Relevant bibliographies by topics / Three-level inverter

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  2. Dissertations / Theses
  3. Books
  4. Book chapters
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Academic literature on the topic 'Three-level inverter'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 September 2023

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Journal articles on the topic "Three-level inverter"

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Somasekhar, V. T., and K. Gopakumar. "Three-level inverter configuration cascading two two-level inverters." IEE Proceedings - Electric Power Applications 150, no. 3 (2003): 245. http://dx.doi.org/10.1049/ip-epa:20030259.

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Dr. Sujatha Balaraman,, P. Yogini. "Three Phase Eleven Level Modular Multilevel Inverter with PD-PWM for Grid Connected System." International Journal for Modern Trends in Science and Technology, no. 8 (August 7, 2020): 86–91. http://dx.doi.org/10.46501/ijmtst060816.

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The prominence of Modular Multilevel Inverters (MMI) is rising owing their merits of simple mechanical construction and good voltage sharing for semiconductor devices. Mostly Multilevel Inverters use more than one source; however, the effective use of all the sources at all levels is rare. Conventional Multilevel Inverters will diminish the energy efficiency of the conversion system. When compared to conventional multilevel inverter, Modular Multilevel Inverter with a high numbers of voltage levels seem to be the most suitable because of the use of an isolated dc source. This paper explores a three-phase eleven level modular multilevel inverter with phase disposition pulse width modulation technique (PD-PWM) that can extract power from all the sources at all the levels. Besides, this paper develops a synchronous d-q reference frame controller to control the current of 11kV. When compared with Reduced Switch Count based Multilevel Inverter Series/Parallel switching topologies, the Modular Multilevel Inverter provides better Total Harmonic Distortion (THD) of output voltage and utilization factor.
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Chang, Guo Xiang, Wen Li, and Xiu Ling Liu. "Three-Level SVPWM Controller Design Based on FPGA." Advanced Materials Research 142 (October 2010): 188–93. http://dx.doi.org/10.4028/www.scientific.net/amr.142.188.

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Compared with traditional two-level inverter, the multilevel inverter has many advantages such as large output power and small output harmonic. And also it is one of the hot research subjects in recent years. Although SVPWM control is an excellent control method, its space vectors is exponential with the increase of the number of output levels of the multilevel inverters. If the SVPWM is controlled by DSP, a lot of components can be used. So this paper puts forward a new method which SVPWM signals generate by PGFA directly. The fact has proved that pure hardware design is feasible and has rapid response rate, facile programming and online configuration.
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Odeh, Charles, Arkadiusz Lewicki, Marcin Morawiec, and Dmytro Kondratenko. "Three-Level F-Type Inverter." IEEE Transactions on Power Electronics 36, no. 10 (October 2021): 11265–75. http://dx.doi.org/10.1109/tpel.2021.3071359.

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Odeh, Charles Ikechukwu, Arkadiusz Lewicki, Marcin Morawiec, and Andrzej Jąderko. "Integrated Three-Level Dual-Phase Inverter." Energies 15, no. 8 (April 15, 2022): 2897. http://dx.doi.org/10.3390/en15082897.

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In view of reducing the number of inverter legs that provide dual-phase, three-level output voltages (as may be needed in an uninterruptible power supply), and that also provide a wide range of output frequencies (as needed in an advanced motor drive system with wide speed ranges), a three-level, dual-phase inverter topology is presented in this paper. Its three-level attribute was based on the F-type inverter topological concept, and its dual-output feature was based on the common representation of the inverter-leg concept. The proposed inverter could deliver single- and three-phase voltages to corresponding one- and three-phase loads, in common or different frequency modes of operation. A boundary between these modes of operation was established for the proposed inverter. An additional possibility of either operation in the one-phase or the three-phase system was offered by the inverter configuration. A modified carrier-based sinusoidal pulse-width modulation scheme is presented for the control of the inverter topology. The performances of the dual-phase inverter are given in the simulation results and demonstrated with a hardware prototype.
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Sathish Kumar, S., R. Ramkumar, S. Sivarajeswari, D. Ramya, T. Subburaj, and Martin Sankoh. "Performance Enhancement of a Three Phase Boost-Cascaded Fifteen Level Inverter Using the PI Controller." Mathematical Problems in Engineering 2022 (May 19, 2022): 1–17. http://dx.doi.org/10.1155/2022/3888571.

