manualshive.com logo in svg

Goodman GPH 14 SEER R-410A, Technical Manual, Page: 22 / 27

Share
Download
Goodman GPH 14 SEER R-410A Technical Manual Download Page 22

22

COOLING PERFORMANCE DATA

GPH1448H41A*

 MOD

E

L

:  G

P

H

1

448H

41

A

*

EX

PA

N

D

E

D

 P

E

R

F

O

R

M

A

N

C

E

 D

A

T

A

CO

O

L

IN

G

 O

P

E

R

A

T

IO

N

D

esi

g

n

 S

u

b

c

o

o

li

n

g

, 11

 ±

 2

 °

F

 @

 t

h

e

 l

iq

u

id

 ac

ces

s f

it

ti

n

g

 c

o

n

n

ect

io

n

 A

H

R

I 95 t

e

s

co

n

d

it

io

n

s

. D

e

s

ig

n

 S

u

p

e

rh

e

a

7

 ±

 2 °

F

 @

 t

h

e co

m

p

re

s

s

o

s

u

c

ti

o

n

 a

cce

ss f

it

ti

n

g

 co

n

n

ect

io

n

.  

  

O

u

tdoo

r Am

b

ie

n

t Te

m

p

e

ra

tur

e

6

5

75

85

95

10

5

115

E

n

te

ri

ng

 I

n

do

o

r W

e

B

u

lb

 Te

m

p

e

ra

tu

re

ID

B

*

A

ir

fl

o

w

5

96

36

7

7

15

96

36

77

1

5

96

36

77

15

9

6

3

6

7

7

15

9

6

36

77

15

96

3

6

77

1

M

B

h

4

6

.74

7

.7

5

0

.9

5

4

.44

5

.64

6

.64

9

.75

3

.2

4

4

.54

5

.54

8

.65

1

.94

3

.4

4

4

.3

4

7

.4

5

0

.6

4

1

.2

4

2

.14

5

.04

8

.13

8

.23

9

.0

4

1

.74

4

.6

S

/T

0

.9

70

.9

1

0

.7

4

0

.5

51

.0

00

.9

40

.7

60

.5

7

1

.0

00

.9

60

.7

80

.5

91

.0

0

1

.0

0

0

.8

1

0

.6

0

1

.0

0

1

.0

00

.8

40

.6

31

.0

01

.0

0

0

.8

50

.6

3

D

e

lt

a

 T

2

32

21

9

1

52

32

21

91

6

2

32

21

91

62

2

2

3

2

0

1

62

1

2

21

91

52

02

0

1

81

4

1

798

K

W

3.

04

3.

1

0

3

.2

0

3

.30

3

.27

3.

34

3.

45

3

.5

6

3

.4

7

3

.55

3

.66

3.

78

3.

6

5

3

.7

3

3

.8

6

3.

9

9

3

.8

1

3

.89

4.

02

4.

16

3.

94

4

.0

3

4

.1

6

4.

30

A

M

P

S

1

3

.1

1

3

.4

1

3

.7

1

4

.2

1

4

.0

1

4

.3

1

4

.7

1

5

.2

1

5

.1

1

5

.4

1

5

.9

1

6

.4

1

6

.0

1

6

.4

1

6

.9

1

7

.5

1

7

.0

1

7

.4

1

7

.9

1

8

.5

1

7

.9

1

8

.3

1

8

.9

1

9

.5

H

I P

R

2

4

7

266

281

29

3

2

7

7

2

9

8

3

15

329

31

5

3

3

9

3

5

8

3

74

359

38

6

4

08

426

404

43

5

4

5

9

4

7

9

4

46

480

507

52

9

LO

 P

R

1

1

2

119

130

13

8

1

1

8

1

2

5

1

37

146

12

3

1

3

0

1

4

2

1

52

129

13

7

1

49

159

135

14

3

1

5

7

1

6

7

1

40

148

162

17

3

M

B

h

4

5

.34

6

.3

4

9

.5

5

2

.94

4

.24

5

.24

8

.35

1

.6

4

3

.24

4

.14

7

.25

0

.44

2

.1

4

3

.1

46

.0

4

9

.2

4

0

.0

4

0

.9

4

3

.7

4

6

.7

3

7

.1

3

7

.9

4

0

.5

4

3

.3

S

/T

0

.9

20

.8

6

0

.7

0

0

.5

30

.9

50

.9

00

.7

30

.5

4

0

.9

80

.9

20

.7

50

.5

61

.0

0

0

.9

5

0.

