5 kW bidirectional grid-connected drive using silicon-carbide switches: Control

Alireza Kouchaki, Radu Lazar, Jacob Lykke Pedersen, Morten Nymand

Research output: Chapter in Book/Report/Conference proceedingArticle in proceedingsResearchpeer-review

Abstract

This paper presents a controller design for a fully silicon-carbide (SiC) based bidirectional three-phase grid-connected PWM drive. For drive applications, controller must be robust and fast to be able to provide power flow in both directions. In this paper, proportional resonance (PR) current controller in the stationary reference frame is used. Furthermore the influence of feedforward compensation for stability of the rectifier is studied. Two different experiments are conducted to observe the stability of the converter. In the first experiment, a 5 kW bidirectional SiC based three-phase rectifier with switching frequency of 45 kHz will be tested. The test is done by connecting it to a grid simulator and the load is a resistive load. In the second test the rectifier will be connected to the grid via an auto-transformer and load is a 7.5kW SiC based drive which is connected to a permanent magnet motor. Different tests will be conducted to evaluate the performance of the controllers in both generative and regenerative mode. It is shown that the controller can provide a good dynamic response to load changes for both direction of power flow.

Original languageEnglish
Title of host publication2017 IEEE Applied Power Electronics Conference and Exposition (APEC)
PublisherIEEE
Publication date17. May 2017
Pages640-645
ISBN (Print)978-1-5090-5367-4
ISBN (Electronic)978-1-5090-5366-7
DOIs
Publication statusPublished - 17. May 2017
Event2017 IEEE Applied Power Electronics Conference and Exposition - Tampa, United States
Duration: 26. Mar 201730. Mar 2017

Conference

Conference2017 IEEE Applied Power Electronics Conference and Exposition
Country/TerritoryUnited States
CityTampa
Period26/03/201730/03/2017

Keywords

  • Bidirectional power flow
  • Drive applications
  • Grid connected converter
  • Stability

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