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Photovoltaic power generation is a potential alternative energy source that offers several benefits over other alternative energy sources such as wind, sun, ocean, biomass, geothermal, and so on. Multilevel inverters are essential for power conversion in solar power generation. These multilevel inverters employ three distinct topologies: diode-clamped (neutral-point clamped) inverter, capacitor-clamped (flying capacitor) inverter, and cascaded H-bridge multilevel inverter. The cascaded H-bridge multilevel inverter is more appropriate for photovoltaic applications than the other two topologies. The proposed system asymmetrical cascaded multilevel inverter (ACMLI) is energized using a photovoltaic system (PV). A three-phase cascaded H-bridge fifteen-level inverter for grid-connected solar systems is given in this study utilizing a proportional integral controller. The harmonic distortion was removed using a multicarrier pulse width modulation method. The MATLAB/Simulink is used to simulate the performance of a three-phase cascaded H-bridge fifteen-level inverter in terms of harmonic content and number of switches. To test the performance of the designed system, a hardware prototype was created. From the obtained results, the proposed method reduces the switch count, harmonic distortion, and rejects the external disturbances of input and output variables.
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El-Naggar, Nada Mohamed, Mohamed Adel Esmaeel, and Salama Abu Zaid. "Comparative performance of modular with cascaded H-bridge three level inverters." International Journal of Electrical and Computer Engineering (IJECE) 13, no. 4 (August 1, 2023): 3847. http://dx.doi.org/10.11591/ijece.v13i4.pp3847-3856.

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<span lang="EN-US">The conventional two-level inverter becomes no longer has the ability to cope with the high-power requirement, so this paper discusses two very common topologies of multilevel inverter like modular multi-level converter (MMC) and cascaded H-bridge (CHB) multi-level inverter for induction motor drive applications. This work attempts to investigate the comparison between MMC and CHB. The comparison is done in aspects of the configuration, concept of operation, advantages and disadvantages, the comparison is also consider output voltage (line to line) waveform, total harmonic distortion (THD) of the output line voltage waveform and the current drawn by both inverters. The performance of the inverters under carrier-based pulse width modulation (PWM) technique and mainly in-phase disposition (IPD), level shifted pulse width modulation is viewed. The paper discusses the comparison between the two multilevel inverters (MLIs) with motor drive applications especially induction motor. The operation of the motor is studied under certain value of load torque. The simulation results for the induction motor with the two inverters (modular multi-level and Cascaded H-bride) for three numbers of levels using MATLAB/Simulink are provided). The obtained results are encouraging and promising especially in the improvement of the THD% results.</span>
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Janiga, Srinivas Rao, P. Srinivasa Varma, and T. Suresh Kumar. "Novel Switching Design Structure for Three Phase 21-Level Multilevel Inverter Fed BLDC Drive Application." International Journal of Power Electronics and Drive Systems (IJPEDS) 9, no. 3 (September 1, 2018): 1202. http://dx.doi.org/10.11591/ijpeds.v9.i3.pp1202-1213.

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Multilevel Inverters offers eminent solutions to high voltage high power applications due to the association of several devices in a series configuration. This is moderate because of getting superior quality voltage waveform when using multilevel inverters as compared to form two-level inverters. Most of the problems raised in this study are the restriction of many switching devices, which can afford high voltage are preferred in the inverter. Here, a novel multilevel inverter topology with no transformers, less number of switching devices and gate drive circuits are proposed. The proposed inverter topologies can valid more voltage levels with favorable advantages such as less number of switching devices and gate driving circuits and also reduce to humble size, agreeable voltage profile. In this paper multilevel converter fed BLDC drive with different voltage levels and simulation analysis is presented. The validity of the proposed three-phase 21-level multilevel inverter fed to BLDC motor drive scheme is verified through Matlab/Simulink Platform.
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Qu, Ke Qing, Qing Quan Niu, Feng Qian, and Jin Bin Zhao. "A SVPWM Method Based on Z-Source Three-Level Inverter." Advanced Materials Research 614-615 (December 2012): 1534–38. http://dx.doi.org/10.4028/www.scientific.net/amr.614-615.1534.

