LTM8062IV#PBF Linear Technology, LTM8062IV#PBF Datasheet - Page 17
LTM8062IV#PBF
Manufacturer Part Number
LTM8062IV#PBF
Description
IC, BATT CHRG, Li-Ion, Li-Polymer, 2A, LGA77
Manufacturer
Linear Technology
Datasheet
1.LTM8062EVPBF.pdf
(22 pages)
Specifications of LTM8062IV#PBF
Battery Type
Li-Ion, Li-Polymer
Input Voltage
32V
Battery Charge Voltage
14.4V
Charge Current Max
2A
Battery Ic Case Style
LGA
No. Of Pins
77
No. Of Series Cells
1
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While the meaning of each of these coefficients may seem
to be intuitive, JEDEC has defined each to avoid confusion
and inconsistency. These definitions are given in JESD
51-12, and are quoted or paraphrased below:
1. θ
2. θ
3. θ
APPLICATIONS INFORMATION
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.
with all of the component power dissipation flowing
through the bottom of the package. In the typical
µModule, 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 re-
sistance value may be useful for comparing packages
but the test conditions don’t generally match the user’s
application.
power dissipation flowing through the top of the pack-
age. As the electrical connections of the typical µModule
are on the bottom of the package, it is rare for an ap-
plication to operate such that most of the heat flows
from the junction to the top of the part. As in the case
of θ
packages but the test conditions don’t generally match
the user’s application.
JA
JCbottom
JCtop
JCbottom
is the natural convection junction-to-ambient air
is determined with nearly all of the component
is the junction-to-board thermal resistance
Figure 8. Thermal Resistances Among µModule Device Printed Circuit Board and Ambient Environment
, this value may be useful for comparing
JUNCTION
µMODULE DEVICE
(BOTTOM) RESISTANCE
JUNCTION-TO-CASE
JUNCTION-TO-AMBIENT RESISTANCE (JESD 51-9 DEFINED BOARD)
JUNCTION-TO-BOARD RESISTANCE
JUNCTION-TO-CASE (TOP)
RESISTANCE
CASE (BOTTOM)-TO-BOARD
RESISTANCE
4. θ
The most appropriate way to use the coefficients is when
running a detailed thermal analysis, such as FEA, which
considers all of the thermal resistances simultaneously.
None of them can be individually used to accurately pre-
dict the thermal performance of the product, so it would
be inappropriate to attempt to use any one coefficient to
correlate to the junction temperature versus load graphs
given in the LTM8033 data sheet.
A graphical representation of these thermal resistances
is given in Figure 8.
The blue resistances are contained within the µModule,
and the green are outside.
The die temperature of the LTM8062 must be lower than
the maximum rating of 125°C, so care should be taken in
the layout of the circuit to ensure good heat sinking of the
LTM8062. The bulk of the heat flow out of the LTM8062
is through the bottom of the module and the LGA pads
into the printed circuit board. Consequently a poor printed
circuit board design can cause excessive heating, result-
ing in impaired performance or reliability. Please refer to
the PCB Layout section for printed circuit board design
suggestions.
almost all of the heat flows through the bottom of the
µModule and into the board, and is really the sum of
the θ
of the part through the solder joints and through a por-
tion of the board. The board temperature is measured a
specified distance from the package, using a two sided,
two layer board. This board is described in JESD 51-9.
JB
is the junction-to-board thermal resistance where
JCbottom
CASE (TOP)-TO-AMBIENT
BOARD-TO-AMBIENT
and the thermal resistance of the bottom
RESISTANCE
RESISTANCE
80421 F08
AMBIENT
LTM8062
17
8062fa
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