The ON Semiconductor 2SC3068 is a high-voltage, high-speed NPN bipolar junction transistor (BJT) designed for use in a variety of applications requiring fast switching and robust performance. This versatile transistor is well-suited for high-efficiency power supplies, converters, inverters, and high-frequency circuits.

Key Features

• Voltage Capabilities: The 2SC3068 offers a collector-emitter voltage (VCEO) of up to 800V, making it suitable for high-voltage applications.
• Current Handling: With a continuous collector current (IC) rating of up to 3A, this transistor can handle significant power for its size.
• Speed: A fast switching speed ensures that the 2SC3068 can operate efficiently in high-frequency circuits.
• High Transition Frequency: A transition frequency (fT) of 30 MHz allows for good performance in RF applications.
• Robustness: The device is designed for reliable operation even under demanding conditions, contributing to the longevity of the end application.

Applications

• Switching Regulators
• DC-DC Converters
• Motor Control Circuits
• Power Amplifier Stages
• High-Frequency Oscillators

Package and Quality

The 2SC3068 comes in a TO-220 package, a widely used, through-hole mounting design that facilitates heat dissipation and ease of installation. ON Semiconductor's commitment to quality ensures that each transistor meets rigorous standards for performance and reliability.

Environmental Compliance

ON Semiconductor is dedicated to environmental stewardship. The 2SC3068 is manufactured with a focus on eco-friendly practices and is compliant with RoHS (Restriction of Hazardous Substances) directives, minimizing the environmental impact of electronic components.

Conclusion

Whether you're designing power management systems or high-frequency signal processing circuits, the ON Semiconductor 2SC3068 NPN transistor offers a blend of high-voltage capability, speed, and reliability. Its robust design and compliance with environmental standards make it a smart choice for a wide range of electronic applications.