Product Overview: BT136S-800E from NXP

The BT136S-800E is a high-performance Triac manufactured by NXP Semiconductors, designed to cater to the demands of modern AC control applications. This robust semiconductor device is well-suited for use in a wide array of applications such as motor control, domestic lighting, heating, and static switching. Its compact and reliable design makes it an ideal choice for designers looking for an efficient solution to manage AC power within their electronic circuits.

Key Features

• Voltage Capability: The BT136S-800E is rated for a maximum repetitive peak off-state voltage (V_DRM) of 800V, making it suitable for use in circuits with high voltage requirements.
• Current Rating: It has a high RMS on-state current (I_T(RMS)) of 4A, ensuring it can handle significant power levels for a variety of AC loads.
• Gate Trigger Current: With a sensitive gate trigger current (I_GT), the device can be easily triggered with low gate currents, enhancing its compatibility with microcontroller outputs and other low-power gate trigger circuits.
• Package: The BT136S-800E comes in a surface-mount DPAK (TO-252) package, which is not only space-efficient but also suitable for high-density PCB designs and automated assembly processes.
• Operating Temperature: It operates over a wide temperature range, making it reliable in various environmental conditions.

Applications

The BT136S-800E is versatile and can be used in multiple applications, including:

• Home and office automation for controlling lighting systems, dimmers, and blinds.
• Motor control for small household appliances and tools.
• Heating control in applications such as electric heaters, ovens, and thermostats.
• Industrial control for automation processes.

With its high voltage and current handling capabilities, along with a sensitive gate trigger, the BT136S-800E from NXP is a reliable choice for designers and engineers looking to incorporate effective AC power control in their applications. Its DPAK package ensures a minimal footprint on PCBs, making it an excellent choice for compact designs that require robust performance.