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14

COOLING PERFORMANCE DATA

SSZ160601A*

EXP

AN

DE

D PERF

O

R

M

A

NCE DAT

A

C

O

O

L

IN

G OP

E

R

A

T

IO

N

 M

O

D

E

L:

  S

S

Z

16

06

01

A

* /

 C

A

*F

48

60

*6

A

* +

 TX

V

 / M

B

E

2

00

0*

*-

1

D

e

si

gn 

S

u

b

c

ool

in

g

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 ±

 2

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F

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h

e

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q

ui

d s

e

rv

ic

e v

al

ve

A

R

I 9

5 t

e

st

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ondi

ti

ons

O

u

tdoo

r A

m

b

ie

n

Te

m

p

er

a

tu

re

6

5

7

5

8

5

95

1

05

1

15

En

te

ri

n

g

 In

do

or

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e

t B

u

lb

 T

e

m

p

er

at

u

re

ID

B

*

Ai

rf

lo

w

59

63

67

71

59

63

67

71

59

63

67

71

59

63

6

7

71

59

63

6

7

71

5

9

6

3

6

7

71

M

B

h

5

1.

85

2.

9

5

6.

66

0.

55

0.

65

1.

7

5

5.

2

5

9.

1

4

9.

4

50

.5

53

.95

7.

6

48

.2

49

.2

52

.6

56

.2

45

.84

6

.85

0

.05

3

.44

2

.44

3

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6

.34

9

.5

S

/T

0

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5

0

.8

0

0

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5

0

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8

0

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8

0

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3

0

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7

0

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0

0

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0

0.8

5

0.

6

9

0.

5

2

0.

9

3

0.

8

7

0.

71

0.

5

3

0.

9

7

0.

9

1

0.

7

4

0.

5

5

0.

9

8

0.

9

2

0.

74

0.

56

D

e

lta

 T

262

52

11

72

62

5

221

7

26

25

221

72

6

25

2

2

172

62

52

2

1

7

24

2

3

20

1

6

15

7

5

K

W

3

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1

3.

59

3

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1

3.

83

3.

79

3.

87

4.

0

0

4

.14

4.

0

3

4.

13

4.

26

4.

4

1

4.

2

5

4.

3

5

4.

49

4.

6

5

4.

4

3

4.

5

4

4.

6

9

4.

8

5

4.

5

9

4.

7

0

4.

86

5.

03

A

M

P

S

1

2.

9

1

3.

2

1

3.

6

1

4.

2

1

4.

0

1

4.

3

1

4.

8

1

5.

4

1

5.

2

15

.6

16.

1

16

.7

16.

3

16.

7

17

.2

17

.9

17

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17

.8

18

.4

19

.1

18

.4

18

.9

19

.5

20

.3

HI

 P

R

2

10

2

25

2

38

248

23

5

253

26

7

279

26

7

28

8

30

4

31

7

30

5

32

8

3

46

36

1

34

3

36

9

38

9

40

6

37

9

40

7

43

0

44

9

LO

 P

R

99

1

05

1

15

122

10

4

111

12

1

129

10

9

11

5

12

6

13

4

11

4

12

1

1

32

14

1

11

9

12

7

13

9

14

8

12

4

13

1

14

4

15

3

M

B

h

5

6.

1

5

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4

6

1.

3

6

5.

5

5

4.

8

5

6.

0

5

9.

9

6

4.

0

5

3.

5

54

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58.

4

62

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52.

2

53.

4

57

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60

.9

49

.6

50

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54

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57

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45

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46

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50

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S

/T

0

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0

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3

0

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7

0

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0

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1

0

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6

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2

0

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0.8

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1

0.5

3

0.

9

7

0.

9

1

0.

74

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5

5

1.

00

0.

9

4

0.

77

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5

7

1.

0

0

0.

9

5

0.

77

0.

58

De

lta

 T

25

24

21

17

26

25

21

17

26

25

21

17

26

25

21

17

25

24

2

1

1

7

23

2

3

20

1

6

80

1

800

K

W

3

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0

3.

68

3

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0

3.

93

3.

89

3.

97

4.

1

0

4

.24

4.

1

4

4.

23

4.

3

7

4.

5

2

4.

3

6

4.

4

6

4.

61

4.

7

7

4.

