En este artículo se muestra el control de un Recuperador Dinámico de Tensión, DVR de sus siglas en inglés. Para ello inicialmente se modela un sistema de potencia donde se presentan perturbaciones de tensión (huecos de tensión) y se determinan las limitaciones y el comportamiento transitorio del compensador. Para el control del compensador se propone una estructura combinada de dos niveles en cascada a partir de las variables medidas del sistema para mejorar la respuesta transitoria del dispositivo. En este documento también se modelan los retardos inherentes en el sistema de control digital de un DVR. Los sistemas de control digital normalmente tienen un retardo asociado al periodo de muestreo, la frecuencia de conmutación del inversor, el tiempo de medida del sensor, el cálculo de la acción de control, entre otros. Este retardo incrementa la dimensión de las variables de estado del sistema, llevando al sistema de control a una zona de inestabilidad. Con base en este análisis
se propone un diseño de los controladores y una estructura del sistema de control. Los resultados obtenidos se validan en simulación utilizando el software PSCAD/EMTDC Versión 4.6 y se muestran en funcionamiento del DVR mediante un
prototipo de laboratorio.

R. C. Dugan, H. W. Beaty, y S. Santoso, Electrical Power Systems Quality, Third edition. Tata McGraw Hill Education, 2012.

J. Arrilaga y N. R. Watson, Power System Harmonics. Jhon Wiley and Sons, 2003.

H. Kim, F. Blaabjerg, B. Bak-Jensen, y J. Choi, «Instantaneous power compensation in three-phase systems by using p-q-r theory», en Power Electronics Specialists Conference,2001. PESC. 2001 IEEE 32nd Annual, 2001, vol. 2, pp. 478–485 vol.2.

J. G. Nielsen y F. Blaabjerg, «Comparison of system topologies for dynamic voltage restorers», en Conference Record of the 2001 IEEE Industry Applications Conference, 2001. Thirty-Sixth IAS Annual Meeting, 2001, vol. 4, pp. 2397–2403 vol.4.

M. Vilathgamuwa, A. A. . Ranjith Perera, S. S. Choi, y K. J. Tseng, «Control of presentado en The 25th Annual Conference of the IEEE Industrial Electronics Society, 1999. IECON ’99 Proceedings, 1999, vol. 2, pp. 873-878 vol.2.

N. H. Woodley, L. Morgan, y A. Sundaram, «Experience with an inverter-based dynamic voltage restorer», IEEE Trans. Power Deliv., vol. 14, n.o 3, pp. 1181-1186, jul. 1999.

M. D. Stump, G. J. Keane, y F. K. S. Leong, «The role of custom power products in enhancing power quality at industrial facilities», en 1998 International Conference on Energy Management and Power Delivery, 1998. Proceedings of EMPD ’98, 1998, vol. 2, pp. 507–517 vol.2.

UNE, Características de la Tensión Suministrada Por Las Redes Generales de Distribución, UNE-EN 50160. UNE, 1996.

M. P. Kazmierkowski y L. Malesani, «Current control techniques for three-phase voltage-source PWM converters: a survey», Ind. Electron. IEEE Trans. On, vol. 45, n.o 5, pp. 691– 703, 1998.

G. A. de Almeida Carlos, E. C. dos Santos, C. B. Jacobina, y J. P. R. A. Mello, «Dynamic Voltage Restorer Based on ThreePhase Inverters Cascaded Through an Open-End Winding Transformer», IEEE Trans. Power Electron., vol. 31, n.o 1, pp. 188-199, ene. 2016.

S. Andrews y S. Joshi, «Performance Improvement of Dynamic Voltage Restorer using Proportional - Resonant Controller», en Renewable Energy and Energy Management; Proceedings of PCIM Europe 2015; International Exhibition and Conference for Power Electronics, Intelligent Motion, 2015, pp. 1-8.

A. M. Rauf y V. Khadkikar, «An Enhanced Voltage Sag Compensation Scheme for Dynamic Voltage Restorer», IEEE Trans. Ind. Electron., vol. 62, n.o 5, pp. 2683-2692, may 2015.

