Infineon IPB60R380C6 CoolMOS™ C6 Power Transistor: Features and Applications

The Infineon IPB60R380C6 is a state-of-the-art power transistor belonging to the renowned CoolMOS™ C6 family, representing a significant leap in high-voltage MOSFET technology. Engineered for exceptional efficiency and robustness, this component is designed to meet the demanding requirements of modern power electronic systems.

A standout feature of the IPB60R380C6 is its ultra-low effective dynamic loss, a hallmark of the CoolMOS™ C6 technology. This is achieved through a revolutionary superjunction (SJ) structure that drastically reduces both switching and conduction losses. With a low on-state resistance (R DS(on)) of just 380 mΩ at 600 V, it ensures minimal power dissipation, leading to cooler operation and higher overall system efficiency. Furthermore, its exceptional switching performance allows for higher switching frequencies, enabling the design of smaller, lighter magnetics and passive components. The transistor also boasts high dv/dt and di/dt capability, enhancing its reliability in rugged environments. The integrated body diode provides excellent reverse recovery characteristics, making it highly suitable for hard-switching topologies like power factor correction (PFC) circuits.

The combination of these features makes the IPB60R380C6 an ideal choice for a wide array of applications. It is extensively used in switched-mode power supplies (SMPS) for servers, telecom equipment, and industrial machinery, where efficiency and power density are paramount. Its robustness is perfectly suited for Power Factor Correction (PFC) stages in both interleaved and single-phase configurations. Additionally, it is a prime candidate for solar inverters and UPS systems, contributing to higher energy harvest and reliable backup power. The transistor also finds its place in high-performance lighting solutions, such as LED drivers, and in various motor control and drive applications.

ICGOODFIND: The Infineon IPB60R380C6 CoolMOS™ C6 sets a new benchmark for high-efficiency power conversion, offering designers a superior component to achieve higher power density, improved thermal management, and enhanced system reliability across diverse industrial and consumer applications.

Keywords: High Efficiency, Superjunction MOSFET, Low R DS(on), Power Factor Correction (PFC), Switched-Mode Power Supply (SMPS)