LM5100CMAX - Texas Instruments

Manufacturer Part Number

LM5100CMAX

Manufacturer

Texas Instruments

Introduction

The LM5100CMAX is an Obsolete power management integrated circuit (PMIC) designed for driving N-Channel MOSFETs in a half-bridge configuration. It is suitable for a range of power conversion and management applications.

Product Features and Performance

Designed to drive N-Channel MOSFETs in a half-bridge configuration

Supports independent channel operation

Features 2 drivers for enhanced system control

Operates on a supply voltage of 9V to 14V

Incorporates non-inverting input type

Provides high side voltage support up to 118V (bootstrap)

Exhibits rise and fall times of 990ns and 715ns, respectively

Suitable for operating temperatures ranging from -40°C to 125°C (TJ)

Surface mount package for streamlined PCB integration

Product Advantages

High side voltage support facilitates use in high voltage applications

Dual driver configuration allows for versatile circuit designs

Robust temperature range ensures performance in varied environmental conditions

Fast switching speeds enhance power efficiency

Key Technical Parameters

Supply Voltage: 9V ~ 14V

Logic Voltage VIL, VIH: 2.3V, -

Output Current Peak (Source, Sink): 1A, 1A

High Side Voltage Max (Bootstrap): 118V

Rise / Fall Time (Typ): 990ns, 715ns

Operating Temperature: -40°C ~ 125°C (TJ)

Quality and Safety Features

Compliant with standard quality and safety regulations for PMIC gate drivers

Compatibility

Compatible with N-Channel MOSFET gates

Application Areas

Ideal for power conversion systems

Suitable for motor control circuits

Can be used in power management solutions for consumer electronics

Product Lifecycle

This product is listed as Obsolete, indicating it is nearing discontinuation

Users should consider seeking replacements or upgrades

Several Key Reasons to Choose This Product

Reliable performance from a reputable manufacturer, Texas Instruments

Supports high-voltage N-Channel MOSFET driving for diverse applications

Dual driver functionality enhances circuit flexibility

Robust design ensures performance in a wide range of environmental conditions

Obsolescence status suggests the necessity of stockpiling or seeking modern alternatives