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Compared to the traditional dual Z-source inverter, Z-source inverter with a signal X-shaped LC impedance network has advantages of lower cost and an easier modulating algorithm. Based on the three-level single Z-source inverters, this paper proposed a suitable SVPWM scheme, which include vector region judgment, send order determine, and synthetic time calculation. It is available to achieve inductive voltage boosting by inserting the shoot-through vectors appropriately, while simultaneously provide a good performance on output with a correct volt-second average. The theoretical concepts discussed are verified by simulation results.
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Szular, Zbigniew, Bartosz Rozegnal, and Witold Mazgaj. "A New Soft-Switching Solution in Three-Level Neutral-Point-Clamped Voltage Source Inverters." Energies 14, no. 8 (April 16, 2021): 2247. http://dx.doi.org/10.3390/en14082247.

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This paper presents a new soft-switching solution recommended for three-level neutral-point-clamped inverters. The operation principles of the proposed solution, working stages, selection of elements, and the control algorithm are comprehensively discussed herein. The control method of the inverter main switches is the same as that of the switches of an inverter operating according to the hard-switching technique. The correctness of the proposed solution was confirmed by the results of different tests using a laboratory neutral-point-clamped inverter with rated parameters of 3 kW, 2 × 150 V, 12 A, and 3 kHz. Numerical analyses were performed for the inverter of rated power 1.2 MW. The switching losses of the inverter operating with the proposed solution were compared with those of an inverter with hard-switching method. The proposed soft-switching solution increased the inverter efficiency and its competitiveness in relation to other proposals because there were no connections between switches and capacitors or inductors, which pose a risk of damaging the inverter when disturbances in the control system appear.
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Dissertations / Theses on the topic "Three-level inverter"

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Gebreel, Abd Almula G. M. "Simulation and Implementation of Two-Level and Three-Level Inverters by MATLAB and RT-LAB." The Ohio State University, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=osu1296051853.

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Floten, Sveinung, and Tor Stian Haug. "Modulation Methods for Neutral-Point-Clamped Three-Level Inverter." Thesis, Norwegian University of Science and Technology, Department of Electrical Power Engineering, 2010. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-10882.

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Multilevel converters have seen an increasing popularity in the last years for medium- and high-voltage applications. The most popular has been the three-level neutral clamped converter and still research is going on to improve the control of it. This master thesis was a continuation of the specialization project fall 2009. The main topics of current thesis were to further investigate the DC-bus balancing issues, compare symmetrical (one sampling per triangular wave) and asymmetrical (sampling at the top and bottom of the triangular wave) modulation, derive current equations for Space Vector and Double-Signal, improve output voltage in overmodulation and be able to DC-bus balance, and to implement the methods in the laboratory. Models of the three-level converter were made in the specialization project in both PSCAD and SIMULINK and further studies of the DC-bus balance were also made in this master thesis. None of the methods showed problems to regulate the DC-bus voltage when there was different capacitor values and unsymmetrical load. A PI controller was introduced for Space Vector but it did not show better performance than a regular P regulator. Asymmetrical modulation showed a clearly better performance than symmetrical modulation when the switching frequency was low compared to the fundamental frequency, especially for Space Vector. The 1st harmonic line-to-line voltage was closer to the wanted value and the THDi was significantly lower. Simulations also showed that the THDi can vary significantly depending on at which angle the first sampling is done. This is most clear for asymmetrical Space Vector modulation, but also for the other cases this pattern occurs. By implementing an overmodulation algorithm the amplitude of the 1st harmonic output voltage was closer to what was desired. Simulations showed how important it was to have three phase sampling symmetry in overmodulation. By having a wrong switching frequency the line-to-line output voltage dropped down to 2.06 when operating in six-step, when the wanted output value should be 2.205. Hence there is a quite large mismatch and the converter is sensitive to the switching frequency when it is operating in the higher modulation area. The balancing algorithm introduced for overmodulation is able to remove an initial offset without a notable change the 1st harmonic output. Both Space Vector and Double-Signal were tested in the laboratory with two separated DC-sources. Asymmetrical and Symmetrical modulation were tested and so was also overmodulation. The laboratory results confirmed the simulated results, but since the switching was not synchronized in the laboratory, some errors occurred.

