sc1155csw.tr Semtech Corporation, sc1155csw.tr Datasheet - Page 13
sc1155csw.tr
Manufacturer Part Number
sc1155csw.tr
Description
Programmable Synchronous Dc/dc Hysteretic Controller With Vrm 9.0 Vid Range
Manufacturer
Semtech Corporation
Datasheet
1.SC1155CSW.TR.pdf
(19 pages)
PRELIMINARY - August 7, 2000
FUNCTIONAL DESCRIPTION
Reference/Voltage Identification
The reference/voltage identification (VID) section con-
sists of a temperature compensated bandgap refer-
ence and a 5-bit voltage selection network. The 5 VID
pins are TTL compatable inputs to the VID selection
network. They are internally pulled up to +5V gener-
ated from the +12V supply by a resistor divider, and
provide programmability of output voltage from 1.1V to
1.85V in 25mV increments.
Refer to the Output Voltage Table for the VID code
settings. The output voltage of the VID network, VREF
is within 1% of the nominal setting over the full input
and output voltage range and junction temperature
range.
indirectly brought out through a buffer to the REFB pin.
The voltage on this pin will be within 3mV of VREF. It is
not recommended to drive loads with REFB other than
setting the hysteresis of the hysteretic comparator,
because the current drawn from REFB sets the charg-
ing current for the soft start capacitor. Refer to the soft
start section for additional information.
Hysteretic Comparator
The hysteretic comparator regulates the output voltage
of the synchronous-buck converter. The hysteresis is
set by connecting the center point of a resistor divider
from REFB to AGND to the HYST pin. The hysteresis
of the comparator will be equal to twice the voltage
difference between REFB and HYST, and has a maxi-
mum value of 60mV. The maximum propagation delay
from the comparator inputs to the driver outputs is
250ns.
Low Side Driver
The low side driver is designed to drive a low R
N-channel MOSFET, and is rated for 2 amps source
and sink current. The bias for the low side driver is
provided internally from VDRV.
High Side Driver
The high side driver is designed to drive a low R
N-channel MOSFET, and is rated for 2 amps source
and sink current.
ground referenced driver or as a floating bootstrap
driver. When configured as a floating driver, the bias
voltage to the driver is developed from the DRV regula-
tor. The internal bootstrap diode, connected between
© 2000 SEMTECH CORP.
The output of the reference/VID network is
It can be configured either as a
PROGRAMMABLE SYNCHRONOUS
DC/DC HYSTERETIC CONTROLLER
WITH VRM 9.0 VID RANGE
DS(ON)
DS(ON)
the DRV and BOOT pins, is a Schottky for improved
drive efficiency. The maximum voltage that can be
applied between the BOOT pin and ground is 25V. The
driver can be referenced to ground by connecting
BOOTLO to PGND, and connecting +12V to the BOOT
pin.
Deadtime Control
Deadtime control prevents shoot-through current from
flowing through the main power FETs during switching
transitions by actively controlling the turn-on times of
the FET drivers. The high side driver is not allowed to
turn on until the gate drive voltage to the low-side FET
is below 2 volts. The low side driver is not allowed to
turn on until the voltage at the junction of the 2 FETs
(VPHASE) is below 2 volts. An internal low-pass filter
with an 11MHz pole is located between the output of
the low-side driver (DL) and the input of the deadtime
circuit. This controls the high-side driver by filtering out
the noise that could appear on DL when the high-side
driver turns on.
Current Sensing
Current sensing is achieved by sampling and holding
the voltage across the high side FET while it is turned
on. The sampling network consists of an internal 50
switch and an external 0.1µF hold capacitor. Internal
logic controls the turn-on and turn-off of the sample/
hold switch such that the switch does not turn on until
VPHASE transitions high and turns off when the input
to the high side driver goes low. Thus sampling will
occur only when the high side FET is conducting cur-
rent. The voltage at the IO pin equals 2 times the
sensed voltage. In applications where a higher accu-
racy in current sensing is required, a sense resistor can
be placed in series with the high side FET and the
voltage across the sense resistor can be sampled by
the current sensing circuit.
Droop Compensation
The droop compensation network reduces the load
transient overshoot/undershoot at VOUT, relative to
VREF. VOUT is programmed to a voltage greater than
VREF (equal to VREF x (1+R5/R6)) by an external
resistor divider from VOUT to the VSENSE pin to
reduce the undershoot on VOUT during a low to high
load current transient. The overshoot during a high to
low load current transient is reduced by subtracting the
voltage that is on the DROOP pin from VREF. The
voltage on the IO pin is divided down with an external
SC1155
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