Title :
DC bus voltage EMI mitigation in three-phase active rectifiers using a virtual neutral filter
Author :
Parker, Stewart Geoffrey ; Segaran, D.S. ; Holmes, D.G. ; McGrath, Brendan P.
Author_Institution :
Sch. of Electr. & Comput. Eng., RMIT Univ., Melbourne, VIC, Australia
Abstract :
Grid connected PWM inverters/rectifiers inevitably produce a high frequency switched common mode voltage on their DC bus, which can cause substantial EMI problems. The mitigation strategy proposed in this paper is to couple the Y point of the LCL filter capacitors to the DC bus mid-point to connect a virtual neutral to the DC bus, which significantly reduces the high frequency common mode voltages on the bus. However, additional common mode inductances and capacitances are required for this filter, to limit high frequency circulating currents and define the EMI filter breakpoint. Also, the converter current regulator must be split into differential and common mode sections, to eliminate phase coupling between the phase leg active damping current regulators, and to support damping of the common mode EMI filter resonance. The concept is verified by simulations and experimental results.
Keywords :
PWM invertors; PWM rectifiers; capacitance; damping; electromagnetic interference; inductance; interference suppression; power capacitors; power filters; power grids; DC bus; EMI filter breakpoint; EMl filter resonance; LCL filter capacitor Y point; common mode; dc bus voltage EMI mitigation; differential mode; grid connected PWM inverter; grid connected PWM rectifier; high frequency switched common mode voltage reduction; phase active damping current regulator; phase coupling elimination; three-phase active rectifier; virtual neutral filter; Baseband; Inverters; Rectifiers; Switches; Active Rectifier; Common Mode; EMI; Virtual Neutral;
Conference_Titel :
Power Electronics Conference (IPEC-Hiroshima 2014 - ECCE-ASIA), 2014 International
Conference_Location :
Hiroshima
DOI :
10.1109/IPEC.2014.6869921
