .9
28 .4
- 24
.4 25
.3 27
.7 -
23 .2
24 .0
26 .3
- 21
.5 22
.2 24
.4 -
S/ T
0. 69
0. 58
0. 40
- 0.
72 0.
60 0.
41 -
0. 73
0. 61
0. 42
- 0.
76 0.
63 0.
44 -
0. 79
0. 66
0. 45
- 0.
79 0.
66 0.
46 -
T 18
16 12
- 18
16 12
- 18
16 12
- 18
16 12
- 18
16 12
- 17
15 11
- kW
1. 85
1. 89
1. 95
- 2.
00 2.
04 2.
11 -
2. 13
2. 17
2. 24
- 2.
24 2.
29 2.
36 -
2. 33
2. 39
2. 47
- 2.
42 2.
47 2.
55 -
Am ps
8. 1
8. 3
8. 5
- 8.
7 8.
9 9.
1 -
9. 4
9. 5
9. 8
- 9.
9 10
.1 10
.4 -
10 .5
10 .7
11 .0
- 11
.0 11
.3 11
.6 -
H i P
R 22
1 23
8 25
2 -
24 8
26 7
28 2
- 28
3 30
4 32
1 -
32 2
34 6
36 6
- 36
2 39
0 41
2 -
40 0
43 1
45 5
- Lo
P R
10 6
11 2
12 3
- 11
2 11
9 13
0 -
11 6
12 3
13 5
- 12
2 13
0 14
2 -
12 8
13 6
14 8
- 13
2 14
1 15
3 -
75
11 75
M Bh
28 .5
29 .3
31 .7
34 .1
27 .8
28 .6
31 .0
33 .3
27 .2
28 .0
30 .3
32 .5
26 .5
27 .3
29 .5
31 .7
25 .2
25 .9
28 .0
30 .1
23 .3
24 .0
26 .0
27 .9
S/ T
0. 86
0. 76
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. 63
0. 41
0. 97
0. 87
0. 66
0. 42
0. 98
0. 88
0. 66
0. 43
T 19
18 14
10 19
18 15
10 19
18 15
10 19
18 15
10 19
18 14
10 18
16 14
9 kW
1. 91
1. 95
2. 01
2. 08
2. 06
2. 11
2. 17
2. 25
2. 19
2. 24
2. 32
2. 39
2. 31
2. 36
2. 44
2. 52
2. 41
2. 46
2. 55
2. 63
2. 49
2. 55
2. 64
2. 73
Am ps
8. 4
8. 6
8. 8
9. 1
9. 0
9. 1
9. 4
9. 7
9. 6
9. 8
10 .1
10 .5
10 .2
10 .4
10 .7
11 .1
10 .8
11 .0
11 .4
11 .7
11 .4
11 .6
12 .0
12 .4
H i P
R 23
0 24
7 26
1 27
2 25
8 27
8 29
3 30
6 29
3 31
6 33
3 34
8 33
4 36
0 38
0 39
6 37
6 40
5 42
7 44
6 41
5 44
7 47
2 49
2 Lo
P R
11 0
11 7
12 7
13 6
11 6
12 3
13 5
14 3
12 0
12 8
14 0
14 9
12 6
13 5
14 7
15 6
13 3
14 1
15 4
16 4
13 7
14 6
15 9
17 0
10 50
M Bh
28 .1
28 .9
31 .3
33 .6
27 .4
28 .2
30 .5
32 .8
26 .8
27 .5
29 .8
32 .0
26 .1
26 .9
29 .1
31 .2
24 .8
25 .5
27 .6
29 .7
23 .0
23 .6
25 .6
27 .5
S/ T
0. 82
0. 73
0. 55
0. 36
0. 85
0. 76
0. 57
0. 37
0. 87
0. 78
0. 59
0. 38
0. 90
0. 80
0. 61
0. 39
0. 93
0. 83
0. 63
0. 41
0. 94
0. 84
0. 64
0. 41
T 20
19 15
10 20
19 15
11 20
19 15
11 21
19 15
11 20
19 15
11 19
17 14
10 kW
1. 90
1. 94
2. 00
2. 07
2. 05
2. 09
2. 16
2. 23
2. 18
2. 23
2. 30
2. 38
2. 30
2. 35
2. 43
2. 51
2. 39
2. 45
2. 53
2. 62
2. 48
2. 54
2. 62
2. 71
Am ps
8. 3
8. 5
8. 7
9. 0
8. 9
9. 1
9. 4
9. 7
9. 6
9. 8
10 .1
10 .4
10 .2
10 .4
10 .7
11 .0
10 .7
11 .0
11 .3
11 .7
11 .3
11 .5
11 .9
12 .3
H i P
R 22
8 24
6 25
9 27
1 25
6 27
6 29
1 30
4 29
1 31
4 33
1 34
5 33
2 35
7 37
7 39
3 37
3 40
2 42
4 44
2 41
2 44
4 46
9 48
9 Lo
P R
10 9
11 6
12 6
13 5
11 5
12 2
13 4
14 2
12 0
12 7
13 9
14 8
12 6
13 4
14 6
15 5
13 2
14 0
15 3
16 3
13 6
14 5
15 8
16 8
92 5
M Bh
26 .7
27 .4
29 .7
31 .9
26 .0
26 .8
29 .0
31 .1
25 .4
26 .2
28 .3
30 .4
24 .8
25 .5
27 .6
29 .7
23 .6
24 .3
26 .3
28 .2
21 .8
22 .5
24 .3
26 .1
S/ T
0. 78
0. 70
0. 53
0. 34
0. 81
0. 73
0. 55
0. 35
0. 83
0. 75
0. 56
0. 36
0. 86
0. 77
0. 58
0. 37
0. 89
0. 80
0. 60
0. 39
0. 90
0. 81
0. 61
0. 39
T 21
19 16
11 21
19 16
11 21
19 16
11 21
20 16
11 21
19 16
11 20
18 15
10 kW
1. 87
1. 91
1. 97
2. 03
2. 01
2. 06
2. 13
2. 20
2. 14
2. 19
2. 26
2. 34
2. 26
2. 31
2. 38
2. 46
2. 35
2. 41
2. 49
2. 57
2. 44
2. 49
2. 58
2. 66
Am ps
8. 2
8. 4
8. 6
8. 9
8. 8
9. 0
9. 2
9. 5
9. 4
9. 6
9. 9
10 .2
10 .0
10 .2
10 .5
10 .9
10 .6
10 .8
11 .1
11 .5
11 .1
11 .3
11 .7
12 .1
H i P
R 22
4 24
1 25
4 26
5 25
1 27
0 28
5 29
8 28
6 30
7 32
4 33
8 32
5 35
0 37
0 38
5 36
6 39
4 41
6 43
4 40
4 43
5 45
9 47
9 Lo
P R
10 7
11 4
12 4
13 2
11 3
12 0
13 1
13 9
11 7
12 5
13 6
14 5
12 3
13 1
14 3
15 2
12 9
13 7
15 0
16 0
13 3
14 2
15 5
16 5
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AC
CA (T
VA ) c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g,
1 0
2 F
@ th
e liq
ui d
ac ce
ss fi
tti ng
c on
ne cti
on A
H RI
9 5
te st
c on
di tio
ns . D
es ig
n Su
pe rh
ea t 1
5 2
F @
th e
co m
pr es
so r s
uc tio
n ac
ce ss
fi tti
ng c
on ne
cti on
.
6 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 7
Expanded Cooling Data GPH1630M41** (cont.)
O ut
do or
A m
bi en
t Te
m pe
ra tu
re 65
F 75
F 85
F 95
F 10
5 F
11 5
F En
te ri
ng In
do or
W et
B ul
b Te
m pe
ra tu
re ID
B Ai
rf lo
w 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71
80
11 75
M Bh
29 .0
29 .6
31 .6
33 .8
28 .3
28 .9
30 .9
33 .0
27 .6
28 .2
30 .2
32 .3
27 .0
27 .6
29 .4
31 .5
25 .6
26 .2
28 .0
29 .9
23 .7
24 .2
25 .9
27 .7
S/ T
0. 94
0. 88
0. 72
0. 54
0. 97
0. 91
0. 74
0. 55
1. 00
0. 93
0. 76
0. 57
1. 00
0. 96
0. 79
0. 59
1. 00
1. 00
0. 82
0. 61
1. 00
1. 00
0. 82
0. 61
T 21
20 18
14 22
21 18
14 22
21 18
14 21
21 18
14 20
20 18
14 19
19 17
13 kW
1. 93
1. 97
2. 03
2. 10
2. 08
2. 12
2. 19
2. 27
2. 21
2. 26
2. 33
2. 41
2. 33
2. 38
2. 46
2. 54
2. 43
2. 48
2. 57
2. 66
2. 52
2. 57
2. 66
2. 75
Am ps
8. 4
8. 6
8. 9
9. 1
9. 0
9. 2
9. 5
9. 8
9. 7
9. 9
10 .2
10 .5
10 .3
10 .5
10 .8
11 .2
10 .9
11 .1
11 .4
11 .8
11 .5
11 .7
12 .1
12 .5
H i P
R 23
2 25
0 26
4 27
5 26
1 28
0 29
6 30
9 29
6 31
9 33
7 35
1 33
8 36
3 38
4 40
0 38
0 40
9 43
1 45
0 42
0 45
1 47
7 49
7 Lo
P R
11 1
11 8
12 9
13 7
11 7
12 5
13 6
14 5
12 2
12 9
14 1
15 0
12 8
13 6
14 8
15 8
13 4
14 2
15 6
16 6
13 9
14 7
16 1
17 1
10 50
M Bh
28 .6
29 .2
31 .2
33 .3
27 .9
28 .5
30 .5
32 .6
27 .2
27 .8
29 .7
31 .8
26 .6
27 .1
29 .0
31 .0
25 .2
25 .8
27 .6
29 .5
23 .4
23 .9
25 .5
27 .3
S/ T
0. 90
0. 84
0. 69
0. 51
0. 93
0. 87
0. 71
0. 53
0. 95
0. 90
0. 73
0. 54
0. 99
0. 92
0. 75
0. 56
1. 00
0. 96
0. 78
0. 58
1. 00
0. 97
0. 79
0. 59
T 22
22 19
15 23
22 19
15 23
22 19
15 23
22 19
15 22
22 19
15 20
20 18
14 kW
1. 92
1. 96
2. 02
2. 09
2. 07
2. 11
2. 18
2. 25
2. 20
2. 25
2. 32
2. 40
2. 31
2. 37
2. 45
2. 53
2. 41
2. 47
2. 55
2. 64
2. 50
2. 56
2. 64
2. 73
Am ps
8. 4
8. 6
8. 8
9. 1
9. 0
9. 2
9. 4
9. 7
9. 7
9. 9
10 .1
10 .5
10 .2
10 .5
10 .8
11 .1
10 .8
11 .1
11 .4
11 .8
11 .4
11 .6
12 .0
12 .4
H i P
R 23
1 24
8 26
2 27
3 25
9 27
8 29
4 30
7 29
4 31
7 33
4 34
9 33
5 36
1 38
1 39
7 37
7 40
6 42
8 44
7 41
7 44
8 47
3 49
4 Lo
P R
11 0
11 7
12 8
13 6
11 6
12 4
13 5
14 4
12 1
12 9
14 0
14 9
12 7
13 5
14 7
15 7
13 3
14 1
15 4
16 4
13 8
14 6
16 0
17 0
92 5
M Bh
27 .1
27 .7
29 .6
31 .7
26 .5
27 .1
28 .9
30 .9
25 .9
26 .4
28 .2
30 .2
25 .2
25 .8
27 .6
29 .5
24 .0
24 .5
26 .2
28 .0
22 .2
22 .7
24 .2
25 .9
S/ T
0. 86
0. 81
0. 66
0. 49
0. 89
0. 84
0. 68
0. 51
0. 91
0. 86
0. 70
0. 52
0. 94
0. 88
0. 72
0. 54
0. 98
0. 92
0. 75
0. 56
0. 99
0. 93
0. 75
0. 56
T 23
22 19
15 23
23 20
16 24
23 20
16 24
23 20
16 23
22 19
16 22
21 18
15 kW
1. 88
1. 92
1. 99
2. 05
2. 03
2. 08
2. 14
2. 21
2. 16
2. 21
2. 28
2. 36
2. 28
2. 33
2. 40
2. 49
2. 37
2. 43
2. 51
2. 59
2. 46
2. 51
2. 60
2. 69
Am ps
8. 3
8. 4
8. 7
9. 0
8. 8
9. 0
9. 3
9. 6
9. 5
9. 7
10 .0
10 .3
10 .1
10 .3
10 .6
10 .9
10 .6
10 .9
11 .2
11 .6
11 .2
11 .4
11 .8
12 .2
H i P
R 22
6 24
3 25
7 26
8 25
4 27
3 28
8 30
1 28
8 31
0 32
8 34
2 32
8 35
3 37
3 38
9 37
0 39
8 42
0 43
8 40
8 43
9 46
4 48
4 Lo
P R
10 8
11 5
12 5
13 3
11 4
12 1
13 2
14 1
11 8
12 6
13 7
14 6
12 4
13 2
14 4
15 4
13 0
13 9
15 1
16 1
13 5
14 3
15 7
16 7
85
11 75
M Bh
29 .5
30 .1
31 .5
33 .6
28 .8
29 .4
30 .8
32 .8
28 .1
28 .7
30 .0
32 .0
27 .4
28 .0
29 .3
31 .2
26 .1
26 .6
27 .8
29 .7
24 .1
24 .6
25 .8
27 .5
S/ T
0. 98
0. 95
0. 86
0. 69
1. 00
0. 98
0. 89
0. 72
1. 00
1. 00
0. 91
0. 74
1. 00
1. 00
0. 94
0. 76
1. 00
1. 00
0. 97
0. 79
1. 00
1. 00
0. 98
0. 80
T 23
22 21
18 23
23 21
18 22
22 21
18 21
22 22
19 20
21 21
18 19
19 20
17 kW
1. 94
1. 98
2. 05
2. 11
2. 09
2. 14
2. 21
2. 28
2. 23
2. 28
2. 35
2. 43
2. 35
2. 40
2. 48
2. 57
2. 45
2. 50
2. 59
2. 68
2. 54
2. 59
2. 68
2. 78
Am ps
8. 5
8. 7
8. 9
9. 2
9. 1
9. 3
9. 6
9. 9
9. 8
10 .0
10 .3
10 .6
10 .4
10 .6
10 .9
11 .3
11 .0
11 .2
11 .5
11 .9
11 .5
11 .8
12 .2
12 .6
H i P
R 23
5 25
2 26
7 27
8 26
3 28
3 29
9 31
2 29
9 32
2 34
0 35
5 34
1 36
7 38
7 40
4 38
3 41
3 43
6 45
5 42
4 45
6 48
1 50
2 Lo
P R
11 2
11 9
13 0
13 8
11 8
12 6
13 7
14 6
12 3
13 1
14 3
15 2
12 9
13 7
15 0
16 0
13 5
14 4
15 7
16 7
14 0
14 9
16 2
17 3
10 50
M Bh
29 .1
29 .6
31 .0
33 .1
28 .4
28 .9
30 .3
32 .3
27 .7
28 .2
29 .6
31 .6
27 .0
27 .6
28 .9
30 .8
25 .7
26 .2
27 .4
29 .2
23 .8
24 .2
25 .4
27 .1
S/ T
0. 94
0. 91
0. 82
0. 67
0. 98
0. 94
0. 85
0. 69
1. 00
0. 97
0. 87
0. 71
1. 00
1. 00
0. 90
0. 73
1. 00
1. 00
0. 93
0. 76
1. 00
1. 00
0. 94
0. 76
T 24
24 22
19 24
24 23
20 24
24 23
20 24
24 23
20 22
23 22
19 21
21 21
18 kW
1. 93
1. 97
2. 04
2. 10
2. 08
2. 13
2. 20
2. 27
2. 22
2. 27
2. 34
2. 42
2. 33
2. 39
2. 47
2. 55
2. 43
2. 49
2. 57
2. 66
2. 52
2. 58
2. 67
2. 76
Am ps
8. 5
8. 6
8. 9
9. 2
9. 1
9. 2
9. 5
9. 8
9. 7
9. 9
10 .2
10 .6
10 .3
10 .5
10 .9
11 .2
10 .9
11 .1
11 .5
11 .9
11 .5
11 .7
12 .1
12 .5
H i P
R 23
3 25
1 26
5 27
6 26
1 28
1 29
7 31
0 29
7 32
0 33
8 35
2 33
9 36
4 38
5 40
1 38
1 41
0 43
3 45
1 42
1 45
3 47
8 49
9 Lo
P R
11 1
11 8
12 9
13 7
11 7
12 5
13 6
14 5
12 2
13 0
14 2
15 1
12 8
13 6
14 9
15 9
13 4
14 3
15 6
16 6
13 9
14 8
16 1
17 2
92 5
M Bh
27 .6
28 .1
29 .5
31 .4
27 .0
27 .5
28 .8
30 .7
26 .3
26 .8
28 .1
30 .0
25 .7
26 .2
27 .4
29 .2
24 .4
24 .9
26 .0
27 .8
22 .6
23 .0
24 .1
25 .7
S/ T
0. 90
0. 87
0. 79
0. 64
0. 93
0. 90
0. 81
0. 66
0. 96
0. 92
0. 83
0. 68
0. 99
0. 95
0. 86
0. 70
1. 00
0. 99
0. 89
0. 73
1. 00
1. 00
0. 90
0. 73
T 25
24 23
20 25
25 23
20 25
25 23
20 25
25 23
20 24
24 23
20 22
23 22
19 kW
1. 90
1. 94
2. 00
2. 07
2. 05
2. 09
2. 16
2. 23
2. 18
2. 23
2. 30
2. 38
2. 30
2. 35
2. 42
2. 51
2. 39
2. 45
2. 53
2. 62
2. 48
2. 53
2. 62
2. 71
Am ps
8. 3
8. 5
8. 7
9. 0
8. 9
9. 1
9. 4
9. 7
9. 6
9. 8
10 .1
10 .4
10 .2
10 .4
10 .7
11 .0
10 .7
11 .0
11 .3
11 .7
11 .3
11 .5
11 .9
12 .3
H i P
R 22
8 24
6 25
9 27
1 25
6 27
6 29
1 30
4 29
1 31
3 33
1 34
5 33
2 35
7 37
7 39
3 37
3 40
2 42
4 44
2 41
2 44
4 46
9 48
9 Lo
P R
10 9
11 6
12 6
13 5
11 5
12 2
13 4
14 2
12 0
12 7
13 9
14 8
12 6
13 4
14 6
15 5
13 2
14 0
15 3
16 3
13 6
14 5
15 8
16 8
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AH
RI c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g,
1 0
2 F
@ th
e liq
ui d
ac ce
ss fi
tti ng
c on
ne cti
on A
H RI
9 5
te st
c on
di tio
ns . D
es ig
n Su
pe rh
ea t 1
5 2
F @
th e
co m
pr es
so r s
uc tio
n ac
ce ss
fi tti
ng c
on ne
cti on
.
8 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 9
Expanded Cooling Data GPH1636M41** O
ut do
or A
m bi
en t
Te m
pe ra
tu re
65 F
75 F
85 F
95 F
10 5
F 11
5 F
En te
ri ng
In do
or W
et B
ul b
Te m
pe ra
tu re
ID B
Ai rf
lo w
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
70
13 50
M Bh
34 .3
35 .5
38 .9
- 33
.5 34
.7 38
.0 -
32 .7
33 .9
37 .1
- 31
.9 33
.1 36
.2 -
30 .3
31 .4
34 .4
- 28
.1 29
.1 31
.9 -
S/ T
0. 75
0. 63
0. 43
- 0.
