ltc3862gn-1 Linear Technology Corporation, ltc3862gn-1 Datasheet - Page 34

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ltc3862gn-1

Manufacturer Part Number
ltc3862gn-1
Description
Multi-phase Current Mode Step-up Dc/dc Controller
Manufacturer
Linear Technology Corporation
Datasheet

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Part Number
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Part Number:
LTC3862GN-1
Manufacturer:
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20 000
LTC3862-1
APPLICATIONS INFORMATION
PC Board Layout Checklist
When laying out the printed circuit board, the following
checklist should be used to ensure proper operation of
the converter:
1. For lower power applications a 2-layer PC board is suf-
34
AC COUPLED
200mV/DIV
100V/DIV
100V/DIV
For the bulk capacitance, which we assume contributes
1% to the total output ripple, the minimum required
capacitance is approximately:
For this application, in order to obtain both low ESR
and an adequate ripple current rating (see Figure 23),
two 47μF , 100V aluminum electrolytic capacitors were
connected in parallel with six 2.2μF , 100V ceramic
capacitors. Figure 26 illustrates the switching wave-
forms for this application circuit.
fi cient. However, for higher power levels, a multilayer
PC board is recommended. Using a solid ground plane
and proper component placement under the circuit is
the easiest way to ensure that switching noise does
not affect the operation.
C
2A/DIV
2A/DIV
OUT
V
SW1
SW2
OUT
I
I
L1
L2
Figure 26. LTC3862-1 Switching Waveforms
for 72V Output Boost Converter
= 3.45µF
V
V
I
OUT
IN
OUT
0.01• n • V
= 24V
= 0.6A
= 72V
I
O(MAX)
OUT
2μs/DIV
• f
=
0.01• 2 • 72V • 300kHz
1.5A
38621 F26
2. In order to help dissipate the power from the MOSFETs
3. Place all power components in a tight area. This will
4. Orient the input and output capacitors and current
5. Place the INTV
6. Use a local via to ground plane for all pads that
7. Place the small-signal components away from high
8. The exposed area on the bottom of the QFN package
9. The MOSFETs should also be placed on the same
and diodes, keep the ground plane on the layers closest
to the power components. Use power planes for the
MOSFETs and diodes in order to maximize the heat
spreading from these components into the PCB.
minimize the size of high current loops. The high di/dt
loops formed by the sense resistor, power MOSFET,
the boost diode and the output capacitor should be
kept as small as possible to avoid EMI.
sense resistors in a way that minimizes the distance
between the pads connected to the ground plane.
Keep the capacitors for INTV
as possible to LTC3862-1.
possible to the INTV
layer as the IC. A low ESR (X5R or better) 4.7μF to
10μF ceramic capacitor should be used.
connect to the ground. Use multiple vias for power
components.
frequency switching nodes on the board. The pinout
of the LTC3862-1 was carefully designed in order to
make component placement easy. All of the power
components can be placed on one side of the IC, away
from all of the small-signal components.
is internally connected to PGND; however it should
not be used as the main path for high current fl ow.
layer of the board as the sense resistors. The MOSFET
source should connect to the sense resistor using a
short, wide PCB trace.
CC
decoupling capacitor as close as
CC
and PGND pins, on the same
CC
, 3V8 and V
IN
as close
38621f

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