LT1952 Linear Technology, LT1952 Datasheet - Page 11
LT1952
Manufacturer Part Number
LT1952
Description
Single Switch Synchronous Forward Controller
Manufacturer
Linear Technology
Datasheet
1.LT1952.pdf
(24 pages)
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OPERATIO
by limiting the operational duty cycle of the MOSFET to
50% or less — or by using a fixed (non-adaptive) maxi-
mum duty cycle clamp with very large voltage rated
MOSFETs. The LT1952 provides a volt-second clamp to
allow MOSFET duty cycles well above 50%. This gives
greater power utilization for the MOSFET, rectifiers and
transformer resulting in less space for a given power
output. In addition, the volt-second clamp allows a re-
duced voltage rating on the MOSFET resulting in lower
RDS
fines a maximum duty cycle ‘guard rail’ which falls when
system input voltage increases.
The LT1952 SD_V
capacitorless, programmable volt-second clamp solution.
Some controllers with volt-second clamps control switch
maximum duty cycle by using an external capacitor to
program maximum switch ON time. Such techniques have
a volt-second clamp inaccuracy directly related to the
error of the external capacitor/pin capacitance and the
error/drift of the internal oscillator. The LT1952 uses
simple resistor ratios to implement a volt-second clamp
without the need for an accurate external capacitor and
with an order of magnitude less dependency on oscillator
error.
An increase of voltage at the SD_V
maximum duty cycle clamp to decrease. If SD_V
resistively divided down from transformer input voltage, a
volt-second clamp is realised. To adjust the initial maxi-
mum duty cycle clamp, the SS_MAXDC pin voltage is
programmed by a resistor divider from the 2.5V V
to ground. An increase of programmed voltage on
SS_MAXDC pin provides an increase of switch maximum
duty cycle clamp.
Soft-Start
The LT1952 provides true PWM soft-start by using the
SS_MAXDC pin to control soft-start timing. The propor-
tional relationship between SS_MAXDC voltage and switch
maximum duty cycle clamp allows the SS_MAXDC pin to
slowly ramp output voltage by ramping the maximum
switch duty cycle clamp — until switch duty cycle clamp
seamlessly meets the natural duty cycle of the converter.
ON
for greater efficiency. The volt-second clamp de-
U
SEC
and SS_MAXDC pins provide a
SEC
pin causes the
REF
SEC
pin
is
A soft-start event is triggered whenever V
SD_V
threshold at OC pin is exceeded. Whenever a soft-start
event is triggered, switching at SOUT and OUT is stopped
immediately.
The SS_MAXDC pin is discharged and only released for
charging when it has fallen below it’s reset threshold of
0.45V and all faults have been removed. Increasing volt-
age on the SS_MAXDC pin above 0.8V will increase switch
maximum duty cycle. A capacitor to ground on the
SS_MAXDC pin in combination with a resistor divider
from V
Current Mode Topology (I
The LT1952 current mode topology eases frequency com-
pensation requirements because the output inductor does
not contribute to phase delay in the regulator loop. This
current mode technique means that the error amplifier
(nonisolated applications) or the optocoupler (isolated
applications) commands current (rather than voltage) to
be delivered to the output. This makes frequency compen-
sation easier and provides faster loop response to output
load transients.
A resistor divider from the application’s output voltage
generates a voltage at the inverting FB input of the LT1952
error amplifier (or to the input of an external optocoupler)
and is compared to an accurate reference (1.23V for
LT1952). The error amplifier output (COMP) defines the
input threshold (I
COMP voltages between 0.8V (active threshold) and 2.5V
define a maximum I
By connecting I
source of an external power MOSFET, the MOSFET peak
current trip point (turn off) can be controlled by COMP
level and hence by the output voltage. An increase in
output load current causing the output voltage to fall, will
cause COMP to rise, increasing I
ing the current delivered to the output. For isolated appli-
cations, the error amplifier COMP output can be disabled
to allow the optocoupler to take control. Setting FB = V
disables the error amplifier COMP output, reducing pin
current to (COMP – 0.7)/40k.
SEC
REF
is too low (UVLO), or a 100mV over-current
, defines the soft-start timing.
SENSE
SENSE
SENSE
to a sense resistor in series with the
) of the current sense comparator.
threshold from 0mV to 220mV.
SENSE
SENSE
Pin)
www.DataSheet4U.com
threshold, increas-
LT1952
IN
is too low,
11
1952f
REF
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