Design Considerations for a 50 kW Dual Bridge Series Resonant DC/DC Converter with Wide-Input Voltage Range for Solid-State Transformers

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Pramod Apte
  • Siqi Lin
  • Lukas Frager
  • Jens Friebe

Organisationseinheiten

Externe Organisationen

  • BLOCK Transformatoren-Elektronik GmbH
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des Sammelwerks2021 IEEE Energy Conversion Congress and Exposition (ECCE)
Herausgeber (Verlag)Institute of Electrical and Electronics Engineers Inc.
Seiten1164-1170
Seitenumfang7
ISBN (elektronisch)9781728151359
ISBN (Print)978-1-7281-5134-2, 978-1-7281-6128-0
PublikationsstatusVeröffentlicht - 2021
Veranstaltung13th IEEE Energy Conversion Congress and Exposition, ECCE 2021 - Virtual, Online, Kanada
Dauer: 10 Okt. 202114 Okt. 2021

Publikationsreihe

NameIEEE Energy Conversion Congress and Exposition
ISSN (Print)2329-3721
ISSN (elektronisch)2329-3748

Abstract

Solid-State transformers (SST) consist of isolated bidirectional DC-DC Converters as a link between the Active Front End (AFE) and the DC-AC converter to adjust the voltage across the two DC links. Dual-Bridge Series Resonant Converter (SRCDAB) is one of the promising topologies for such applications. In this paper, the design methodology for SRC-DAB is explained for wide-input voltage range which can be used in universal voltage SSTs across global LV grids. The converter operates using Single Phase Shift (SPS) modulation scheme with a constant and unique switching frequency for different grid connections. The practical methodology of selecting the switching frequency, transformer turns ratio and resonant tank parameters for minimum peak semiconductor losses for the complete input voltage range has been described in this paper. The converter is designed to provide constant power output of 50 kW at 750 V for an input voltage range of 300-800 V. An experimental 10 kW prototype is shown.

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Design Considerations for a 50 kW Dual Bridge Series Resonant DC/DC Converter with Wide-Input Voltage Range for Solid-State Transformers. / Apte, Pramod; Lin, Siqi; Frager, Lukas et al.
2021 IEEE Energy Conversion Congress and Exposition (ECCE). Institute of Electrical and Electronics Engineers Inc., 2021. S. 1164-1170 (IEEE Energy Conversion Congress and Exposition).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Apte, P, Lin, S, Frager, L & Friebe, J 2021, Design Considerations for a 50 kW Dual Bridge Series Resonant DC/DC Converter with Wide-Input Voltage Range for Solid-State Transformers. in 2021 IEEE Energy Conversion Congress and Exposition (ECCE). IEEE Energy Conversion Congress and Exposition, Institute of Electrical and Electronics Engineers Inc., S. 1164-1170, 13th IEEE Energy Conversion Congress and Exposition, ECCE 2021, Virtual, Online, Kanada, 10 Okt. 2021. https://doi.org/10.1109/ecce47101.2021.9595913
Apte, P., Lin, S., Frager, L., & Friebe, J. (2021). Design Considerations for a 50 kW Dual Bridge Series Resonant DC/DC Converter with Wide-Input Voltage Range for Solid-State Transformers. In 2021 IEEE Energy Conversion Congress and Exposition (ECCE) (S. 1164-1170). (IEEE Energy Conversion Congress and Exposition). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ecce47101.2021.9595913
Apte P, Lin S, Frager L, Friebe J. Design Considerations for a 50 kW Dual Bridge Series Resonant DC/DC Converter with Wide-Input Voltage Range for Solid-State Transformers. in 2021 IEEE Energy Conversion Congress and Exposition (ECCE). Institute of Electrical and Electronics Engineers Inc. 2021. S. 1164-1170. (IEEE Energy Conversion Congress and Exposition). doi: 10.1109/ecce47101.2021.9595913
Apte, Pramod ; Lin, Siqi ; Frager, Lukas et al. / Design Considerations for a 50 kW Dual Bridge Series Resonant DC/DC Converter with Wide-Input Voltage Range for Solid-State Transformers. 2021 IEEE Energy Conversion Congress and Exposition (ECCE). Institute of Electrical and Electronics Engineers Inc., 2021. S. 1164-1170 (IEEE Energy Conversion Congress and Exposition).
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N2 - Solid-State transformers (SST) consist of isolated bidirectional DC-DC Converters as a link between the Active Front End (AFE) and the DC-AC converter to adjust the voltage across the two DC links. Dual-Bridge Series Resonant Converter (SRCDAB) is one of the promising topologies for such applications. In this paper, the design methodology for SRC-DAB is explained for wide-input voltage range which can be used in universal voltage SSTs across global LV grids. The converter operates using Single Phase Shift (SPS) modulation scheme with a constant and unique switching frequency for different grid connections. The practical methodology of selecting the switching frequency, transformer turns ratio and resonant tank parameters for minimum peak semiconductor losses for the complete input voltage range has been described in this paper. The converter is designed to provide constant power output of 50 kW at 750 V for an input voltage range of 300-800 V. An experimental 10 kW prototype is shown.

AB - Solid-State transformers (SST) consist of isolated bidirectional DC-DC Converters as a link between the Active Front End (AFE) and the DC-AC converter to adjust the voltage across the two DC links. Dual-Bridge Series Resonant Converter (SRCDAB) is one of the promising topologies for such applications. In this paper, the design methodology for SRC-DAB is explained for wide-input voltage range which can be used in universal voltage SSTs across global LV grids. The converter operates using Single Phase Shift (SPS) modulation scheme with a constant and unique switching frequency for different grid connections. The practical methodology of selecting the switching frequency, transformer turns ratio and resonant tank parameters for minimum peak semiconductor losses for the complete input voltage range has been described in this paper. The converter is designed to provide constant power output of 50 kW at 750 V for an input voltage range of 300-800 V. An experimental 10 kW prototype is shown.

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