Delta Electronics GFB0812SHG User Manual
Dimensions drawing, P & q curve, Mounting panel cutout
* Function type is optional.
* The max. air flow and the speed are measured in free air ; max. air pressure is measured at zero air flow.
* Noise is measured in anechoic chamber in free air, one meter from intake side.
* All readings are typical values at rated voltage.
* Specifications are subject to change without notice.
80 x 80 x 50.8 MM SERIES
GFB
DIMENSIONS DRAWING
mm
(INCH)
UNIT:
P & Q CURVE
(AT RATED VOLTAGE)
MOUNTING PANEL CUTOUT
mm
(INCH)
UNIT:
OUTLET SIDE
INLET SIDE
Impeller & Frame : Plastic(UL 94V-0)
Black Wire Negative(-)
Red Wire Positive(+)
UL 1061 AWG #24 OR Equivalent
Ball Bearings
*
Material
*
Weight : 165g (5.82 OZ)
*
Lead Wires :
*
Bearing Type
50.8
(2.000 )
LABEL
10.0
(14.173 0.394)
360 10.0
(0.394)
(0.157 0.012)
4.0 0.3
(0.157 0.012)
4.0 0.3
7
1
.5
0
.3
8
0
.0
0
.5
(3
.1
5
0
0
.0
2
0
)
(2
.8
1
5
0
.0
1
2
)
10- 4.5 0.3
(10- 0.177 0.012)
71.5 0.3
(2.815 0.012)
(3.150 0.020)
80.0 0.5
9
0.0
(
3
.5
43
)
7
1
.5
7
6
.6
(3
.0
1
6
)
(2
.8
1
5
)
(2.815)
(3.016)
71.5
76.6
7
6
.6
(3
.0
1
6
)
(
3
.5
43
)
9
0.0
7
1
.5
(2
.8
1
5
)
76.6
71.5
(3.016)
(2.815)
4- 4.5
4- 4.5
0.40
0.32
0.24
0.16
0.08
(I
N
H
O
)
A
ir
P
re
s
s
u
re
2
(m
m
H
O
)
Air Flow
1.2
2
0
0
0
0
2.0
16.0
0.4
32.0
0.8
4.0
6.0
8.0
10.0
64.0
1.6
48.0
2.0
(M /MIN)
(CFM)
3
0.48
GFB0812/24XG
12.0
VH
HH
SH
Operating
Voltage
Range
MODEL
Rated
Voltage
Maximum
Air Flow
Maximum
Air Pressure
Noise
PART NO. FUNCTION VDC VDC Amp Watt R.P.M. CFM mmH O IN H O dB-A
2
2
GFB0812HHG -R00 / -F00
12
7.0 to 13.2
0.31
3.72
1.388
5.91
0.233
43.0
49.02
3100/2900
GFB0824HHG -R00 / -F00
24
14.0 to 27.6
0.18
4.32
GFB0812VHG -R00 / -F00
12
7.0 to 13.2
0.47
5.64
3600/3260
1.612
56.93
8.15
0.321
47.5
GFB0824VHG -R00 / -F00
24
14.0 to 27.6
0.24
5.76
GFB0812SHG -R00 / -F00
12
7.0 to 13.2
0.73
8.76
4200/3750
1.942
68.58
11.32
0.445
53.0
GFB0824SHG -R00 / -F00
24
14.0 to 27.6
0.37
8.88
0.3
-
-
+0.8
+0.031
0.012
(4- 0.177)
(4- 0.177)
Speed
(Front /Rear)
76
http://www.deltaww.com
Input
Power
Input
Current