78 0.
65 0.
45 -
0. 80
0. 66
0. 46
- 0.
82 0.
69 0.
48 -
0. 85
0. 71
0. 49
- 0.
86 0.
72 0.
50 -
T 17
15 11
- 18
15 12
- 18
15 12
- 18
15 12
- 18
15 12
- 16
14 11
- kW
2. 26
2. 31
2. 38
- 2.
44 2.
49 2.
57 -
2. 60
2. 65
2. 74
- 2.
73 2.
80 2.
89 -
2. 85
2. 92
3. 02
- 2.
95 3.
02 3.
12 -
Am ps
10 .1
10 .3
10 .6
- 10
.8 11
.0 11
.3 -
11 .6
11 .8
12 .2
- 12
.3 12
.5 12
.9 -
13 .0
13 .2
13 .6
- 13
.6 13
.9 14
.4 -
H i P
R 24
0 25
8 27
3 -
26 9
29 0
30 6
- 30
6 32
9 34
8 -
34 9
37 5
39 6
- 39
2 42
2 44
6 -
43 3
46 6
49 3
- Lo
P R
11 2
11 9
13 0
- 11
8 12
5 13
7 -
12 3
13 0
14 2
- 12
9 13
7 15
0 -
13 5
14 4
15 7
- 14
0 14
8 16
2 -
12 00
M Bh
33 .3
34 .5
37 .8
- 32
.5 33
.7 36
.9 -
31 .7
32 .9
36 .1
- 31
.0 32
.1 35
.2 -
29 .4
30 .5
33 .4
- 27
.3 28
.3 31
.0 -
S/ T
0. 71
0. 60
0. 41
- 0.
74 0.
62 0.
43 -
0. 76
0. 63
0. 44
- 0.
78 0.
65 0.
45 -
0. 81
0. 68
0. 47
- 0.
82 0.
68 0.
47 -
T 18
16 12
- 18
16 12
- 18
16 12
- 19
16 12
- 18
16 12
- 17
15 11
- kW
2. 24
2. 29
2. 37
- 2.
42 2.
47 2.
55 -
2. 57
2. 63
2. 72
- 2.
71 2.
77 2.
87 -
2. 83
2. 89
2. 99
- 2.
93 3.
00 3.
10 -
Am ps
10 .0
10 .2
10 .5
- 10
.7 10
.9 11
.2 -
11 .5
11 .7
12 .1
- 12
.2 12
.4 12
.8 -
12 .9
13 .1
13 .5
- 13
.5 13
.8 14
.2 -
H i P
R 23
8 25
6 27
0 -
26 7
28 7
30 3
- 30
3 32
6 34
4 -
34 5
37 2
39 2
- 38
8 41
8 44
1 -
42 9
46 2
48 8
- Lo
P R
11 1
11 8
12 8
- 11
7 12
4 13
6 -
12 1
12 9
14 1
- 12
7 13
6 14
8 -
13 4
14 2
15 5
- 13
8 14
7 16
0 -
10 60
M Bh
31 .6
32 .8
35 .9
- 30
.9 32
.0 35
.1 -
30 .2
31 .3
34 .3
- 29
.4 30
.5 33
.4 -
28 .0
29 .0
31 .7
- 25
.9 26
.8 29
.4 -
S/ T
0. 68
0. 57
0. 40
- 0.
71 0.
59 0.
41 -
0. 73
0. 61
0. 42
- 0.
75 0.
63 0.
43 -
0. 78
0. 65
0. 45
- 0.
79 0.
66 0.
45 -
T 19
16 12
- 19
16 12
- 19
16 12
- 19
17 13
- 19
16 12
- 18
15 12
- kW
2. 21
2. 25
2. 33
- 2.
38 2.
43 2.
51 -
2. 53
2. 59
2. 67
- 2.
67 2.
73 2.
82 -
2. 78
2. 84
2. 94
- 2.
88 2.
94 3.
04 -
Am ps
9. 9
10 .1
10 .3
- 10
.5 10
.7 11
.0 -
11 .3
11 .5
11 .9
- 12
.0 12
.2 12
.6 -
12 .6
12 .9
13 .3
- 13
.3 13
.6 14
.0 -
H i P
R 23
3 25
1 26
5 -
26 1
28 1
29 7
- 29
7 32
0 33
8 -
33 8
36 4
38 4
- 38
1 41
0 43
3 -
42 1
45 3
47 8
- Lo
P R
10 8
11 5
12 6
- 11
4 12
2 13
3 -
11 9
12 7
13 8
- 12
5 13
3 14
5 -
13 1
13 9
15 2
- 13
5 14
4 15
7 -
75
13 50
M Bh
34 .9
35 .9
38 .9
41 .7
34 .1
35 .1
38 .0
40 .7
33 .3
34 .2
37 .1
39 .8
32 .4
33 .4
36 .2
38 .8
30 .8
31 .7
34 .4
36 .9
28 .6
29 .4
31 .8
34 .2
S/ T
0. 85
0. 76
0. 58
0. 37
0. 88
0. 79
0. 60
0. 38
0. 90
0. 81
0. 61
0. 39
0. 93
0. 84
0. 63
0. 41
0. 97
0. 87
0. 66
0. 42
0. 98
0. 87
0. 66
0. 43
T 20
19 15
11 20
19 15
11 20
19 15
11 21
19 16
11 20
19 15
11 19
17 14
10 kW
2. 28
2. 33
2. 40
2. 48
2. 46
2. 51
2. 60
2. 68
2. 62
2. 68
2. 77
2. 86
2. 76
2. 82
2. 91
3. 01
2. 88
2. 94
3. 04
3. 15
2. 98
3. 05
3. 15
3. 26
Am ps
10 .2
10 .4
10 .7
11 .0
10 .9
11 .1
11 .4
11 .8
11 .7
11 .9
12 .3
12 .7
12 .4
12 .6
13 .0
13 .4
13 .1
13 .4
13 .8
14 .2
13 .8
14 .1
14 .5
15 .0
H i P
R 24
2 26
1 27
5 28
7 27
2 29
3 30
9 32
2 30
9 33
3 35
1 36
7 35
2 37
9 40
0 41
8 39
6 42
6 45
0 47
0 43
8 47
1 49
8 51
9 Lo
P R
11 3
12 0
13 1
13 9
11 9
12 7
13 8
14 7
12 4
13 2
14 4
15 3
13 0
13 8
15 1
16 1
13 6
14 5
15 8
16 9
14 1
15 0
16 4
17 4
12 00
M Bh
33 .9
34 .9
37 .7
40 .5
33 .1
34 .1
36 .9
39 .6
32 .3
33 .2
36 .0
38 .6
31 .5
32 .4
35 .1
37 .7
29 .9
30 .8
33 .3
35 .8
27 .7
28 .5
30 .9
33 .2
S/ T
0. 81
0. 73
0. 55
0. 35
0. 84
0. 75
0. 57
0. 37
0. 86
0. 77
0. 58
0. 38
0. 89
0. 80
0. 60
0. 39
0. 92
0. 83
0. 63
0. 40
0. 93
0. 83
0. 63
0. 41
T 21
19 16
11 21
20 16
11 21
20 16
11 21
20 16
11 21
20 16
11 20
18 15
10 kW
2. 26
2. 31
2. 38
2. 46
2. 44
2. 49
2. 57
2. 66
2. 60
2. 65
2. 74
2. 83
2. 73
2. 80
2. 89
2. 99
2. 85
2. 92
3. 02
3. 12
2. 95
3. 02
3. 12
3. 23
Am ps
10 .1
10 .3
10 .6
10 .9
10 .8
11 .0
11 .3
11 .7
11 .6
11 .8
12 .2
12 .6
12 .3
12 .5
12 .9
13 .3
13 .0
13 .2
13 .6
14 .1
13 .6
13 .9
14 .4
14 .9
H i P
R 24
0 25
8 27
3 28
4 26
9 29
0 30
6 31
9 30
6 33
0 34
8 36
3 34
9 37
5 39
6 41
3 39
2 42
2 44
6 46
5 43
4 46
7 49
3 51
4 Lo
P R
11 2
11 9
13 0
13 8
11 8
12 5
13 7
14 6
12 3
13 0
14 2
15 2
12 9
13 7
15 0
15 9
13 5
14 4
15 7
16 7
14 0
14 8
16 2
17 3
10 60
M Bh
32 .2
33 .1
35 .9
38 .5
31 .4
32 .4
35 .0
37 .6
30 .7
31 .6
34 .2
36 .7
29 .9
30 .8
33 .3
35 .8
28 .4
29 .3
31 .7
34 .0
26 .3
27 .1
29 .3
31 .5
S/ T
0. 78
0. 70
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. 89
0. 79
0. 60
0. 39
0. 89
0. 80
0. 60
0. 39
T 22
20 16
11 22
20 17
11 22
20 17
11 22
20 17
12 22
20 16
11 20
19 15
11 kW
2. 22
2. 27
2. 35
2. 42
2. 40
2. 45
2. 53
2. 62
2. 55
2. 61
2. 70
2. 79
2. 69
2. 75
2. 84
2. 94
2. 80
2. 87
2. 96
3. 07
2. 90
2. 97
3. 07
3. 18
Am ps
9. 9
10 .1
10 .4
10 .7
10 .6
10 .8
11 .1
11 .5
11 .4
11 .6
12 .0
12 .4
12 .1
12 .3
12 .7
13 .1
12 .8
13 .0
13 .4
13 .9
13 .4
13 .7
14 .1
14 .6
H i P
R 23
5 25
3 26
7 27
9 26
4 28
4 30
0 31
3 30
0 32
3 34
1 35
6 34
2 36
8 38
8 40
5 38
5 41
4 43
7 45
6 42
5 45
7 48
3 50
4 Lo
P R
10 9
11 6
12 7
13 5
11 6
12 3
13 4
14 3
12 0
12 8
14 0
14 9
12 6
13 4
14 7
15 6
13 2
14 1
15 4
16 4
13 7
14 6
15 9
16 9
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AC
CA (T
VA ) c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g
10
2 F
@ th
e liq
ui d
ac ce
ss fi
tti ng
c on
ne cti
on A
H RI
9 5
te st
c on
di tio
ns . D
es ig
n Su
pe rh
ea t 1
3 2
F @
th e
co m
pr es
so r s
uc tio
n ac
ce ss
fi tti
ng c
on ne
cti on
.
8 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 9
Expanded Cooling Data GPH1636M41** (cont.)
O ut
do or
A m
bi en
t Te
m pe
ra tu
re 65
F 75
F 85
F 95
F 10
5 F
11 5
F En
te ri
ng In
do or
W et
B ul
b Te
m pe
ra tu
re ID
B Ai
rf lo
w 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71
80
13 50
M Bh
35 .5
36 .3
38 .8
41 .4
34 .7
35 .4
37 .9
40 .5
33 .8
34 .6
37 .0
39 .5
33 .0
33 .7
36 .1
38 .5
31 .4
32 .1
34 .2
36 .6
29 .1
29 .7
31 .7
33 .9
S/ T
0. 93
0. 88
0. 71
0. 53
0. 97
0. 91
0. 74
0. 55
1. 00
0. 93
0. 76
0. 57
1. 00
0. 96
0. 78
0. 58
1. 00
1. 00
0. 81
0. 61
1. 00
1. 00
0. 82
0. 61
T 23
22 19
15 23
22 19
15 23
22 19
15 22
22 19
15 21
22 19
15 20
20 18
14 kW
2. 30
2. 35
2. 42
2. 50
2. 48
2. 53
2. 62
2. 71
2. 64
2. 70
2. 79
2. 88
2. 78
2. 84
2. 94
3. 04
2. 90
2. 97
3. 07
3. 17
3. 01
3. 07
3. 18
3. 29
Am ps
10 .2
10 .5
10 .7
11 .1
10 .9
11 .2
11 .5
11 .9
11 .8
12 .0
12 .4
12 .8
12 .5
12 .7
13 .1
13 .6
13 .2
13 .5
13 .9
14 .3
13 .9
14 .2
14 .6
15 .1
H i P
R 24
5 26
3 27
8 29
0 27
5 29
6 31
2 32
6 31
2 33
6 35
5 37
0 35
6 38
3 40
4 42
2 40
0 43
1 45
5 47
4 44
2 47
6 50
3 52
4 Lo
P R
11 4
12 1
13 2
14 1
12 0
12 8
14 0
14 9
12 5
13 3
14 5
15 5
13 1
14 0
15 3
16 2
13 8
14 6
16 0
17 0
14 2
15 1
16 5
17 6
12 00
M Bh
34 .5
35 .2
37 .6
40 .2
33 .7
34 .4
36 .8
39 .3
32 .9
33 .6
35 .9
38 .4
32 .1
32 .8
35 .0
37 .4
30 .5
31 .1
33 .3
35 .5
28 .2
28 .8
30 .8
32 .9
S/ T
0. 89
0. 83
0. 68
0. 51
0. 92
0. 87
0. 70
0. 53
0. 95
0. 89
0. 72
0. 54
0. 98
0. 92
0. 75
0. 56
1. 00
0. 95
0. 77
0. 58
1. 00
0. 96
0. 78
0. 58
T 24
23 20
16 24
23 20
16 24
23 20
16 24
23 20
16 23
23 20
16 22
21 18
15 kW
2. 28
2. 33
2. 40
2. 48
2. 46
2. 51
2. 60
2. 68
2. 62
2. 68
2. 77
2. 86
2. 76
2. 82
2. 92
3. 01
2. 88
2. 94
3. 04
3. 15
2. 98
3. 05
3. 15
3. 26
Am ps
10 .2
10 .4
10 .7
11 .0
10 .9
11 .1
11 .4
11 .8
11 .7
11 .9
12 .3
12 .7
12 .4
12 .6
13 .0
13 .4
13 .1
13 .4
13 .8
14 .2
13 .8
14 .1
14 .5
15 .0
H i P
R 24
2 26
1 27
5 28
7 27
2 29
3 30
9 32
2 30
9 33
3 35
2 36
7 35
2 37
9 40
0 41
8 39
6 42
7 45
0 47
0 43
8 47
1 49
8 51
9 Lo
P R
11 3
12 0
13 1
13 9
11 9
12 7
13 8
14 7
12 4
13 2
14 4
15 3
13 0
13 8
15 1
16 1
13 6
14 5
15 8
16 9
14 1
15 0
16 4
17 4
10 60
M Bh
32 .7
33 .5
35 .7
38 .2
32 .0
32 .7
34 .9
37 .3
31 .2
31 .9
34 .1
36 .4
30 .5
31 .1
33 .3
35 .5
28 .9
29 .6
31 .6
33 .8
26 .8
27 .4
29 .3
31 .3
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. 94
0. 88
0. 71
0. 53
0. 97
0. 91
0. 74
0. 55
0. 98
0. 92
0. 75
0. 56
T 24
23 20
16 25
23 20
16 25
24 20
16 25
24 21
16 24
23 20
16 23
22 19
15 kW
2. 24
2. 29
2. 37
2. 44
2. 42
2. 47
2. 55
2. 64
2. 57
2. 63
2. 72
2. 81
2. 71
2. 77
2. 87
2. 96
2. 83
2. 89
2. 99
3. 09
2. 93
3. 00
3. 10
3. 20
Am ps
10 .0
10 .2
10 .5
10 .8
10 .7
10 .9
11 .2
11 .6
11 .5
11 .7
12 .1
12 .5
12 .2
12 .4
12 .8
13 .2
12 .9
13 .1
13 .5
14 .0
13 .5
13 .8
14 .2
14 .7
H i P
R 23
8 25
6 27
0 28
2 26
7 28
7 30
3 31
6 30
3 32
6 34
4 35
9 34
5 37
2 39
2 40
9 38
8 41
8 44
1 46
0 42
9 46
2 48
8 50
9 Lo
P R
11 1
11 8
12 8
13 7
11 7
12 4
13 6
14 4
12 1
12 9
14 1
15 0
12 7
13 6
14 8
15 8
13 4
14 2
15 5
16 5
13 8
14 7
16 0
17 1
85
13 50
M Bh
36 .1
36 .8
38 .6
41 .1
35 .3
36 .0
37 .7
40 .2
34 .4
35 .1
36 .8
39 .2
33 .6
34 .2
35 .9
38 .3
31 .9
32 .5
34 .1
36 .4
29 .6
30 .1
31 .6
33 .7
S/ T
0. 98
0. 94
0. 85
0. 69
1. 00
0. 98
0. 88
0. 72
1. 00
1. 00
0. 91
0. 73
1. 00
1. 00
0. 93
0. 76
1. 00
1. 00
0. 97
0. 79
1. 00
1. 00
0. 98
0. 79
T 24
24 22
19 24
24 23
20 23
24 23
20 23
23 23
20 22
22 23
19 20
21 21
18 kW
2. 32
2. 37
2. 44
2. 53
2. 50
2. 56
2. 64
2. 73
2. 66
2. 72
2. 81
2. 91
2. 81
2. 87
2. 97
3. 07
2. 93
2. 99
3. 09
3. 20
3. 03
3. 10
3. 21
3. 32
Am ps
10 .3
10 .5
10 .8
11 .2
11 .0
11 .3
11 .6
12 .0
11 .9
12 .1
12 .5
12 .9
12 .6
12 .8
13 .2
13 .7
13 .3
13 .6
14 .0
14 .5
14 .0
14 .3
14 .7
15 .2
H i P
R 24
7 26
6 28
1 29
3 27
7 29
9 31
5 32
9 31
6 34
0 35
9 37
4 35
9 38
7 40
8 42
6 40
4 43
5 45
9 47
9 44
7 48
1 50
8 52
9 Lo
P R
11 5
12 2
13 4
14 2
12 2
12 9
14 1
15 0
12 6
13 4
14 7
15 6
13 3
14 1
15 4
16 4
13 9
14 8
16 1
17 2
14 4
15 3
16 7
17 8
12 00
M Bh
35 .1
35 .7
37 .4
39 .9
34 .3
34 .9
36 .6
39 .0
33 .4
34 .1
35 .7
38 .1
32 .6
33 .3
34 .8
37 .2
31 .0
31 .6
33 .1
35 .3
28 .7
29 .3
30 .6
32 .7
S/ T
0. 93
0. 90
0. 81
0. 66
0. 97
0. 93
0. 84
0. 68
0. 99
0. 96
0. 86
0. 70
1. 00
0. 99
0. 89
0. 72
1. 00
1. 00
0. 93
0. 75
1. 00
1. 00
0. 93
0. 76
T 25
25 23
20 25
25 24
20 25
25 24
20 25
25 24
21 24
24 23
20 22
22 22
19 kW
2. 30
2. 35
2. 42
2. 50
2. 48
2. 53
2. 62
2. 71
2. 64
2. 70
2. 79
2. 88
2. 78
2. 84
2. 94
3. 04
2. 90
2. 97
3. 07
3. 17
3. 01
3. 07
3. 18
3. 29
Am ps
10 .2
10 .5
10 .7
11 .1
10 .9
11 .2
11 .5
11 .9
11 .8
12 .0
12 .4
12 .8
12 .5
12 .7
13 .1
13 .6
13 .2
13 .5
13 .9
14 .3
13 .9
14 .2
14 .6
15 .1
H i P
R 24
5 26
3 27
8 29
0 27
5 29
6 31
2 32
6 31
2 33
6 35
5 37
0 35
6 38
3 40
4 42
2 40
0 43
1 45
5 47
4 44
2 47
6 50
3 52
4 Lo
P R
11 4
12 1
13 2
14 1
12 0
12 8
14 0
14 9
12 5
13 3
14 5
15 5
13 1
14 0
15 3
16 2
13 8
14 6
16 0
17 0
14 2
15 1
16 5
17 6
10 60
M Bh
33 .3
34 .0
35 .6
37 .9
32 .5
33 .2
34 .7
37 .1
31 .8
32 .4
33 .9
36 .2
31 .0
31 .6
33 .1
35 .3
29 .4
30 .0
31 .4
33 .5
27 .3
27 .8
29 .1
31 .1
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. 73
T 26
25 24
21 26
26 24
21 26
26 24
21 26
26 25
21 26
26 24
21 24
24 23
20 kW
2. 26
2. 31
2. 38
2. 46
2. 44
2. 49
2. 57
2. 66
2. 60
2. 65
2. 74
2. 83
2. 73
2. 80
2. 89
2. 99
2. 85
2. 92
3. 02
3. 12
2. 95
3. 02
3. 12
3. 23
Am ps
10 .1
10 .3
10 .6
10 .9
10 .8
11 .0
11 .3
11 .7
11 .6
11 .8
12 .2
12 .6
12 .3
12 .5
12 .9
13 .3
13 .0
13 .2
13 .6
14 .1
13 .6
13 .9
14 .4
14 .9
H i P
R 24
0 25
8 27
3 28
4 26
9 29
0 30
6 31
9 30
6 32
9 34
8 36
3 34
9 37
5 39
6 41
3 39
2 42
2 44
6 46
5 43
3 46
6 49
3 51
4 Lo
P R
11 2
11 9
13 0
13 8
11 8
12 5
13 7
14 6
12 3
13 0
14 2
15 2
12 9
13 7
15 0
15 9
13 5
14 4
15 7
16 7
14 0
14 8
16 2
17 3
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AH
RI c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g
10
2 F
@ th
e liq
ui d
ac ce
ss fi
tti ng
c on
ne cti
on A
H RI
9 5
te st
c on
di tio
ns . D
es ig
n Su
pe rh
ea t 1
3 2
F @
th e
co m
pr es
so r s
uc tio
n ac
ce ss
fi tti
ng c
on ne
cti on
.
