MC33151PG ON Semiconductor, MC33151PG Datasheet - Page 8

MC33151PG

Manufacturer Part Number

MC33151PG

Description

IC MOSFET DRIVER DUAL HS 8-DIP

Manufacturer

ON Semiconductor

Type

High Speedr

Datasheet

1.MC33151PG.pdf (12 pages)

Specifications of MC33151PG

Configuration

Low-Side

Input Type

Inverting

Delay Time

35ns

Current - Peak

1.5A

Number Of Configurations

Number Of Outputs

Voltage - Supply

6.5 V ~ 18 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Through Hole

Package / Case

8-DIP (0.300", 7.62mm)

Rise Time

31 ns

Fall Time

32 ns

Supply Voltage (min)

6.5 V

Supply Current

10.5 mA

Maximum Power Dissipation

1000 mW

Maximum Operating Temperature

+ 85 C

Mounting Style

Through Hole

Minimum Operating Temperature

- 40 C

Number Of Drivers

Driver Configuration

Inverting

Driver Type

High Speed

Input Logic Level

CMOS/LSTTL

Propagation Delay Time

100ns

Operating Supply Voltage (max)

18V

Peak Output Current

1.5A

Power Dissipation

Operating Supply Voltage (min)

6.5V

Operating Supply Voltage (typ)

12V

Turn Off Delay Time

100fs

Turn On Delay Time (max)

100ps

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Through Hole

Pin Count

Package Type

PDIP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

High Side Voltage - Max (bootstrap)

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

MC33151PG
MC33151PGOS

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imperative to prevent excessive output ringing and overshoot.

Do not attempt to construct the driver circuit on

wire−wrap or plug−in prototype boards. When driving

large capacitive loads, the printed circuit board must contain

a low inductance ground plane to minimize the voltage spikes

induced by the high ground ripple currents. All high current

loops should be kept as short as possible using heavy copper

runs to provide a low impedance high frequency path. For

High frequency printed circuit layout techniques are

The MC34151 greatly enhances the drive capabilities of common switching

regulators and CMOS/TTL logic devices.

Output Schottky diodes are recommended when driving inductive loads at

high frequencies. The diodes reduce the driver's power dissipation by

preventing the output pins from being driven above V

TL494

TL594

Figure 19. Enhanced System Performance with

Figure 21. Direct Transformer Drive

Common Switching Regulators

0.1

5.7V

1N5819

4 X

and below ground.

LAYOUT CONSIDERATIONS

http://onsemi.com

optimum drive performance, it is recommended that the

initial circuit design contains dual power supply bypass

capacitors connected with short leads as close to the V

and ground as the layout will permit. Suggested capacitors are

a low inductance 0.1 mF ceramic in parallel with a 4.7 mF

tantalum. Additional bypass capacitors may be required

depending upon Drive Output loading and circuit layout.

critical and cannot be over emphasized.

Proper printed circuit board layout is extremely

Series gate resistor R

oscillations caused by the MOSFET input capacitance and any series

wiring inductance in the gate-source circuit. R

MOSFET switching speed. Schottky diode D

power dissipation due to excessive ringing, by preventing the output pin

from being driven below ground.

Figure 20. MOSFET Parasitic Oscillations

Figure 22. Isolated MOSFET Drive

may be needed to damp high frequency parasitic

5819

1N5819

Boundary

Isolation

can reduce the driver's

will decrease the

MC33151PG ON Semiconductor, MC33151PG Datasheet - Page 8

MC33151PG

Specifications of MC33151PG

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