[[1] MASSON, G.-ORLANDI, S.-REKINGER, M. : Global Mar- ket Outlook for Photovoltaics 2014-2018, European Photo- voltaic Industry Association (EPIA), June 2014. Journal of ELECTRICAL ENGINEERING 66, NO. 2, 2015 69]Search in Google Scholar
[[2] YANG, Y.-ENJETI, P.-BLAABJERG, F.-WANG, H. : Suggested Grid Code Modifications to EnsureWide-Scale Adop- tion of Photovoltaic Energy in Distributed Power Generation Systems, in 2013 IEEE Industry Applications Society Annual Meeting, 2013, pp. 1-8.10.1109/IAS.2013.6682485]Search in Google Scholar
[[3] LIU, L.-LI, H.-XUE, Y.-LIU, W. : Decoupled Active and Reactive Power Control for Large-Scale Grid-Connected Pho- tovoltaic Systems Using Cascaded Modular Multilevel Convert- ers, IEEE Transactions on Power Electronics 30 No. 01 (2015), 176-187.]Search in Google Scholar
[[4] KARUPPUSAMY, P.-NATARAJAN, A. M. : Neuro Fuzzy Controller for Grid Connected Photovoltaic System with Mul- tilevel Inverter, International Review on Modelling and Simula- tions (IREMOS) 6 No. 03 (2013), 693-705.]Search in Google Scholar
[[5] VALAN RAJKUMAR, M.-MANOHARAN, P. S. : Har- monic Reduction of Fuzzy PI Controller based Three-Phase Seven-Level DCMLI with SVPWM for Grid Connected Pho- tovoltaic System, International Review on Modelling and Simu- lations (IREMOS) 6 No. 03 (2013), 684-692.]Search in Google Scholar
[[6] ESSEFI, R. M.-SOUISSI, M.-ABDALLAH, H. H. : Current control strategy for grid connected photovoltaic inverter via LCL filter, International Review on Modelling and Simulations (IRE- MOS) 6.]Search in Google Scholar
[[7] DAMIANO, A.-GATTO, G.-MARONGIU, I.-MEO, S.- PERFETTO, A.-SERPI, A. : Single-Stage Grid Connected PV Inverter with Active and Reactive Power Flow Control via PSO-PR based Current Controlled SVPWM, International Review of Electrical Engineering (IREE) 7 No. 04 (2012), 4647-4654.]Search in Google Scholar
[[8] FERNAOPIRES, V.-MARTINS, J. F.-SILVA, J. F. : A Con- trol Structure for a Photovoltaic Supply System with Power Compensation Characteristics Suitable for Smart Grid Topolo- gies, 8th International Conference on Compatibility and Power Electronics, 2013, pp. 40-45.10.1109/CPE.2013.6601126]Search in Google Scholar
[[9] HAN, Y. : Passivity-Based Control Scheme for the Modular Multilevel Cascaded Converter (MMCC) as the HVDC-PLUS for Smart Grid Applications, International Review of Electrical Engineering (IREE) 8 No. 02 (2013), 558-567.]Search in Google Scholar
[[10] HASHMI, M.-HANNINEN, S.-MAKI, K. : Developing Smart Grid Concepts, Architectures and Technological Demonstrations Worldwide - a Literature Survey, International Review of Elec- trical Engineering (IREE) 8 No. 01 (2013), 236-252.]Search in Google Scholar
[[11] KAZMIERKOWSKI, M. P.-MALESANI, L. : Current Control Techniques for Three-Phase Voltage-Source PWM Converters: A Survey, IEEE Transactions on Industrial Electronics 45 No. 05 (1998), 691-703.10.1109/41.720325]Search in Google Scholar
[[12] HU, J.,-ZHU, J.-DORRELL, D. G.-GUERRERO, J. M. : Virtual Flux Droop Method, A New Control Strategy of Invert- ers in Microgrids, IEEE Transactions on Power Electronics 29 No. 09 (2014), 4704-4711.10.1109/TPEL.2013.2286159]Search in Google Scholar