10 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 11
Expanded Cooling Data GPH1642M41** O
ut do
or A
m bi
en t
Te m
pe ra
tu re
65 F
75 F
85 F
95 F
10 5
F 11
5 F
En te
ri ng
In do
or W
et B
ul b
Te m
pe ra
tu re
ID B
Ai rf
lo w
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
70
14 50
M Bh
39 .6
41 .0
45 .0
- 38
.7 40
.1 43
.9 -
37 .8
39 .1
42 .9
- 36
.8 38
.2 41
.8 -
35 .0
36 .3
39 .7
- 32
.4 33
.6 36
.8 -
S/ T
0. 73
0. 61
0. 42
- 0.
76 0.
63 0.
44 -
0. 78
0. 65
0. 45
- 0.
80 0.
67 0.
46 -
0. 83
0. 69
0. 48
- 0.
84 0.
70 0.
48 -
T 18
16 12
- 19
16 12
- 19
16 12
- 19
16 12
- 18
16 12
- 17
15 11
- kW
2. 65
2. 71
2. 79
- 2.
86 2.
92 3.
02 -
3. 04
3. 11
3. 21
- 3.
21 3.
28 3.
39 -
3. 34
3. 42
3. 54
- 3.
46 3.
54 3.
66 -
Am ps
11 .5
11 .7
12 .1
- 12
.3 12
.6 12
.9 -
13 .3
13 .5
13 .9
- 14
.1 14
.4 14
.8 -
14 .9
15 .2
15 .7
- 15
.7 16
.0 16
.5 -
H i P
R 23
3 25
1 26
5 -
26 2
28 2
29 8
- 29
8 32
1 33
8 -
33 9
36 5
38 6
- 38
2 41
1 43
4 -
42 2
45 4
47 9
- Lo
P R
10 9
11 6
12 7
- 11
5 12
3 13
4 -
12 0
12 7
13 9
- 12
6 13
4 14
6 -
13 2
14 0
15 3
- 13
6 14
5 15
8 -
13 00
M Bh
39 .0
40 .4
44 .3
- 38
.1 39
.5 43
.3 -
37 .2
38 .5
42 .2
- 36
.3 37
.6 41
.2 -
34 .5
35 .7
39 .1
- 31
.9 33
.1 36
.3 -
S/ T
0. 70
0. 58
0. 40
- 0.
72 0.
60 0.
42 -
0. 74
0. 62
0. 43
- 0.
77 0.
64 0.
44 -
0. 80
0. 66
0. 46
- 0.
80 0.
67 0.
46 -
T 19
17 13
- 20
17 13
- 20
17 13
- 20
17 13
- 19
17 13
- 18
16 12
- kW
2. 63
2. 69
2. 78
- 2.
84 2.
90 3.
00 -
3. 02
3. 09
3. 19
- 3.
19 3.
26 3.
37 -
3. 32
3. 40
3. 51
- 3.
44 3.
52 3.
64 -
Am ps
11 .4
11 .7
12 .0
- 12
.2 12
.5 12
.9 -
13 .2
13 .5
13 .9
- 14
.0 14
.3 14
.7 -
14 .8
15 .1
15 .6
- 15
.6 15
.9 16
.4 -
H i P
R 23
2 24
9 26
3 -
26 0
28 0
29 6
- 29
6 31
8 33
6 -
33 7
36 3
38 3
- 37
9 40
8 43
1 -
41 9
45 1
47 6
- Lo
P R
10 8
11 5
12 6
- 11
4 12
2 13
3 -
11 9
12 6
13 8
- 12
5 13
3 14
5 -
13 1
13 9
15 2
- 13
5 14
4 15
7 -
11 50
M Bh
37 .1
38 .4
42 .1
- 36
.2 37
.5 41
.1 -
35 .3
36 .6
40 .1
- 34
.5 35
.7 39
.1 -
32 .7
33 .9
37 .2
- 30
.3 31
.4 34
.4 -
S/ T
0. 67
0. 56
0. 39
- 0.
69 0.
58 0.
40 -
0. 71
0. 59
0. 41
- 0.
73 0.
61 0.
42 -
0. 76
0. 64
0. 44
- 0.
77 0.
64 0.
44 -
T 20
17 13
- 20
17 13
- 20
17 13
- 20
18 13
- 20
17 13
- 19
16 12
- kW
2. 59
2. 65
2. 73
- 2.
79 2.
86 2.
95 -
2. 97
3. 04
3. 14
- 3.
13 3.
20 3.
31 -
3. 27
3. 34
3. 45
- 3.
38 3.
46 3.
58 -
Am ps
11 .3
11 .5
11 .8
- 12
.0 12
.3 12
.7 -
13 .0
13 .2
13 .6
- 13
.8 14
.1 14
.5 -
14 .5
14 .9
15 .3
- 15
.3 15
.7 16
.1 -
H i P
R 22
7 24
4 25
8 -
25 5
27 4
29 0
- 29
0 31
2 32
9 -
33 0
35 5
37 5
- 37
1 40
0 42
2 -
41 0
44 2
46 6
- Lo
P R
10 6
11 3
12 3
- 11
2 11
9 13
0 -
11 6
12 4
13 5
- 12
2 13
0 14
2 -
12 8
13 6
14 9
- 13
3 14
1 15
4 -
75
14 50
M Bh
40 .3
41 .5
44 .9
48 .2
39 .3
40 .5
43 .8
47 .0
38 .4
39 .5
42 .8
45 .9
37 .5
38 .6
41 .7
44 .8
35 .6
36 .6
39 .7
42 .6
33 .0
33 .9
36 .7
39 .4
S/ T
0. 83
0. 74
0. 56
0. 36
0. 86
0. 77
0. 58
0. 37
0. 88
0. 79
0. 60
0. 38
0. 91
0. 81
0. 62
0. 40
0. 94
0. 84
0. 64
0. 41
0. 95
0. 85
0. 64
0. 41
T 21
20 16
11 21
20 16
11 21
20 16
11 22
20 16
11 21
20 16
11 20
18 15
10 kW
2. 67
2. 73
2. 82
2. 91
2. 88
2. 95
3. 04
3. 14
3. 07
3. 14
3. 24
3. 35
3. 23
3. 31
3. 42
3. 53
3. 37
3. 45
3. 57
3. 69
3. 49
3. 57
3. 69
3. 82
Am ps
11 .6
11 .8
12 .2
12 .6
12 .4
12 .7
13 .0
13 .5
13 .4
13 .7
14 .1
14 .5
14 .2
14 .5
14 .9
15 .4
15 .0
15 .3
15 .8
16 .4
15 .8
16 .2
16 .7
17 .2
H i P
R 23
6 25
4 26
8 27
9 26
5 28
5 30
1 31
4 30
1 32
4 34
2 35
7 34
3 36
9 38
9 40
6 38
6 41
5 43
8 45
7 42
6 45
8 48
4 50
5 Lo
P R
11 0
11 7
12 8
13 6
11 6
12 4
13 5
14 4
12 1
12 9
14 0
15 0
12 7
13 5
14 7
15 7
13 3
14 2
15 5
16 5
13 8
14 6
16 0
17 0
13 00
M Bh
39 .7
40 .8
44 .2
47 .4
38 .7
39 .9
43 .2
46 .3
37 .8
38 .9
42 .2
45 .2
36 .9
38 .0
41 .1
44 .1
35 .1
36 .1
39 .1
41 .9
32 .5
33 .4
36 .2
38 .8
S/ T
0. 79
0. 71
0. 54
0. 35
0. 82
0. 74
0. 56
0. 36
0. 84
0. 76
0. 57
0. 37
0. 87
0. 78
0. 59
0. 38
0. 90
0. 81
0. 61
0. 39
0. 91
0. 82
0. 62
0. 40
T 22
21 17
12 23
21 17
12 23
21 17
12 23
21 17
12 22
21 17
12 21
19 16
11 kW
2. 66
2. 71
2. 80
2. 89
2. 87
2. 93
3. 03
3. 13
3. 05
3. 12
3. 22
3. 33
3. 21
3. 29
3. 40
3. 51
3. 35
3. 43
3. 54
3. 67
3. 47
3. 55
3. 67
3. 80
Am ps
11 .5
11 .8
12 .1
12 .5
12 .3
12 .6
13 .0
13 .4
13 .3
13 .6
14 .0
14 .5
14 .1
14 .4
14 .8
15 .4
14 .9
15 .2
15 .7
16 .3
15 .7
16 .1
16 .6
17 .1
H i P
R 23
4 25
2 26
6 27
8 26
3 28
3 29
9 31
1 29
9 32
2 34
0 35
4 34
0 36
6 38
7 40
3 38
3 41
2 43
5 45
4 42
3 45
5 48
1 50
1 Lo
P R
10 9
11 6
12 7
13 5
11 6
12 3
13 4
14 3
12 0
12 8
13 9
14 9
12 6
13 4
14 6
15 6
13 2
14 1
15 4
16 3
13 7
14 5
15 9
16 9
11 50
M Bh
37 .7
38 .8
42 .0
45 .1
36 .8
37 .9
41 .0
44 .0
35 .9
37 .0
40 .0
43 .0
35 .1
36 .1
39 .1
41 .9
33 .3
34 .3
37 .1
39 .8
30 .8
31 .8
34 .4
36 .9
S/ T
0. 76
0. 68
0. 52
0. 33
0. 79
0. 71
0. 53
0. 34
0. 81
0. 72
0. 55
0. 35
0. 83
0. 75
0. 57
0. 36
0. 87
0. 77
0. 59
0. 38
0. 87
0. 78
0. 59
0. 38
T 23
21 17
12 23
21 17
12 23
21 18
12 23
22 18
12 23
21 17
12 22
20 16
11 kW
2. 61
2. 67
2. 76
2. 85
2. 82
2. 88
2. 97
3. 07
3. 00
3. 07
3. 17
3. 27
3. 16
3. 23
3. 34
3. 45
3. 30
3. 37
3. 48
3. 60
3. 41
3. 49
3. 61
3. 73
Am ps
11 .3
11 .6
11 .9
12 .3
12 .1
12 .4
12 .8
13 .2
13 .1
13 .4
13 .7
14 .2
13 .9
14 .2
14 .6
15 .1
14 .7
15 .0
15 .4
16 .0
15 .5
15 .8
16 .3
16 .9
H i P
R 22
9 24
7 26
1 27
2 25
7 27
7 29
3 30
5 29
3 31
5 33
3 34
7 33
4 35
9 37
9 39
5 37
5 40
4 42
6 44
5 41
5 44
6 47
1 49
1 Lo
P R
10 7
11 4
12 4
13 3
11 3
12 0
13 1
14 0
11 8
12 5
13 7
14 6
12 4
13 1
14 4
15 3
13 0
13 8
15 0
16 0
13 4
14 3
15 6
16 6
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AC
CA (T
VA ) c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g,
1 0
2 F
@ th
e liq
ui d
ac ce
ss fi
tti ng
c on
ne cti
on A
H RI
9 5
te st
c on
di tio
ns . D
es ig
n Su
pe rh
ea t 1
5 2
F @
th e
co m
pr es
so r s
uc tio
n ac
ce ss
fi tti
ng c
on ne
cti on
.
10 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 11
Expanded Cooling Data GPH1642M41** (cont.)
