sip42101dm-t1 Vishay, sip42101dm-t1 Datasheet - Page 5

sip42101dm-t1

Manufacturer Part Number

sip42101dm-t1

Description

Half-bridge N-channel Mosfet Driver For Motor Control

Manufacturer

Vishay

Datasheet

1.SIP42101DM-T1.pdf (7 pages)

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DETAILED OPERATION

PWM

The PWM pin controls the switching of the external MOSFETs.

The driver logic operates in a noninverting configuration. The

PWM input stage should be driven by a signal with fast

transition times, like those provided by a PWM controller or

logic gate, (<200 ns). The PWM input functions as a logic input

and is not intended for applications where a slow changing

input voltage is used to generate a switching output when the

input switching threshold voltage is reached.

Low-Side Driver

The supplies for the low-side driver are V

shutdown, OUT

High-Side Driver

The high-side driver is isolated from the substrate to create a

floating high-side driver so that an n-channel MOSFET can be

used for the high-side switch. The supplies for the high-side

driver are BOOT and LX. The voltage is supplied by a floating

bootstrap capacitor, which is continually recharged by the

switching action of the output. During shutdown OUT

low.

Bootstrap Circuit

The internal bootstrap diode and a bootstrap capacitor form a

charge pump that supplies voltage to the BOOT pin. An

Document Number: 73176

S-50265—Rev. B, 21-Feb-05

FUNCTIONAL BLOCK DIAGRAM

BRAKE

GND

PWM

is held low.

UVLO

OTP

and GND. During

New Product

is held

Figure 1.

integrated bootstrap diode replaces the external Schottky

diode needed for the bootstrap circuit; only a capacitor is

necessary to complete the bootstrap circuit. The bootstrap

capacitor is sized according to,

where Q

high-side MOSFET and DV

allowed in the bootstrapped supply voltage when the high-side

MOSFET is driven high. The bootstrap capacitor value is

typically 0.1 mF to 1 mF. The bootstrap capacitor voltage rating

must be greater than V

and ringing.

Shoot-Through Protection

The external MOSFETs are prevented from conducting at the

same time during transitions. Break-before-make circuits

monitor the voltages on the LX pin and the OUT

control the switching as follows: When the signal on PWM goes

low, OUT

the voltage on LX falls below 1 V by the inductor action, the

low-side driver is enabled and OUT

delay. When the signal on PWM goes high, OUT

after an internal propagation delay. After the voltage on OUT

drops below 1 V the high-side driver is enabled and OUT

go high after an internal propagation delay. If LX does not drop

below 1 V within 400 ns after OUT

high until the next PWM transition.

GATE

will go low after an internal propagation delay. After

BOOT

is the gate charge needed to turn on the

= (Q

−

GATE

+ 5 V to withstand transient spikes

BBM

BOOT − LX

/DV

BOOT − LX

Vishay Siliconix

goes low, OUT

is the amount of droop

goes high after some

) x 10

SiP42101

BOOT

OUT

www.vishay.com

will go low

is forced

pin and

will

sip42101dm-t1 Vishay, sip42101dm-t1 Datasheet - Page 5

sip42101dm-t1

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