Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load

This paper deals with the control problem in a buck converter while considering an unknown resistive load. The control design is based on extended feedback linearization (EFL) theory, which allows finding a general control law equivalent to the approximated feedback control method when the state var...

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Autores:: Montoya, Oscar D.
Gil-Gonzalez, W
Serra, Federico
De Angelo, C.H.
Hernandez, Jesus C.

Tipo de recurso:

Fecha de publicación:: 2023

Institución:: Universidad Tecnológica de Bolívar

Repositorio:: Repositorio Institucional UTB

Idioma:: eng

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dc.title.spa.fl_str_mv	Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load
title	Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load
spellingShingle	Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load Buck Converter; Sliding Mode Control; Controller LEMB
title_short	Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load
title_full	Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load
title_fullStr	Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load
title_full_unstemmed	Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load
title_sort	Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load
dc.creator.fl_str_mv	Montoya, Oscar D. Gil-Gonzalez, W Serra, Federico De Angelo, C.H. Hernandez, Jesus C.
dc.contributor.author.none.fl_str_mv	Montoya, Oscar D. Gil-Gonzalez, W Serra, Federico De Angelo, C.H. Hernandez, Jesus C.
dc.subject.keywords.spa.fl_str_mv	Buck Converter; Sliding Mode Control; Controller
topic	Buck Converter; Sliding Mode Control; Controller LEMB
dc.subject.armarc.none.fl_str_mv	LEMB
description	This paper deals with the control problem in a buck converter while considering an unknown resistive load. The control design is based on extended feedback linearization (EFL) theory, which allows finding a general control law equivalent to the approximated feedback control method when the state variables are at the desired equilibrium point. The main advantage of an EFL controller is that the final feedback gains are independent of the converter parameters if and only if all the capacitances and inductances of the converter are perfectly known. To define the resistive load value, the inverse and invariance estimation method was employed, aiming to ensure the exponential convergence of the real resistive value. Numerical comparisons with an integral-action, passivity-based control design demonstrate the effectiveness of the proposed EFL approach. All numerical simulations were conducted in the PLECs simulation tool of the MATLAB/Simulink environment. © 2023 IEEE
publishDate	2023
dc.date.accessioned.none.fl_str_mv	2023-07-19T21:26:13Z
dc.date.available.none.fl_str_mv	2023-07-19T21:26:13Z
dc.date.issued.none.fl_str_mv	2023
dc.date.submitted.none.fl_str_mv	2023
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dc.identifier.citation.spa.fl_str_mv	Montoya, O. D., Gil-González, W., Serra, F., De Angelo, C. H., & Hernandez, J. C. (2023, February). Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load. In 2023 IEEE 14th Latin America Symposium on Circuits and Systems (LASCAS) (pp. 1-4). IEEE.
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/20.500.12585/12242
dc.identifier.doi.none.fl_str_mv	10.1109/LASCAS56464.2023.10108198
dc.identifier.instname.spa.fl_str_mv	Universidad Tecnológica de Bolívar
dc.identifier.reponame.spa.fl_str_mv	Repositorio Universidad Tecnológica de Bolívar
identifier_str_mv	Montoya, O. D., Gil-González, W., Serra, F., De Angelo, C. H., & Hernandez, J. C. (2023, February). Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load. In 2023 IEEE 14th Latin America Symposium on Circuits and Systems (LASCAS) (pp. 1-4). IEEE. 10.1109/LASCAS56464.2023.10108198 Universidad Tecnológica de Bolívar Repositorio Universidad Tecnológica de Bolívar
url	https://hdl.handle.net/20.500.12585/12242
dc.language.iso.spa.fl_str_mv	eng
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dc.publisher.place.spa.fl_str_mv	Cartagena de Indias
dc.source.spa.fl_str_mv	LASCAS 2023 - 14th IEEE Latin American Symposium on Circuits and Systems, Proceedings
