Publicado:

2020-06-26

Número:

Vol. 17 Núm. 1 (2020): Revista Tekhnê

Sección:

Artículos

Review of strategies for input current reconstruction

Revisión de estrategias para reconstrucción de la corriente de entrada

Autores/as

  • Fredy H. Martínez S. Universidad Distrital Francisco José de Caldas https://orcid.org/0000-0002-7258-3909
  • Angélica V. Rendón C. Universidad Distrital Francisco José de Caldas

Palabras clave:

Active correction, harmonic distortion, power factor, signal reconstruction, single-phase rectifiers (en).

Palabras clave:

Corrección activa, distorsión armónica, factor de potencia, reconstrucción de señal, rectificadores monofásicos (es).

Resumen (en)

Understanding the theory of active power factor correction in single-phase regulators can be quite complex for young students. This is even more critical if one considers the diversity of strategies that exist, their combinations, and even the existence of both passive and active strategies. In some way, all these approaches seek to reconstruct the input current signal, but the strategy used may be significantly different in each case. This article aims to present an overview of these techniques that can be used as a starting point for the study and design of equipment.

Resumen (es)

Entender la teoría de la corrección activa del factor de potencia en reguladores monofásicos puede ser bastante complejo para jóvenes estudiantes. Esto es aún más critico si se considera la diversidad de estrategias que existen, sus combinaciones, e incluso la existencia de estrategias tanto pasivas como activas. De alguna forma todas estas estrategias buscan reconstruir la señal de corriente de entrada, pero la estrategia utilizada puede ser sensiblemente diferente en cada caso. En este artículo se busca presentar una visión general de estas estrategias que sirva de punto de partida tanto para estudio como para el diseño de equipos.

Referencias

Akther, M. S., Lubna, N., Anika, L. T., Jannat, M. M., & Mubassera, J. Series connected active multipulse rectifiers for harmonics mitigation. In: 2019 international conference on mechatronics, remote sensing, information systems and industrial information technologies (ICMRSISIIT). 2019, 168543. https : / / doi . org / 10 . 1109 / ICMRSISIIT46373.2020.9405921.

Dacol, R. P., Heerdt, J. A., & Waltrich, G. Non-isolated high current battery charger with PFC semi-bridgeless rectifier. In: 2019 IEEE 15th brazilian power electronics conference and 5th IEEE southern power electronics conference (COBEP/SPEC). 2019, 1–6. https : / / doi . org / 10 . 1109 / COBEP /SPEC44138.2019.9065719.

de Souza, A. F., Ribeiro, E. R., Vicente, E. M., & Tofoli, F. L. (2019). Experimental evaluation of active power factor correction techniques in a single-phase AC-DC boost converter. International Journal of Circuit Theory and Applications, 47(9), 1529–1553. https://doi.org/10.1002/cta.2664

Dixit, A., Pande, K., Rathore, A. K., Singh, R. K., & Mishra, S. K. Design & development of on-board DC fast chargers for e-rickshaw. In: 2019 IEEE transportation electrification conference (ITEC-india). 2019, 1–6. https://doi.org/10.1109/ITEC-India48457.2019.ITECIndia2019-40.

Eckstein, R. H., Lazzarin, T. B., & Waltrich, G. Two-stage SEPIC-buck topology for neighborhood electric vehicle charger. In: 2019 IEEE 15th brazilian power electronics conference and 5th IEEE southern power electronics conference (COBEP/SPEC). 2019, 1–6. https : / / doi . org / 10 .1109/COBEP/SPEC44138.2019.9065423.

Jauch, F., & Biela, J. (2016). Combined phase shift and frequency modulation of a dual active bridge AC-DC converter with PFC. IEEE Transactions on Power Electronics, 31(12), 1–1. https://doi.org/10.1109/TPEL.2016.2515850

Ji, Y., & Wang, F. (1998). Single-phase diode rectifier with novel passive filter. IEE Proceedings - Circuits, Devices and Systems, 145(4), 254. https://doi.org/10.1049/ip-cds:19982034

Jithin, K., & Cherian, E. Hybrid DC-DC converter for EV battery charger with bridgeless powerfactor correction. In: 2018 4th international conference for convergence in technology (i2ct). 2018, 1–6. https://doi.org/10.1109/I2CT42659.2018.9057864.

