Year 2023,
, 517 - 525, 30.09.2023
B Hemanth Kumar
,
Kavalı Janardhan
V. S Chandrika
G. G Raja Sekhar
Deepak Prakash Kadam
Dhananjay Kumar
References
- [1]. J. Rodríguez, S. Bernet, B. Wu, J. O. Pontt, and S. Kouro, “Multilevel voltage-source-converter topologies for industrial medium-voltage drives,” IEEE Transactions on Industrial Electronics, vol. 54, no. 6, pp. 2930-2945, 2007.
- [2]. J. Rodriguez, L. G. Franquelo, S. Kouro, J. I. Leon, R. C. Portillo, M. A. M. Prats and M. A. Perez, “Multilevel converters: An enabling technology for high-power applications,” Proceedings of the IEEE, vol. 97, no. 11, pp. 1786-1817, 2009.
- [3]. B. Hemanth Kumar, S. Prabhu, K. Janardhan, V. Arun and S. Vivekanandan, “A Switched Capacitor Based Multilevel Boost Inverter for Photovoltaic Applications,” Journal of Circuits, Systems and Computers, vol. 32, no. 04, 2350057, 2023.
- [4]. P. Barbosa, P. Steimer, and J. Steinke et al., “Active neutral-pointclamped multilevel converters,” in Proc. 36th IEEE Power Electron. Spec. Conf., 2005, pp. 2296-2301.
- [5]. J. Li, J. Jiang, and S. Qiao, “A space vector pulse width modulation for five-level nested neutral point piloted converter,” IEEE Trans. Power Electron., vol. 32, no. 8, pp. 5991-6004, Aug. 2017.
- [6]. A. Bahrami and M. Narimani, “A New Five-Level T-Type Nested Neutral Point Clamped (T-NNPC) Converter,” IEEE Trans. Power Electron., vol. 34, no. 11, pp. 10534-10545, Nov. 2019.
- [7]. Sung-Jun Park, Feel-Soon Kang, Man Hyung Lee and Cheul-U Kim, “A New Single-Phase Five-Level PWM Inverter Employing A Deadbeat Control Scheme,” IEEE Trans. Power Electron., vol. 18, no. 3, pp. 831-843, May 2003.
- [8]. L. Zhang, Z. Zheng, and C. Li et al., “A Si/SiC Hybrid Five-Level Active NPC Inverter With Improved Modulation Scheme,” IEEE Trans. Power Electron., vol. 35, no. 5, pp. 4835-4846, May 2020.
- [9]. B. Hemanth Kumar, M. M. Lokhande, “Investigation of switching sequences on a generalized SVPWM algorithm for multilevel inverters,” Journal of Circuits, Systems and Computers, vol. 28, no. 02, 1950036, 2019.
- [10]. B. H. Kumar, M. M. Lokhande, “An enhanced space vector PWM for nine-level inverter employing single voltage source,” IEEE Transportation Electrification Conference (ITEC), pp. 1-6, 2017.
- [11]. B. H. Kumar, M. M. Lokhande, “Space Vector Pulse Width Modulation for Multilevel Inverter - A Survey,”4th International Conference for Convergence in Technology (I2CT), pp. 1-6, 2018.
- [12]. W. Song, X. Feng, and K. M. Smedley, “A carrier-based PWM strategy with the offset voltage injection for single-phase three-level neutral-point-clamped converters,” IEEE Transactions on Power Electronics, vol. 28, no. 3, pp. 1083-1095, 2012.
- [13]. B. P. McGrath, D. G. Holmes, and T. Meynard, “Reduced PWM harmonic distortion for multilevel inverters operating over a wide modulation range,” IEEE Transactions on power electronics, vol. 21, no. 4, pp. 941-94, 2006.
- [14]. W. Subsingha, “A comparative study of sinusoidal PWM and third harmonic injected PWM reference signal on five level diode clamp inverter,” Energy Procedia, vol. 89, pp.137-148, 2016.
- [15]. B. H. Kumar, K. Janardha, R. S. Kumar, J. R. Rahul, A. R. Singh, R. Naidoo, and R. C. Bansal, “An Enhanced Space Vector PWM Strategies for Three Phase Asymmetric Multilevel Inverter,” International Transactions on Electrical Energy Systems, Feb 2023. https://doi.org/10.1155/2023/5548828.
- [16]. M. J. Sathik, Z. Tang, Y. Yang, K. Vijayakumar and F. Blaabjerg, “A New 5-Level ANPC Switched Capacitor Inverter Topology for Photovoltaic Applications,” in Proc. 45th Annu. Conf. IEEE Ind. Electron. Soc., Lisbon, Portugal, 2019, pp. 3487-3492.
- [17]. Y. P. Siwakoti, A. Palanisamy, A. Mahajan, S. Liese, T. Long and F. Blaabjerg, “Analysis and Design of a Novel Six-Switch Five-Level Active Boost Neutral Point Clamped Inverter,” IEEE Trans. Ind. Electron. vol. 67, no. 12, pp. 10485-10496, Dec. 2020.
