Direct drive – Comfort-Aire TGRG Series for R-410A User Manual
Page 45
C
oo
l
H
ea
t
0.
1
[.0
2]
0.
2
[.0
5]
0.
3
[.0
7]
0.
4
[.1
0]
0.
5
[.1
2]
0.
6
[.1
5]
0.
7
[.1
7]
0.
8
[.2
0]
C
FM
[l/
s]
82
1
[3
87
]
79
9
[3
77
]
77
5
[3
66
]
74
2
[3
50
]
70
6
[3
33
]
68
1
[3
21
]
64
1
[3
03
]
61
1
[2
88
]
R
P
M
87
8
90
3
95
3
99
6
10
32
10
75
11
19
11
76
W
at
ts
13
1
13
4
14
2
14
5
14
7
15
4
15
6
16
1
C
FM
[l/
s]
84
3
[3
98
]
82
0
[3
87
]
78
6
[3
71
]
76
0
[3
59
]
72
6
[3
43
]
69
9
[3
30
]
66
2
[3
12
]
60
8
[2
87
]
R
P
M
89
6
92
4
96
1
10
15
10
45
10
92
11
25
11
72
W
at
ts
14
1
14
4
14
7
15
5
15
7
16
3
16
5
16
4
C
FM
[l/
s]
89
6
[4
23
]
88
4
[4
17
]
84
7
[4
00
]
82
5
[3
89
]
78
9
[3
72
]
75
2
[3
55
]
72
0
[3
40
]
64
2
[3
03
]
R
P
M
93
5
96
6
10
08
10
47
10
84
11
18
11
54
11
76
W
at
ts
16
5
17
1
17
5
18
2
18
4
18
6
18
9
17
4
C
FM
[l/
s]
11
53
[5
44
]
11
26
[5
31
]
10
87
[5
13
]
10
42
[4
92
]
10
02
[4
73
]
96
6
[4
56
]
90
3
[4
26
]
85
6
[4
04
]
R
P
M
86
6
88
7
93
0
96
6
10
10
10
38
10
82
11
21
W
at
ts
20
7
21
0
22
0
22
6
23
4
24
1
24
6
25
1
C
FM
[l/
s]
10
30
[4
86
]
10
10
[4
77
]
96
7
[4
56
]
92
2
[4
35
]
86
8
[4
10
]
82
5
[3
89
]
76
3
[3
60
]
70
9
[3
35
]
R
P
M
79
4
82
9
86
8
91
2
95
6
10
02
10
40
10
93
W
at
ts
15
5
16
4
16
9
17
8
18
3
19
2
19
5
20
3
C
FM
[l/
s]
12
42
[5
86
]
12
13
[5
72
]
11
73
[5
54
]
11
32
[5
34
]
10
86
[5
13
]
10
44
[4
93
]
10
03
[4
73
]
95
2
[4
49
]
R
P
M
91
2
93
4
97
2
10
12
10
55
10
81
11
09
11
46
W
at
ts
24
9
25
2
26
2
27
1
27
5
28
2
28
3
28
8
C
FM
[l/
s]
11
53
[5
44
]
11
26
[5
31
]
10
87
[5
13
]
10
42
[4
92
]
10
02
[4
73
]
96
6
[4
56
]
90
3
[4
26
]
85
6
[4
04
]
R
P
M
86
6
88
7
93
0
96
6
10
10
10
38
10
82
11
21
W
at
ts
20
7
21
0
22
0
22
6
23
4
24
1
24
6
25
1
C
FM
[l/
s]
12
42
[5
86
]
12
13
[5
72
]
11
73
[5
54
]
11
32
[5
34
]
10
86
[5
13
]
10
44
[4
93
]
10
03
[4
73
]
95
2
[4
49
]
R
P
M
91
2
93
4
97
2
10
12
10
55
10
81
11
09
11
46
W
at
ts
24
9
25
2
26
2
27
1
27
5
28
2
28
3
28
8
C
FM
[l/
s]
13
38
[6
31
]
13
09
[6
18
]
12
78
[6
03
]
12
34
[5
82
]
11
82
[5
58
]
11
35
[5
36
]
10
87
[5
13
]
10
07
[4
75
]
R
P
M
96
3
98
3
10
16
10
49
10
96
11
21
11
42
11
59
W
at
ts
30
4
30
7
31
6
32
1
32
8
33
2
33
0
31
5
C
FM
[l/
s]
12
28
[5
80
]
11
87
[5
60
]
11
40
[5
38
]
11
05
[5
22
]
10
62
[5
01
]
10
08
[4
76
]
95
9
[4
53
]
91
1
[4
30
]
R
P
M
76
1
80
8
84
1
88
4
92
0
96
0
99
9
10
38
W
at
ts
15
0
17
0
18
0
18
3
18
5
19
0
19
5
21
5
C
FM
[l/
s]
14
54
[6
86
]
14
33
[6
76
]
13
92
[6
57
]
13
54
[6
39
]
13
22
[6
24
]
12
83
[6
06
]
12
38
[5
84
]
11
92
[5
63
]
R
P
M
92
3
94
6
97
6
10
15
10
44
10
85
11
26
11
46
W
at
ts
30
1
30
9
31
6
32
7
33
7
34
8
35
6
36
3
C
