6
LTC1553L
G2 (Pin 1): Gate Drive for the Lower N-Channel MOSFET,
Q2. This output will swing from PV
CC
to GND. It will always
be low when G1 is high or when the output is disabled. To
prevent undershoot during a soft start cycle, G2 is held low
until G1 first goes high.
PV
CC
(Pin 2): Power Supply for G1 and G2. PV
CC
must be
connected to a potential of at least V
IN
+ V
GS(ON)Q1
. If
V
IN
= 5V, PV
CC
can be generated using a simple charge
pump connected to the switching node between Q1 and
Q2 (see Figure 7), or it can be connected to an auxiliary 12V
supply if one exists.
GND (Pin 3): Power Ground. GND should be connected to
a low impedance ground plane in close proximity to the
source of Q2.
SGND (Pin 4): Signal Ground. SGND is connected to the
low power internal circuitry and should be connected to
the negative terminal of the output capacitor where it
returns to the ground plane. GND and SGND should be
shorted right at the LTC1553L.
V
CC
(Pin 5): Power Supply. Power for the internal low
power circuity. V
CC
should be wired separately from the
drain of Q1 if they share the same supply. A 10µF bypass
capacitor is recommended from this pin to SGND.
SENSE (Pin 6): Output Voltage Pin. Connect to the positive
terminal of the output capacitor. There is an internal 120k
resistor connected from this pin to SGND. SENSE is a very
sensitive pin; for optimum performance, connect an exter-
nal 0.1µF capacitor from this pin to SGND. By connecting
a small external resistor between the output capacitor and
the SENSE pin, the initial output voltage can be raised
slightly. Since the internal divider has a nominal imped-
ance of 120kΩ, a 1200Ω series resistor will raise the
nominal output voltage by 1%. If an external resistor is
used, the value of the 0.1µF capacitor on the SENSE pin
must be greatly reduced or loop phase margin will suffer.
Set a time constant for the RC combination of approxi-
mately 0.1µs. So, for example, with a 1200Ω resistor, set
C = 83pF. Use a standard 100pF capacitor.
PIN FUNCTIONS
UUU
I
MAX
(Pin 7): Current Limit Threshold. Current limit is set
by the voltage drop across an external resistor connected
between the drain of Q1 and I
MAX
. There is a 180µA internal
pull-down at I
MAX
.
I
FB
(Pin 8): Current Limit Sense Pin. Connect to the
switching node between the source of Q1 and the drain of
Q2. If I
FB
drops below I
MAX
when G1 is on, the LTC1553L
will go into current limit. The current limit circuit can be
disabled by floating I
MAX
and shorting I
FB
to V
CC
through
an external 10k resistor.
SS (Pin 9): Soft Start. Connect to an external capacitor to
implement a soft start function. During moderate overload
conditions, the soft start capacitor will be discharged
slowly in order to reduce the duty cycle. In hard current
limit, the soft start capacitor will be forced low immedi-
ately and the LTC1553L will rerun a complete soft start
cycle. C
SS
must be selected such that during power-up the
current through Q1 will not exceed the current limit value.
COMP (Pin 10): External Compensation. The COMP pin is
connected directly to the output of the error amplifier and
the input of the PWM comparator. An RC+C network is
used at this node to compensate the feedback loop to
provide optimum transient response.
OT (Pin 11): Over-Temperature Fault. OT is an open-drain
output and will be pulled low if OUTEN is less than 2V. If
OUTEN = 0, OT pulls low.
FAULT (Pin 12): Overvoltage Fault. FAULT is an open-
drain output. If V
OUT
reaches 15% above the nominal
output voltage, FAULT will go low and G1 and G2 will be
disabled. Once triggered, the LTC1553L will remain in this
state until the power supply is recycled or the OUTEN pin
is toggled. If OUTEN = 0, FAULT floats or is pulled high by
an external resistor.
PWRGD (Pin 13): Power Good. This is an open-drain
signal to indicate validity of output voltage. A high indi-
cates that the output has settled to within ±5% of the rated
output for more than 1ms. PWRGD will go low if the output
is out of regulation for more than 500µs. If OUTEN = 0,
PWRGD pulls low.
