UG4SC075005L8S
UG4SC075005L8S is a high-performance power semiconductor device manufactured by onsemi, designed for efficient power conversion and management in demanding industrial and automotive applications. It features a robust silicon carbide (SiC) technology platform, offering superior thermal performance, reduced switching losses, and enhanced reliability compared to traditional silicon-based devices.
The component operates with a continuous current rating of up to 50 A and supports a maximum blocking voltage of 750 V, making it suitable for high-voltage DC-DC converters, motor drives, and onboard chargers. Its low on-resistance (RDS(on)) ensures minimal conduction losses, improving overall system efficiency—particularly critical in energy-sensitive environments such as electric vehicles and renewable energy systems.
This device integrates a fully optimized trench-gate structure and advanced packaging technology, enabling faster switching speeds and improved thermal dissipation. The compact surface-mount package reduces board space requirements while maintaining excellent mechanical stability under vibration and thermal cycling conditions. Additionally, it includes built-in protection features such as over-current and over-temperature shutdown, enhancing system safety and longevity.
Commonly used in EV traction inverters, solar power inverters, and industrial servo drives, the UG4SC075005L8S delivers high power density and supports operation at elevated junction temperatures up to 175°C. Its compatibility with standard gate drivers and ease of integration into existing designs make it ideal for engineers seeking to upgrade legacy systems or develop next-generation power electronics.
The device complies with AEC-Q101 qualification standards, ensuring reliability in harsh automotive environments, and meets RoHS and REACH regulatory requirements for environmental compliance. With its combination of high efficiency, rugged design, and wide operating range, the UG4SC075005L8S stands out as a key enabler for modern power solutions requiring precision, durability, and performance.