ltc3730 Linear Technology Corporation, ltc3730 Datasheet - Page 22
ltc3730
Manufacturer Part Number
ltc3730
Description
3-phase, 5-bit Intel Mobile Vid, 600khz, Synchronous Buck Controller
Manufacturer
Linear Technology Corporation
Datasheet
1.LTC3730.pdf
(28 pages)
Available stocks
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Quantity
Price
Company:
Part Number:
ltc3730EUF
Manufacturer:
LINEAR
Quantity:
754
APPLICATIO S I FOR ATIO
LTC3730
The worst-case power dissipation by the synchronous
MOSFET under normal operating conditions at elevated
ambient temperature and estimated 50°C junction tem-
perature rise is:
A short circuit to ground will result in a folded back current
of:
with a typical value of R
0.25. The resulting power dissipated in the bottom MOSFET
is:
which is less than one third of the normal, full load
conditions. Incidentally, since the load no longer dissi-
pates any power, total system power is decreased by over
90%. Therefore, the system actually cools significantly
during a shorted condition!
PC Board Layout Checklist
When laying out the printed circuit board, the following
checklist should be used to ensure proper operation of the
IC. These items are also illustrated graphically in the layout
diagram of Figure 12. Check the following in the PC layout:
1) Are the signal and power ground paths isolated? Keep the
SGND at one end of a printed circuit path thus preventing
MOSFET currents from traveling under the IC. The IC signal
ground pin should be used to hook up all control circuitry
on one side of the IC, routing the copper through SGND,
under the IC covering the “shadow” of the package, connect-
ing to the PGND pin and then continuing on to the (–) plates
of C
placed immediately adjacent to the IC between the V
and PGND. A 1µF ceramic capacitor of the X7R or X5R type
is small enough to fit very close to the IC to minimize the ill
effects of the large current pulses drawn to drive the bottom
MOSFETs. An additional 4.7µF to 10µF of ceramic, tantalum
or other very low ESR capacitance is recommended in or-
22
P
P
I
SYNC
SC
IN
SYNC
and C
≈
=
( )
= (7.5A)
2 3
20
25
+
OUT
V
mV
20
. The V
−
m
V
2
1 3
Ω
(1.25)(0.007Ω) ≈ 0.5W
U
.
+
V
CC
2
DS(ON)
(
1
15
⎛
⎜
⎜
⎝
decoupling capacitor should be
U
150
A
) (
2
0 6
and d = (0.005/°C)(50°C) =
ns
.
1 25 0 007
µ
.
( )
20
H
W
)
V
(
⎞
⎟
⎟
⎠
.
=
7 5
Ω
.
)
A
U
=
1 84
.
CC
pin
W
der to keep the internal IC supply quiet. The power ground
returns to the sources of the bottom N-channel MOSFETs,
anodes of the Schottky diodes and (–) plates of C
should have as short lead lengths as possible.
2) Does the IC IN
A 30pF to 300pF feedforward capacitor between the
AMPOUT and EAIN pins should be placed as close as
possible to the IC.
3) Are the SENSE
each channel routed together with minimum PC trace
spacing? The filter capacitors between SENSE
for each channel should be as close as possible to the pins
of the IC. Connect the SENSE
pads of the sense resistor as illustrated in Figure 11.
4) Do the (+) plates of C
topside MOSFETs as closely as possible? This capacitor
provides the pulsed current to the MOSFETs. (The loop
area formed by C
must be minimized.)
5) Keep the switching nodes, SWITCH, BOOST and TG
away from sensitive small-signal nodes (SENSE
SENSE
TG printed circuit traces should be routed away and
separated from the IC and the “quiet” side of the IC.
Separate the high dV/dt printed circuit traces from sensi-
tive small-signal nodes with ground traces or ground
planes.
6) Use a low impedance source such as a logic gate to drive
the PLLIN pin and keep the lead as short as possible.
–
, IN
+
, IN
Figure 11. Kelvin Sensing R
LTC3730
SENSE
SENSE
IN
–
+
, EAIN). Ideally the SWITCH, BOOST and
–
, topside MOSFET and bottom MOSFETs
pin connect to the (+) plates of C
and SENSE
+
–
IN
1000pF
OUTPUT CAPACITOR
connect to the drains of the
–
+
INDUCTOR
printed circuit traces for
and SENSE
SENSE
RESISTOR
SENSE
3730 F11
+
+
and SENSE
pins to the
IN
, which
OUT
3730fa
+
?
–
,
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