Author :
Pasterczyk, R.J. ; Guichon, Jean-M ; Atienza, Edsel
Abstract :
This paper describes how to design the output filter of a PWM inverter used in a Uninterruptible Power Supply. Several constraints apply to this design: physical limitations of all material and components, output waveform quality, losses, cost, ... All models used in the design process are described: semiconductor, inductor and capacitor losses, cost, Total Harmonic Distortion (THD), short circuit behavior... Input parameters are control law, switching frequency, inductor design parameters (number of turns and magnetic circuit) and capacitor values. Based on these design models, optimization is carried out, and cost-losses trade-off curves are deduced. Two power levels (30 kVA and 300 kVA) are taken as design example, with the same models, in order to show the robustness of the method.
Keywords :
PWM invertors; harmonic distortion; losses; power filters; uninterruptible power supplies; PWM inverter output filter; THD; Total Harmonic Distortion; Uninterruptible Power Supply; capacitor losses; cost-losses trade-off curves; design process; inductor design parameters; inductor losses; optimal design; semiconductor losses; switching frequency; Cost function; Inductors; Magnetic materials; Power harmonic filters; Process design; Pulse width modulation inverters; Semiconductor materials; Switched capacitor circuits; Total harmonic distortion; Uninterruptible power systems;
