ON Semiconductor 1N4935G Fast Recovery Rectifier Diode

The 1N4935G is a high-efficiency, fast recovery rectifier diode designed and manufactured by ON Semiconductor, a leader in energy-efficient innovations. This rectifier diode is specifically engineered to minimize reverse recovery time, which is crucial for high-speed switching applications. It is an ideal choice for power supply designs and converters where fast switching is a critical requirement.

The 1N4935G boasts a repetitive reverse voltage of 200V and a forward current of 1.0A, providing a well-balanced performance for a wide range of applications. The device's fast recovery time, typically rated at 200ns, ensures that it can handle quick transitions efficiently, reducing power losses and improving overall system performance.

Key Features:

• High Efficiency: With a forward current of 1.0A and low forward voltage drop, the 1N4935G ensures high efficiency in operation, making it suitable for high-frequency rectification.
• Fast Recovery Time: The fast recovery time of 200ns minimizes power losses during switching, making it an excellent choice for high-speed applications.
• Surge Capability: The diode can handle surge currents, providing robust performance under transient conditions and enhancing the reliability of the end application.
• Lead-Free: The 1N4935G is a lead-free component, complying with environmental regulations and promoting green initiatives in electronic designs.
• Package: Packaged in an axial-lead, the device is easy to install in various circuit configurations and is compatible with through-hole mounting techniques.

Applications:

The ON Semiconductor 1N4935G is versatile and can be used in a variety of electronic circuits, including:

• Switching power supplies
• Converters
• Free-wheeling diodes
• Reverse battery protection
• Consumer electronics
• Automotive applications

With its fast recovery time, high efficiency, and robust surge capability, the 1N4935G from ON Semiconductor is a reliable and effective solution for engineers looking to improve their power management systems. Its compliance with environmental standards also ensures that it is a future-proof choice for designs that require both performance and sustainability.