BTA10-600BRG - STMicroelectronics

Manufacturer Part Number

BTA10-600BRG

Manufacturer

stmicroelectronics

Introduction

The BTA10-600BRG is a standard 600V, 10A Triac from the category of Thyristors TRIACs, offered in a tube packaging designed for handling and managing alternating currents (AC).

Product Features and Performance

Designed for AC switching and phase control applications including motor control, heating, lighting, and static switching.

Standard Triac Type with capability to handle loads up to 10A.

High surge capability of 100A at 50 Hz and 105A at 60 Hz.

Gate trigger voltage (Vgt) at a maximum of 1.3V.

Holding current (Ih) is capped at a maximum of 50 mA.

Operational temperatures range from -40°C to 125°C, ensuring stability and efficiency in extreme conditions.

Product Advantages

Robust in handling high power with low gate trigger sensitivity.

Capable of withstanding temporary power surges without damage.

Versatile for various applications due to broad operating temperature range.

Key Technical Parameters

Voltage - Off State: 600V.

Current - On State (It (RMS)) (Max): 10A.

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

Current - Non Rep. Surge (Itsm): 100A at 50 Hz, 105A at 60 Hz.

Current - Gate Trigger (Igt) (Max): 50 mA.

Current - Hold (Ih) (Max): 50 mA.

Configuration: Single.

Quality and Safety Features

Designed for consistent performance within specified temperatures (-40°C to 125°C).

Enclosed in a TO-220-3 package for reliable mechanical and thermal protection.

Compatibility

Compatible with Through Hole mounting assembly method.

Structured in a TO-220 package applicable in most standard Triac circuits.

Application Areas

Motor control systems.

Residential and commercial lighting.

Heating applications.

Static switching circuits.

Product Lifecycle

Currently marked as active.

Continues to be produced and supplied by stmicroelectronics with no current indications of discontinuation.

Several Key Reasons to Choose This Product

Durable with high surge capability, capable of managing unexpected surges without performance hindrance.

High performance and stability across a very wide operational temperature range.

Versatile usability, from industrial to domestic settings.

Low gate sensitivity reduces risk of unintentional triggering.