Affiliation of Author(s):自动化学院
Journal:IEEE TRANSACTIONS ON POWER ELECTRONICS
Key Words:Boost-derived converter output impedance second-harmonic current (SHC) single-phase inverter two stage virtual impedance
Abstract:The instantaneous output power of the two-stage single-phase inverter pulsates at twice the output frequency (2f(o)), generating notorious second-harmonic current (SHC) in the front-end dc-dc converter and the input dc voltage source. This paper focuses on the SHC reduction for a two-stage single-phase inverter with boost-derived front-end converter. To reduce the SHC, a virtual series impedance, which has high impedance at 2f(o) while low impedance at other frequencies, is introduced in series with the boost diode or the boost inductor to increase the impedance of the boost-diode branch or boost-inductor branch at 2f(o). Meanwhile, for achieving good dynamic performance, a virtual parallel impedance, which exhibits infinite impedance at 2f(o) while low impedance at other frequencies, is introduced in parallel with the dc-bus capacitor to reduce the output impedance of the boost-derived converter at the frequencies except for 2f(o). The virtual series impedance is realized by the feedback of the boost-diode current or the boost-inductor current, while the virtual parallel impedance is implemented by the feedback of the dc-bus voltage. Based on the virtual-impedance approach, a variety of SHC reduction control schemes are derived. A step-by-step closed-loop parameters design approach with considerations of reducing the SHC and improving the dynamic performance is also proposed for the derived SHC reduction control schemes. Finally, a 1-kW prototype is built and tested, and experimental results are presented to verify the effectiveness of the proposed SHC reduction control schemes.
ISSN No.:0885-8993
Translation or Not:no
Date of Publication:2018-07-01
Co-author:张力,REN Xiaoyong
Correspondence Author:rxb
Date of Publication:2018-07-01