Fast time domain periodic steady-state solution of nonlinear electric networks containing DVRs

Edgar O. Hernández-Martínez; Aurelio Medina; Daniel Olguín-Salinas

doi:10.4103/0377-2063.81736

Fast time domain periodic steady-state solution of nonlinear electric networks containing DVRs

Edgar O. Hernández-Martínez, Aurelio Medina, Daniel Olguín-Salinas

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Zacatenco

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

5 Citas (Scopus)

Resumen

This paper details the structure and a state-space model of the Dynamic Voltage Restorer. Case studies are analyzed to assess the impact of nonlinear electric networks containing this component, with their solution in steady-state periodic being obtained with the application of an efficient time domain methodology which allows a swift computation of the periodic steady-state solution for the entire distribution network by extrapolating the solution to the limit cycle. The methodology is based on a Newton method based on a Numerical Differentiation procedure and extrapolation to the limit cycle. Comparisons are given between these two methods in terms of the number of cycles (periods) required to obtain the periodic steady-state solution.

Idioma original	Inglés
Páginas (desde-hasta)	105-110
Número de páginas	6
Publicación	IETE Journal of Research
Volumen	57
N.º	2
DOI	https://doi.org/10.4103/0377-2063.81736
Estado	Publicada - 2011

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@article{703a99eb7c2f44a298a839870ac47863,

title = "Fast time domain periodic steady-state solution of nonlinear electric networks containing DVRs",

abstract = "This paper details the structure and a state-space model of the Dynamic Voltage Restorer. Case studies are analyzed to assess the impact of nonlinear electric networks containing this component, with their solution in steady-state periodic being obtained with the application of an efficient time domain methodology which allows a swift computation of the periodic steady-state solution for the entire distribution network by extrapolating the solution to the limit cycle. The methodology is based on a Newton method based on a Numerical Differentiation procedure and extrapolation to the limit cycle. Comparisons are given between these two methods in terms of the number of cycles (periods) required to obtain the periodic steady-state solution.",

keywords = "Dynamic voltage restorer, Limit cycle, Numerical differentiation, Steady state, Time domain",

author = "Hern{\'a}ndez-Mart{\'i}nez, {Edgar O.} and Aurelio Medina and Daniel Olgu{\'i}n-Salinas",

note = "Funding Information: The authors want to acknowledge the Universidad Michoacana de San Nicol{\'a}s de Hidalgo (UMSNH) through the Divisi{\'o}n de Estudios de Posgrado of the Facultad de Ingenier{\'i}a El{\'e}ctrica, the Instituto Polit{\'e}cnico Nacional (ESIME-IPN) and the Instituto de Investigaciones El{\'e}ctricas (IIE) for the facilities granted to carryout this investigation. Edgar Mart{\'i}nez acknowledges financial support and facilities received from IIE for pursuing his MSc.",

year = "2011",

doi = "10.4103/0377-2063.81736",

language = "Ingl{\'e}s",

volume = "57",

pages = "105--110",

journal = "IETE Journal of Research",

issn = "0377-2063",

number = "2",

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TY - JOUR

T1 - Fast time domain periodic steady-state solution of nonlinear electric networks containing DVRs

AU - Hernández-Martínez, Edgar O.

AU - Medina, Aurelio

AU - Olguín-Salinas, Daniel

N1 - Funding Information: The authors want to acknowledge the Universidad Michoacana de San Nicolás de Hidalgo (UMSNH) through the División de Estudios de Posgrado of the Facultad de Ingeniería Eléctrica, the Instituto Politécnico Nacional (ESIME-IPN) and the Instituto de Investigaciones Eléctricas (IIE) for the facilities granted to carryout this investigation. Edgar Martínez acknowledges financial support and facilities received from IIE for pursuing his MSc.

PY - 2011

Y1 - 2011

N2 - This paper details the structure and a state-space model of the Dynamic Voltage Restorer. Case studies are analyzed to assess the impact of nonlinear electric networks containing this component, with their solution in steady-state periodic being obtained with the application of an efficient time domain methodology which allows a swift computation of the periodic steady-state solution for the entire distribution network by extrapolating the solution to the limit cycle. The methodology is based on a Newton method based on a Numerical Differentiation procedure and extrapolation to the limit cycle. Comparisons are given between these two methods in terms of the number of cycles (periods) required to obtain the periodic steady-state solution.

AB - This paper details the structure and a state-space model of the Dynamic Voltage Restorer. Case studies are analyzed to assess the impact of nonlinear electric networks containing this component, with their solution in steady-state periodic being obtained with the application of an efficient time domain methodology which allows a swift computation of the periodic steady-state solution for the entire distribution network by extrapolating the solution to the limit cycle. The methodology is based on a Newton method based on a Numerical Differentiation procedure and extrapolation to the limit cycle. Comparisons are given between these two methods in terms of the number of cycles (periods) required to obtain the periodic steady-state solution.

KW - Dynamic voltage restorer

KW - Limit cycle

KW - Numerical differentiation

KW - Steady state

KW - Time domain

UR - http://www.scopus.com/inward/record.url?scp=79958716106&partnerID=8YFLogxK

U2 - 10.4103/0377-2063.81736

DO - 10.4103/0377-2063.81736

M3 - Artículo

SN - 0377-2063

VL - 57

SP - 105

EP - 110

JO - IETE Journal of Research

JF - IETE Journal of Research

IS - 2

ER -

Fast time domain periodic steady-state solution of nonlinear electric networks containing DVRs

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