ON Semiconductor FES16GT Fast Recovery Rectifier

The ON Semiconductor FES16GT is a high-performance, fast recovery rectifier designed to meet the demanding requirements of various electronic applications. This rectifier is part of the highly reliable FES16 series known for its efficiency and durability. The FES16GT is capable of handling high current and voltage with a maximum repetitive peak reverse voltage of 400V and an average forward rectified current of 16A, making it an ideal choice for power supply designs and converters.

Constructed with a glass passivated pellet chip junction, the FES16GT ensures a stable and reliable performance, even in the most challenging conditions. It features a fast recovery time of 35 nanoseconds, providing quick switching for high-efficiency operations. This characteristic is especially beneficial in reducing losses in applications that require high-frequency operation.

The device is housed in a TO-220AB package, which is not only robust but also offers excellent thermal performance. Its lead-free finish and RoHS compliance make it suitable for use in environmentally sensitive applications and help manufacturers meet regulatory requirements for electronic products.

The FES16GT is designed with low forward voltage drop and reverse leakage characteristics, which contribute to its overall efficiency. It also has a high surge capacity, which allows it to handle overloads effectively without compromising the integrity of the circuit. This makes it an excellent choice for power management in consumer electronics, telecommunication systems, and industrial equipment.

ON Semiconductor's commitment to quality ensures that the FES16GT rectifier is manufactured with the highest standards. It is designed for those who need a reliable and efficient solution for rapid switching and power rectification in their electronic circuits. Whether you're designing a new system or upgrading an existing one, the FES16GT from ON Semiconductor is a component that can help you achieve optimal performance and reliability.