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 ...

Automotive designs are expected to drive power electronics to 15% compound annual growth rate between 2020 and 2030, according to McKinsey & Company, so power design stakeholders are aligning their ...

Real-time power system simulation and hardware-in-the-loop (HIL) testing have been transforming the power industry for over 30 years. These tools have revolutionized the way that engineers study power ...

Real-time power system simulation and hardware-in-the-loop testing are among the key tools for power industry leaders. Learn how these technologies are paving the way for a secure and sustainable grid ...

The power electronics simulation system, Wang said, would ideally be installed in the Edibon Power Systems Simulation Lab in the McMahon Engineering Building. The lab, which was unveiled this fall at ...

The semiconductor industry has greatly simplified analysis by consolidating around a small number of models and abstractions, but that capability is breaking down both at the implementation level and ...

How in-house-developed and third-party general-purpose simulation tools are limited to a few expert users and aren’t easily shareable. How multiphysics simulation of subsystems can result in an ...

The demand for clean, renewable energy is changing the face of the power industry. For example, to get power from off-shore wind farms, rather than converting wind-generated electricity to ...