5

5

4.

6

6

4.

8

1

4.

9

8

4.

7

1

4.

8

2

4.

99

5.

16

A

M

P

S

1

3.

3

1

3.

6

1

4.

0

1

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6

1

4.

4

1

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7

1

5.

2

1

5.

8

1

5.

6

16

.0

16.

6

17

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16.

7

17.

2

17

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18

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17

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18

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18

.9

19

.7

18

.9

19

.4

20

.1

20

.9

H

I P

R

2

16

2

32

2

45

256

24

2

261

27

5

287

27

6

29

7

31

3

32

7

31

4

33

8

35

7

37

23

5

3

38

04

0

1

41

93

9

0

42

04

4

4

46

3

LO

 P

R

1

02

1

08

1

18

126

10

8

115

12

5

133

11

2

11

9

13

0

13

8

11

8

12

5

13

7

14

51

2

3

13

11

4

3

15

21

2

7

13

61

4

8

15

8

M

B

h

5

7.

85

9.

1

6

3.

16

7.

55

6.

55

7.

7

6

1.

6

6

5.

9

5

5.

1

56

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60

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4.

3

53

.8

55

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58

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62

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51

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2

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5

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9

.64

7

.34

8

.45

1

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5

.2

S

/T

0

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2

0

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7

0

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1

0

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3

0

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6

0

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0

0

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3

0

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5

1

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0

0.9

2

0.

7

5

0.

5

6

1.

0

0

0.

9

5

0.

77

0.

5

8

1.

0

0

1.

0

0

0.

8

0

0.

6

0

1.

0

0

1.

0

0

0.

81

0.

61

D

e

lta

 T

242

32

01

62

52

4

201

6

25

24

201

62

4

24

2

1

162

32

42

0

1

6

2

1

2

2

1

9

1

5

20

2

5

K

W

3

.63

3

.71

3

.83

3

.96

3

.92

4

.0

1

4

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4

4

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8

4

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7

4.

2

7

4.

4

1

4.

5

6

4.

4

0

4.

5

0

4.

65

4.

8

1

4.

5

9

4.

7

0

4.

8

6

5.

0

2

4.

7

6

4.

8

6

5.

03

5.

21

A

M

P

S

1

3.

4

1

3.

7

1

4.

2

1

4.

7

1

4.

5

1

4.

9

1

5.

4

1

5.

9

1

5.

8

16

.2

16.

7

17

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16.

9

17.

3

17

.9

18

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18

.0

18

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19

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19

.9

19

.1

19

.6

20

.3

21

.1

HI

 P

R

2

18

2

35

2

48

259

24

5

263

27

8

290

27

8

30

0

31

6

33

0

31

7

34

1

3

60

37

6

35

7

38

4

40

5

42

3

39

4

42

4

44

8

46

7

LO

 P

R

1

03

1

09

1

20

127

10

9

116

12

6

134

11

3

12

0

13

1

14

0

11

9

12

6

1

38

14

7

12

4

13

2

14

4

15

4

12

9

13

7

14

9

15

9

M

B

h

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2.

75

3.

7

5

6.

36

0.

05

1.

55

2.

5

5

5.

0

5

8.

6

5

0.

3

51

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53

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7.

2

49

.0

50

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52

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55

.8

46

.64

7

.54

9

.75

3

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3

.14

4

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6

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9

.1

S

/T

0

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9

0

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6

0

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8

0

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3

0

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2

0

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9

0

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0

0

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5

0

.9

5

0.9

1

0.

8

2

0.6

7

0.

9

8

0.

9

4

0.

85

0.

6

9

1.

0

0

0.

9

8

0.

8

8

0.

7

2

1.

0

0

0.

9

9

0.

89

0.

72

De

lta

 T

27

27

25

22

28

27

26

22

28

27

26

22

28

28

2

6

23

27

27

2

6

2

2

2

5

2

5

24

2

1

15

7

5

K

W

3

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4

3.

62

3

.7

4

3.

86

3.

82

3.

91

4.

0

3

4

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4.

0

7

4.

16

4.

30

4.

4

4

4.

2

9

4.

3

8

4.

53

4.

6

9

4.

4

7

4.

5

7

4.

7

3

4.

8

9

4.

6

3

4.

7

4

4.

90

5.

