Introducing the MCR69-2 Silicon Controlled Rectifier from ON Semiconductor

The MCR69-2 is a robust silicon controlled rectifier (SCR) designed and manufactured by ON Semiconductor, a leader in energy-efficient innovations. This SCR is a high-performance device that is ideal for a broad range of applications requiring controlled rectification and phase control. With its impressive features and reliable performance, the MCR69-2 is an excellent choice for designers looking to enhance their power management systems.

Key Features of MCR69-2

• High Surge Capability: The MCR69-2 is engineered to withstand high surge currents, making it particularly suitable for applications prone to surges and spikes.
• Voltage Rating: It has a repetitive peak off-state voltage (V_DRM) of 600V, which ensures it can handle significant voltage without breakdown.
• On-State Current: With a rated on-state current (I_T) of 12A, this SCR can control a considerable amount of power, making it useful for heavy-duty operations.
• Gate Trigger Current: The device requires a low gate trigger current (I_GT), which allows for easy triggering of the SCR with minimal power.
• Thermal Characteristics: The MCR69-2 exhibits excellent thermal stability, ensuring reliable operation over a wide temperature range.

Applications

The versatility of the MCR69-2 SCR makes it suitable for various applications, including:

• Motor control circuits
• Overvoltage crowbar protection
• Capacitive discharge ignitions
• Power control in domestic appliances
• Industrial power tools
• Lighting dimmers

Reliability and Packaging

ON Semiconductor's commitment to quality ensures that the MCR69-2 SCR is a reliable component for any circuit. The device is available in a TO-220AB package, which is widely used and easy to mount on various types of PCBs. The package is designed to optimize thermal performance and enhance durability.

Whether you're designing a new power control system or upgrading an existing one, the MCR69-2 from ON Semiconductor is a smart choice that combines performance, reliability, and efficiency. Its robust design ensures long-term stability, making it a valuable component in any power electronics toolbox.