Goodman DSXC160481B*, Technical Manual

Page: 12 / 56

12
PERFORMANCE DATA ASXC160241B*-LOW STAGE
LO
W
STA
G
E
EXP
A
NDE
D P
E
RF
ORM
A
N
C
E D
A
T
A
C
O
O
L
IN
G OP
E
R
AT
IO
N
M
O
D
E
L
: *
S
X
C
1
6
0
241B
* /
C
A
*F
363
6*
6*
*+
T
X
V
+
M
B
V
C
1
200*
*-
1*
O
ut
d
oo
r A
m
b
ie
nt
Te
m
p
er
a
tu
re
65
75
85
95
10
5
11
5
En
te
ri
n
g
In
d
o
o
r
W
e
t B
ulb
T
em
p
er
at
u
re
ID
B
*
A
ir
flo
w
59
63
67
71
59
63
67
7
1
5
9
6
3
6
7
71
5
9
63
67
7
1
5
9
63
67
71
59
63
67
71
M
B
h
15.
5
16.
0
17.
6
-
15
.1
15
.6
17
.1
-
14
.7
15
.3
16
.7
-
14
.4
1
4.
9
1
6.
3
-
1
3.
7
1
4.
2
1
5.
5
-
1
2.
7
1
3.
1
1
4.
4
-
S
/T
0.
6
60
.5
50
.3
8
-
0.
6
8
0.
5
7
0.
3
9
-
0.
7
00
.5
80
.4
0
-
0.
72
0
.6
0
0
.4
2
-
0.
75
0.
62
0.
43
-
0
.75
0
.63
0
.44
-
D
el
ta
T
20
17
13
-
20
17
13
-
2
0
1
7
1
3
-
2
0
17
13
-
20
17
13
-
19
16
12
-
47
3
K
W
1.
0
3
1.
0
5
1.
0
8
-
1.
1
1
1.
1
3
1.
1
7
-
1.
1
8
1.
2
1
1.
2
5
-
1.
24
1
.2
7
1
.3
1
-
1.
30
1.
32
1.
37
-
1
.34
1
.37
1
.42
-
A
M
P
S
4.1
4.
2
4.3
-
4.4
4.
5
4.6
-
4.8
4.
9
5.0
-
5
.1
5
.2
5
.4
-
5.
4
5
.5
5.
7
-
5.
7
5.
8
6.
0
-
H
I P
R
19
4
20
9
22
0
-
21
8
23
4
24
7
-
24
8
26
6
28
1
-
28
2
3
03
3
20
-
31
7
3
41
3
60
-
35
0
3
77
3
98
-
LO
P
R
98
10
5
11
4
-
10
4
11
1
12
1
-
10
8
11
5
12
5
-
11
3
1
21
1
32
-
11
9
1
26
1
38
-
12
3
1
31
1
43
-
M
B
h
16.
7
17.
4
19.
0
-
16
.4
17
.0
18
.6
-
16
.0
16
.5
18
.1
-
15
.6
1
6.
1
1
7.
7
-
1
4.
8
1
5.
3
1
6.
8
-
1
3.
7
1
4.
2
1
5.
6
-
S
/T
0.
6
80
.5
70
.3
9
-
0.
7
0
0.
5
9
0.
4
1
-
0.
7
20
.6
00
.4
2
-
0.
75
0
.6
2
0
.4
3
-
0.
77
0.
65
0.
45
-
0
.78
0
.65
0
.45
-
D
el
ta
T
19
17
13
-
20
17
13
-
2
0
1
7
1
3
-
2
0
17
13
-
20
17
13
-
18
16
12
-
70
54
0
K
W
1.
0
5
1.
0
8
1.
1
1
-
1.
1
4
1.
1
6
1.
2
0
-
1.
2
1
1.
2
4
1.
2
8
-
1.
27
1
.3
0
1
.3
5
-
1.
33
1.
36
1.
41
-
1
.38
1
.41
1
.46
-
A
M
P
S
4.2
4.
3
4.4
-
4.5
4.
6
4.8
-
4.9
5.
0
5.2
-
5
.2
5
.3
5
.5
-
5.
5
5
.7
5.
8
-
5.
8
6.
0
6.