7

7

0.

5

8

1

.0

0

0

.98

0.

80

0.

60

1.

00

0

.9

9

0

.8

1

0.

60

D

e

lt

a

 T

2

42

32

0

1

62

42

32

01

6

2

42

32

01

62

4

2

3

20

16

2

3

2

3

20

16

21

2

2

1

9

15

80

1

600

K

W

3.

01

3.

0

8

3

.1

7

3

.27

3

.24

3.

31

3.

42

3

.5

3

3

.4

5

3

.52

3

.63

3.

75

3.

6

2

3

.7

0

3.

8

3

3.

9

5

3

.7

8

3

.86

3.

99

4.

12

3.

91

3

.9

9

4

.1

3

4.

27

A

M

P

S

1

3

.0

1

3

.2

1

3

.6

1

4

.1

1

3

.9

1

4

.2

1

4

.6

1

5

.1

1

5

.0

1

5

.3

1

5

.8

1

6

.3

1

5

.9

1

6

.3

16

.8

1

7

.3

1

6

.8

1

7

.2

1

7

.7

1

8

.4

1

7

.7

1

8

.1

1

8

.7

1

9

.4

H

I P

R

2

4

5

263

278

29

0

2

7

4

2

9

5

3

12

325

31

2

3

3

6

3

5

5

3

70

356

38

3

40

4

421

400

43

0

4

5

5

4

7

4

4

42

476

502

52

4

LO

 P

R

1

1

0

118

128

13

7

1

1

7

1

2

4

1

36

144

12

1

1

2

9

1

4

1

1

50

127

13

6

14

8

158

134

14

2

1

5

5

1

6

5

1

38

147

160

17

1

M

B

h

4

1

.84

2

.7

4

5

.6

4

8

.84

0

.84

1

.74

4

.64

7

.7

3

9

.94

0

.74

3

.54

6

.53

8

.9

3

9

.7

4

2

.5

4

5

.4

3

6

.9

3

7

.84

0

.34

3

.13

4

.23

5

.0

3

7

.43

9

.9

S

/T

0

.8

90

.8

3

0

.6

8

0

.5

10

.9

20

.8

60

.7

00

.5

3

0

.9

40

.8

90

.7

20

.5

40

.9

7

0

.9

1

0

.7

4

0

.5

6

1

.0

1

0

.9

50

.7

70

.5

81

.0

20

.9

6

0

.7

80

.5

8

D

e

lt

a

 T

2

42

32

0

1

62

52

42

11

6

2

52

42

11

62

5

2

4

2

1

1

72

4

2

32

01

62

32

2

1

91

5

1

402

K

W

2.

94

3.

0

0

3

.1

0

3

.19

3

.16

3.

23

3.

33

3

.4

4

3

.3

6

3

.43

3

.54

3.

66

3.

5

3

3

.6

1

3

.7

3

3.

8

5

3

.6

8

3

.76

3.

89

4.

02

3.

81

3

.8

9

4

.0

2

4.

