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AC EV wallbox / Bidirectional DC wallbox

Car electrification is well underway and numerous countries have ambitious plans to rule out new petrol and diesel in the near future. One of the critical challenges in making electric vehicles more common, is the availability of accessible charging points. Single phase 3.7-11 kW and 3-phase 11-200 kW wall or pole-mounted AC boxes are currently the standard option. But bidirectional technology (allowing electricity to flow into and out of EVs) is rapidly maturing with 7.4-22 kW bidirectional DC Wallboxes. This will enable cars to become mobiles storage platforms and fully integrated into smart grid infrastructures.

Block diagram

Highlighted components are Nexperia focus products

Design considerations

  • Most common AC wallboxes are rated 420 V which can be covered with 650 V GAN FETs
  • Need to be able to provide robust and reliable system performance, with high SOA and avalanche capabilties
  • Nexperia GaN FETs are easy to drive, enabling high power density with standard, inexpensive MOSFET drviers
  • CCPAK technology delivers compact design with high efficiency and reliability
  • Increasing interest in bare die desings 

MOSFET and GaN FET Handbook

Drawing on over 20 years’ of experience, the MOSFET and GaN FET Application Handbook: A Power Design Engineer’s Guide brings together a comprehensive set of learning and reference materials relating to the use of MOSFETs and GaN FETs in real world systems.

Download your copy today 

H-bridge motor controller design using Nexperia discrete semiconductors and logic ICs

The H-bridge circuit in this Technical Note is a full bridge DC-to-DC converter allowing operation of a brushed DC motor (48 V max, 12 V min, 5 A max). All electronic functions are designed with Nexperia discrete and logic IC components (low cost, no microcontroller or software needed). Read more >>

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