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spelling	Montoya, Oscar D.d48a6b1c-a97a-4bbd-8303-dca6fbe71386Gil-Gonzalez, W9064fd1a-f4d1-4f08-83ec-d2223225514eSerra, Federicoa782614d-85bf-48c1-9292-571df3989593De Angelo, C.H.24d759d2-93c7-4124-9e37-e5b54a18fc36Hernandez, Jesus C.c30f1cc6-96fe-4830-b7cf-1a91478395d12023-07-19T21:26:13Z2023-07-19T21:26:13Z20232023Montoya, O. D., Gil-González, W., Serra, F., De Angelo, C. H., & Hernandez, J. C. (2023, February). Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load. In 2023 IEEE 14th Latin America Symposium on Circuits and Systems (LASCAS) (pp. 1-4). IEEE.https://hdl.handle.net/20.500.12585/1224210.1109/LASCAS56464.2023.10108198Universidad Tecnológica de BolívarRepositorio Universidad Tecnológica de BolívarThis paper deals with the control problem in a buck converter while considering an unknown resistive load. The control design is based on extended feedback linearization (EFL) theory, which allows finding a general control law equivalent to the approximated feedback control method when the state variables are at the desired equilibrium point. The main advantage of an EFL controller is that the final feedback gains are independent of the converter parameters if and only if all the capacitances and inductances of the converter are perfectly known. To define the resistive load value, the inverse and invariance estimation method was employed, aiming to ensure the exponential convergence of the real resistive value. Numerical comparisons with an integral-action, passivity-based control design demonstrate the effectiveness of the proposed EFL approach. All numerical simulations were conducted in the PLECs simulation tool of the MATLAB/Simulink environment. © 2023 IEEE4 páginasapplication/pdfenghttp://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAttribution-NonCommercial-NoDerivatives 4.0 Internacionalhttp://purl.org/coar/access_right/c_abf2LASCAS 2023 - 14th IEEE Latin American Symposium on Circuits and Systems, ProceedingsExtended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Loadinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/drafthttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/version/c_b1a7d7d4d402bccehttp://purl.org/coar/resource_type/c_2df8fbb1Buck Converter;Sliding Mode Control;ControllerLEMBCartagena de IndiasGil-González, W., Montoya, O.D., Espinosa-Perez, G. Adaptive control for second-order DC-DC converters: PBC approach (2021) Modeling, Operation, and Analysis of DC Grids: From High Power DC Transmission to DC Microgrids, pp. 289-310. Cited 5 times. https://www.sciencedirect.com/book/9780128221013 ISBN: 978-012822101-3; 978-012822102-0 doi: 10.1016/B978-0-12-822101-3.00016-2Planas, E., Andreu, J., Gárate, J.I., Martínez De Alegría, I., Ibarra, E. AC and DC technology in microgrids: A review (2015) Renewable and Sustainable Energy Reviews, 43, pp. 726-749. Cited 363 times. https://www.journals.elsevier.com/renewable-and-sustainable-energy-reviews doi: 10.1016/j.rser.2014.11.067Parhizi, S., Lotfi, H., Khodaei, A., Bahramirad, S. State of the art in research on microgrids: A review (Open Access) (2015) IEEE Access, 3, art. no. 07120901, pp. 890-925. Cited 760 times. http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6287639 doi: 10.1109/ACCESS.2015.2443119Velazquez, I.O., Perez, G.R.E., Giraldo, O.D.M., Ruiz, A.G., Norena, L.F.G. Current control mode in PV systems integrated with DC-DC converters for MPPT: An IDA-PBC approach (2018) IEEE Green Technologies Conference, 2018-April, pp. 1-6. Cited 7 times. http://ieeexplore.ieee.org ISBN: 978-153865183-4 doi: 10.1109/GreenTech.2018.00010Giraldo, O.D.M., Ruiz, A.G., Velazquez, I.O., Perez, G.R.E. Passivity-based control for battery charging/discharging applications by using a buck-boost DC-DC converter (2018) IEEE Green Technologies Conference, 2018-April, pp. 89-94. Cited 10 times. http://ieeexplore.ieee.org ISBN: 978-153865183-4 doi: 10.1109/GreenTech.2018.00025He, P., Khaligh, A. Comprehensive Analyses and Comparison of 1 kW Isolated DC-DC Converters for Bidirectional EV Charging Systems (2017) IEEE Transactions on Transportation Electrification, 3 (1), art. no. 7748600, pp. 147-156. Cited 271 times. https://www.ieee.org/membership-catalog/productdetail/showProductDetailPage.html?product=PER473-ELE&utm_source=Mainsite_CSE&utm_medium=CSE_Promotion&utm_campaign=Catalog_Promotion-PER473 