O ut
do or
A m
bi en
t Te
m pe
ra tu
re 65
F 75
F 85
F 95
F 10
5 F
11 5
F En
te ri
ng In
do or
W et
B ul
b Te
m pe
ra tu
re ID
B Ai
rf lo
w 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71
80
14 50
M Bh
41 .0
41 .9
44 .7
47 .8
40 .0
40 .9
43 .7
46 .7
39 .1
39 .9
42 .7
45 .6
38 .1
39 .0
41 .6
44 .5
36 .2
37 .0
39 .5
42 .3
33 .5
34 .3
36 .6
39 .1
S/ T
0. 91
0. 85
0. 69
0. 52
0. 94
0. 88
0. 72
0. 54
0. 97
0. 91
0. 74
0. 55
1. 00
0. 94
0. 76
0. 57
1. 00
0. 97
0. 79
0. 59
1. 00
0. 98
0. 80
0. 60
T 24
23 20
16 24
23 20
16 24
23 20
16 24
23 20
16 23
23 20
16 21
21 19
15 kW
2. 69
2. 75
2. 84
2. 94
2. 91
2. 97
3. 07
3. 17
3. 09
3. 16
3. 27
3. 38
3. 26
3. 33
3. 45
3. 56
3. 40
3. 48
3. 60
3. 72
3. 52
3. 60
3. 73
3. 86
Am ps
11 .7
11 .9
12 .3
12 .7
12 .5
12 .8
13 .2
13 .6
13 .5
13 .8
14 .2
14 .7
14 .3
14 .6
15 .1
15 .6
15 .1
15 .5
15 .9
16 .5
15 .9
16 .3
16 .8
17 .4
H i P
R 23
8 25
6 27
1 28
2 26
7 28
8 30
4 31
7 30
4 32
7 34
5 36
0 34
6 37
3 39
3 41
0 38
9 41
9 44
3 46
2 43
0 46
3 48
9 51
0 Lo
P R
11 1
11 8
12 9
13 8
11 8
12 5
13 6
14 5
12 2
13 0
14 2
15 1
12 8
13 6
14 9
15 9
13 4
14 3
15 6
16 6
13 9
14 8
16 2
17 2
13 00
M Bh
40 .4
41 .3
44 .1
47 .1
39 .4
40 .3
43 .1
46 .0
38 .5
39 .3
42 .0
44 .9
37 .6
38 .4
41 .0
43 .8
35 .7
36 .5
39 .0
41 .6
33 .0
33 .8
36 .1
38 .6
S/ T
0. 87
0. 82
0. 67
0. 50
0. 90
0. 85
0. 69
0. 52
0. 93
0. 87
0. 71
0. 53
0. 96
0. 90
0. 73
0. 55
0. 99
0. 93
0. 76
0. 57
1. 00
0. 94
0. 76
0. 57
T 25
24 21
17 25
24 21
17 25
24 21
17 25
24 21
17 25
24 21
17 23
22 19
16 kW
2. 68
2. 74
2. 83
2. 92
2. 89
2. 95
3. 05
3. 15
3. 08
3. 15
3. 25
3. 36
3. 24
3. 31
3. 43
3. 54
3. 38
3. 46
3. 58
3. 70
3. 50
3. 58
3. 70
3. 83
Am ps
11 .6
11 .9
12 .2
12 .6
12 .4
12 .7
13 .1
13 .5
13 .4
13 .7
14 .1
14 .6
14 .2
14 .5
15 .0
15 .5
15 .0
15 .4
15 .8
16 .4
15 .9
16 .2
16 .7
17 .3
H i P
R 23
7 25
5 26
9 28
0 26
5 28
6 30
2 31
5 30
2 32
5 34
3 35
8 34
4 37
0 39
1 40
7 38
7 41
6 43
9 45
8 42
7 46
0 48
6 50
6 Lo
P R
11 0
11 7
12 8
13 7
11 7
12 4
13 6
14 4
12 1
12 9
14 1
15 0
12 7
13 6
14 8
15 8
13 3
14 2
15 5
16 5
13 8
14 7
16 0
17 1
11 50
M Bh
38 .4
39 .2
41 .9
44 .8
37 .5
38 .3
40 .9
43 .7
36 .6
37 .4
39 .9
42 .7
35 .7
36 .5
39 .0
41 .6
33 .9
34 .6
37 .0
39 .6
31 .4
32 .1
34 .3
36 .6
S/ T
0. 83
0. 78
0. 64
0. 48
0. 86
0. 81
0. 66
0. 49
0. 89
0. 83
0. 68
0. 51
0. 92
0. 86
0. 70
0. 52
0. 95
0. 89
0. 73
0. 54
0. 96
0. 90
0. 73
0. 55
T 26
25 21
17 26
25 22
17 26
25 22
17 26
25 22
17 26
25 21
17 24
23 20
16 kW
2. 63
2. 69
2. 78
2. 87
2. 84
2. 90
3. 00
3. 10
3. 02
3. 09
3. 19
3. 30
3. 19
3. 26
3. 37
3. 48
3. 32
3. 40
3. 51
3. 63
3. 44
3. 52
3. 64
3. 77
Am ps
11 .4
11 .7
12 .0
12 .4
12 .2
12 .5
12 .9
13 .3
13 .2
13 .5
13 .9
14 .3
14 .0
14 .3
14 .7
15 .2
14 .8
15 .1
15 .6
16 .1
15 .6
15 .9
16 .4
17 .0
H i P
R 23
2 24
9 26
3 27
5 26
0 28
0 29
6 30
8 29
6 31
8 33
6 35
1 33
7 36
3 38
3 39
9 37
9 40
8 43
1 44
9 41
9 45
1 47
6 49
6 Lo
P R
10 8
11 5
12 6
13 4
11 4
12 2
13 3
14 1
11 9
12 6
13 8
14 7
12 5
13 3
14 5
15 4
13 1
13 9
15 2
16 2
13 5
14 4
15 7
16 7
85
14 50
M Bh
41 .7
42 .5
44 .5
47 .5
40 .7
41 .5
43 .5
46 .4
39 .8
40 .5
42 .4
45 .3
38 .8
39 .5
41 .4
44 .2
36 .8
37 .6
39 .3
42 .0
34 .1
34 .8
36 .4
38 .9
S/ T
0. 95
0. 92
0. 83
0. 67
0. 99
0. 95
0. 86
0. 70
1. 00
0. 98
0. 88
0. 72
1. 00
1. 00
0. 91
0. 74
1. 00
1. 00
0. 95
0. 77
1. 00
1. 00
0. 95
0. 77
T 25
25 23
20 26
25 24
21 25
25 24
21 25
25 24
21 23
24 24
20 22
22 22
19 kW
2. 72
2. 77
2. 86
2. 96
2. 93
3. 00
3. 09
3. 20
3. 12
3. 19
3. 30
3. 41
3. 29
3. 36
3. 48
3. 60
3. 43
3. 51
3. 63
3. 75
3. 55
3. 64
3. 76
3. 89
Am ps
11 .8
12 .0
12 .4
12 .8
12 .6
12 .9
13 .3
13 .7
13 .6
13 .9
14 .3
14 .8
14 .4
14 .7
15 .2
15 .7
15 .3
15 .6
16 .1
16 .6
16 .1
16 .4
17 .0
17 .5
H i P
R 24
1 25
9 27
3 28
5 27
0 29
0 30
7 32
0 30
7 33
0 34
9 36
4 35
0 37
6 39
7 41
4 39
3 42
3 44
7 46
6 43
5 46
8 49
4 51
5 Lo
P R
11 2
12 0
13 0
13 9
11 9
12 6
13 8
14 7
12 3
13 1
14 3
15 3
13 0
13 8
15 0
16 0
13 6
14 4
15 8
16 8
14 0
14 9
16 3
17 4
13 00
M Bh
41 .1
41 .9
43 .9
46 .8
40 .1
40 .9
42 .8
45 .7
39 .2
39 .9
41 .8
44 .6
38 .2
39 .0
40 .8
43 .5
36 .3
37 .0
38 .8
41 .3
33 .6
34 .3
35 .9
38 .3
S/ T
0. 91
0. 88
0. 80
0. 65
0. 95
0. 91
0. 82
0. 67
0. 97
0. 94
0. 85
0. 69
1. 00
0. 97
0. 87
0. 71
1. 00
1. 00
0. 91
0. 73
1. 00
1. 00
0. 91
0. 74
T 27
26 25
21 27
26 25
22 27
26 25
22 27
27 25
22 26
26 25
21 24
24 23
20 kW
2. 70
2. 76
2. 85
2. 94
2. 91
2. 98
3. 08
3. 18
3. 10
3. 17
3. 28
3. 39
3. 27
3. 34
3. 46
3. 57
3. 41
3. 49
3. 61
3. 73
3. 53
3. 61
3. 74
3. 87
Am ps
11 .7
12 .0
12 .3
12 .7
12 .5
12 .8
13 .2
13 .6
13 .5
13 .8
14 .2
14 .7
14 .3
14 .7
15 .1
15 .6
15 .2
15 .5
16 .0
16 .5
16 .0
16 .3
16 .9
17 .4
H i P
R 23
9 25
7 27
1 28
3 26
8 28
8 30
5 31
8 30
5 32
8 34
6 36
1 34
7 37
4 39
5 41
2 39
1 42
0 44
4 46
3 43
2 46
4 49
0 51
2 Lo
P R
11 2
11 9
13 0
13 8
11 8
12 5
13 7
14 6
12 2
13 0
14 2
15 2
12 9
13 7
14 9
15 9
13 5
14 3
15 7
16 7
13 9
14 8
16 2
17 3
11 50
M Bh
39 .0
39 .8
41 .7
44 .4
38 .1
38 .9
40 .7
43 .4
37 .2
37 .9
39 .7
42 .4
36 .3
37 .0
38 .8
41 .3
34 .5
35 .2
36 .8
39 .3
31 .9
32 .6
34 .1
36 .4
S/ T
0. 87
0. 84
0. 76
0. 62
0. 91
0. 87
0. 79
0. 64
0. 93
0. 90
0. 81
0. 66
0. 96
0. 93
0. 84
0. 68
1. 00
0. 96
0. 87
0. 70
1. 00
0. 97
0. 87
0. 71
T 27
27 25
22 28
27 26
22 28
27 26
22 28
27 26
22 27
27 26
22 26
25 24
21 kW
2. 66
2. 71
2. 80
2. 89
2. 87
2. 93
3. 02
3. 13
3. 05
3. 12
3. 22
3. 33
3. 21
3. 29
3. 40
3. 51
3. 35
3. 43
3. 54
3. 67
3. 47
3. 55
3. 67
3. 80
Am ps
11 .5
11 .8
12 .1
12 .5
12 .3
12 .6
13 .0
13 .4
13 .3
13 .6
14 .0
14 .4
14 .1
14 .4
14 .8
15 .4
14 .9
15 .2
15 .7
16 .3
15 .7
16 .1
16 .6
17 .1
H i P
R 23
4 25
2 26
6 27
7 26
3 28
3 29
9 31
1 29
9 32
1 33
9 35
4 34
0 36
6 38
7 40
3 38
3 41
2 43
5 45
4 42
3 45
5 48
1 50
1 Lo
P R
10 9
11 6
12 7
13 5
11 5
12 3
13 4
14 3
12 0
12 8
13 9
14 8
12 6
13 4
14 6
15 6
13 2
14 1
15 3
16 3
13 7
14 5
15 9
16 9
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AH
RI c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g,
1 0
2 F
@ th
e liq
ui d
ac ce
ss fi
tti ng
c on
ne cti
on A
H RI
9 5
te st
c on
di tio
ns . D
es ig
n Su
pe rh
ea t 1
5 2
F @
th e
co m
pr es
so r s
uc tio
n ac
ce ss
fi tti
ng c
on ne
cti on
.
12 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 13
Expanded Cooling Data GPH1648M41** O
ut do
or A
m bi
en t
Te m
pe ra
tu re
65 F
75 F
85 F
95 F
10 5
F 11
5 F
En te
ri ng
In do
or W
et B
ul b
Te m
pe ra
tu re
ID B
Ai rf
lo w
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
70
18 00
M Bh
46 .1
47 .7
52 .3
- 45
.0 46
.6 51
.1 -
43 .9
45 .5
49 .9
- 42
.8 44
.4 48
.7 -
40 .7
42 .2
46 .2
- 37
.7 39
.1 42
.8 -
S/ T
0. 77
0. 64
0. 44
- 0.
79 0.
66 0.
46 -
0. 81
0. 68
0. 47
- 0.
84 0.
70 0.
49 -
0. 87
0. 73
0. 51
- 0.
88 0.
74 0.
51 -
T 18
16 12
- 18
16 12
- 18
16 12
- 18
16 12
- 18
16 12
- 17
15 11
- kW
3. 16
3. 23
3. 33
- 3.
40 3.
48 3.
59 -
3. 62
3. 70
3. 82
- 3.
81 3.
89 4.
02 -
3. 97
4. 06
4. 19
- 4.
11 4.
20 4.
34 -
Am ps
13 .7
14 .0
14 .4
- 14
.7 15
.0 15
.5 -
15 .9
16 .2
16 .7
- 16
.9 17
.2 17
.8 -
17 .9
18 .3
18 .8
- 18
.8 19
.3 19
.9 -
H i P
R 24
6 26
5 28
0 -
27 6
29 7
31 4
- 31
4 33
8 35
7 -
35 8
38 5
40 7
- 40
3 43
3 45
8 -
44 5
47 9
50 5
- Lo
P R
11 2
11 9
13 0
- 11
8 12
6 13
8 -
12 3
13 1
14 3
- 12
9 13
8 15
0 -
13 6
14 4
15 7
- 14
0 14
9 16
3 -
16 00
M Bh
44 .7
46 .3
50 .8
- 43
.7 45
.3 49
.6 -
42 .6
44 .2
48 .4
- 41
.6 43
.1 47
.2 -
39 .5
41 .0
44 .9
- 36
.6 37
.9 41
.6 -
S/ T
0. 73
0. 61
0. 42
- 0.
76 0.
63 0.
44 -
0. 78
0. 65
0. 45
- 0.
80 0.
67 0.
46 -
0. 83
0. 70
0. 48
- 0.
84 0.
70 0.
49 -
T 19
16 12
- 19
16 12
- 19
16 13
- 19
17 13
- 19
16 12
- 18
15 12
- kW
3. 13
3. 20
3. 30
- 3.
38 3.
45 3.
56 -
3. 59
3. 67
3. 79
- 3.
78 3.
86 3.
99 -
3. 94
4. 02
4. 16
- 4.
07 4.
17 4.
30 -
Am ps
13 .6
13 .9
14 .3
- 14
.6 14
.9 15
.4 -
15 .7
16 .1
16 .6
- 16
.7 17
.1 17
.6 -
17 .7
18 .1
18 .7
- 18
.7 19
.1 19
.7 -
H i P
R 24
4 26
2 27
7 -
27 4
29 4
31 1
- 31
1 33
5 35
4 -
35 4
38 1
40 3
- 39
9 42
9 45
3 -
44 0
47 4
50 0
- Lo
P R
11 1
11 8
12 9
- 11
7 12
5 13
6 -
12 2
13 0
14 2
- 12
8 13
6 14
9 -
13 4
14 3
15 6
- 13
9 14
8 16
1 -
14 20
M Bh
42 .5
44 .0
48 .2
- 41
.5 43
.0 47
.1 -
40 .5
42 .0
46 .0
- 39
.5 41
.0 44
.9 -
37 .5
38 .9
42 .6
- 34
.8 36
.0 39
.5 -
S/ T
0. 70
0. 59
0. 41
- 0.
73 0.
61 0.
42 -
0. 74
0. 62
0. 43
- 0.
77 0.
64 0.
44 -
0. 80
0. 67
0. 46
- 0.
80 0.
67 0.
47 -
T 19
17 13
- 20
17 13
- 20
17 13
- 20
17 13
- 19
17 13
- 18
16 12
- kW
3. 08
3. 15
3. 25
- 3.
32 3.
39 3.
50 -
3. 53
3. 61
3. 72
- 3.
71 3.
80 3.
92 -
3. 87
3. 96
4. 09
- 4.
01 4.
09 4.
23 -
Am ps
13 .4
13 .7
14 .1
- 14
.4 14
.7 15
.1 -
15 .5
15 .8
16 .3
- 16
.4 16
.8 17
.3 -
17 .4
17 .8
18 .3
- 18
.4 18
.8 19
.4 -
H i P
R 23
9 25
7 27
1 -
26 8
28 8
30 5
- 30
5 32
8 34
6 -
34 7
37 4
39 5
- 39
1 42
0 44
4 -
43 2
46 4
49 0
- Lo
P R
10 9
11 6
12 6
- 11
5 12
2 13
3 -
11 9
12 7
13 9
- 12
5 13
3 14
6 -
13 1
14 0
15 3
- 13
6 14
5 15
8 -
75
18 00
M Bh
46 .8
48 .2
52 .2
56 .0
45 .7
47 .1
51 .0
54 .7
44 .7
46 .0
49 .8
53 .4
43 .6
44 .9
48 .6
52 .1
41 .4
42 .6
46 .1
49 .5
38 .3
39 .5
42 .7
45 .9
S/ T
0. 87
0. 78
0. 59
0. 38
0. 90
0. 81
0. 61
0. 39
0. 93
0. 83
0. 63
0. 40
0. 96
0. 86
0. 65
0. 42
0. 99
0. 89
0. 67
0. 43
1. 00
0. 90
0. 68
0. 44
T 21
19 16
11 21
19 16
11 21
19 16
11 21
20 16
11 21
19 16
11 20
18 15
10 kW
3. 19
3. 25
3. 36
3. 46
3. 43
3. 51
3. 62
3. 74
3. 65
3. 73
3. 85
3. 98
3. 84
3. 93
4. 05
4. 19
4. 00
4. 09
4. 23
4. 37
4. 14
4. 24
4. 38
4. 53
Am ps
13 .8
14 .1
14 .5
15 .0
14 .8
15 .2
15 .6
16 .1
16 .0
16 .4
16 .9
17 .4
17 .0
17 .4
17 .9
18 .5
18 .0
18 .4
19 .0
19 .7
19 .0
19 .4
20 .0
20 .8
H i P
R 24
9 26
8 28
3 29
5 27
9 30
0 31
7 33
1 31
7 34
2 36
1 37
6 36
2 38
9 41
1 42
8 40
7 43
8 46
2 48
2 44
9 48
4 51
1 53
3 Lo
P R
11 3
12 0
13 2
14 0
12 0
12 7
13 9
14 8
12 4
13 2
14 4
15 4
13 1
13 9
15 2
16 2
13 7
14 6
15 9
16 9
14 2
15 1
16 4
17 5
16 00
M Bh
45 .5
46 .8
50 .7
54 .4
44 .4
45 .7
49 .5
53 .1
43 .4
44 .6
48 .3
51 .9
42 .3
43 .6
47 .1
50 .6
40 .2
41 .4
44 .8
48 .1
37 .2
38 .3
41 .5
44 .5
S/ T
0. 83
0. 74
0. 56
0. 36
0. 86
0. 77
0. 58
0. 38
0. 88
0. 79
0. 60
0. 38
0. 91
0. 82
0. 62
0. 40
0. 95
0. 85
0. 64
0. 41
0. 95
0. 85
0. 65
0. 42
T 22
20 16
11 22
20 17
11 22
20 17
11 22
20 17
12 22
20 16
11 20
19 15
11 kW
3. 16
3. 23
3. 33
3. 44
3. 40
3. 48
3. 59
3. 71
3. 62
3. 70
3. 82
3. 95
3. 81
3. 89
4. 02
4. 16
3. 97
4. 06
4. 19
4. 33
4. 11
4. 20
4. 34
4. 49
Am ps
13 .7
14 .0
14 .4
14 .9
14 .7
15 .0
15 .5
16 .0
15 .9
16 .2
16 .7
17 .3
16 .9
17 .2
17 .8
18 .4
17 .9
18 .3
18 .8
19 .5
18 .8
19 .3
19 .9
20 .6
H i P
R 24
6 26
5 28
0 29
2 27
6 29
7 31
4 32
8 31
4 33
8 35
7 37
2 35
8 38
5 40
7 42
4 40
3 43
3 45
8 47
7 44
5 47
9 50
6 52
7 Lo
P R
11 2
11 9
13 0
13 9
11 8
12 6
13 8
14 7
12 3
13 1
14 3
15 2
12 9
13 8
15 0
16 0
13 6
14 4
15 7
16 8
14 0
14 9
16 3
17 3
14 20
M Bh
43 .2
44 .5
48 .1
51 .7
42 .2
43 .4
47 .0
50 .5
41 .2
42 .4
45 .9
49 .3
40 .2
41 .4
44 .8
48 .1
38 .2
39 .3
42 .5
45 .7
35 .4
36 .4
39 .4
42 .3
S/ T
0. 80
0. 71
0. 54
0. 35
0. 83
0. 74
0. 56
0. 36
0. 85
0. 76
0. 57
0. 37
0. 87
0. 78
0. 59
0. 38
0. 91
0. 81
0. 61
0. 39
0. 91
0. 82
0. 62
0. 40
T 22
21 17
12 23
21 17
12 23
21 17
12 23
21 17
12 22
21 17
12 21
19 16
11 kW
3. 11
3. 18
3. 28
3. 38
3. 35
3. 42
3. 53
3. 65
3. 56
3. 64
3. 75
3. 88
3. 74
3. 83
3. 95
4. 09
3. 90
3. 99
4. 12
4. 26
4. 04
4. 13
4. 27
4. 41
Am ps
13 .5
13 .8
14 .2
14 .7
14 .5
14 .8
15 .2
15 .7
15 .6
15 .9
16 .4
17 .0
16 .6
17 .0
17 .5
18 .1
17 .6
18 .0
18 .5
19 .2
18 .5
18 .9
19 .5
20 .2
H i P
R 24
1 26
0 27
4 28
6 27
1 29
1 30
8 32
1 30
8 33
1 35
0 36
5 35
1 37
7 39
9 41
6 39
5 42
5 44
8 46
8 43
6 46
9 49
5 51
7 Lo
P R
11 0
11 7
12 8
13 6
11 6
12 4
13 5
14 4
12 1
12 8
14 0
14 9
12 7
13 5
14 7
15 7
13 3
14 1
15 4
16 4
13 7
14 6
16 0
17 0
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AC
CA (T
VA ) c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g,
1 3
2 F
@ th
e liq
ui d
ac ce
ss fi
tti ng
c on
ne cti
on A
H RI
9 5
te st
c on
di tio
ns . D
es ig
n Su
pe rh
ea t 1
5 2
F @
th e
co m
pr es
so r s
uc tio
n ac
ce ss
fi tti
ng c
on ne
cti on
.
12 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 13
Expanded Cooling Data GPH1648M41** (cont.)
