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LTC3407-4 Datasheet, PDF (6/16 Pages) Linear Technology – Dual Synchronous, 800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3407-4
BLOCK DIAGRA
MODE/SYNC 6
REGULATOR 1
VFB1 1
0.6V
+
ITH
EA
–
0.55V
–
UV
UVDET
+
+
OV
OVDET
0.65V
–
SHUTDOWN
SLOPE
COMP
BURST
CLAMP
0.35V
–
EN
+
BURST
SLEEP
S
Q
RS
LATCH
R
Q
SWITCHING
LOGIC
AND
BLANKING
CIRCUIT
–+
ICOMP
ANTI
SHOOT-
THRU
IRCMP
RUN1 2
0.6V REF
OSC
RUN2 9
OSC
VFB2 10
REGULATOR 2 (IDENTICAL TO REGULATOR 1)
PGOOD1
POR
COUNTER
PGOOD2
VIN
5Ω
4 SW1
11 GND
VIN
3 VIN
8 POR
5 GND
7 SW2
U
OPERATIO
The LTC3407-4 uses a constant frequency, current mode
architecture. The operating frequency is set at 2.25MHz
and can be synchronized to an external oscillator. Both
channels share the same clock and run in-phase. To suit
a variety of applications, the selectable Mode pin allows
the user to choose between low noise and high efficiency.
The output voltage is set by an external divider returned to
the VFB pins. An error amplfier compares the divided
output voltage with a reference voltage of 0.6V and adjusts
the peak inductor current accordingly. Overvoltage and
undervoltage comparators will pull the POR output low if
the output voltage is not within ±8.5%. The POR output
will go high after 216 clock cycles (about 29ms in pulse
skipping mode) of achieving regulation.
6
Main Control Loop
During normal operation, the top power switch (P-channel
MOSFET) is turned on at the beginning of a clock cycle
when the VFB voltage is below the the reference voltage.
The current into the inductor and the load increases until
the current limit is reached. The switch turns off and
energy stored in the inductor flows through the bottom
switch (N-channel MOSFET) into the load until the next
clock cycle.
The peak inductor current is controlled by the internally
compensated ITH voltage, which is the output of the error
amplifier.This amplifier compares the VFB pin to the 0.6V
reference. When the load current increases, the VFB volt-
age decreases slightly below the reference. This
34074f