16

A

M

P

S

1

2

.7

1

2

.9

1

3

.3

1

3

.7

1

3

.6

1

3

.9

1

4

.3

1

4

.7

1

4

.6

1

4

.9

1

5

.4

1

5

.9

1

5

.5

1

5

.8

1

6

.3

1

6

.9

1

6

.4

1

6

.8

1

7

.3

1

7

.9

1

7

.3

1

7

.7

1

8

.2

1

8

.9

H

I P

R

2

3

7

255

270

28

1

2

6

6

2

8

6

3

03

316

30

3

3

2

6

3

4

4

3

59

345

37

1

3

92

409

388

41

7

4

4

1

4

6

0

4

29

461

487

50

8

LO

 P

R

1

0

7

114

124

13

3

1

1

3

1

2

0

1

32

140

11

8

1

2

5

1

3

7

1

46

124

13

2

1

44

153

130

13

8

1

5

0

1

6

0

1

34

143

156

16

6

N

O

T

E

 S

had

ed ar

e

a

 r

e

fl

e

c

ts

 A

H

R

ra

ti

n

g

 c

o

n

d

iti

o

n

s

M

B

h

4

7

.54

8

.4

5

0

.7

5

4

.14

6

.44

7

.34

9

.55

2

.8

4

5

.34

6

.14

8

.35

1

.64

4

.2

4

5

.0

4

7

.1

5

0

.3

4

2

.0

4

2

.84

4

.84

7

.83

8

.93

9

.6

4

1

.54

4

.3

S

/T

1

.0

00

.9

8

0

.8

8

0

.7

21

.0

01

.0

00

.9

10

.7

4

1

.0

01

.0

00

.9

40

.7

61

.0

0

1

.0

0

0

.9

7

0

.7

8

1

.0

0

1

.0

01

.0

00

.8

11

.0

01

.0

0

1

.0

00

.8

2

D

e

lt

a

 T

2

42

42

3

2

02

42

42

32

0

2

32

42

32

02

3

2

3

2

3

2

02

1

2

22

32

02

02

0

2

11

9

1

798

K

W

3.

06

3.

1

3

3

.2

2

3

.33

3

.29

3.

37

3.

47

3

.5

9

3

.5

0

3

.58

3

.69

3.

82

3.

6

8

3

.7

7

3

.8

9

4.

0

2

3

.8

4

3

.92

4.

05

4.

19

3.

97

4

.0

6

4

.2

0

4.

34

A

M

P

S

1

3

.2

1

3

.5

1

3

.9

1

4

.3

1

4

.1

1

4

.4

1

4

.9

1

5

.4

1

5

.2

1

5

.6

1

6

.0

1

6

.6

1

6

.2

1

6

.5

1

7

.0

1

7

.6

1

7

.1

1

7

.5

1

8

.0

1

8

.7

1

8

.0

1

8

.5

1

9

.0

1

9

.7

H

I P

R

2

5

0

269

284

29

6

2

8

0

3

0

1

3

18

332

31

8

3

4

3

3

6

2

3

77

363

39

0

4

12

430

408

43

9

4

6

4

4

8

4

4

51

485

512

53

4

LO

 P

R

1

1

3

120

131

13

9

1

1

9

1

2

7

1

38

147

12

4

1

3

2

1

4

4

1

53

130

13

8

1

51

161

136

14

5

1

5

8

1

6

9

1

41

150

164

17

4

M

B

h

4

6

.14

7

.0

4

9

.2

5

2

.54

5

.04

5

.94

8

.15

1

.3

4

3

.94

4

.84

6

.95

0

.14

2

.9

4

3

.7

4

5

.8

4

8

.8

4

0

.7

4

1

.54

3

.54

6

.43

7

.73

8

.5

4

0

.34

3

.0

S

/T

0

.9

70

.9

3

0

.8

4

0

.6

81

.0

00

.9

70

.8

70

.7

1

1

.0

00

.9

90

.8

90

.7

31

.0

0

1

.0

0

0

.9

2

0

.7

5

1

.0

0

1

.0

00

.9

60

.7

81

.0

01

.0

0

0

.9

70

.7

8

D

e

lt

a

 T

2

62

52

4

2

12

62

52

42

1

2

52

52

42

12

5

2

5

2

4

2

12

3

2

42

42

12

22

2

2

21

9

85

1

600

K

W

3.

04

3.

1

0

3

.2

0

3

.30

3

.27

3.

34

3.

45

3

.5

6

3

.4

7

3

.55

3

.66

3.

78

3.

6

5

3

.7

3

3

.8

6

3.

9

9

3

.8

1

3

.89

4.

02

4.

16

3.

94

4

.0

3

4

.1

6

4.

