SMC3K28CA-M3/57 - Vishay General Semiconductor - Diodes Division

Manufacturer Part Number

SMC3K28CA-M3/57

Manufacturer

vishay-semi-diodes

Introduction

The SMC3K28CA-M3/57 is a high-performance transient voltage suppressor (TVS) diode from Vishay Semiconductor. It is designed to protect sensitive electronic components from voltage spikes and surges, ensuring reliable operation in a wide range of applications.

Product Features and Performance

Bidirectional 1-channel TVS diode

Reverse standoff voltage (typical): 28V

Breakdown voltage (minimum): 31.1V

Clamping voltage (maximum) at peak pulse current: 45.4V

Peak pulse current (10/1000μs): 66.1A

Peak pulse power: 3000W (3kW)

Wide operating temperature range: -55°C to 150°C (junction temperature)

Surface mount package: DO-214AB (SMC)

Product Advantages

Robust protection against voltage transients and surges

Compact surface mount package for space-saving design

Reliable and durable performance in demanding environments

Excellent thermal management for high-power applications

Key Reasons to Choose This Product

Proven reliability and long-term stability

Comprehensive circuit protection for sensitive electronics

Compatibility with a wide range of applications

Cost-effective solution for transient voltage suppression

Quality and Safety Features

Compliant with relevant safety and environmental standards

Rigorous testing and quality control measures

Robust construction for enhanced durability

Compatibility

Suitable for use in general-purpose applications

Application Areas

Ideal for protecting electronic devices and circuits from voltage transients and surges in various industries, including consumer electronics, industrial automation, and automotive systems.

Product Lifecycle

The SMC3K28CA-M3/57 is an active product, currently available from Vishay Semiconductor. There are no immediate plans for discontinuation. However, customers are advised to consult with our website's sales team for the latest product information and availability, as well as any potential alternative or equivalent models that may be suitable for their specific requirements.