Goodman GPG16M User's Manual PDF

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Summary of Content for Goodman GPG16M User's Manual PDF

SS-GPG16M www.goodmanmfg.com 10/20 Supersedes 9/20

High-Efficiency Packaged Gas / Electric

2 to 5 Tons Up to 16 SEER / 81% AFUE

Contents Nomenclature ........................................ 2 Product Specifications ........................... 3 Expanded Cooling Data ......................... 4 Airflow Data ......................................... 16 Dimensions .......................................... 21 Wiring Diagram ................................... 26 Accessories .......................................... 28

Cooling Capacity: 22,800 58,500 BTU/h Heating Capacity: 60,000 140,000 BTU/h

GPG16M

5 Tons

Standard Features Durable, corrosion-resistant T-140

aluminized steel tubular heat exchanger High-efficiency two-stage scroll compressor Convertible airflow:

horizontal or downflow application Multi-speed ECM indoor blower motor Copper tube/aluminum fin condenser coil All-aluminum evaporator coil on 2- to 4-ton units Aluminum-copper evaporator coil on 5-ton units Power-assisted combustion Loss-of-charge protection & high-pressure switch AHRI Certified; ETL Listed Two-stage gas valve; natural gas with easy

conversion to propane with accessory kit Direct spark ignition system includes a microproces-

sor-based control for the entire ignition sequence All blower operation and all safety

circuits complete with self-diagnostics All models comply with California

Low NOx emission standards For installation in Californias South Coast Air

Quality Management District (SCAQMD) only: This furnace does not meet the SCAQMD Rule 1111 14 ng/J NOx emission limit, and thus is subject to a mitigation fee of up to $450. This furnace is not eligible for the SCAQMD Clean Air Furnace Rebate Program: www.CleanAirFurnaceRebate.com.

Cabinet Features Fully insulated heavy-gauge, zinc-coated steel

cabinet with UV-resistant powder-paint finish Aluminum foil-facing internal insulation

reinforced with fiberglass scrim Convenient access panels One roof curb fits 2-4 ton units Bottom, 2 high base rails for easier handling 2-4 ton models fit a standard-size pick-up truck When properly anchored, meets the 2010 Florida

Building Code unit integrity requirements for hurricane-type winds (Anchor bracket kits available.)

Meets cabinet air leakage requirements when tested in accordance with ASHRAE standard 193

2 - 4 Tons

* Complete warranty details available from your local dealer or at www.goodmanmfg.com. To receive the 2-Year Unit Replacement Limited Warranty, 20-Year Heat Exchanger Limited Warranty (good for as long as you own your home), 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-GPG16M SS-GPG16M www.goodmanmfg.com 3

Nomenclature

G P G 16 36 080 M 4 1 **

1 2 3 4,5 6,7 8,9,10 11 12 13 14,15

Brand Engineering

G Goodman brand Major/ Minor Revisions

Product Category Electrical

P Packaged Unit 1 208-230/1/60

Unit Type Refrigerant

G Gas/Electric 4 R-410A

D Dual-Fuel

Airflow

Efficiency M Multi-Position

14 14 SEER

16 16 SEER Heat Input

60 60 MBTU/h 100 100 MBTU/h

Nominal Capacity 80 80 MBTU/h 140 138 MBTU/h

24 2 Tons 36 3 Tons 42 3 Tons

30 2 tons 37 3 Tons 48 4 Tons

60 5 Tons

2 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 3

Product Specifications

GPG1624 060M41AA

GPG1630 080M41AA

GPG1636 080M41AA

GPG1642 100M41AA

GPG1648 100M41AA

GPG1660 140M41AA

GPG1660 140M41B*

Cooling Capacity

Total BTU/h 22,800 28,600 34,200 40,000 45,500 58,500 58,000

Sensible BTU/h 18,200 21,800 27,400 29,600 32,800 43,500 43,500

SEER / EER 16.0 / 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 78 78 78 78

AHRI Reference #s 8082387 8082383 8082384 8082385 8082386 9134477 205726749

Heating Capacity (BTU/h)

High-Fire Input / Output 60,000/47,000 80,000/62,000 80,000/62,000 100,000/78,000 100,000/78,000 138,000/112,000 138,000/112,000

Low-Fire Input / Output 45,000/35,000 60,000/47,000 60,000/47,000 75,000/58,000 75,000/58,000 103,000/84,000 105,000/85,000

AFUE 81 81 81 81 81 81 81

Temperature Rise Range 35 - 65 35 - 65 35 - 65 35 - 65 35 - 65 55-105 35 - 65

No. of Burners 3 4 4 5 5 6 6

Orifice Size (Natural/Propane) 45 / 1.25MM 45 / 1.25MM 45 / 1.25MM 45 / 1.25MM 45 / 1.25MM 53 / 1.51MM 43 / 1.32MM

Evaporator Motor

Type ECM ECM ECM ECM ECM ECM ECM

Wheel (D x W) 10 x 8 10 x 9 11 x 10 11 x 10 11 x 10 11 x 10 12 x 11

Indoor Nominal CFM 800 950 1,200 1,250 1,300 2,000 2,000

Motor Speed Tap (Cooling) T3 L / T4 H T3 L / T4 H T3 L / T4 H T3 L / T4 H T3 L / T4 H T3 L / T1 H T3 L / T1 H

RPM/Amps (Cooling) 1050 / 3.8 1050 / 3.8 1050 / 3.8 1050 / 5.4 1050 / 5.4 1050 / 6.9 1200 / 6.9

Horsepower 1/2 1/2 1/2 3/4 3/4 1 1

Evaporator Coil

Face Area (ft) 4.3 4.3 5.7 5.7 5.7 8.9 8.9

Rows Deep/Fins per Inch 3 / 14 3 / 14 4 / 14 4 / 14 4 / 14 4 / 16 4 / 16

Piston Size (Cooling) TXV TXV TXV TXV TXV TXV TXV

Filter Size (ft) 3.5 4.3 4.3 5.6 5.6 8.9 9.2

Drain Size (NPT)

Refrigerant Charge (oz.) 70 70 158 143 100 154 154

Condenser Fan / Coil

Horsepower - RPM 1/6 - 815 1/4 - 830 1/4 - 830 1/4 - 1,075 1/4 - 1,075 1/3 - 1,095 1/3 - 1,095

Diameter / # of Blades 22 / 3 22 / 3 22 / 3 22 / 3 22 / 3 22 / 4 22 / 3

Outdoor Nominal CFM 2,200 2,200 2,600 3,200 3,100 3,800 3,800

Face Area (ft) 12.3 8.7 14.9 14.9 14.4 19 19

Rows Deep/Fins per Inch 1 / 24 2 / 27 2 / 16 2 / 16 2 / 27 2 / 27 2 / 28

Compressor

Quantity / Type / Stage 1 / Scroll / 2 1 / Scroll / 2 1 / Scroll / 2 1 / Scroll / 2 1 / Scroll / 2 1 / Scroll / 2 1 / Scroll / 2

Compressor RLA/LRA 11.7 / 58.3 13.1 / 73.0 15.6 / 83.0 17.9 / 96.0 21.2 / 104.0 26.9 / 152.9 26.9 / 139.9

Electrical Data

Voltage-Phase (Frequency 60Hz) 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1

Indoor Blower FLA/LRA 3.8 3.8 3.8 5.4 5.4 6.9 6.9

Outdoor Fan FLA/LRA 1.1 / 1.7 1.5 / 3.0 1.3 / 3.0 1.4 / 2.9 1.4 / 2.9 2/4.4 2/4.4

Total Unit Amps 16.6 18.4 20.7 24.7 28.0 35.8 35.8

Min. Circuit Ampacity 19.5 21.7 24.6 29.2 33.3 42.5 43.4

Max. Overcurrent Protection 30 amps 30 amps 40 amps 45 amps 50 amps 60 amps 70 amps

Entrance Size Power Supply 1 1 1 1 1 1 1

Entrance Size Control Voltage

Operating / Ship Weights (lbs) 370 / 380 397 / 407 470 / 480 495 / 505 490 / 500 630 / 660 655 / 713

Energy Star Certified NO NO NO

Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. Must use time-delay fuses or HACR-type circuit breakers of the same size as noted. Note: Always check the S&R plate for electrical data on the unit being installed.

4 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 5

Expanded Cooling Data GPG1624***M41** 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

91 0

M Bh

23 .3

24 .1

26 .4

- 22

.7 23

.5 25

.8 -

22 .2

23 .0

25 .2

- 21

.6 22

.4 24

.6 -

20 .5

21 .3

23 .3

- 19

.0 19

.7 21

.6 -

S/ T

0. 80

0. 67

0. 46

- 0.

83 0.

69 0.

48 -

0. 85

0. 71

0. 49

- 0.

88 0.

73 0.

51 -

0. 91

0. 76

0. 53

- 0.

92 0.

77 0.

53 -

T

19 16

12 -

19 16

13 -

19 16

13 -

19 17

13 -

19 16

12 -

18 15

12 -

kW 1.

56 1.

59 1.

64 -

1. 68

1. 72

1. 78

- 1.

79 1.

83 1.

89 -

1. 89

1. 93

2. 00

- 1.

97 2.

02 2.

09 -

2. 04

2. 09

2. 16

- Am

ps 6.

9 7.

0 7.

2 -

7. 4

7. 5

7. 7

- 7.

9 8.

1 8.

3 -

8. 4

8. 6

8. 9

- 8.

9 9.

1 9.

4 -

9. 4

9. 6

9. 9

- H

I P R

23 7

25 5

26 9

- 26

6 28

6 30

2 -

30 2

32 5

34 4

- 34

4 37

1 39

1 -

38 8

41 7

44 0

- 42

8 46

1 48

7 -

LO P

R 11

2 11

9 13

0 -

11 8

12 6

13 7

- 12

3 13

1 14

3 -

12 9

13 7

15 0

- 13

5 14

4 15

7 -

14 0

14 9

16 2

-

81 1

M Bh

22 .6

23 .4

25 .6

- 22

.0 22

.9 25

.0 -

21 .5

22 .3

24 .4

- 21

.0 21

.8 23

.8 -

19 .9

20 .7

22 .7

- 18

.5 19

.2 21

.0 -

S/ T

0. 76

0. 64

0. 44

- 0.

79 0.

66 0.

46 -

0. 81

0. 68

0. 47

- 0.

84 0.

70 0.

48 -

0. 87

0. 73

0. 50

- 0.

88 0.

73 0.

51 -

T

20 17

13 -

20 17

13 -

20 17

13 -

20 17

13 -

20 17

13 -

18 16

12 -

kW 1.

54 1.

58 1.

63 -

1. 67

1. 71

1. 76

- 1.

78 1.

82 1.

88 -

1. 87

1. 92

1. 98

- 1.

95 2.

00 2.

07 -

2. 03

2. 07

2. 14

- Am

ps 6.

8 7.

0 7.

2 -

7. 3

7. 5

7. 7

- 7.

9 8.

0 8.

3 -

8. 3

8. 5

8. 8

- 8.

8 9.

0 9.

3 -

9. 3

9. 5

9. 8

- H

I P R

23 5

25 3

26 7

- 26

3 28

3 29

9 -

29 9

32 2

34 0

- 34

1 36

7 38

8 -

38 4

41 3

43 6

- 42

4 45

6 48

2 -

LO P

R 11

1 11

8 12

9 -

11 7

12 4

13 6

- 12

2 12

9 14

1 -

12 8

13 6

14 8

- 13

4 14

2 15

5 -

13 8

14 7

16 1

-

71 1

M Bh

20 .8

21 .6

23 .7

- 20

.4 21

.1 23

.1 -

19 .9

20 .6

22 .6

- 19

.4 20

.1 22

.0 -

18 .4

19 .1

20 .9

- 17

.1 17

.7 19

.4 -

S/ T

0. 74

0. 62

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. 49

- 0.

85 0.

71 0.

49 -

T

20 17

13 -

20 17

13 -

20 17

13 -

20 18

13 -

20 17

13 -

19 16

12 -

kW 1.

51 1.

54 1.

59 -

1. 63

1. 66

1. 72

- 1.

73 1.

77 1.

83 -

1. 82

1. 87

1. 93

- 1.

90 1.

95 2.

01 -

1. 97

2. 02

2. 09

- Am

ps 6.

6 6.

8 7.

0 -

7. 1

7. 3

7. 5

- 7.

7 7.

8 8.

1 -

8. 1

8. 3

8. 6

- 8.

6 8.

8 9.

1 -

9. 1

9. 3

9. 6

- 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 1

42 3

- 41

1 44

3 46

7 -

LO P

R 10

7 11

4 12

5 -

11 3

12 1

13 2

- 11

8 12

5 13

7 -

12 4

13 2

14 4

- 13

0 13

8 15

1 -

13 4

14 3

15 6

-

75

91 0

M Bh

23 .6

24 .3

26 .4

28 .3

23 .1

23 .8

25 .7

27 .6

22 .5

23 .2

25 .1

27 .0

22 .0

22 .6

24 .5

26 .3

20 .9

21 .5

23 .3

25 .0

19 .4

19 .9

21 .6

23 .2

S/ T

0. 91

0. 81

0. 62

0. 40

0. 94

0. 84

0. 64

0. 41

0. 97

0. 87

0. 65

0. 42

1. 00

0. 89

0. 68

0. 43

1. 00

0. 93

0. 70

0. 45

1. 00

0. 93

0. 71

0. 46

T

22 20

16 11

22 20

17 11

22 20

17 11

22 20

17 12

21 20

17 11

20 19

15 11

kW 1.

57 1.

61 1.

66 1.

71 1.

70 1.

73 1.

79 1.

85 1.

81 1.

85 1.

91 1.

98 1.

91 1.

95 2.

02 2.

09 1.

99 2.

03 2.

10 2.

18 2.

06 2.

11 2.

18 2.

26 Am

ps 6.

9 7.

1 7.

3 7.

5 7.

4 7.

6 7.

8 8.

1 8.

0 8.

2 8.

4 8.

7 8.

5 8.

7 8.

9 9.

2 9.

0 9.

2 9.

5 9.

8 9.

5 9.

7 10

.0 10

.3 H

I P R

23 9

25 8

27 2

28 4

26 9

28 9

30 5

31 8

30 6

32 9

34 7

36 2

34 8

37 5

39 5

41 2

39 2

42 1

44 5

46 4

43 3

46 6

49 2

51 3

LO P

R 11

3 12

0 13

1 14

0 11

9 12

7 13

9 14

8 12

4 13

2 14

4 15

3 13

0 13

9 15

1 16

1 13

7 14

5 15

9 16

9 14

1 15

0 16

4 17

5

81 1

M Bh

23 .0

23 .6

25 .6

27 .5

22 .4

23 .1

25 .0

26 .8

21 .9

22 .5

24 .4

26 .2

21 .4

22 .0

23 .8

25 .5

20 .3

20 .9

22 .6

24 .3

18 .8

19 .3

20 .9

22 .5

S/ T

0. 87

0. 78

0. 59

0. 38

0. 90

0. 80

0. 61

0. 39

0. 92

0. 83

0. 62

0. 40

0. 95

0. 85

0. 64

0. 41

0. 99

0. 88

0. 67

0. 43

1. 00

0. 89

0. 67

0. 43

T

23 21

17 12

23 21

17 12

23 21

17 12

23 21

17 12

23 21

17 12

21 20

16 11

kW 1.

56 1.

59 1.

64 1.

70 1.

68 1.

72 1.

78 1.

84 1.

79 1.

83 1.

89 1.

96 1.

89 1.

93 2.

00 2.

07 1.

97 2.

02 2.

09 2.

16 2.

04 2.

09 2.

16 2.

24 Am

ps 6.

9 7.

0 7.

2 7.

5 7.

4 7.

5 7.

7 8.

0 7.

9 8.

1 8.

3 8.

6 8.

4 8.

6 8.

9 9.

2 8.

9 9.

1 9.

4 9.

7 9.

4 9.

6 9.

9 10

.2 H

I P R

23 7

25 5

26 9

28 1

26 6

28 6

30 2

31 5

30 3

32 6

34 4

35 9

34 5

37 1

39 2

40 8

38 8

41 7

44 0

45 9

42 8

46 1

48 7

50 8

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

71 1

M Bh

21 .2

21 .8

23 .6

25 .3

20 .7

21 .3

23 .1

24 .8

20 .2

20 .8

22 .5

24 .2

19 .7

20 .3

22 .0

23 .6

18 .7

19 .3

20 .9

22 .4

17 .3

17 .9

19 .3

20 .7

S/ T

0. 84

0. 75

0. 57

0. 36

0. 87

0. 78

0. 59

0. 38

0. 89

0. 80

0. 60

0. 39

0. 92

0. 82

0. 62

0. 40

0. 95

0. 85

0. 65

0. 42

0. 96

0. 86

0. 65

0. 42

T

23 21

17 12

23 21

18 12

23 21

18 12

23 22

18 12

23 21

17 12

22 20

16 11

kW 1.

52 1.

55 1.

60 1.

66 1.

64 1.

68 1.

73 1.

79 1.

75 1.

79 1.

85 1.

91 1.

84 1.

88 1.

95 2.

01 1.

92 1.

96 2.

03 2.

10 1.

99 2.

04 2.

11 2.

18 Am

ps 6.

7 6.

8 7.

0 7.

3 7.

2 7.

3 7.

5 7.

8 7.

7 7.

9 8.

1 8.

4 8.

2 8.

4 8.

6 8.

9 8.

7 8.

9 9.

1 9.

5 9.

1 9.

3 9.

6 10

.0 H

I P R

23 0

24 7

26 1

27 3

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 10

8 11

5 12

6 13

4 11

5 12

2 13

3 14

2 11

9 12

7 13

8 14

7 12

5 13

3 14

5 15

5 13

1 14

0 15

2 16

2 13

6 14

4 15

8 16

8 ID

B: E

nt er

in g

In do

or D

ry B

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Te m

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Sh ad

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re fle

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CC A

(T VA

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di tio

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= To

ta l s

ys te

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ow er

Hi gh

a nd

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p re

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ea su

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at th

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4 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 5

Expanded Cooling Data GPG1624***M41**

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

91 0

M Bh

24 .1

24 .6

26 .3

28 .1

23 .5

24 .0

25 .7

27 .4

22 .9

23 .4

25 .1

26 .8

22 .4

22 .9

24 .4

26 .1

21 .3

21 .7

23 .2

24 .8

19 .7

20 .1

21 .5

23 .0

S/ T

1. 00

0. 94

0. 76

0. 57

1. 00

0. 97

0. 79

0. 59

1. 00

1. 00

0. 81

0. 61

1. 00

1. 00

0. 84

0. 62

1. 00

1. 00

0. 87

0. 65

1. 00

1. 00

0. 87

0. 65

T

24 23

20 16

24 24

20 16

23 24

20 16

23 23

21 16

21 22

20 16

20 20

19 15

kW 1.

58 1.

62 1.

67 1.

73 1.

71 1.

75 1.

81 1.

87 1.

82 1.

86 1.

93 1.

99 1.

92 1.

97 2.

03 2.

10 2.

01 2.

05 2.

12 2.

20 2.

08 2.

13 2.

20 2.

28 Am

ps 7.

0 7.

1 7.

3 7.

6 7.

5 7.

6 7.

9 8.

1 8.

1 8.

2 8.

5 8.

8 8.

6 8.

7 9.

0 9.

3 9.

1 9.

3 9.

5 9.

9 9.

5 9.

