Device Voltage Stress From Ground Leakage Current in Medium-Voltage Solid-State Transformer

Liran Zheng, Rajendra Prasad Kandula, Deepak Divan

Research output: Contribution to journalArticlepeer-review

3 Scopus citations

Abstract

Grounding related issues are critical for safe and reliable operation of solid-state transformer (SST) in medium-voltage (MV) applications, e.g., solar photovoltaic and energy storage integration, date center, electric vehicle fast charging, etc. This article presents for the first time the issue of additional device voltage stress due to grounding-loop current in current-source SST, using the soft-switching solid-state transformer (S4T) as an example. The S4T features single-stage isolated ac-ac, ac-dc, or dc-dc conversion with full-range ZVS, derived from flyback converter or current-source converter (CSC). However, the flyback operation for CSC-based SST means that magnetizing current flows through the reverse-blocking devices on only one side of the medium-frequency transformer (MFT) at a time. Then, the voltages across the devices, especially those on the other side of the MFT, can be influenced by parasitic current. A parasitic model of a modular S4T (M-S4T) prototype is developed from direct measurements and datasheets. Using the developed parasitic model and equivalent circuits, the causes of the voltage stress are analyzed. A voltage-stress mitigation scheme of connecting additional grounding capacitors is proposed. Damping resistors are also installed to damp out the grounding-loop resonance. A robust parameter design of the proposed scheme is given. The existence of the voltage stress issue and the effectiveness of the proposed scheme are verified experimentally on an MV SiC M-S4T prototype with inherent parameter variations among the five modules in the prototype. Both single-module and stacked-module operation are demonstrated during steady state and dynamic conditions up to 4 kV peak.

Original languageEnglish
Pages (from-to)566-577
Number of pages12
JournalIEEE Transactions on Power Electronics
Volume38
Issue number1
DOIs
StatePublished - Jan 1 2023

Funding

Thisworkwas supported in part by the Advanced Research Projects Agency-Energy, U.S. Department of Energy, under Award DE-AR0000899 through the CIRCUITS Program monitored by Dr. I. Kizilyalli, and in part by the Center for Distributed Energy, Georgia Institute of Technology

FundersFunder number
U.S. Department of EnergyDE-AR0000899
Advanced Research Projects Agency - Energy
Georgia Institute of Technology
Center for Distributed Energy, Georgia Institute of Technology

    Keywords

    • Common mode
    • current-source converter (CSC)
    • current-source inverter (CSI)
    • input-series output-parallel (ISOP)
    • medium-frequency transformer (MFT)
    • power electronic transformer (PET)
    • solid-state transformer (SST)
    • zero-voltage switching (ZVS)

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