O ut
do or
A m
bi en
t Te
m pe
ra tu
re 65
F 75
F 85
F 95
F 10
5 F
11 5
F En
te ri
ng In
do or
W et
B ul
b Te
m pe
ra tu
re ID
B Ai
rf lo
w 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71
80
18 00
M Bh
47 .7
48 .7
52 .0
55 .6
46 .6
47 .6
50 .8
54 .3
45 .5
46 .4
49 .6
53 .0
44 .3
45 .3
48 .4
51 .8
42 .1
43 .0
46 .0
49 .2
39 .0
39 .9
42 .6
45 .5
S/ T
0. 96
0. 90
0. 73
0. 55
1. 00
0. 93
0. 76
0. 57
1. 00
0. 95
0. 78
0. 58
1. 00
1. 00
0. 80
0. 60
1. 00
1. 00
0. 83
0. 62
1. 00
1. 00
0. 84
0. 63
T 23
22 19
15 24
23 20
16 23
23 20
16 23
23 20
16 22
22 20
16 20
20 18
15 kW
3. 21
3. 28
3. 38
3. 49
3. 46
3. 53
3. 65
3. 77
3. 68
3. 76
3. 88
4. 01
3. 87
3. 96
4. 09
4. 23
4. 04
4. 13
4. 26
4. 41
4. 18
4. 27
4. 42
4. 57
Am ps
13 .9
14 .2
14 .7
15 .2
15 .0
15 .3
15 .7
16 .3
16 .1
16 .5
17 .0
17 .6
17 .2
17 .5
18 .1
18 .7
18 .2
18 .6
19 .2
19 .8
19 .2
19 .6
20 .2
20 .9
H i P
R 25
1 27
0 28
6 29
8 28
2 30
3 32
0 33
4 32
1 34
5 36
4 38
0 36
5 39
3 41
5 43
3 41
1 44
2 46
7 48
7 45
4 48
8 51
6 53
8 Lo
P R
11 4
12 2
13 3
14 2
12 1
12 9
14 0
15 0
12 6
13 4
14 6
15 5
13 2
14 0
15 3
16 3
13 8
14 7
16 1
17 1
14 3
15 2
16 6
17 7
16 00
M Bh
46 .3
47 .3
50 .5
54 .0
45 .2
46 .2
49 .4
52 .8
44 .1
45 .1
48 .2
51 .5
43 .1
44 .0
47 .0
50 .2
40 .9
41 .8
44 .7
47 .7
37 .9
38 .7
41 .4
44 .2
S/ T
0. 91
0. 86
0. 70
0. 52
0. 94
0. 89
0. 72
0. 54
0. 97
0. 91
0. 74
0. 55
1. 00
0. 94
0. 76
0. 57
1. 00
0. 97
0. 79
0. 59
1. 00
0. 98
0. 80
0. 60
T 24
23 20
16 25
24 20
16 25
24 20
16 25
24 21
16 24
23 20
16 22
22 19
15 kW
3. 19
3. 25
3. 36
3. 46
3. 43
3. 51
3. 62
3. 74
3. 65
3. 73
3. 85
3. 98
3. 84
3. 93
4. 06
4. 19
4. 00
4. 09
4. 23
4. 37
4. 14
4. 24
4. 38
4. 53
Am ps
13 .8
14 .1
14 .5
15 .0
14 .8
15 .2
15 .6
16 .1
16 .0
16 .4
16 .9
17 .4
17 .0
17 .4
17 .9
18 .6
18 .0
18 .4
19 .0
19 .7
19 .0
19 .4
20 .0
20 .8
H i P
R 24
9 26
8 28
3 29
5 27
9 30
0 31
7 33
1 31
7 34
2 36
1 37
6 36
2 38
9 41
1 42
9 40
7 43
8 46
2 48
2 44
9 48
4 51
1 53
3 Lo
P R
11 3
12 1
13 2
14 0
12 0
12 7
13 9
14 8
12 4
13 2
14 4
15 4
13 1
13 9
15 2
16 2
13 7
14 6
15 9
16 9
14 2
15 1
16 4
17 5
14 20
M Bh
44 .0
44 .9
48 .0
51 .3
42 .9
43 .9
46 .9
50 .1
41 .9
42 .8
45 .8
48 .9
40 .9
41 .8
44 .7
47 .7
38 .9
39 .7
42 .4
45 .3
36 .0
36 .8
39 .3
42 .0
S/ T
0. 87
0. 82
0. 67
0. 50
0. 91
0. 85
0. 69
0. 52
0. 93
0. 87
0. 71
0. 53
0. 96
0. 90
0. 73
0. 55
0. 99
0. 93
0. 76
0. 57
1. 00
0. 94
0. 77
0. 57
T 25
24 21
17 25
24 21
17 25
24 21
17 25
24 21
17 25
24 21
17 23
22 19
16 kW
3. 13
3. 20
3. 30
3. 41
3. 38
3. 45
3. 56
3. 68
3. 59
3. 67
3. 79
3. 91
3. 78
3. 86
3. 99
4. 12
3. 94
4. 02
4. 16
4. 30
4. 07
4. 17
4. 30
4. 45
Am ps
13 .6
13 .9
14 .3
14 .8
14 .6
14 .9
15 .4
15 .9
15 .7
16 .1
16 .6
17 .1
16 .7
17 .1
17 .6
18 .2
17 .7
18 .1
18 .7
19 .3
18 .7
19 .1
19 .7
20 .4
H i P
R 24
4 26
2 27
7 28
9 27
4 29
4 31
1 32
4 31
1 33
5 35
4 36
9 35
4 38
1 40
3 42
0 39
9 42
9 45
3 47
2 44
0 47
4 50
0 52
2 Lo
P R
11 1
11 8
12 9
13 7
11 7
12 5
13 6
14 5
12 2
13 0
14 2
15 1
12 8
13 6
14 9
15 8
13 4
14 3
15 6
16 6
13 9
14 8
16 1
17 2
85
18 00
M Bh
48 .5
49 .4
51 .8
55 .2
47 .4
48 .3
50 .6
54 .0
46 .2
47 .1
49 .4
52 .7
45 .1
46 .0
48 .2
51 .4
42 .9
43 .7
45 .8
48 .8
39 .7
40 .5
42 .4
45 .2
S/ T
1. 00
0. 97
0. 87
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. 99
0. 81
1. 00
1. 00
1. 00
0. 81
T 25
24 23
20 24
25 23
20 24
24 23
20 23
23 24
20 22
22 23
20 20
21 22
19 kW
3. 24
3. 31
3. 41
3. 52
3. 49
3. 56
3. 68
3. 80
3. 71
3. 79
3. 91
4. 05
3. 90
3. 99
4. 12
4. 26
4. 07
4. 16
4. 30
4. 45
4. 21
4. 31
4. 45
4. 61
Am ps
14 .1
14 .4
14 .8
15 .3
15 .1
15 .4
15 .9
16 .4
16 .3
16 .6
17 .1
17 .7
17 .3
17 .7
18 .2
18 .9
18 .3
18 .7
19 .3
20 .0
19 .3
19 .8
20 .4
21 .1
H i P
R 25
4 27
3 28
8 30
1 28
5 30
6 32
4 33
7 32
4 34
8 36
8 38
4 36
9 39
7 41
9 43
7 41
5 44
7 47
2 49
2 45
8 49
3 52
1 54
3 Lo
P R
11 6
12 3
13 4
14 3
12 2
13 0
14 2
15 1
12 7
13 5
14 7
15 7
13 3
14 2
15 5
16 5
14 0
14 9
16 2
17 3
14 4
15 4
16 8
17 9
16 00
M Bh
47 .1
48 .0
50 .3
53 .6
46 .0
46 .9
49 .1
52 .4
44 .9
45 .8
47 .9
51 .1
43 .8
44 .7
46 .8
49 .9
41 .6
42 .4
44 .4
47 .4
38 .5
39 .3
41 .2
43 .9
S/ T
0. 96
0. 92
0. 83
0. 68
0. 99
0. 96
0. 86
0. 70
1. 00
0. 98
0. 88
0. 72
1. 00
1. 00
0. 91
0. 74
1. 00
1. 00
0. 95
0. 77
1. 00
1. 00
0. 96
0. 78
T 26
25 24
21 26
26 24
21 26
26 24
21 25
26 25
21 24
24 24
21 22
23 23
20 kW
3. 21
3. 28
3. 38
3. 49
3. 46
3. 53
3. 65
3. 77
3. 68
3. 76
3. 88
4. 01
3. 87
3. 96
4. 09
4. 23
4. 04
4. 13
4. 26
4. 41
4. 18
4. 27
4. 42
4. 57
Am ps
13 .9
14 .2
14 .7
15 .2
15 .0
15 .3
15 .7
16 .3
16 .1
16 .5
17 .0
17 .6
17 .2
17 .5
18 .1
18 .7
18 .2
18 .6
19 .2
19 .8
19 .2
19 .6
20 .2
20 .9
H i P
R 25
1 27
0 28
6 29
8 28
2 30
3 32
0 33
4 32
1 34
5 36
4 38
0 36
5 39
3 41
5 43
3 41
1 44
2 46
7 48
7 45
4 48
8 51
6 53
8 Lo
P R
11 4
12 2
13 3
14 2
12 1
12 9
14 0
15 0
12 6
13 4
14 6
15 5
13 2
14 0
15 3
16 3
13 8
14 7
16 1
17 1
14 3
15 2
16 6
17 7
14 20
M Bh
44 .7
45 .6
47 .8
51 .0
43 .7
44 .5
46 .6
49 .8
42 .7
43 .5
45 .5
48 .6
41 .6
42 .4
44 .4
47 .4
39 .5
40 .3
42 .2
45 .0
36 .6
37 .3
39 .1
41 .7
S/ T
0. 92
0. 88
0. 80
0. 65
0. 95
0. 92
0. 83
0. 67
0. 97
0. 94
0. 85
0. 69
1. 00
0. 97
0. 87
0. 71
1. 00
1. 00
0. 91
0. 74
1. 00
1. 00
0. 92
0. 74
T 27
26 25
21 27
26 25
22 27
26 25
22 27
27 25
22 26
26 25
21 24
24 23
20 kW
3. 16
3. 23
3. 33
3. 44
3. 40
3. 48
3. 59
3. 71
3. 62
3. 70
3. 82
3. 94
3. 81
3. 89
4. 02
4. 16
3. 97
4. 06
4. 19
4. 33
4. 11
4. 20
4. 34
4. 49
Am ps
13 .7
14 .0
14 .4
14 .9
14 .7
15 .0
15 .5
16 .0
15 .9
16 .2
16 .7
17 .3
16 .9
17 .2
17 .8
18 .4
17 .9
18 .3
18 .8
19 .5
18 .8
19 .3
19 .9
20 .6
H i P
R 24
6 26
5 28
0 29
2 27
6 29
7 31
4 32
7 31
4 33
8 35
7 37
2 35
8 38
5 40
7 42
4 40
3 43
3 45
8 47
7 44
5 47
9 50
5 52
7 Lo
P R
11 2
11 9
13 0
13 9
11 8
12 6
13 8
14 7
12 3
13 1
14 3
15 2
12 9
13 8
15 0
16 0
13 6
14 4
15 7
16 8
14 0
14 9
16 3
17 3
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AH
RI c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g,
1 3
2 F
@ th
e liq
ui d
ac ce
ss fi
tti ng
c on
ne cti
on A
H RI
9 5
te st
c on
di tio
ns . D
es ig
n Su
pe rh
ea t 1
5 2
F @
th e
co m
pr es
so r s
uc tio
n ac
ce ss
fi tti
ng c
on ne
cti on
.
14 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 15
Expanded Cooling Data GPH1660M41** O
ut do
or A
m bi
en t
Te m
pe ra
tu re
65 F
75 F
85 F
95 F
10 5
F 11
5 F
En te
ri ng
In do
or W
et B
ul b
Te m
pe ra
tu re
ID B
Ai rf
lo w
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
59 63
67 71
70
22 01
M Bh
57 .5
59 .6
65 .3
- 56
.2 58
.2 63
.8 -
54 .8
56 .8
62 .3
- 53
.5 55
.5 60
.8 -
50 .8
52 .7
57 .7
- 47
.1 48
.8 53
.5 -
S/ T
0. 77
0. 64
0. 45
- 0.
80 0.
67 0.
46 -
0. 82
0. 68
0. 47
- 0.
85 0.
71 0.
49 -
0. 88
0. 73
0. 51
- 0.
88 0.
74 0.
51 -
T 19
16 12
- 19
16 12
- 19
16 12
- 19
16 12
- 19
16 12
- 17
15 11
- kW
3. 82
3. 89
4. 01
- 4.
10 4.
19 4.
32 -
4. 35
4. 44
4. 58
- 4.
57 4.
67 4.
82 -
4. 76
4. 86
5. 02
- 4.
92 5.
03 5.
19 -
Am ps
16 .3
16 .7
17 .2
- 17
.5 17
.9 18
.4 -
18 .8
19 .2
19 .8
- 20
.0 20
.4 21
.0 -
21 .1
21 .6
22 .2
- 22
.3 22
.8 23
.5 -
Hi P
R 22
5 24
2 25
6 -
25 2
27 2
28 7
- 28
7 30
9 32
6 -
32 7
35 2
37 2
- 36
8 39
6 41
8 -
40 7
43 8
46 2
- Lo
P R
11 1
11 8
12 9
- 11
8 12
5 13
7 -
12 2
13 0
14 2
- 12
8 13
7 14
9 -
13 5
14 3
15 6
- 13
9 14
8 16
2 -
19 61
M Bh
55 .8
57 .9
63 .4
- 54
.5 56
.5 61
.9 -
53 .2
55 .2
60 .5
- 51
.9 53
.8 59
.0 -
49 .3
51 .1
56 .0
- 45
.7 47
.4 51
.9 -
S/ T
0. 73
0. 61
0. 43
- 0.
76 0.
64 0.
44 -
0. 78
0. 65
0. 45
- 0.
81 0.
67 0.
47 -
0. 84
0. 70
0. 48
- 0.
84 0.
70 0.
49 -
T 19
17 13
- 19
17 13
- 19
17 13
- 20
17 13
- 19
17 13
- 18
16 12
- kW
3. 79
3. 86
3. 98
- 4.
07 4.
15 4.
28 -
4. 32
4. 41
4. 55
- 4.
54 4.
63 4.
78 -
4. 72
4. 82
4. 98
- 4.
88 4.
99 5.
15 -
Am ps
16 .2
16 .5
17 .0
- 17
.3 17
.7 18
.2 -
18 .7
19 .1
19 .6
- 19
.8 20
.2 20
.8 -
21 .0
21 .4
22 .1
- 22
.1 22
.6 23
.3 -
Hi P
R 22
3 24
0 25
3 -
25 0
26 9
28 4
- 28
4 30
6 32
3 -
32 4
34 8
36 8
- 36
4 39
2 41
4 -
40 3
43 3
45 7
- Lo
P R
11 0
11 7
12 8
- 11
6 12
4 13
5 -
12 1
12 9
14 1
- 12
7 13
5 14
8 -
13 3
14 2
15 5
- 13
8 14
7 16
0 -
17 36
M Bh
53 .0
55 .0
60 .2
- 51
.8 53
.7 58
.8 -
50 .6
52 .4
57 .4
- 49
.3 51
.1 56
.0 -
46 .9
48 .6
53 .2
- 43
.4 45
.0 49
.3 -
S/ T
0. 70
0. 59
0. 41
- 0.
73 0.
61 0.
42 -
0. 75
0. 62
0. 43
- 0.
77 0.
64 0.
45 -
0. 80
0. 67
0. 46
- 0.
81 0.
67 0.
47 -
T 20
17 13
- 20
17 13
- 20
17 13
- 20
17 13
- 20
17 13
- 19
16 12
- kW
3. 73
3. 81
3. 92
- 4.
00 4.
09 4.
21 -
4. 25
4. 34
4. 47
- 4.
46 4.
56 4.
70 -
4. 64
4. 74
4. 90
- 4.
80 4.
91 5.
07 -
Am ps
16 .0
16 .3
16 .7
- 17
.1 17
.4 17
.9 -
18 .4
18 .8
19 .3
- 19
.5 19
.9 20
.5 -
20 .6
21 .1
21 .7
- 21
.7 22
.2 22
.9 -
Hi P
R 21
8 23
5 24
8 -
24 5
26 4
27 8
- 27
9 30
0 31
7 -
31 7
34 2
36 1
- 35
7 38
4 40
6 -
39 4
42 5
44 8
- Lo
P R
10 8
11 5
12 5
- 11
4 12
1 13
2 -
11 9
12 6
13 8
- 12
5 13
2 14
5 -
13 1
13 9
15 2
- 13
5 14
4 15
7 -
75
22 01
M Bh
58 .5
60 .2
65 .2
70 .0
57 .1
58 .8
63 .7
68 .3
55 .8
57 .4
62 .1
66 .7
54 .4
56 .0
60 .6
65 .1
51 .7
53 .2
57 .6
61 .8
47 .9
49 .3
53 .4
57 .3
S/ T
0. 88
0. 78
0. 59
0. 38
0. 91
0. 81
0. 61
0. 40
0. 93
0. 83
0. 63
0. 41
0. 96
0. 86
0. 65
0. 42
1. 00
0. 89
0. 67
0. 43
1. 00
0. 90
0. 68
0. 44
T 21
20 16
11 22
20 16
11 22
20 16
11 22
20 16
11 22
20 16
11 20
19 15
10 kW
3. 85
3. 93
4. 05
4. 17
4. 13
4. 22
4. 35
4. 49
4. 39
4. 48
4. 62
4. 77
4. 61
4. 71
4. 86
5. 02
4. 80
4. 90
5. 06
5. 23
4. 96
5. 07
5. 24
5. 41
Am ps
16 .5
16 .8
17 .3
17 .9
17 .6
18 .0
18 .5
19 .1
19 .0
19 .4
20 .0
20 .6
20 .1
20 .6
21 .2
21 .9
21 .3
21 .8
22 .4
23 .2
22 .5
23 .0
23 .7
24 .5
Hi P
R 22
7 24
5 25
8 26
9 25
5 27
4 29
0 30
2 29
0 31
2 33
0 34
4 33
0 35
6 37
5 39
2 37
2 40
0 42
2 44
1 41
1 44
2 46
7 48
7 Lo
P R
11 2
12 0
13 1
13 9
11 9
12 6
13 8
14 7
12 3
13 1
14 3
15 3
13 0
13 8
15 1
16 0
13 6
14 5
15 8
16 8
14 1
15 0
16 3
17 4
19 61
M Bh
56 .8
58 .5
63 .3
67 .9
55 .5
57 .1
61 .8
66 .3
54 .1
55 .7
60 .3
64 .8
52 .8
54 .4
58 .9
63 .2
50 .2
51 .7
55 .9
60 .0
46 .5
47 .9
51 .8
55 .6
S/ T
0. 84
0. 75
0. 57
0. 36
0. 87
0. 77
0. 59
0. 38
0. 89
0. 79
0. 60
0. 39
0. 92
0. 82
0. 62
0. 40
0. 95
0. 85
0. 64
0. 41
0. 96
0. 86
0. 65
0. 42
T 22
20 17
12 23
21 17
12 23
21 17
12 23
21 17
12 22
21 17
12 21
19 16
11 kW
3. 82
3. 90
4. 01
4. 14
4. 10
4. 19
4. 32
4. 45
4. 35
4. 44
4. 58
4. 73
4. 57
4. 67
4. 82
4. 98
4. 76
4. 86
5. 02
5. 19
4. 92
5. 03
5. 19
5. 37
Am ps
16 .3
16 .7
17 .2
17 .7
17 .5
17 .9
18 .4
19 .0
18 .8
19 .2
19 .8
20 .5
20 .0
20 .4
21 .0
21 .7
21 .1
21 .6
22 .3
23 .0
22 .3
22 .8
23 .5
24 .3
Hi P
R 22
5 24
2 25
6 26
7 25
3 27
2 28
7 29
9 28
7 30
9 32
6 34
0 32
7 35
2 37
2 38
8 36
8 39
6 41
8 43
6 40
7 43
8 46
2 48
2 Lo
P R
11 1
11 8
12 9
13 8
11 8
12 5
13 7
14 5
12 2
13 0
14 2
15 1
12 8
13 7
14 9
15 9
13 5
14 3
15 6
16 6
13 9
14 8
16 2
17 2
17 36
M Bh
53 .9
55 .5
60 .1
64 .5
52 .7
54 .2
58 .7
63 .0
51 .4
53 .0
57 .3
61 .5
50 .2
51 .7
55 .9
60 .0
47 .7
49 .1
53 .1
57 .0
44 .2
45 .5
49 .2
52 .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. 78
0. 59
0. 38
0. 91
0. 81
0. 62
0. 40
0. 92
0. 82
0. 62
0. 40
T 23
21 17
12 23
21 17
12 23
21 17
12 23
21 18
12 23
21 17
12 21
20 16
11 kW
3. 76
3. 84
3. 95
4. 07
4. 04
4. 12
4. 25
4. 38
4. 28
4. 37
4. 51
4. 66
4. 50
4. 60
4. 74
4. 90
4. 68
4. 78
4. 94
5. 10
4. 84
4. 95
5. 11
5. 28
Am ps
16 .1
16 .4
16 .9
17 .4
17 .2
17 .6
18 .1
18 .7
18 .5
18 .9
19 .5
20 .1
19 .6
20 .1
20 .7
21 .4
20 .8
21 .2
21 .9
22 .6
21 .9
22 .4
23 .1
23 .9
Hi P
R 22
1 23
7 25
1 26
1 24
7 26
6 28
1 29
3 28
1 30
3 32
0 33
4 32
1 34
5 36
4 38
0 36
1 38
8 41
0 42
7 39
8 42
9 45
3 47
2 Lo
P R
10 9
11 6
12 7
13 5
11 5
12 3
13 4
14 3
12 0
12 7
13 9
14 8
12 6
13 4
14 6
15 6
13 2
14 0
15 3
16 3
13 6
14 5
15 8
16 9
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AC
CA (T
VA ) c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g,
5 -7
F @
th e
liq ui
d ac
ce ss
fi tti
ng c
on ne
cti on
A H
RI 9
5 te
st c
on di
tio ns
. D es
ig n
Su pe
rh ea
t 1 5-
18 F
@ th
e co
m pr
es so
r s uc
tio n
ac ce
ss fi
tti ng
c on
ne cti
on .
