lt3781 Linear Technology Corporation, lt3781 Datasheet - Page 11
lt3781
Manufacturer Part Number
lt3781
Description
Bootstrap Start Dual Transistor Synchronous Forward Controller
Manufacturer
Linear Technology Corporation
Datasheet
1.LT3781.pdf
(20 pages)
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APPLICATIO S I FOR ATIO
Events that trigger a GFC are:
OVLO and THERM pins is used to directly trigger a GFC. If
either of these pins are not used, they can be disabled by
connecting the pin to ground. The intention of the OVLO
pin is to allow the monitoring of the input supply to protect
from an overvoltage condition though the use of a resistor
divider from the input supply. Monitoring of system tem-
perature (THERM) is possible through use of a resistor
divider using a thermistor as a divider component. The
5V
these applications. When these fault detection circuits are
disabled during shutdown or V
reduction in OVLO and THERM pin input impedance to
ground will occur. To prevent excessive pin input currents,
low impedance pull-up devices must not be used on these
pins.
Undervoltage Lockout
The LT3781 maintains a low current operational mode
when an undervoltage condition is detected on the V
supply pin, or when V
(UVLO) threshold. During a UVLO condition on the V
pin, the LT3781 disables all internal functions with the
exception of the shutdown and UVLO circuitry. The exter-
nal 5V
Disabling of all switching control circuity reduces the
LT3781 supply current to <1mA, making for efficient
integration of trickle charging in systems that employ
output feedback supply generation.
The function of the high side switch output (TG) is also
gated by UVLO circuitry monitoring the bootstrap supply
(V
BST
a) Exceeding the current limit of the 5V
b) Detecting an undervoltage condition on V
c) Detecting an undervoltage condition on 5V
d) Pulling the SHDN pin below the shutdown threshold
e) Exceeding the 1.25V fault detector threshold on
REF
either the OVLO or THERM pins
– BSTREF). Switching of the TG pin is disabled until
REF
pin can provide the precision supply required for
supply is also disabled during this condition.
U
CC
is below the undervoltage lockout
U
CC
pin UVLO conditions, a
W
REF
pin
U
CC
REF
CC
CC
the voltage across the bootstrap supply is greater than
7.4V. This helps prevent the possibility of forcing the high
side switch into a linear operational region, potentially
causing excessive power dissipation due to inadequate
gate drive during start-up.
Error Amplifer Configurations
The converter output voltage information is fed back to the
LT3781 onto the V
output current control voltage by the error amplifier. The
error amplifier is generally configured as an integrator and
is used to create the dominant pole for the main converter
feedback loop. The LT3781 error amplifier is a true high
gain voltage amplifier. The amplifier noninverting input is
internally referenced to 1.25V; the inverting input is the
V
frequency gain and integrator frequency characteristics
can be controlled with external components, this amplifier
allows far greater flexibility and precision compared with
use of a transconductance error amplifier.
In a nonisolated converter configuration where a resistor
divider is used to program the desired output voltage, the
error amplifier can be configured as a simple active
integrator, forming the system dominant pole ( Figure 1).
Placing a capacitor C
set the single-pole crossover frequency at (2 R
Additional poles and zeros can be added by increasing the
complexity of the RC network.
FB
pin and the output is the V
V
OUT
Figure 1. Nonisolated Error Amp Configuration
R
FB
C
ERR
10
FB
9
LT3781
ERR
V
V
pin where it is transformed into an
FB
C
from the V
C
–
+
pin. Because both low
FB
pin to the V
1.25V
3781 F01
LT3781
FB
C
C
11
pin will
ERR
3781f
)
-1
.
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