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SP6134H Datasheet, PDF (6/15 Pages) Sipex Corporation – High Voltage, 600 KHz Synchronous PWM Controller
SP6134H
High Voltage, 600kHz Synchronous PWM Step Down
Controller
THEORY OF OPERATION
GENERAL OVERVIEW
The SP6134H is a fixed frequency, voltage
mode, synchronous PWM controller optimized
for high efficiency. The part has been designed
to be especially attractive for split plane
applications utilizing 5V to power the controller
and 3V to 28V for step down conversion. The
heart of the SP6134H is a wide bandwidth
transconductance amplifier designed to
accommodate Type II and Type III
compensation schemes. A precision 0.8V
reference present on the positive terminal of
the error amplifier permits the programming
of the output voltage down to 0.8V via the VFB
pin. The output of the error amplifier, COMP,
compared to a 1.1V peak-to-peak ramp is
responsible for trailing edge PWM control. This
voltage ramp and PWM control logic are
governed by the internal oscillator that
accurately sets the PWM frequency to 300kHz.
The SP6134H contains two unique control
features that are very powerful in distributed
applications. First, Non-synchronous driver
control is enabled during start up to prohibit
the low side NFET from pulling down the
output until the high side NFET has attempted
to turn on. Second, a 100% duty cycle timeout
ensures that the low side NFET is periodically
enhanced during extended periods at 100%
duty cycle. This guarantees the synchronized
refreshing of the BST capacitor during very
large duty ratios. The SP6134H also contains a
number of valuable protection features. A
programmable input (VIN) UVLO allows a user
to set the exact value at which the conversion
voltage is at a safe point to begin down
conversion, and an internal VCC UVLO ensures
that the controller itself has enough voltage to
properly operate. Other protection features
include thermal shutdown and short-circuit
detection. In the event that either a thermal,
short-circuit, or UVLO fault is detected, the
SP6134H is forced into an idle state where the
output drivers are held off for a finite period
before a re-start is attempted.
SOFT START
“Soft Start” is achieved when a power
converter ramps up the output voltage while
controlling the magnitude of the input supply
source current. In a modern step down
converter, ramping up the positive terminal of
the error amplifier controls soft start. As a
result, excess source current can be defined as
the current required to charge the output
capacitor.
IVIN = COUT * DVOUT / DTSoft-start
The SP6134H provides the user with the
option to program the soft start rate by tying
a capacitor from the SS pin to GND. The
selection of this capacitor is based on the
10uA pull up current present at the SS pin and
the 0.8V reference voltage. Therefore, the
excess source can be redefined as:
IVIN = COUT * DVOUT *10μA / (CSS * 0.8V)
UNDER VOLTAGE LOCK OUT (UVLO)
The SP6134H contains two separate UVLO
comparators to monitor the bias (VCC) and
conversion (VIN) voltages independently. The
VCC UVLO threshold is internally set to 4.25V,
whereas the VIN UVLO threshold is
programmable through the UVIN pin. When
the UVIN pin is greater than 2.5V, the
SP6134H is permitted to start up pending the
removal of all other faults. Both the VCC and
VIN UVLO comparators have been designed
with hysteresis to prevent noise from resetting
a fault.
THERMAL AND SHORT-CIRCUIT PROTECTION
Because the SP6134H is designed to drive
large NFETs running at high current, there is a
chance that either the controller or power
converter will become too hot. Therefore, an
internal thermal shutdown (145°C) has been
included to prevent the IC from malfunctioning
at extreme temperatures.
A short-circuit detection comparator has also
been included in the SP6134H to protect
against the accidental short or sever build up
of current at the output of the power
converter. This comparator constantly
© 2008 Exar Corporation
6/15
Rev. 2.0.0