Advanced modulation for the Active-Bridge-Active-Clamp (ABAC) converter

Linglin Chen, Luca Tarisciotti, Alessandro Costabeber, Pericle Zanchetta, Pat Wheeler

Resultado de la investigación: Conference contribution

4 Citas (Scopus)

Resumen

The Dual-Active-Bridge is a promising isolated, bidirectional DC/DC converter topology, particularly suitable for applications where high efficiency, galvanic isolation and large voltage conversion ratios are required. However, in low voltage, high current applications, the low voltage current ripple may be considerably high, thus requiring large capacitive filtering. As an alternative to the standard Dual Active Bridge, the Active Bridge Active Clamp (ABAC) converter is introduced in this paper. The ABAC converter overcomes the current ripple limitation by directly imposing the load current. Conventional Phase Shift modulation is adapted and analyzed for the ABAC converter. In order to optimize the operation of the topology, a Ripple Cancellation Phase Shift scheme is investigated. Finally, experiment results from a 10kW ABAC converter are presented to validate the theoretical claims.

Idioma originalEnglish
Título de la publicación alojadaProceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017
EditorialInstitute of Electrical and Electronics Engineers Inc.
Páginas1-6
Número de páginas6
ISBN (versión digital)9781509064250
DOI
EstadoPublished - 6 abr 2018
Evento2017 IEEE Southern Power Electronics Conference, SPEC 2017 - Puerto Varas, Chile
Duración: 4 dic 20177 dic 2017

Serie de la publicación

NombreProceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017
Volumen2018-January

Conference

Conference2017 IEEE Southern Power Electronics Conference, SPEC 2017
PaísChile
CiudadPuerto Varas
Período4/12/177/12/17

Huella dactilar

Clamping devices
Modulation
Phase shift
Electric potential
Topology
DC-DC converters
Experiments

ASJC Scopus subject areas

  • Electrical and Electronic Engineering
  • Energy Engineering and Power Technology

Citar esto

Chen, L., Tarisciotti, L., Costabeber, A., Zanchetta, P., & Wheeler, P. (2018). Advanced modulation for the Active-Bridge-Active-Clamp (ABAC) converter. En Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017 (pp. 1-6). (Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017; Vol. 2018-January). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/SPEC.2017.8333618
Chen, Linglin ; Tarisciotti, Luca ; Costabeber, Alessandro ; Zanchetta, Pericle ; Wheeler, Pat. / Advanced modulation for the Active-Bridge-Active-Clamp (ABAC) converter. Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017. Institute of Electrical and Electronics Engineers Inc., 2018. pp. 1-6 (Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017).
@inproceedings{66f118b9b9b84cefb9dadffa0906f53c,
title = "Advanced modulation for the Active-Bridge-Active-Clamp (ABAC) converter",
abstract = "The Dual-Active-Bridge is a promising isolated, bidirectional DC/DC converter topology, particularly suitable for applications where high efficiency, galvanic isolation and large voltage conversion ratios are required. However, in low voltage, high current applications, the low voltage current ripple may be considerably high, thus requiring large capacitive filtering. As an alternative to the standard Dual Active Bridge, the Active Bridge Active Clamp (ABAC) converter is introduced in this paper. The ABAC converter overcomes the current ripple limitation by directly imposing the load current. Conventional Phase Shift modulation is adapted and analyzed for the ABAC converter. In order to optimize the operation of the topology, a Ripple Cancellation Phase Shift scheme is investigated. Finally, experiment results from a 10kW ABAC converter are presented to validate the theoretical claims.",
keywords = "DC/DC converter, Dual-Active-Bridge (DAB)",
author = "Linglin Chen and Luca Tarisciotti and Alessandro Costabeber and Pericle Zanchetta and Pat Wheeler",
year = "2018",
month = "4",
day = "6",
doi = "10.1109/SPEC.2017.8333618",
language = "English",
series = "Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
pages = "1--6",
booktitle = "Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017",
address = "United States",

}

Chen, L, Tarisciotti, L, Costabeber, A, Zanchetta, P & Wheeler, P 2018, Advanced modulation for the Active-Bridge-Active-Clamp (ABAC) converter. En Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017. Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017, vol. 2018-January, Institute of Electrical and Electronics Engineers Inc., pp. 1-6, 2017 IEEE Southern Power Electronics Conference, SPEC 2017, Puerto Varas, Chile, 4/12/17. https://doi.org/10.1109/SPEC.2017.8333618

Advanced modulation for the Active-Bridge-Active-Clamp (ABAC) converter. / Chen, Linglin; Tarisciotti, Luca; Costabeber, Alessandro; Zanchetta, Pericle; Wheeler, Pat.

Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017. Institute of Electrical and Electronics Engineers Inc., 2018. p. 1-6 (Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017; Vol. 2018-January).

Resultado de la investigación: Conference contribution

TY - GEN

T1 - Advanced modulation for the Active-Bridge-Active-Clamp (ABAC) converter

AU - Chen, Linglin

AU - Tarisciotti, Luca

AU - Costabeber, Alessandro

AU - Zanchetta, Pericle

AU - Wheeler, Pat

PY - 2018/4/6

Y1 - 2018/4/6

N2 - The Dual-Active-Bridge is a promising isolated, bidirectional DC/DC converter topology, particularly suitable for applications where high efficiency, galvanic isolation and large voltage conversion ratios are required. However, in low voltage, high current applications, the low voltage current ripple may be considerably high, thus requiring large capacitive filtering. As an alternative to the standard Dual Active Bridge, the Active Bridge Active Clamp (ABAC) converter is introduced in this paper. The ABAC converter overcomes the current ripple limitation by directly imposing the load current. Conventional Phase Shift modulation is adapted and analyzed for the ABAC converter. In order to optimize the operation of the topology, a Ripple Cancellation Phase Shift scheme is investigated. Finally, experiment results from a 10kW ABAC converter are presented to validate the theoretical claims.

AB - The Dual-Active-Bridge is a promising isolated, bidirectional DC/DC converter topology, particularly suitable for applications where high efficiency, galvanic isolation and large voltage conversion ratios are required. However, in low voltage, high current applications, the low voltage current ripple may be considerably high, thus requiring large capacitive filtering. As an alternative to the standard Dual Active Bridge, the Active Bridge Active Clamp (ABAC) converter is introduced in this paper. The ABAC converter overcomes the current ripple limitation by directly imposing the load current. Conventional Phase Shift modulation is adapted and analyzed for the ABAC converter. In order to optimize the operation of the topology, a Ripple Cancellation Phase Shift scheme is investigated. Finally, experiment results from a 10kW ABAC converter are presented to validate the theoretical claims.

KW - DC/DC converter

KW - Dual-Active-Bridge (DAB)

UR - http://www.scopus.com/inward/record.url?scp=85049213580&partnerID=8YFLogxK

U2 - 10.1109/SPEC.2017.8333618

DO - 10.1109/SPEC.2017.8333618

M3 - Conference contribution

T3 - Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017

SP - 1

EP - 6

BT - Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017

PB - Institute of Electrical and Electronics Engineers Inc.

ER -

Chen L, Tarisciotti L, Costabeber A, Zanchetta P, Wheeler P. Advanced modulation for the Active-Bridge-Active-Clamp (ABAC) converter. En Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017. Institute of Electrical and Electronics Engineers Inc. 2018. p. 1-6. (Proceedings - 2017 IEEE Southern Power Electronics Conference, SPEC 2017). https://doi.org/10.1109/SPEC.2017.8333618