Kazem, H. Input current waveshaping methods applied to single-phase rectifier. In: Proceeding of international conference on electrical machines and systems. 2007, 54–57.

Lee, I. (2015). A hybrid pwm-resonant dc-dc converter for electric vehicle battery charger applications. Journal of Power Electronics, 15(5), 1158–1167. https://doi.org/10.6113/JPE.2015.15.5.1158

Lee, I.-O. (2016). Hybrid DC–DC converter with phase-shift or frequency modulation for NEV battery charger. IEEE Transactions on Industrial Electronics, 63(2), 884–893. https : / / doi . org / 10 . 1109 / TIE . 2015.2477345

Liu, Z., Lee, F., Li, Q., & Yang, Y. (2016). Design of GaN-based MHz totem-pole PFC rectifier. IEEE Journal of Emerging and Selected Topics in Power Electronics, 4(3), 799–807. https://doi.org/10.1109/JESTPE.2016.2571299

Martínez, F. (2001). El fenómeno de distorsión armónica en redes eléctricas. Tecnura, 5(9), 46–54.

Martínez, F. (2003). Técnicas de conversión ac/dc en sistemas monofásicos con factor de potencia unitario. Tecnura, 6(12), 31–41.

Martínez, F. (2009a). Evaluating neural control with optimal architecture for dc/dc converter. Ingeniería e Investigación, 29(3), 134–138.

Martínez, F. (2009b). Increase the boost converter performance using genetic algorithms. The Online Journal on Electronics and Electrical Engineering, 2(1), 179–182.

Martínez, F., & Gómez, D. (2004). Corrección activa del factor de potencia en cargas no lineales. Tecnura, 7(14), 40–47.

Martínez, F., & Gómez, D. Fuzzy logic controller for boost converter with active power factor correction. In: 7th international conference on power electronics (icpe 2007). 7. 2007, 936–940.

Martínez, F., & Gómez, D. (2012). Optimization of a neural architecture for the direct control of a boost converter. Tecnura, 16(32), 41–49.

Martínez, F., Hernández, C., & Jacinto, E. (2013). Rectificador de alto desempeño para aplicaciones de media potencia en equipos con alimentación universal. Tekhnê, 10(1), 19–27.

Martínez, F., & Jacinto, E. (2013). Power factor corrector with pid loop fit by genetic algorithm. Tecnura, 17(2), 10–17.

Martínez, F., Martínez, F., & Jacinto, E. Strategy for the selection of reactive power in an industrial installation using k-means clustering. In: International conference on data mining and big data. 2019, 146–153.

Monteiro, V., Tashakor, N., Tanta, M., Afonso, J. A., Martins, J. S., & Afonso, J. L. A proposed single-phase five-level PFC rectifier for smart grid applications: An experimental evaluation. In: IECON 2019 - 45th annual conference of the IEEE industrial electronics society. 2019, 1–6. https://doi.org/10.1109/IECON.2019.8926971.

Nagel, L. W., & McAndrew, C. C. Why SPICE is just as good and just as bad for IC design as it was 40 years ago. In: 2018 48th european solid-state device research conference (ESSDERC). 2018, 1–6. https://doi.org/10.1109/ESSDERC.2018.8486875.

Ochoa, Y., Rodríguez, J., & Martínez, F. (2017). Low cost regulation and load control system for low power wind turbine. Contemporary Engineering Sciences, 10(28), 1391–1399.