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Li, Xiaoming. "Design of a three-level inverter for an electric vehicle." Thesis, University of Canterbury. Electrical and Electronic Engineering, 1999. http://hdl.handle.net/10092/2220.

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A conventional two-level BIT inverter was installed in an electric vehicle to control two AC induction motors at the University of Canterbury. Nowadays, power device technology has made tremendous progress, and the IGBT becomes the best device in high-quality drive system with inverters in the mid power range. A new three-phase, three-level IGBT inverter has been design and will replace the conventional inverter for the electric vehicle. This inverter produces an output voltage waveform which has three difference levels and can generate a more sinusoidal shape than that of convention two-level inverters. The output voltage of a three-level inverter contains less harmonics than that of a conventional inverter. This thesis deals with the development and implementation of a three-phase, three-level IGBT inverter for an electric vehicle. The inverter design incorporated a laminated busbar structure to reduce stray inductance. An IGBT gate drive circuit with two-stage protection in the inverter is developed. To improve the efficiency and reliability of the inverter, the gate drive provides high speed switching with attention to di/dt and dv/dt requirements and controlled two-stage fault protection. Computer Simulations are performed to demonstrate the operation of a three-level inverter and to determine its specifications. Experimental tests are carried out to evaluate the performance of the three-level inverter as an AC induction motor speed controller. The inverter is tested on a motor load at full voltage, and maximum rated current and torque. Simulation and experimental results show that in principle a three-level inverter is suitable for the propulsion system of an electric vehicle.
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Engku, Ariff E. A. R. B. "Space vector Pwm techniques for six-phase three-level inverter-fed drives." Thesis, Liverpool John Moores University, 2018. http://researchonline.ljmu.ac.uk/7982/.

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In recent years, research in the area of multiphase drives has increased significantly. Having higher number of machine phases allows the current to be shared between the phases, thus reducing the current rating of power semiconductors used in the power converter. Additionally, if a multilevel inverter is used to drive the machine, the output voltage waveforms are going to be approximated closer toward sinusoidal waveforms, thus resulting in lower total harmonic distortion. Therefore, the combination of multiphase and multilevel technologies gives considerable benefits compared to conventional two-level three-phase drives. Unlike a carrier-based approach, which can be easily expanded to any number of converter voltage levels and any number of machine phases, the development of space vector algorithms is also reliant on the machine’s configuration. In other words, different drive topologies require their own unique space vector algorithms. In fact, the complexity of developing a space vector algorithm will dramatically increase with the increase of number of levels and/or number of phases. This thesis presents pulse width modulation techniques for two- and three-level asymmetrical and symmetrical six-phase drives with a single or two isolated neutral points configuration. However, since the modulation techniques for the drives with two isolated neutral points are based on the well-established modulation techniques for three-phase drives, more emphasis is given towards the development of modulation techniques for single neutral point case, particularly those that are based on space vector algorithm principles. In order to realise sinusoidal output phase voltage waveforms, several requirements and conditions have to be met. The requirements revolve around ensuring that the low order harmonics, which contribute to the machine losses, will not exist. Meanwhile, the conditions are more towards minimising the switching losses. All modulation techniques are verified through simulation, while those for three-level case are validated experimentally as well. Comparison and discussion of obtained simulation and experimental results, performance and complexity in terms of execution time of the developed modulation techniques, are presented. The equivalence between corresponding modulation techniques, which are based on the space vector algorithm and carrier-based approach are also established.
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Ayhan, Ufuk. "Investigation Of Dc Bus Current Harmonics In Two And Three Level Three-phase Inverters." Master's thesis, METU, 2012. http://etd.lib.metu.edu.tr/upload/12614182/index.pdf.

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Within scope of this work, double-fourier analysis method of rapid calculation and detailed simulation method, which are used to investigate DC bus current harmonics in two level and three level three-phase inverters systematically, will be emphasized and two methods will be compared via applying different modulation techniques. In addition, DC bus currents will be investigated visually for various working conditions and modulation methods. After that, analysis methods will be applied and harmonic spectrums will be determined. After all, it will be showed that calculated harmonic spectrums could be treated as unified harmonics around certain frequencies and these unified harmonics could be reached easily via looking at predetermined table. Moreover, it will also be showed that unified harmonic values could be used to determine harmonic current components that are necessary for sizing DC bus capacitor and could be used in various inverter analysis.
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Schrock, Kenneth C. "A three-level buck converter to regulate a high-voltage DC-to-AC inverter." Thesis, Massachusetts Institute of Technology, 2008. http://hdl.handle.net/1721.1/46505.

