Analysis, design and control of a unified power-quality conditioner based on a current-source topology

Pedro E. Melin, José R. Espinoza, Luis A. Moran, José R. Rodriguez, Victor M. Cardenas, Carlos R. Baier, Javier A. Munoz

Resultado de la investigación: Article

36 Citas (Scopus)

Resumen

This paper presents a three-phase unified power-quality conditioner based on current source converters (CSC-UPQC), including the design guidelines of the key components, an appropriate control scheme, and a selection procedure of the dc current level. Particularly, the ridethrough capability criterion is used to define a minimum dc current level so that the CSC-UPQC achieves the same characteristics as a UPQC based on voltage-source converters in terms of voltage disturbance compensation in the point of common coupling (PCC) and load power factor compensation. A 1.17 MVA load fed from a 3.3 kV system is used to show the proposed design procedure, and a laboratory prototype is implemented to show the system compensating sags and swells using low switching frequency in the CSC and maintaining a unitary displacement power factor in the PCC.

Idioma originalEnglish
Número de artículo6225397
Páginas (desde-hasta)1727-1736
Número de páginas10
PublicaciónIEEE Transactions on Power Delivery
Volumen27
N.º4
DOI
EstadoPublished - 3 jul 2012

Huella dactilar

Power quality
Topology
Electric potential
Switching frequency
Compensation and Redress

ASJC Scopus subject areas

  • Energy Engineering and Power Technology
  • Electrical and Electronic Engineering

Citar esto

Melin, P. E., Espinoza, J. R., Moran, L. A., Rodriguez, J. R., Cardenas, V. M., Baier, C. R., & Munoz, J. A. (2012). Analysis, design and control of a unified power-quality conditioner based on a current-source topology. IEEE Transactions on Power Delivery, 27(4), 1727-1736. [6225397]. https://doi.org/10.1109/TPWRD.2012.2199524
Melin, Pedro E. ; Espinoza, José R. ; Moran, Luis A. ; Rodriguez, José R. ; Cardenas, Victor M. ; Baier, Carlos R. ; Munoz, Javier A. / Analysis, design and control of a unified power-quality conditioner based on a current-source topology. En: IEEE Transactions on Power Delivery. 2012 ; Vol. 27, N.º 4. pp. 1727-1736.
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abstract = "This paper presents a three-phase unified power-quality conditioner based on current source converters (CSC-UPQC), including the design guidelines of the key components, an appropriate control scheme, and a selection procedure of the dc current level. Particularly, the ridethrough capability criterion is used to define a minimum dc current level so that the CSC-UPQC achieves the same characteristics as a UPQC based on voltage-source converters in terms of voltage disturbance compensation in the point of common coupling (PCC) and load power factor compensation. A 1.17 MVA load fed from a 3.3 kV system is used to show the proposed design procedure, and a laboratory prototype is implemented to show the system compensating sags and swells using low switching frequency in the CSC and maintaining a unitary displacement power factor in the PCC.",
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Analysis, design and control of a unified power-quality conditioner based on a current-source topology. / Melin, Pedro E.; Espinoza, José R.; Moran, Luis A.; Rodriguez, José R.; Cardenas, Victor M.; Baier, Carlos R.; Munoz, Javier A.

En: IEEE Transactions on Power Delivery, Vol. 27, N.º 4, 6225397, 03.07.2012, p. 1727-1736.

Resultado de la investigación: Article

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AB - This paper presents a three-phase unified power-quality conditioner based on current source converters (CSC-UPQC), including the design guidelines of the key components, an appropriate control scheme, and a selection procedure of the dc current level. Particularly, the ridethrough capability criterion is used to define a minimum dc current level so that the CSC-UPQC achieves the same characteristics as a UPQC based on voltage-source converters in terms of voltage disturbance compensation in the point of common coupling (PCC) and load power factor compensation. A 1.17 MVA load fed from a 3.3 kV system is used to show the proposed design procedure, and a laboratory prototype is implemented to show the system compensating sags and swells using low switching frequency in the CSC and maintaining a unitary displacement power factor in the PCC.

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