IHLP3232DZER150M11 - Vishay

Manufacturer Part Number

IHLP3232DZER150M11

Manufacturer

Vishay-Dale

Introduction

The IHLP3232DZER150M11 is a high-performance, shielded, molded inductor from Vishay-Dale. It is designed for use in power conversion and filtering applications, offering a compact surface-mount solution with excellent electrical characteristics.

Product Features and Performance

Inductance value of 15 μH with ±20% tolerance

Operating temperature range of -55°C to 125°C

Rated current of 4.9 A

Saturation current of 3.7 A

Self-resonant frequency of 10.3 MHz

Low DC resistance of 65.3 mΩ maximum

Shielded construction for minimal magnetic interference

Product Advantages

Compact surface-mount design for high-density PCB layouts

Excellent electrical performance, including low DC resistance and high saturation current

Wide operating temperature range for use in diverse applications

Shielded construction to minimize electromagnetic interference

Key Reasons to Choose This Product

Reliable and consistent performance in power conversion and filtering applications

Efficient use of board space with the compact surface-mount package

Robust design and wide operating temperature range for use in demanding environments

Competitive pricing and availability from a trusted manufacturer, Vishay-Dale

Quality and Safety Features

RoHS-compliant materials

Adheres to industry safety and quality standards

Compatibility

The IHLP3232DZER150M11 is a standard component that can be used in a wide range of power conversion and filtering applications, including:

Switch-mode power supplies

DC-DC converters

EMI filtering

Power factor correction circuits

Application Areas

Consumer electronics

Industrial equipment

Automotive electronics

Telecommunications equipment

Product Lifecycle

The IHLP3232DZER150M11 is an active product, and Vishay-Dale continues to manufacture and support this model. There are no immediate plans to discontinue this product. Customers can contact our website's sales team for information on any potential alternative or replacement models in the future.