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Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 2008.
Includes bibliographical references (leaves 94-95).
A three-level buck converter is designed and analyzed, and shown to be suitable as a high-voltage down converter as a pre-regulation stage for a 600 watt DC-to-AC power inverter. Topology selection for the inverter is examined, and a three-stage system is chosen to satisfy high voltage (1.1 kV), isolation, size, and efficiency requirements. Control of the buck converter is discussed in detail, including advanced features that allow extremely low output voltages in unloaded conditions. Optimization is included for both magnetics and switching losses. A prototype of the three-level buck converter is shown to perform as expected and meet all specifications.
by Kenneth C. Schrock.
M.Eng.
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Mese, Huseyin. "Field Oriented Control Of Permanent Magnet Synchronous Motors Using Three-level Neutral-point-clamped Inverter." Master's thesis, METU, 2012. http://etd.lib.metu.edu.tr/upload/12614407/index.pdf.

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In this thesis, field oriented control of permanent magnet synchronous motors using three-level neutral-point-clamped inverter is studied. Permanent magnet synchronous motors are used in high performance drive applications. In this study, the permanent magnet synchronous motor is fed by three-level neutral-point-clamped inverter. For three-level neutral-point-clamped inverter different space vector modulation algorithms, which are reported in literature, are analyzed and compared via computer simulations. The voltage balance on dc-link capacitors is also analyzed and a software control method is implemented in conjunction with the space vector PWM modulation, utilized. Nonlinear effects such as dead-time, semiconductor voltage drop and delays in gate drive circuitries also present in neutral-point-clamped inverter. The effects of these nonlinearities are studied and a compensation method for these nonlinear effects is proposed. The theoretical results are supported with computer simulations and verified with experimental results.
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Trounce, Jonathan Charles. "Implementation of a direct torque controller using a three-level inverter for an electric vehicle application." Thesis, University of Canterbury. Department of Electrical and Electronic Engineering, 2001. http://hdl.handle.net/10092/2278.

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The University of Canterbury has been involved in the research and development of electric vehicles since 1974. These electric vehicles use induction motors that are designed with a low inductance such that they can run at high speed and therefore have a high power to weight ratio. The inverter switching can cause high current ripple due to the low inductance of these motors. A three-level inverter has been previously developed for electric vehicle applications that produces an improved voltage waveform and therefore has reduced current distortion. This thesis describes the development of an induction motor torque controller for a three-level inverter in an electric vehicle application. Four different induction motor torque control schemes are considered. These are field oriented control, direct torque control (DTC), minimal torque ripple DTC, and DTC using space vector modulation. All four of the control schemes are simulated using MATLAB and Simulink, and DTC using space vector modulation is chosen based on the simulation results. DTC using space vector modulation is shown to have the low steady-state torque ripple, flux ripple, and current distortion that is characteristic of space vector modulation and the fast transient performance that is characteristic of direct torque control. The implementation of DTC using space vector modulation that is used is described in detail. DTC using space vector modulation is implemented on a custom-built embedded controller based on a TMS320VC33 DSP and a XC4020XLA FPGA. The implementation of the control algorithms and a number of supporting software components are also described. The implemented torque controller is tested against a 15hp, 400Hz, 200V induction motor. Results are presented that show the performance of the torque controller and the three-level space vector modulator. The three-level space vector modulator is shown to produce less current distortion at low modulation indices. The torque produced by the controller during steady-state operation differs from the reference torque, but this error is relatively constant over the range of speeds that are tested. The estimated response to step-changes in the torque and flux references are shown to be almost instantaneous.
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Ustuntepe, Bulent. "A Novel Two-parameter Modulation And Neutral Point Potential Control Method For The Three-level Neutral Point Clamped Inverter." Master's thesis, METU, 2005. http://etd.lib.metu.edu.tr/upload/12606928/index.pdf.