- [18]. W. A. Pineda C. and C. Rech, “Modified Five-Level ANPC Inverter with Output Voltage Boosting Capability,” in Proc. 45th Annu. Conf. IEEE Ind. Electron. Soc., Lisbon, Portugal, 2019, pp. 3355-3360.
- [19]. A. Bahrami and M. Narimani, “A New Five-Level T-Type Nested Neutral Point Clamped (T-NNPC) Converter,” IEEE Trans. Power Electron., vol. 34, no. 11, pp. 10534-10545, Nov. 2019.
- [20]. J. Li, J. Jiang, and S. Qiao, “A space vector pulse width modulation for five-level nested neutral point piloted converter,” IEEE Trans Power Electron., vol. 32, no. 8, pp. 5991-6004, Aug. 2017.
- [21]. E. Burguete, J. López and M. Zabaleta, “A New Five-Level Active Neutral-Point-Clamped Converter With Reduced Overvoltages,” IEEE Trans. Ind. Electron., vol. 63, no. 11, pp. 7175-7183, Nov. 2016.
- [22]. H. Wang, L. Kou, Y. F. Liu, and P.C. Sen, “A New Six-Switch Five Level Active Neutral Point Clamped inverter for PV Applications,” IEEE Trans. Power Electron., vol. 32, no. 9, pp. 6700-6715, Sep. 2017.
- [23]. T. B. Soeiro, R. Carballo, J. Moia, G. O. Garcia, and M. L. Heldwein “Three-phase five-level Active Neutral Point Clamped Converters for Medium Voltage Applications,” in Proc. Brazilian Power Electron. Conf., Oct. 27-31, 2013, pp. 85-91.
- [24]. P. Barbosa, P. Steimer, and J. Steinke et al., “Active neutral-point-clamped multilevel converters,” in Proc. 36th IEEE Power Electron. Spec. Conf., 2005, pp. 2296-2301.
A Five Level SC Inverter with reduced switch count and self balancing capability
Year 2023,
, 517 - 525, 30.09.2023
B Hemanth Kumar
,
Kavalı Janardhan
V. S Chandrika
G. G Raja Sekhar
Deepak Prakash Kadam
Dhananjay Kumar
Abstract
Multilevel inverters (MLIs) have become a favoured option for medium voltage and high power DC to AC conversion applications to assure high power level cascade type inverter which accepts multiple/single DC sources and offers combined AC output for appropriate voltage and frequency. MLIs provide various benefits over two-level inverters, including lower dv/dt, the capacity to handle greater voltage levels, a quasi-sinusoidal output waveform, and lower Total Harmonic Distortion (THD), among others. The biggest problem in adopting the MLI is the increasing number of switches and it's design. MLIs based on switched capacitors (SC) for boost-type DC-AC converters often demonstrate a trade-off among switch voltage rating and switch count. This work introduces a new 5-level(5L) SC inverter by adding a switched capacitor module into the usual 3L neutral point clamped inverter leg(NPC). The SC unit consists of one bidirectional switch and two capacitors capable of withstanding one-quarter of the DC voltage. When compared to typical 5L inverters, such as standard NPC and active NPC designs, the new approach in addition reduces the amount of switches but also shorten the topology. The proposed FLSCI has been examined by using several PWM techniques. The simulation and hardware results showed that the presented FLSCI is ideal for a broad variety of applications.
Thanks
This work was supported by the Sree Vidyanikethan Educational Trust (SVET), Tirupati, Andhra Pradesh, India
References
- [1]. J. Rodríguez, S. Bernet, B. Wu, J. O. Pontt, and S. Kouro, “Multilevel voltage-source-converter topologies for industrial medium-voltage drives,” IEEE Transactions on Industrial Electronics, vol. 54, no. 6, pp. 2930-2945, 2007.
- [2]. J. Rodriguez, L. G. Franquelo, S. Kouro, J. I. Leon, R. C. Portillo, M. A. M. Prats and M. A. Perez, “Multilevel converters: An enabling technology for high-power applications,” Proceedings of the IEEE, vol. 97, no. 11, pp. 1786-1817, 2009.
- [3]. B. Hemanth Kumar, S. Prabhu, K. Janardhan, V. Arun and S. Vivekanandan, “A Switched Capacitor Based Multilevel Boost Inverter for Photovoltaic Applications,” Journal of Circuits, Systems and Computers, vol. 32, no. 04, 2350057, 2023.
- [4]. P. Barbosa, P. Steimer, and J. Steinke et al., “Active neutral-pointclamped multilevel converters,” in Proc. 36th IEEE Power Electron. Spec. Conf., 2005, pp. 2296-2301.
- [5]. J. Li, J. Jiang, and S. Qiao, “A space vector pulse width modulation for five-level nested neutral point piloted converter,” IEEE Trans. Power Electron., vol. 32, no. 8, pp. 5991-6004, Aug. 2017.
- [6]. A. Bahrami and M. Narimani, “A New Five-Level T-Type Nested Neutral Point Clamped (T-NNPC) Converter,” IEEE Trans. Power Electron., vol. 34, no. 11, pp. 10534-10545, Nov. 2019.