Craig Muller, User’s Guide on the Use of PSCAD. Manitoba, Canada: Manitoba HVDC Research Centre, 2010.

Rohitha Jayasinghe, User’s Guide. A Comprehensive Resourse for EMTDC. Manitoba, Canada: Manitoba HVDC Research Centre, 2010.

L. A. Moran, J. W. Dixon, y R. R. Wallace, «A Three-Phase Active Power Filter Operating with Fixed Switching Frequency for Reactive Power and Current Harmonic Compensation», Ind. Electron. IEEE Trans. On, vol. 42, n.o 4, pp. 402 -408, ago. 1995.

S. Bhattacharya y D. Divian, «Synchronous frame based controller implementation for hybrid series active filters system», Proceeding 1995 IEEEIAS Annu. Meet., pp. 2531-2540, 1995.

J. G. Nielsen y F. Blaabjerg, «A detailed comparison of system topologies for dynamic voltage restorers», IEEE Trans. Ind. Appl., vol. 41, n.o 5, pp. 1272- 1280, oct. 2005.

J. Arrillaga, N. R. Watson, y S. Chen, Power System Quality Assessment. Jhon Wiley and Sons, 2000.

V. B. Bhavaraju y P. Enjeti, «A Fast Active Power Filter to Correct Line Voltage Sag», IEEE Trans, vol. IE-41, n.o 3, pp. 333-338, 1994.

G. Blajszczak, «Direct Method for Voltage Distortion Compensation in Power Network Bay Series Converter Filter», IEE Proc Electr Power Appl, vol. 142, n.o 5, pp. 308-312, 1995.

H. Akagi, «New Trends in Active Filters for Power Conditioning», Ind. Appl. IEEE Trans. On, vol. 32, n.o 6, pp. 1312 -1322, nov. 1996.

A. Ghosh y G. Ledwich, «Compensation of distribution system voltage using DVR», IEEE Trans. Power Deliv., vol. 17, n.o 4, pp. 1030- 1036, oct. 2002.

C. J. Melhorn, T. D. Davis, y G. E. Beam, «Voltage sags: their impact on the utility and industrial customers», IEEE Trans. Ind. Appl., vol. 34, n.o 3, p. 549, 1998.

W. E. Brumsickle, G. A. Luckjiff, R. S. Schneider, D. M. Divan, y M. F. McGranaghan, «Dynamic sag correctors: cost effective industrial power line conditioning», en Proceedings of 34th Annual Meeting of the IEEE Industry Applications, Phoenix, AZ, USA, 1999, vol. vol.2, p. 1339.

B. Singh, K. Al-Haddad, y A. 9 Chandra, «A Review of Active Filters for Power Quality Improvement», Ind. Electron. IEEE Trans. On, vol. 46, n.o 5, pp. 960-971, oct. 1999.

C. Zhan, C. Fitzer, V. K. Ramachandaramurthy, A. Arulampalam, M. Barnes, y N. Jenkins, «Software phase-locked loop applied to dynamic voltage restorer (DVR)», en IEEE Power Engineering Society Winter Meeting, 2001, 2001, vol. 3, pp. 1033-1038 vol.3.

V. Kaura y V. Blasko, «Operation of a phase locked loop system under distorted utility conditions», en Applied Power Electronics Conference and Exposition, 1996. APEC ’96. Conference Proceedings 1996., Eleventh Annual, 1996, vol. 2, pp. 703–708 vol.2.

A. C. Parsons, W. M. Grady, y E. J. Powers, «A wavelet-based procedure for automatically determining the beginning and end of transmission system voltage sags», en IEEE Power Engineering Society 1999 Winter Meeting, 1999, vol. 2, pp. 1310–1315 vol.2.

D. Gregory, C. Fitzer, y M. Barnes, «The static transfer switch operational considerations», en Power Electronics, Machines and Drives, 2002. International Conference on (Conf. Publ. No. 487), 2002, pp. 620–625.