14 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 15
Expanded Cooling Data GPH1660M41** (cont.)
O ut
do or
A m
bi en
t Te
m pe
ra tu
re 65
F 75
F 85
F 95
F 10
5 F
11 5
F En
te ri
ng In
do or
W et
B ul
b Te
m pe
ra tu
re ID
B Ai
rf lo
w 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71 59
63 67
71
80
22 01
M Bh
59 .5
60 .8
65 .0
69 .5
58 .1
59 .4
63 .5
67 .9
56 .8
58 .0
62 .0
66 .2
55 .4
56 .6
60 .5
64 .6
52 .6
53 .8
57 .4
61 .4
48 .7
49 .8
53 .2
56 .9
S/ T
0. 96
0. 90
0. 73
0. 55
1. 00
0. 93
0. 76
0. 57
1. 00
0. 96
0. 78
0. 58
1. 00
1. 00
0. 80
0. 60
1. 00
1. 00
0. 83
0. 62
1. 00
1. 00
0. 84
0. 63
T 24
23 20
16 24
23 20
16 24
23 20
16 23
24 20
16 22
22 20
16 20
21 19
15 kW
3. 88
3. 96
4. 08
4. 20
4. 17
4. 25
4. 39
4. 53
4. 42
4. 52
4. 66
4. 81
4. 65
4. 75
4. 90
5. 06
4. 84
4. 94
5. 10
5. 27
5. 00
5. 11
5. 28
5. 46
Am ps
16 .6
16 .9
17 .4
18 .0
17 .8
18 .2
18 .7
19 .3
19 .1
19 .5
20 .1
20 .8
20 .3
20 .8
21 .4
22 .1
21 .5
22 .0
22 .6
23 .4
22 .6
23 .2
23 .9
24 .7
Hi P
R 23
0 24
7 26
1 27
2 25
8 27
7 29
3 30
5 29
3 31
5 33
3 34
7 33
4 35
9 37
9 39
6 37
5 40
4 42
7 44
5 41
5 44
6 47
1 49
2 Lo
P R
11 4
12 1
13 2
14 0
12 0
12 8
13 9
14 8
12 5
13 3
14 5
15 4
13 1
13 9
15 2
16 2
13 7
14 6
15 9
17 0
14 2
15 1
16 5
17 6
19 61
M Bh
57 .8
59 .1
63 .1
67 .4
56 .4
57 .7
61 .6
65 .9
55 .1
56 .3
60 .2
64 .3
53 .8
54 .9
58 .7
62 .7
51 .1
52 .2
55 .8
59 .6
47 .3
48 .3
51 .6
55 .2
S/ T
0. 92
0. 86
0. 70
0. 52
0. 95
0. 89
0. 72
0. 54
0. 97
0. 91
0. 74
0. 56
1. 00
0. 94
0. 77
0. 57
1. 00
0. 98
0. 80
0. 59
1. 00
0. 99
0. 80
0. 60
T 25
24 21
17 25
24 21
17 25
24 21
17 25
24 21
17 24
24 21
17 22
22 19
16 kW
3. 85
3. 93
4. 05
4. 17
4. 13
4. 22
4. 35
4. 49
4. 39
4. 48
4. 62
4. 77
4. 61
4. 71
4. 86
5. 02
4. 80
4. 90
5. 06
5. 23
4. 96
5. 07
5. 24
5. 41
Am ps
16 .5
16 .8
17 .3
17 .9
17 .6
18 .0
18 .5
19 .1
19 .0
19 .4
20 .0
20 .6
20 .1
20 .6
21 .2
21 .9
21 .3
21 .8
22 .4
23 .2
22 .5
23 .0
23 .7
24 .5
Hi P
R 22
7 24
5 25
8 26
9 25
5 27
5 29
0 30
2 29
0 31
2 33
0 34
4 33
0 35
6 37
6 39
2 37
2 40
0 42
2 44
1 41
1 44
2 46
7 48
7 Lo
P R
11 2
12 0
13 1
13 9
11 9
12 6
13 8
14 7
12 3
13 1
14 3
15 3
13 0
13 8
15 1
16 0
13 6
14 5
15 8
16 8
14 1
15 0
16 3
17 4
17 36
M Bh
54 .9
56 .1
59 .9
64 .1
53 .6
54 .8
58 .5
62 .6
52 .4
53 .5
57 .2
61 .1
51 .1
52 .2
55 .8
59 .6
48 .5
49 .6
53 .0
56 .6
44 .9
45 .9
49 .1
52 .5
S/ T
0. 88
0. 82
0. 67
0. 50
0. 91
0. 85
0. 69
0. 52
0. 93
0. 87
0. 71
0. 53
0. 96
0. 90
0. 73
0. 55
1. 00
0. 94
0. 76
0. 57
1. 01
0. 94
0. 77
0. 57
T 26
24 21
17 26
25 22
17 26
25 22
17 26
25 22
17 26
25 21
17 24
23 20
16 kW
3. 79
3. 86
3. 98
4. 11
4. 07
4. 15
4. 28
4. 42
4. 32
4. 41
4. 55
4. 69
4. 54
4. 63
4. 78
4. 94
4. 72
4. 82
4. 98
5. 14
4. 88
4. 99
5. 15
5. 32
Am ps
16 .2
16 .5
17 .0
17 .6
17 .3
17 .7
18 .2
18 .8
18 .7
19 .1
19 .6
20 .3
19 .8
20 .2
20 .8
21 .6
21 .0
21 .4
22 .1
22 .8
22 .1
22 .6
23 .3
24 .1
Hi P
R 22
3 24
0 25
3 26
4 25
0 26
9 28
4 29
6 28
4 30
6 32
3 33
7 32
4 34
8 36
8 38
4 36
4 39
2 41
4 43
2 40
3 43
3 45
7 47
7 Lo
P R
11 0
11 7
12 8
13 6
11 6
12 4
13 5
14 4
12 1
12 9
14 1
15 0
12 7
13 5
14 8
15 7
13 3
14 2
15 5
16 5
13 8
14 7
16 0
17 0
85
22 01
M Bh
60 .6
61 .7
64 .7
69 .0
59 .2
60 .3
63 .2
67 .4
57 .7
58 .9
61 .7
65 .8
56 .3
57 .4
60 .1
64 .2
53 .5
54 .6
57 .1
61 .0
49 .6
50 .5
52 .9
56 .5
S/ T
1. 00
0. 97
0. 88
0. 71
1. 00
1. 00
0. 91
0. 74
1. 00
1. 00
0. 93
0. 76
1. 00
1. 00
0. 96
0. 78
1. 00
1. 00
1. 00
0. 81
1. 00
1. 00
1. 00
0. 82
T 25
25 24
20 25
25 24
21 24
25 24
21 24
24 24
21 22
23 24
21 21
21 22
19 kW
3. 91
3. 99
4. 11
4. 24
4. 20
4. 29
4. 42
4. 56
4. 46
4. 55
4. 70
4. 85
4. 68
4. 79
4. 94
5. 10
4. 88
4. 98
5. 15
5. 32
5. 05
5. 16
5. 32
5. 50
Am ps
16 .7
17 .1
17 .6
18 .1
17 .9
18 .3
18 .8
19 .5
19 .3
19 .7
20 .3
21 .0
20 .5
20 .9
21 .6
22 .3
21 .7
22 .1
22 .8
23 .6
22 .8
23 .3
24 .1
24 .9
Hi P
R 23
2 25
0 26
4 27
5 26
0 28
0 29
6 30
8 29
6 31
8 33
6 35
1 33
7 36
3 38
3 40
0 37
9 40
8 43
1 44
9 41
9 45
1 47
6 49
7 Lo
P R
11 5
12 2
13 3
14 2
12 1
12 9
14 1
15 0
12 6
13 4
14 6
15 6
13 2
14 1
15 4
16 4
13 9
14 7
16 1
17 1
14 3
15 3
16 7
17 7
19 61
M Bh
58 .8
59 .9
62 .8
67 .0
57 .4
58 .5
61 .3
65 .4
56 .1
57 .2
59 .9
63 .9
54 .7
55 .8
58 .4
62 .3
52 .0
53 .0
55 .5
59 .2
48 .1
49 .1
51 .4
54 .8
S/ T
0. 96
0. 93
0. 84
0. 68
1. 00
0. 96
0. 87
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
T 26
26 25
21 27
26 25
22 26
26 25
22 26
26 25
22 24
25 25
21 23
23 23
20 kW
3. 88
3. 96
4. 08
4. 20
4. 17
4. 25
4. 39
4. 53
4. 42
4. 52
4. 66
4. 81
4. 65
4. 75
4. 90
5. 06
4. 84
4. 94
5. 10
5. 27
5. 00
5. 11
5. 28
5. 46
Am ps
16 .6
16 .9
17 .4
18 .0
17 .8
18 .2
18 .7
19 .3
19 .1
19 .5
20 .1
20 .8
20 .3
20 .8
21 .4
22 .1
21 .5
22 .0
22 .6
23 .4
22 .6
23 .2
23 .9
24 .7
Hi P
R 23
0 24
7 26
1 27
2 25
8 27
7 29
3 30
5 29
3 31
5 33
3 34
7 33
4 35
9 37
9 39
6 37
5 40
4 42
7 44
5 41
5 44
6 47
1 49
2 Lo
P R
11 4
12 1
13 2
14 0
12 0
12 8
13 9
14 8
12 5
13 3
14 5
15 4
13 1
13 9
15 2
16 2
13 7
14 6
15 9
17 0
14 2
15 1
16 5
17 6
17 36
M Bh
55 .9
56 .9
59 .6
63 .6
54 .6
55 .6
58 .3
62 .1
53 .3
54 .3
56 .9
60 .7
52 .0
53 .0
55 .5
59 .2
49 .4
50 .3
52 .7
56 .2
45 .7
46 .6
48 .8
52 .1
S/ T
0. 92
0. 89
0. 80
0. 65
0. 95
0. 92
0. 83
0. 67
0. 98
0. 94
0. 85
0. 69
1. 00
0. 97
0. 88
0. 71
1. 00
1. 00
0. 91
0. 74
1. 00
1. 00
0. 92
0. 75
T 27
27 25
22 28
27 26
22 28
27 26
22 28
27 26
22 26
27 25
22 24
25 24
21 kW
3. 82
3. 89
4. 01
4. 14
4. 10
4. 19
4. 32
4. 45
4. 35
4. 44
4. 58
4. 73
4. 57
4. 67
4. 82
4. 98
4. 76
4. 86
5. 02
5. 19
4. 92
5. 03
5. 19
5. 37
Am ps
16 .3
16 .7
17 .2
17 .7
17 .5
17 .9
18 .4
19 .0
18 .8
19 .2
19 .8
20 .5
20 .0
20 .4
21 .0
21 .7
21 .1
21 .6
22 .2
23 .0
22 .3
22 .8
23 .5
24 .3
Hi P
R 22
5 24
2 25
6 26
7 25
2 27
2 28
7 29
9 28
7 30
9 32
6 34
0 32
7 35
2 37
2 38
8 36
8 39
6 41
8 43
6 40
7 43
8 46
2 48
2 Lo
P R
11 1
11 8
12 9
13 8
11 8
12 5
13 7
14 5
12 2
13 0
14 2
15 1
12 8
13 7
14 9
15 9
13 5
14 3
15 6
16 6
13 9
14 8
16 2
17 2
ID B:
E nt
er in
g In
do or
D ry
B ul
b Te
m pe
ra tu
re Sh
ad ed
a re
a re
fle ct
s AH
RI c
on di
tio ns
. kW
= T
ot al
sy st
em p
ow er
H ig
h an
d lo
w p
re ss
ur es
a re
m ea
su re
d at
th e
liq ui
d an
d su
cti on
s er
vi ce
v al
ve s.
Am ps
= o
ut do
or u
ni t a
m ps
(c om
p. +f
an )
De sig
n Su
bc oo
lin g,
5 -7
F @
th e
liq ui
d ac
ce ss
fi tti
ng c
on ne
cti on
A H
RI 9
5 te
st c
on di
tio ns
. D es
ig n
Su pe
rh ea
t 1 5-
18 F
@ th
e co
m pr
es so
r s uc
tio n
ac ce
ss fi
tti ng
c on
ne cti
on .
16 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 17
Airflow Data
GPH1624M41*
Ho ri
zo nt
al P
os it
io n
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 671 616 567 --- --- --- --- --- ---
Watts 51 57 72 --- --- --- --- --- ---
T2/T3 230 CFM 941 872 777 746 614 --- --- --- ---
Watts 105 112 113 128 138 --- --- --- ---
T4/T5 230 CFM 1347 1315 1256 1194 1152 1096 1051 972 891
Watts 239 256 265 271 282 286 293 297 305
Do w
ns ho
t Po
si ti
on
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 699 595 523 --- --- --- --- --- ---
Watts 57 61 72 ---
T2/T3 230 CFM 919 855 782 695 631 578 523 --- ---
Watts 108 117 121 132 143 144 149 --- ---
T4/T5 230 CFM 1312 1275 1216 1153 1096 1028 943 869 816
Watts 260 269 274 285 295 300 304 310 316
GPH1630M41*
Ho ri
zo nt
al P
os it
io n
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 743 707 595 513 --- --- --- --- ---
Watts 61 73 77 85 --- --- --- --- ---
T2/T3 230 CFM 1146 1098 1044 991 934 817 764 698 653
Watts 157 170 176 186 194 201 210 215 215
T4/T5 230 CFM 1440 1418 1364 1307 1265 1219 1168 1094 1049
Watts 290 306 312 321 326 332 348 353 360
Do w
ns ho
t Po
si ti
on
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 722 672 574 509 --- --- --- --- ---
Watts 60 74 80 89 --- --- --- --- ---
T2/T3 230 CFM 1103 1038 978 922 806 731 676 622 564
Watts 162 168 179 188 199 205 208 214 219
T4/T5 230 CFM 1401 1357 1305 1244 1179 1118 1046 934 884
Watts 311 326 318 334 341 349 353 352 357
GPH1636M41*
Ho ri
zo nt
al P
os it
io n
Motor Speed Volts
Static 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 846 762 716 585 519 --- --- --- ---
Watts 74 83 94 98 108 --- --- --- ---
T2/T3 230 CFM 1278 1214 1182 1129 1072 1013 950 853 788
Watts 221 218 232 245 253 264 265 275 272
T4/T5 230 CFM 1604 1560 1507 1468 1415 1364 1321 1276 1218
Watts 396 402 408 424 426 423 444 454 454
16 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 17
Airflow Data (cont.)
GPH1636M41* (cont.) Do
w ns
ho t
Po si
ti on
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 809 730 623 542 485 441 --- --- ---
Watts 73 85 92 98 107 112 --- --- ---
T2/T3 230 CFM 1284 1223 1175 1097 1031 974 871 804 761
Watts 220 227 241 247 255 262 272 277 285
T4/T5 230 CFM 1578 1539 1498 1452 1396 1332 1279 1224 1161
Watts 401 409 421 425 438 439 452 453 455
GPH1642M41*
Ho ri
zo nt
al P
os it
io n
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 1030 955 908 826 761 678 633 563 504
Watts 130 126 139 143 154 168 171 181 185
T2/T3 230 CFM 1425 1373 1303 1250 1228 1158 1109 1042 982
Watts 234 246 248 262 280 290 298 308 322
T4/T5 230 CFM 1775 1718 1673 1643 1588 1532 1482 1431 1369
Watts 416 424 430 454 458 466 478 488 490
Do w
ns ho
t Po
si ti
on
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 1001 936 852 810 700 643 579 526 491
Watts 125 133 136 154 160 166 172 177 185
T2/T3 230 CFM 1411 1361 1299 1240 1173 1112 1048 955 887
Watts 281 294 301 309 312 320 327 335 339
T4/T5 230 CFM 1745 1690 1615 1580 1530 1470 1420 1370 1310
Watts 425 435 440 465 468 476 488 498 500
GPH1648M41*
Ho ri
zo nt
al P
os it
io n
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 1167 1101 1045 992 939 870 802 732 681
Watts 139 144 156 165 177 193 203 217 223
T2/T3 230 CFM 1723 1637 1598 1554 1509 1467 1420 1361 1295
Watts 372 370 381 390 404 411 420 427 441
T4/T5 230 CFM 2012 1965 1912 1871 1809 1770 1741 1691 1635
Watts 578 593 599 606 610 627 626 634 638
Do w
ns ho
t Po
si ti
on
Motor Speed Volts
Static
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
T1 230 CFM 1155 1074 1023 969 896 805 755 667 626
Watts 153 156 169 180 195 205 216 226 230
T2/T3 230 CFM 1670 1596 1558 1484 1467 1383 1339 1259 1168
Watts 383 392 399 408 419 434 436 447 449
T4/T5 230 CFM 1949 1881 1853 1792 1753 1699 1621 1561 1522
Watts 603 607 608 616 622 626 648 650 645
18 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 19
Airflow Data (cont.)
