Component selection considerations for the latest computing applications

1:00:25

0:00 - Introduction 1:32 - Selective coordination definition, validation & examples 12:51 - What is driving 48V adoption? 20:12 - Power inductor and overcurrent fuses for computing 26:55 - How to increase inductor power density? 31:52 - Multi-phase paralleled buck converter 33:41 - Core material selection As big data continues to accelerate globally by the adoption of new platforms in 5G and IoT, computing power demands increase, heightening the quest to be more energy-efficient. Data centers require complex distribution systems to support 24/7 operations while eliminating the risk of outages. In this session, Eaton’s industry experts will share how to solve your computing design problems while improving reliability and performance.

Contact us if you need any assistance or further information.
Electronic components
Component selection considerations for the latest computing applications

0:00 - Introduction 1:32 - Selective coordination definition, validation & examples 12:51 - What is driving 48V adoption? 20:12 - Power inductor and overcurrent fuses for computing 26:55 - How to increase inductor power density? 31:52 - Multi-phase paralleled buck converter 33:41 - Core material selection As big data continues to accelerate globally by the adoption of new platforms in 5G and IoT, computing power demands increase, heightening the quest to be more energy-efficient. Data centers require complex distribution systems to support 24/7 operations while eliminating the risk of outages. In this session, Eaton’s industry experts will share how to solve your computing design problems while improving reliability and performance.

Contact us if you need any assistance or further information.

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