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LTC3863_15 Datasheet, PDF (8/38 Pages) Linear Technology – 60V Low IQ Inverting DC/DC Controller
LTC3863
Pin Functions
PLLIN/MODE (Pin 1): External Reference Clock Input
and Burst Mode Enable/Disable. When an external clock
is applied to this pin, the internal phase-locked loop will
synchronize the turn-on edge of the gate drive signal with
the rising edge of the external clock. When no external
clock is applied, this input determines the operation during
light loading. Floating this pin selects low IQ (50µA) Burst
Mode operation. Pulling to ground selects pulse-skipping
mode operation.
FREQ (Pin 2): Switching Frequency Setpoint Input. The
switching frequency is programmed by an external set-
point resistor RFREQ connected between the FREQ pin and
signal ground. An internal 20µA current source creates
a voltage across the external setpoint resistor to set the
internal oscillator frequency. Alternatively, this pin can
be driven directly by a DC voltage to set the oscillator
frequency. Grounding selects a fixed operating frequency
of 350kHz. Floating selects a fixed operating frequency
of 535kHz.
SGND (Pin 3): Ground Reference for Small-Signal Analog
Component (Signal Ground). Signal ground should be
used as the common ground for all small-signal analog
inputs and compensation components. Connect the signal
ground to the power ground (ground reference for power
components) only at one point using a single PCB trace.
SS (Pin 4): Soft-Start and External Tracking Input. The
LTC3863 regulates the feedback voltage to the smaller of
0.8V or the voltage on the SS pin. An internal 10μA pull-up
current source is connected to this pin. A capacitor to
ground at this pin sets the ramp time to the final regulated
output voltage. Alternatively, another voltage supply con-
nected through a resistor divider to this pin allows the
output to track the other supply during start-up.
VFB (Pin 5): Output Feedback Sense. A resistor divider
from the regulated output point to this pin sets the output
voltage. The LTC3863 will nominally regulate VFB to the
internal reference value of 0.8V. If VFB is less than 0.4V,
the switching frequency will linearly decrease and fold
back to about one-fifth of the internal oscillator frequency
to reduce the minimum duty cycle.
ITH (Pin 6): Current Control Threshold and Controller
Compensation Point. This pin is the output of the error
amplifier and the switching regulator’s compensation
point. The voltage ranges from 0V to 2.9V, with 0.8V
corresponding to zero sense voltage (zero current). RITH
should never be less than 10K to avoid large signal com-
pensation issues. For further detail please see the section
Large Signal Effects on ITH.
VFBN (Pin 7): Feedback Input for an Inverting PWM Control-
ler. Connect VFBN to the center of a resistor divider between
the output and VFB. The resistor divider is comprised of
RFB1, placed from the VOUT pin to VFBN pin and RFB2, placed
from the VFBN pin to VFB. It is recommended to set RFB2
to be greater than 8K, please see the Output Voltage Pro-
gramming section for further detail. The VFBN threshold is
0V. To defeat the inverting amplifier and use the LTC3863
as an LTC3864 (noninverting buck), tie VFBN > 2V.
RUN (Pin 8): Digital Run Control Input. A RUN voltage
above the 1.26V threshold enables normal operation, while
a voltage below the threshold shuts down the controller.
An internal 0.4µA current source pulls the RUN pin up to
about 3.3V. The RUN pin can be connected to an external
power supply up to 60V.
CAP (Pin 9): Gate Driver (–) Supply. A low ESR ceramic
bypass capacitor of at least 0.1µF or 10X the effective
CMILLER of the P-channel power MOSFET, is required
from VIN to this pin to serve as a bypass capacitor for the
internal regulator. To ensure stable low noise operation, the
bypass capacitor should be placed adjacent to the VIN and
CAP pins and connected using the same PCB metal layer.
SENSE (Pin 10): Current Sense Input. A sense resistor,
RSENSE, from the VIN pin to the SENSE pin sets the maxi-
mum current limit. The peak inductor current limit is equal
to 95mV/RSENSE. For accuracy, it is important that the VIN
pin and the SENSE pin route directly to the current sense
resistor and make a Kelvin (4-wire) connection.
VIN (Pin 11): Chip Power Supply. A minimum bypass
capacitor of 0.1µF is required from the VIN pin to power
ground. For best performance use a low ESR ceramic
capacitor placed near the VIN pin.
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