
Optimize HV to SELV without battery and supercaps
Learn how to effectively convert HV battery power to SELV with fast bidirectional conversion to support regenerative loads
What operating conditions must the DC-DC system fulfill? Real-world systems comprise more than just the DC-DC converter itself. Using a case study to examine the requirements of module integration into a DC-DC system, you will learn topics such as input and output filtering, protections, compatibility with the source and load dynamics.
Viewers learn a range of design techniques, including: Identifying system requirements and module options, Developing system architecture and select power components to fulfill conversion needs, Implementing modules and support circuitry.
Optimize HV to SELV without battery and supercaps
Learn how to effectively convert HV battery power to SELV with fast bidirectional conversion to support regenerative loads
Achieving EM conducted emission compliance for high voltage conversion with switching frequency above 1.3MHz
Nicola Rosano, Sr. Strategic FA/System Engineer at Vicor unpacks how fixing electromagnetic interference (EMI) in systems employing high-frequency DC-DC converters poses a critical...
Designing 48V zonal architecture that keeps the high voltage inside the BEV battery pack
YK Choi, Sr. Field Application Engineer at Vicor and YoungJae Kang, Chief Engineer at INFAC discuss how integrating 48V conversion into the battery pack will reduce heat, cost, and...
Eliminating the high voltage precharge with existing hardware in BEVs
Patrick Kowalyk, Automotive Principal Field Applications Engineer at Vicor, will talk about how any high-voltage bus needs to have a precharge circuit to protect the electronic dev...