Computationally Efficient Simulation of High-Frequency Transients in Power Electronic Circuits PROJECT TITLE :Computationally Efficient Simulation of High-Frequency Transients in Power Electronic CircuitsABSTRACT:A computationally economical simulation framework is about forth in that the semiconductor devices are represented by the physical phenomena relevant to the accurate prediction of high-frequency circuit-level transients and energy losses. Key components of this framework include an encapsulated diode model and a technique of coupling device models with those of external circuit parts given a user-specified SPICE-like netlist. The framework is applied to one-part full-bridge diode rectifier circuit with a discussion on time-step necessities and overall computational performance. Comparisons between simulated and measured waveforms are provided revealing excellent agreement. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest A 0.45-to-1.2-V Fully Digital Low-Dropout Voltage Regulator With Fast-Transient Controller for Near/Subthreshold Circuits A CMOS Low-Dropout Regulator With Dominant-Pole Substitution
