LTM4601 LINER [Linear Technology], LTM4601 Datasheet - Page 14
LTM4601
Manufacturer Part Number
LTM4601
Description
12A DC/DC ?Modules with PLL, Output Tracking and Margining
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTM4601.pdf
(28 pages)
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APPLICATIO S I FOR ATIO
LTM4601/LTM4601-1
Run Enable
The RUN pin is used to enable the power module. The
pin has an internal 5.1V zener to ground. The pin can be
driven with a logic input not to exceed 5V.
The RUN pin can also be used as an undervoltage lock out
(UVLO) function by connecting a resistor divider from the
input supply to the RUN pin:
Power Good
The PGOOD pin is an open-drain pin that can be used to
monitor valid output voltage regulation. This pin monitors
a ±10% window around the regulation point and tracks
with margining.
COMP Pin
This pin is the external compensation pin. The module
has already been internally compensated for most output
voltages. Table 2 is provided for most application require-
ments. A spice model will be provided for other control
loop optimization.
PLLIN
The power module has a phase-locked loop comprised
of an internal voltage controlled oscillator and a phase
detector. This allows the internal top MOSFET turn-on
to be locked to the rising edge of the external clock. The
frequency range is ±30% around the operating frequency
of 850kHz. A pulse detection circuit is used to detect a
clock on the PLLIN pin to turn on the phase lock loop.
The pulse width of the clock has to be at least 400ns and
2V in amplitude. During the start-up of the regulator, the
phase-lock loop function is disabled.
INTV
An internal low dropout regulator produces an internal
5V supply that powers the control circuitry and DRV
for driving the internal power MOSFETs. Therefore, if
the system does not have a 5V power rail, the LTM4601
can be directly powered by V
14
V
UVLO
CC
and DRV
=
R
+ 1 2
R
2
R
CC
U
• .
Connection
1 5
V
U
IN
. The gate driver current
W
U
CC
through the LDO is about 20mA. The internal LDO power
dissipation can be calculated as:
The LTM4601 also provides the external gate driver volt-
age pin DRV
recommended to connect DRV
rail. This is especially true for higher input voltages. Do
not apply more than 6V to the DRV
be used to power the DRV
as shown in Figure 16.
Parallel Operation of the Module
The LTM4601 device is an inherently current mode con-
trolled device. Parallel modules will have very good current
sharing. This will balance the thermals on the design.
Figure 19 shows a schematic of the parallel design. The
voltage feedback equation changes with the variable n as
modules are paralleled:
η is the number of paralleled modules.
Figure 19 shows an LTM4601 and an LTM4601-1 used in a
parallel design. The 2nd LTM4601 device does not require
the remote sense amplifi er, therefore, the LTM4601-1 de-
vice is used. An LTM4601 device can be used without the
diff amp. V
be tied to INTV
LTM4601-1 devices in parallel with an LTM4601, limit the
number to fi ve for a total of six modules in parallel.
Thermal Considerations and Output Current Derating
The power loss curves in Figures 7 and 8 can be used
in coordination with the load current derating curves in
Figures 9 to 14 for calculating an approximate θ
module with various heat sinking methods. Thermal models
are derived from several temperature measurements at
the bench and thermal modeling analysis. Thermal Ap-
plication Note 103 provides a detailed explanation of the
analysis for the thermal models and the derating curves.
Tables 3 and 4 provide a summary of the equivalent θ
P
V
LDO_LOSS
OUT
=
0 6
OSNS
.
CC
= 20mA • (V
V
CC
. If there is a 5V rail in the system, it is
+
60 4
. DIFFV
can be tied to ground and the V
n
.
R
k
FB
+
OUT
R
FB
IN
CC
can fl oat. When using multiple
– 5V)
pin with an external circuit
CC
CC
pin to the external 5V
pin. A 5V output can
OSNS
JA
for the
–
can
4601f
JA
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