C. Zhan, V. K. Ramachandaramurthy, A. Arulampalam, C. Fitzer, S. Kromlidis, M. Bames, y N. Jenkins, «Dynamic voltage restorer based on voltage-space-vector PWM control», IEEE Trans. Ind. Appl., vol. 37, n.o 6, pp. 1855-1863, nov. 2001.

C. Fitzer, A. Arulampalam, M. Barnes, y R. Zurowski, «Mitigation of saturation in dynamic voltage restorer connection transformers», IEEE Trans. Power Electron., vol. 17, n.o 6, pp. 1058- 1066, nov. 2002.

S. Gao, X. Lin, Y. Kang, Y. Duan, y J. Qiu, «Mitigation of inrush current in dynamic voltage restorer injection transformers», en 2012 IEEE Energy Conversion Congress and Exposition (ECCE), 2012, pp. 4093-4098.

Y. W. Li, «Control and Resonance Damping of Voltage-Source and CurrentSource Converters With Filters», IEEE Trans. Ind. Electron., vol. 56, n.o 5, pp. 1511-1521, may 2009.

H. Akagi, «Control strategy and site selection of shunt active filter for damping of harmonic propagation in power distribution systems», Present. 1996 IEEEPES Winter Meet., 1996.

M. El-Habrouk, M. K. Darwish, y P. Mehta, «Active Power Filters: A Review», Electr. Power Appl. IEE Proc., vol. 147, n.o 5, pp. 403 -413, sep. 2000.

S. Buso, L. Malesani, y P. Mattavelli, «Comparison of current control techniques for active filter applications», Ind. Electron. IEEE Trans. On, vol. 45, n.o 5, pp. 722–729, 1998.

W. M. Grady, M. J. Samotyj, y A. H. Noyola, «Survey of active power line conditioning metodologies», IEEE Trans. Power Deliv., vol. 5, pp. 1536-1542, 1990.

H. Akagi, Y. Kanazawa, y A. Nabae, «Instantaneous reactive power compensators comprising switching devices without energy storange components», IEEE Trans. Ind. Appl., vol. IA-20, pp. 625-630, 1984.

A. Garcia-Cerrada, P. Garcia-Gonzalez, R. Collantes, T. Gomez, y J. Anzola, «Comparison of thyristor-controlled reactors and voltage-source inverters for compensation of flicker caused by arc furnaces», IEEE Trans. Power Deliv., vol. 15, n.o 4, p. 1225, 2000.

P. C. Krause, Analysis of Electric Machinery. New York: McGraw-Hill Inc., 1986.

H. Akagi, Y. Kanazawa, y A. Nabae, «Generalised theory of the instantaneous reactive power in three-phase circuits», Proceeding 1983 Int. Power Electron. Conf. Tokyo Jpn. 1983, pp. 1375-1386, 1983.

G. F. Franklin, J. D. Powell, y M. L. Workman, Digital Control of Dynamic Systems, 3rd ed. Addison-Wesley, 1997.

K. J. Astrom y B. Wittenmark, Computer-Controlled Systems: Theory and Design, 3rd ed. Prentice Hall Inc., 1997.

J. Svensson, «Grid-connected voltage source converter», PhD Thesis, Chalmers university of Technology, 1998.

J. Svensson y R. Ottersted, «Shunt Active Filtering of Vector Current-Controlled VSC at a Moderate Swiching Frequency», IEEE Trans. Ind. Appl., vol. 35, pp. 1083-1090, 1999.

J. Holtz, «Pulsewith modulation for electronic power convertion», Proceeding IEEE, vol. 82, n.o 8, pp. 1194-1214, ago. 1994.

Mathworks, Using Matlab vesion 8.4. Natick,MA: The Mathworks, Inc, 2014.

Mathworks, Using Simulink vesion 8.4. Natick,MA: The Mathworks, Inc, 2014.

G. Goodwin, S. Graebe, y M. Salgado, Control Systems Design. London: Prentice Hall, 2001.