Design and Control of a Virtual DC-Link for a full GaN-based Single Phase Converter with High Power Density

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

Autoren

  • Yugandhara H. Wankhede
  • Leon Fauth
  • Jens Friebe

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Details

OriginalspracheEnglisch
Titel des Sammelwerks2020 22nd European Conference on Power Electronics and Applications
UntertitelEPE 2020 ECCE Europe
Herausgeber (Verlag)Institute of Electrical and Electronics Engineers Inc.
ISBN (elektronisch)9789075815368
PublikationsstatusVeröffentlicht - 2020
Veranstaltung22nd European Conference on Power Electronics and Applications, EPE 2020 ECCE Europe - Lyon, Frankreich
Dauer: 7 Sept. 202011 Sept. 2020

Abstract

This paper presents a design and control approach of a virtual DC-Link for a full GaN-based single phase converter with high power density. Low frequency power ripple on the DC bus is an inherent problem for single phase PWM converter. The topology consists of a totem pole PFC with an added virtual DC-Link, which forces this low frequency power ripple on the DC output side to divert to an auxiliary capacitor. It results in significantly reduced required capacitance and e.g. enables the use of film capacitors instead of electrolytic capacitors. The proposed control for the topology is reduced to a minimum amount of sensor requirements while still maintaining the full functionality without bulky DC-link capacitors. Simulation and and experimental results up to 3 kW are provided to validate the performance of the proposed method.

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Design and Control of a Virtual DC-Link for a full GaN-based Single Phase Converter with High Power Density. / Wankhede, Yugandhara H.; Fauth, Leon; Friebe, Jens.
2020 22nd European Conference on Power Electronics and Applications: EPE 2020 ECCE Europe. Institute of Electrical and Electronics Engineers Inc., 2020. 9215920.

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

Wankhede, YH, Fauth, L & Friebe, J 2020, Design and Control of a Virtual DC-Link for a full GaN-based Single Phase Converter with High Power Density. in 2020 22nd European Conference on Power Electronics and Applications: EPE 2020 ECCE Europe., 9215920, Institute of Electrical and Electronics Engineers Inc., 22nd European Conference on Power Electronics and Applications, EPE 2020 ECCE Europe, Lyon, Frankreich, 7 Sept. 2020. https://doi.org/10.23919/epe20ecceeurope43536.2020.9215920
Wankhede, Y. H., Fauth, L., & Friebe, J. (2020). Design and Control of a Virtual DC-Link for a full GaN-based Single Phase Converter with High Power Density. In 2020 22nd European Conference on Power Electronics and Applications: EPE 2020 ECCE Europe Artikel 9215920 Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.23919/epe20ecceeurope43536.2020.9215920
Wankhede YH, Fauth L, Friebe J. Design and Control of a Virtual DC-Link for a full GaN-based Single Phase Converter with High Power Density. in 2020 22nd European Conference on Power Electronics and Applications: EPE 2020 ECCE Europe. Institute of Electrical and Electronics Engineers Inc. 2020. 9215920 doi: 10.23919/epe20ecceeurope43536.2020.9215920
Wankhede, Yugandhara H. ; Fauth, Leon ; Friebe, Jens. / Design and Control of a Virtual DC-Link for a full GaN-based Single Phase Converter with High Power Density. 2020 22nd European Conference on Power Electronics and Applications: EPE 2020 ECCE Europe. Institute of Electrical and Electronics Engineers Inc., 2020.
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title = "Design and Control of a Virtual DC-Link for a full GaN-based Single Phase Converter with High Power Density",
abstract = "This paper presents a design and control approach of a virtual DC-Link for a full GaN-based single phase converter with high power density. Low frequency power ripple on the DC bus is an inherent problem for single phase PWM converter. The topology consists of a totem pole PFC with an added virtual DC-Link, which forces this low frequency power ripple on the DC output side to divert to an auxiliary capacitor. It results in significantly reduced required capacitance and e.g. enables the use of film capacitors instead of electrolytic capacitors. The proposed control for the topology is reduced to a minimum amount of sensor requirements while still maintaining the full functionality without bulky DC-link capacitors. Simulation and and experimental results up to 3 kW are provided to validate the performance of the proposed method.",
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AU - Wankhede, Yugandhara H.

AU - Fauth, Leon

AU - Friebe, Jens

N1 - Funding information: This work was supported by the Deutsche Forschungsgemeinschaft (German Research Foundation, DFG) through Germany’s Excellence Strategy-EXC 2163/1-Sustainable and Energy Efficient Aviation under Grant 390881007 and also by the Ministry of Science and Culture of Lower Saxony and the Volkswagen Foundation.

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N2 - This paper presents a design and control approach of a virtual DC-Link for a full GaN-based single phase converter with high power density. Low frequency power ripple on the DC bus is an inherent problem for single phase PWM converter. The topology consists of a totem pole PFC with an added virtual DC-Link, which forces this low frequency power ripple on the DC output side to divert to an auxiliary capacitor. It results in significantly reduced required capacitance and e.g. enables the use of film capacitors instead of electrolytic capacitors. The proposed control for the topology is reduced to a minimum amount of sensor requirements while still maintaining the full functionality without bulky DC-link capacitors. Simulation and and experimental results up to 3 kW are provided to validate the performance of the proposed method.

AB - This paper presents a design and control approach of a virtual DC-Link for a full GaN-based single phase converter with high power density. Low frequency power ripple on the DC bus is an inherent problem for single phase PWM converter. The topology consists of a totem pole PFC with an added virtual DC-Link, which forces this low frequency power ripple on the DC output side to divert to an auxiliary capacitor. It results in significantly reduced required capacitance and e.g. enables the use of film capacitors instead of electrolytic capacitors. The proposed control for the topology is reduced to a minimum amount of sensor requirements while still maintaining the full functionality without bulky DC-link capacitors. Simulation and and experimental results up to 3 kW are provided to validate the performance of the proposed method.

KW - energy storage

KW - GaN

KW - PFC

KW - Ripple port

KW - Single phase ac to dc converter

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