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LTM8032
APPLICATIONS INFORMATION
Thermal Considerations
The LTM8032 output current may need to be derated if
it is required to operate in a high ambient temperature or
deliver a large amount of continuous power. The amount
of current derating is dependent upon the input voltage,
output power and ambient temperature. The temperature
rise curves given in the Typical Performance Character-
istics section can be used as a guide. These curves were
generated by an LTM8032 mounted to a 36cm 2 4-layer FR4
printed circuit board. Boards of other sizes and layer count
can exhibit different thermal behavior, so it is incumbent
upon the user to verify proper operation over the intended
system’s line, load and environmental operating conditions.
The thermal resistance numbers listed in the Pin Con-
figuration are based on modeling the μModule package
mounted on a test board specified per JESD51-9 “Test
Boards for Area Array Surface Mount Package Thermal
Measurements.” The thermal coefficients provided in this
page are based on JESD 51-12 “Guidelines for Reporting
and Using Electronic Package Thermal Information.”
For increased accuracy and fidelity to the actual application,
many designers use FEA to predict thermal performance.
To that end, the Pin Configuration typically gives four
thermal coefficients:
? θ JA – Thermal resistance from junction to ambient.
? θ JCbottom – Thermal resistance from junction to the
bottom of the product case.
? θ JCtop – Thermal resistance from junction to top of
the product case.
? θ JB – Thermal resistance from junction to the printed
circuit board.
While the meaning of each of these coefficients may seem
to be intuitive, JEDEC has defined each to avoid confu-
sion and inconsistency. These definitions are given in
JESD 51-12, and are quoted or paraphrased in the following:
? θ JA is the natural convection junction-to-ambient air
thermal resistance measured in a one cubic foot sealed
enclosure. This environment is sometimes referred to as
“still air” although natural convection causes the air to
move. This value is determined with the part mounted to
a JESD 51-9 defined test board, which does not reflect
an actual application or viable operating condition.
? θ JCbottom is the junction-to-board thermal resistance
with all of the component power dissipation flowing
through the bottom of the package. In the typical
μModule regulator, the bulk of the heat flows out the
bottom of the package, but there is always heat flow out
into the ambient environment. As a result, this thermal
resistance value may be useful for comparing packages
but the test conditions don’t generally match the user’s
application.
? θ JCtop is determined with nearly all of the component
power dissipation flowing through the top of the pack-
age. As the electrical connections of the typical μModule
regulator are on the bottom of the package, it is rare
for an application to operate such that most of the heat
flows from the junction to the top of the part. As in the
case of θ JCbottom , this value may be useful for comparing
packages but the test conditions don’t generally match
the user’s application.
? θ JB is the junction-to-board thermal resistance where
almost all of the heat flows through the bottom of the
μModule regulator and into the board, and is really the
sum of the θ JCbottom and the thermal resistance of the
bottom of the part through the solder joints and through
a portion of the board. The board temperature is mea-
sured a specified distance from the package, using a
two sided, two layer board. This board is described in
JESD 51-9.
8032fg
For more information www.linear.com/LTM8032
17
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