QW030A Lineage Power, QW030A Datasheet - Page 12
QW030A
Manufacturer Part Number
QW030A
Description
CONVERTER DC/DC 5V 30W OUT
Manufacturer
Lineage Power
Series
QWr
Type
Isolated with Remote On/Offr
Datasheet
1.QW030A.pdf
(16 pages)
Specifications of QW030A
Output
5V
Number Of Outputs
1
Power (watts)
30W
Mounting Type
Through Hole
Voltage - Input
36 ~ 75V
Package / Case
8-DIP Module
1st Output
5 VDC @ 6A
Size / Dimension
2.28" L x 1.45" W x 0.50" H (57.9mm x 36.8mm x 12.7mm)
Power (watts) - Rated
30W
Operating Temperature
-40°C ~ 105°C
Efficiency
86%
Approvals
CE, CSA, UL, VDE
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
3rd Output
-
2nd Output
-
4th Output
-
Lead Free Status / Rohs Status
No RoHS Version Available
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
QW030A1
Manufacturer:
TYCO
Quantity:
20 000
Part Number:
QW030A1 30W
Manufacturer:
LINEAGEPOWER
Quantity:
20 000
18 Vdc to 36 Vdc or 36 Vdc to 75 Vdc Inputs
Thermal Considerations
Heat Transfer Without Heat Sinks
Figure 14. QW030C Typical Power Dissipation vs.
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. 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 (∆T
module power dissipation (P
The location to measure case temperature (T
shown in Figure 8. Consult your Tyco Electronics’
Account Manager or Application Engineer for case-to-
ambient thermal resistance vs. airflow for various heat
sink configurations, heights, and orientations. Longitu-
dinal orientation is defined as the long axis of the mod-
ule that is parallel to the airflow direction, whereas in
the transverse orientation, the long axis is perpendicu-
lar to the airflow. These curves are obtained by experi-
mental testing of heat sinks, which are offered in the
product catalog.
12
12
6
5
4
3
2
1
0
0.27
θ
Output Current at T
ca
0.77
=
∆T
-------------------- -
OUTPUT CURRENT, I
P
C max
,
D
1.27
D
=
):
A
C, max
(
----------------------- -
1.77
T
= 25 °C
(continued)
C
P
–
O
) divided by the
D
T
(A)
A
)
V
V
V
2.27
I
I
I
(continued)
= 75 V
= 48 V
= 36 V
C
) is
8-3287(C)
2.77
These measured resistances are from heat transfer
from the sides and bottom of the module as well as the
top side with the attached heat sink; therefore, the
case-to-ambient thermal resistances shown are gener-
ally lower than the resistance of the heat sink by itself.
The module used to collect the data in the case-to-
ambient thermal resistance curves had a thermal-con-
ductive dry pad between the case and the heat sink to
minimize contact resistance.
Custom Heat Sinks
A more detailed model can be used to determine the
required thermal resistance of a heat sink to provide
necessary cooling. The total module resistance can be
separated into a resistance from case-to-sink (θcs) and
sink-to-ambient (θsa) as shown in Figure 15.
Figure 15. QC/QW030-Series Resistance from
For a managed interface using thermal grease or foils,
a value of θcs = 0.1 °C/W to 0.3 °C/W is typical. The
solution for heat sink resistance is:
This equation assumes that all dissipated power must
be shed by the heat sink. Depending on the user-
defined application environment, a more accurate
model, including heat transfer from the sides and bot-
tom of the module, can be used. This equation pro-
vides a conservative estimate for such instances.
Layout Considerations
Copper paths must not be routed beneath the power
module standoffs. For additional layout guidelines, refer
to the FLTR100V10 or FLTR100V20 data sheet.
P
D
→
Case-to-Sink and Sink-to-Ambient
T
θ
C
sa
=
θcs
(
------------------------ -
T
C
P
–
D
T
T
A
S
)
Tyco Electronics Corp.
–
θ
θsa
cs
April 2002
T
A
8-1304(C)
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