MIC4452BN - Microchip Technology

Manufacturer Part Number

MIC4452BN

Manufacturer

microchip-technology

Introduction

The MIC4452BN is a single-channel high-current IGBT/MOSFET gate driver. It features a high-speed non-inverting input, programmable propagation delay, and independent source and sink capabilities. The driver is optimized for driving IGBT and N-Channel MOSFET power switches in switched-mode power supplies, motor drives, and other power electronic applications.

Product Features and Performance

Single-channel gate driver

Supports IGBT and N-Channel MOSFET devices

Wide supply voltage range of 4.5V to 18V

High peak output current of 12A (source and sink)

Fast rise and fall times of 20ns and 24ns respectively

Non-inverting input with programmable propagation delay

Independent source and sink outputs

Wide operating temperature range of -40°C to 85°C

Product Advantages

High-speed and high-current driving capability

Supports a wide range of power semiconductor devices

Flexible propagation delay programming

Robust and reliable performance

Key Reasons to Choose This Product

Optimized for driving IGBT and MOSFET power switches in various power electronic applications

High-performance gate driving solution with fast switching and high current capability

Flexible design with programmable propagation delay and independent source/sink outputs

Proven reliability and compatibility with a wide range of power semiconductors

Quality and Safety Features

Robust through-hole package design for reliable operation

Designed and manufactured to high-quality standards by Microchip Technology

Compatibility

The MIC4452BN gate driver is compatible with a variety of IGBT and N-Channel MOSFET power semiconductor devices.

Application Areas

The MIC4452BN is well-suited for use in various power electronic applications, including:

Switched-mode power supplies

Motor drives

Inverters

Power converters

Product Lifecycle

The MIC4452BN is an obsolete product. Customers should contact our website's sales team for information on equivalent or alternative models that may be available.