Publication

Robust Passivity-Based Control of Boost Converters in DC Microgrids

Cucuzzella, M., Lazzari, R., Kawano, Y., Kosaraju, K. C. & Scherpen, J. M. A., 12-Mar-2020, Proceedings of the 58th Conference on Decision and Control. IEEE, p. 8435-8440

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

APA

Cucuzzella, M., Lazzari, R., Kawano, Y., Kosaraju, K. C., & Scherpen, J. M. A. (2020). Robust Passivity-Based Control of Boost Converters in DC Microgrids. In Proceedings of the 58th Conference on Decision and Control (pp. 8435-8440). IEEE.

Author

Cucuzzella, Michele ; Lazzari, Riccardo ; Kawano, Yu ; Kosaraju, Krishna Chaitanya ; Scherpen, Jacquelien M. A. / Robust Passivity-Based Control of Boost Converters in DC Microgrids. Proceedings of the 58th Conference on Decision and Control. IEEE, 2020. pp. 8435-8440

Harvard

Cucuzzella, M, Lazzari, R, Kawano, Y, Kosaraju, KC & Scherpen, JMA 2020, Robust Passivity-Based Control of Boost Converters in DC Microgrids. in Proceedings of the 58th Conference on Decision and Control. IEEE, pp. 8435-8440, 58th Conference on Decision and Control (CDC2019), Nice, France, 11/12/2019.

Standard

Robust Passivity-Based Control of Boost Converters in DC Microgrids. / Cucuzzella, Michele; Lazzari, Riccardo; Kawano, Yu; Kosaraju, Krishna Chaitanya; Scherpen, Jacquelien M. A.

Proceedings of the 58th Conference on Decision and Control. IEEE, 2020. p. 8435-8440.

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

Vancouver

Cucuzzella M, Lazzari R, Kawano Y, Kosaraju KC, Scherpen JMA. Robust Passivity-Based Control of Boost Converters in DC Microgrids. In Proceedings of the 58th Conference on Decision and Control. IEEE. 2020. p. 8435-8440


BibTeX

@inproceedings{f3592c3e10d542c79dcaf53b1043e898,
title = "Robust Passivity-Based Control of Boost Converters in DC Microgrids",
abstract = "This paper deals with the design of a robust and decentralized passivity-based control scheme for regulating the voltage of a DC microgrid through boost converters. A Krasovskii-type storage function is proposed and a (local) passivity property for DC microgrids comprising unknown ZIP (constant impedance {\textquoteleft}Z{\textquoteright}, constant current {\textquoteleft}I{\textquoteright} and constant power {\textquoteleft}P{\textquoteright}) loads is established. More precisely, the input port-variable of the corresponding passive map is equal to the first-time derivative of the control input. Then, the integrated input port-variable is used to shape the closed loop storage function such that it has a minimum at the desired equilibrium point. Convergence to the desired equilibrium is theoretically analyzed and the proposed control scheme is validated through experiments on a real DC microgrid.",
keywords = "Power systems, Stability of nonlinear systems, Decentralized control",
author = "Michele Cucuzzella and Riccardo Lazzari and Yu Kawano and Kosaraju, {Krishna Chaitanya} and Scherpen, {Jacquelien M. A.}",
year = "2020",
month = mar,
day = "12",
language = "English",
isbn = "978-1-7281-1398-2/",
pages = "8435--8440",
booktitle = "Proceedings of the 58th Conference on Decision and Control",
publisher = "IEEE",
note = "58th Conference on Decision and Control (CDC2019) ; Conference date: 11-12-2019 Through 13-12-2019",

}

RIS

TY - GEN

T1 - Robust Passivity-Based Control of Boost Converters in DC Microgrids

AU - Cucuzzella, Michele

AU - Lazzari, Riccardo

AU - Kawano, Yu

AU - Kosaraju, Krishna Chaitanya

AU - Scherpen, Jacquelien M. A.

PY - 2020/3/12

Y1 - 2020/3/12

N2 - This paper deals with the design of a robust and decentralized passivity-based control scheme for regulating the voltage of a DC microgrid through boost converters. A Krasovskii-type storage function is proposed and a (local) passivity property for DC microgrids comprising unknown ZIP (constant impedance ‘Z’, constant current ‘I’ and constant power ‘P’) loads is established. More precisely, the input port-variable of the corresponding passive map is equal to the first-time derivative of the control input. Then, the integrated input port-variable is used to shape the closed loop storage function such that it has a minimum at the desired equilibrium point. Convergence to the desired equilibrium is theoretically analyzed and the proposed control scheme is validated through experiments on a real DC microgrid.

AB - This paper deals with the design of a robust and decentralized passivity-based control scheme for regulating the voltage of a DC microgrid through boost converters. A Krasovskii-type storage function is proposed and a (local) passivity property for DC microgrids comprising unknown ZIP (constant impedance ‘Z’, constant current ‘I’ and constant power ‘P’) loads is established. More precisely, the input port-variable of the corresponding passive map is equal to the first-time derivative of the control input. Then, the integrated input port-variable is used to shape the closed loop storage function such that it has a minimum at the desired equilibrium point. Convergence to the desired equilibrium is theoretically analyzed and the proposed control scheme is validated through experiments on a real DC microgrid.

KW - Power systems, Stability of nonlinear systems, Decentralized control

M3 - Conference contribution

SN - 978-1-7281-1398-2/

SP - 8435

EP - 8440

BT - Proceedings of the 58th Conference on Decision and Control

PB - IEEE

T2 - 58th Conference on Decision and Control (CDC2019)

Y2 - 11 December 2019 through 13 December 2019

ER -

ID: 98550662