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In this thesis, the neutral point potential drift/fluctuation of the three-level neutral point clamped inverter is analyzed and a novel control algorithm, the two-parameter PWM method is proposed to confine the neutral point potential variation to a very small range. The two-parameter PWM method provides superior neutral point potential control performance even with small DC bus capacitors. The method is based on PWM pulse pattern modification and requires no additional hardware. Detailed analytical models of the neutral point current and potential as a function of the modulation parameters are established and the neutral point potential behavior is thoroughly investigated. Based on the study, the deficiency of the known methods is illustrated and the two-parameter PWM method is developed and its superior performance demonstrated. The performance of the two-parameter PWM method is verified by means of computer simulations utilizing both the per-PWM-cycle average model and the detailed model of the inverter. The results are supported by laboratory experiments involving both an R-L load and an induction motor drive.
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Phan, The Minh [Verfasser]. "Protection of the switches in a three-level inverter by using modified switching schemes for the redistribution of losses / The Minh Phan." Siegen : Universitätsbibliothek der Universität Siegen, 2016. http://d-nb.info/1123283729/34.

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Books on the topic "Three-level inverter"

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A Fault-Tolerant Dual Three-Level Inverter Configuration for Multipole Induction Motor Drive with Reduced Torque Ripple. Kanyakumari, India: ASDF International, 2017.

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Wadman, Wytse J., and Fernando H. Lopes da Silva. Biophysical Aspects of EEG and MEG Generation. Edited by Donald L. Schomer and Fernando H. Lopes da Silva. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190228484.003.0004.

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This chapter reviews the essential physical principles involved in the generation of electroencephalographic (EEG) and magnetoencephalographic (MEG) signals. The general laws governing the electrophysiology of neuronal activity are analyzed within the formalism of the Maxwell equations that constitute the basis for understanding electromagnetic fields in general. Three main topics are discussed. The first is the forward problem: How can one calculate the electrical field that results from a known configuration of neuronal sources? The second is the inverse problem: Given an electrical field as a function of space and time mostly recorded at the scalp (EEG/MEG), how can one reconstruct the underlying generators at the brain level? The third is the reverse problem: How can brain activity be modulated by external electromagnetic fields with diagnostic and/or therapeutic objectives? The chapter emphasizes the importance of understanding the common biophysical framework concerning these three main topics of brain electrical and magnetic activities.
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Book chapters on the topic "Three-level inverter"

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Dennai, Mohammed Yassine, Hamza Tedjini, and Abdelfettah Nasri. "Transformerless PV Three Level NPC Central Inverter." In Lecture Notes in Networks and Systems, 669–78. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-37207-1_72.

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Lim, Ziyou. "Three-Phase Seven-Level Three-Cell Lightweight Flying Capacitor Inverter." In Advanced Multilevel Converters and Applications in Grid Integration, 217–50. Chichester, UK: John Wiley & Sons, Ltd, 2018. http://dx.doi.org/10.1002/9781119476030.ch12.

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Jia, Haijie, Xuedong Jiang, Lei Wang, Zheming Jin, and Qifeng Li. "Clamped Three-level Inverter Midpoint Potential Control Method." In Lecture Notes in Electrical Engineering, 73–81. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-642-53751-6_8.

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Deng, Yuan, and Guangyao Jin. "The Research and Simulation of Three-Level NPC Inverter." In Lecture Notes in Electrical Engineering, 233–40. Berlin, Heidelberg: Springer Berlin Heidelberg, 2016. http://dx.doi.org/10.1007/978-3-662-48768-6_27.

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Yang, Xiaoguang, and Youhua Wang. "A Novel Transformerless Single-Phase Three-Level Photovoltaic Inverter." In Lecture Notes in Electrical Engineering, 317–24. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-21762-3_41.

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Feng, Jiuyi, Wenxiang Song, Shuhao Jiang, and Haoyu Wang. "Synchronous Current Harmonic Optimal Pulsewidth Modulation for Three-Level Inverter." In Communications in Computer and Information Science, 331–40. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-45286-8_35.

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Lim, Ziyou. "Three-Phase Seven-Level Four-Cell Reduced Flying Capacitor Inverter." In Advanced Multilevel Converters and Applications in Grid Integration, 251–74. Chichester, UK: John Wiley & Sons, Ltd, 2018. http://dx.doi.org/10.1002/9781119476030.ch13.

