Several aspects must be taken into account when dealing with power electronic design. Within a system we can identify different elements such as thermal dissipation, electrical characteristics, ...

Power Hardware-in-the-Loop (PHIL) simulation and testing is a cutting-edge methodology that integrates actual power system components with high-fidelity computational models. This approach creates a ...

Modern electronic systems have an increasing level of complexity. There can be a large number of power rails and supply solutions on a system board to power many different loads. Before choosing or ...

This course introduces the basic concepts of switched-mode converter circuits for controlling and converting electrical power with high efficiency. Principles of converter circuit analysis are ...

A global leader in simulation programming for complex power electronics systems is donating software to Alfred University, which engineering students will use to model electrical circuits, power ...

Vicor Corporation unveiled its new IBC Power Simulation tool, an industry-first online simulation capability that enables power system designers to interactively model the electrical and thermal ...

Prior knowledge needed: ECEA 5700 Introduction to Power Electronics, ECEA 5701 Converter Circuits, ECEA 5702 Converter Control, ECEA 5703 Magnetics Design ...

This paper analyzes the efficiency of silicon MOSFETs in surface-mount (SMD) packages with top-side cooling compared to bottom-side cooling packages in terms of thermal performance, lowering both ...

Microprocessors (µPs) and system-on-chip (SoC) integrated circuits impose very demanding large and fast load current changes of 10 A/µs to 50 A/µs yet require ultra-small transient voltage overshoot ...