GPH1660M41*
Downshot Horizontal Speed Tap Static CFM Amps Watts RPM Speed
Tap ESP
in w.c. CFM Amps Watts RPM
T1
0.1 1334 1.65 180 627
T1
0.1 1355 1.57 174 599 0.2 1286 1.75 192 665 0.2 1281 1.66 182 651
0.3 1212 1.83 202 715 0.3 1235 1.76 196 693
0.4 1144 1.94 216 759 0.4 1168 1.81 202 726
0.5 1077 1.99 222 792 0.5 1118 1.94 218 775
0.6 1039 2.10 238 830 0.6 1049 2.03 232 819
0.7 953 2.17 248 874 0.7 982 2.10 240 858
0.8 904 2.27 258 913 0.8 922 2.14 246 885 0.9 825 2.30 266 940 0.9 871 2.25 260 927
T2
0.1 1512 2.12 240 682
T2
0.1 1544 2.04 234 660 0.2 1469 2.24 254 720 0.2 1490 2.17 250 704
0.3 1397 2.31 264 759 0.3 1427 2.25 260 742
0.4 1333 2.44 282 803 0.4 1370 2.35 276 781
0.5 1285 2.54 296 836 0.5 1319 2.42 282 809
0.6 1221 2.59 304 874 0.6 1274 2.52 296 849
0.7 1173 2.72 322 913 0.7 1210 2.62 316 891
0.8 1118 2.77 328 946 0.8 1137 2.73 326 935 0.9 1049 2.90 344 984 0.9 1106 2.77 336 957
T3
0.1 2053 4.27 540 869
T3
0.1 2099 4.13 516 825 0.2 2014 4.39 558 896 0.2 2068 4.25 536 852
0.3 1999 4.60 576 929 0.3 2029 4.37 552 885
0.4 1947 4.68 588 957 0.4 1971 4.48 568 913
0.5 1897 4.79 608 989 0.5 1911 4.61 586 950
0.6 1857 4.87 620 1012 0.6 1876 4.73 604 973
0.7 1763 4.99 640 1050 0.7 1821 4.86 622 1012
0.8 1741 5.06 650 1072 0.8 1792 4.91 630 1028 0.9 1669 5.19 668 1105 0.9 1740 5.03 648 1067
T4
0.1 2137 4.95 634 913
T4
0.1 2233 4.76 608 863 0.2 2093 5.07 652 940 0.2 2168 4.91 628 896
0.3 2095 5.19 670 962 0.3 2125 5.02 640 924
0.4 2026 5.28 682 990 0.4 2070 5.14 660 951
0.5 1980 5.40 698 1018 0.5 2050 5.27 678 979
0.6 1961 5.49 720 1039 0.6 1980 5.41 696 1012
0.7 1914 5.58 732 1072 0.7 1954 5.47 704 1034
0.8 1845 5.70 742 1100 0.8 1893 5.60 724 1067 0.9 1766 5.69 740 1127 0.9 1852 5.70 736 1089
T5
0.1 2299 5.70 742 942
T5
0.1 2322 5.44 710 904 0.2 2233 5.80 748 969 0.2 2294 5.55 726 934
0.3 2217 5.90 768 990 0.3 2254 5.68 742 958
0.4 2157 6.07 786 1018 0.4 2201 5.80 766 990
0.5 2131 6.12 804 1045 0.5 2147 5.93 782 1017
0.6 2060 6.21 816 1073 0.6 2117 6.01 788 1039
0.7 2015 6.30 820 1095 0.7 2081 6.12 808 1060
0.8 1940 6.27 816 1111 0.8 2017 6.22 822 1094 0.9 1862 6.13 790 1128 0.9 1932 6.10 804 1111
Notes Table represent dry coil without filter, to compensate for filter add 0.08 to measured E.S.P.. SCFM correction for wet coil = 4%. 5-ton models are shipped from the factory with speed tap set on T4.
Airflow Pressure Drop of Downflow Economizer for 3 to 6 Ton Rooftop Units (100% Return Air)
SCFM 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 2800
in. WG 0.02 0.04 0.05 0.07 0.09 0.12 0.14 0.17 0.21 0.24 0.28
18 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 19
Airflow Data (cont.)
5Ton Models: GPH1660***M41B*
Down Flow Horizontal Flow
Speed Tap
External Static
Pressure (ESP), in
w.c.
SCFM RPM BHP Speed Tap
External Static
Pressure (ESP), in
w.c.
SCFM RPM BHP
T1
0.2 1299 614 0.16
T1
0.2 1326 653 0.22
0.4 1209 674 0.17 0.4 1234 717 0.24
0.6 1082 755 0.19 0.6 1104 803 0.27
0.8 933 836 0.21 0.8 952 890 0.30
T2
0.2 1967 862 0.62
T2
0.2 2007 885 0.64
0.4 1896 951 0.69 0.4 1935 931 0.67
0.6 1849 1022 0.74 0.6 1887 969 0.70
0.8 1786 948 0.69 0.8 1822 1009 0.73
T3
0.2 2096 871 0.71
T3
0.2 2139 927 0.76
0.4 2024 916 0.75 0.4 2065 974 0.80
0.6 1972 948 0.78 0.6 2012 1009 0.83
0.8 1921 982 0.80 0.8 1960 1045 0.86
T4
0.2 2189 90 0.81
T4
0.2 2234 960 0.86
0.4 2119 943 0.84 0.4 2162 1003 0.90
0.6 2059 979 0.88 0.6 2101 1042 0.93
0.8 2012 1009 0.90 0.8 2053 1073 0.96
T5
0.2 2254 923 0.88
T5
0.2 2300 982 0.93
0.4 2178 964 0.92 0.4 2222 1025 0.98
0.6 2127 997 0.95 0.6 2170 1061 1.01
0.8 2078 1029 0.98 0.8 2120 1095 1.04
*Shaded area indicats air flow below 1500 SCFM (300 SCFM/ton) that is not recommended for High Stage cooling or heating.
20 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 21
Temperature Rise Range Chart
30 40
50 60
70 80
90 11
0 12
0 10
0 13
0 14
0 15
0
10 0
90 80 70 60 50 40 30 20 10
O U
TP U
T B
TU /H
R x
10 00
B TU
O U
TP U
T vs
TE M
P E
R AT
U R
E R
IS E
C H
A R
T
TEMPERATURERISE
60 0
C FM
70 0
90 0 10
00 11 00 12
00
14 00
16 00 18
00 20 00 22
00 24 00
C FM
FO R
M U
LA S
B TU
O U
TP U
T =
C FM
x 1.
08 x
R IS
E
R IS
E =
B TU
O U
TP U
T 1.
08
C FM
80 0
Temperature Rise
O ut
pu t
BT U
/h x
1 ,0
00
Fo rm
ul as
BT U
/h O
ut pu
t = C
FR M
x 1
.0 8
x Ri
se
Ri se
=
BT U
/H O
ut pu
t
C FM
CF M
x 1
.0 8
B TU
/h O
ut pu
t Vs
. T em
pe ra
tu re
R is
e Ch
ar t
20 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 21
Expanded Heating Data
Notes Above information is for nominal CFM and 70-degree indoor dry bulb. Instantaneous capacity listed. High pressure is measured at the liquid line access fitting. Amps: Unit amps (comp.+ evaporator motor + condenser fan motor) Low pressure is measured at the compressor suction access fitting. kW = Total system power
GPH1624M41**
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 28.7 27.1 25.5 23.9 22.8 22.1 20.5 18.9 15.6 14.4 13.2 12.5 12.0 10.8 9.6 8.4 7.1 5.8
T/R 31.2 29.6 27.8 26.0 24.8 24.1 22.4 20.6 17.0 15.7 14.4 13.6 13.1 11.8 10.4 9.1 7.8 6.4
kW 1.96 1.92 1.88 1.84 1.82 1.80 1.76 1.72 1.68 1.64 1.60 1.58 1.56 1.52 1.49 1.45 1.41 1.37
amps 10.0 9.4 8.8 8.4 8.1 8.0 7.6 7.3 7.0 6.7 6.5 6.3 6.3 6.0 5.7 5.4 5.1 4.7
COP 4.28 4.14 3.98 3.80 3.67 3.59 3.41 3.21 2.71 2.57 2.42 2.32 2.25 2.07 1.89 1.69 1.48 1.25
EER 15 14 14 13 13 12 12 11 9 9 8 8 8 7 6 6 5 4
HI PR 397 381 366 350 342 336 323 310 297 283 272 265 261 251 241 231 223 215
LO PR 141.8 131.6 123.3 113.1 106.9 102.8 94.6 84.2 76.0 67.9 59.6 55.5 53.4 45.2 39.0 32.9 28.7 22.5
GPH1630M41**
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 35.7 33.8 31.8 29.7 28.4 27.5 25.6 23.6 20.7 19.1 17.6 16.6 16.0 14.3 12.7 11.1 9.5 7.8
T/R 31.5 29.8 28.0 26.2 25.0 24.3 22.5 20.8 18.2 16.8 15.5 14.6 14.1 12.6 11.2 9.8 8.3 6.8
kW 2.56 2.51 2.45 2.40 2.37 2.35 2.30 2.25 2.25 2.20 2.15 2.12 2.09 2.04 1.99 1.94 1.88 1.83
amps 12.9 12.0 11.3 10.7 10.4 10.2 9.7 9.2 8.9 8.5 8.2 8.0 7.9 7.6 7.2 6.8 6.4 5.9
COP 4.08 3.95 3.79 3.62 3.50 3.43 3.25 3.07 2.69 2.54 2.40 2.30 2.23 2.06 1.87 1.68 1.47 1.24
EER 14 13 13 12 12 12 11 10 9 9 8 8 8 7 6 6 5 4
HI PR 416 399 383 366 358 351 337 324 310 296 284 278 273 262 252 242 233 225
LO PR 134.9 125.2 117.3 107.6 101.7 97.8 90.0 80.1 72.3 64.6 56.7 52.8 50.8 43.0 37.1 31.3 27.3 21.5
GPH1636M41**
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 42.1 39.9 37.5 35.1 33.5 32.5 30.2 27.8 24.2 22.4 20.6 19.4 18.7 16.8 14.9 13.0 11.1 9.1
T/R 32.5 30.8 29.0 27.1 25.8 25.0 23.3 21.5 18.7 17.2 15.9 15.0 14.4 13.0 11.5 10.0 8.5 7.0
kW 2.85 2.79 2.73 2.67 2.64 2.62 2.56 2.50 2.48 2.42 2.37 2.33 2.31 2.25 2.19 2.14 2.08 2.02
amps 14.5 13.6 12.8 12.1 11.7 11.5 11.0 10.5 10.1 9.7 9.3 9.1 9.0 8.7 8.2 7.8 7.3 6.7
COP 4.33 4.18 4.02 3.84 3.71 3.63 3.45 3.25 2.85 2.70 2.54 2.44 2.37 2.18 1.99 1.78 1.56 1.31
EER 15 14 14 13 13 12 12 11 10 9 9 8 8 7 7 6 5 4
HI PR 399 383 368 352 344 337 324 311 298 285 273 267 262 252 242 232 224 216
LO PR 133.8 124.1 116.4 106.7 100.9 97.0 89.3 79.5 71.7 64.0 56.3 52.3 50.4 42.7 36.8 31.1 27.1 21.3
22 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 23
Expanded Heating Data (cont.)
Notes Above information is for nominal CFM and 70-degree indoor dry bulb. Instantaneous capacity listed. High pressure is measured at the liquid line access fitting. Amps: Unit amps (comp.+ evaporator motor + condenser fan motor) Low pressure is measured at the compressor suction access fitting. kW = Total system power
GPH1642M41
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 47.8 45.2 42.6 39.8 38.0 36.8 34.2 31.5 26.8 24.7 22.8 21.5 20.7 18.6 16.5 14.4 12.3 10.0
T/R 34.0 32.2 30.3 28.3 27.1 26.2 24.4 22.5 19.1 17.6 16.2 15.3 14.7 13.2 11.7 10.2 8.7 7.2
kW 3.53 3.46 3.38 3.31 3.27 3.24 3.17 3.10 2.94 2.87 2.80 2.76 2.73 2.66 2.59 2.53 2.46 2.39
amps 17.8 16.6 15.6 14.8 14.3 14.0 13.3 12.7 12.2 11.7 11.2 11.0 10.9 10.4 9.8 9.3 8.7 8.0
COP 3.96 3.83 3.68 3.51 3.40 3.33 3.16 2.98 2.67 2.52 2.38 2.28 2.22 2.04 1.86 1.66 1.46 1.23
EER 14 13 13 12 12 11 11 10 9 9 8 8 8 7 6 6 5 4
HI PR 417 399 384 367 359 352 338 324 311 297 285 278 273 263 253 242 234 226
LO PR 134.9 125.1 117.3 107.5 101.7 97.8 90.0 80.1 72.3 64.5 56.7 52.8 50.8 43.0 37.1 31.3 27.3 21.4
GPH1648M41
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 57.2 54.1 51.0 47.6 45.5 44.1 41.0 37.8 33.6 31.1 28.6 27.0 26.0 23.3 20.7 18.0 15.4 12.6
T/R 33.1 31.3 29.5 27.6 26.3 25.5 23.7 21.9 19.5 18.0 16.5 15.6 15.0 13.5 12.0 10.4 8.9 7.3
kW 3.94 3.86 3.78 3.71 3.66 3.63 3.55 3.47 3.36 3.28 3.21 3.16 3.13 3.05 2.98 2.90 2.82 2.75
amps 20.8 19.4 18.2 17.2 16.6 16.3 15.5 14.8 14.2 13.6 13.0 12.7 12.6 12.0 11.3 10.7 10.0 9.1
COP 4.25 4.10 3.94 3.76 3.64 3.56 3.37 3.18 2.93 2.77 2.61 2.50 2.43 2.24 2.03 1.82 1.59 1.34
EER 15 14 13 13 12 12 12 11 10 9 9 9 8 8 7 6 5 5
HI PR 404 387 372 356 348 341 328 315 301 288 276 270 265 255 245 235 227 219
LO PR 133.3 123.7 115.9 106.3 100.5 96.6 88.9 79.2 71.4 63.8 56.1 52.1 50.2 42.5 36.7 30.9 27.0 21.2
GPH1660M41
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10
MBh 69.7 66.0 62.1 58.0 55.4 53.7 49.9 46.0 38.2 35.3 32.5 30.7 29.5 26.5 23.5 20.5 17.5 14.3
T/R 32.9 31.1 29.3 27.4 26.2 25.4 23.5 21.7 18.0 16.6 15.3 14.5 13.9 12.5 11.1 9.7 8.3 6.8
kW 4.54 4.45 4.36 4.28 4.23 4.19 4.11 4.02 3.94 3.85 3.77 3.72 3.68 3.59 3.51 3.42 3.34 3.25
amps 23.7 22.1 20.8 19.7 19.0 18.7 17.8 17.0 16.3 15.7 15.0 14.7 14.6 13.9 13.1 12.5 11.7 10.7
COP 4.49 4.34 4.16 3.97 3.84 3.75 3.56 3.35 2.84 2.68 2.52 2.42 2.35 2.16 1.96 1.75 1.53 1.29
EER 15 15 14 14 13 13 12 11 10 9 9 8 8 7 7 6 5 4
HI PR 295 283 272 260 254 249 239 230 220 210 202 197 193 186 179 171 165 160
LO PR 133.4 123.7 116.0 106.3 100.5 96.7 88.9 79.2 71.5 63.8 56.1 52.2 50.3 42.5 36.7 31.0 27.0 21.2
22 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 23
Notes COP: Coefficient of performance To obtain BTU capacity of the unit with Kw of auxiliary heat, multiply by 1000 ( example 39.01 x 1000 = 39,010 BTUS)
Auxiliary Heating Data
GPH1624M41 Conditions: 850 CFM; Indoor Air @ 70F DB
GPH1630M41 Conditions: 1050 CFM; Indoor Air @ 70F DB
Outdoor Ambient
F.
Basic Unit W/o Auxiliary Heat
Unit Capacity with kW of Auxiliary Heat
Outdoor Ambient
F.
Basic Unit W/o Auxiliary Heat
Unit Capacity with kW of Auxiliary Heat
Capacity* COP 4.8 9.6 14.4 19.2 Capacity* COP 4.8 9.6 14.4 19.2 65 28.66 4.28 45.04 61.42 - - 65 35.70 4.09 52.08 68.46 84.846 - 60 27.13 4.14 43.51 59.90 - - 60 33.80 3.95 50.18 66.56 82.9432 - 55 25.54 3.97 41.92 58.30 - - 55 31.81 3.80 48.19 64.57 80.9552 - 50 23.87 3.79 40.25 56.64 - - 50 29.73 3.63 46.12 62.50 78.882 - 45 22.09 3.58 38.48 54.86 - - 45 27.52 3.43 43.90 60.28 76.6668 - 40 20.52 3.40 36.90 53.28 - - 40 25.56 3.26 41.94 58.32 74.7072 - 35 18.92 3.21 35.31 51.69 - - 35 23.57 3.07 39.95 56.34 72.7192 - 30 15.58 2.72 31.96 48.34 - - 30 20.68 2.68 37.07 53.45 69.8308 - 25 14.38 2.57 30.76 47.14 - - 25 19.09 2.53 35.47 51.85 68.2372 - 20 13.24 2.42 29.62 46.00 - - 20 17.58 2.39 33.96 50.34 66.7266 - 15 12.04 2.25 28.42 44.80 - - 15 15.99 2.23 32.37 48.75 65.133 - 10 10.80 2.07 27.18 43.56 - - 10 14.34 2.05 30.72 47.11 63.4896 - 5 9.58 1.88 25.96 42.34 - - 5 12.72 1.87 29.10 45.48 61.8628 - 0 8.35 1.68 24.73 41.11 - - 0 11.09 1.67 27.47 43.85 60.236 - -5 7.13 1.48 23.51 39.89 - - -5 9.46 1.47 25.84 42.23 58.6092 -
-10 5.84 1.24 22.22 38.60 - - -10 7.75 1.24 24.13 40.52 56.8994 -
GPH1636M41 Conditions: 1200 CFM; Indoor Air @ 70F DB
GPH1642M41 Conditions: 1300 CFM; Indoor Air @ 70F DB
Outdoor Ambient
F.
Basic Unit W/o Auxiliary Heat
Unit Capacity with kW of Auxiliary Heat
Outdoor Ambient
F.
Basic Unit W/o Auxiliary Heat
Unit Capacity with kW of Auxiliary Heat
Capacity* COP 4.8 9.6 14.4 19.2 Capacity* COP 4.8 9.6 14.4 19.2 65 42.11 4.33 58.49 74.87 91.27 - 65 47.77 3.99 64.15 80.53 96.91 - 60 39.87 4.18 56.25 72.63 89.01 - 60 45.22 3.85 61.60 77.98 94.37 - 55 37.52 4.02 53.90 70.28 86.67 - 55 42.56 3.69 58.94 75.32 91.71 - 50 35.07 3.84 51.46 67.84 84.22 - 50 39.79 3.52 56.17 72.55 88.93 - 45 32.46 3.63 48.84 65.23 81.61 - 45 36.82 3.32 53.20 69.59 85.97 - 40 30.15 3.45 46.53 62.91 79.30 - 40 34.20 3.15 50.58 66.96 83.35 - 35 27.81 3.25 44.19 60.57 76.95 - 35 31.54 2.96 47.92 64.30 80.69 - 30 24.22 2.86 40.60 56.99 73.37 - 30 26.91 2.70 43.30 59.68 76.06 - 25 22.36 2.70 38.74 55.12 71.50 - 25 24.84 2.55 41.22 57.60 73.99 - 20 20.59 2.55 36.97 53.35 69.73 - 20 22.87 2.39 39.26 55.64 72.02 - 15 18.72 2.37 35.10 51.49 67.87 - 15 20.80 2.22 37.18 53.57 69.95 - 10 16.80 2.19 33.18 49.56 65.94 - 10 18.66 2.04 35.04 51.43 67.81 - 5 14.89 1.99 31.27 47.66 64.04 - 5 16.55 1.85 32.93 49.31 65.69 - 0 12.99 1.78 29.37 45.75 62.13 - 0 14.43 1.65 30.81 47.19 63.58 - -5 11.08 1.56 27.46 43.85 60.23 - -5 12.31 1.44 28.69 45.08 61.46 -
-10 9.08 1.32 25.46 41.84 58.23 - -10 10.09 1.21 26.47 42.85 59.23 -
GPH1648M41 Conditions: 1600 CFM; Indoor Air @ 70F DB
GPH1660M41 Condition : 2000 CMF; INDOOR AIR @ 70 F DB
Outdoor Ambient
F.
Basic Unit W/o Auxiliary Heat
Unit Capacity with kW of Auxiliary Heat
Outdoor Ambient
F.