30

A

M

P

S

1

3

.1

1

3

.4

1

3

.7

1

4

.2

1

4

.0

1

4

.3

1

4

.7

1

5

.2

1

5

.1

1

5

.4

1

5

.9

1

6

.4

1

6

.0

1

6

.4

1

6

.9

1

7

.5

1

7

.0

1

7

.4

1

7

.9

1

8

.5

1

7

.9

1

8

.3

1

8

.9

1

9

.5

H

I P

R

2

4

7

266

281

29

3

2

7

7

2

9

8

3

15

329

31

5

3

3

9

3

5

8

3

74

359

38

6

4

08

426

404

43

5

4

5

9

4

7

9

4

46

480

507

52

9

LO

 P

R

1

1

2

119

130

13

8

1

1

8

1

2

5

1

37

146

12

3

1

3

0

1

4

2

1

52

129

13

7

1

49

159

135

14

3

1

5

7

1

6

7

1

40

148

162

17

3

M

B

h

4

2

.54

3

.4

4

5

.4

4

8

.54

1

.54

2

.44

4

.44

7

.3

4

0

.64

1

.34

3

.34

6

.23

9

.6

4

0

.3

4

2

.2

4

5

.1

3

7

.6

3

8

.34

0

.14

2

.83

4

.83

5

.5

3

7

.23

9

.7

S

/T

0

.9

30

.9

0

0

.8

1

0

.6

60

.9

60

.9

30

.8

40

.6

8

0

.9

90

.9

50

.8

60

.7

01

.0

0

0

.9

9

0

.8

9

0

.7

2

1

.0

0

1

.0

00

.9

20

.7

51

.0

01

.0

0

0

.9

30

.7

6

D

e

lt

a

 T

2

62

62

4

2

12

62

62

42

1

2

62

62

42

12

6

2

6

2

5

2

12

5

2

52

42

12

32

3

2

32

0

1

402

K

W

2.

96

3.

0

3

3

.1

2

3

.22

3

.19

3.

26

3.

36

3

.4

7

3

.3

9

3

.46

3

.57

3.

69

3.

5

6

3

.6

4

3

.7

6

3.

8

9

3

.7

1

3

.79

3.

92

4.

05

3.

84

3

.9

3

4

.0

6

4.

19

A

M

P

S

1

2

.8

1

3

.0

1

3

.4

1

3

.9

1

3

.7

1

4

.0

1

4

.4

1

4

.9

1

4

.7

1

5

.0

1

5

.5

1

6

.0

1

5

.6

1

6

.0

1

6

.5

1

7

.0

1

6

.5

1

6

.9

1

7

.4

1

8

.0

1

7

.4

1

7

.8

1

8

.4

1

9

.0

H

I P

R

2

4

0

258

272

28

4

2

6

9

2

8

9

3

06

319

30

6

3

2

9

3

4

8

3

62

348

37

5

3

96

413

392

42

2

4

4

5

4

6

4

4

33

466

492

51

3

LO

 P

R

1

0

8

115

126

13

4

1

1

4

1

2

2

1

33

141

11

9

1

2

6

1

3

8

1

47

125

13

3

1

45

154

131

13

9

1

5

2

1

6

2

1

35

144

157

16

7

*

E

n

te

ri

n

g

 I

n

d

o

o

D

ry

 B

u

lb

 T

e

m

p

e

ra

tu

re

N

O

T

E

 S

h

a

d

e

d

 a

re

a

 i

s

 A

H

R

R

a

tin

g

 C

o

n

d

it

io

n

s

K

W

 =

 To

ta

l syst

e

m

 p

o

w

e

r

H

igh 

a

n

d l

o

w

 pr

e

s

s

u

re

s

 ar

e m

e

a

su

red

 a

t t

h

e

 l

iqui

d and

 s

u

c

tio

ac

c

e

s

s

 f

it

ti

n

g

s

.

A

M

P

S

: U

n

it

 am

p

s

 (

c

om

p.

