Simple Harmonics Compensation Method for Smart Charger with Constant DC-Capacitor Voltage-Control for Electric Vehicles in Single-Phase Three-Wire Distribution Feeders

カテゴリ: 論文誌(論文単位)

グループ名: 【D】産業応用部門（英文）

発行日: 2019/01/01

タイトル(英語): Simple Harmonics Compensation Method for Smart Charger with Constant DC-Capacitor Voltage-Control for Electric Vehicles in Single-Phase Three-Wire Distribution Feeders

著者名: Fuka Ikeda (National Institute of Technology, Ube College), Toshihiko Tanaka (Yamaguchi University), Hiroaki Yamada (Yamaguchi University), Masayuki Okamoto (National Institute of Technology, Ube College)

著者名(英語): Fuka Ikeda (National Institute of Technology, Ube College), Toshihiko Tanaka (Yamaguchi University), Hiroaki Yamada (Yamaguchi University), Masayuki Okamoto (National Institute of Technology, Ube College)

キーワード: single-phase three-wire distribution feeders，harmonics compensation，constant dc-capacitor voltage control，three-leg PWM rectifier，single-phase PLL circuit，single-phase d-q coordinates

要約(英語): This paper discusses harmonic current compensation of the constant dc-capacitor voltage-control (CDCVC)-based strategy for smart charger for electric vehicles (EVs) in single-phase three-wire distribution feeders (SPTWDFs) under distorted load current conditions. The basic principle of the CDCVC-based harmonics compensation strategy under distorted load current conditions is discussed in detail. The instantaneous power flowing into the three-leg pulse-width modulated (PWM) rectifier, which acts as a smart charger, shows that the CDCVC-based strategy achieves balanced and sinusoidal source currents with a unity power factor (PF). The CDCVC-based harmonics compensation strategy does not require any calculation blocks of fundamental reactive, unbalanced active, and harmonic currents. Thus, the authors propose a simplified algorithm to compensate for reactive, unbalanced active, and harmonic currents. Simulation and experimental results demonstrate that balanced and sinusoidal source currents with a unity PF in SPTWDFs are obtained on the secondary side of the pole-mounted distribution transformer during both the battery-charging and battery-discharging operations in EVs, compensating the reactive, unbalanced active, and harmonic currents.

本誌: IEEJ Journal of Industry Applications Vol.8 No.1 （2019）

本誌掲載ページ: 23-32 p

原稿種別: 論文／英語

電子版へのリンク: https://www.jstage.jst.go.jp/article/ieejjia/8/1/8_23/_article/-char/ja/