Large-scale control electronics, operating at cryogenic temperatures, are needed to run practical quantum computers. But scaling such electronics means addressing substantial challenges related to ...

The ability to control the movement of negatively charged particles (i.e., electrons) is central to the functioning of all ...

The digital control of switching power supplies is firmly established in everything from EV onboard chargers (OBCs) to power-supply units (PSUs) in AI data centers to renewable-energy systems that ...

The Electronic Power Lab at Wilkes University is a dedicated facility for education and research in electrical machines, power electronics, energy systems, and electrical power management. The lab is ...

The car world as we know it is at its highest level of flux ever seen in its history, that’s no hype and nothing too far out ...

In the world of power electronics, galvanic isolation prevents the undesirable flow of DC or AC current between different parts of a circuit or system while allowing for the safe transfer of signals ...

Microrobotics 1,2,3, enabled by advances in information and microsystem technologies, is crossing the threshold into becoming a scalably progressive mass-production platform to address urgent ...

Controlling magnetic states in materials typically requires continuous power or only works in rare, specialized systems. Researchers developed a general theory showing how electric fields can ...

As we wait for the highest levels of automated driving to pry the power to steer from our warm, live hands, power steering systems continue to evolve. A novelty when it appeared in the 1991 Acura NSX, ...