NCP5901MNTBG - onsemi

Manufacturer Part Number

NCP5901MNTBG

Manufacturer

onsemi

Introduction

The NCP5901MNTBG is a robust Gate Driver specifically designed for Power Management applications. It effectively handles Half-Bridge and Synchronous N-Channel MOSFETs.

Product Features and Performance

Synchronous half-bridge driver

Compatible with N-Channel MOSFET gate drive

Dual-driver configuration

Non-inverting input type

High side voltage up to 35V (Bootstrap)

Quick rise and fall times (16ns/11ns respectively)

Supports a broad supply voltage range (4.5V to 13.2V)

Logic level thresholds for easy interfacing (VIL 1V, VIH 2V)

Product Advantages

Enhances efficiency with rapid switching times

High maximum operating temperature (150°C) allows for use in challenging environments

Compact 8-DFN package facilitates minimal footprint designs

Key Technical Parameters

Driven Configuration: Half-Bridge, Synchronous

Voltage Supply: 4.5V ~ 13.2V

High Side Voltage Max (Bootstrap): 35V

Rise / Fall Time: 16ns, 11ns

Operating Temperature: 0°C ~ 150°C

Mounting Type: Surface Mount

Package / Case: 8-VFDFN Exposed Pad

Quality and Safety Features

Operates reliably across a wide temperature range (0°C to 150°C)

DFN package ensures enhanced thermal management

Compatibility

Designed for use with N-Channel MOSFET gates

Compatible with logic levels commonly used in digital circuits (1V, 2V)

Application Areas

Motor control systems

Power supplies and converters

High-efficiency power management circuits

Product Lifecycle

Currently Active

Fully supported with availability of replacements and upgrades

Several Key Reasons to Choose This Product

Facilitates high speed and efficient power management solutions.

Ensures reliable operation in high temperature environments up to 150°C.

Compact and thermally efficient package suitable for space-constrained applications.

Easy to interface with common logic levels, simplifying system integration.

Versatile power supply range enhances compatibility with various circuit designs.

Advanced features like high side voltage capability and rapid switching rates boost overall performance and efficiency.