[[13] YANG, B.-WU, J.-LU, X.-HE, X. :An Improved DSP-based Control Strategy with Predictive Current Control and Fuzzy Voltage Control for Grid-Connected Voltage Source Inverters, Industrial Electronics, IECON2008. 34th Annual Conference of IEEE, 2008, pp. 2296-2300.]Search in Google Scholar
[[14] ZARE, F.-LEDWICH, G. : A New Hysteresis Current Control for Three-phase Inverters Based on Adjacent Voltage Vectors and Time Error, Power Electronics Specialists Conference, 2007, pp. 431-436.10.1109/PESC.2007.4342026]Search in Google Scholar
[[15] BLORFAN, A.-STURTZER, G.-FLIELLER, D.-WIRA, P.-MERCKLE, J. : An Adaptive Control Algorithm for Maxi- mum Power Point Tracking for Photovoltaic Energy Conversion Systems - A Comparative Study, International Review of Elec- trical Engineering (IREE) 9 No. 03 (2014), 559-565.]Search in Google Scholar
[[16] TARIK, J.-ABDERRAHMANE, E. K.-NABIL, E. H.-AB- DELHAMID, N. : New Control based on Estimated State Feed- back of the Shunt Active Filter to Compensate for the Disturbing Currents in the Electric Power, International Review on Mod- elling and Simulations (IREMOS) 7 No. 03 (2014), 457-465.]Search in Google Scholar
[[17] HU, J.-SHANG, L.-HE, Y.-ZHU, Z. Q. : Direct Active and Reactive Power Regulation of Grid-Connected DC/AC Convert- ers Using Sliding Mode Control Approach, IEEE Transactions on Power Electronics 26 No. 01 (2011), 210-222.10.1109/TPEL.2010.2057518]Search in Google Scholar
[[18] GUISSER, M.-EL-JOUNI, A.-ABDELMOUNIM, E. H. : Ro- bust Sliding Mode MPPT Controller based on High Gain Ob- server of a Photovoltaic Water Pumping System, International Review of Automatic Control (IREACO) 7 No. 02 (2014), 225-232.10.15866/ireaco.v7i2.546]Search in Google Scholar
[[19] MEO, S.-SORRENTINO, V.-ZOHOORI, A.-VAHEDI, A. : Second-Order Sliding Mode Control of a Smart Inverter for Re- newable Energy System, International Review of Electrical En- gineering (IREE) 9 No. 06 (2015), 1090-1096.]Search in Google Scholar
[[20] SARPTURK, S. Z.-ISTEFANOPULOS, Y.-KAYNAK, O. : On the Stability of Discrete-Time Sliding Mode Control Sys- tems, IEEE Transaction on Automatic Control 32 No. 10 (1987), 930-932.10.1109/TAC.1987.1104468]Search in Google Scholar
[[21] ILOSAVLJEVIC, D. : General Conditions for the Existence of a Quasi-Sliging Mode on the Switching Hyperplane in Discrete Variable Structure System, Automat. Remote Contr. 46 (1985), 307-314.]Search in Google Scholar
[[22] ESPOSITO, F.-ISASTIA, V.-MEO, S.-PIEGARI, L. : An Improved Perturbe and Observe Algorithm for Tracking Max- imum Power Points of Photovoltaic Power Systems, Interna- tional Review on Modelling and Simulations (IREMOS) 0 No. 00 (2008), 10-16.]Search in Google Scholar
[[23] UTKIN, V.-GULDNER, J.-SHIJUN, M. : Sliding Mode Con- trol in Electromechanical Systems, Taylor & Francis, 1999.]Search in Google Scholar
[[34] ABIDI, K.-XU, J. X.-XINGHUO, Y. : On the Discrete-Time Integral Sliding Mode Control, IEEE Trans. Autom. Control 52 No. 04 (2007), 709-715.10.1109/TAC.2007.894537]Search in Google Scholar
[[25] SU, W. C.-DRAKUNOV, S.-OZGUNER, U. : An O(T2) Boundary Layer in Sliding Mode for Sampled-Data Systems, IEEE Trans. Autom. Control 45 No. 03 (2000), 482-485.]Search in Google Scholar