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NCP3488 Datasheet(PDF) 5 Page - ON Semiconductor

No. de Pieza. NCP3488
Descripción  MOSFET Driver with Dual Outputs for Synchronous Buck Converters
Descarga  7 Pages
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Fabricante  ONSEMI [ON Semiconductor]
Página de inicio  http://www.onsemi.com
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NCP3488 Datasheet(HTML) 5 Page - ON Semiconductor

   
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NCP3488
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Figure 2. Output Disable Timing Diagram
DRVH
or
DRVL
OD
tpdlOD
tpdhOD
90%
10%
10%
90%
90%
10%
10%
90%
2V
2V
Figure 3. Nonoverlap Timing Diagram
DRVL
tpdlDRVL
tfDRVL
tpdhDRVH
trDRVH
tpdlDRVH
tfDRVH
trDRVL
tpdhDRVL
DRVH−SW
SW
IN
APPLICATIONS INFORMATION
Theory of Operation
The NCP3488 is a single phase MOSFET driver designed
for driving two N−channel MOSFETs in a synchronous buck
converter topology. The NCP3488 will operate from 5 V or
12 V, but it has been optimized for high current multi−phase
buck regulators that convert 12 Volt rail directly to the core
voltage required by complex logic chips. A single PWM input
signal is all that is required to properly drive the high−side and
the low−side MOSFETs. Each driver is capable of driving a
3.3 nF load at frequencies up to 500 kHz.
Low−Side Driver
The low−side driver is designed to drive a
ground−referenced low RDS(on) N−Channel MOSFET. The
voltage rail for the low−side driver is internally connected to
the VCC supply and PGND.
High−Side Driver
The high−side driver is designed to drive a floating low
RDS(on) N−channel MOSFET. The gate voltage for the high
side driver is developed by a bootstrap circuit referenced to
Switch Node (SW) pin.
The bootstrap circuit is comprised of an external diode,
and an external bootstrap capacitor. When the NCP3488 is
starting up, the SW pin is at ground, so the bootstrap
capacitor will charge up to VCC through the bootstrap diode
See Figure 4. When the PWM input goes high, the high−side
driver will begin to turn on the high−side MOSFET using the
stored charge of the bootstrap capacitor. As the high−side
MOSFET turns on, the SW pin will rise. When the high−side
MOSFET is fully on, the switch node will be at 12 volts, and
the BST pin will be at 12 volts plus the charge of the
bootstrap capacitor (approaching 24 volts).
The bootstrap capacitor is recharged when the switch
node goes low during the next cycle.


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