07

A

M

P

S

1

3.

0

1

3.

3

1

3.

8

1

4.

3

1

4.

1

1

4.

4

1

4.

9

1

5.

5

1

5.

3

15

.7

16.

3

16

.9

16.

4

16.

8

17

.4

18

.1

17

.5

17

.9

18

.6

19

.3

18

.6

19

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19

.7

20

.5

HI

 P

R

2

12

2

28

2

40

251

23

7

256

27

0

281

27

0

29

1

30

7

32

0

30

8

33

1

3

50

36

5

34

6

37

2

39

3

41

0

38

2

41

1

43

4

45

3

LO

 P

R

1

00

1

06

1

16

123

10

5

112

12

2

130

11

0

11

7

12

7

13

6

11

5

12

2

1

34

14

2

12

1

12

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14

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M

B

h

5

7.

15

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2

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06

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05

5.

85

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9

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6

6

3.

5

5

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5

55

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58

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2.

0

53

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54

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56

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60

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50

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1

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3

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7

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6

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7

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9

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3

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S

/T

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2

0

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9

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6

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3

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8

0.9

5

0.

8

6

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0

0

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9

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0.

88

0.7

2

1.

0

0

1.0

0

0.

9

2

0.7

4

1.

0

0

1.0

0

0.

92

0.

75

De

lta

 T

27

27

25

22

27

27

25

22

27

27

25

22

27

27

2

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26

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2

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2

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1

800

K

W

3

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3

3.

71

3

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96

3.

92

4.

01

4.

1

4

4

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4.

1

7

4.

27

4.

41

4.

5

6

4.

40

4.

50

4.

65

4.

8

1

4.

5

9

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7

0

4.

8

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0

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4.

7

6

4.

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6

5.

03

5.

21

A

M

P

S

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7

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2

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9

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3

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19

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21

.1

HI

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R

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18

2

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2

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4

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0

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97

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79

D

e

lta

 T

262

52

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6

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1

25

26

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24

24

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2

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22

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2

0

20

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6

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74

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95

4.

04

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30

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5

4

4.

69

4.

8

5

4.

6

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4.

7

4

4.

9

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0

7

4.

8

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4.

9

1

5.

07

5.

25

A

M

P

S

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3.

5

1

3.

8

1

4.

3

1

4.

8

1

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6

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5

1

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9

16

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19

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20

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21

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HI

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R

2

20

2

37

2

50

261

24

7

266

28

1

293

28

1

30

3

32

0

33

3

32

0

34

5

3

64

38

0

36

0

38

8

40

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42

7

39

8

42

8

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2

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2

LO

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R

1

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1

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1

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0

117

12

8

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11

4

12

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13

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12

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12

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1

39

14

8

12

6

13

4

14

6

15

5

13

0

13

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15

1

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1

S

had

ed

 a

re

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Содержание SSZ 16 SEER

Страница 1: ...tion Models listed on page 3 RT6214002r10 February2014 Copyright 2006 2007 2009 2010 2012 2014 Goodman Manufacturing Company L P TECHNICAL MANU TECHNICAL MANU TECHNICAL MANU TECHNICAL MANU TECHNICAL M...

Страница 2: ...re servicing or installing this unit Multiple power sources may be present Failure to do so may cause property damage personal injury or death Installation and repair of this unit should be performed...

Страница 3: ...Failure to follow these regulations may harm the environment and can lead to the imposition of substantial fines These regulations may vary by jurisdiction Should questions arise contact your local E...

Страница 4: ...ompressors are inherently more tolerant of small quantities of liquid refrigerant NOTE Even though the compressor section of a Scroll com pressor is more tolerant of liquid refrigerant continued flood...

Страница 5: ...ns 3 ton unit Unit is charged with refrigerant for 15 of 3 8 liquid line System charge must be adjusted per Installation Instructions Final Charge Procedure Installation of these units requires the sp...

Страница 6: ...connections 4 5 ton units Installer will need to supply 3 4 to 7 8 adapters for suction line connections 3 ton unit Unit is charged with refrigerant for 15 of 3 8 liquid line System charge must be ad...

Страница 7: ...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 Del t a T 21 19 16 11 21 20 16 11 21 20 16 11 21 20 16 11 21 19 16 11 20 18 15...