Basic Unit W/o Auxiliary Heat
Unit Capacity with KW of Aux. Heat
Capacity* COP 4.8 9.6 14.4 19.2 Capacity* COP 10 15 20 65 57.19 4.25 73.58 89.96 106.34 122.72 65 69.70 4.49 103.82 120.88 137.94 60 54.15 4.10 70.53 86.91 103.29 119.67 60 66.00 4.34 100.12 117.18 134.24 55 50.96 3.94 67.34 83.72 100.11 116.49 55 62.10 4.16 96.22 113.28 130.34 50 47.64 3.76 64.02 80.40 96.78 113.17 50 58.00 3.97 92.22 109.28 126.34 45 44.09 3.56 60.47 76.85 93.24 109.62 45 53.70 3.75 87.82 104.88 121.94 40 40.95 3.37 57.33 73.71 90.10 106.48 40 49.90 3.56 84.02 101.08 118.14 35 37.77 3.18 54.15 70.53 86.91 103.29 35 46.00 3.35 80.12 97.18 114.24 30 33.64 2.93 50.02 66.41 82.79 99.17 30 38.20 2.84 71.82 88.88 105.94 25 31.05 2.77 47.43 63.81 80.20 96.58 25 35.30 2.68 68.92 85.98 103.04 20 28.59 2.61 44.98 61.36 77.74 94.12 20 32.50 2.52 66.22 83.28 100.34 15 26.00 2.43 42.38 58.77 75.15 91.53 15 29.50 2.35 63.32 80.38 97.44 10 23.33 2.24 39.71 56.09 72.48 88.86 10 26.50 2.16 60.32 77.38 94.44 5 20.68 2.03 37.06 53.45 69.83 86.21 5 23.50 1.96 57.32 74.38 91.44 0 18.04 1.82 34.42 50.80 67.18 83.57 0 20.50 1.75 54.32 71.38 88.44 -5 15.39 1.60 31.77 48.15 64.54 80.92 -5 17.50 1.53 51.42 68.48 85.54
-10 12.61 1.34 28.99 45.37 61.76 78.14 -10 14.30 1.29 48.22 65.28 82.34
24 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 25
Model and Heat Kit Usage
Circuit #1 Circuit #2 Actual kW / BTU@ 240VMCA MOD MCA MOD
GPH1624M41** 4.3 / 4.3 -- -- -- --
HKP-05C* 24 / 27 30 / 30 -- -- 4.75 / 16,200
HKR-08*, HKR-08C* 34 / 39 40 / 40 -- -- 7.0 / 23,800
HKP-10C* 45 / 52 60 / 60 -- -- 9.5 / 32,400
GPH1630M41** 4.3 / 4.3 -- -- -- --
HKP-05C* 24 / 27 30 / 30 -- -- 4.75 / 16,200
HKR-08*, HKR-08C* 34 / 39 40 / 40 -- -- 7.0 / 23,800
HKP-10C* 45 / 52 60 / 60 -- -- 9.5 / 32,400
HKP-15C* 45 / 52 60 / 60 22 / 25 30 / 30 14.25 / 48,600
GPH1636M41** 4.3 / 4.3 -- -- -- --
HKP-05C* 24 / 27 30 / 30 -- -- 4.75 / 16,200
HKR-08*, HKR-08C* 34 / 39 40 / 40 -- -- 7.0 / 23,800
HKP-10C* 45 / 52 60 / 60 -- -- 9.5 / 32,400
HKP-15C* 45 / 52 60 / 60 22 / 25 30 / 30 14.25 / 48,600
GPH1642M41** 5.8/5.8 -- -- -- --
HKP-05C* 24 / 27 30 / 30 -- -- 4.75 / 16,200
HKR-08*, HKR-08C* 34 / 39 40 / 40 -- -- 7.0 / 23,800
HKP-10C* 45 / 52 60 / 60 -- -- 9.5 / 32,400
HKP-15C* 45 / 52 60 / 60 22 / 25 30 / 30 14.25 / 48,600
GPH1648M41* * 5.8/5.8 -- -- -- --
HKP-05C* 25 / 28 30 / 30 ---- ---- 4.75 / 16,200
HKR-08*, HKR-08C* 34 / 40 40 / 40 ---- ---- 7.00 / 23,800
HKP-10C* 46 / 53 60 / 60 ---- ---- 9.50 / 32,400
HKP-15C* 46 / 52 60 / 60 22 / 25 30 / 30 14.25 / 48,600
HKP-20C* 46 / 52 60 / 60 43 / 49 60 / 60 19.50 / 66,500
Minimum Circuit Ampacity @ 240 V Maximum Overcurrent Protection device @ 240 V * Revision level that may or may not be designated C Circuit Breaker option
Heat Kit Electrical Data (Blower Only, Heat Mode)
kW Correction Factors kW Correction Factor for 1- & 3-Phase Units
Supply Voltage 240 230 220 210 208 Correction Factor 1 0.93 0.82 0.78 0.76
Multiply rated kW by correction factor to get actual kW
Model and Heat Kit Usage
MCA @ 208 / 240V
MOP (amps) @ 208 / 240V
Actual kW & BTU @ 240V
Recommended Airflow Range
GPH1660M41* * --- ---
EHK1-10 53 / 62 60 / 70 10 / 34,000 1750-2250 CFM
EHK1-15 76 / 88 80 / 90 15 / 51,000 1750-2250 CFM
EHK1-20 99 / 114 100 / 120 20 / 68,200 1850-2250 CFM
Minimum Circuit Ampacity Maximum Overcurrent Protection Device
Minimum Airflow for Electric Heat
Heater Size Minimum CFM
10 kW 1,250
15 kW 1,400
20 kW 1,850
Model and Heat Kit Usage
MCA @ 208 / 240V
MOP (amps) @ 208 / 240V
Actual kW & BTU @ 240V
Recommended Airflow Range
GPH1660M41B* --- ---
EHXD-1S05 66.6/70.1 70/80 5 / 17,000 1500-2500 CFM
EHXD-1S10 89.2/96.1 90/100 10 / 34,000 1500-2500 CFM
EHXD-1S15 112/122 125/125 15 / 51,000 1500-2500 CFM
EHXD-1S20 134/148 150/150 20 / 68,200 1500-2500 CFM
Minimum Circuit Ampacity Maximum Overcurrent Protection Device
24 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 25
Dimensions GPH1624-48M41**
1-3/8
5147
6-1/2
4-1/8
H
W
W
H
3
2-1/8 A
2-1/2
4-3/4
18-7/8
5-1/2
CONDENSATE DRAIN CONNECTION 3/4" NPT FEMALE
CONTROL WIRE ENTRANCE
SUPPLY
RETURN
POWER WIRE ENTRANCE
B
Model
Unit Dimensions (Inches) Chassis
SizeHeight
W D A B
GPH1624M41** 47 51 32 34 1/2 Medium
GPH1630M41** 47 51 32 34 1/2 Medium
GPH1636M41** 47 51 32 34 1/2 Medium
GPH1642M41** 47 51 40 42 1/2 Large
GPH1648M41** 47 51 40 42 1/2 Large
GPH1660M41B* 73 3/8 47 5/8 39 43 1/2 X-Large
Model
Duct Openings
Supply Return
W H W H
GPH1624M41** 16 16 16 16
GPH1630M41** 16 16 16 16
GPH1636M41** 16 16 16 16
GPH1642M41** 16 18 16 18
GPH1648M41** 16 18 16 18
GPH1660M41B* 17 12 11 25
26 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 27
Dimensions GPH1660M41AA
M od
el A
Di m
en s
B Di
m en
s C
Di m
en s
G PH
16 60
M 41
** 42
.8 40
20 .5
55 30
.0 55
11 .2
65
33 .8
05
73 .9
45 48
.1 96
6. 19
6 10
.0 60
12 .0
00
7. 16
5 17
.0 00
31 .5
40 11
.0 00
20 .8
53
4. 47
5
A LL
D IM
E N
S IO
N S
G IV
E N
A R
E IN
IN C
H E
S A
LL D
IM E
N S
IO N
S A
N D
S P
E C
IF IC
A TI
O N
S A
R E
S U
B JE
C T
TO C
H A
N G
E W
IT H
O U
T N
O TI
C E
G A
S L
IN E
E N
TR A
N C
E
C O
M B
U S
TI O
N A
IR IN
LE T
(G A
S U
N IT
S )
FL U
E /V
E N
T O
U TL
E T
FR O
N T
V IE
W
TO P
V IE
W
FO R
K H
O LE
S B
O TH
S ID
E S
A
N D
B O
TH E
N D
S
C O
N D
E N
S A
TE D
R A
IN O
U TL
E T
LI FT
IN G
S H
A C
K LE
H
O LE
S B
O TH
S ID
E S
A
N D
E N
D S
S U
P P
LY A
IR D
U C
T
R E
TU R
N A
IR D
U C
T
R IG
H T
E N
D V
IE W
7. 98
4
"C "
"B "
10 .3
725. 87
2
8. 55
5
"A "
LI N
E W
IR E
E
N TR
A N
C E
TS TA
T W
IR E
E
N TR
A N
C E
LE FT
E N
D V
IE W
26 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 27
Dimensions GPH1660M41BA
28 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 29
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 located 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 damage 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 mounted 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. To assist in determining rigging requirements, unit weights are shown on the following page. 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 before 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
14 x 20 Supply Opening
31 x 14 Return Opening
70 40
14
15/6
14
1
Insulated Panels
R/A
S/A 20
14.625
40.25
70.75
37
67.5
1.625
3
3
14
14
31.625
20
32.875 3
16.000
O 1.750
15.250
TYP.
O.D.
I.D. O.D.
I.D.
Top View
Roof Curb Installation Rigging
28 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 29
A
B
C
D
CG SUPPLY
RETURN
EVAPORATOR COIL CONDENSER
COIL
COMPRESSOR
Y
X
Compressor
Return
Evaporator Coil
Supply
Condenser Coil
Model X (In) Y (In) Shipping Weight
(Lbs)
Operating Weight
(Lbs)
Corner Weights (Lbs.)
A B C D
GPH1660M41** 40.0 25.1 612 583 204 113 72 194
Corner & Center-of-Gravity Locations
Roof Curb Installation Rigging
Unit Clearances
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 obstruction. Install the unit away from all building exhausts to inhibit ingestion of exhaust air into the units fresh-air intake.
30 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 31
2
3
SEE NOTE 2
SEE NOTE 3
EM
TR
208-230
208-230/1/60 SUPPLY VOLTAGE
C COMPC
S.A
S
T1 R
L1
DF1C H
F RCCF
CM
HVDR
T2 C
DF2
L2
1
L
3 1 2
R W2 O W1 Y1 G C
EM1 C
CSR
SEE NOTE 6
THERMOSTAT
N
G
2 3
CHSCH
Y2
C
SOL
HP S
24V
DC
DFT
Y
CR RVC
LPS
CNTR-PS1 PS2
R
WO
R-DFTO-RV C-RV DFT
2 POLE ONLY SEE NOTE 7
SEE NOTE 4
4 5 6
PLF
SEE NOTE 2
3
CONTROL BOX
240 2
24V
208 TR
C 1
PU
WH
BR
BL
R O
Y2
W2
W1 C Y1
T2
T1 L1
GND
C
L2
BK RD
RD
BK
BK
LVJB
RCCFRDSA
H C F
PU
YL
BK
BK RVC
BKCOMP
S C R
CM
BR PU BK
YL
LPS
DFT
RD
YL
BK
YL
BL
HPS BR
PU
BL
G
YLBL
SOLYL BL
CSR
2 LVTB
OR
WH
WHBL
PK
3
4
1
YL YL
YL
YL
BKGR
BKPU
10
11
12
7
8
9
4
5
6 3
2
1
BR
GR
GR
1 2 3
654
987
121110
PU
PU
BR
BR
YL
PLM-P
GR
PU
BK
1 2 3
654
987
121110
BR
BRBR
YL
YL
BK
BK
PU
PU
PU
BK
PU
RD
RD
RD
BR
YL
BL
PU
BL
BL
RD
BL
BL
BL
BL
WH
WHWH
PLF-C
PU
PU
PK BL BK
YL
PS2
CCR C
Y
Y
R- PS
1
R- DF
T
DF T
0
CNTCCR
HVDR
LVDR
W
C-RV
0-RV
0
DF 2
DF 1
R
DC
PU
BK
OR
RD
SEE NOTE 1
YL
SEE NOTE 7
SEE NOTE 3
41
PLF-H
5
6
2
3
7
8
9
BL
BR
WH
GR
BK
PU
YL
BL
WH
C L G N 1 2 3
EM
4 5
GR
10
11
12
7
8
9
4
5
6 3
2
1
PLM-BSEE NOTE 2 BL
GR YL
WH
NOTES:
1. REPLACEMENT WIRE MUST BE SAME SIZE AND TYPE INSULATION AS ORIGINAL (AT LEAST 105C) USE COPPER CONDUCTOR ONLY. 2. TO CHANGE EVAPORATOR MOTOR SPEED MOVE YELLOW AND WHITE LEADS FROM EM"2" AND "3" TO "4" AND "5". IF BOTH LEADS ARE ENERGIZED, THE HIGHER SPEED SETTING IS USED. 3 FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRE FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER. 4. START ASSIST FACTORY EQUIPPED WHEN REQUIRED 5. USE COPPER CONDUCTORS ONLY USE N.E.C. CLASS 2 WIRE 6. CRANKCASE HEATER AND CRANKCASE HEATER SWITCH FACTORY EQUIPPED WHEN REQUIRED. 7. DOUBLE POLE CONTACTOR SHOWN. SINGLE POLE CONTACTOR COULD BE FACTORY EQUIPPED AS AN ALTERNATE CONFIGURATION.
SEE UNIT RATING PLATE FOR TYPE AND SIZE OF OVER CURRENT PROTECTION
FACTORY WIRING
LINE VOLTAGE LOW VOLTAGE OPTIONAL HIGH VOLTAGE
FIELD WIRING
HIGH VOLTAGE LOW VOLTAGE
208/230/1/60
THERMOSTAT SEE NOTE 5
SEE NOTE 4
CH
RD
CHS
GR BK PU
RD
BK
PLF-P
BK
SEE NOTE 6
BK BL BR GR OR PU RD WH YL
BLACK BLUE BROWN GREEN ORANGE PURPLE RED WHITE YELLOW
WIRE CODE
CONTACTOR COMPRESSOR CONTACTOR RELAY CRANKCASE HEATER CRANKCASE HEATER SWITCH CONDENSER MOTOR COMPRESSOR COMPRESSOR SOLENOID RELAY DEFROST CONTROL DEFROST THERMOSTAT EVAPORATOR MOTOR EQUIPMENT GROUND HIGH PRESSURE SWITCH HIGH VOLTAGE DEFROST RELAY LOW PRESSURE SWITCH LOW VOLTAGE DEFROST RELAY LOW VOLTAGE JUNCTION BOX LOW VOLTAGE TERMINAL BLOCK FEMALE PLUG/CONNECTOR - CONTROL FEMALE PLUG/CONNECTOR - HEAT KIT FEMALE PLUG/CONNECTOR - PESSURE SWITCH MALE PLUG/CONNECTOR - BLOWER MALE PLUG/CONNECTOR - PRESSURE SWITCH REVERSING VALVE COIL RUN CAPACITOR FOR COMPRESSOR AND FAN START ASSIST TRANSFORMER
C CCR CH CHS CM COMP CSR DC DFT EM GND HPS HVDR LPS LVDR LVJB LVTB PLF-C PLF-H PLF-P PLM-B PLM-P RVC RCCF SA TR
COMPONENT LEGEND
208-230/1/60 0140G03223-D SEE NOTE 5
SEE NOTE 1
YL
Wiring is subject to change. Always refer to the wiring diagram or the unit for the most up-to-date wiring.
Warning High Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death.
Wiring Diagram GPH1624-48M41**
30 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com 31
Wiring Diagram GPH1660M41B*
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ng is
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to c
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p- to
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e w
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.
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sc on
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so
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pr es
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re to
d o
so m
ay c
au se
p ro
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er so
na l i
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y, or
d ea
th .
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B LO
W E
R C
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T A
C T
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B M
B LO
W E
R M
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B R
B LO
W E
R R
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B C
IR C
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B R
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C C
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P R
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S O
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T A
C T
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C C
H C
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C A
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AT E
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C P
C O
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/C O
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C M
C O
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M O
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C C
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1
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5
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32 www.goodmanmfg.com SS-GPH16M SS-GPH16M www.goodmanmfg.com PB
Goodman Manufacturing Company, L.P., reserves the right to discontinue, or change at any time, specifications or designs without notice or without incurring obligations. 2020 Goodman Manufacturing Company, L.P. Houston, Texas Printed in the USA.
Accessories
For the GPH1624-48M41** Units
Accessory Description
Item Number
Medium Chassis Large Chassis
Concentric Kit CDK36 CDK4872 Downflow Economizer GPJMED102 GPJMED103 Downflow Internal Filter Rack DDNIFRPCHMM DDNIFRPCHML Downflow Manual Damper PGMDD101/102 PGMDD103 Downflow Motorized Damper PGMDMD101/102 PGMDMD103 Downflow Square to Round SQRPG101/102 SQRPG103 Economizer Wiring Harness 0259L00411 0259L00411 External Horizontal Filter Rack DPHFRA DPHFRA Horizontal Duct Cover 20464501PDGK 20464502PDGK Horizontal Economizer DHZECNJPGCHM DHZECNJPGCHL Horizontal Manual Damper PGMDH102 PGMDH103 Horizontal Motorized Damper PGMDMH102 PGMDMH103 Horizontal Square to Round SQRPGH101/102 SQRPGH103 Inline Fuse Kit INFKPKG01 INFKPKG01 Outdoor Thermostat & Emergency Heat Relay Kit OT/EHR18-60 OT/EHR18-60 Outdoor Thermostat Kit w/ Lockout Stat OT18-60A OT18-60A Outdoor Thermostat Kit (Used only with GPH1624M41 and GPH1630M41 models) OTHPPKG-01 N/A Roof Curb D14CRBPGCHMA D14CRBPGCHMA Adjustable Roof Curb 2612ADJCURBGPM 2612ADJCURBGPM
Single-Point Kit Accessory Kits Select the single-point kit accessory based on the unit model.
Model Single-Point Kit GPH1624M41** SPK-30 GPH1630M41** SPK-35 GPH1636M41** SPK-40 GPH1642M41** SPK-45 GPH1648M41** SPK-50 GPH1660M41** SPKT01/02
For the GPH1660M41AA Units Daikin Master
Item # Description
14CURB3672 14" Roof Curb D25FD3672 25% Manual Fresh Air Damper D25MFD3672 25% Motorized Fresh Air Damper CDK4872 Concentric Duct Kit DDNECNJ3672B Low-leak Downflow Economizer DDNECNJ3672NR Downflow Economizer w/o Barometric Relief DDNSQRD487218 Downflow Square-to-Round Adapter (18" Round) DHZECNJ3672 Horizontal Economizer DBRD3672 Barometric Relief Damper EHK1-(10, 15, 20) Electric Heat Kits FSK01A Freeze Stat Kit GHRC-1 Hurricane Restraint Clips LAKT01 Low-Ambient Kit
For the GPH1660M41BA Units Daikin Master
Item # Description
0221L00014 14" Roof Curb 0270L01166 25% Manual Fresh Air Damper 0270L01165 25% Motorized Fresh Air Damper 0270L01338 Concentric Duct Adapter Kit 18" 0270L01753 Downflow Low-Leak Economizer Enthalpy 0270L01755 Downflow Ultra Low-Leak Economizer Enthalpy 0270L01757 Horizontal Ultra Low-Leak Economizer Enthalpy EHXD-1S (05, 10, 15, 20) Electric Heat Kits 0270L01250 Hurricane Restraint Clips (for 0221L00014 Roof Curb) 0270L01261 Hurricane Restraint Clips
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