Datasheet
LTC3863
26
3863f
For more information www.linear.com/3863
APPLICATIONS INFORMATION
C
CAP
should be placed near the V
IN
and CAP pins. Figure 9
shows C
CAP
placed adjacent to the V
IN
and CAP pins with
SENSE routed between the pads. This is the recommended
layout and results in the minimum parasitic inductance.
The gate driver is capable of providing high peak current.
Parasitic inductance in the gate drive and the series in-
ductance between V
IN
to CAP can cause a voltage spike
between V
IN
and CAP on each switching cycle. The voltage
spike can result in electrical over-stress to the gate driver
and can result in gate driver failures in extreme cases. It
is recommended to follow the example shown in Figure 9
for the placement of C
CAP
as close as is practical.
C
SF
L1
Q1
D1
CAP
C
CAP
PGND
LTC3863
3863 F08
SS
ITH
FREQ
SGND
GROUND
PLANE
TO PGND
RUN
V
IN
PLLIN/MODE
SENSE
GATE
V
FBN
V
FB
R
ITH
R
SF
R
SENSE
R
GATE
R
FREQ
R
FB1
R
FB2
V
OUT
V
IN
C
IN
+
–
C
ITH
C
PITH
C
INB
C
SS
C
OUT
C
FB2
Figure 8: LTC3863 Generic Application Schematic with Optional
Current Sense Filter and Series Gate Resistor
R
GATE
TO Q1 GATE
TO R
SENSE
+
3863 F09
C
INB
C
CAP
GATE
SENSE
CAP
V
IN
C
SF
R
SF
TO R
SENSE
–
Figure 9: LTC3863 Recommended Gate Driver PC Board
Placement, Layout and Routing
R
GATE
resistor pads can be added with a 0Ω resistor to
allow the damping resistor to be added later. The total
length of the gate drive trace to the PMOS gate should
be minimized and ideally be less than 1cm. In most cases
with a good layout the R
GATE
resistor is not needed. The
R
GATE
resistor should be located near the gate pin to re-
duce peak current through GATE and minimize reflected
noise on the gate pin.
The R
SF
and C
SF
pads can be added with a zero ohm resis-
tor for R
SF
and C
SF
not populated. In most applications,
external filtering is not needed. The current sense filter
R
SF
and C
SF
can be added later if noise if demonstrated
to be a problem.
The bypass capacitor C
INB
is used to locally filter the
V
IN
supply. C
INB
should be tied to the V
IN
pin trace and
to the PGND exposed pad. The C
INB
positive pad should
connect to R
SENSE
positive though the V
IN
pin trace. The
C
INB
ground trace should connect to the PGND exposed
pad connection.
PC Board Layout Checklist
When laying out the printed circuit board, the following
checklist should be used to ensure proper operation of
the LTC3863.
1. Multilayer boards with dedicated ground layers are
preferable for reduced noise and for heat sinking pur-
poses. Use wide rails and/or entire planes for V
IN
, V
OUT
and GND for good filtering and minimal copper loss. If
a ground layer is used, then it should be immediately
below (and/or above) the routing layer for the power
train components which consist of C
IN
, sense resistor,
P-channel MOSFET, Schottky diode, inductor, and C
OUT
.
Flood unused areas of all layers with copper for better
heat sinking.
2. Keep signal and power grounds separate except at the
point where they are shorted together. Short the signal
and power ground together only at a single point with a
narrow PCB trace (or single via in a multilayer board).
All power train components should be referenced to
power ground and all small-signal components (e.g.,
C
ITH1
, R
FREQ
, C
SS
etc.) should be referenced to the
signal ground.