Your search keyword '"frequency and voltage regulation"' showing total 3 results

1. Virtual Synchronous Motor Based-Control of a Three-Phase Electric Vehicle Off-Board Charger for Providing Fast-Charging Service.

Author

Yan, Xiangwu, Li, Jiajia, Zhang, Bo, Jia, Zhonghao, Tian, Yang, Zeng, Hui, and Lv, Zhipeng

Subjects

SYNCHRONOUS electric motors, ELECTRIC vehicles, ELECTRIC charge

Abstract

This study introduces a three-phase virtual synchronous motor (VSM) control and its possible application for providing fast-charging service from off-board chargers of electric vehicles (EVs). The main circuit of the off-board charger consists of a three-phase voltage source PWM rectifier (VSR) and a resonant LLC zero-voltage-switching converter. In the proposed control approach, VSM-controlled pre-stage VSR emulates the external characteristics of a synchronous motor (SM), simultaneously, droop control based on charging mode in the VSM can satisfy the demand of the EVs constant-current fast-charging; The post-stage DC–DC converter is responsible for stabilizing the DC bus voltage. The feature of this control strategy is that VSM and fast charging control are implemented by the pre-stage converter, which has better coordination. In the MATLAB, the equivalent synchronous grid of the distribution network supplies to the power battery through the off-board charger, and the effectiveness of the presented control is demonstrated by typical working conditions. [ABSTRACT FROM AUTHOR]

Published

2018

2. Virtual Synchronous Motor Based-Control of a Three-Phase Electric Vehicle Off-Board Charger for Providing Fast-Charging Service

Author

Xiangwu Yan, Jiajia Li, Bo Zhang, Zhonghao Jia, Yang Tian, Hui Zeng, and Zhipeng Lv

Subjects

electric vehicle, virtual synchronous motor, frequency and voltage regulation, off-board charger, fast charging, equivalent synchronous grid, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This study introduces a three-phase virtual synchronous motor (VSM) control and its possible application for providing fast-charging service from off-board chargers of electric vehicles (EVs). The main circuit of the off-board charger consists of a three-phase voltage source PWM rectifier (VSR) and a resonant LLC zero-voltage-switching converter. In the proposed control approach, VSM-controlled pre-stage VSR emulates the external characteristics of a synchronous motor (SM), simultaneously, droop control based on charging mode in the VSM can satisfy the demand of the EVs constant-current fast-charging; The post-stage DC–DC converter is responsible for stabilizing the DC bus voltage. The feature of this control strategy is that VSM and fast charging control are implemented by the pre-stage converter, which has better coordination. In the MATLAB, the equivalent synchronous grid of the distribution network supplies to the power battery through the off-board charger, and the effectiveness of the presented control is demonstrated by typical working conditions.

Published

2018

3. Virtual Synchronous Motor Based-Control of a Three-Phase Electric Vehicle Off-Board Charger for Providing Fast-Charging Service

Author

Jiajia Li, Zhonghao Jia, Xiangwu Yan, Yang Tian, Zhipeng Lv, Hui Zeng, and Bo Zhang

Subjects

business.product_category, Computer science, 020209 energy, 02 engineering and technology, PWM rectifier, lcsh:Technology, lcsh:Chemistry, Electric vehicle, electric vehicle, virtual synchronous motor, frequency and voltage regulation, off-board charger, fast charging, equivalent synchronous grid, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Voltage droop, Voltage source, MATLAB, Instrumentation, lcsh:QH301-705.5, computer.programming_language, Fluid Flow and Transfer Processes, business.industry, lcsh:T, Process Chemistry and Technology, 020208 electrical & electronic engineering, General Engineering, Electrical engineering, Grid, lcsh:QC1-999, Computer Science Applications, Three-phase, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Synchronous motor, business, lcsh:Engineering (General). Civil engineering (General), computer, lcsh:Physics

Abstract

This study introduces a three-phase virtual synchronous motor (VSM) control and its possible application for providing fast-charging service from off-board chargers of electric vehicles (EVs). The main circuit of the off-board charger consists of a three-phase voltage source PWM rectifier (VSR) and a resonant LLC zero-voltage-switching converter. In the proposed control approach, VSM-controlled pre-stage VSR emulates the external characteristics of a synchronous motor (SM), simultaneously, droop control based on charging mode in the VSM can satisfy the demand of the EVs constant-current fast-charging; The post-stage DC–DC converter is responsible for stabilizing the DC bus voltage. The feature of this control strategy is that VSM and fast charging control are implemented by the pre-stage converter, which has better coordination. In the MATLAB, the equivalent synchronous grid of the distribution network supplies to the power battery through the off-board charger, and the effectiveness of the presented control is demonstrated by typical working conditions.

Published

2018