doi: 10.1109/TTE.2016.2630927Shang, F., Niu, G., Krishnamurthy, M. Design and Analysis of a High-Voltage-Gain Step-Up Resonant DC-DC Converter for Transportation Applications (2017) IEEE Transactions on Transportation Electrification, 3 (1), art. no. 7828150, pp. 157-167. Cited 44 times. https://www.ieee.org/membership-catalog/productdetail/showProductDetailPage.html?product=PER473-ELE&utm_source=Mainsite_CSE&utm_medium=CSE_Promotion&utm_campaign=Catalog_Promotion-PER473 doi: 10.1109/TTE.2017.2656145Mazumder, S.K., Tahir, M., Acharya, K. Master-slave current-sharing control of a parallel DC-DC converter system over an RF communication interface (2008) IEEE Transactions on Industrial Electronics, 55 (1), pp. 59-66. Cited 232 times. doi: 10.1109/TIE.2007.896138Kim, S.-Y., Park, Y.-J., Ali, I., Nga, T.T.K., Ryu, H.-C., Khan, Z.H.N., Park, S.-M., (...), Lee, K.-Y. Design of a High Efficiency DC-DC Buck Converter with Two-Step Digital PWM and Low Power Self-Tracking Zero Current Detector for IoT Applications (2018) IEEE Transactions on Power Electronics, 33 (2), art. no. 7888573, pp. 1428-1439. Cited 47 times. http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=4712525 doi: 10.1109/TPEL.2017.2688387Mukherjee, N., Strickland, D. Control of Cascaded DC-DC Converter-Based Hybrid Battery Energy Storage Systems-Part I: Stability Issue (Open Access) (2016) IEEE Transactions on Industrial Electronics, 63 (4), art. no. 7359163, pp. 2340-2349. Cited 58 times. http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=5410131 doi: 10.1109/TIE.2015.2509911Wang, J., Zhang, C., Li, S., Yang, J., Li, Q. Finite-Time Output Feedback Control for PWM-Based DC-DC Buck Power Converters of Current Sensorless Mode (2017) IEEE Transactions on Control Systems Technology, 25 (4), art. no. 7589077, pp. 1359-1371. Cited 61 times. doi: 10.1109/TCST.2016.2613966Ma, L., Zhang, Y., Yang, X., Ding, S., Dong, L. Quasi-Continuous Second-Order Sliding Mode Control of Buck Converter (2018) IEEE Access, 6, pp. 17859-17867. Cited 32 times. http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6287639 doi: 10.1109/ACCESS.2018.2795027Ling, R., Maksimovic, D., Leyva, R. Second-order sliding-mode controlled synchronous buck DC-DC converter (2016) IEEE Transactions on Power Electronics, 31 (3), pp. 2539-2549. Cited 115 times. http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=4712525 doi: 10.1109/TPEL.2015.2431193Wu, B., Yang, J., Wang, J., Li, S. Extended state observer based control for DC-DC buck converters subject to mismatched disturbances (2014) Proceedings of the 33rd Chinese Control Conference, CCC 2014, art. no. 6896352, pp. 8080-8085. Cited 14 times. http://ieeexplore.ieee.org// ISBN: 978-988156384-2 doi: 10.1109/ChiCC.2014.6896352Cavanini, L., Cimini, G., Ippoliti, G., Bemporad, A. Model predictive control for pre-compensated voltage mode controlled DC-DC converters (Open Access) (2017) IET Control Theory and Applications, 11 (15), pp. 2514-2520. Cited 48 times. http://www.ietdl.org/IET-CTA doi: 10.1049/iet-cta.2016.1501Yang, J., Wu, B., Li, S., Yu, X. Design and Qualitative Robustness Analysis of an DOBC Approach for DC-DC Buck Converters with Unmatched Circuit Parameter Perturbations (Open Access) (2016) IEEE Transactions on Circuits and Systems I: Regular Papers, 63 (4), art. no. 7428878, pp. 551-560. Cited 58 times. http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=8919 doi: 10.1109/TCSI.2016.2529238Tsai, C.-H., Chen, B.-M., Li, H.-L. Switching Frequency Stabilization Techniques for Adaptive On-Time Controlled Buck Converter With Adaptive Voltage Positioning Mechanism (Open Access) (2016) IEEE Transactions on Power Electronics, 31 (1), art. no. 7045560, pp. 443-451. Cited 50 times. http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=4712525 doi: 10.1109/TPEL.2015.2405339Gil-González, W., Montoya, O.D., Restrepo, C., Hernández, J.C. Sensorless adaptive voltage control for classical dc-dc converters feeding unknown loads: A generalized pi passivity-based approach (2021) Sensors, 21 (19), art. no. 6367. 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Extended Feedback Linearization Control for Voltage Regulation in a Buck Converter with an Unknown Resistive Load

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