Page 101 - Renewable Energy Devices and System with Simulations in MATLAB and ANSYS
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88              Renewable Energy Devices and Systems with Simulations in MATLAB  and ANSYS ®
                                                                                ®

              17.  R. C. N. Pilawa-Podgurski, Architectures and circuits for low-voltage energy conversion and applica-
                tions in renewable energy and power management, Department of Electrical Engineering and Computer
                Science, Massachusetts Institute of Technology, Cambridge, MA, 2012.
              18.  D. Shmilovitz and Y. Levron, Distributed maximum power point tracking in photovoltaic systems–
                emerging architectures and control methods, AUTOMATIKA: casopis za automatiku, mjerenje, elektron-
                iku, racunarstvo i komunikacije, 53, 142–155, 2012.
              19.  G. G. R. Walker, J. Xue, and P. Sernia, PV string per-module maximum power point enabling converters,
                in The Australasian Universities Power Engineering Conference, Christchurch, New Zealand, p. 6, 2003.
              20.  R. C. N. Pilawa-Podgurski and D. J. Perreault, Submodule integrated distributed maximum power
                point  tracking  for solar  photovoltaic applications,  IEEE  Transactions  on  Power  Electronics,  28,
                2957–2967, 2013.
              21.  SolarEdge, Solaredge power optimizer: Module embedded solution, 2013, http://www.solaredge.com/
                sites/default/files/se-pb-csi-datasheet.pdf. last accessed October 24, 2016.
              22.  R. Enne, M. Nikolic, and H. Zimmermann, Dynamic integrated MPP tracker in 0.35 μm CMOS, IEEE
                Transactions on Power Electronics, 28, 2886–2894, 2013.
              23.  S. Bernet and  T. Bruckner, Open-loop and closed-loop  control method for a three-point converter
                with active clamped switches, and apparatus for this purpose, ed: Google Patents US6697274 B2, US
                10/388,022, 2003.
              24.  J. Ketterer, H. D. I. Schmidt, and C. D. Siedle, Inverter for transforming a DC voltage into an AC current
                or an AC voltage, ed: Google Patents EP1369985 B1, EP20030009882, 2009.
              25.  P. Knaup, Inverter, ed: Google Patents WO2009039888 A1, PCT/EP2007/060266, 2007.
              26.  M. D. Victor, F. Greizer, S. Bremicker, and U. Hübler, Method of converting a DC voltage of a DC
                source, in particular of a photovoltaic DC source, in an AC voltage, ed: Google Patents EP1626494 A3,
                EP20050011807, 2007.
              27.  R. Gonzalez, J. Lopez, P. Sanchis, and L. Marroyo, Transformerless inverter for single-phase photovol-
                taic systems, IEEE Transactions on Power Electronics, 22, 693–697, 2007.
              28.  T. Kerekes, M. Liserre, R. Teodorescu, C. Klumpner, and M. Sumner, Evaluation of three-phase transfor-
                merless photovoltaic inverter topologies, IEEE Transactions on Power Electronics, 24, 2202–2211, 2009.
              29.  C. Pham, R. Teodorescu, T. Kerekes, and L. Mathe, High efficiency battery converter with SiC devices
                for residential PV systems, in 2013 15th European Conference on Power Electronics and Applications
                (EPE), pp. 1–10, Lille, France, 2013.
              30.  J. Holtz, M. Holtgen, and J. O. Krah, A space vector modulator for the high-switching frequency control
                of three-level SiC inverters, IEEE Transactions on Power Electronics, 29, 2618–2626, 2014.
              31.  N. Oswald, P. Anthony, N. McNeill, and B. H. Stark, An experimental investigation of the tradeoff
                between switching losses and EMI generation with hard-switched all-Si, Si-SiC, and all-SiC device com-
                binations, IEEE Transactions on Power Electronics, 29, 2393–2407, 2014.
              32.  A. Nabae, I. Takahashi, and H. Akagi, A new neutral-point-clamped PWM inverter, IEEE Transactions
                on Industry Applications, IA-17, 518–523, 1981.
              33.  M. Schweizer and J. W. Kolar, Design and implementation of a highly efficient three-level T-type con-
                verter for low-voltage applications, IEEE Transactions on Power Electronics, 28, 899–907, 2013.
              34.  S. Debnath, Q. Jiangchao, B. Bahrani, M. Saeedifard, and P. Barbosa, Operation, control, and appli-
                cations of the modular multilevel converter: A review, IEEE Transactions on Power Electronics, 30,
                37–53, 2015.
              35.  R. Teodorescu, E.-P. Eni, L. Mathe, and P. Rodriguez, Modular multilevel converter control strategy with
                fault tolerance, in International Conference on Renewable Energies and Power Quality (ICREPQ’13),
                Bilbao, Spain, 2013.
              36.  Emerson, Utility scale solar inverters, 2013, http://www.emersonindustrial.com/en-EN/documentcenter/
                ControlTechniques/Brochures/photovoltaic_brochure.pdf, last accessed April 2016.
              37.  G. Gohil, R. Maheshwari, L. Bede, T. Kerekes, R. Teodorescu, M. Liserre et al., Modified discontinu-
                ous PWM for size reduction of the circulating current filter in parallel interleaved converters, IEEE
                Transactions on Power Electronics, 30, 3457–3470, 2014.
              38.  G. D. Holmes and T. A. Lipo, Pulse Width Modulation for Power Converters: Principles and Practice.
                Hoboken, NJ: John Wiley & Sons, Inc., 2003.
              39.  A. M. Hava, R. J. Kerkman, and T. A. Lipo, Simple analytical and graphical methods for carrier-based
                PWM-VSI drives, IEEE Transactions on Power Electronics, 14, 49–61, 1999.
              40.  C. C. Hou, C. C. Shih, P. T. Cheng, and A. M. Hava, Common-mode voltage reduction pulsewidth modu-
                lation techniques for three-phase grid-connected converters, IEEE Transactions on Power Electronics,
                28, 1971–1979, 2013.
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