8 10

.1 10

.4 H

I P R

24 2

26 0

27 5

28 7

27 1

29 2

30 8

32 2

30 9

33 2

35 1

36 6

35 2

37 8

39 9

41 7

39 5

42 6

44 9

46 9

43 7

47 0

49 7

51 8

LO P

R 11

4 12

1 13

3 14

1 12

1 12

8 14

0 14

9 12

5 13

3 14

6 15

5 13

2 14

0 15

3 16

3 13

8 14

7 16

0 17

1 14

3 15

2 16

6 17

6

81 1

M Bh

23 .4

23 .9

25 .5

27 .3

22 .8

23 .3

24 .9

26 .6

22 .3

22 .8

24 .3

26 .0

21 .7

22 .2

23 .7

25 .4

20 .6

21 .1

22 .5

24 .1

19 .1

19 .5

20 .9

22 .3

S/ T

0. 95

0. 89

0. 73

0. 54

0. 99

0. 93

0. 75

0. 56

1. 00

0. 95

0. 77

0. 58

1. 00

0. 98

0. 80

0. 60

1. 00

1. 00

0. 83

0. 62

1. 00

1. 00

0. 83

0. 62

T

25 24

21 17

26 24

21 17

25 25

21 17

25 25

21 17

23 24

21 17

22 22

20 16

kW 1.

57 1.

61 1.

66 1.

71 1.

70 1.

73 1.

79 1.

85 1.

81 1.

85 1.

91 1.

98 1.

91 1.

95 2.

02 2.

09 1.

99 2.

03 2.

10 2.

18 2.

06 2.

11 2.

18 2.

26 Am

ps 6.

9 7.

1 7.

3 7.

5 7.

4 7.

6 7.

8 8.

1 8.

0 8.

2 8.

4 8.

7 8.

5 8.

7 8.

9 9.

2 9.

0 9.

2 9.

5 9.

8 9.

5 9.

7 10

.0 10

.3 H

I P R

23 9

25 8

27 2

28 4

26 9

28 9

30 5

31 8

30 6

32 9

34 7

36 2

34 8

37 5

39 6

41 3

39 2

42 1

44 5

46 4

43 3

46 6

49 2

51 3

LO P

R 11

3 12

0 13

1 14

0 11

9 12

7 13

9 14

8 12

4 13

2 14

4 15

3 13

0 13

9 15

1 16

1 13

7 14

5 15

9 16

9 14

1 15

0 16

4 17

5

71 1

M Bh

21 .6

22 .0

23 .5

25 .2

21 .1

21 .5

23 .0

24 .6

20 .6

21 .0

22 .4

24 .0

20 .1

20 .5

21 .9

23 .4

19 .1

19 .5

20 .8

22 .2

17 .7

18 .0

19 .3

20 .6

S/ T

0. 92

0. 86

0. 70

0. 52

0. 95

0. 89

0. 73

0. 54

0. 98

0. 92

0. 74

0. 56

1. 01

0. 94

0. 77

0. 57

1. 05

0. 98

0. 80

0. 60

1. 05

0. 99

0. 80

0. 60

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 1.

53 1.

57 1.

62 1.

67 1.

65 1.

69 1.

75 1.

81 1.

76 1.

80 1.

86 1.

93 1.

86 1.

90 1.

96 2.

03 1.

94 1.

98 2.

05 2.

12 2.

01 2.

05 2.

12 2.

20 Am

ps 6.

8 6.

9 7.

1 7.

3 7.

2 7.

4 7.

6 7.

9 7.

8 8.

0 8.

2 8.

5 8.

3 8.

5 8.

7 9.

0 8.

7 8.

9 9.

2 9.

5 9.

2 9.

4 9.

7 10

.1 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 2

45 0

42 0

45 2

47 7

49 7

LO P

R 11

0 11

7 12

7 13

6 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

85

91 0

M Bh

24 .5

25 .0

26 .1

27 .9

23 .9

24 .4

25 .5

27 .2

23 .3

23 .8

24 .9

26 .6

22 .8

23 .2

24 .3

25 .9

21 .6

22 .1

23 .1

24 .6

20 .0

20 .4

21 .4

22 .8

S/ T

1. 00

1. 00

0. 91

0. 74

1. 00

1. 00

0. 94

0. 77

1. 00

1. 00

0. 97

0. 79

1. 00

1. 00

1. 00

0. 81

1. 00

1. 00

1. 00

0. 84

1. 00

1. 00

1. 00

0. 85

T

25 25

24 21

24 25

24 21

24 24

24 21

23 23

25 21

22 22

23 21

20 21

22 20

kW 1.

60 1.

63 1.

69 1.

74 1.

73 1.

76 1.

82 1.

88 1.

84 1.

88 1.

94 2.

01 1.

94 1.

98 2.

05 2.

12 2.

02 2.

07 2.

14 2.

22 2.

10 2.

15 2.

22 2.

30 Am

ps 7.

0 7.

2 7.

4 7.

6 7.

5 7.

7 7.

9 8.

2 8.

1 8.

3 8.

5 8.

8 8.

6 8.

8 9.

1 9.

4 9.

1 9.

3 9.

6 10

.0 9.

6 9.

8 10

.1 10

.5 H

I P R

24 4

26 3

27 8

29 0

27 4

29 5

31 1

32 5

31 2

33 5

35 4

36 9

35 5

38 2

40 3

42 1

39 9

43 0

45 4

47 3

44 1

47 5

50 1

52 3

LO P

R 11

5 12

3 13

4 14

3 12

2 13

0 14

1 15

1 12

7 13

5 14

7 15

7 13

3 14

1 15

4 16

4 13

9 14

8 16

2 17

2 14

4 15

3 16

7 17

8

81 1

M Bh

23 .8

24 .2

25 .4

27 .1

23 .2

23 .7

24 .8

26 .4

22 .7

23 .1

24 .2

25 .8

22 .1

22 .5

23 .6

25 .2

21 .0

21 .4

22 .4

23 .9

19 .5

19 .8

20 .8

22 .2

S/ T

1. 00

0. 96

0. 87

0. 71

1. 00

1. 00

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. 99

0. 80

1. 00

1. 00

1. 00

0. 81

T

27 26

25 22

26 27

25 22

26 26

25 22

25 26

26 22

24 24

25 22

22 23

24 20

kW 1.

58 1.

62 1.

67 1.

73 1.

71 1.

75 1.

81 1.

87 1.

82 1.

86 1.

93 1.

99 1.

92 1.

97 2.

03 2.

10 2.

01 2.

05 2.

12 2.

20 2.

08 2.

13 2.

20 2.

28 Am

ps 7.

0 7.

1 7.

3 7.

6 7.

5 7.

6 7.

9 8.

1 8.

1 8.

2 8.

5 8.

8 8.

6 8.

7 9.

0 9.

3 9.

1 9.

3 9.

5 9.

9 9.

5 9.

8 10

.1 10

.4 H

I P R

24 2

26 0

27 5

28 7

27 1

29 2

30 8

32 2

30 9

33 2

35 1

36 6

35 2

37 8

39 9

41 7

39 5

42 6

44 9

46 9

43 7

47 0

49 7

51 8

LO P

R 11

4 12

1 13

3 14

1 12

1 12

8 14

0 14

9 12

5 13

3 14

6 15

5 13

2 14

0 15

3 16

3 13

8 14

7 16

0 17

1 14

3 15

2 16

6 17

6

71 1

M Bh

21 .9

22 .4

23 .4

25 .0

21 .4

21 .8

22 .9

24 .4

20 .9

21 .3

22 .3

23 .8

20 .4

20 .8

21 .8

23 .2

19 .4

19 .8

20 .7

22 .1

18 .0

18 .3

19 .2

20 .5

S/ T

0. 96

0. 93

0. 84

0. 68

1. 00

0. 96

0. 87

0. 70

1. 00

0. 99

0. 89

0. 72

1. 00

1. 00

0. 92

0. 75

1. 00

1. 00

0. 95

0. 77

1. 00

1. 00

0. 96

0. 78

T

27 27

25 22

28 27

26 22

27 27

26 22

26 27

26 22

25 26

26 22

23 24

24 21

kW 1.

54 1.

58 1.

63 1.

68 1.

67 1.

70 1.

76 1.

82 1.

78 1.

82 1.

88 1.

94 1.

87 1.

92 1.

98 2.

05 1.

95 2.

00 2.

07 2.

14 2.

02 2.

07 2.

14 2.

22 Am

ps 6.

8 7.

0 7.

2 7.

4 7.

3 7.

4 7.

7 7.

9 7.

9 8.

0 8.

3 8.

5 8.

3 8.

5 8.

8 9.

1 8.

8 9.

0 9.

3 9.

6 9.

3 9.

5 9.

8 10

.1 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 4

41 3

43 6

45 5

42 4

45 6

48 2

50 2

LO P

R 11

1 11

8 12

9 13

7 11

7 12

4 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

5 16

5 13

8 14

7 16

1 17

1 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 A

HR I (

TV A)

c on

di tio

ns kW

= To

ta l s

ys te

m p

ow er

Hi gh

a nd

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 se

rv ic

e va

lv es

. Am

ps =

o ut

do or

u ni

t a m

ps (c

om p.

+f an

)

6 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 7

Expanded Cooling Data GPG1630***M41** 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

10 62

M Bh

29 .7

30 .7

33 .7

- 29

.0 30

.0 32

.9 -

28 .3

29 .3

32 .1

- 27

.6 28

.6 31

.3 -

26 .2

27 .2

29 .8

- 24

.3 25

.2 27

.6 -

S/ T

0. 77

0. 64

0. 44

- 0.

80 0.

66 0.

46 -

0. 82

0. 68

0. 47

- 0.

84 0.

70 0.

49 -

0. 87

0. 73

0. 51

- 0.

88 0.

74 0.

51 -

T

20 17

13 -

20 17

13 -

20 17

13 -

20 17

13 -

20 17

13 -

19 16

12 -

kW 1.

98 2.

02 2.

08 -

2. 13

2. 18

2. 25

- 2.

27 2.

32 2.

39 -

2. 39

2. 44

2. 52

- 2.

49 2.

55 2.

63 -

2. 58

2. 64

2. 73

- Am

ps 8.

5 8.

7 9.

0 -

9. 1

9. 3

9. 6

- 9.

8 10

.0 10

.3 -

10 .4

10 .7

11 .0

- 11

.0 11

.3 11

.6 -

11 .6

11 .9

12 .2

- H

I P R

23 8

25 7

27 1

- 26

8 28

8 30

4 -

30 4

32 7

34 6

- 34

7 37

3 39

4 -

39 0

42 0

44 3

- 43

1 46

4 49

0 -

LO P

R 10

8 11

4 12

5 -

11 4

12 1

13 2

- 11

8 12

6 13

7 -

12 4

13 2

14 4

- 13

0 13

8 15

1 -

13 4

14 3

15 6

-

94 6

M Bh

28 .8

29 .9

32 .7

- 28

.1 29

.2 31

.9 -

27 .5

28 .5

31 .2

- 26

.8 27

.8 30

.4 -

25 .5

26 .4

28 .9

- 23

.6 24

.4 26

.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. 70

0. 48

- 0.

84 0.

70 0.

49 -

T

20 18

13 -

21 18

14 -

21 18

14 -

21 18

14 -

21 18

14 -

19 17

13 -

kW 1.

96 2.

00 2.

07 -

2. 11

2. 16

2. 23

- 2.

25 2.

30 2.

37 -

2. 37

2. 42

2. 50

- 2.

47 2.

53 2.

61 -

2. 56

2. 62

2. 70

- Am

ps 8.

5 8.

7 8.

9 -

9. 1

9. 3

9. 5

- 9.

8 10

.0 10

.3 -

10 .3

10 .6

10 .9

- 10

.9 11

.2 11

.5 -

11 .5

11 .8

12 .1

- H

I P R

23 6

25 4

26 8

- 26

5 28

5 30

1 -

30 1

32 4

34 2

- 34

3 36

9 39

0 -

38 6

41 5

43 9

- 42

7 45

9 48

5 -

LO P

R 10

6 11

3 12

4 -

11 2

12 0

13 1

- 11

7 12

4 13

6 -

12 3

13 1

14 3

- 12

9 13

7 14

9 -

13 3

14 2

15 5

-

83 0

M Bh

26 .6

27 .6

30 .2

- 26

.0 26

.9 29

.5 -

25 .3

26 .3

28 .8

- 24

.7 25

.6 28

.1 -

23 .5

24 .3

26 .7

- 21

.8 22

.6 24

.7 -

S/ T

0. 71

0. 59

0. 41

- 0.

73 0.

61 0.

42 -

0. 75

0. 63

0. 43

- 0.

77 0.

65 0.

45 -

0. 80

0. 67

0. 46

- 0.

81 0.

68 0.

47 -

T

21 18

14 -

21 18

14 -

21 18

14 -

21 18

14 -

21 18

14 -

20 17

13 -

kW 1.

91 1.

95 2.

02 -

2. 06

2. 11

2. 17

- 2.

19 2.

24 2.

31 -

2. 31

2. 36

2. 44

- 2.

41 2.

46 2.

54 -

2. 49

2. 55

2. 63

- Am

ps 8.

3 8.

5 8.

7 -

8. 9

9. 0

9. 3

- 9.

5 9.

7 10

.0 -

10 .1

10 .3

10 .6

- 10

.7 10

.9 11

.2 -

11 .2

11 .5

11 .8

- H

I P R

22 9

24 6

26 0

- 25

7 27

7 29

2 -

29 2

31 4

33 2

- 33

3 35

8 37

8 -

37 4

40 3

42 6

- 41

4 44

5 47

0 -

LO P

R 10

3 11

0 12

0 -

10 9

11 6

12 7

- 11

3 12

1 13

2 -

11 9

12 7

13 8

- 12

5 13

3 14

5 -

12 9

13 7

15 0

-

75

10 62

M Bh

30 .2

31 .1

33 .6

36 .1

29 .5

30 .3

32 .8

35 .2

28 .8

29 .6

32 .1

34 .4

28 .1

28 .9

31 .3

33 .6

26 .7

27 .4

29 .7

31 .9

24 .7

25 .4

27 .5

29 .5

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

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 1.

99 2.

04 2.

10 2.

17 2.

15 2.

20 2.

27 2.

34 2.

29 2.

34 2.

42 2.

50 2.

41 2.

46 2.

55 2.

63 2.

51 2.

57 2.

66 2.

75 2.

60 2.

66 2.

75 2.

85 Am

ps 8.

6 8.

8 9.

0 9.

3 9.

2 9.

4 9.

7 10

.0 9.

9 10

.1 10

.4 10

.8 10

.5 10

.8 11

.1 11

.4 11

.1 11

.4 11

.7 12

.1 11

.7 12

.0 12

.3 12

.8 H

I P R

24 1

25 9

27 4

28 5

27 0

29 1

30 7

32 0

30 7

33 1

34 9

36 4

35 0

37 7

39 8

41 5

39 4

42 4

44 8

46 7

43 5

46 8

49 5

51 6

LO P

R 10

9 11

6 12

6 13

4 11

5 12

2 13

3 14

2 11

9 12

7 13

9 14

8 12

5 13

3 14

6 15

5 13

1 14

0 15

2 16

2 13

6 14

4 15

8 16

8

94 6

M Bh

29 .3

30 .2

32 .6

35 .0

28 .6

29 .5

31 .9

34 .2

27 .9

28 .8

31 .1

33 .4

27 .2

28 .1

30 .4

32 .6

25 .9

26 .6

28 .8

31 .0

24 .0

24 .7

26 .7

28 .7

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. 39

0. 91

0. 82

0. 62

0. 40

0. 95

0. 85

0. 64

0. 41

0. 96

0. 85

0. 65

0. 42

T

24 22

18 12

24 22

18 12

24 22

18 13

24 22

18 13

24 22

18 12

22 21

17 12

kW 1.

98 2.

02 2.

08 2.

15 2.

13 2.

18 2.

25 2.

32 2.

27 2.

32 2.

40 2.

48 2.

39 2.

44 2.

52 2.

61 2.

49 2.

55 2.

63 2.

72 2.

58 2.

64 2.

73 2.

82 Am

ps 8.

5 8.

7 9.

0 9.

3 9.

1 9.

3 9.

6 9.

9 9.

8 10

.0 10

.3 10

.7 10

.4 10

.7 11

.0 11

.4 11

.0 11

.3 11

.6 12

.0 11

.6 11

.9 12

.2 12

.7 H

I P R

23 8

25 7

27 1

28 3

26 8

28 8

30 4

31 7

30 4

32 8

34 6

36 1

34 7

37 3

39 4

41 1

39 0

42 0

44 3

46 2

43 1

46 4

49 0

51 1

LO P

R 10

8 11

4 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

3 13

0 13

8 15

1 16

1 13

4 14

3 15

6 16

6

83 0

M Bh

27 .0

27 .8

30 .1

32 .3

26 .4

27 .2

29 .4

31 .6

25 .8

26 .5

28 .7

30 .8

25 .1

25 .9

28 .0

30 .1

23 .9

24 .6

26 .6

28 .6

22 .1

22 .8

24 .7

26 .5

S/ T

0. 80

0. 72

0. 54

0. 35

0. 83

0. 74

0. 56

0. 36

0. 85

0. 76

0. 58

0. 37

0. 88

0. 79

0. 60

0. 38

0. 91

0. 82

0. 62

0. 40

0. 92

0. 82

0. 62

0. 40

T

24 22

18 13

24 22

18 13

24 22

18 13

25 23

19 13

24 22

18 13

23 21

17 12

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.

65 2.

51 2.

57 2.

66 2.

75 Am

ps 8.

4 8.

5 8.

8 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

.1 10

.8 11

.0 11

.3 11

.7 11

.3 11

.6 11

.9 12

.3 H

I P R

23 1

24 9

26 3

27 4

26 0

27 9

29 5

30 8

29 5

31 8

33 5

35 0

33 6

36 2

38 2

39 9

37 8

40 7

43 0

44 8

41 8

45 0

47 5

49 5

LO P

R 10

4 11

1 12

1 12

9 11

0 11

7 12

8 13

6 11

5 12

2 13

3 14

2 12

0 12

8 14

0 14

9 12

6 13

4 14

6 15

6 13

0 13

9 15

1 16

1

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 A CC

A (T

VA ) c

on di

tio ns

kW =

To ta

l s ys

te m

p ow

er Hi

gh a

nd 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

se rv

ic e

va lv

es .

Am ps

= o

ut do

or u

ni t a

m ps

(c om

p. +f

an )

6 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 7

Expanded Cooling Data GPG1630***M41**

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

10 62

M Bh

30 .7

31 .4

33 .5

35 .8

30 .0

30 .6

32 .7

35 .0

29 .3

29 .9

32 .0

34 .2

28 .6

29 .2

31 .2

33 .3

27 .1

27 .7

29 .6

31 .7

25 .1

25 .7

27 .4

29 .3

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

25 24

21 17

26 25

21 17

25 25

21 17

25 25

22 17

23 24

21 17

22 22

20 16

kW 2.

01 2.

05 2.

12 2.

19 2.

17 2.

21 2.

29 2.

36 2.

31 2.

36 2.

44 2.

52 2.

43 2.

48 2.

57 2.

65 2.

53 2.

59 2.

68 2.

77 2.

62 2.

68 2.

78 2.

87 Am

ps 8.

7 8.

9 9.

1 9.

4 9.

3 9.

5 9.