Страница 8: ...263 278 289 278 299 316 329 316 340 360 375 356 383 404 422 393 423 447 466 LO PR 114 121 132 141 120 128 140 149 125 133 145 155 131 140 152 162 138 146 160 170 142 151 165 176 MBh 22 2 22 6 23 7 25...

Страница 9: ...4 32 7 25 3 26 0 28 2 30 3 S T 0 79 0 71 0 54 0 35 0 82 0 74 0 56 0 36 0 84 0 75 0 57 0 37 0 87 0 78 0 59 0 38 0 90 0 81 0 61 0 39 0 91 0 81 0 62 0 40 Delta T 21 20 16 11 22 20 16 11 22 20 16 11 22 20...

Страница 10: ...282 303 320 334 321 346 365 381 361 389 411 428 399 430 454 473 LO PR 110 117 128 137 117 124 135 144 121 129 141 150 127 135 148 157 133 142 155 165 138 147 160 171 MBh 32 0 32 6 34 2 36 4 31 3 31 9...

Страница 11: ...8 34 7 35 8 38 7 41 5 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 89 0 79 0 60 0 39 0 92 0 82 0 62 0 40 0 93 0 83 0 63 0 40 DeltaT 23 21 18 12 23 22 18 12 24 22 18 12 24 22 18 1...

Страница 12: ...4 262 277 289 277 298 315 328 316 340 359 374 355 382 403 421 392 422 446 465 LO PR 112 119 130 139 118 126 138 147 123 131 143 152 129 138 150 160 136 144 157 168 140 149 163 173 MBh 43 9 44 8 46 9 5...

Страница 13: ...53 8 41 7 42 9 46 4 49 8 S T 0 77 0 69 0 52 0 34 0 80 0 72 0 54 0 35 0 82 0 74 0 56 0 36 0 85 0 76 0 58 0 37 0 88 0 79 0 60 0 38 0 89 0 80 0 60 0 39 Delta T 23 21 17 12 23 21 18 12 23 21 18 12 23 22 1...

Страница 14: ...263 278 290 278 300 316 330 317 341 360 376 357 384 405 423 394 424 448 467 LO PR 103 109 120 127 109 116 126 134 113 120 131 140 119 126 138 147 124 132 144 154 129 137 149 159 MBh 52 7 53 7 56 3 60...

Страница 15: ...40 5 31 4 32 3 35 0 3 7 5 S T 0 76 0 6 8 0 51 0 33 0 78 0 7 0 0 5 3 0 34 0 80 0 72 0 54 0 3 5 0 8 3 0 74 0 56 0 36 0 8 6 0 77 0 58 0 37 0 87 0 7 8 0 5 9 0 38 Delta T 25 23 19 13 2 6 24 19 13 2 6 24 1...

Страница 16: ...304 327 345 360 342 368 389 405 378 407 429 448 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 MBh 39 7 40 5 42 4 45 2 38 8 39 5 41 4 44 1 37 8...

Страница 17: ...34 0 80 0 7 2 0 5 4 0 35 0 82 0 74 0 56 0 3 6 0 8 5 0 76 0 58 0 37 0 8 8 0 79 0 60 0 38 0 89 0 8 0 0 6 0 0 39 Delta T 24 22 18 13 2 4 23 18 13 2 5 23 1 8 13 25 23 1 9 1 3 24 22 18 13 2 3 2 1 17 12 16...

Страница 18: ...4 391 413 431 4 02 43 2 45 6 476 LO PR 106 113 123 1 31 11 2 11 9 130 1 39 1 17 124 135 14 4 122 1 30 1 42 15 1 12 8 137 149 159 1 33 14 1 15 4 164 MBh 56 3 5 7 3 60 1 64 1 54 9 56 0 5 8 7 6 2 6 5 3 6...

Страница 19: ...D DB 75 OD DB 63 OD WB SSZ160601A CA F4860 6A TXV MBE2000 1 Conditions 80 F IDB 67 F IW B 1800 CFM Outdoor Temp F Total Btuh Sensible Btuh Latent Btuh Total Watts 75 36 330 25 939 10 391 2 276 80 35 8...

Страница 20: ...urn Air Dry Bulb T emperature F 17 27 Pressures shown are for most popular match indoor unit WITHNO FROSTON OUTDOORCOIL Due to factors like airflow charge indoor coil frost pressures will vary signifi...

