Manufacturer Part Number
T4050-6PF
Manufacturer
stmicroelectronics
Introduction
The T4050-6PF is a high-performance, snubberless thyristor (triac) from STMicroelectronics. It is designed for use in a wide range of industrial and domestic applications, offering reliable and efficient switching capabilities.
Product Features and Performance
Capable of handling up to 40A of RMS on-state current
Voltage rating of 600V in the off-state
Snubberless design for reduced power dissipation and improved reliability
Very low gate trigger voltage (Vgt max of 1.3V) for easy control
Capable of withstanding high non-repetitive surge currents up to 420A
Wide operating temperature range of -40°C to 125°C
Product Advantages
Snubberless design for improved efficiency and reliability
High current handling capability for demanding applications
Low gate trigger voltage for easy control and reduced power consumption
Wide operating temperature range for versatile usage
Key Reasons to Choose This Product
Reliable and efficient switching performance
Robust design for demanding industrial and domestic applications
Easy integration and control due to low gate trigger voltage
Comprehensive protection against high surge currents
Quality and Safety Features
Compliant with relevant safety and quality standards
Robust construction for reliable long-term operation
Designed and manufactured to STMicroelectronics' high-quality standards
Compatibility
The T4050-6PF is compatible with a wide range of industrial and domestic applications, including motor control, lighting, heating, and power control systems.
Application Areas
Industrial automation and control systems
Domestic appliances and home automation
Motor control and power conversion applications
Lighting and heating systems
Product Lifecycle
The T4050-6PF is an active product in our website's sales team portfolio. There are no known plans for discontinuation at this time. Customers are advised to check with our website's sales team or their authorized distributors for the latest product availability and potential alternative models.