BTA Series TO-3T Triac Thyristor Enhanced Power Control Solutions

The BTA series triac thyristors in TO-3T package represent a major advancement in power semiconductor technology, meeting the needs of industries that require precise control of high current operations. Designed for applications such as motor speed regulation, dimmable lighting systems, and industrial heating equipment, they can be seamlessly integrated into circuits that require stable switching and high load continuous performance. They can handle currents from 60A to 100A, and are versatile solutions for consumer electronics and industrial machinery that require stable power management.

The TO-3T package focuses on durability, ensuring excellent heat dissipation and extending the life of the bidirectional thyristor. The rugged design minimizes thermal resistance and maintains efficient operation even in high temperature environments. Thermal resilience reduces the risk of overheating-related failures and is ideal for continuous use scenarios such as HVAC systems or automated production lines. The mechanical strength of the package further enhances the ability to resist vibration and physical stress, ensuring reliable operation even in harsh environments.

BTA series triac thyristors simplify circuit design and provide precise phase angle control. Optimized gate triggering mechanism smoothly regulates power output. Low holding current requirement ensures energy efficiency and reduces unnecessary power consumption under standby or low load conditions. Compatible with standard mounting processes, it can be seamlessly integrated into existing systems, reducing redesign costs.

The TRIAC thyristors have built-in advanced overvoltage and surge protection features to ensure safety and stability, reducing the risk of voltage spikes or sudden load changes commonly seen in power tool operation or grid-connected equipment. Symmetrical blocking ensures bidirectional current control, enhancing flexibility in AC circuit design.

Our BTA series TO-3T thyristors meet the growing demand for smart energy-saving power control. High current capacity, high heat resistance and precise triggering characteristics enable innovation in renewable energy systems, electric vehicle charging infrastructure and IoT devices.