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Zhiyong, Qu, and He Xiaoqiong. "Space Vector Control of PMSM Based on Three-Level Inverter." In Lecture Notes in Electrical Engineering, 752–60. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-1532-1_80.

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Umashankar, Subramaniam, Vishnu Kalaiselvan Arun Shankar, Padmanaban Sanjeevikumar, and K. Harini. "Common-Mode Voltage Regulation of Three-Phase SVPWM-Based three-Level NPC Inverter." In Advances in Power Systems and Energy Management, 367–76. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4394-9_37.

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Benabderrahman, Houssam Eddine, Rachid Taleb, M’hamed Helaimi, and Fayçal Chabni. "Validation of Three Level Solar Inverter Based on Tabu Search Algorithm." In Renewable Energy for Smart and Sustainable Cities, 429–36. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-030-04789-4_46.

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Conference papers on the topic "Three-level inverter"

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Gekeler, Manfred W. "Soft switching three level inverter (S3L inverter)." In 2013 15th European Conference on Power Electronics and Applications (EPE). IEEE, 2013. http://dx.doi.org/10.1109/epe.2013.6631756.

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Stanciu, Dumitru, and Cosmin Popescu. "PWM Three-Level Inverter Control." In 2006 IEEE International Conference on Automation, Quality and Testing, Robotics. IEEE, 2006. http://dx.doi.org/10.1109/aqtr.2006.254534.

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3

Joy, Martin Cheerangal, Chaithanya V., and Jayanand B. "Three-phase Infinite Level Inverter." In 2016 IEEE 1st International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES). IEEE, 2016. http://dx.doi.org/10.1109/icpeices.2016.7853364.

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Deng, Xiaojun, Hongliang Wang, Xiaonan Zhu, Wenyuan Zhang, Hanzhe Wang, and Xiumei Yue. "A Ten-Switch Three-Phase Three-Level Inverter." In 2020 IEEE 9th International Power Electronics and Motion Control Conference (IPEMC2020-ECCE Asia). IEEE, 2020. http://dx.doi.org/10.1109/ipemc-ecceasia48364.2020.9367777.

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5

Feng Ma and Lei Li. "A novel three-level PV inverter." In 2012 7th IEEE Conference on Industrial Electronics and Applications (ICIEA). IEEE, 2012. http://dx.doi.org/10.1109/iciea.2012.6360879.

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Yisheng, Yuan. "A new interleaved three-level inverter." In 2010 2nd IEEE International Symposium on Power Electronics for Distributed Generation Systems (PEDG). IEEE, 2010. http://dx.doi.org/10.1109/pedg.2010.5545900.

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Chen, Tianyu, and Mehdi Narimani. "A new ZVZCS three-level inverter." In IECON 2017 - 43rd Annual Conference of the IEEE Industrial Electronics Society. IEEE, 2017. http://dx.doi.org/10.1109/iecon.2017.8216105.

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8

Ahmed, M., and S. Mekhilef. "A three-phase three-level voltage source inverter with a three-phase two-level inverter as a main circuit." In 4th IET International Conference on Power Electronics, Machines and Drives (PEMD 2008). IEE, 2008. http://dx.doi.org/10.1049/cp:20080600.

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Shanmei Cheng, Yajun Liu, and Bing Wu. "SVM algorithm of three-level NPC inverter." In 2008 3rd IEEE Conference on Industrial Electronics and Applications (ICIEA). IEEE, 2008. http://dx.doi.org/10.1109/iciea.2008.4582907.

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Jie, Zheng, Wang Chenghua, and Hong Feng. "Diode-Clamped Three-Level Dual Buck Inverter." In 2009 International Conference on Energy and Environment Technology. IEEE, 2009. http://dx.doi.org/10.1109/iceet.2009.269.

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Reports on the topic "Three-level inverter"

1

Chiasson, J. N. A Five-Level Cascade Multilevel Inverter Three-Phase Motor Drive Using a Single DC Source. Office of Scientific and Technical Information (OSTI), October 2006. http://dx.doi.org/10.2172/974616.

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2

Chiasson, J. N. A Five-Level Cascade Multilever Invertor Three-Phase Motor Drive Using a Single DC Source. Office of Scientific and Technical Information (OSTI), September 2006. http://dx.doi.org/10.2172/901193.

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