2
-
H
I P
R
20
0
21
5
22
7
-
22
4
24
1
25
5
-
25
5
27
5
29
0
-
29
1
3
13
3
30
-
32
7
3
52
3
72
-
36
1
3
89
4
11
-
LO
P
R
10
1
10
8
11
8
-
10
7
11
4
12
4
-
11
1
11
8
12
9
-
11
7
1
24
1
36
-
12
3
1
30
1
42
-
12
7
1
35
1
47
-
M
B
h
17.
2
17.
9
19.
6
-
16
.8
17
.5
19
.1
-
16
.4
17
.0
18
.7
-
16
.0
1
6.
6
1
8.
2
-
1
5.
2
1
5.
8
1
7.
3
-
1
4.
1
1
4.
6
1
6.
0
-
S
/T
0.
7
10
.6
00
.4
1
-
0.
7
4
0.
6
2
0.
4
3
-
0.
7
60
.6
30
.4
4
-
0.
78
0
.6
5
0
.4
5
-
0.
81
0.
68
0.
47
-
0
.82
0
.68
0
.47
-
D
el
ta
T
19
16
12
-
19
16
12
-
1
9
1
6
1
2
-
1
9
16
12
-
19
16
12
-
17
15
11
-
60
8
K
W
1.
0
6
1.
0
9
1.
1
2
-
1.
1
5
1.
1
7
1.
2
1
-
1.
2
2
1.
2
5
1.
2
9
-
1.
29
1
.3
1
1
.3
6
-
1.
34
1.
37
1.
42
-
1
.39
1
.42
1
.47
-
A
M
P
S
4.2
4.
3
4.5
-
4.6
4.
7
4.8
-
4.9
5.
0
5.2
-
5
.3
5
.4
5
.5
-
5.
6
5
.7
5.
9
-
5.
9
6.
0
6.
2
-
H
I P
R
20
2
21
7
22
9
-
22
7
24
4
25
8
-
25
8
27
7
29
3
-
29
4
3
16
3
34
-
33
0
3
55
3
75
-
36
5
3
93
4
15
-
LO
P
R
10
2
10
9
11
9
-
10
8
11
5
12
6
-
11
2
12
0
13
1
-
11
8
1
26
1
37
-
12
4
1
32
1
44
-
12
8
1
36
1
49
-
M
B
h
15
.71
6.
21
7.
51
8
.81
5
.41
5
.8
17
.1
18
.41
5
.01
5
.41
6
.71
7
.91
4
.6
15
.1
16
.3
17
.5
13
.9
14
.3
15
.5
16
.6
1
2.
9
1
3.
2
1
4.
3
1
5.
4
S
/T
0.
7
50
.6
70
.5
00
.3
20
.7
70
.6
9
0.
5
2
0.
3
40
.7
90
.7
10
.5
40
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50
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2
0.
73
0
.5
5
0
.36
0
.85
0
.7
6
0
.5
7
0
.37
0
.86
0
.77
0
.58
0
.37
D
el
ta
T
232
11
71
22
32
11
71
2
2
3
2
1
1
7
1
2
2
3
21
18
1
2
2
3
21
17
12
21
20
16
11
47
3
K
W
1.
0
41
.0
61
.0
91
.1
31
.1
21
.1
4
1.
1
8
1.
2
21
.1
91
.2
21
.2
61
.3
01
.2
5
1.
28
1
.3
2
1
.37
1
.31
1
.3
4
1
.3
8
1
.43
1
.35
1
.38
1
.43
1
.48
A
M
P
S
4.1
4.
2
4.4
4.
5
4.4
4.
5
4.7
4.
9
4.8
4.
9
5.1
5
.3
5
.1
5.
2
5
.4
5
.6
5
.4
5
.6
5
.7
5
.9
5
.7
5.
9
6.
1
6.3
H
I P
R
19
6
21
1
22
3
23
2
22
0
23
7
25
0
26
1
25
0
26
9
28
4
29
6
28
5
30
6
3
24
3
38
3
20
3
45
3
64
3
80
3
54
3
81
4
02
4
20
LO
P
R
99
10
6
11
5
12
3
10
5
11
2
12
2
13
0
10
9
11
6
12
7
13
5
11
5
12
2
1
33
1
42
1
20
1
28
1
39
1
49
1
24
1
32
1
44
1
54
M
B
h
17
.01
7.
51
9.
02
0
.41
6
.61
7
.1
18
.5
19
.91
6
.21
6
.71
8
.11
9
.41
5
.8
16
.3
17
.7
18
.9
15
.0
15
.5
16
.8
18
.0
1
3.
9
1
4.
4
1
5.
5
1
6.
