Design of model-based controllers applied to a solid-state low voltage dc breaker

Juan D. Valladolid; Ismael Minchala; Mary J. Vergara

doi:10.1109/ISGT-LA.2015.7381174

Design of model-based controllers applied to a solid-state low voltage dc breaker

Juan D. Valladolid, Ismael Minchala, Mary J. Vergara

Grupo de Investigación en Ingeniería Del Transporte (GIIT)

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© 2015 IEEE. This paper presents the methodology of design of model-based sliding mode control (SMC) algorithms applied to power electronic dc-dc converters, which are part of the components of a solid-state low voltage dc breaker (SLVDB). The power converters used in the tested schemes of the SLVDB are the boost and sepic dc-dc converters. Accurate disconnection times, user-configured, are achieved with the proposed controllers, as well as a complete minimization of the transient recovery voltage (TRV) in the breaker terminals. Details of the performance of two SLVDB configurations are analyzed and compared in order to establish the best design comprising complexity vs. performance. MATLAB simulations support the results and provide a reasonable picture of the operation of the SLVDB.

Idioma original	Inglés estadounidense
Páginas	316-320
Número de páginas	5
DOI	https://doi.org/10.1109/ISGT-LA.2015.7381174
Estado	Publicada - 12 ene. 2016
Evento	2015 IEEE PES Innovative Smart Grid Technologies Latin America, ISGT LATAM 2015 - Montevideo, Uruguay Duración: 5 oct. 2015 → 7 oct. 2015

Conferencia

Conferencia	2015 IEEE PES Innovative Smart Grid Technologies Latin America, ISGT LATAM 2015
País/Territorio	Uruguay
Ciudad	Montevideo
Período	5/10/15 → 7/10/15
Otros	ISGT LATAM 2015

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10.1109/ISGT-LA.2015.7381174

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title = "Design of model-based controllers applied to a solid-state low voltage dc breaker",

abstract = "{\textcopyright} 2015 IEEE. This paper presents the methodology of design of model-based sliding mode control (SMC) algorithms applied to power electronic dc-dc converters, which are part of the components of a solid-state low voltage dc breaker (SLVDB). The power converters used in the tested schemes of the SLVDB are the boost and sepic dc-dc converters. Accurate disconnection times, user-configured, are achieved with the proposed controllers, as well as a complete minimization of the transient recovery voltage (TRV) in the breaker terminals. Details of the performance of two SLVDB configurations are analyzed and compared in order to establish the best design comprising complexity vs. performance. MATLAB simulations support the results and provide a reasonable picture of the operation of the SLVDB.",

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AU - Vergara, Mary J.

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N2 - © 2015 IEEE. This paper presents the methodology of design of model-based sliding mode control (SMC) algorithms applied to power electronic dc-dc converters, which are part of the components of a solid-state low voltage dc breaker (SLVDB). The power converters used in the tested schemes of the SLVDB are the boost and sepic dc-dc converters. Accurate disconnection times, user-configured, are achieved with the proposed controllers, as well as a complete minimization of the transient recovery voltage (TRV) in the breaker terminals. Details of the performance of two SLVDB configurations are analyzed and compared in order to establish the best design comprising complexity vs. performance. MATLAB simulations support the results and provide a reasonable picture of the operation of the SLVDB.

AB - © 2015 IEEE. This paper presents the methodology of design of model-based sliding mode control (SMC) algorithms applied to power electronic dc-dc converters, which are part of the components of a solid-state low voltage dc breaker (SLVDB). The power converters used in the tested schemes of the SLVDB are the boost and sepic dc-dc converters. Accurate disconnection times, user-configured, are achieved with the proposed controllers, as well as a complete minimization of the transient recovery voltage (TRV) in the breaker terminals. Details of the performance of two SLVDB configurations are analyzed and compared in order to establish the best design comprising complexity vs. performance. MATLAB simulations support the results and provide a reasonable picture of the operation of the SLVDB.

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Design of model-based controllers applied to a solid-state low voltage dc breaker

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