8 10

.1 10

.0 10

.2 10

.5 10

.9 10

.6 10

.8 11

.2 11

.5 11

.2 11

.5 11

.8 12

.2 11

.8 12

.1 12

.5 12

.9 H

I P R

24 3

26 2

27 6

28 8

27 3

29 4

31 0

32 4

31 1

33 4

35 3

36 8

35 4

38 1

40 2

41 9

39 8

42 8

45 2

47 2

44 0

47 3

50 0

52 1

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

7 13

5 14

7 15

7 13

3 14

1 15

4 16

4 13

7 14

6 15

9 17

0

94 6

M Bh

29 .8

30 .5

32 .5

34 .8

29 .1

29 .8

31 .8

34 .0

28 .4

29 .0

31 .0

33 .2

27 .7

28 .3

30 .3

32 .4

26 .3

26 .9

28 .8

30 .7

24 .4

24 .9

26 .6

28 .5

S/ T

0. 91

0. 86

0. 70

0. 52

0. 95

0. 89

0. 72

0. 54

0. 97

0. 91

0. 74

0. 55

1. 00

0. 94

0. 76

0. 57

1. 00

0. 97

0. 79

0. 59

1. 00

0. 98

0. 80

0. 60

T

26 25

22 18

27 26

22 18

27 26

22 18

27 26

22 18

26 25

22 18

24 24

21 17

kW 1.

99 2.

04 2.

10 2.

17 2.

15 2.

20 2.

27 2.

34 2.

29 2.

34 2.

42 2.

50 2.

41 2.

46 2.

55 2.

63 2.

51 2.

57 2.

66 2.

75 2.

60 2.

66 2.

75 2.

85 Am

ps 8.

6 8.

8 9.

0 9.

3 9.

2 9.

4 9.

7 10

.0 9.

9 10

.1 10

.4 10

.8 10

.5 10

.8 11

.1 11

.4 11

.1 11

.4 11

.7 12

.1 11

.7 12

.0 12

.3 12

.8 H

I P R

24 1

25 9

27 4

28 6

27 0

29 1

30 7

32 0

30 7

33 1

34 9

36 4

35 0

37 7

39 8

41 5

39 4

42 4

44 8

46 7

43 5

46 8

49 5

51 6

LO P

R 10

9 11

6 12

6 13

4 11

5 12

2 13

3 14

2 11

9 12

7 13

9 14

8 12

5 13

3 14

6 15

5 13

1 14

0 15

3 16

2 13

6 14

4 15

8 16

8

83 0

M Bh

27 .5

28 .1

30 .0

32 .1

26 .9

27 .5

29 .3

31 .4

26 .2

26 .8

28 .6

30 .6

25 .6

26 .2

27 .9

29 .9

24 .3

24 .8

26 .5

28 .4

22 .5

23 .0

24 .6

26 .3

S/ T

0. 88

0. 83

0. 67

0. 50

0. 91

0. 86

0. 70

0. 52

0. 94

0. 88

0. 71

0. 53

0. 97

0. 91

0. 74

0. 55

1. 00

0. 94

0. 76

0. 57

1. 01

0. 95

0. 77

0. 58

T

27 26

22 18

27 26

23 18

27 26

23 18

27 26

23 18

27 26

22 18

25 24

21 17

kW 1.

94 1.

99 2.

05 2.

12 2.

10 2.

14 2.

21 2.

28 2.

23 2.

28 2.

35 2.

43 2.

35 2.

40 2.

48 2.

56 2.

45 2.

50 2.

59 2.

68 2.

54 2.

59 2.

68 2.

77 Am

ps 8.

4 8.

6 8.

8 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

.8 11

.1 11

.4 11

.8 11

.4 11

.7 12

.0 12

.4 H

I P R

23 4

25 1

26 6

27 7

26 2

28 2

29 8

31 1

29 8

32 1

33 9

35 3

34 0

36 6

38 6

40 3

38 2

41 1

43 4

45 3

42 2

45 4

48 0

50 0

LO P

R 10

5 11

2 12

2 13

0 11

1 11

8 12

9 13

8 11

6 12

3 13

4 14

3 12

2 12

9 14

1 15

0 12

7 13

6 14

8 15

8 13

2 14

0 15

3 16

3

85

10 62

M Bh

31 .2

31 .8

33 .4

35 .6

30 .5

31 .1

32 .6

34 .8

29 .8

30 .4

31 .8

33 .9

29 .1

29 .6

31 .0

33 .1

27 .6

28 .1

29 .5

31 .4

25 .6

26 .1

27 .3

29 .1

S/ T

1. 00

0. 97

0. 87

0. 71

1. 00

1. 00

0. 91

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

27 27

25 22

26 27

26 22

26 26

26 22

25 26

26 22

24 24

25 22

22 23

24 21

kW 2.

03 2.

07 2.

14 2.

21 2.

18 2.

23 2.

31 2.

38 2.

33 2.

38 2.

46 2.

54 2.

45 2.

51 2.

59 2.

68 2.

56 2.

61 2.

70 2.

79 2.

65 2.

71 2.

80 2.

90 Am

ps 8.

8 8.

9 9.

2 9.

5 9.

4 9.

6 9.

8 10

.2 10

.1 10

.3 10

.6 11

.0 10

.7 10

.9 11

.3 11

.6 11

.3 11

.6 11

.9 12

.3 11

.9 12

.2 12

.6 13

.0 H

I P R

24 6

26 4

27 9

29 1

27 6

29 7

31 3

32 7

31 4

33 7

35 6

37 2

35 7

38 4

40 6

42 3

40 2

43 2

45 7

47 6

44 4

47 8

50 5

52 6

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

1 12

8 13

6 14

8 15

8 13

4 14

3 15

6 16

6 13

9 14

7 16

1 17

1

94 6

M Bh

30 .3

30 .9

32 .4

34 .5

29 .6

30 .2

31 .6

33 .7

28 .9

29 .5

30 .9

32 .9

28 .2

28 .8

30 .1

32 .1

26 .8

27 .3

28 .6

30 .5

24 .8

25 .3

26 .5

28 .3

S/ T

0. 96

0. 92

0. 83

0. 68

0. 99

0. 96

0. 86

0. 70

1. 00

0. 98

0. 89

0. 72

1. 00

1. 00

0. 91

0. 74

1. 00

1. 00

0. 95

0. 77

1. 00

1. 00

0. 96

0. 78

T

28 28

26 23

29 28

27 23

28 28

27 23

27 28

27 23

26 27

26 23

24 25

25 21

kW 2.

01 2.

05 2.

12 2.

19 2.

17 2.

21 2.

29 2.

36 2.

31 2.

36 2.

44 2.

52 2.

43 2.

48 2.

57 2.

65 2.

53 2.

59 2.

68 2.

77 2.

62 2.

68 2.

78 2.

87 Am

ps 8.

7 8.

9 9.

1 9.

4 9.

3 9.

5 9.

8 10

.1 10

.0 10

.2 10

.5 10

.9 10

.6 10

.8 11

.2 11

.5 11

.2 11

.5 11

.8 12

.2 11

.8 12

.1 12

.5 12

.9 H

I P R

24 3

26 2

27 6

28 8

27 3

29 4

31 0

32 4

31 1

33 4

35 3

36 8

35 4

38 1

40 2

41 9

39 8

42 8

45 2

47 2

44 0

47 3

50 0

52 1

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

7 13

5 14

7 15

7 13

3 14

1 15

4 16

4 13

7 14

6 15

9 17

0

83 0

M Bh

28 .0

28 .5

29 .9

31 .9

27 .3

27 .9

29 .2

31 .1

26 .7

27 .2

28 .5

30 .4

26 .0

26 .5

27 .8

29 .7

24 .7

25 .2

26 .4

28 .2

22 .9

23 .4

24 .5

26 .1

S/ T

0. 92

0. 89

0. 80

0. 65

0. 96

0. 92

0. 83

0. 68

0. 98

0. 95

0. 85

0. 69

1. 00

0. 98

0. 88

0. 72

1. 00

1. 00

0. 91

0. 74

1. 00

1. 00

0. 92

0. 75

T

29 28

27 23

29 28

27 23

29 29

27 23

29 29

27 23

27 28

27 23

25 26

25 22

kW 1.

96 2.

00 2.

07 2.

13 2.

11 2.

16 2.

23 2.

30 2.

25 2.

30 2.

37 2.

45 2.

37 2.

42 2.

50 2.

59 2.

47 2.

52 2.

61 2.

70 2.

56 2.

61 2.

70 2.

80 Am

ps 8.

5 8.

7 8.

9 9.

2 9.

1 9.

3 9.

5 9.

8 9.

8 10

.0 10

.3 10

.6 10

.3 10

.6 10

.9 11

.3 10

.9 11

.2 11

.5 11

.9 11

.5 11

.8 12

.1 12

.6 H

I P R

23 6

25 4

26 8

28 0

26 5

28 5

30 1

31 4

30 1

32 4

34 2

35 7

34 3

36 9

39 0

40 7

38 6

41 5

43 9

45 7

42 6

45 9

48 5

50 5

LO P

R 10

6 11

3 12

4 13

2 11

2 12

0 13

1 13

9 11

7 12

4 13

6 14

5 12

3 13

1 14

3 15

2 12

9 13

7 14

9 15

9 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 A

HR I (

TV A)

c on

di tio

ns kW

= To

ta l s

ys te

m p

ow er

Hi gh

a nd

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 se

rv ic

e va

lv es

. Am

ps =

o ut

do or

u ni

t a m

ps (c

om p.

+f an

)

8 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 9

Expanded Cooling Data GPG1636***M41** 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 66

M Bh

36 .4

37 .7

41 .3

- 35

.5 36

.8 40

.3 -

34 .7

35 .9

39 .4

- 33

.8 35

.1 38

.4 -

32 .1

33 .3

36 .5

- 29

.8 30

.9 33

.8 -

S/ T

0. 80

0. 67

0. 46

- 0.

83 0.

69 0.

48 -

0. 85

0. 71

0. 49

- 0.

88 0.

73 0.

51 -

0. 91

0. 76

0. 53

- 0.

92 0.

77 0.

53 -

T

20 17

13 -

20 17

13 -

20 17

13 -

20 17

13 -

20 17

13 -

18 16

12 -

kW 2.

42 2.

47 2.

54 -

2. 60

2. 66

2. 74

- 2.

77 2.

83 2.

92 -

2. 91

2. 97

3. 07

- 3.

03 3.

10 3.

20 -

3. 14

3. 21

3. 32

- Am

ps 11

.1 11

.4 11

.7 -

11 .9

12 .1

12 .4

- 12

.7 13

.0 13

.3 -

13 .4

13 .7

14 .1

- 14

.2 14

.5 14

.9 -

14 .9

15 .2

15 .6

- H

I P R

22 4

24 1

25 4

- 25

1 27

0 28

5 -

28 6

30 7

32 5

- 32

5 35

0 37

0 -

36 6

39 4

41 6

- 40

4 43

5 46

0 -

LO P

R 11

2 11

9 13

0 -

11 8

12 6

13 7

- 12

3 13

1 14

3 -

12 9

13 7

15 0

- 13

5 14

4 15

7 -

14 0

14 9

16 3

-

12 17

M Bh

35 .3

36 .6

40 .1

- 34

.5 35

.8 39

.2 -

33 .7

34 .9

38 .2

- 32

.8 34

.0 37

.3 -

31 .2

32 .3

35 .4

- 28

.9 30

.0 32

.8 -

S/ T

0. 76

0. 64

0. 44

- 0.

79 0.

66 0.

46 -

0. 81

0. 68

0. 47

- 0.

84 0.

70 0.

48 -

0. 87

0. 72

0. 50

- 0.

87 0.

73 0.

51 -

T

20 18

13 -

21 18

14 -

21 18

14 -

21 18

14 -

20 18

13 -

19 17

13 -

kW 2.

40 2.

45 2.

52 -

2. 58

2. 64

2. 72

- 2.

74 2.

80 2.

89 -

2. 89

2. 95

3. 05

- 3.

01 3.

07 3.

18 -

3. 11

3. 18

3. 29

- Am

ps 11

.1 11

.3 11

.6 -

11 .8

12 .0

12 .3

- 12

.6 12

.9 13

.2 -

13 .3

13 .6

14 .0

- 14

.1 14

.3 14

.8 -

14 .8

15 .1

15 .5

- H

I P R

22 2

23 8

25 2

- 24

9 26

8 28

3 -

28 3

30 4

32 1

- 32

2 34

7 36

6 -

36 2

39 0

41 2

- 40

0 43

1 45

5 -

LO P

R 11

1 11

8 12

9 -

11 7

12 5

13 6

- 12

2 12

9 14

1 -

12 8

13 6

14 8

- 13

4 14

3 15

6 -

13 9

14 7

16 1

-

10 67

M Bh

32 .6

33 .8

37 .0

- 31

.8 33

.0 36

.2 -

31 .1

32 .2

35 .3

- 30

.3 31

.4 34

.4 -

28 .8

29 .9

32 .7

- 26

.7 27

.7 30

.3 -

S/ T

0. 73

0. 61

0. 42

- 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

21 18

14 -

21 18

14 -

21 18

14 -

21 18

14 -

21 18

14 -

19 17

13 -

kW 2.

34 2.

39 2.

46 -

2. 52

2. 57

2. 65

- 2.

68 2.

73 2.

82 -

2. 81

2. 88

2. 97

- 2.

93 3.

00 3.

10 -

3. 03

3. 10

3. 20

- Am

ps 10

.8 11

.0 11

.3 -

11 .5

11 .7

12 .1

- 12

.3 12

.6 12

.9 -

13 .0

13 .3

13 .7

- 13

.7 14

.0 14

.4 -

14 .4

14 .7

15 .1

- H

I P R

21 5

23 1

24 4

- 24

1 26

0 27

4 -

27 4

29 5

31 2

- 31

2 33

6 35

5 -

35 1

37 8

39 9

- 38

8 41

8 44

1 -

LO P

R 10

8 11

4 12

5 -

11 4

12 1

13 2

- 11

8 12

6 13

7 -

12 4

13 2

14 4

- 13

0 13

8 15

1 -

13 4

14 3

15 6

-

75

13 66

M Bh

37 .0

38 .1

41 .2

44 .2

36 .1

37 .2

40 .3

43 .2

35 .3

36 .3

39 .3

42 .2

34 .4

35 .4

38 .3

41 .2

32 .7

33 .7

36 .4

39 .1

30 .3

31 .2

33 .7

36 .2

S/ T

0. 91

0. 81

0. 61

0. 40

0. 94

0. 84

0. 64

0. 41

0. 96

0. 86

0. 65

0. 42

1. 00

0. 89

0. 67

0. 43

1. 00

0. 92

0. 70

0. 45

1. 00

0. 93

0. 71

0. 45

T

23 21

17 12

23 21

17 12

23 21

17 12

23 21

17 12

22 21

17 12

20 20

16 11

kW 2.

44 2.

49 2.

57 2.

65 2.

62 2.

68 2.

77 2.

86 2.

79 2.

85 2.

94 3.

04 2.

93 3.

00 3.

10 3.

20 3.

06 3.

13 3.

23 3.

34 3.

17 3.

24 3.

34 3.

46 Am

ps 11

.2 11

.4 11

.7 12

.1 12

.0 12

.2 12

.5 12

.9 12

.8 13

.1 13

.4 13

.9 13

.5 13

.8 14

.2 14

.7 14

.3 14

.6 15

.0 15

.5 15

.0 15

.3 15

.8 16

.3 H

I P R

22 6

24 3

25 7

26 8

25 4

27 3

28 8

30 1

28 9

31 1

32 8

34 2

32 9

35 4

37 3

39 0

37 0

39 8

42 0

43 8

40 9

44 0

46 4

48 4

LO P

R 11

3 12

0 13

1 14

0 11

9 12

7 13

9 14

8 12

4 13

2 14

4 15

4 13

0 13

9 15

2 16

1 13

7 14

5 15

9 16

9 14

1 15

0 16

4 17

5

12 17

M Bh

35 .9

37 .0

40 .0

43 .0

35 .1

36 .1

39 .1

42 .0

34 .2

35 .3

38 .2

41 .0

33 .4

34 .4

37 .2

40 .0

31 .7

32 .7

35 .4

38 .0

29 .4

30 .3

32 .8

35 .2

S/ T

0. 87

0. 77

0. 59

0. 38

0. 90

0. 80

0. 61

0. 39

0. 92

0. 82

0. 62

0. 40

0. 95

0. 85

0. 64

0. 41

0. 99

0. 88

0. 67

0. 43

0. 99

0. 89

0. 67

0. 43

T

23 22

18 12

24 22

18 12

24 22

18 12

24 22

18 12

24 22

18 12

22 20

17 12

kW 2.

42 2.

47 2.

55 2.

63 2.

60 2.

66 2.

74 2.

83 2.

77 2.

83 2.

92 3.

01 2.

91 2.

97 3.

07 3.

17 3.

03 3.

10 3.

20 3.

31 3.

14 3.

21 3.

32 3.

43 Am

ps 11

.1 11

.4 11

.7 12

.0 11

.9 12

.1 12

.4 12

.8 12

.7 13

.0 13

.3 13

.7 13

.4 13

.7 14

.1 14

.6 14

.2 14

.5 14

.9 15

.4 14

.9 15

.2 15

.6 16

.2 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 5

33 9

32 5

35 0

37 0

38 6

36 6

39 4

41 6

43 4

40 4

43 5

46 0

47 9

LO P

R 11

2 11

9 13

0 13

9 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

3 17

3

10 67

M Bh

33 .1

34 .1

36 .9

39 .6

32 .4

33 .3

36 .1

38 .7

31 .6

32 .5

35 .2

37 .8

30 .8

31 .7

34 .4

36 .9

29 .3

30 .2

32 .6

35 .0

27 .1

27 .9

30 .2

32 .5

S/ T

0. 83

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

24 22

18 12

24 22

18 13

24 22

18 13

24 22

18 13

24 22

18 12

22 21

17 12

kW 2.

36 2.

41 2.

48 2.

56 2.

54 2.

59 2.

68 2.

76 2.

70 2.

76 2.

85 2.

94 2.

84 2.

90 2.

99 3.

09 2.

96 3.

02 3.

12 3.

23 3.

06 3.

13 3.

23 3.

34 Am

ps 10

.9 11

.1 11

.4 11

.7 11

.6 11

.8 12

.2 12

.5 12

.4 12

.7 13

.0 13

.4 13

.1 13

.4 13

.8 14

.2 13

.8 14

.1 14

.5 15

.0 14

.5 14

.8 15

.3 15

.8 H

I P R

21 7

23 4

24 7

25 7

24 4

26 2

27 7

28 9

27 7

29 8

31 5

32 8

31 6

34 0

35 9

37 4

35 5

38 2

40 4

42 1

39 2

42 2

44 6

46 5

LO P

R 10

9 11

6 12

6 13

4 11

5 12

2 13

3 14

2 11

9 12

7 13

9 14

8 12

5 13

3 14

6 15

5 13

1 14

0 15

2 16

2 13

6 14

4 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 A

CC A

(T VA

) c on

di tio

ns kW

= To

ta l s

ys te

m p

ow er

Hi gh

a nd

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 se

rv ic

e va

lv es

. Am

ps =

o ut

do or

u ni

t a m

ps (c

om p.

