References
- Chowdhury, B.H., and Sawab, A.W., “Evaluating the value of distributed photovoltaic generations in radial distribution systems,” IEEE Trans. Energy Conversion, Vol. 11, No. 3, pp. 595–600, 1996.
- Kresimir, F., Zvonimir, K., and Ljubomir, M., “Expansion of the residential photovoltaic systems and its harmonic impact on the distribution grid,” Renew. Energy, Vol. 43, pp. 140–148, 2012.
- Rahim, N.A., Selvaraj, J., and Krismadinata, C., “Five-level inverter with dual reference modulation technique for grid-connected PV systems,” Renew. Energy, Vol. 35, pp. 712–720, 2010.
- Shimada, E., Aoki, K., Komiyama, T., and Yokoyama, T., “Implementation of deadbeat control for single phase utility interactive inverter using FPGA based hardware controller,” IEEE Power Electronics and Applications Conference, pp. 1–10, Dresden, Germany, 11–14 September 2005.
- Yokoyama, T., Slimogata, S., Horiueli, M., and Ide, T., “Instantaneous deadbeat control for single phase and three phase PWM inverter using FPGA based hardware controller,” IEEE 35th Power Electron. Spec. Conf., Vol. 1, pp. 3–6, 2004.
- Uemura, N., and Yokoyama, T., “Current control method using voltage deadbeat control for single phase utility interactive inverter,” IEEE Telecommunications Energy Conference, pp. 40–45, Yokohama, Japan, 23 October 2003.
- Hung, G., Chang, C., and Chen, C., “Analysis and Implementation of a delay compensated deadbeat current controller for solar inverter,” IEEE Proc. Circuits Devices Syst., Vol. 148, pp. 279–286, 2001.
- Yang, P., Chen, N., and Liu, S., “Research on the improved current deadbeat control algorithm of photovoltaic grid-connected inverter,” IEEE Power Electronics Systems and Applications, pp. 1–3, Hong Kong, China, 8–10 June 2011.
- Mengchao, M., Peng, L., and Li, B., “Study on deadbeat control strategy for grid-connected distributed generation system,” IEEE Electric Utility Deregulation and Restructuring and Power Technologies, pp. 2553–2557, Nanjing, China, 6–9 April 2008.
- He, J., Yi, L.A., Wang, X., and Wang, A., “Research on deadbeat control of a three-level grid-connected inverter based on αβ transform,” Procedia Eng., Vol. 23, pp. 393–402, 2011.
- Zeng, Q., Chang, L., and Song, P., “SVPWM-based current controller with grid harmonic compensation for three-phase grid-connected VSI,” IEEE Power Electron. Spec. Conf., Vol. 4, pp. 2494–2500, 2004.
- Xiaolin, M., and Ayyanar, R., “An adaptive controller for inverter-interfaced DGs connected to grids with a wide range of unknown impedances,” IEEE Energy Conversion Congress and Exposition (ECCE), pp. 2871–2877, Atlanta, GA, 12–16 September 2010.
- Xunjiang, D., and Qin, C., “The research of photovoltaic grid-connected inverter based on adaptive current hysteresis band control scheme,” IEEE Sustainable Power Generation and Supply, pp. 1–8, Nanjing, China, 6–7 April 2009.
- Mohamed, Y., El-Saadany, E., and Salama, M., “Adaptive grid-voltage sensorless control scheme for inverter-based distributed generation,” IEEE Trans. Energy Conversion, Vol. 24, No. 3, pp. 683–694, 2009.
- Abdel-Rahim, N., and Quaicoe, J., “Analysis and design of a multiple feedback loop control strategy for single-phase voltage-source UPS inverter,” IEEE Trans. Power Electron., Vol. 11, No. 4, pp. 532–541, 1996.
- Tzou, Y., Ou, R., Jung, S., and Chang, M., “High performance programmable AC power source with low harmonic distortion using DSP based repetitive control technique,” IEEE Trans. Power Electron., Vol. 12, No. 2, pp. 715–725, 1997.
- Tzou, Y., Jung, S., and Yeh, H., “Adaptive repetitive control of PWM inverters for very low THD AC voltage regulation with unknown loads,” IEEE Trans. Power Electron., Vol. 14, No. 5, pp. 973–981, 1999.
