Powerelectronics 4067 036104 Efficient Power Conversion Epc

Development Boards Use GaN FETs and High Frequency Synchronous Bootstrap

May 20, 2016
Efficient Power Conversion has introduced the EPC9066, EPC9067, and EPC9068 development boards, which are configurable to a buck converter or as a ZVS class-D amplifier.

Efficient Power Conversion has introduced the EPC9066, EPC9067, and EPC9068 development boards, which are configurable to a buck converter or as a ZVS class-D amplifier. These boards provide an easy-to-use way for power systems designers to evaluate the exceptional performance of gallium nitride transistors, enabling the designers to get their products into volume production quickly.

All three boards feature a zero reverse recovery (QRR) synchronous bootstrap rectifier augmented gate driver to increase efficiency at high frequency operation, up to 15 MHz. The boards can produce a maximum output of 2.7 A in the buck and ZVS class-D amplifier configurations. Loss reduction is realized across the entire current range.

The EPC9066/67/68 feature 40V, 65V, and 100V-rated eGaN FETs respectively. These boards are 2" x 1.5" and are laid out in a half-bridge configuration. Each board uses the Texas Instruments LM5113 gate driver with supply and bypass capacitors. The gate driver has been configured with a synchronous FET bootstrap circuit featuring the 100V EPC2038 eGaN FET, which eliminates the driver losses induced by the reverse recovery of the internal bootstrap diode. The boards have various probe points and Kelvin measurement points for DC input and output. In addition, the boards provide the capability to install a heat sink for high power operation. 

Sponsored Recommendations

Comments

To join the conversation, and become an exclusive member of Electronic Design, create an account today!