LTC4352CMS-PBF データシートの表示(PDF) - Linear Technology
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LTC4352CMS-PBF Datasheet PDF : 16 Pages
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LTC4352
APPLICATIONS INFORMATION
High availability systems often employ parallel-connected
power supplies or battery feeds to achieve redundancy
and enhance system reliability. ORing diodes have been
a popular means of connecting these supplies at the
point of load. Diodes with storage capacitors also hold
up supply voltages when an input voltage sags or has a
brownout. The disadvantage of these approaches is the
diode’s significant forward voltage drop and the resulting
power loss. Additionally, diodes provide no information
concerning the status of the sourcing supply. Separate
control must therefore be added to ensure that a supply
that is out of range is not allowed to affect the load.
The LTC4352 solves these problems by using an external
N-channel MOSFET as the pass element (see Figure 1). The
MOSFET is turned on when power is being passed, allowing
for a low voltage drop from the supply to the load. When
the input source voltage drops below the output common
supply voltage it turns off the MOSFET, thereby matching
the function and performance of an ideal diode.
Power Supply Configuration
The LTC4352 can operate with supplies down to 0V. This
requires powering the VCC pin with an always present
external supply in the 2.9V to 6V range. If not always
present, a series 470Ω resistor or Schottky diode limits
device power dissipation and backfeeding of low VCC
supply when VIN is high. For a 2.9V to 4.7V VCC supply,
VIN should be lower than VCC. A 0.1μF bypass capacitor
should also be connected between the VCC and GND pins,
close to the device. Figure 2 illustrates this.
If VIN operates above 2.9V then the external supply at
VCC is not needed. The 0.1μF capacitor is still required
for bypassing.
12V
C1
0.1μF
C2
0.1μF
Q1
Si7336ADP
R4
2.7k
TO LOAD
R5
2.7k
CPO SOURCE VIN GATE OUT D1
VCC
STATUS
UV
LTC4352
MOSFET
ON D2
OV
FAULT
FAULT
REV
GND
D1: GREEN LED LN1351C
D2: RED LED LN1261CAL
4352 F01
Figure 1. 12V Ideal Diode with Status and Fault Indicators
2.9V TO 18V
TO LOAD
0V TO VCC
TO LOAD
0V TO 18V
TO LOAD
0.1μF
VIN
VCC
GATE OUT
LTC4352
GND
2.9V TO 4.7V
0.1μF
VIN
VCC
GATE OUT
LTC4352
GND
4.7V TO 6V
0.1μF
VIN
VCC
GATE OUT
LTC4352
GND
4352 F02
Figure 2. Power Supply Configurations
4352f
8
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