The 2SK3278-CSL-TL-E is a high-performance N-Channel MOSFET brought to you by ON Semiconductor, a leading figure in the semiconductor industry. This MOSFET is designed to meet the needs of a wide range of applications, offering both reliability and efficiency for electronic circuits.

Key Features

• Low On-Resistance: The device features a low on-resistance, which reduces power loss and improves overall efficiency, making it ideal for power management applications.
• High-Speed Switching: With its capability for high-speed switching, this MOSFET is well-suited for high-frequency operations, contributing to better performance in applications such as power supplies and converters.
• Gate Charge: It has been optimized for minimal gate charge, which leads to reduced switching losses and enables faster switching speeds.
• Voltage Ratings: The 2SK3278-CSL-TL-E is designed to handle a drain-source voltage (Vds) of up to 60V, making it robust for various circuit designs.
• Current Capacity: This MOSFET can support a continuous drain current (Id) of up to 30A, allowing it to handle significant power levels.

Applications

The versatility of the 2SK3278-CSL-TL-E MOSFET makes it suitable for a broad spectrum of applications, including:

• DC/DC converters
• Power supplies for servers, PCs, and telecom systems
• Motor drives
• Power management functions

Quality and Reliability

ON Semiconductor is committed to delivering products that adhere to the highest standards of quality and reliability. The 2SK3278-CSL-TL-E is no exception, with its construction ensuring long-term stability and performance under varying conditions. It is designed to meet the rigorous demands of industrial and commercial applications, ensuring that your projects run smoothly and efficiently.

Environmental Considerations

The 2SK3278-CSL-TL-E is RoHS compliant, reflecting ON Semiconductor's dedication to environmental responsibility. By reducing hazardous substances, this MOSFET is not only safer for the environment but also aligns with global regulations for electronic components.