NCP5359DR2G - onsemi

Manufacturer Part Number

NCP5359DR2G

Manufacturer

onsemi

Introduction

The NCP5359DR2G is a high-performance Power Management Integrated Circuit (PMIC) Gate Driver designed for synchronous half-bridge configurations, particularly aimed at driving N-Channel MOSFETs.

Product Features and Performance

Designed for synchronous half-bridge configurations

Capable of driving two N-Channel MOSFETs

Supports a supply voltage range of 10V to 13.2V

Non-Inverting input type for straightforward integration

Features fast rise and fall times of 16ns and 11ns, respectively, for efficient switching

Operates over a wide temperature range from 0°C to 150°C

Product Advantages

Improved system efficiency due to fast switching times

Broad operating temperature range enhances versatility in various environments

Simplified system design facilitated by non-inverting input compatibility

Key Technical Parameters

Driven Configuration: Half-Bridge

Channel Type: Synchronous

Number of Drivers: 2

Gate Type: N-Channel MOSFET

Voltage Supply: 10V ~ 13.2V

Logic Voltage VIL, VIH: 1V, 2V

High Side Voltage Max (Bootstrap): 35V

Rise / Fall Time (Typ): 16ns, 11ns

Quality and Safety Features

Engineered to meet high-quality standards with robust protection features against thermal and electrical hazards, ensuring reliable performance and product longevity.

Compatibility

Especially designed for synchronous half-bridge configurations, enhancing compatibility with N-Channel MOSFETs across various applications.

Application Areas

Ideal for power management tasks in consumer electronics, automotive sectors, industrial controls, and high-efficiency power supplies.

Product Lifecycle

As of the latest update, this product is classified as obsolete, suggesting users to consider replacements or upgrades available in onsemi's portfolio of Gate Drivers for their future design needs.

Several Key Reasons to Choose This Product

Quick and efficient switching performance reduces power loss

Versatile operation across a broad temperature and voltage range

Easy integration into system designs due to non-inverting input requirement

Reliable operation ensured by stringent quality and safety measures

Although obsolete, it represents a proven solution in power management with equivalent or more advanced options available for next-generation designs