FM
[l/
s]
15
44
[7
29
]
15
31
[7
23
]
14
73
[6
95
]
14
40
[6
80
]
13
98
[6
60
]
13
61
[6
42
]
13
17
[6
22
]
12
63
[5
96
]
R
P
M
95
8
97
3
10
25
10
46
10
78
11
09
11
47
11
63
W
at
ts
34
3
35
0
36
4
37
1
38
2
39
1
40
1
39
6
C
FM
[l/
s]
14
54
[6
86
]
14
33
[6
76
]
13
92
[6
57
]
13
54
[6
39
]
13
22
[6
24
]
12
83
[6
06
]
12
38
[5
84
]
11
92
[5
63
]
R
P
M
92
3
94
6
97
6
10
15
10
44
10
85
11
26
11
46
W
at
ts
30
1
30
9
31
6
32
7
33
7
34
8
35
6
36
3
C
FM
[l/
s]
16
42
[7
75
]
16
21
[7
65
]
15
84
[7
48
]
15
42
[7
28
]
14
96
[7
06
]
14
51
[6
85
]
13
96
[6
59
]
12
99
[6
13
]
R
P
M
10
06
10
22
10
64
10
90
11
14
11
51
11
60
11
72
W
at
ts
40
5
41
2
42
2
43
5
44
2
44
9
44
0
41
4
C
FM
[l/
s]
18
96
[8
95
]
18
63
[8
79
]
17
76
[8
38
]
16
94
[7
99
]
16
03
[7
57
]
15
28
[7
21
]
14
24
[6
72
]
13
16
[6
21
]
R
P
M
11
46
11
47
11
59
11
71
11
73
11
80
11
88
11
95
W
at
ts
62
4
61
4
58
3
55
4
52
2
49
7
46
7
43
2
C
FM
[l/
s]
14
18
[6
69
]
13
86
[6
54
]
13
52
[6
38
]
13
07
[6
17
]
12
70
[5
99
]
12
21
[5
76
]
11
80
[5
57
]
11
17
[5
27
]
R
P
M
77
4
79
4
82
9
86
0
89
2
92
2
95
5
10
15
W
at
ts
26
7
27
3
28
7
29
5
30
8
31
6
32
8
34
3
C
FM
[l/
s]
13
10
[6
18
]
12
88
[6
08
]
12
38
[5
84
]
12
04
[5
68
]
11
49
[5
42
]
11
04
[5
21
]
10
35
[4
88
]
97
1
[4
58
]
R
P
M
73
1
75
7
78
9
82
6
85
7
89
4
93
7
99
3
W
at
ts
21
8
22
9
23
7
25
0
25
8
27
0
28
0
29
4
C
FM
[l/
s]
18
58
[8
77
]
18
21
[8
59
]
17
82
[8
41
]
17
52
[8
27
]
17
14
[8
09
]
16
78
[7
92
]
16
40
[7
74
]
16
07
[7
58
]
R
P
M
94
4
96
8
99
4
10
19
10
41
10
72
10
89
11
11
W
at
ts
54
1
55
5
56
4
57
8
58
6
59
8
61
1
61
7
C
FM
[l/
s]
20
17
[9
52
]
19
85
[9
37
]
19
49
[9
20
]
19
09
[9
01
]
18
79
[8
87
]
18
43
[8
70
]
17
92
[8
46
]
17
37
[8
20
]
R
P
M
10
18
10
33
10
70
10
76
11
12
11
24
11
47
11
52
W
at
ts
69
0
70
1
71
1
72
3
73
5
74
1
74
2
72
8
N
ot
es
:(
1)
D
o
no
to
pe
ra
te
2
to
n
m
od
el
s
be
lo
w
70
0
C
FM
.(
2)
D
o
no
to
pe
ra
te
2-
1/
2
or
3
to
n
m
od
el
s
be
lo
w
87
5
C
FM
.(
3)
C
oo
lin
g
sp
ee
d
m
us
tb
e
ch
an
ge
d
to
Lo
w
C
oo
lt
o
ac
hi
ev
e
A
R
Ip
er
fo
rm
an
ce
(a
ll
m
od
el
s)
.
D
ow
n
D
is
ch
ar
ge
Pr
es
su
re
D
ro
p
(A
dd
to
Ex
te
rn
al
St
at
ic
Pr
es
su
re
)
C
FM
[L
/s
]
60
0
[2
83
]
80
0
[3
78
]
10
00
[4
72
]
12
00
[5
66
]
14
00
[6
61
]
16
00
[7
55
]
18
00
[8
49
]
20
00
[9
44
]
P
re
ss
ur
e
D
ro
p
-I
nc
he
s
W
.C
.[
kP
a]
0
.0
2
[.0
05
]
.0
5
[.0
12
]
.0
7
[.0
17
]
.1
[.0
25
]
.1
2
[.0
30
]
.1
5
[.0
37
]
.1
7
[.0
42
]
12
x
9
B
lo
w
er
1
H
P
[7
46
W
]
4
S
pe
ed
X
13
M
ot
or
H
ea
t
D
ed
ic
at
ed
(T
ap
1)
1s
tS
ta
ge
C
oo
l
D
ed
ic
at
ed
(T
ap
2)
2n
d
S
ta
ge
Lo
w
C
oo
l
(T
ap
3)
2n
d
S
ta
ge
H
ig
h
C
oo
l
(T
ap
4)
5.