- Necmi, A., and Ibrahim, S., “dSPACE based adaptive neuro-fuzzy controller of grid interactive inverter,” Energy Conversion Manag., Vol. 56, pp. 130–139, 2012.
- Rui, W., Fei, L., Xiaojie, Y., and Zheng, T., “Research on the reactive power control of grid-connected inverter of distributed generation system based on genetic algorithm,” IEEE Conference on Industrial Electronics and Applications, pp. 1096–1099, Singapore, 3–5 June 2008.
- Abu-Rub, H., Guzinski, J., Krzeminski, Z., and Toliyat, H., “Predictive current control of voltage-source inverters,” IEEE Trans. Indust. Electron., Vol. 51, No. 3, pp. 585–593, 2004.
- Rodriguez, J., Pontt, J., Silva, C., Correa, P., Lezana, P., Cortes, P., and Amman, U., “Predictive current control of a voltage source inverter,” IEEE Trans. Indust. Electron., Vol. 54, No. 1, pp. 495–503, 2007.
- Vargas, R., Cortes, P., Ammann, U., Rodriguez, J., and Pontt, J., “Predictive control of a three-phase neutral-point-clamped inverter,” IEEE Trans. Indust. Electron., Vol. 54, No. 5, pp. 2697–2705, 2007.
- Dong, M., and Luo, A., “Design and control strategies of inverters for a grid-connected photovoltaic power system,” Automat. Elect. Power Syst., Vol. 20, pp. 97–99, 2006.
- Sguarezi Filho, A.J., and Ruppert, E., “A deadbeat active and reactive power control for doubly fed induction generator,” Elect. Power Compon. Syst., Vol. 38, No. 5, pp. 592–602, 2010.
- Zhihua, B., Zongchen, W., and Shibing, Z., “A predictive deadbeat control in shunt active power filter,” IEEE Wireless Communications and Signal Processing, pp. 1–4, Nanjing, China, 9–11 November 2011.
- Kukrer, O., and Komurcugil, H., “Deadbeat control method for single-phase UPS inverters with compensation of computation delay,” IEE Proc. Elect. Power Appl., Vol. 146, No. 1, pp. 123–128, 1999.
- Kho, J., Jang, J., and Lee, K., “Disturbance observer-based deadbeat control for single-phase UPS inverters,” SICE Ann. Conf., Vol. 2, pp. 1206–1210, 2003.
- Nishida, K., Rukonuzzman, M., and Nakaoka, M., “Advanced current control implementation with robust deadbeat algorithm for shunt single-phasevoltage-source type active power filter,” IEE Proc. Elect. Power Appl., Vol. 151, No. 3, pp. 283–288, 2004.
- Guang-Da, C., Yi-Zhou, S., and Mian-Hua, H., “A predictive current regulator using linear neural networks for three-phase voltage source PWM-inverter,” International Conference on Neural Networks and Brain (ICNN&B), Vol. 2, pp. 793–798, 2005.
- Jianrong, B., and Longya, X., “An effective deadbeat fuzzy algorithm for current regulation in stationary reference frame,” IEEE Power Electronics in Transportation, pp. 151–157, Dearborn, MI, 24–25 October 1996.
- Calais, M., Myrzik, J., Spooner, T., and Agelidis, V.G., “Inverters for single-phase grid connected photovoltaic systems—an overview,” IEEE Power Electronics Specialist Conference (PESC’01), Vol. 4, pp. 1995–2000, 2001.
- Standard for interconnecting distributed resources with electric power systems,” Standard 1547, June 2003.
- Eltawil, M.A., and Zhao, Z., “Grid-connected photovoltaic power systems: Technical and potential problems—a review,” Renew. Sustain. Energy Rev., Vol. 14, No. 1, pp. 112–129, 2010.
- Haykin, S., Adaptive Filter Theory, 4th ed., Upper Saddle River, NJ: Prentice Hall, Chap. 6, pp. 241–290, 2002.
- Holmes, D., and Martin, D., “Implementation of a direct digital predictive current controller for single and three phase voltage source inverters,” IEEE Industry Appl. Conf., Vol. 2, pp. 906–913, 1996.
- Powersim Inc., “Tutorial on How to Use the SimCoupler Module,” April 2009, available at: http://www.psim-europe.com/openload2.php?doc=tutorialSimcoupler.pdf