+

 ev

ap

o

rat

or

 +

 c

o

nde

ns

e

fa

n m

o

to

rs

)

Summary of Contents for GPH 14 SEER R-410A

Page 1: ...SEER R 410A Package Heat Pump Units RT6332012r2 September2010 Copyright 2010 Goodman Manufacturing Company L P Note that these tax credits are subject to specific requirements set forth in the America...

Page 2: ...r repair this unit without such back ground may result in product damage personal injury or death Goodman will not be responsible for any injury or property damage arising from improper service or ser...

Page 3: ...EPA office WARNING WARNING Do not connect or use any device that is not design certified by Goodman for use with this unit Serious property damage personal injury reduced unit performance and or hazar...

Page 4: ...ccess Fitting System with a saddle that is either soldered to the suction and liquid lines or is fastened with a locking nut to the access fitting box core and then screwed into the saddle NOTE The co...

Page 5: ...e person with rails or guards in accordance with local codes or ordinances or in their absence with the latest edition of the Uniform Mechanical Code Section 305 WARNING TO PREVENT POSSIBLE PROPERTY D...

Page 6: ...0 C 45 52 60 60 9 50 32 400 HKR15 C 45 52 60 60 22 25 30 30 14 25 48 600 GPH1436H41A HKR05 C 24 27 30 30 4 75 16 200 HKR08 C 34 39 40 40 7 00 23 800 HKR10 C 45 52 60 60 9 50 32 400 HKR15 C 45 52 60 60...

Page 7: ...Y 6 500 RETURN 4 500 BACK VIEW DUCT OPENINGS A 14 000 B GPH14 24 60 H41A Chassis Model A B GPH1424H41 22 000 29 932 GPH1430H41 22 000 29 932 GPH1436H41 24 000 34 932 GPH1442H41 24 000 34 932 GPH1448H4...

Page 8: ...0 25 40 COMPRESSOR TYPE SCROLL SCROLL SCROLL RATED LOAD AMPS 12 8 14 1 16 7 LOCKED ROTOR AMPS 58 3 73 79 CONDENSER HORSEPOWER 1 6 1 6 1 4 FAN MOTOR RPM 815 815 1075 FULL LOAD AMPS 1 1 1 1 1 5 LOCKED R...

Page 9: ...CROLL SCROLL RATED LOAD AMPS 17 9 19 9 26 4 LOCKED ROTOR AMPS 112 109 134 CONDENSER HORSEPOWER 1 4 1 4 1 4 FAN MOTOR RPM 1075 1075 1075 FULL LOAD AMPS 1 4 1 4 1 4 LOCKED ROTOR AMPS 2 9 2 9 2 9 CONDENS...

Page 10: ...01 103 Motorized Damper To Be Used With PCP101 103 GPHMD101 103 Manual Damper for Horizontal Applications SQRPCH101 Square to Round Adapters 16 14 SQRPCH102 103 Square to Round Adapters 18 14 SQRPC101...

Page 11: ...CFM 1537 1478 1431 1386 1336 1293 1253 1208 WATTS 244 258 274 288 303 317 329 341 CFM 1418 1383 1349 1312 1275 1228 1178 1141 WATTS 242 258 273 282 299 308 320 338 CFM 1175 1635 1645 1515 1510 1450 1...

Page 12: ...100 130 140 150 100 90 80 70 60 50 40 30 20 10 OUTPUT BTU HR x 1000 BTU OUTPUT vs TEMPERATURE RISE CHART TEMPERATURE RISE 600 CFM 700 900 1000 1100 1200 1400 1600 1800 2000 2200 2400 CFM FORMULAS BTU...

Page 13: ...26 5 28 4 23 2 23 9 25 8 27 7 22 6 23 3 25 2 27 1 21 5 22 1 23 9 25 7 19 9 20 5 22 2 23 8 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...

Page 14: ...294 307 295 317 335 349 335 361 381 398 377 406 429 447 417 449 474 494 LO PR 109 116 126 134 115 122 133 142 119 127 139 148 125 133 146 155 131 140 152 162 136 144 158 168 NOTE Shaded area reflects...

