LT3581 LINER [Linear Technology], LT3581 Datasheet - Page 25
LT3581
Manufacturer Part Number
LT3581
Description
3.3A Boost/Inverting DC/DC Converter with Fault Protection
Manufacturer
LINER [Linear Technology]
Datasheet
1.LT3581.pdf
(36 pages)
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appenDix
The use of the external PMOS, controlled by the GATE pin,
is particularly beneficial when dealing with unintended
output shorts in a boost regulator. In a conventional boost
regulator, the inductor, Schottky diode, and power switches
are susceptible to damage in the event of an output short
to ground. Using an external PMOS in the boost regulator’s
power path (path from V
pin, will serve to disconnect the input from the output
when the output has a short to ground, thereby helping
save the IC, and the other components in the power path
from damage. Ensure that both, the diode and the inductor
can survive low duty cycle current pulses of 3 to 4 times
their steady state levels.
The PMOS chosen must be capable of handling the maxi-
mum input or output current depending on whether the
PMOS is used at the input (see Figure 11) or the output
(see Figure 18).
Ensure that the PMOS is biased with enough source to
gate voltage (V
mode of operation. The higher the V
the PMOS into triode, the lower the R
thereby lowering power dissipation in the device during
normal operation, as well as improving the efficiency of
the application in which the PMOS is used. The follow-
ing equations show the relationship between R
Block Diagram) and the desired V
biased with:
When using a PMOS, it is advisable to configure the specific
application for undervoltage lockout (see the Operations
section). The goal is to have V
voltage where the PMOS has sufficient headroom to attain
a high enough V
saturation mode of operation during start-up.
Figure 18 shows the PMOS connected in series with the
output to act as an output disconnect during a fault con-
dition. The Schottky diode from the V
pin is optional and helps turn off the PMOS quicker in the
V
SG
=
V
IN
933
R
SG
GATE
SG
µA R
) to enhance the device into the triode
R
, which prevents it from entering the
GATE
•
+
IN
GATE
2
k
to V
Ω
i
if V
f f V
IN
OUT
get to a certain minimum
GATE
GATE
) controlled by the GATE
SG
SG
DSON
≥
<
IN
voltage that biases
that the PMOS is
2
2
V
pin to the GATE
V
of the PMOS,
GATE
(see
event of hard shorts. The resistor divider from V
SHDN pin sets a UVLO of 4V for this application.
Connecting the PMOS in series with the output offers certain
advantages over connecting it in series with the input:
• Since the load current is always less than the input
• A PMOS in series with the output can be biased with
In contrast, an input connected PMOS works as a simple
hot-plug controller (covered in more detail in the Hot-Plug
section). The input connected PMOS also functions as an
inexpensive means of protecting against multiple output
shorts in boost applications that synchronize the LT3581
with other compatible ICs (see Figure 11).
Table 7 shows a list of several discrete PMOS manufa-
cturers. Consult the manufacturers for detailed information
on their entire selection of PMOS devices.
Table 7. Discrete PMOS Manufacturers
Vishay
Fairchild Semiconductor
COMPENSATION – ADJUSTMENT
To compensate the feedback loop of the LT3581, a series
resistor-capacitor network in parallel with an optional
single capacitor should be connected from the V
GND. For most applications, choose a series capacitor in
the range of 1nF to 10nF with 2.2nF being a good starting
value. The optional parallel capacitor should range in value
from 47pF to 160pF with 100pF being a good starting
value. The compensation resistor, R
range of 5k to 50k with 10k being a good starting value.
A good technique to compensate a new application is to
use a 100k potentiometer in place of the series resistor R
With the series and parallel capacitors at 2.2nF and 100pF
respectively, adjust the potentiometer while observing the
transient response and the optimum value for R
current for a boost converter, the current rating of the
PMOS goes down.
a higher overdrive voltage than a PMOS used in series
with the input, since V
results in a lower R
improving the efficiency of the regulator.
DSON
www.vishay.com
www.fairchildsemi.com
OUT
rating for the PMOS, thereby
> V
IN
. This higher overdrive
C
, is usually in the
LT3581
C
IN
C
can be
to the
pin to
3581f
C
.
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