Análise de retificador trifásico assimétrico com capacitores flutuantes.

Abstract

This work studies a cascaded asymmetrical three-phase power rectifier with floating capacitors. The converter studied consists on a three-leg three-phase converter (Converter T) cascaded with one H-bridge on each phase (Converter H). Converter T process active power and is connected to a DC load. Converter H has floating capacitors on its DC-links. The DC-link voltage ratio between converter T and converter H is 3:1, so the converter generates the greatest number of voltage levels equally distributed that the topology is able to generate. Two PWM strategies are presented. The first one is a level-shifted PWM, here named LSPWM. The second one is a space vector PWM (SVPWM). The two modulations presented optimize the converter level generation, generating an output voltage with the maximum number of levels. Control strategies for the DC-link voltages are also shown. Converter T DC-link voltage control is performed by a cascaded current control and converter H DC-links control is accomplished by manipulating the converter homopolar voltage, therefore the floating capacitors control is achieved without modifying the PWM levels. Finally, steady state behaviour, losses and harmonic distortion are analysed. Simulation and experimental results are present in order to validate the analysis.