Pahlevani, M., Pan, S., Eren, S., Bakhshai, A., & Jain, P. (2014). An adaptive nonlinear current observer for boost PFC AC/DC converters. IEEE Transactions on Industrial Electronics, 61(12), 6720–6729. https://doi.org/10.1109/TIE.2014.2316216

Prasad, A., Ziogas, P., & Manias, S. (1990). A novel passive waveshaping method for single-phase diode rectifiers. IEEE Transactions on Industrial Electronics, 37(6), 521–530. https : / / doi . org / 10 .1109/41.103457

Redl, R. An economical single-phase passive power-factor-corrected rectifier: Topology, operation, extensions, and design for compliance. In: APEC ’98 thirteenth annual applied power electronics conference and exposition. IEEE, 1998, 1–6. https://doi.org/10.1109/APEC.1998.647729.

Riaño, J., Ladino, C., & Martínez, F. (2012). Implementación de la transformada fft sobre una fpga orientada a su aplicación en convertidores electrónicos de potencia. Tekhnê, 9, 21–32.

Sellers, A. J., Hontz, M. R., Khanna, R., Lemmon, A. N., & Shahabi, A. An automated SPICE modeling procedure utilizing static and dynamic characterization of power FETs. In: 2018 IEEE applied power electronics conference and exposition (APEC). 2018, 1–6. https : / / doi . org /10.1109/APEC.2018.8341019.

Vásquez, M., & Martínez, F. (2011). Control difuso-deslizante para convertidor dc/dc. Tekhnê, 8, 31–40.

Cómo citar

APA

Martínez S., F. H., y Rendón C., A. V. (2020). Review of strategies for input current reconstruction. Tekhnê, 17(1), 25–36. https://revistas.udistrital.edu.co/index.php/tekhne/article/view/19231

ACM

[1]
Martínez S., F.H. y Rendón C., A.V. 2020. Review of strategies for input current reconstruction. Tekhnê. 17, 1 (jun. 2020), 25–36.

ACS

(1)
Martínez S., F. H.; Rendón C., A. V. Review of strategies for input current reconstruction. Tekhnê 2020, 17, 25-36.

ABNT

MARTÍNEZ S., Fredy H.; RENDÓN C., Angélica V. Review of strategies for input current reconstruction. Tekhnê, [S. l.], v. 17, n. 1, p. 25–36, 2020. Disponível em: https://revistas.udistrital.edu.co/index.php/tekhne/article/view/19231. Acesso em: 5 dic. 2024.

Chicago

Martínez S., Fredy H., y Angélica V. Rendón C. 2020. «Review of strategies for input current reconstruction». Tekhnê 17 (1):25-36. https://revistas.udistrital.edu.co/index.php/tekhne/article/view/19231.

Harvard

Martínez S., F. H. y Rendón C., A. V. (2020) «Review of strategies for input current reconstruction», Tekhnê, 17(1), pp. 25–36. Disponible en: https://revistas.udistrital.edu.co/index.php/tekhne/article/view/19231 (Accedido: 5 diciembre 2024).

IEEE

[1]
F. H. Martínez S. y A. V. Rendón C., «Review of strategies for input current reconstruction», Tekhnê, vol. 17, n.º 1, pp. 25–36, jun. 2020.

MLA

Martínez S., Fredy H., y Angélica V. Rendón C. «Review of strategies for input current reconstruction». Tekhnê, vol. 17, n.º 1, junio de 2020, pp. 25-36, https://revistas.udistrital.edu.co/index.php/tekhne/article/view/19231.

Turabian

Martínez S., Fredy H., y Angélica V. Rendón C. «Review of strategies for input current reconstruction». Tekhnê 17, no. 1 (junio 26, 2020): 25–36. Accedido diciembre 5, 2024. https://revistas.udistrital.edu.co/index.php/tekhne/article/view/19231.

Vancouver

1.
Martínez S. FH, Rendón C. AV. Review of strategies for input current reconstruction. Tekhnê [Internet]. 26 de junio de 2020 [citado 5 de diciembre de 2024];17(1):25-36. Disponible en: https://revistas.udistrital.edu.co/index.php/tekhne/article/view/19231

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