TYN640RG - STMicroelectronics

Manufacturer Part Number

TYN640RG

Manufacturer

stmicroelectronics

Introduction

The TYN640RG is a silicon-controlled rectifier (SCR) from stmicroelectronics, presented in a TO-220-3 package and designed for applications requiring repetitive peak voltages up to 600V.

Product Features and Performance

Standard recovery SCR

Off-state voltage of 600V

Gate trigger voltage (Max) of 1.3V

Gate trigger current (Max) of 35 mA

On-state voltage (Max) of 1.6V

On-state current, average max (It(AV)) of 25A

On-state current, RMS max (It(RMS)) of 40A

Holding current (Max) of 75 mA

Off-state current (Max) of 5 µA

Non-repetitive surge current 50, 60Hz (Itsm) of 460A, 480A

Operating temperature range from -40°C to 125°C

Through-hole mounting type

Product Advantages

High surge current capability enhances durability

Low gate trigger current facilitates easier control in circuits

Designed to withstand high temperatures and voltages for robust performance

Key Technical Parameters

Voltage Off State: 600V

Voltage Gate Trigger (Vgt) (Max): 1.3V

Current Gate Trigger (Igt) (Max): 35mA

Voltage On State (Vtm) (Max): 1.6V

Current On State (It (AV)) (Max): 25A

Current Hold (Ih) (Max): 75mA

Current Non Rep. Surge 50, 60Hz (Itsm): 460A, 480A

Quality and Safety Features

Robust silicon-controlled rectifier capable of handling high surge currents

Stable performance in a wide range of operating temperatures

Compatibility

Compatible with through-hole mounting for easy installation and replacements

Application Areas

Industrial power supplies

Motor control circuits

Solid-state relays

Over-voltage protection

Product Lifecycle

Currently in active status

No indication of nearing discontinuation

Upgrades or replacements readily available as needed

Several Key Reasons to Choose This Product

High reliability and durability under high voltage and temperature conditions

Ease of integration with through-hole mounting

Versatile use across various industrial applications

Assured continuous production without foreseeable discontinuation

High-performance ratings in both surge current and thermal stability