Страница 21: ...sures w ill vary significantly Liquid service valve pressures should be 20 psig suction access port pressures should be 5 psig of the values listed in this chart 62 52 22 42 47 57 67 Indoor Return Air...

Страница 22: ...ture F 17 27 37 32 Pressures show n are for most popular match indoor unit WITH NO FROST ONOUTDOOR COIL Due to factors like airflow charge indoor coil frost pressures will vary significantly Liquid se...

Страница 23: ...18 7 17 6 16 9 16 6 15 6 14 8 14 1 13 5 12 8 12 5 12 3 11 6 10 8 10 2 9 3 8 4 COP 4 44 4 29 4 12 3 94 3 81 3 73 3 54 3 34 3 08 2 91 2 75 2 63 2 56 2 36 2 15 1 92 1 69 1 42 EER 15 2 14 7 14 1 13 5 13...

Страница 24: ...42 47 57 67 Indoor Return Air Dry Bulb T emperature F High Stage Pressures shown are for most popular match indoor unit WITH NO FROST ON OUTDOOR COIL Due to factors like airflow charge indoor coil fr...

Страница 25: ...sic Unit without Auxiliary Heat SSZ160481A CA F4860 6A TXV MBE2000 1 Conditions 1550 CFM 70 F Indoor Air Capacity of Unit With KW of Auxiliary heat capacity btuh c o p 4 8 9 6 14 4 19 2 65 71 65 4 44...

Страница 26: ...B CA F4860 6A TXV MBE2000 1 Conditions 1200 CFM 70 F DB LOW STAGE Outdoor Ambient F Basic Unit without Auxiliary Heat Capacity of Unit With KW of Auxiliary heat capacity btuh c o p 4 8 9 6 14 4 19 2 6...

Страница 27: ...ht increase will occur in indoor temperature drop Delta T A slight decrease will occur in low and high side pressures and power A properly operating unit should be within plus or minus 2 degrees of th...

Страница 28: ...W PINK STRIPE WIRING CODE FACTORY WIRING HIGH VOLTAGE LOW VOLTAGE OPTIONAL HIGH VOLTAGE FIELD WIRING HIGH VOLTAGE LOW VOLTAGE COMPONENT CODE C CONTACTOR CH CRANKCASE HEATER CM OUTDOOR FAN MOTOR COMP C...

Страница 29: ...RESSURE SWITCH HVDR HIGH VOLTAGE DEFROST RELAY IO INTERNAL OVERLOAD LPS LOW PRESSURE SWITCH LVDR LOW VOLTAGE DEFROST RELAY LVJB LOW VOLTAGE JUNCTION BOX RCCF RUN CAPACITOR FOR COMPRESSOR FAN RVC REVER...

Страница 30: ...SERVICING OR INSTALLING THIS UNIT MULTIPLE POWER SOURCES MAY BE PRESENT FAILURE TO DO SO MAY CAUSE PROPERTY DAMAGE PERSONAL INJURY OR DEATH SSZ160 60 1AB AC AD AE Wiring is subject to change always re...

Страница 31: ...RMOSTAT DT DISCHARGE THERMOSTAT HPS HIGH PRESSURE SWITCH HVDR HIGH VOLTAGE DEFROST RELAY IO INTERNAL OVERLOAD LPS LOW PRESSURE SWITCH LVDR LOW VOLTAGE DEFROST RELAY LVJB LOW VOLTAGE JUNCTION BOX RCCF...

Страница 32: ...WITCH HVDR HIGH VOLTAGE DEFROST RELAY IO INTERNAL OVERLOAD LPS LOW PRESSURE SWITCH LVDR LOW VOLTAGE DEFROST RELAY LVJB LOW VOLTAGE JUNCTION BOX RCCF RUN CAPACITOR FOR COMPRESSOR FAN RVC REVERSING VALV...

Страница 33: ...FOR COMPRESSOR OPTIONAL CONTROLS SHOWN WITH THERMOSTAT IN OFF POSITION OUTDOOR POW ER SUPPLY SEE RATING PLATE WIRING CODE FACTORY WIRING HIGH VOLTAGE LOW VOLTAGE OPTIONAL HIGH VOLTAGE FIELD WIRING HI...

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