+f an

)

8 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 9

Expanded Cooling Data GPG1636***M41**

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 66

M Bh

37 .6

38 .5

41 .1

43 .9

36 .8

37 .6

40 .1

42 .9

35 .9

36 .7

39 .2

41 .9

35 .0

35 .8

38 .2

40 .9

33 .3

34 .0

36 .3

38 .8

30 .8

31 .5

33 .6

36 .0

S/ T

1. 00

0. 93

0. 76

0. 57

1. 00

0. 97

0. 79

0. 59

1. 00

1. 00

0. 81

0. 60

1. 00

1. 00

0. 83

0. 62

1. 00

1. 00

0. 87

0. 65

1. 00

1. 00

0. 87

0. 65

T

25 24

21 17

25 24

21 17

24 25

21 17

24 24

21 17

22 23

21 17

21 21

20 16

kW 2.

46 2.

51 2.

59 2.

67 2.

64 2.

70 2.

79 2.

88 2.

81 2.

87 2.

97 3.

07 2.

96 3.

02 3.

12 3.

23 3.

08 3.

15 3.

26 3.

37 3.

19 3.

26 3.

37 3.

49 Am

ps 11

.3 11

.5 11

.8 12

.2 12

.0 12

.3 12

.6 13

.0 12

.9 13

.2 13

.5 14

.0 13

.6 13

.9 14

.3 14

.8 14

.4 14

.7 15

.1 15

.6 15

.1 15

.4 15

.9 16

.4 H

I P R

22 8

24 6

26 0

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 3

41 3

44 4

46 9

48 9

LO P

R 11

4 12

2 13

3 14

1 12

1 12

8 14

0 14

9 12

5 13

3 14

6 15

5 13

2 14

0 15

3 16

3 13

8 14

7 16

0 17

1 14

3 15

2 16

6 17

7

12 17

M Bh

36 .6

37 .3

39 .9

42 .7

35 .7

36 .5

39 .0

41 .7

34 .9

35 .6

38 .0

40 .7

34 .0

34 .7

37 .1

39 .7

32 .3

33 .0

35 .3

37 .7

29 .9

30 .6

32 .7

34 .9

S/ T

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. 98

0. 80

0. 59

1. 00

1. 00

0. 83

0. 62

1. 00

1. 00

0. 83

0. 62

T

26 25

22 17

27 25

22 18

26 25

22 18

26 26

22 18

24 25

22 18

23 23

21 16

kW 2.

44 2.

49 2.

57 2.

65 2.

62 2.

68 2.

77 2.

86 2.

79 2.

85 2.

94 3.

04 2.

93 3.

00 3.

10 3.

20 3.

06 3.

13 3.

23 3.

34 3.

17 3.

24 3.

34 3.

46 Am

ps 11

.2 11

.4 11

.7 12

.1 12

.0 12

.2 12

.5 12

.9 12

.8 13

.1 13

.4 13

.9 13

.5 13

.8 14

.2 14

.7 14

.3 14

.6 15

.0 15

.5 15

.0 15

.3 15

.8 16

.3 H

I P R

22 6

24 3

25 7

26 8

25 4

27 3

28 8

30 1

28 9

31 1

32 8

34 2

32 9

35 4

37 4

39 0

37 0

39 8

42 0

43 8

40 9

44 0

46 4

48 4

LO P

R 11

3 12

0 13

1 14

0 12

0 12

7 13

9 14

8 12

4 13

2 14

4 15

4 13

0 13

9 15

2 16

1 13

7 14

5 15

9 16

9 14

1 15

0 16

4 17

5

10 67

M Bh

33 .7

34 .5

36 .8

39 .4

33 .0

33 .7

36 .0

38 .5

32 .2

32 .9

35 .1

37 .5

31 .4

32 .1

34 .3

36 .6

29 .8

30 .5

32 .5

34 .8

27 .6

28 .2

30 .1

32 .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. 04

0. 98

0. 80

0. 59

1. 05

0. 99

0. 80

0. 60

T

27 26

22 18

27 26

22 18

27 26

22 18

27 26

23 18

27 26

22 18

25 24

21 17

kW 2.

38 2.

43 2.

50 2.

58 2.

56 2.

61 2.

70 2.

79 2.

72 2.

78 2.

87 2.

96 2.

86 2.

92 3.

02 3.

12 2.

98 3.

05 3.

15 3.

25 3.

09 3.

15 3.

26 3.

37 Am

ps 11

.0 11

.2 11

.5 11

.8 11

.7 11

.9 12

.2 12

.6 12

.5 12

.8 13

.1 13

.5 13

.2 13

.5 13

.9 14

.3 13

.9 14

.2 14

.6 15

.1 14

.6 15

.0 15

.4 15

.9 H

I P R

21 9

23 6

24 9

26 0

24 6

26 5

28 0

29 2

28 0

30 1

31 8

33 2

31 9

34 3

36 2

37 8

35 9

38 6

40 8

42 5

39 6

42 6

45 0

47 0

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

7 13

5 14

7 15

7 13

3 14

1 15

4 16

4 13

7 14

6 15

9 17

0

85

13 66

M Bh

38 .3

39 .0

40 .9

43 .6

37 .4

38 .1

39 .9

42 .6

36 .5

37 .2

39 .0

41 .6

35 .6

36 .3

38 .0

40 .6

33 .9

34 .5

36 .1

38 .6

31 .4

32 .0

33 .5

35 .7

S/ T

1. 00

1. 00

0. 91

0. 74

1. 00

1. 00

0. 94

0. 76

1. 00

1. 00

0. 97

0. 78

1. 00

1. 00

1. 00

0. 81

1. 00

1. 00

1. 00

0. 84

1. 00

1. 00

1. 00

0. 85

T

26 26

25 22

25 26

25 22

25 25

25 22

24 24

26 22

23 23

24 22

21 22

23 20

kW 2.

47 2.

53 2.

61 2.

69 2.

67 2.

72 2.

81 2.

90 2.

83 2.

90 2.

99 3.

09 2.

98 3.

05 3.

15 3.

26 3.

11 3.

18 3.

29 3.

40 3.

22 3.

29 3.

40 3.

52 Am

ps 11

.4 11

.6 11

.9 12

.3 12

.1 12

.4 12

.7 13

.1 13

.0 13

.3 13

.6 14

.1 13

.8 14

.0 14

.4 14

.9 14

.5 14

.8 15

.2 15

.7 15

.2 15

.6 16

.0 16

.5 H

I P R

23 1

24 8

26 2

27 3

25 9

27 9

29 4

30 7

29 4

31 7

33 5

34 9

33 5

36 1

38 1

39 7

37 7

40 6

42 9

44 7

41 7

44 8

47 4

49 4

LO P

R 11

5 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 13

9 14

8 16

2 17

3 14

4 15

3 16

8 17

8

12 17

M Bh

37 .2

37 .9

39 .7

42 .4

36 .3

37 .0

38 .8

41 .4

35 .5

36 .1

37 .9

40 .4

34 .6

35 .3

36 .9

39 .4

32 .9

33 .5

35 .1

37 .4

30 .4

31 .0

32 .5

34 .7

S/ T

1. 00

0. 96

0. 87

0. 70

1. 00

1. 00

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. 99

0. 80

1. 00

1. 00

1. 00

0. 81

T

28 28

26 23

27 28

26 23

27 27

26 23

26 27

27 23

25 25

26 23

23 23

24 21

kW 2.

46 2.

51 2.

59 2.

67 2.

64 2.

70 2.

79 2.

88 2.

81 2.

87 2.

97 3.

07 2.

96 3.

02 3.

12 3.

23 3.

08 3.

15 3.

26 3.

37 3.

19 3.

26 3.

37 3.

49 Am

ps 11

.3 11

.5 11

.8 12

.2 12

.0 12

.3 12

.6 13

.0 12

.9 13

.2 13

.5 14

.0 13

.6 13

.9 14

.3 14

.8 14

.4 14

.7 15

.1 15

.6 15

.1 15

.4 15

.9 16

.4 H

I P R

22 8

24 6

26 0

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 3

41 3

44 4

46 9

48 9

LO P

R 11

4 12

2 13

3 14

1 12

1 12

8 14

0 14

9 12

5 13

3 14

6 15

5 13

2 14

0 15

3 16

3 13

8 14

7 16

0 17

1 14

3 15

2 16

6 17

7

10 67

M Bh

34 .3

35 .0

36 .6

39 .1

33 .5

34 .2

35 .8

38 .2

32 .7

33 .4

34 .9

37 .3

31 .9

32 .5

34 .1

36 .4

30 .3

30 .9

32 .4

34 .5

28 .1

28 .6

30 .0

32 .0

S/ T

0. 96

0. 93

0. 84

0. 68

0. 99

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

28 28

26 23

29 28

27 23

28 28

27 23

28 28

27 23

26 27

27 23

24 25

25 21

kW 2.

40 2.

45 2.

52 2.

60 2.

58 2.

64 2.

72 2.

81 2.

74 2.

80 2.

89 2.

99 2.

89 2.

95 3.

05 3.

15 3.

01 3.

07 3.

17 3.

28 3.

11 3.

18 3.

29 3.

40 Am

ps 11

.1 11

.3 11

.6 11

.9 11

.8 12

.0 12

.3 12

.7 12

.6 12

.9 13

.2 13

.6 13

.3 13

.6 14

.0 14

.4 14

.0 14

.3 14

.8 15

.2 14

.8 15

.1 15

.5 16

.0 H

I P R

22 2

23 8

25 2

26 3

24 9

26 8

28 2

29 5

28 3

30 4

32 1

33 5

32 2

34 7

36 6

38 2

36 2

39 0

41 2

42 9

40 0

43 1

45 5

47 4

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

1 12

8 13

6 14

8 15

8 13

4 14

3 15

6 16

6 13

9 14

7 16

1 17

1 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 A

HR I (

TV A)

c on

di tio

ns kW

= To

ta l s

ys te

m p

ow er

Hi gh

a nd

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 se

rv ic

e va

lv es

. Am

ps =

o ut

do or

u ni

t a m

ps (c

om p.

+f an

)

10 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 11

Expanded Cooling Data GPG1642***M41** 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 10

M Bh

42 .8

44 .3

48 .6

- 41

.8 43

.3 47

.4 -

40 .8

42 .3

46 .3

- 39

.8 41

.2 45

.2 -

37 .8

39 .2

42 .9

- 35

.0 36

.3 39

.7 -

S/ T

0. 75

0. 62

0. 43

- 0.

77 0.

65 0.

45 -

0. 79

0. 66

0. 46

- 0.

82 0.

68 0.

47 -

0. 85

0. 71

0. 49

- 0.

86 0.

72 0.

50 -

T

21 18

14 -

21 18

14 -

21 18

14 -

21 18

14 -

21 18

14 -

20 17

13 -

kW 2.

76 2.

82 2.

91 -

2. 98

3. 04

3. 14

- 3.

16 3.

23 3.

34 -

3. 33

3. 40

3. 52

- 3.

47 3.

55 3.

67 -

3. 59

3. 67

3. 80

- Am

ps 12

.2 12

.4 12

.8 -

13 .0

13 .3

13 .7

- 14

.0 14

.3 14

.7 -

14 .8

15 .1

15 .6

- 15

.6 16

.0 16

.5 -

16 .5

16 .8

17 .3

- H

I P R

23 9

25 7

27 2

- 26

8 28

9 30

5 -

30 5

32 8

34 7

- 34

7 37

4 39

5 -

39 1

42 0

44 4

- 43

2 46

5 49

1 -

LO P

R 10

9 11

6 12

6 -

11 5

12 2

13 4

- 11

9 12

7 13

9 -

12 5

13 4

14 6

- 13

2 14

0 15

3 -

13 6

14 5

15 8

-

12 55

M Bh

41 .5

43 .0

47 .1

- 40

.5 42

.0 46

.0 -

39 .6

41 .0

44 .9

- 38

.6 40

.0 43

.8 -

36 .7

38 .0

41 .7

- 34

.0 35

.2 38

.6 -

S/ T

0. 71

0. 59

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

22 19

14 -

22 19

14 -

22 19

14 -

22 19

15 -

22 19

14 -

20 18

13 -

kW 2.

74 2.

80 2.

89 -

2. 95

3. 02

3. 11

- 3.

14 3.

21 3.

31 -

3. 30

3. 38

3. 49

- 3.

44 3.

52 3.

64 -

3. 56

3. 64

3. 76

- Am

ps 12

.1 12

.3 12

.7 -

12 .9

13 .2

13 .6

- 13

.9 14

.2 14

.6 -

14 .7

15 .0

15 .4

- 15

.5 15

.9 16

.3 -

16 .3

16 .7

17 .2

- H

I P R

23 7

25 5

26 9

- 26

5 28

6 30

2 -

30 2

32 5

34 3

- 34

4 37

0 39

1 -

38 7

41 6

44 0

- 42

7 46

0 48

6 -

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 6

-

11 01

M Bh

38 .3

39 .7

43 .5

- 37

.4 38

.8 42

.5 -

36 .5

37 .9

41 .5

- 35

.6 36

.9 40

.5 -

33 .9

35 .1

38 .4

- 31

.4 32

.5 35

.6 -

S/ T

0. 69

0. 57

0. 40

- 0.

71 0.

59 0.

41 -

0. 73

0. 61

0. 42

- 0.

75 0.

63 0.

44 -

0. 78

0. 65

0. 45

- 0.

79 0.

66 0.

46 -

T

22 19

14 -

22 19

15 -

22 19

15 -

22 19

15 -

22 19

15 -

21 18

14 -

kW 2.

68 2.

73 2.

82 -

2. 88

2. 94

3. 04

- 3.

06 3.

13 3.

23 -

3. 22

3. 29

3. 40

- 3.

36 3.

43 3.

54 -

3. 47

3. 55

3. 67

- Am

ps 11

.8 12

.0 12

.4 -

12 .6

12 .9

13 .2

- 13

.5 13

.8 14

.2 -

14 .3

14 .6

15 .1

- 15

.1 15

.5 15

.9 -

15 .9

16 .3

16 .8

- H

I P R

22 9

24 7

26 1

- 25

8 27

7 29

3 -

29 3

31 5

33 3

- 33

4 35

9 37

9 -

37 5

40 4

42 6

- 41

5 44

6 47

1 -

LO P

R 10

4 11

1 12

1 -

11 0

11 7

12 8

- 11

5 12

2 13

3 -

12 1

12 8

14 0

- 12

6 13

4 14

7 -

13 1

13 9

15 2

-

75

14 10

M Bh

43 .5

44 .8

48 .5

52 .0

42 .5

43 .7

47 .3

50 .8

41 .5

42 .7

46 .2

49 .6

40 .4

41 .6

45 .1

48 .4

38 .4

39 .6

42 .8

46 .0

35 .6

36 .6

39 .7

42 .6

S/ T

0. 85

0. 76

0. 57

0. 37

0. 88

0. 79

0. 60

0. 38

0. 90

0. 81

0. 61

0. 39

0. 93

0. 83

0. 63

0. 41

0. 97

0. 86

0. 65

0. 42

0. 97

0. 87

0. 66

0. 42

T

24 22

18 13

24 22

18 13

24 22

18 13

25 23

19 13

24 22

18 13

23 21

17 12

kW 2.

79 2.

85 2.

94 3.

03 3.

00 3.

07 3.

16 3.

27 3.

19 3.

26 3.

37 3.

48 3.

36 3.

43 3.

55 3.

66 3.

50 3.

58 3.

70 3.

82 3.

62 3.

70 3.

83 3.

96 Am

ps 12

.3 12

.5 12

.9 13

.3 13

.1 13

.4 13

.8 14

.2 14

.1 14

.4 14

.8 15

.3 14

.9 15

.3 15

.7 16

.2 15

.8 16

.1 16

.6 17

.2 16

.6 17

.0 17

.5 18

.1 H

I P R

24 1

26 0

27 4

28 6

27 1

29 1

30 8

32 1

30 8

33 2

35 0

36 5

35 1

37 8

39 9

41 6

39 5

42 5

44 9

46 8

43 6

46 9

49 6

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

12 55

M Bh

42 .2

43 .5

47 .0

50 .5

41 .2

42 .5

45 .9

49 .3

40 .2

41 .4

44 .9

48 .1

39 .3

40 .4

43 .8

47 .0

37 .3

38 .4

41 .6

44 .6

34 .6

35 .6

38 .5

41 .3

S/ T

0. 81

0. 72

0. 55

0. 35

0. 84

0. 75

0. 57

0. 37

0. 86

0. 77

0. 58

0. 37

0. 89

0. 79

0. 60

0. 39

0. 92

0. 82

0. 62

0. 40

0. 93

0. 83

0. 63

0. 40

T

25 23

19 13

25 23

19 13

25 23

19 13

26 24

19 13

25 23

19 13

24 22

18 12

kW 2.

76 2.

82 2.

91 3.

01 2.

98 3.

04 3.

14 3.

24 3.

16 3.

23 3.

34 3.

45 3.

33 3.

40 3.

52 3.

63 3.

47 3.

55 3.

67 3.

79 3.

59 3.

67 3.

80 3.

93 Am

ps 12

.2 12

.4 12

.8 13

.2 13

.0 13

.3 13

.7 14

.1 14

.0 14

.3 14

.7 15

.2 14

.8 15

.1 15

.6 16

.1 15

.7 16

.0 16

.5 17

.0 16

.5 16

.8 17

.3 17

.9 H

I P R

23 9

25 7

27 2

28 3

26 8

28 9

30 5

31 8

30 5

32 8

34 7

36 2

34 7

37 4

39 5

41 2

39 1

42 1

44 4

46 3

43 2

46 5

49 1

51 2

LO P

R 10

9 11

6 12

6 13

5 11

5 12

2 13

4 14

2 11

9 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

11 01

M Bh

39 .0

40 .1

43 .4

46 .6

38 .1

39 .2

42 .4

45 .5

37 .2

38 .3

41 .4

44 .4

36 .2

37 .3

40 .4

43 .4

34 .4

35 .5

38 .4

41 .2

31 .9

32 .8

35 .5

38 .1

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. 86

0. 77

0. 58

0. 37

0. 89

0. 79

0. 60

0. 39

0. 90

0. 80

0. 61

0. 39

T

25 23

19 13

26 24

19 13

26 24

19 13

26 24

20 13

26 24

19 13

24 22

18 12

kW 2.

70 2.

75 2.

84 2.

93 2.

90 2.

97 3.

06 3.

16 3.

09 3.

15 3.

26 3.

36 3.

25 3.

32 3.

43 3.

54 3.

38 3.

46 3.

57 3.

69 3.

50 3.

58 3.

70 3.

82 Am

ps 11

.9 12

.1 12

.5 12

.9 12

.7 13

.0 13

.3 13

.8 13

.6 13

.9 14

.3 14

.8 14

.5 14

.8 15

.2 15

.7 15

.3 15

.6 16

.1 16

.6 16

.1 16

.4 16

.9 17

.5 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

6 11

2 12

3 13

1 11

2 11

9 13

0 13

8 11

6 12

3 13

5 14

3 12

2 13

0 14

1 15

1 12

8 13

6 14

8 15

8 13

2 14

0 15

3 16

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 A CC

A (T

VA ) c

on di

tio ns

kW =

To ta

l s ys

te m

p ow

er Hi

gh a

nd 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

se rv

ic e

va lv

es .

