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 ...

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 ...

Power electronics design is a critical aspect of modern engineering, influencing the efficiency, reliability, and performance of numerous applications. Developing circuits that meet stringent ...

Isolation, retention, and power switches are some of the important functionalities of power-aware designs that use some of the common low power techniques (e.g.) power shutoff, multi-voltage and ...

Peer grading is employed using detailed rubrics that measure how your design meets the specifications, and how your simulations verify this performance. Priori knowledge needed: Specialization on ...

A ripple-generating circuit is usually needed to ensure stability of constant-on-time (COT) controlled buck converters. Different values of the ripple generating circuit can have direct impacts on ...

Once in a while I’m asked if it’s necessary to check power and ground connections with VDD/VSS-aware simulation on a physical (PG) netlist. The short answer is: “No, as long as you have run LP ...