0
[1
7.
59
]
1s
tS
ta
ge
C
oo
l
(T
ap
2)
--
--
--
--
2n
d
S
ta
ge
H
ig
h
C
oo
l
(T
ap
4)
H
ea
t
(T
ap
1)
10
0,
00
0
[2
9.
31
]
10
x
9
B
lo
w
er
3/
4
H
P
[5
59
W
]
3
S
pe
ed
X
13
M
ot
or
H
ea
t
D
ed
ic
at
ed
(T
ap
1)
Lo
w
C
oo
l
(T
ap
2)
H
ig
h
C
oo
l
(T
ap
3)
4.
0
[1
4.
07
]
H
ig
h
C
oo
l
(T
ap
3)
H
ea
t
(T
ap
1)
A
ll
In
pu
ts
60
,0
00
[1
7.
58
]
80
,0
00
[2
3.
45
]
10
0,
00
0
[2
9.
31
]
10
x
9
B
lo
w
er
1/
2
H
P
[3
73
W
]
3
S
pe
ed
X
13
M
ot
or
H
ea
t
D
ed
ic
at
ed
(T
ap
1)
Lo
w
C
oo
l
(T
ap
2)
H
ig
h
C
oo
l
(T
ap
3)
3.
5
[1
2.
31
]
H
ig
h
C
oo
l
(T
ap
3)
H
ea
t
(T
ap
1)
A
ll
In
pu
ts
40
,0
00
[1
1.
72
]
60
,0
00
[1
7.
58
]
80
,0
00
[2
3.
45
]
10
0,
00
0
[2
9.
31
]
10
x
9
B
lo
w
er
1/
2
H
P
[3
73
W
]
3
S
pe
ed
X
13
M
ot
or
H
ea
t
D
ed
ic
at
ed
(T
ap
1)
Lo
w
C
oo
l
(T
ap
2)
H
ig
h
C
oo
l
(T
ap
3)
3.
0
[1
0.
55
]
H
ig
h
C
oo
l
(T
ap
3)
H
ea
t
(T
ap
1)
A
ll
In
pu
ts
40
,0
00
[1
1.
72
]
60
,0
00
[1
7.
58
]
80
,0
00
[2
3.
45
]
10
0,
00
0
[2
9.
31
]
H
ig
h
C
oo
l
(T
ap
3)
2.
5
[8
.7
9]
H
ig
h
C
oo
l
(T
ap
3)
H
ea
t
(T
ap
1)
A
ll
In
pu
ts
40
,0
00
[1
1.
72
]
60
,0
00
[1
7.
58
]
80
,0
00
[2
3.
45
]
10
0,
00
0
[2
9.
31
]
10
x
9
B
lo
w
er
1/
2
H
P
[3
73
W
]
3
S
pe
ed
X
13
M
ot
or
H
ea
t
D
ed
ic
at
ed
(T
ap
1)
Lo
w
C
oo
l
(T
ap
2)
H
ig
h
C
oo
l
(T
ap
3)
M
ot
or
Sp
ee
d
Ex
te
rn
al
St
at
ic
Pr
es
su
re
-I
nc
he
s
W
.C
.[
kP
a]
(S
id
e
D
is
ch
ar
ge
-W
et
C
oi
l)
2.
0
[7
.0
3]
H
ig
h
C
oo
l
(T
ap
3)
H
ea
t
(T
ap
1)
A
ll
In
pu
ts
40
,0
00
[1
1.
72
]
60
,0
00
[1
7.
58
]
80
,0
00
[2
3.
45
]
9
x
7
B
lo
w
er
1/
3
H
P
[2
49
W
]
3
S
pe
ed
X
13
M
ot
or
H
ea
t
D
ed
ic
at
ed
(T
ap
1)
Lo
w
C
oo
l
(T
ap
2)
N
om
in
al
C
oo
lin
g
C
ap
ac
ity
To
ns
[k
W
]
M
ot
or
Sp
ee
d
fr
om
Fa
ct
or
y
H
ea
tin
g
In
pu
t
B
TU
/H
r[
kW
]
B
lo
w
er
Si
ze
/
M
ot
or
H
P
[W
]&
#
of
Sp
ee
ds
INDOOR AIRFLOW PERFORMANCE FOR 2-5 TON PACKAGE GAS ELECTRIC UNITS–TGRG**D
DIRECT DRIVE
45
In
d
o
o
r
A
ir
fl
o
w
P
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rf
o
rm
a
n
c
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-
2
0
8
V
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lt
s