Am ps

= o

ut do

or u

ni t a

m ps

(c om

p. +f

an )

10 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 11

Expanded Cooling Data GPG1642***M41**

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 10

M Bh

44 .3

45 .2

48 .3

51 .6

43 .2

44 .2

47 .2

50 .4

42 .2

43 .1

46 .1

49 .2

41 .2

42 .1

44 .9

48 .0

39 .1

40 .0

42 .7

45 .6

36 .2

37 .0

39 .5

42 .3

S/ T

0. 93

0. 87

0. 71

0. 53

0. 96

0. 90

0. 74

0. 55

1. 00

0. 93

0. 75

0. 56

1. 00

0. 96

0. 78

0. 58

1. 00

1. 00

0. 81

0. 60

1. 00

1. 00

0. 82

0. 61

T

27 26

22 18

27 26

23 18

28 26

23 18

27 26

23 18

26 26

23 18

24 24

21 17

kW 2.

81 2.

87 2.

96 3.

05 3.

03 3.

09 3.

19 3.

30 3.

22 3.

29 3.

40 3.

51 3.

39 3.

46 3.

58 3.

70 3.

53 3.

61 3.

73 3.

86 3.

65 3.

74 3.

86 3.

99 Am

ps 12

.4 12

.6 13

.0 13

.4 13

.2 13

.5 13

.9 14

.3 14

.2 14

.5 14

.9 15

.4 15

.1 15

.4 15

.8 16

.4 15

.9 16

.3 16

.7 17

.3 16

.7 17

.1 17

.6 18

.2 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 3

44 1

47 4

50 1

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

12 55

M Bh

43 .0

43 .9

46 .9

50 .1

42 .0

42 .9

45 .8

49 .0

41 .0

41 .9

44 .7

47 .8

40 .0

40 .8

43 .6

46 .6

38 .0

38 .8

41 .4

44 .3

35 .2

35 .9

38 .4

41 .0

S/ T

0. 89

0. 83

0. 68

0. 51

0. 92

0. 86

0. 70

0. 52

0. 94

0. 88

0. 72

0. 54

0. 97

0. 91

0. 74

0. 56

1. 00

0. 95

0. 77

0. 58

1. 00

0. 96

0. 78

0. 58

T

28 27

23 19

28 27

24 19

28 27

24 19

28 27

24 19

28 27

23 19

26 25

22 17

kW 2.

79 2.

85 2.

94 3.

03 3.

00 3.

07 3.

16 3.

27 3.

19 3.

26 3.

37 3.

48 3.

36 3.

43 3.

55 3.

67 3.

50 3.

58 3.

70 3.

82 3.

62 3.

71 3.

83 3.

96 Am

ps 12

.3 12

.5 12

.9 13

.3 13

.1 13

.4 13

.8 14

.2 14

.1 14

.4 14

.8 15

.3 14

.9 15

.3 15

.7 16

.2 15

.8 16

.1 16

.6 17

.2 16

.6 17

.0 17

.5 18

.1 H

I P R

24 1

26 0

27 4

28 6

27 1

29 2

30 8

32 1

30 8

33 2

35 0

36 5

35 1

37 8

39 9

41 6

39 5

42 5

44 9

46 8

43 6

46 9

49 6

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

11 01

M Bh

39 .7

40 .5

43 .3

46 .3

38 .7

39 .6

42 .3

45 .2

37 .8

38 .6

41 .3

44 .1

36 .9

37 .7

40 .3

43 .1

35 .0

35 .8

38 .3

40 .9

32 .5

33 .2

35 .4

37 .9

S/ T

0. 86

0. 80

0. 65

0. 49

0. 89

0. 83

0. 68

0. 51

0. 91

0. 85

0. 69

0. 52

0. 94

0. 88

0. 72

0. 54

0. 97

0. 91

0. 74

0. 56

0. 98

0. 92

0. 75

0. 56

T

28 27

24 19

29 27

24 19

29 28

24 19

29 28

24 19

28 27

24 19

27 26

22 18

kW 2.

72 2.

78 2.

86 2.

96 2.

93 2.

99 3.

09 3.

19 3.

11 3.

18 3.

28 3.

39 3.

27 3.

35 3.

46 3.

57 3.

41 3.

49 3.

60 3.

73 3.

53 3.

61 3.

73 3.

86 Am

ps 12

.0 12

.2 12

.6 13

.0 12

.8 13

.1 13

.4 13

.9 13

.8 14

.0 14

.5 14

.9 14

.6 14

.9 15

.3 15

.8 15

.4 15

.7 16

.2 16

.7 16

.2 16

.6 17

.1 17

.6 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

7 11

3 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 15

9 13

3 14

2 15

5 16

5

85

14 10

M Bh

45 .0

45 .9

48 .1

51 .3

44 .0

44 .8

47 .0

50 .1

42 .9

43 .8

45 .8

48 .9

41 .9

42 .7

44 .7

47 .7

39 .8

40 .6

42 .5

45 .3

36 .9

37 .6

39 .3

42 .0

S/ T

0. 98

0. 94

0. 85

0. 69

1. 00

0. 98

0. 88

0. 71

1. 00

1. 00

0. 90

0. 73

1. 00

1. 00

0. 93

0. 76

1. 00

1. 00

0. 97

0. 78

1. 00

1. 00

0. 98

0. 79

T

29 28

27 23

29 29

27 23

28 29

27 23

27 28

27 24

26 26

27 23

24 25

25 22

kW 2.

83 2.

89 2.

98 3.

08 3.

05 3.

12 3.

22 3.

32 3.

24 3.

32 3.

42 3.

54 3.

41 3.

49 3.

61 3.

73 3.

56 3.

64 3.

76 3.

89 3.

68 3.

77 3.

89 4.

03 Am

ps 12

.5 12

.7 13

.1 13

.5 13

.3 13

.6 14

.0 14

.4 14

.3 14

.6 15

.0 15

.5 15

.2 15

.5 16

.0 16

.5 16

.0 16

.4 16

.9 17

.5 16

.9 17

.3 17

.8 18

.4 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

12 55

M Bh

43 .7

44 .6

46 .7

49 .8

42 .7

43 .5

45 .6

48 .6

41 .7

42 .5

44 .5

47 .5

40 .7

41 .5

43 .4

46 .3

38 .6

39 .4

41 .2

44 .0

35 .8

36 .5

38 .2

40 .8

S/ T

0. 93

0. 90

0. 81

0. 66

0. 96

0. 93

0. 84

0. 68

0. 99

0. 95

0. 86

0. 70

1. 00

0. 98

0. 89

0. 72

1. 00

1. 00

0. 92

0. 75

1. 00

1. 00

0. 93

0. 75

T

30 29

28 24

30 30

28 24

30 30

28 24

30 30

28 24

28 29

28 24

26 27

26 23

kW 2.

81 2.

87 2.

96 3.

05 3.

03 3.

09 3.

19 3.

30 3.

22 3.

29 3.

40 3.

51 3.

39 3.

46 3.

58 3.

70 3.

53 3.

61 3.

73 3.

86 3.

65 3.

74 3.

86 3.

99 Am

ps 12

.4 12

.6 13

.0 13

.4 13

.2 13

.5 13

.9 14

.3 14

.2 14

.5 14

.9 15

.4 15

.1 15

.4 15

.8 16

.4 15

.9 16

.3 16

.7 17

.3 16

.7 17

.1 17

.6 18

.2 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 3

44 1

47 4

50 1

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

11 01

M Bh

40 .3

41 .1

43 .1

46 .0

39 .4

40 .2

42 .1

44 .9

38 .5

39 .2

41 .1

43 .8

37 .5

38 .3

40 .1

42 .7

35 .7

36 .3

38 .1

40 .6

33 .0

33 .7

35 .3

37 .6

S/ T

0. 90

0. 87

0. 78

0. 63

0. 93

0. 90

0. 81

0. 66

0. 95

0. 92

0. 83

0. 67

0. 98

0. 95

0. 86

0. 70

1. 00

0. 99

0. 89

0. 72

1. 00

0. 99

0. 90

0. 73

T

30 30

28 24

31 30

28 25

31 30

28 25

31 30

29 25

30 30

28 24

28 28

26 23

kW 2.

74 2.

80 2.

89 2.

98 2.

95 3.

02 3.

11 3.

21 3.

14 3.

21 3.

31 3.

42 3.

30 3.

37 3.

49 3.

60 3.

44 3.

52 3.

63 3.

76 3.

56 3.

64 3.

76 3.

89 Am

ps 12

.1 12

.3 12

.7 13

.1 12

.9 13

.2 13

.5 14

.0 13

.9 14

.2 14

.6 15

.0 14

.7 15

.0 15

.4 16

.0 15

.5 15

.9 16

.3 16

.9 16

.3 16

.7 17

.2 17

.8 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 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

8 15

1 16

1 13

5 14

3 15

6 16

7

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 A HR

I ( TV

A) c

on di

tio ns

kW =

To ta

l s ys

te m

p ow

er Hi

gh a

nd 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

se rv

ic e

va lv

es .

Am ps

= o

ut do

or u

ni t a

m ps

(c om

p. +f

an )

12 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 13

Expanded Cooling Data GPG1648***M41** 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 43

M Bh

46 .2

47 .9

52 .5

- 45

.1 46

.8 51

.3 -

44 .1

45 .7

50 .0

- 43

.0 44

.6 48

.8 -

40 .8

42 .3

46 .4

- 37

.8 39

.2 43

.0 -

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. 69

0. 47

- 0.

83 0.

69 0.

48 -

T

21 18

14 -

21 19

14 -

21 19

14 -

22 19

14 -

21 18

14 -

20 17

13 -

kW 3.

05 3.

11 3.

21 -

3. 28

3. 35

3. 46

- 3.

49 3.

56 3.

68 -

3. 67

3. 75

3. 87

- 3.

83 3.

91 4.

04 -

3. 96

4. 05

4. 18

- Am

ps 14

.3 14

.6 15

.0 -

15 .3

15 .6

16 .1

- 16

.4 16

.8 17

.3 -

17 .4

17 .8

18 .3

- 18

.4 18

.8 19

.3 -

19 .3

19 .7

20 .3

- H

I P R

23 9

25 7

27 1

- 26

8 28

8 30

4 -

30 5

32 8

34 6

- 34

7 37

3 39

4 -

39 0

42 0

44 3

- 43

1 46

4 49

0 -

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 2

14 1

15 4

-

12 86

M Bh

44 .9

46 .5

51 .0

- 43

.8 45

.4 49

.8 -

42 .8

44 .3

48 .6

- 41

.7 43

.3 47

.4 -

39 .7

41 .1

45 .0

- 36

.7 38

.1 41

.7 -

S/ T

0. 69

0. 57

0. 40

- 0.

71 0.

59 0.

41 -

0. 73

0. 61

0. 42

- 0.

75 0.

63 0.

44 -

0. 78

0. 65

0. 45

- 0.

79 0.

66 0.

46 -

T

22 19

14 -

22 19

15 -

22 19

15 -

23 19

15 -

22 19

15 -

21 18

14 -

kW 3.

02 3.

09 3.

18 -

3. 25

3. 32

3. 43

- 3.

46 3.

53 3.

65 -

3. 64

3. 72

3. 84

- 3.

79 3.

88 4.

01 -

3. 93

4. 01

4. 15

- Am

ps 14

.2 14

.5 14

.9 -

15 .2

15 .5

15 .9

- 16

.3 16

.6 17

.1 -

17 .3

17 .6

18 .1

- 18

.2 18

.6 19

.2 -

19 .2

19 .6

20 .2

- H

I P R

23 6

25 4

26 9

- 26

5 28

5 30

1 -

30 2

32 5

34 3

- 34

3 37

0 39

0 -

38 6

41 6

43 9

- 42

7 45

9 48

5 -

LO P

R 10

5 11

1 12

2 -

11 1

11 8

12 9

- 11

5 12

2 13

4 -

12 1

12 9

14 0

- 12

7 13

5 14

7 -

13 1

13 9

15 2

-

11 28

M Bh

41 .4

42 .9

47 .0

- 40

.4 41

.9 45

.9 -

39 .5

40 .9

44 .8

- 38

.5 39

.9 43

.7 -

36 .6

37 .9

41 .6

- 33

.9 35

.1 38

.5 -

S/ T

0. 66

0. 55

0. 38

- 0.

69 0.

57 0.

40 -

0. 70

0. 59

0. 41

- 0.

73 0.

61 0.

42 -

0. 75

0. 63

0. 44

- 0.

76 0.

64 0.

44 -

T

22 19

15 -

23 20

15 -

23 20

15 -

23 20

15 -

23 19

15 -

21 18

14 -

kW 2.

95 3.

01 3.

11 -

3. 18

3. 24

3. 35

- 3.

37 3.

45 3.

56 -

3. 55

3. 63

3. 75

- 3.

70 3.

78 3.

91 -

3. 83

3. 91

4. 04

- Am

ps 13

.9 14

.2 14

.6 -

14 .8

15 .1

15 .6

- 15

.9 16

.2 16

.7 -

16 .9

17 .2

17 .7

- 17

.8 18

.2 18

.7 -

18 .7

19 .1

19 .7

- H

I P R

22 9

24 7

26 0

- 25

7 27

7 29

2 -

29 3

31 5

33 2

- 33

3 35

9 37

9 -

37 5

40 3

42 6

- 41

4 44

6 47

1 -

LO P

R 10

2 10

8 11

8 -

10 7

11 4

12 5

- 11

2 11

9 13

0 -

11 7

12 5

13 6

- 12

3 13

1 14

3 -

12 7

13 5

14 8

-

75

14 43

M Bh

47 .0

48 .4

52 .4

56 .2

45 .9

47 .3

51 .2

54 .9

44 .8

46 .1

49 .9

53 .6

43 .7

45 .0

48 .7

52 .3

41 .5

42 .8

46 .3

49 .7

38 .5

39 .6

42 .9

46 .0

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

25 23

19 13

25 23

19 13

25 23

19 13

25 23

19 13

25 23

19 13

23 21

17 12

kW 3.

07 3.

14 3.

24 3.

34 3.

31 3.

38 3.

49 3.

60 3.

52 3.

59 3.

71 3.

83 3.

70 3.

78 3.

91 4.

04 3.

86 3.

94 4.

08 4.

21 3.

99 4.

08 4.

22 4.

36 Am

ps 14

.5 14

.7 15

.1 15

.6 15

.4 15

.7 16

.2 16

.7 16

.6 16

.9 17

.4 18

.0 17

.5 17

.9 18

.4 19

.0 18

.5 18

.9 19

.5 20

.1 19

.5 19

.9 20

.5 21

.2 H

I P R

24 1

25 9

27 4

28 6

27 1

29 1

30 7

32 1

30 8

33 1

35 0

36 5

35 0

37 7

39 8

41 5

39 4

42 4

44 8

46 7

43 6

46 9

49 5

51 6

LO P

R 10

7 11

4 12

4 13

2 11

3 12

0 13

1 14

0 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

4 14

2 15

5 16

5

12 86

M Bh

45 .6

47 .0

50 .8

54 .6

44 .6

45 .9

49 .7

53 .3

43 .5

44 .8

48 .5

52 .0

42 .4

43 .7

47 .3

50 .8

40 .3

41 .5

44 .9

48 .2

37 .4

38 .5

41 .6

44 .7

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. 86

0. 77

0. 58

0. 37

0. 89

0. 80

0. 60

0. 39

0. 90

0. 80

0. 61

0. 39

T

25 23

19 13

26 24

19 13

26 24

19 13

26 24

20 14

26 24

19 13

24 22

18 12

kW 3.

05 3.

11 3.

21 3.

31 3.

28 3.

35 3.

46 3.

57 3.

49 3.

56 3.

68 3.

80 3.

67 3.

75 3.

88 4.

01 3.

83 3.

91 4.

04 4.

18 3.

96 4.

05 4.

18 4.

33 Am

ps 14

.3 14

.6 15

.0 15

.5 15

.3 15

.6 16

.1 16

.6 16

.4 16

.8 17

.3 17

.8 17

.4 17

.8 18

.3 18

.9 18

.4 18

.8 19

.3 20

.0 19

.3 19

.7 20

.3 21

.0 H

I P R

23 9

25 7

27 1

28 3

26 8

28 8

30 4

31 7

30 5

32 8

34 6

36 1

34 7

37 3

39 4

41 1

39 0

42 0

44 4

46 3

43 1

46 4

49 0

51 1

LO P

R 10

6 11

3 12

3 13

1 11

2 11

9 13

0 13

8 11

6 12

4 13

5 14

4 12

2 13

0 14

2 15

1 12

8 13

6 14

9 15

8 13

2 14

1 15

4 16

4

11 28

M Bh

42 .1

43 .4

46 .9

50 .4

41 .1

42 .4

45 .8

49 .2

40 .2

41 .3

44 .8

48 .0

39 .2

40 .3

43 .7

46 .9

37 .2

38 .3

41 .5

44 .5

34 .5

35 .5

38 .4

41 .2

S/ T

0. 75

0. 67

0. 51

0. 33

0. 78

0. 70

0. 53

0. 34

0. 80

0. 72

0. 54

0. 35

0. 83

0. 74

0. 56

0. 36

0. 86

0. 77

0. 58

0. 37

0. 86

0. 77

0. 59

0. 38

T

26 24

20 13

26 24

20 14

26 24

20 14

26 24

20 14

26 24

20 14

24 22

18 13

kW 2.

97 3.

04 3.

13 3.

23 3.

20 3.

27 3.

37 3.

48 3.

40 3.

48 3.

59 3.

71 3.

58 3.

66 3.

78 3.

90 3.

73 3.

81 3.

94 4.

07 3.

86 3.

95 4.

08 4.

22 Am

ps 14

.0 14

.3 14

.7 15

.1 15

.0 15

.3 15

.7 16

.2 16

.0 16

.4 16

.8 17

.4 17

.0 17

.3 17

.8 18

.4 17

.9 18

.3 18

.8 19

.5 18

.8 19

.3 19

.8 20

.5 H

I P R

23 2

24 9

26 3

27 4

26 0

28 0

29 5

30 8

29 5

31 8

33 6

35 0

33 7

36 2

38 2

39 9

37 9

40 7

43 0

44 9

41 8

45 0

47 5

49 6

LO P

R 10

3 10

9 11

9 12

7 10

8 11

5 12

6 13

4 11

3 12

0 13

1 13

9 11

8 12

6 13

8 14

6 12

4 13

2 14

4 15

3 12

8 13

7 14

9 15

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 A CC

A (T

VA ) c

on di

tio ns

kW =

To ta

l s ys

te m

p ow

er Hi

gh a

nd 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

se rv

ic e

va lv

es .

Am ps

= o

ut do

or u

ni t a

m ps

(c om

p. +f

an )

12 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 13

Expanded Cooling Data GPG1648***M41**

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 43

M Bh

47 .8

48 .9

52 .2

55 .8

46 .7

47 .7

51 .0

54 .5

45 .6

46 .6

49 .8

53 .2

44 .5

45 .5

48 .6

51 .9

42 .3

43 .2

46 .1

49 .3

39 .2

40 .0

42 .7

45 .7

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

1. 00

0. 92

0. 75

0. 56

1. 00

0. 96

0. 78

0. 58

1. 00

0. 97

0. 79

0. 59

T

27 26

23 18

28 27

23 18

28 27

23 18

28 27

23 19

27 26

23 18

25 25

21 17

kW 3.

10 3.

16 3.

26 3.

37 3.

33 3.

41 3.

52 3.

63 3.

55 3.

62 3.

74 3.

87 3.

73 3.

82 3.

94 4.

07 3.

89 3.

98 4.

11 4.

