LT3682 LINER [Linear Technology], LT3682 Datasheet - Page 21
LT3682
Manufacturer Part Number
LT3682
Description
1A Micropower Step-Down
Manufacturer
LINER [Linear Technology]
Datasheet
1.LT3682.pdf
(24 pages)
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APPLICATIONS INFORMATION
PCB Layout
For proper operation and minimum EMI, care must be taken
during printed circuit board layout. Figure 10 shows the
recommended component placement with trace, ground
plane and via locations. Note that large, switched currents
fl ow in the LT3682’s V
diode and the input capacitor (C
these components should be as small as possible. These
components, along with the inductor and output capacitor
(C
board, and their connections should be made on that layer.
All connections to GND should be made at a common
star ground point or directly to a local, unbroken ground
plane below these components. The SW and BOOST nodes
should be laid out carefully to avoid interference. If the
part is synchronized externally using the SYNC pin, care
must be taken laying out this signal to avoid interference
with sensitive nodes, especially V
keep the FB, R
traces will shield them from the SW and BOOST nodes.
The exposed pad Pin 13 on the bottom of the package
acts as a heat sink and must be soldered to the ground
node. To keep thermal resistance low, extend the ground
plane as much as possible and add thermal vias under and
near the LT3682 to any additional ground planes within
the circuit board and on the bottom side. Keep in mind
that the thermal design must keep the junctions of the
IC below the specifi ed absolute maximum temperature
of 125°C.
High Temperature Considerations
The PCB must provide heat sinking to keep the LT3682
cool. The exposed pad on the bottom of the package must
be soldered to a copper area, which in turn should be
tied to large copper layers below with thermal vias; these
layers will spread the heat dissipated by the LT3682. Place
additional vias to reduce thermal resistance further. With
these steps, the thermal resistance from die (or junction)
to ambient can be reduced to θ
100 LFPM airfl ow, this resistance can fall by another 25%.
Further increases in airfl ow will lead to lower thermal
resistance. Because of the large output current capability of
OUT
), should be placed on the same side of the circuit
T
, and V
IN
C
, SW and PGND pins, the catch
nodes small so that the ground
JA
IN
= 35°C/W or less. With
). The loop formed by
C
, FB, and R
T
. Finally,
the LT3682, it is possible to dissipate enough heat to raise
the junction temperature beyond the absolute maximum of
125°C. When operating at high ambient temperatures, the
maximum load current should be derated as the ambient
temperature approaches these maximums. If the junction
temperature reaches the thermal shutdown threshold, the
part will stop switching to prevent internal damage due
to overheating.
Power dissipation within the LT3682 can be estimated
by calculating the total power loss from an effi ciency
measurement. The die temperature is calculated by
multiplying the LT3682 power dissipation by the thermal
resistance from junction to ambient.
Other Linear Technology Publications
Application Notes 19, 35 and 44 contain more detailed
descriptions and design information for buck regulators
and other switching regulators. The LT1376 data sheet
has a more extensive discussion of output ripple, loop
compensation and stability testing. Design Note 318
shows how to generate a bipolar output supply using a
buck regulator.
Figure 10. A Good PCB Layout Ensures Proper, Low EMI Operation
GND
C2
V IN
V OUT
C1
D1
GND
L
LT3682
21
3682 F10
3682f
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