Dc-Link Ripple Suppression of Cascaded H-Bridge Based MV Grid Emulator Apparatus for Analysis and Testing of Grid-Tied Converters in Distribution System

Jing Sheng, Chengmin Li (Corresponding author), Xin Xiang, Wuhua Li, Drazen Dujic

Research output: Contribution to journalArticleAcademicpeer-review

4 Citations (Scopus)
34 Downloads (Pure)

Abstract

The medium-voltage grid emulator is gaining popularity for testing grid-code compliance of large-capacity converters for renewable energy resources. The cascaded H-bridge converter based on active-front-ends is a promising candidate for high-power grid emulators owing to its high modularity and extendibility. However, the cascaded H-bridge topology-based grid emulator suffers the undesired and unpredictable large dc-link voltage ripple under output voltages with multiple-frequency components, e.g., when emulating the grid voltage flickers and harmonics. In this paper, the dc-link voltage ripple characteristics under multi-frequency output conditions are analyzed and a dc-link ripple suppression method adopting harmonic current injection is proposed. The injected current reference is generated by reconstructing the dc-link output current and added to the original active-front-end current control loop. Compared with the existing control methods, e.g., proportional-integral-resonant (PIR), the proposed method has a good voltage ripple suppression effect, especially for multi-frequency outputs. Furthermore, the proposed idea does not need complicated calculation or extra control loops and provides a feedforward reference for the current control, leading to a good dynamic response of dc-link voltage control. Finally, the performance of this suppression control scheme is verified on two 1200V@40kW power electronics building blocks of a cascaded H-bridge converter.

Original languageEnglish
Article number10330045
Pages (from-to)622-634
Number of pages13
JournalIEEE Transactions on Power Delivery
Volume39
Issue number1
DOIs
Publication statusPublished - 1 Feb 2024

Funding

This work was supported in part by the National Key Research and Development Program of China under Grant 2022YFB2405400, and in part by the National Natural Science Foundation of China under Grant 52107214.

FundersFunder number
National Natural Science Foundation of China52107214
National Key Research and Development Program of China2022YFB2405400

    Keywords

    • active front end
    • Capacitors
    • cascaded H-bridge converter
    • Frequency control
    • grid emulator
    • Harmonic analysis
    • harmonic current injection
    • multi-frequency output
    • Power grids
    • Power harmonic filters
    • Resonant frequency
    • Voltage control
    • voltage ripple suppression

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