Page 15: ...34 5 28 1 29 0 31 3 33 6 27 4 28 3 30 6 32 8 26 1 26 8 29 1 31 2 24 1 24 9 26 9 28 9 S T 0 91 0 81 0 61 0 39 0 94 0 84 0 64 0 41 0 96 0 86 0 65 0 42 0 99 0 89 0 67 0 43 1 00 0 92 0 70 0 45 1 00 0 93 0...

Page 16: ...303 316 303 326 344 359 345 371 392 409 388 417 441 460 429 461 487 508 LO PR 114 121 132 141 120 128 139 149 125 133 145 154 131 139 152 162 137 146 160 170 142 151 165 176 NOTE Shaded area reflects...

Page 17: ...9 34 2 35 2 38 1 40 9 33 4 34 4 37 2 39 9 31 7 32 6 35 3 37 9 29 4 30 2 32 7 35 1 S T 0 87 0 78 0 59 0 38 0 90 0 81 0 61 0 39 0 92 0 83 0 62 0 40 0 95 0 85 0 65 0 41 0 99 0 88 0 67 0 43 1 00 0 89 0 68...

Page 18: ...308 321 308 332 350 365 351 378 399 416 395 425 449 468 436 470 496 517 LO PR 110 117 128 136 116 124 135 144 121 129 140 150 127 135 148 157 133 142 155 165 138 146 160 170 NOTE Shaded area reflects...

Page 19: ...38 0 39 1 42 4 45 5 37 1 38 2 41 3 44 4 35 2 36 3 39 3 42 1 32 6 33 6 36 4 39 0 S T 0 85 0 76 0 58 0 37 0 88 0 79 0 60 0 38 0 90 0 81 0 61 0 39 0 93 0 83 0 63 0 41 0 97 0 87 0 66 0 42 0 98 0 87 0 66 0...

Page 20: ...299 312 300 322 340 355 341 367 388 404 384 413 436 455 424 456 482 503 LO PR 109 116 126 134 115 122 133 142 119 127 139 148 125 133 146 155 131 140 153 163 136 145 158 168 NOTE Shaded area reflects...

Page 21: ...6 43 7 45 0 48 7 52 3 42 6 43 9 47 5 51 0 40 5 41 7 45 1 48 5 37 5 38 6 41 8 44 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 86 0 65 0 42 1 00 0 90 0 68 0 44 1 00 0 90 0 68...

Page 22: ...303 316 303 326 344 359 345 371 392 409 388 417 441 460 429 461 487 508 LO PR 107 114 124 133 113 120 132 140 118 125 137 146 124 132 144 153 130 138 150 160 134 143 156 166 NOTE Shaded area reflects...

Page 23: ...54 2 55 8 60 4 64 8 52 8 54 4 58 9 63 2 50 2 51 7 55 9 60 0 46 5 47 9 51 8 55 6 S T 0 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...

Page 24: ...296 309 296 319 336 351 337 363 383 400 379 408 431 450 419 451 476 497 LO PR 105 112 122 130 111 118 129 137 115 123 134 143 121 129 141 150 127 135 147 157 131 140 152 162 NOTE Shaded area reflects...

Page 25: ...21 Above information is for nominal CFM and 70 degree indoor dry bulb Instantaneous capacity listed MODEL GPH1436H41A HEATING OPERATION Outdoor Ambient Temperature 65 60 55 50 47 45 40 35 30 25 20 17...

Page 26: ...137 127 119 109 103 99 91 81 73 65 58 54 52 44 38 32 28 22 Above information is for nominal CFM and 70 degree indoor dry bulb Instantaneous capacity listed MODEL GPH1448H41A HEATING OPERATION Outdoor...

Page 27: ...NNECTOR REVERSING VAVLE COIL RUN CAPACITOR FOR COMPRESSOR AND FAN START ASSIST TRANSFORMER HIGH PRESSURE SWITCH WIRE CODE BK BLACK BL BLUE BR BROWN GR GREEN OR ORANGE PU PURPLE RD RED WH WHITE YL YELL...

Reviews:

No comments