LTC3600 LINER [Linear Technology], LTC3600 Datasheet - Page 10
LTC3600
Manufacturer Part Number
LTC3600
Description
15V, 1.5A Synchronous Rail-to-Rail Single Resistor
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3600.pdf
(28 pages)
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OPERATION
Main Control Loop
The LTC3600 is a current mode monolithic step down
regulator. The accurate 50μA current source on the ISET pin
allows the user to use just one external resistor to program
the output voltage in a unity gain buffer fashion. In normal
operation, the internal top power MOSFET is turned on for
a fixed interval determined by a fixed one-shot timer OST.
When the top power MOSFET turns off, the bottom power
MOSFET turns on until the current comparator I
restarting the one-shot timer and initiating the next cycle.
Inductor current is determined by sensing the voltage
drop across the SW and PGND nodes of the bottom power
MOSFET. The voltage on the ITH pin sets the comparator
threshold corresponding to inductor valley current. The
error amplifier, EA, adjusts this ITH voltage by comparing
the V
increases, it causes a drop in the V
V
current matches that of the load current.
At low load current, the inductor current can drop to zero
and become negative. This is detected by current rever-
sal comparator, I
power MOSFET, resulting in discontinuous operation.
Both power MOSFETs will remain off with the output
capacitor supplying the load current until the ITH voltage
rises above the zero current level (0.8V) to initiate another
cycle. Discontinuous mode operation is disabled by tying
the MODE pin to INTV
chronous operation regardless of output load.
The operating frequency is determined by the value of the R
resistor, which programs the current for the internal oscilla-
tor as well as the current for the internal one-shot timer. An
internal phase-locked loop servos the switching regulator
on-time to track the internal oscillator to force constant
switching frequency. If an external synchronization clock is
present on the MODE/SYNC pin, the regulator on-time and
switching frequency would then track the external clock.
Overvoltage and undervoltage comparators OV and UV
pull the PGOOD output low if the output power good
feedback voltage V
regulation point. Continuous operation is forced during
an OV condition. To defeat the PGOOD function, simply
tie PGFB to INTV
LTC3600
10
ISET
OUT
. The ITH voltage then rises until the average inductor
voltage with the voltage on ISET. If the load current
CC
REV
PGFB
.
, which then shuts off the bottom
CC
exits a 7.5% window around the
, which forces continuous syn-
OUT
voltage relative to
CMP
trips,
T
Pulling the RUN pin to ground forces the LTC3600 into
its shutdown state, turning off both power MOSFETs and
all of its internal control circuitry. Bringing the RUN pin
above 0.7V turns on the internal reference only, while still
keeping the power MOSFETs off. Further increasing the
RUN voltage above 1.5V turns on the entire chip.
INTV
An internal low drop out (LDO) regulator produces the
5V supply that powers the drivers and the internal bias
circuitry. The INTV
must be bypassed to ground with a minimum of 1μF ce-
ramic capacitor. Good bypassing is necessary to supply
the high transient currents required by the power MOSFET
gate drivers. Applications with high input voltage and high
switching frequency will increase die temperature because
of the higher power dissipation across the LDO. Connect-
ing a load to the INTV
it will further push the LDO into its RMS current rating
while increasing power dissipation and die temperature.
V
In order to protect the internal power MOSFET devices
against transient voltage spikes, the LTC3600 constantly
monitors the V
V
shutting off both power MOSFETs and discharges the ISET
pin voltage to ground. Once V
lator immediately resumes normal switching operation by
first charging up the ISET pin to its programmed voltage.
Programming Switching Frequency
Connecting a resistor from the RT pin to GND programs
the switching frequency from 200kHz to 4MHz according
to the following formula:
For ease of use, the RT pin can be connected directly to
the INTV
The internal on-time phase-locked loop has a synchroni-
zation range of 30% around its programmed frequency.
Therefore, during external clock synchronization, the proper
IN
IN
Frequency (Hz) =
rises above 16V, the regulator suspends operation by
Overvoltage Protection
CC
Regulator
CC
pin for 1MHz operation. Do not float the RT pin.
IN
pin for an overvoltage condition. When
CC
3.6 • 10
can supply up to 50mA RMS and
CC
pin is not recommended since
R
T
IN
10
(Ω)
drops below 15V, the regu-
(1/ F)
3600fb
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