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Advanced Single Switch Architecture Drives Efficiency And Flexibility

Innovative CoolGaN Drive 700 V G5 Switches Revolutionize Power Design

Advanced Single-Switch Architecture Drives Efficiency and Flexibility

The latest addition to Infineon's CoolGaN product portfolio, the CoolGaN Drive 700 V G5 single switches, are game-changers in the realm of power electronics. These cutting-edge devices seamlessly integrate a transistor with a gate driver within compact PQFN 56 and PQFN 68 packages, unlocking a new level of efficiency and design flexibility.

Integrated Power Stage for Enhanced Performance

The groundbreaking co-integration of the gate drivers and half-bridge in a single-die solution is a testament to Infineon's unwavering commitment to innovation. This advanced design eliminates the need for external drivers, simplifying design, reducing component count, and significantly enhancing system performance.

By integrating the gate driver directly into the switch, the CoolGaN Drive 700 V G5 switches achieve remarkable switching speed and efficiency. This translates into reduced power losses, improved thermal management, and increased energy savings for a wide range of applications.

Extensive Range for Diverse Applications

To cater to the diverse requirements of various power electronics applications, the CoolGaN Drive family encompasses a comprehensive range of single switches and half bridges. These devices feature integrated drivers based on the recently announced CoolGaN technology, ensuring optimum performance and reliability.

With their compact size, high-efficiency operation, and ease of use, the CoolGaN Drive 700 V G5 single switches are ideally suited for applications such as solar inverters, electric vehicle chargers, motor drives, and industrial power supplies.

Driving the Future of Power Electronics

Infineon's CoolGaN Drive 700 V G5 single switches represent a quantum leap forward in the power electronics industry. Their integrated power stage, wide application range, and relentless pursuit of efficiency and performance position them as the future of power design.

By embracing these innovative devices, designers can unlock unprecedented levels of performance and efficiency, enabling them to create groundbreaking products that drive sustainable and connected societies.


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