QHW075G71 Lineage Power, QHW075G71 Datasheet - Page 14
QHW075G71
Manufacturer Part Number
QHW075G71
Description
CONVERTER DC/DC 2.5V 38W OUT
Manufacturer
Lineage Power
Series
QHWr
Type
Isolated with Remote On/Offr
Datasheet
1.QHW050G71.pdf
(20 pages)
Specifications of QHW075G71
Output
2.5V
Number Of Outputs
1
Power (watts)
38W
Mounting Type
Through Hole
Voltage - Input
36 ~ 75V
Package / Case
8-DIP Module
1st Output
2.5 VDC @ 15A
Size / Dimension
2.28" L x 1.45" W x 0.50" H (57.9mm x 36.8mm x 12.7mm)
Power (watts) - Rated
38W
Operating Temperature
-40°C ~ 100°C
Efficiency
86%
Approvals
CE, CSA, UL, VDE
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
3rd Output
-
2nd Output
-
4th Output
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
QHW075G71
Manufacturer:
TYCO
Quantity:
560
dc-dc Converters: 36 to 75 Vdc Input, 2.5 Vdc Output; 25 W to 50 W
Thermal Considerations
Heat Transfer with Heat Sinks
The power modules have through-threaded, M3 x 0.5
mounting holes, which enable heat sinks or cold plates
to attach to the module. The mounting torque must not
exceed 0.56 N-m (5 in.-lb.). For a screw attachment
from the pin side, the recommended hole size on the
customer’s PWB around the mounting holes is 0.130
± 0.005 inches. If a larger hole is used, the mounting
torque from the pin side must not exceed 0.25 N-m
(2.2 in.-lbs.).
Thermal derating with heat sinks is expressed by using
the overall thermal resistance of the module. Total
module thermal resistance (θca) is defined as the max-
imum case temperature rise (ΔT
module power dissipation (P
The location to measure case temperature (T
shown in Figure 22. Case-to-ambient thermal resis-
tance vs. airflow is shown, for various heat sink config-
urations, heights, and orientations, as shown in Figures
28 and 29. Longitudinal orientation is defined as when
the long axis of the module is parallel to the airflow
direction, whereas in the transverse orientation, the
long axis is perpendicular to the airflow. These curves
were obtained by experimental testing of heat sinks,
which are offered in the product catalog.
Figure 28. Case-to-Ambient Thermal Resistance
14
14
θ
ca
10
9
8
7
6
5
4
3
2
1
0
0
=
Curves; Transverse Orientation
ΔT
-------------------- -
(100)
0.5
P
C max
,
D
VELOCITY, m/s (ft./min.)
(200)
1.0
=
(
----------------------- -
T
D
(300)
C
1.5
):
P
–
D
C, max
T
A
NO HEAT SINK
1/4 IN. HEAT SINK
1/2 IN. HEAT SINK
1 IN. HEAT SINK
(continued)
)
(400)
2.0
) divided by the
(500) (600)
2.5
C
) is
8-2323 (F)
3.0
Figure 29. Case-to-Ambient Thermal Resistance
Figure 30. Heat Sink Power Derating Curves;
20
15
10
11
10
5
0
9
8
7
6
5
4
3
2
1
0
0
0
Curves; Longitudinal Orientation
10
Natural Convection; Transverse
Orientation
LOCAL AMBIENT TEMPERATURE, T
(100)
0.5
20
VELOCITY, m/s (ft./min.)
30
(200)
1.0
40
(300)
1.5
50
60
1 IN. HEAT SINK
1/2 IN. HEAT SINK
1/4 IN. HEAT SINK
NO HEAT SINK
NO HEAT SINK
1/4 IN. HEAT SINK
1/2 IN. HEAT SINK
1 IN. HEAT SINK
(400)
2.0
70
Lineage Power
April 2008
(500)
80
2.5
A
(°C)
90 100
8-2324 (F)
8-2889 (F)
(600)
3.0
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