25 4.

03 4.

12 4.

26 4.

40 Am

ps 14

.6 14

.9 15

.3 15

.7 15

.6 15

.9 16

.3 16

.8 16

.7 17

.0 17

.5 18

.1 17

.7 18

.1 18

.6 19

.2 18

.7 19

.1 19

.6 20

.3 19

.6 20

.1 20

.7 21

.4 H

I P R

24 4

26 2

27 7

28 9

27 3

29 4

31 1

32 4

31 1

33 4

35 3

36 8

35 4

38 1

40 2

42 0

39 8

42 9

45 3

47 2

44 0

47 3

50 0

52 1

LO P

R 10

8 11

5 12

5 13

4 11

4 12

1 13

2 14

1 11

9 12

6 13

8 14

7 12

5 13

2 14

5 15

4 13

1 13

9 15

2 16

1 13

5 14

4 15

7 16

7

12 86

M Bh

46 .4

47 .5

50 .7

54 .2

45 .4

46 .3

49 .5

52 .9

44 .3

45 .2

48 .3

51 .7

43 .2

44 .1

47 .2

50 .4

41 .0

41 .9

44 .8

47 .9

38 .0

38 .8

41 .5

44 .4

S/ T

0. 86

0. 80

0. 65

0. 49

0. 89

0. 83

0. 68

0. 51

0. 91

0. 85

0. 70

0. 52

0. 94

0. 88

0. 72

0. 54

0. 98

0. 92

0. 74

0. 56

0. 98

0. 92

0. 75

0. 56

T

28 27

24 19

29 28

24 19

29 28

24 19

29 28

24 19

29 27

24 19

27 26

22 18

kW 3.

07 3.

14 3.

24 3.

34 3.

31 3.

38 3.

49 3.

60 3.

52 3.

59 3.

71 3.

83 3.

70 3.

78 3.

91 4.

04 3.

86 3.

94 4.

08 4.

21 3.

99 4.

08 4.

22 4.

36 Am

ps 14

.5 14

.7 15

.1 15

.6 15

.4 15

.7 16

.2 16

.7 16

.6 16

.9 17

.4 18

.0 17

.5 17

.9 18

.4 19

.0 18

.5 18

.9 19

.5 20

.1 19

.5 19

.9 20

.5 21

.2 H

I P R

24 1

25 9

27 4

28 6

27 1

29 1

30 7

32 1

30 8

33 1

35 0

36 5

35 0

37 7

39 8

41 5

39 4

42 4

44 8

46 7

43 6

46 9

49 5

51 6

LO P

R 10

7 11

4 12

4 13

2 11

3 12

0 13

1 14

0 11

7 12

5 13

6 14

5 12

3 13

1 14

3 15

3 12

9 13

7 15

0 16

0 13

4 14

2 15

5 16

5

11 28

M Bh

42 .9

43 .8

46 .8

50 .0

41 .9

42 .8

45 .7

48 .9

40 .9

41 .8

44 .6

47 .7

39 .9

40 .7

43 .5

46 .5

37 .9

38 .7

41 .4

44 .2

35 .1

35 .9

38 .3

40 .9

S/ T

0. 83

0. 78

0. 63

0. 47

0. 86

0. 80

0. 65

0. 49

0. 88

0. 82

0. 67

0. 50

0. 91

0. 85

0. 69

0. 52

0. 94

0. 88

0. 72

0. 54

0. 95

0. 89

0. 72

0. 54

T

29 28

24 19

29 28

24 19

29 28

24 19

29 28

25 20

29 28

24 19

27 26

23 18

kW 3.

00 3.

06 3.

16 3.

26 3.

23 3.

30 3.

40 3.

51 3.

43 3.

51 3.

62 3.

74 3.

61 3.

69 3.

81 3.

94 3.

76 3.

85 3.

97 4.

11 3.

89 3.

98 4.

11 4.

25 Am

ps 14

.1 14

.4 14

.8 15

.3 15

.1 15

.4 15

.8 16

.3 16

.2 16

.5 17

.0 17

.5 17

.1 17

.5 18

.0 18

.6 18

.1 18

.5 19

.0 19

.6 19

.0 19

.4 20

.0 20

.7 H

I P R

23 4

25 2

26 6

27 7

26 2

28 2

29 8

31 1

29 8

32 1

33 9

35 4

34 0

36 6

38 6

40 3

38 2

41 2

43 5

45 3

42 3

45 5

48 0

50 1

LO P

R 10

4 11

0 12

0 12

8 11

0 11

7 12

7 13

6 11

4 12

1 13

2 14

1 12

0 12

7 13

9 14

8 12

5 13

3 14

6 15

5 13

0 13

8 15

1 16

0

85

14 43

M Bh

48 .7

49 .6

52 .0

55 .4

47 .5

48 .5

50 .7

54 .1

46 .4

47 .3

49 .5

52 .9

45 .3

46 .1

48 .3

51 .6

43 .0

43 .8

45 .9

49 .0

39 .8

40 .6

42 .5

45 .4

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

29 29

27 23

30 29

27 24

30 29

28 24

29 29

28 24

27 28

27 24

25 26

26 22

kW 3.

12 3.

19 3.

29 3.

39 3.

36 3.

43 3.

55 3.

66 3.

58 3.

65 3.

77 3.

90 3.

76 3.

85 3.

97 4.

11 3.

92 4.

01 4.

15 4.

29 4.

06 4.

15 4.

29 4.

44 Am

ps 14

.7 15

.0 15

.4 15

.9 15

.7 16

.0 16

.4 17

.0 16

.8 17

.2 17

.7 18

.2 17

.8 18

.2 18

.7 19

.3 18

.8 19

.2 19

.8 20

.5 19

.8 20

.2 20

.8 21

.5 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 6

42 4

40 2

43 3

45 7

47 7

44 4

47 8

50 5

52 7

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

12 86

M Bh

47 .2

48 .2

50 .4

53 .8

46 .2

47 .0

49 .3

52 .6

45 .1

45 .9

48 .1

51 .3

44 .0

44 .8

46 .9

50 .1

41 .8

42 .6

44 .6

47 .6

38 .7

39 .4

41 .3

44 .1

S/ T

0. 90

0. 87

0. 78

0. 63

0. 93

0. 90

0. 81

0. 66

0. 95

0. 92

0. 83

0. 67

0. 99

0. 95

0. 86

0. 70

1. 00

0. 99

0. 89

0. 72

1. 00

1. 00

0. 90

0. 73

T

30 30

28 24

31 30

29 25

31 30

29 25

31 30

29 25

30 30

28 25

28 28

27 23

kW 3.

10 3.

16 3.

26 3.

37 3.

33 3.

41 3.

52 3.

63 3.

55 3.

62 3.

74 3.

87 3.

73 3.

82 3.

94 4.

07 3.

89 3.

98 4.

11 4.

25 4.

03 4.

12 4.

26 4.

40 Am

ps 14

.6 14

.9 15

.3 15

.7 15

.6 15

.9 16

.3 16

.8 16

.7 17

.0 17

.5 18

.1 17

.7 18

.1 18

.6 19

.2 18

.7 19

.1 19

.6 20

.3 19

.6 20

.1 20

.7 21

.4 H

I P R

24 4

26 2

27 7

28 9

27 3

29 4

31 1

32 4

31 1

33 4

35 3

36 8

35 4

38 1

40 2

42 0

39 8

42 9

45 3

47 2

44 0

47 3

50 0

52 1

LO P

R 10

8 11

5 12

5 13

4 11

4 12

1 13

2 14

1 11

9 12

6 13

8 14

7 12

5 13

2 14

5 15

4 13

1 13

9 15

2 16

1 13

5 14

4 15

7 16

7

11 28

M Bh

43 .6

44 .5

46 .6

49 .7

42 .6

43 .4

45 .5

48 .5

41 .6

42 .4

44 .4

47 .4

40 .6

41 .4

43 .3

46 .2

38 .5

39 .3

41 .1

43 .9

35 .7

36 .4

38 .1

40 .7

S/ T

0. 87

0. 84

0. 75

0. 61

0. 90

0. 87

0. 78

0. 63

0. 92

0. 89

0. 80

0. 65

0. 95

0. 92

0. 83

0. 67

0. 99

0. 95

0. 86

0. 70

0. 99

0. 96

0. 87

0. 70

T

31 30

29 25

31 31

29 25

31 31

29 25

31 31

29 25

31 30

29 25

29 28

27 23

kW 3.

02 3.

09 3.

18 3.

28 3.

25 3.

32 3.

43 3.

54 3.

46 3.

53 3.

65 3.

77 3.

64 3.

72 3.

84 3.

97 3.

79 3.

88 4.

01 4.

14 3.

93 4.

01 4.

15 4.

29 Am

ps 14

.2 14

.5 14

.9 15

.4 15

.2 15

.5 15

.9 16

.4 16

.3 16

.6 17

.1 17

.7 17

.3 17

.6 18

.1 18

.7 18

.2 18

.6 19

.1 19

.8 19

.2 19

.6 20

.2 20

.8 H

I P R

23 6

25 4

26 8

28 0

26 5

28 5

30 1

31 4

30 1

32 4

34 3

35 7

34 3

36 9

39 0

40 7

38 6

41 6

43 9

45 8

42 7

45 9

48 5

50 6

LO P

R 10

5 11

1 12

2 13

0 11

1 11

8 12

9 13

7 11

5 12

2 13

4 14

2 12

1 12

9 14

0 14

9 12

7 13

5 14

7 15

7 13

1 13

9 15

2 16

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 A HR

I ( TV

A) c

on di

tio ns

kW =

To ta

l s ys

te m

p ow

er Hi

gh a

nd 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

se rv

ic e

va lv

es .

Am ps

= o

ut do

or u

ni t a

m ps

(c om

p. +f

an )

14 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 15

Expanded Cooling Data GPG1660***M41** 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 21

M Bh

58 .1

60 .2

66 .0

- 56

.8 58

.8 64

.5 -

55 .4

57 .4

62 .9

- 54

.1 56

.0 61

.4 -

51 .4

53 .2

58 .3

- 47

.6 49

.3 54

.0 -

S/ T

0. 78

0. 65

0. 45

- 0.

80 0.

67 0.

47 -

0. 83

0. 69

0. 48

- 0.

85 0.

71 0.

49 -

0. 88

0. 74

0. 51

- 0.

89 0.

74 0.

52 -

T

19 16

12 -

19 16

12 -

19 16

12 -

19 16

13 -

19 16

12 -

18 15

12 -

kW 3.

87 3.

95 4.

07 -

4. 15

4. 24

4. 36

- 4.

40 4.

49 4.

63 -

4. 62

4. 71

4. 86

- 4.

80 4.

90 5.

06 -

4. 96

5. 07

5. 23

- Am

ps 18

.0 18

.3 18

.8 -

19 .1

19 .5

20 .0

- 20

.5 20

.9 21

.4 -

21 .6

22 .0

22 .6

- 22

.7 23

.2 23

.8 -

23 .9

24 .4

25 .0

- HI

P R

19 4

20 9

22 1

- 21

8 23

5 24

8 -

24 8

26 7

28 2

- 28

3 30

4 32

1 -

31 8

34 2

36 1

- 35

1 37

8 39

9 -

LO P

R 11

2 11

9 13

0 -

11 8

12 6

13 7

- 12

3 13

1 14

3 -

12 9

13 7

15 0

- 13

5 14

4 15

7 -

14 0

14 9

16 3

-

19 80

M Bh

56 .4

58 .5

64 .1

- 55

.1 57

.1 62

.6 -

53 .8

55 .8

61 .1

- 52

.5 54

.4 59

.6 -

49 .9

51 .7

56 .6

- 46

.2 47

.9 52

.4 -

S/ T

0. 74

0. 62

0. 43

- 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.

85 0.

71 0.

49 -

T

19 17

13 -

20 17

13 -

20 17

13 -

20 17

13 -

20 17

13 -

18 16

12 -

kW 3.

84 3.

92 4.

04 -

4. 12

4. 20

4. 33

- 4.

36 4.

46 4.

59 -

4. 58

4. 68

4. 82

- 4.

77 4.

87 5.

02 -

4. 92

5. 03

5. 19

- Am

ps 17

.9 18

.2 18

.7 -

19 .0

19 .4

19 .9

- 20

.3 20

.7 21

.3 -

21 .4

21 .9

22 .5

- 22

.6 23

.0 23

.7 -

23 .7

24 .2

24 .8

- HI

P R

19 3

20 7

21 9

- 21

6 23

2 24

5 -

24 6

26 4

27 9

- 28

0 30

1 31

8 -

31 5

33 9

35 8

- 34

8 37

4 39

5 -

LO P

R 11

1 11

8 12

9 -

11 7

12 5

13 6

- 12

2 12

9 14

1 -

12 8

13 6

14 8

- 13

4 14

3 15

6 -

13 9

14 7

16 1

-

17 52

M Bh

53 .6

55 .6

60 .9

- 52

.4 54

.3 59

.5 -

51 .1

53 .0

58 .0

- 49

.9 51

.7 56

.6 -

47 .4

49 .1

53 .8

- 43

.9 45

.5 49

.8 -

S/ T

0. 71

0. 59

0. 41

- 0.

74 0.

61 0.

43 -

0. 75

0. 63

0. 44

- 0.

78 0.

65 0.

45 -

0. 81

0. 67

0. 47

- 0.

81 0.

68 0.

47 -

T

20 17

13 -

20 17

13 -

20 18

13 -

20 18

13 -

20 17

13 -

19 16

12 -

kW 3.

79 3.

86 3.

97 -

4. 06

4. 14

4. 26

- 4.

30 4.

39 4.

52 -

4. 51

4. 60

4. 75

- 4.

69 4.

79 4.

94 -

4. 84

4. 95

5. 10

- Am

ps 17

.6 17

.9 18

.4 -

18 .7

19 .1

19 .6

- 20

.0 20

.4 20

.9 -

21 .1

21 .5

22 .1

- 22

.2 22

.7 23

.3 -

23 .3

23 .8

24 .5

- HI

P R

18 9

20 3

21 4

- 21

2 22

8 24

1 -

24 1

25 9

27 4

- 27

4 29

5 31

2 -

30 8

33 2

35 1

- 34

1 36

7 38

7 -

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

2 -

13 6

14 4

15 8

-

75

22 21

M Bh

59 .1

60 .8

65 .9

70 .7

57 .7

59 .4

64 .3

69 .0

56 .3

58 .0

62 .8

67 .4

55 .0

56 .6

61 .3

65 .8

52 .2

53 .8

58 .2

62 .5

48 .4

49 .8

53 .9

57 .9

S/ T

0. 88

0. 79

0. 60

0. 38

0. 91

0. 82

0. 62

0. 40

0. 94

0. 84

0. 63

0. 41

0. 97

0. 87

0. 66

0. 42

1. 00

0. 90

0. 68

0. 44

1. 00

0. 91

0. 69

0. 44

T

22 20

16 11

22 20

16 11

22 20

17 11

22 20

17 11

22 20

16 11

20 19

15 11

kW 3.

90 3.

98 4.

10 4.

22 4.

18 4.

27 4.

40 4.

54 4.

43 4.

53 4.

67 4.

81 4.

65 4.

75 4.

90 5.

06 4.

84 4.

95 5.

10 5.

27 5.

00 5.

11 5.

27 5.

45 Am

ps 18

.1 18

.5 18

.9 19

.5 19

.3 19

.7 20

.2 20

.8 20

.6 21

.0 21

.6 22

.3 21

.8 22

.2 22

.8 23

.5 22

.9 23

.4 24

.0 24

.8 24

.0 24

.5 25

.2 26

.1 HI

P R

19 6

21 1

22 3

23 3

22 0

23 7

25 0

26 1

25 1

27 0

28 5

29 7

28 5

30 7

32 4

33 8

32 1

34 6

36 5

38 1

35 5

38 2

40 3

42 1

LO P

R 11

3 12

0 13

1 14

0 11

9 12

7 13

9 14

8 12

4 13

2 14

4 15

4 13

0 13

9 15

1 16

1 13

7 14

5 15

9 16

9 14

1 15

0 16

4 17

5

19 80

M Bh

57 .4

59 .1

63 .9

68 .6

56 .0

57 .7

62 .5

67 .0

54 .7

56 .3

61 .0

65 .4

53 .4

55 .0

59 .5

63 .8

50 .7

52 .2

56 .5

60 .6

47 .0

48 .4

52 .3

56 .2

S/ T

0. 84

0. 75

0. 57

0. 37

0. 87

0. 78

0. 59

0. 38

0. 89

0. 80

0. 61

0. 39

0. 92

0. 83

0. 63

0. 40

0. 96

0. 86

0. 65

0. 42

0. 97

0. 86

0. 65

0. 42

T

22 21

17 12

23 21

17 12

23 21

17 12

23 21

17 12

23 21

17 12

21 19

16 11

kW 3.

87 3.

95 4.

07 4.

19 4.

15 4.

24 4.

37 4.

50 4.

40 4.

49 4.

63 4.

78 4.

62 4.

72 4.

86 5.

02 4.

80 4.

91 5.

06 5.

22 4.

96 5.

07 5.

23 5.

40 Am

ps 18

.0 18

.3 18

.8 19

.4 19

.1 19

.5 20

.0 20

.6 20

.5 20

.9 21

.4 22

.1 21

.6 22

.0 22

.6 23

.4 22

.7 23

.2 23

.9 24

.6 23

.9 24

.4 25

.0 25

.9 HI

P R

19 4

20 9

22 1

23 0

21 8

23 5

24 8

25 9

24 8

26 7

28 2

29 4

28 3

30 4

32 1

33 5

31 8

34 2

36 1

37 7

35 1

37 8

39 9

41 6

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

3 17

3

17 52

M Bh

54 .5

56 .1

60 .7

65 .2

53 .2

54 .8

59 .3

63 .7

52 .0

53 .5

57 .9

62 .2

50 .7

52 .2

56 .5

60 .6

48 .2

49 .6

53 .7

57 .6

44 .6

45 .9

49 .7

53 .4

S/ T

0. 81

0. 72

0. 55

0. 35

0. 84

0. 75

0. 57

0. 36

0. 86

0. 77

0. 58

0. 37

0. 88

0. 79

0. 60

0. 39

0. 92

0. 82

0. 62

0. 40

0. 93

0. 83

0. 63

0. 40

T

23 21

17 12

23 22

18 12

23 22

18 12

24 22

18 12

23 21

18 12

22 20

16 11

kW 3.

81 3.

89 4.

00 4.

13 4.

09 4.

17 4.

30 4.

43 4.

33 4.

42 4.

56 4.

70 4.

55 4.

64 4.

79 4.

94 4.

73 4.

83 4.

98 5.

14 4.

88 4.

99 5.

15 5.