7
S
/T
0.
7
70
.6
90
.5
20
.3
40
.8
00
.7
2
0.
5
4
0.
3
50
.8
20
.7
30
.5
60
.3
60
.8
5
0.
76
0
.5
7
0
.37
0
.88
0
.7
9
0
.6
0
0
.38
0
.89
0
.79
0
.60
0
.39
D
el
ta
T
222
11
71
22
32
11
71
2
2
3
2
1
1
7
1
2
2
3
21
17
1
2
2
3
21
17
12
21
19
16
11
75
54
0
K
W
1.
0
61
.0
91
.1
21
.1
61
.1
51
.1
7
1.
2
1
1.
2
51
.2
21
.2
51
.2
91
.3
31
.2
9
1.
31
1
.3
6
1
.40
1
.34
1
.3
7
1
.4
2
1
.47
1
.39
1
.42
1
.47
1
.52
A
M
P
S
4.2
4.
3
4.5
4.
6
4.6
4.
7
4.8
5.
0
4.9
5.
0
5.2
5
.4
5
.3
5.
4
5
.6
5
.8
5
.6
5
.7
5
.9
6
.1
5
.9
6.
0
6.
2
6.5
H
I P
R
20
2
21
7
23
0
23
9
22
7
24
4
25
8
26
9
25
8
27
7
29
3
30
6
29
4
31
6
3
34
3
48
3
30
3
55
3
75
3
91
3
65
3
93
4
15
4
33
LO
P
R
10
2
10
9
11
9
12
7
10
8
11
5
12
6
13
4
11
2
12
0
13
1
13
9
11
8
12
6
1
37
1
46
1
24
1
32
1
44
1
53
1
28
1
36
1
49
1
58
M
B
h
17
.51
8.
11
9.
52
1
.01
7
.11
7
.6
19
.1
20
.51
6
.71
7
.21
8
.62
0
.01
6
.3
16
.8
18
.2
19
.5
15
.5
16
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17
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18
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1
4.
4
1
4.
8
1
6.
0
1
7.
2
S
/T
0.
8
10
.7
30
.5
50
.3
50
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40
.7
5
0.
5
7
0.
3
70
.8
60
.7
70
.5
80
.3
80
.8
9
0.
80
0
.6
0
0
.39
0
.92
0
.8
3
0
.6
2
0
.40
0
.93
0
.83
0
.63
0
.41
D
el
ta
T
222
01
61
12
22
01
61
1
2
2
2
0
1
6
1
1
2
2
20
17
1
1
2
2
20
16
11
20
19
15
11
60
8
K
W
1.
0
71
.0
91
.1
31
.1
71
.1
61
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8
1.
2
2
1.
2
61
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31
.2
61
.3
01
.3
41
.3
0
1.
33
1
.3
7
1
.42
1
.35
1
.3
8
1
.4
3
1
.48
1
.40
1
.43
1
.48
1
.53
A
M
P
S
4.3
4.
4
4.5
4.
7
4.6
4.
7
4.9
5.
0
5.0
5.
1
5.3
5
.4
5
.3
5.
4
5
.6
5
.8
5
.6
5
.8
5
.9
6
.2
5
.9
6.
1
6.
3
6.5
H
I P
R
20
4
22
0
23
2
24
2
22
9
24
6
26
0
27
1
26
0
28
0
29
6
30
9
29
7
31
9
3
37
3
51
3
34
3
59
3
79
3
95
3
69
3
97
4
19
4
37
LO
P
R
10
3
11
0
12
0
12
8
10
9
11
6
12
7
13
5
11
4
12
1
13
2
14
1
11
9
12
7
1
39
1
48
1
25
1
33
1
45
1
55
1
29
1
38
1
50
1
60
*
E
nt
e
rin
g
In
d
oo
r D
ry
B
u
lb
T
e
m
pe
ra
tu
re
N
O
T
E
:
S
ha
de
d
a
re
a
is
A
C
C
A
(
T
V
A
)
co
n
di
tio
n
s
K
W
=
T
ot
a
l syst
e
m
p
o
w
e
r
Hi
gh
a
n
d
lo
w
p
re
ssu
re
s
a
re
m
ea
su
re
d
a
t t
h
e
liq
ui
d
an
d su
ct
io
n
se
rv
ic
e
va
lv
es
.
A
M
P
S
=o
ut
d
oo
r u
n
it
am
p
s
(c
om
p.+
fa
n
)