FAN7631SJX - onsemi

Manufacturer Part Number

FAN7631SJX

Manufacturer

onsemi

Introduction

FAN7631SJX is a Power Management Integrated Circuit (PMIC) specifically designed for resonant converter control in power supply applications.

Product Features and Performance

Operates within a voltage supply range of 11.1V to 21V.

The current supply is 10 mA.

Operational temperature range from -40°C to 130°C.

Designed for surface mount technology with a 16-SOIC package.

Specializes in resonant converter control for efficient power conversion.

Product Advantages

Efficient power conversion leads to energy savings.

Wide voltage supply range accommodates various power sources.

High operational temperature range enhances reliability in extreme conditions.

Surface Mount technology facilitates compact and efficient circuit design.

Key Technical Parameters

Voltage - Supply: 11.1V ~ 21V

Current - Supply: 10 mA

Operating Temperature: -40°C ~ 130°C

Mounting Type: Surface Mount

Package / Case: 16-SOIC

Quality and Safety Features

The operating temperature range of -40°C to 130°C ensures the device's reliability under extreme conditions.

Compatibility

Designed for use in resonant converter applications, making it compatible with a range of power supply designs.

Application Areas

Ideal for power management applications where efficient energy conversion is desired. Suitable for various electronic devices requiring controlled power supply.

Product Lifecycle

The product status is listed as Obsolete, signifying the end of its production lifecycle. Information on replacement or upgrade options may be needed for new designs.

Several Key Reasons to Choose This Product

Offers efficient power conversion, enhancing energy savings.

Wide voltage and operational temperature ranges make it suitable for a variety of applications and conditions.

Compact surface mount design aids in creating sleek, efficient power supply circuits.

Its specialization in resonant converter control makes it a go-to choice for related applications.

Although obsolete, its performance parameters may still make it a viable choice for existing designs or replacements in specific scenarios.