31 Am

ps 17

.7 18

.1 18

.5 19

.1 18

.9 19

.2 19

.7 20

.3 20

.2 20

.6 21

.1 21

.8 21

.3 21

.7 22

.3 23

.0 22

.4 22

.8 23

.5 24

.2 23

.5 24

.0 24

.7 25

.4 HI

P R

19 1

20 5

21 7

22 6

21 4

23 0

24 3

25 3

24 3

26 2

27 6

28 8

27 7

29 8

31 5

32 8

31 2

33 5

35 4

36 9

34 4

37 1

39 1

40 8

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

7 13

5 14

7 15

7 13

3 14

1 15

4 16

4 13

7 14

6 15

9 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 A

CC A

(T VA

) c on

di tio

ns kW

= To

ta l s

ys te

m p

ow er

Hi gh

a nd

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 se

rv ic

e va

lv es

. 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

HR I 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-GPG16M SS-GPG16M www.goodmanmfg.com 15

Expanded Cooling Data GPG1660***M41**

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 21

M Bh

60 .1

61 .5

65 .7

70 .2

58 .7

60 .0

64 .1

68 .6

57 .4

58 .6

62 .6

66 .9

56 .0

57 .2

61 .1

65 .3

53 .2

54 .3

58 .0

62 .0

49 .2

50 .3

53 .8

57 .5

S/ T

0. 97

0. 91

0. 74

0. 55

1. 00

0. 94

0. 77

0. 57

1. 00

0. 96

0. 79

0. 59

1. 00

1. 00

0. 81

0. 61

1. 00

1. 00

0. 84

0. 63

1. 00

1. 00

0. 85

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.

93 4.

01 4.

13 4.

25 4.

22 4.

30 4.

43 4.

57 4.

47 4.

56 4.

70 4.

85 4.

69 4.

79 4.

94 5.

10 4.

88 4.

99 5.

14 5.

31 5.

04 5.

15 5.

32 5.

49 Am

ps 18

.3 18

.6 19

.1 19

.6 19

.4 19

.8 20

.3 20

.9 20

.8 21

.2 21

.8 22

.4 21

.9 22

.4 23

.0 23

.7 23

.1 23

.6 24

.2 25

.0 24

.2 24

.7 25

.4 26

.3 HI

P R

19 8

21 4

22 5

23 5

22 3

24 0

25 3

26 4

25 3

27 2

28 8

30 0

28 8

31 0

32 8

34 2

32 4

34 9

36 9

38 5

35 8

38 6

40 7

42 5

LO P

R 11

4 12

2 13

3 14

1 12

1 12

8 14

0 14

9 12

5 13

3 14

6 15

5 13

2 14

0 15

3 16

3 13

8 14

7 16

0 17

1 14

3 15

2 16

6 17

7

19 80

M Bh

58 .4

59 .7

63 .8

68 .2

57 .0

58 .3

62 .3

66 .6

55 .7

56 .9

60 .8

65 .0

54 .3

55 .5

59 .3

63 .4

51 .6

52 .7

56 .3

60 .2

47 .8

48 .8

52 .2

55 .8

S/ T

0. 92

0. 87

0. 70

0. 53

0. 96

0. 90

0. 73

0. 55

0. 98

0. 92

0. 75

0. 56

1. 00

0. 95

0. 77

0. 58

1. 00

0. 99

0. 80

0. 60

1. 00

0. 99

0. 81

0. 60

T

25 24

21 17

25 24

21 17

25 24

21 17

25 24

21 17

24 24

21 17

22 23

20 16

kW 3.

90 3.

98 4.

10 4.

22 4.

18 4.

27 4.

40 4.

54 4.

43 4.

53 4.

67 4.

81 4.

65 4.

75 4.

90 5.

06 4.

84 4.

95 5.

10 5.

27 5.

00 5.

11 5.

27 5.

45 Am

ps 18

.1 18

.5 18

.9 19

.5 19

.3 19

.7 20

.2 20

.8 20

.6 21

.0 21

.6 22

.3 21

.8 22

.2 22

.8 23

.5 22

.9 23

.4 24

.0 24

.8 24

.1 24

.5 25

.2 26

.1 HI

P R

19 6

21 1

22 3

23 3

22 0

23 7

25 0

26 1

25 1

27 0

28 5

29 7

28 6

30 7

32 4

33 8

32 1

34 6

36 5

38 1

35 5

38 2

40 3

42 1

LO P

R 11

3 12

0 13

1 14

0 11

9 12

7 13

9 14

8 12

4 13

2 14

4 15

4 13

0 13

9 15

2 16

1 13

7 14

5 15

9 16

9 14

1 15

0 16

4 17

5

17 52

M Bh

55 .5

56 .7

60 .6

64 .7

54 .2

55 .4

59 .2

63 .2

52 .9

54 .1

57 .7

61 .7

51 .6

52 .7

56 .3

60 .2

49 .0

50 .1

53 .5

57 .2

45 .4

46 .4

49 .6

53 .0

S/ T

0. 88

0. 83

0. 68

0. 50

0. 92

0. 86

0. 70

0. 52

0. 94

0. 88

0. 72

0. 54

0. 97

0. 91

0. 74

0. 55

1. 01

0. 94

0. 77

0. 57

1. 02

0. 95

0. 78

0. 58

T

26 25

21 17

26 25

22 17

26 25

22 17

26 25

22 17

26 25

22 17

24 23

20 16

kW 3.

84 3.

92 4.

04 4.

16 4.

12 4.

20 4.

33 4.

47 4.

36 4.

46 4.

59 4.

74 4.

58 4.

68 4.

82 4.

98 4.

77 4.

87 5.

02 5.

18 4.

92 5.

03 5.

19 5.

36 Am

ps 17

.9 18

.2 18

.7 19

.2 19

.0 19

.4 19

.9 20

.5 20

.3 20

.7 21

.3 21

.9 21

.4 21

.9 22

.5 23

.2 22

.6 23

.0 23

.7 24

.4 23

.7 24

.2 24

.8 25

.6 HI

P R

19 3

20 7

21 9

22 8

21 6

23 2

24 5

25 6

24 6

26 4

27 9

29 1

28 0

30 1

31 8

33 2

31 5

33 9

35 8

37 3

34 8

37 4

39 5

41 2

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

1 12

8 13

6 14

8 15

8 13

4 14

3 15

6 16

6 13

9 14

7 16

1 17

1

85

22 21

M Bh

61 .2

62 .4

65 .3

69 .7

59 .8

60 .9

63 .8

68 .1

58 .4

59 .5

62 .3

66 .5

56 .9

58 .0

60 .8

64 .8

54 .1

55 .1

57 .7

61 .6

50 .1

51 .1

53 .5

57 .1

S/ T

1. 00

0. 98

0. 88

0. 72

1. 00

1. 00

0. 92

0. 74

1. 00

1. 00

0. 94

0. 76

1. 00

1. 00

0. 97

0. 79

1. 00

1. 00

1. 00

0. 82

1. 00

1. 00

1. 00

0. 82

T

25 25

24 21

25 25

24 21

24 25

24 21

24 24

24 21

22 23

24 21

21 21

22 19

kW 3.

96 4.

04 4.

16 4.

29 4.

25 4.

34 4.

47 4.

61 4.

50 4.

60 4.

74 4.

89 4.

73 4.

83 4.

98 5.

14 4.

92 5.

03 5.

19 5.

35 5.

09 5.

19 5.

36 5.

54 Am

ps 18

.4 18

.7 19

.2 19

.8 19

.6 19

.9 20

.5 21

.1 20

.9 21

.3 21

.9 22

.6 22

.1 22

.5 23

.2 23

.9 23

.3 23

.7 24

.4 25

.2 24

.4 24

.9 25

.6 26

.5 HI

P R

20 0

21 6

22 8

23 7

22 5

24 2

25 6

26 6

25 6

27 5

29 1

30 3

29 1

31 3

33 1

34 5

32 8

35 3

37 2

38 8

36 2

39 0

41 1

42 9

LO P

R 11

5 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 13

9 14

8 16

2 17

2 14

4 15

3 16

8 17

8

19 80

M Bh

59 .4

60 .6

63 .4

67 .7

58 .0

59 .2

62 .0

66 .1

56 .7

57 .7

60 .5

64 .5

55 .3

56 .3

59 .0

63 .0

52 .5

53 .5

56 .1

59 .8

48 .6

49 .6

51 .9

55 .4

S/ T

0. 97

0. 93

0. 84

0. 68

1. 00

0. 97

0. 87

0. 71

1. 00

0. 99

0. 90

0. 73

1. 00

1. 00

0. 92

0. 75

1. 00

1. 00

0. 96

0. 78

1. 00

1. 00

0. 97

0. 79

T

27 26

25 21

27 27

25 22

26 27

25 22

26 26

25 22

24 25

25 22

23 23

23 20

kW 3.

93 4.

01 4.

13 4.

25 4.

22 4.

30 4.

43 4.

57 4.

47 4.

56 4.

70 4.

85 4.

69 4.

79 4.

94 5.

10 4.

88 4.

99 5.

14 5.

31 5.

04 5.

15 5.

32 5.

49 Am

ps 18

.3 18

.6 19

.1 19

.6 19

.4 19

.8 20

.3 20

.9 20

.8 21

.2 21

.8 22

.4 21

.9 22

.4 23

.0 23

.7 23

.1 23

.6 24

.2 25

.0 24

.2 24

.7 25

.4 26

.3 HI

P R

19 8

21 4

22 5

23 5

22 3

24 0

25 3

26 4

25 3

27 2

28 8

30 0

28 8

31 0

32 8

34 2

32 4

34 9

36 9

38 5

35 8

38 6

40 7

42 5

LO P

R 11

4 12

2 13

3 14

1 12

1 12

8 14

0 14

9 12

5 13

3 14

6 15

5 13

2 14

0 15

3 16

3 13

8 14

7 16

0 17

1 14

3 15

2 16

6 17

7

17 52

M Bh

56 .4

57 .5

60 .3

64 .3

55 .1

56 .2

58 .9

62 .8

53 .8

54 .9

57 .5

61 .3

52 .5

53 .5

56 .1

59 .8

49 .9

50 .8

53 .3

56 .8

46 .2

47 .1

49 .3

52 .6

S/ T

0. 93

0. 89

0. 81

0. 66

0. 96

0. 93

0. 84

0. 68

0. 99

0. 95

0. 86

0. 70

1. 00

0. 98

0. 89

0. 72

1. 00

1. 00

0. 92

0. 75

1. 00

1. 00

0. 93

0. 75

T

27 27

26 22

28 27

26 22

28 27

26 22

28 28

26 23

26 27

26 22

24 25

24 21

kW 3.

87 3.

95 4.

07 4.

19 4.

15 4.

24 4.

36 4.

50 4.

40 4.

49 4.

63 4.

77 4.

62 4.

71 4.

86 5.

02 4.

80 4.

90 5.

06 5.

22 4.

96 5.

07 5.

23 5.

40 Am

ps 18

.0 18

.3 18

.8 19

.4 19

.1 19

.5 20

.0 20

.6 20

.5 20

.9 21

.4 22

.1 21

.6 22

.0 22

.6 23

.3 22

.7 23

.2 23

.8 24

.6 23

.9 24

.4 25

.0 25

.9 HI

P R

19 4

20 9

22 1

23 0

21 8

23 5

24 8

25 9

24 8

26 7

28 2

29 4

28 3

30 4

32 1

33 5

31 8

34 2

36 1

37 7

35 1

37 8

39 9

41 6

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

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 A

HR I (

TV A)

c on

di tio

ns kW

= To

ta l s

ys te

m p

ow er

Hi gh

a nd

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 se

rv ic

e va

lv es

. 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

HR I 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-GPG16M SS-GPG16M www.goodmanmfg.com 17

Airflow Data

GPG1624060M41** - Rise Range: 35 - 65

E.S.P. T1 Low-Stage Heating Speed

T2 High-Stage Heating Speed

T3 Low-Stage Cooling Speed

T4 High-Stage Cooling Speed T5 Cooling Speed

CFM WATTS RISE CFM WATTS RISE CFM WATTS CFM WATTS CFM WATTS

0.1 625 53 54 855 107 53 625 51 850 104 1,090 197

0.2 585 61 58 815 114 55 590 60 810 116 1,055 201

0.3 550 70 61 785 125 57 555 68 775 122 1,020 207

0.4 495 78 X 750 135 60 505 79 735 129 995 212

0.5 445 85 X 705 141 64 450 86 705 136 955 230

0.6 400 93 X 660 149 X 410 93 655 147 915 240

0.7 345 99 X 615 157 X 330 101 600 154 880 255

0.8 ---- ---- ---- 570 166 X ---- ---- 565 160 835 246

GPG1630080M41** - Rise Range: 35 - 65

E.S.P.

T1 Low-Stage Heating Speed

T2 High-Stage Heating Speed

T3 Low-Stage Cooling Speed

T4 High-Stage Cooling Speed T5 Cooling Speed

CFM WATTS RISE CFM WATTS RISE CFM WATTS CFM WATTS CFM WATTS

0.1 1,035 156 43 1,300 287 46 945 130 1,095 185 1,295 289

0.2 990 165 45 1,265 293 47 905 136 1,055 195 1,260 294

0.3 950 173 47 1,220 310 49 865 143 1,020 202 1,220 304

0.4 910 184 49 1,190 306 50 815 152 970 210 1,180 313

0.5 865 190 52 1,145 319 52 770 160 930 215 1,140 319

0.6 820 200 55 1,105 320 54 715 173 885 222 1,105 326

0.7 765 204 59 1,070 330 56 660 173 840 233 1,055 334

0.8 725 211 62 1,015 338 59 610 183 785 234 1,015 337

GPG1636080M41** - Rise Range: 35 - 65

E.S.P.

T1 Low-Stage Heating Speed

T2 High-Stage Heating Speed

T3 Low-Stage Cooling Speed

T4 High-Stage Cooling Speed T5 Cooling Speed

CFM WATTS RISE CFM WATTS RISE CFM WATTS CFM WATTS CFM WATTS

0.1 950 115 47 1,245 230 48 1,045 149 1,280 258 1,440 354

0.2 895 124 50 1,195 238 50 990 160 1,225 259 1,390 365

0.3 840 134 54 1,150 247 52 935 167 1,180 274 1,355 369

0.4 775 146 58 1,095 256 55 875 179 1,130 280 1,300 383

0.5 710 152 63 1,045 263 57 820 186 1,085 293 1,260 396

0.6 650 160 X 990 277 61 755 194 1,030 295 1,210 402

0.7 590 163 X 935 285 64 700 197 975 304 1,160 397

0.8 540 171 X 870 288 X 650 214 920 315 1,110 415

16 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 17

Airflow Data (cont.)

GPG1642100M41** - Rise Range: 35 - 65

E.S.P.

T1 Low-Stage Heating Speed

T2 High-Stage Heating Speed

T3 Low-Stage Cooling Speed

T4 High-Stage Cooling Speed T5 Cooling Speed

CFM WATTS RISE CFM WATTS RISE CFM WATTS CFM WATTS CFM WATTS

0.1 1,100 172 51 1,420 325 53 1,075 162 1,335 274 1,620 484

0.2 1,040 181 54 1,360 331 55 1,015 172 1,290 288 1,575 489

0.3 985 185 57 1,310 342 57 960 185 1,230 297 1,530 497

0.4 920 193 61 1,275 353 59 900 188 1,185 304 1,490 500

0.5 875 203 64 1,210 360 62 845 200 1,130 321 1,450 507

0.6 815 207 X 1,165 368 64 790 208 1,075 321 1,405 518

0.7 765 215 X 1,115 369 X 740 211 1,030 325 1,345 516

0.8 710 216 X 1,075 385 X 680 217 980 330 1,300 528

GPG1648100M41** - Rise Range: 35 - 65

E.S.P.

T1 Low-Stage Heating Speed

T2 High-Stage Heating Speed

T3 Low-Stage Cooling Speed

T4 High-Stage Cooling Speed T5 Cooling Speed

CFM WATTS RISE CFM WATTS RISE CFM WATTS CFM WATTS CFM WATTS

0.1 1,085 171 52 1,410 326 53 1,225 227 1,475 367 1,790 641

0.2 1,035 178 54 1,365 329 55 1,190 240 1,430 366 1,745 650

0.3 985 184 57 1,315 337 57 1,120 246 1,375 378 1,710 659

0.4 925 193 61 1,270 353 59 1,070 254 1,320 383 1,670 663

0.5 870 198 65 1,220 360 61 1,015 266 1,270 397 1,625 674

0.6 815 208 X 1,175 372 64 970 265 1,230 400 1,585 672

0.7 760 213 X 1,115 375 X 920 279 1,185 409 1,540 675

0.8 710 219 X 1,080 381 X 875 280 1,140 417 1,495 683

18 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 19

Airflow Data (cont.)

GPG1660***M41**

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-GPG16M SS-GPG16M www.goodmanmfg.com 19

Airflow Data (cont.)

5 Ton Models: GPG1660***M41B*

Down Flow Horizontal Flow

Speed Tap

Torque %

Torque oz-ft

External Static

Pressure (ESP), in

w.c.

SCFM RPM BHP Speed Tap

Torque %

Torque oz-ft

External Static

Pressure (ESP), in

w.c.

SCFM RPM BHP

T1 25 20

0.2 983 570 0.14

T1 25 20

0.2 1003 606 0.14

0.4 833 659 0.16 0.4 850 701 0.17

0.6 703 739 0.18 0.6 718 785 0.19

0.8 574 808 0.19 0.8 586 858 0.20

1.0 446 871 0.21 1.0 455 926 0.22

T2 39 31.2

0.2 1299 669 0.25

T2 39 31.2

0.2 1325 710 0.26

0.4 1193 730 0.27 0.4 1217 775 0.29

0.6 1058 815 0.30 0.6 1080 866 0.32

0.8 950 875 0.32 0.8 969 930 0.35

1.0 842 936 0.35 1.0 859 995 0.37

T3 68 54.4

0.2 1770 825 0.53

T3 68 54.4

0.2 1806 876 0.57

0.4 1684 875 0.57 0.4 1718 930 0.60

0.6 1595 926 0.60 0.6 1627 984 0.64

0.8 1513 975 0.63 0.8 1544 1036 0.67

1.0 1401 1039 0.67 1.0 1429 1104 0.71

T4 76 60.8

0.2 1862 859 0.62

T4 76 60.8

0.2 1901 912 0.66

0.4 1787 909 0.66 0.4 1824 966 0.70

0.6 1702 955 0.69 0.6 1737 1014 0.73

0.8 1625 1005 0.73 0.8 1658 1067 0.77

1.0 1536 1056 0.76 1.0 1567 1122 0.81

T5 100 80

0.2 2132 954 0.91

T5 100 80

0.2 2175 1014 0.97

0.4 2056 993 0.95 0.4 2098 1055 1.00

0.6 1080 1038 0.99 0.6 1102 1102 1.05

0.8 1899 1079 1.03 0.8 1938 1146 1.09

1.0 1828 1113 1.06 1.0 1865 1183 1.13

*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-GPG16M SS-GPG16M 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-GPG16M SS-GPG16M www.goodmanmfg.com 21

Dimensions GPG1625-48***M41**

51 47

A B

2.5

W

W

H

H

1.375

6.5

2.125 4.125

3

16.875

4.75

5.5

SUPPLY

RETURN

POWER WIRE ENTRANCE

CONDENSATE DRAIN CONNECTION 3/4" NPT FEMALE

CONTROL WIRE ENTRANCE

Model

Unit Dimensions (Inches) Chassis

SizeHeight

W D A B

GPG1624***M41** 47 51 32 34 1/2 Medium

GPG1630***M41** 47 51 32 34 1/2 Medium

GPG1636***M41** 47 51 40 42 1/2 Large

GPG1642***M41** 47 51 40 42 1/2 Large

GPG1648***M41** 47 51 40 42 1/2 Large

GPG1660***M41B* 73 3/8 47 5/8 39 43 1/2 X-Large

Model

Duct Openings

Supply Return

W H W H

GPG1624***M41** 16 16 16 16

GPG1630***M41** 16 16 16 16

GPG1636***M41** 16 18 16 18

GPG1642***M41** 16 18 16 18

GPG1648***M41** 16 18 16 18

GPG1660***M41B* 17 12 11 25

22 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 23

Dimensions GPG1660***M41AA

M od

el A

Di m

en s

B Di

m en

s C

Di m

en s

G PG

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

22 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 23

Dimensions GPG1660***M41BA

24 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 25

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

24 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 25

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

GPG1660***M41** 46.4 28.1 655 629 186 204 65 174

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.

