The NXP BTA316X-800C is a high-performance triac designed to control AC loads in a variety of applications. This semiconductor device is part of NXP's extensive triac portfolio, known for its reliability and efficiency in controlling current flow. The BTA316X-800C can handle applications that require high bidirectional transient and blocking voltage capability and on-state current.

Key Features

• High Blocking Voltage: With an 800V peak repetitive off-state voltage (VDRM/VRRM), the BTA316X-800C is suitable for high-voltage applications, ensuring stable operation under surge conditions.
• High On-State Current: The device can handle a continuous on-state current (IT(RMS)) of up to 16A, making it capable of controlling most high-power devices.
• Enhanced Thermal Performance: Its enhanced thermal performance ensures reliability and longevity even under high operating temperatures and power dissipation.
• Three Quadrant Operation: The BTA316X-800C operates in three quadrants, making it versatile for various control applications.
• High Immunity to Electrical Noise: The device has a high immunity to electrical noise, which is crucial for applications susceptible to spurious triggering and false operation.

Applications

The BTA316X-800C is ideal for a wide range of applications where efficient AC load control is required. It is commonly used in:

• Motor control circuits
• Lighting systems
• Heating systems
• Power tools
• Home appliances

Quality and Reliability

NXP is committed to delivering high-quality products. The BTA316X-800C is manufactured to meet the highest industry standards, ensuring both performance and durability for the end-user. Its robust construction and proven design make it a reliable choice for both industrial and consumer applications.

Environmental Compliance

The BTA316X-800C is compliant with environmental regulations, including RoHS. NXP's dedication to environmental sustainability ensures that the product is manufactured with consideration for ecological impact, while also focusing on efficiency and performance.