TLE6228GP - Infineon Technologies

Manufacturer Part Number

TLE6228GP

Manufacturer

Infineon Technologies

Introduction

Power distribution switch and load driver IC for automotive and industrial applications

Provides four independent low-side power switches with fault protection features

Product Features and Performance

Four independent low-side N-channel power switches

Capable of driving loads up to 5A or 3A per channel

Wide supply voltage range of 4.8V to 32V

Low on-resistance of 230mΩ or 280mΩ

Integrated fault protection including open load detection, over-temperature, and over-voltage

Product Advantages

Robust fault protection safeguards against damage to the switches and connected loads

Wide operating temperature range of -40°C to 150°C

Small 20-SOIC package with exposed pad for improved thermal performance

Suitable for a variety of automotive and industrial applications

Key Technical Parameters

Supply voltage range: 4.8V to 32V

Output current (max): 5A or 3A per channel

On-resistance: 230mΩ or 280mΩ

Operating temperature range: -40°C to 150°C

Number of outputs: 4 independent low-side N-channel switches

Quality and Safety Features

RoHS3 compliant

Integrated open load detection, over-temperature, and over-voltage protection

Compatibility

Suitable for a wide range of automotive and industrial applications requiring robust power distribution and load driving

Application Areas

Automotive systems (e.g., body electronics, lighting, infotainment)

Industrial control and automation equipment

Power management in various electronic devices

Product Lifecycle

The TLE6228GP is an active product, and Infineon Technologies continues to support and manufacture this device.

Replacement or upgrade options may be available, but the TLE6228GP remains a widely used and supported part.

Key Reasons to Choose this Product

Robust fault protection features safeguard the switches and connected loads

Wide operating temperature range and small package size make it suitable for diverse applications

High current-handling capability and low on-resistance improve efficiency and reduce power dissipation

Integrated protection features simplify system design and improve reliability