26 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 27

Wiring Diagram GPG1624-48***M41**

0140G04547-A

PU

RD

BK

BK

RD

BL

PU PU

PU PU

OR

BR WH

BL

BK

PU

BL

IGN

ALS

SOL

BK

YL RD

GR SEE NOTE 3

EM 208

PU

BK

NGL

T5T4T3T2T1

240 3

TR

2

RD

24V

C 1

YL

BL

208-230/1/60 POWER SUPPLY

GND

C

PU

PU

RD BK

BR PU BK

R S

COMP C

T2T1

CC L2L1 CM

PU

SEE NOTE 3

BL

BK

SEE NOTE 2

YL

YL

YL

YL YL

YL

YL

YL

FS RD

G

ECON

HI COOL LO COOL HI HEAT LO HEAT

P2

MVC MVH

MVL

PS

PS

HLO

TH

2

3 5

6

4 1

5

7

9

8

6

3

1

2

L1

L1

HI

LO

HI

SOL

GV

T4

T1

T3

T2 EM C

CC

C

H

M RS

PS

LS

ALS

TR

EM

VM

H

F

RCCF C

L2

T2 208-230/1/60

CM

L1

R T1

S COMPC

L1

SUPPLY VOLTAGE

P1

IN TE

G R

A TE

D IG

N IT

IO N

C O

N TR

O L

CCCC

COM

HLI

SEE NOTE 2

IN TE

R G

R A

TE D

IG N

IT IO

N C

O N

TR O

L

F

Y1

R

C

Y2

W2

W1

TO MICRO

TO MICRO

IN TE

G R

A TE

D IG

N IT

IO N

C O

N TR

O L

L1 LO

L2

L2

L2

L2

HPS

123

S EE

N O

TE 5

RUN CAPACITOR FOR COMPRESSOR/FAN

FACTORY WIRING

RCCF

FUSEF

COMPRESSORCOMP

LINE VOLTAGE

OPTIONAL HIGH VOLTAGE

HIGH VOLTAGE FIELD WIRING

LOW VOLTAGE

LOW VOLTAGE

BK BLACK WIRE CODE

PK PINK OR ORANGE

GR GREEN BR BROWN BL BLUE

RD RED WH WHITE YL YELLOW

PU PURPLE

ALS CC

COMPONENT LEGEND

CONTACTOR AUXILLARY LIMIT SWITCH

GAS VALVEGV

FS GND

IGNITOR

PS

LS

IGN IIC

EQUIPMENT GROUND

PRESSURE SWITCH

LIMIT SWITCH INTEGRATED IGNITION CONTROL

FLAME SENSOR

EM EVAPORATOR MOTOR

ODF OUTDOOR FAN

NOTES

1. REPLACEMENT WIRE MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL.(USE COPPER CONDUCTOR ONLY). 2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRE FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER. 3. USE COPPER CONDUCTORS ONLY 4. FOR 208V OPERATION, REMOVE BLUE LEAD FROM INDUCER LOW TERMINAL. MOVE BLACK LEAD FROM PARK TERMINAL ONTO INDUCER LOW TERMINAL. PLACE BLUE LEAD ON PARK TERMINAL. 5. USE NEC CLASS 2 WIRE FOR THERMOSTAT FIELD WIRING.

REPLACE CONTROL

3 MIN COMP. SHORT CYCLE DELAY

COMPR. SHORT CYCLE DELAY6 FLASHES

FLASHES

CHECK FOR SHORTS IN FLAME SENSOR WIRING

CHECK GAS VALVE

CHECK ROLLOUT LIMIT SW. CHECK AUXILIARY LIMIT SW.

CHECK MAIN LIMIT SWITCH CHECK WIRING FOR SHORTS CHECK PRESSURE SWITCHPRESSURE SWITCH CLOSED

CHECK VENT MOTOR CHECK TUBING

CHECK FUSE(S) CHECK INPUT POWER

-

GAS PRESSURE

FLAME SENSOR GAS VALVE

GAS FLOW

CHECK PRESSURE SWITCH

OFF

ON

1 FLASH

3 FLASHES

2 FLASHES

4 FLASHES

5 FLASHES FALSE FLAME DETECTED

OPEN LIMIT SWITCH WITHOUT INDUCER ON

PRESSURE SWITCH OPEN

IGNITION FAILURE

NORMAL OPERATION NO POWER OR

INTERNAL CONTROL FAULT

STATUS CHECK

CHECK FOR SHORTS IN FLAME SENSOR WIRING

-NORMAL FLAME PRESENT -

GAS PRESSURE

FLAME SENSOR GAS VALVE

GAS FLOW

CHECK GAS VALVE

ON

OFF

1 FLASH

2 FLASHES FALSE FLAME DETECTED

LOW FLAME SIGNAL

NO FLAME PRESENT

PSW/LOC OPEN9 FLASHES

CHECK JUMPER BETWEEN 1 AND 4 ON 6-CIRCUIT

CONNECTOR IDT/ODT OPEN8 FLASHES

CHECK AUXILIARY LIMIT SW. CHECK MAIN LIMIT SWITCHLIMIT OPEN 5 TIMES IN SAME

CALL FOR HEAT7 FLASHES

CHECK REFRIGERANT SWITCHES FOR LOSS OF CHARGE OR HIGH HEAD

PRESSURE

EQUIPMENT GROUND

FIELD GROUND

FIELD SPLICE

SWITCH (TEMP)

IGNITER SWITCH (PRESS.)

OVERCURRENT PROT. DEVICE

JUNCTION TERMINAL

INTERNAL TO INTEGRATED CONTROL

PLUG CONNECTION

CM CONDENSER MOTOR

GY GRAY

DIAGNOSTIC LED

RED

AMBER

HPS

HILOW ODF

L1HIGH

FS T1

LOW INDUCER

L2 PARK

F

OR

OR YL

PU

BR

NONE 5 MIN

10 MIN

180 150 120 90

Y2Y1GW2W1CRBLOWER OFF DELAY

STAGE DELAY ECON

LO HEAT

HI HEAT

HI COOL

LO COOL

24VAC COM

5

4

3

2

1 1

2

3

4

5

6

7

8

9

P1 BL

P2 5

4

2

1

36 YL

YL

YL

YL

SEE NOTE 5

HC F

C

H

M GV

GAS VALVE W. R.

PS

LS

RS

1 2

1 2

PU

YL

RCCF

OR

OR

YL

YL

PU

PU

PU

PU

BL

BR

YL YL PU

PU

BL

YL

BR

WH

RD YL BR

PU

PU RDBL BK

BK

YL

VM

BL

BK

BK

RD

SEE NOTE 4

BK

SEE NOTE 4

HLO HI LIMIT OUTPUT HI LIMIT INPUTHLI HIGH PRESSURE SWITCHHPS

MAIN GAS VALVE LOWMVL MVH

TH

SOLENOID (2ND STAGE COOL)SOL TR TRANSFORMER

VENT MOTORVM

MAIN GAS VALVE HIGH

TRANSFORMER HIGH

ROLLOUT SWITCHRS

MVC MAIN GAS VALVE COMMON

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.

26 www.goodmanmfg.com SS-GPG16M SS-GPG16M www.goodmanmfg.com 27

Wiring Diagram GPG1660***M41B*

TR 1

R DC

B G

R

3

V1 V2

E C

O N

PL M

E C

O N

PL F

P U

YL

TB 1

E S

P LM

E S

PL F

R D

R D

P K

G R

R D

C S

YL P U

BL G R

W H

P K

2

BL

AL S

A U

X IL

IA R

Y LI

M IT

S W

IT C

H B

C B

LO W

E R

C O

N TA

C TO

R B

M BL

O W

E R

M O

TO R

B R

BL O

W E

R R

E LA

Y C

B C

IR C

U IT

B R

E A

K E

R C

C C

O M

P R

E S

SO R

C O

N TA

C TO

R C

C H

C R

A N

K C

A SE

H E

A TE

R C

C P

C O

M P

R E

S S

O R

/C O

IL P

R O

TE C

TI O

N C

C X

C O

M P

R E

S S

O R

C O

N TA

C TO

R A

U X

IL IA

R Y

C M

C O

N D

E N

S E

R M

O TO

R C

M C

C O

N D

E N

S E

R M

O TO

R C

O N

TA C

TO R

C O

M P

C O

M P

R E

S SO

R C

S C

O M

PR ES

SO R

S O

LE N

O ID

(S TA

G E

2 )

E C

O N

E C

O N

O M

IZ E

R E

S E

M E

R G

E N

C Y

S H

U TD

O W

N FB

FU SE

B LO

C K

FP S

FR EE

ZE P

R O

TE C

TI O

N S

W IT

C H

FS FL

A M

E S

E N

S O

R G

N D

E Q

U IP

M E

N T

G R

O U

N D

G V

G A

S V

A LV

E IIC

IN TE

G R

A TE

D IG

N IT

IO N

C O

N TR

O L

5

TB 1

W 2

Y1 O

Y2 S2

R W

1 C

S 1

G D

H T1

T2 T3

T4 T5

G Y

YL W

H P

U

G R YL P U

B R

P U

W H

B R

YL

TB 2

B A

C D

B C

A 1

A 2

C C

A 1

A 2 B

L

TO N

YL

t = 1

80 s

R 1 Y1

BL

Y2R 2

YL

B M

PL F1

W H

W IR

E C

O DE

N O

TE S:

4321 5

B LA

C K

BL U

E B

LU E

W IT

H P

IN K

S TR

IP E

B R

O W

N G

R EE

N G

R A

Y O

R AN

G E

P IN

K P

U R

P LE

R ED

TA N

W H

IT E

Y EL

LO W

Y EL

LO W

W IT

H P

IN K

S TR

IP E

B K

BL B L/

P K

B R

G R

G Y

O R

P K

P U

R D

TN W H

YL YL /P

K

H IG

H V

O LT

A G

E LO

W V

O LT

AG E

O P

TI O

N A

L H

IG H

V O

LT A

G E

O P

TI O

N AL

L O

W V

O LT

A G

E

FI EL

D W

IR IN

G

FA CT

O RY

W IR

IN G

H IG

H V

O LT

A G

E LO

W V

O LT

A G

E

C O

M PO

NE N

T LE

G EN

D

6

121110987654321

121110987654321

R D

4321

4321

H PS LP

S

C C

P PL

F C

C P

PL M

B LBL YL YL

B L/

P K

YL /P

K

YL /P

K

BL /P

K

YL FP

S

YL

B K

B K

B K

B K

YL 654321

654321

54321

O R

R D

H PS

H IG

H P

R E

S SU

R E

S W

IT C

H LP

S LO

W P

R E

S S

U R

E S

W IT

C H

LS LI

M IT

S W

IT C

H P

B P

O W

E R

D IS

TR IB

U TI

O N

B LO

C K

P LF

FE M

AL E

P LU

G /C

O N

N E

C TO

R P

LM M

A LE

P LU

G /C

O N

N E

C TO

R P

S P

R E

S S

U R

E S

W IT

C H

R C

R U

N C

A P

A C

IT O

R TB

TE R

M IN

AL B

LO C

K TO

N TI

M E

O N

D EL

A Y

R E

LA Y

TR TR

A N

S FO

R M

ER V

M V

E N

T M

O TO

R V

M C

V E

N T

M O

TO R

C O

N TA

C TO

R

C O

M

24 V

C O

M G

V LM

T O

U T

P S

IN

3A

LM T

IN G P

S O

U T R W

C O

M P

IN C

O M

P O

U T

IIC P LM

IIC

P K BL

P K

FS

G R

O R

B L

P K

B L

G R YLW H

YLYLR D

R DP U

121110987654321 D 1 L2 L2 L2 L2L1 L1

C O

O L

FA N

H EA

T FA

N FS IG N

S PE

E D

- U

P

U N

U S

E D

P C

B A

G 12

3

987654321 121110

121110987654321

987654321 121110

R D

R D YL YL

B L

V M

C A1

A2

LS R

D R

D B

K B

K YL YL

B K

B K

P U

P U

B K

B K

R S

B K

B K

B K

B K

LP S

AL S

G A

S P

LM G

A S

PL F

G RG Y

P U

P U

B L

B R

TN

P U

P U

P U B L

B R TN

V M

L1 L2

T1 T2

V M

C

F3 F3

FB 3

4

B K

R D

P K

BL B

R

G R

YL W

H P

U

G R

P K

B L

B R

B L

G R

W H

G R

P K

BL B

R

BL G

Y

P U

R D

R D

YL YL YL YL G Y

B R

TN BL

YLP UTN

YL

BLP K

B L

B L

G R

W H

G R

321G V

PL M

P B

L1

G N

D

L2

LI N

E VO

LT AG

E

FB 1

F1 F1

B K

R D

20 8-

23 0V

/1 P

H /6

0H z

C C

L1 L2

T1 T2

G R

B M

B K

C R

S

C M

L1 L3

B R

G R

R C

R D

G R

B K

G R R D

FB 2

F2 F2

4

B K

R D

R D YL

B R

B K P U

L2

C O

M

H F

B K

R D

P U

P U

B K

B K

4

L1 L2

T1 T2

B K

B C

PL F

C M

P UYLG R

W H

B R

PL M

2 B

M P

LF 2

B M

PL M

C M

P LM

1 B

M

B K

P U

YLYL

B L

BL

BL

C O

M P

C C

X

B K

BL

BL

G R

BL P

U YL

B L

P K

P K

P K

1 0

BR 2

1 0

BR 3

1 0

G R

YL

BR 1

2 4

BR 2

2

BR 3

2 YLB

K

B K

P K

P K P K

P K

4 4

BR 3

8 7

BR 2

8 7

B RP U

P K

P K P K

BR 1

P K

B K

G Y

G Y

B L

P K

BL B L

B L

B L

YL YL

P U

B R

7

8

7

C O

M

23 0V

20 8V

B K

21 21

M 1~ M 1~ M 1~

M 1~

NGLC

NGLC

4321 5

8

9

R D

P K

C M

C C

- T1

C C

- T3

GL B

K

B R

N

G R

M 1~

B K

B R

9

C C

- A

1

TB 1

- Y 2

3 2

YL W H

TB 2

- C ,D

BL 1

2- S

P E

E D

M O

TO R

1 2 3

C O M

H IG H

LO W

YL P U

BL

B K R D

6

G Y

P U

R EP

LA C

EM EN

T W

IR E

M U

ST B

E SA

M E

SI ZE

A N

D T

YP E

O F

IN SU

LA TI

O N

A S

O R

IG IN

AL (A

T LE

AS T

10 5

C ).

U SE

C O

PP ER

C O

N D

U C

TO R

S O

N LY

. U SE

N .E

.C . C

LA SS

2 W

IR E

FO R

A LL

LO W

V O

LT AG

E FI

EL D

C O

N N

EC TI

O N

S.

IF O

PT IO

N AL

E C

O N

O M

IZ ER

IS IN

ST AL

LE D

R EM

O VE

E C

O N

P LM

J U

M PE

R A

N D

P LU

G IN

N EW

H AR

N ES

S FR

O M

E C

O N

O M

IZ ER

K IT

TR 1

PR IM

AR Y

(H IG

H V

O LT

AG E)

C O

N N

EC TI

O N

S: O

R AN

G E

W IR

E C

O N

N EC

TE D

T O

24 0/

46 0/

57 5V

T AP

A T

TH E

FA C

TO R

Y AN

D B

LA C

K W

IR E

TO C

O M

T ER

M IN

AL . F

O R

2 08

V SU

PP LY

P O

W ER

, M O

VE O

R AN

G E

W IR

E FR

O M

2 40

/4 60

/5 75

V TA

P TO

T H

E 20

8V T

AP .

FU SE

B LO

C KS

1 , 2

, & 3

A R

E O

PT IO

N AL

.

IF O

P TI

O N

A L

S A

FE TY

E Q

U IP

M E

N T

S U

C H

A S

A P

H A

S E

M O

N IT

O R

, F LO

A T

S W

IT C

H O

R S

M O

K E

D E

TE C

TO R

IS IN

S TA

LL E

D , U

N P

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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 GPG1660***M41AA Units

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

FSK01A Freeze Stat Kit

GHRC-1 Hurricane Restraint Clips

HA-02 High Altitude Kit

LAKT01 Low-Ambient Kit

LPM-06 LP Conversion Kit

220-GX-01 Flue Extension Kit

For the GPG1660***M41BA Units

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

0270L01250 Hurricane Restraint Clips (for 0221L00014 Roof Curb)

0270L01261 Hurricane Restraint Clips

HAKT036150 High Altitude Kit

LPHE-036072 LP Conversion Kit

HEFLUE048060 Flue Extension Kit

For GPG1624-48***M41** Units

Accessory Description

Item Number

Medium Chassis Large Chassis

Concentric Kit CDK36 CDK4872

Downflow Economizer PGEDJ101/102 PGEDJ103

Downflow Internal Filter Rack (with economizer) DDNIFRPGMM N/A (built into economizer)

Downflow Internal Filter Rack (no economizer) DDNIFRPGA DDNIFRPGA

Downflow Manual Damper PGMDD101/102 PGMDD103

Downflow Motorized Damper PGMDMD101/102 PGMDMD103

Downflow Square to Round SQRPG101/102 SQRPG103

Economizer Wiring Harness (2-4 Tons) 0259L00412 0259L00412

External Horizontal Filter Rack DPHFRA DPHFRA

Flue Extension Kit FLHDKT-1 FLHDKT-1

High-Altitude Kit HA-03 HA-03

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

Internal Horizontal Filter Rack DHZIFRPGCHA DHZIFRPGCHA

LP Conversion Kit LPM-08 LPM-08

Outdoor Thermostat with Housing OTDFPKG-01 OTDFPKG-01

Roof Curb D14CRBPGCHMA D14C

Manualsnet FAQs

If you want to find out how the GPG16M Goodman works, you can view and download the Goodman GPG16M User's Manual on the Manualsnet website.

Yes, we have the User's Manual for Goodman GPG16M as well as other Goodman manuals. All you need to do is to use our search bar and find the user manual that you are looking for.

The User's Manual should include all the details that are needed to use a Goodman GPG16M. Full manuals and user guide PDFs can be downloaded from Manualsnet.com.

The best way to navigate the Goodman GPG16M User's Manual is by checking the Table of Contents at the top of the page where available. This allows you to navigate a manual by jumping to the section you are looking for.

This Goodman GPG16M User's Manual consists of sections like Table of Contents, to name a few. For easier navigation, use the Table of Contents in the upper left corner.

You can download Goodman GPG16M User's Manual free of charge simply by clicking the “download” button in the upper right corner of any manuals page. This feature allows you to download any manual in a couple of seconds and is generally in PDF format. You can also save a manual for later by adding it to your saved documents in the user profile.

To be able to print Goodman GPG16M User's Manual, simply download the document to your computer. Once downloaded, open the PDF file and print the Goodman GPG16M User's Manual as you would any other document. This can usually be achieved by clicking on “File” and then “Print” from the menu bar.