GaN Talk a blog dedicated to crushing silicon
Term: mild hybrid
2 post(s) found

Aug 25, 2022

How to Design a 2 kW 48 V/12 V Bi-Directional Power Module with GaN FETs for 48 V Mild Hybrid Electric Vehicles

Tiziano Morganti, Senior Field Application Engineer at Efficient Power Conversion

Environmental pressures are creating pressure to quickly adopt newer, cleaner, and more efficient transportation options.  In 2025, 1 in 10 vehicles sold are expected to be a more fuel efficient 48 V mild hybrid.  These systems will require a 48V – 12V bidirectional converter, with power ranging from 1.5 kW to 6 kW. The design priorities for these systems are size, cost, and high reliability. GaN power conversion solutions are perfect to support a 48 V to 12 V bidirectional converter used in these newer models.

A new reference design demo board, the EPC9165, is available to help jump start the design of a 2 kW bi-directional converter.  The EPC9165 is a synchronous buck/boost converter with other supporting circuitry including current sensors and temperature sensor.  The EPC9528 controller board ships with the EPC9165 to incorporate digital control and housekeeping power supply; this board uses the dsPIC33CK256MP503 digital controller from Microchip.

Jan 07, 2022

How to Design a 12 V to 48 V / 500 W 2-Phase Boost Converter Using eGaN FETs and the Renesas ISL81807 Controller with Same BOM Size as Silicon, Offering Superior Efficiency and Power Density

Jianglin Zhu, Senior Applications Engineer

48 V is being adopted in many applications, including AI systems, data centers, and mild hybrid electric vehicles. However, the conventional 12 V ecosystem is still dominant, so a high power density 12 V to 48 V boost converter is required. The fast-switching speed and low RDS(on) of eGaN FETs can help address this challenge. In this post, the design of a 12 V to 48 V, 500 W DC-DC power module using eGaN® FETs directly driven by eGaN FET compatible ISL81807 controller IC from Renesas in the simple and low-cost synchronous boost topology is evaluated.