EVs are transitioning toward high-voltage (HV) standards, which have made energy management requirements more complex. The dc ...

Modern power systems are rapidly evolving into highly digitized smart grids, increasing their complexity at an unprecedented ...

Power electronics encompasses the conversion, control and conditioning of electrical energy through semiconductor switching devices. At its core are inverter, rectifier and DC–DC converter topologies ...

In everything from onboard chargers (OBCs) and DC-DC converters in EVs to the AI power supplies in data centers to solar, wind, and other renewable-energy systems, fully digital power control is ...

The consequences can be costly, ranging from production downtime to compromised equipment and even safety hazards. Certainly, capacitors are indeed responsible for 30% of power electronics failures, ...

The Department of Energy (DOE) has initiated a new “enabling” pathway to achieve and sustain a dramatic transformation of the nation’s evolving grid—through its power electronics fabric, with the ...

Scientists have developed a ground-breaking piezoelectric-based DC-DC converter that unifies all power switches onto a single chip to increase power density. This new power topology, which extends ...

The three-level, three-phase SiC AC-DC architecture. T-type inverter and T-Type inverter with SiC MOSFETs topologies. Totem-pole topology implemented with SiC or GaN. High power density has steadily ...

Due to their versatility, ease of design, and low cost, flyback converters have become one of the most widely used topologies in power electronics. Its structure derives from one of the three basic ...

The annual Applied Power Electronics Conference & Exposition (APEC 2026) showcases hundreds of companies that exhibit their latest component and technology advances for system power designers across a ...

Power electronics is a key enabling technology in essentially all electronic systems and is increasingly important in the grid interface of renewable energy sources and in efficient electrical loads.