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 ...

Hitachi combines industry expertise in energy, physical AI, automation, and control architecture to accelerate AI Factory digital twin development.

How the challenges of electric-motor control design can be overcome using digital twins in all design and test phases. How automated testing within a continuous and integrated toolchain is able to ...

Infineon and Typhoon HIL have partnered to deliver a real-time development and test environment using Typhoon’s hardware-in-the-loop (HIL) simulator for ultra-high-fidelity motor drive, on-board ...

To keep a solar-powered HAPS flying continuously, its power generation must exceed its consumption. While predicting the power consumption of the motors is straightforward, predicting the power ...

New reference platforms streamline three-phase inverter development, reducing design complexity while accelerating adoption ...

Electric actuators replace hydraulics in full-flight simulators while still maintaining that aircraft “feel.” • Full-flight simulators (FFS) replicate the real “feel” of the simulated aircraft. • A 12 ...

As data speeds push into the multi-gigabit range and requirements on digital systems grow more complex, cutting down the time-to-market while also ensuring error-free reliable designs seems impossible ...