Modeling power distribution in SoCs is becoming increasingly important at each new node and in 3D-ICs, where tolerances involving power are much tighter and any mistake can cause functional failures.

A more distributed power distribution network will help utilities better navigate the wave of changes resulting from the smart grid. Very few industries will experience the rapid change that power ...

Brace yourselves for a monumental leap into the future of energy distribution! The DC-POWER project, funded by the European Union, has officially kick-started in January 2024. Coordinated by CEA (INES ...

Addressing reliable, accurate, and fast-acting voltage supervision that enables the reliable deployment of next-generation DC ...

The demand for increased compute density. An evolution to ±400-V DC distribution to next-generation AI/ML supercomputer racks to meet that demand. Challenges and solutions in making the move to ±400-V ...

AI workloads are pushing the power demands of server racks beyond the practical limits of 48VDC distribution. With current levels reaching several MW, data centres using traditional architectures face ...

Think about the last time your command needed mobile power in the field. This probably required the servicing, maintenance, dispatching, and recovery of an Advanced Medium Mobile Power Source (AMMPS) ...

More details of the architecture of the Lilium Jet electric regional air taxi have emerged as the German startup has named Astronics to develop the power distribution system. U.S.-based Astronics will ...

Emergency automatic transfer systems are vital for maintaining power in critical facilities such as hospitals, water treatment plants, and airports during utility outages. Proper training of ...