- [7]. Sung-Jun Park, Feel-Soon Kang, Man Hyung Lee and Cheul-U Kim, “A New Single-Phase Five-Level PWM Inverter Employing A Deadbeat Control Scheme,” IEEE Trans. Power Electron., vol. 18, no. 3, pp. 831-843, May 2003.
- [8]. L. Zhang, Z. Zheng, and C. Li et al., “A Si/SiC Hybrid Five-Level Active NPC Inverter With Improved Modulation Scheme,” IEEE Trans. Power Electron., vol. 35, no. 5, pp. 4835-4846, May 2020.
- [9]. B. Hemanth Kumar, M. M. Lokhande, “Investigation of switching sequences on a generalized SVPWM algorithm for multilevel inverters,” Journal of Circuits, Systems and Computers, vol. 28, no. 02, 1950036, 2019.
- [10]. B. H. Kumar, M. M. Lokhande, “An enhanced space vector PWM for nine-level inverter employing single voltage source,” IEEE Transportation Electrification Conference (ITEC), pp. 1-6, 2017.
- [11]. B. H. Kumar, M. M. Lokhande, “Space Vector Pulse Width Modulation for Multilevel Inverter - A Survey,”4th International Conference for Convergence in Technology (I2CT), pp. 1-6, 2018.
- [12]. W. Song, X. Feng, and K. M. Smedley, “A carrier-based PWM strategy with the offset voltage injection for single-phase three-level neutral-point-clamped converters,” IEEE Transactions on Power Electronics, vol. 28, no. 3, pp. 1083-1095, 2012.
- [13]. B. P. McGrath, D. G. Holmes, and T. Meynard, “Reduced PWM harmonic distortion for multilevel inverters operating over a wide modulation range,” IEEE Transactions on power electronics, vol. 21, no. 4, pp. 941-94, 2006.
- [14]. W. Subsingha, “A comparative study of sinusoidal PWM and third harmonic injected PWM reference signal on five level diode clamp inverter,” Energy Procedia, vol. 89, pp.137-148, 2016.
- [15]. B. H. Kumar, K. Janardha, R. S. Kumar, J. R. Rahul, A. R. Singh, R. Naidoo, and R. C. Bansal, “An Enhanced Space Vector PWM Strategies for Three Phase Asymmetric Multilevel Inverter,” International Transactions on Electrical Energy Systems, Feb 2023. https://doi.org/10.1155/2023/5548828.
- [16]. M. J. Sathik, Z. Tang, Y. Yang, K. Vijayakumar and F. Blaabjerg, “A New 5-Level ANPC Switched Capacitor Inverter Topology for Photovoltaic Applications,” in Proc. 45th Annu. Conf. IEEE Ind. Electron. Soc., Lisbon, Portugal, 2019, pp. 3487-3492.
- [17]. Y. P. Siwakoti, A. Palanisamy, A. Mahajan, S. Liese, T. Long and F. Blaabjerg, “Analysis and Design of a Novel Six-Switch Five-Level Active Boost Neutral Point Clamped Inverter,” IEEE Trans. Ind. Electron. vol. 67, no. 12, pp. 10485-10496, Dec. 2020.
- [18]. W. A. Pineda C. and C. Rech, “Modified Five-Level ANPC Inverter with Output Voltage Boosting Capability,” in Proc. 45th Annu. Conf. IEEE Ind. Electron. Soc., Lisbon, Portugal, 2019, pp. 3355-3360.
- [19]. A. Bahrami and M. Narimani, “A New Five-Level T-Type Nested Neutral Point Clamped (T-NNPC) Converter,” IEEE Trans. Power Electron., vol. 34, no. 11, pp. 10534-10545, Nov. 2019.
- [20]. J. Li, J. Jiang, and S. Qiao, “A space vector pulse width modulation for five-level nested neutral point piloted converter,” IEEE Trans Power Electron., vol. 32, no. 8, pp. 5991-6004, Aug. 2017.
- [21]. E. Burguete, J. López and M. Zabaleta, “A New Five-Level Active Neutral-Point-Clamped Converter With Reduced Overvoltages,” IEEE Trans. Ind. Electron., vol. 63, no. 11, pp. 7175-7183, Nov. 2016.
- [22]. H. Wang, L. Kou, Y. F. Liu, and P.C. Sen, “A New Six-Switch Five Level Active Neutral Point Clamped inverter for PV Applications,” IEEE Trans. Power Electron., vol. 32, no. 9, pp. 6700-6715, Sep. 2017.
- [23]. T. B. Soeiro, R. Carballo, J. Moia, G. O. Garcia, and M. L. Heldwein “Three-phase five-level Active Neutral Point Clamped Converters for Medium Voltage Applications,” in Proc. Brazilian Power Electron. Conf., Oct. 27-31, 2013, pp. 85-91.
- [24]. P. Barbosa, P. Steimer, and J. Steinke et al., “Active neutral-point-clamped multilevel converters,” in Proc. 36th IEEE Power Electron. Spec. Conf., 2005, pp. 2296-2301.