Relevant bibliographies by topics / PWM Inverter

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'PWM Inverter'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 September 2023

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Journal articles on the topic "PWM Inverter"

1

Taniguchi, Katsunori, and Masakazu Inoue. "PWM Technique for PAM Inverter." IEEJ Transactions on Industry Applications 112, no. 2 (1992): 185–86. http://dx.doi.org/10.1541/ieejias.112.185.

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2

Inoue, Masakazu, and Katsunori Taniguchi. "A Sinusoidal PAM-PWM Inverter." IEEJ Transactions on Industry Applications 112, no. 9 (1992): 837–43. http://dx.doi.org/10.1541/ieejias.112.837.

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Inoue, Masakazu, and Katsunori Taniguchi. "A sinusoidal PAM-PWM inverter." Electrical Engineering in Japan 113, no. 7 (1993): 126–34. http://dx.doi.org/10.1002/eej.4391130712.

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4

Putra, Sony Prakarsa, and Zulwisli Zulwisli. "INVERTER PWM UNTUK MENGGERAKKAN MESIN ARUS SEARAH TANPA SIKAT BERBASIS ARDUINO." Voteteknika (Vocational Teknik Elektronika dan Informatika) 7, no. 4 (January 28, 2020): 68. http://dx.doi.org/10.24036/voteteknika.v7i4.106466.

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This study aims to create a PWM inverter that can drive the Brushless Unidirectional Flow Machine (MASTS). PWM inverters are intended to correct deficiencies in six-step inverters. Inverter is a circuit that is used to convert a DC voltage source into an AC voltage with a certain frequency. The use of inverters is found in electric vehicles. The system often used to control an inverter is a Pulse Width Modulation (PWM) based control, where pulse width is used to regulate speed. The inverter is tested using 3 pairs of mosfets as a switch to control the three-phase output of the inverter. In the inverter, PWM is used to adjust the width of the frequency pulse that will be given to the mosfet. This research used 3 variations of duty cycle 30%, 60%, 90% to determine the effect of MASTS speed on PWM by using a PWM inverter. The results of this study the speed of MASTS can be influenced by changes in duty cycle, with increasing value of the duty cycle, the faster the speed of MASTS, and vice versa. Keywords:Mosfet, Sensor Hall, MASTS, PWM, Inverter.
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Bright, Shibu J. V., V. Suba, S. Ramkumar, and S. Jeevananthan. "Investigation on Harmonic Spreading Effect of Conventional and Innovative Multi-Level Inverter Control Strategies." Applied Mechanics and Materials 626 (August 2014): 141–49. http://dx.doi.org/10.4028/www.scientific.net/amm.626.141.

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The pulse width modulation (PWM) strategy employed in the voltage source inverter (VSI) not only control the magnitude of the output voltage but also the quality. Performance evaluations of such strategies are done in terms of fundamental voltage, total harmonic distortion (THD), switching losses etc. (primary indices) and also in terms of acoustic noise, electromagnetic interference (EMI), harmonic spread factor, distribution of harmonic power etc. (secondary indices). Multilevel inverter (MLI) has become unanimous choice in medium and high power applications due to their superior performance compared to three level inverters. The conventional Sub-Harmonic PWM (SHPWM) scheme and its variations offer the output voltage spectrum with high intensity harmonic components around the switching frequency; it will end with cluster harmonic with high acoustic noise. The first objective of this paper is to investigate harmonic spreading effects of existing multilevel inverter (MLI) strategies. Secondly the developing innovative PWM strategies for MLIs based on modified reference and carrier functions, which were proved for superior the primary indices at three-level VSI. Thorough simulation study of Pulse width modulation strategies such as SHPWM, inverted sine carrier PWM, MWM PWM, third harmonic injection PWM, triplen harmonic injection PWM, analog space vector PWM, trapezoidal PWM and discontinuous PWM for a cascaded multilevel inverter, are presented with results of primary and secondary indices. Hence, the PWM strategies of MLI are evaluated for harmonic spreading effect first time and a guide line for a beginner to select the PWM scheme for MLI fed drive systems is stenciled.
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Gudipati, Kishor, Harsha Vardhan Reddy Maramreddy, Sri Gowri Kolli, Vuyyuru Anantha Lakshmi, and Girireddy Sreenivasa Reddy. "Comparison of Pulse Width Modulation Techniques for Diode-Clamped and Cascaded Multilevel Inverters." Engineering, Technology & Applied Science Research 13, no. 4 (August 9, 2023): 11078–84. http://dx.doi.org/10.48084/etasr.5939.

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Multilevel inverter technology has become the most significant method of energy conversion from DC to AC for uninterrupted power supply. The quality of the power supply depends on the appearance of harmonics, which is considered a problem that needs to be overcome. This paper demonstrates the use of a new modulation technique to reduce the harmonics in both diode-clamped and cascaded multilevel inverters, examining its Total Harmonic Distortion (THD) compared to other PWM methods. Simulations were carried out in MATLAB/Simulink for five-level diode-clamped and cascaded multilevel inverters. The simulation results of both multilevel inverters using the sinusoidal PWM, modified reference PWM, modified carrier PWM, and modified reference and modified carrier PWM methods showed that the latter had the best THD performance for both inverter types, especially for the cascaded multilevel inverter.
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Perra, A. "PWM inverter technology." IEEE Aerospace and Electronic Systems Magazine 7, no. 4 (April 1992): 20–22. http://dx.doi.org/10.1109/62.143194.

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Qi, Xiaojing, and Jianyong Zheng. "VSG Control for Cascaded Three-Phase Bridge Based Battery Inverter." World Electric Vehicle Journal 14, no. 8 (July 30, 2023): 203. http://dx.doi.org/10.3390/wevj14080203.

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With the increasing number of new energy sources connected to the grid, the unbalanced output of three-phase grid-connected inverters and the lack of no inertia and damping characteristics in the traditional microgrid control system will seriously affect the stability of voltage, frequency, and power angle for microgrids. This paper proposes a novel cascaded three-phase bridge inverter topology for the battery system used for the electric vehicle. Compared with traditional cascaded H-bridge inverters, the proposed multilevel inverter can achieve self-adaptive balance for three phases. The mathematical model of a cascaded three-phase bridge inverter is established in this paper. Based on the voltage and current equations of a multilevel inverter, a new modulation strategy named carrier phase-shifted-distributed pulse width modulation (CPSD-PWM) was developed, which is more suitable for cascaded three-phase bridge inverters. The harmonic analytic equations of carrier phase-shifted pulse width modulation (CPS-PWM) and CPSD-PWM are constructed by the double Fourier analysis method. Compared with the traditional PWM modulation strategy, the CPSD-PWM can reduce the output harmonics and improve the balance of the three-phase output, which can realize the three-phase adaptive balance in the cascaded three-phase bridge inverter. This paper develops a cascaded three-phase bridge multilevel power converter system based on the virtual synchronous generator (VSG) control strategy. The voltage and frequency of inverter output can be accurately controlled in both island mode and grid-connected mode through active power-frequency regulation and reactive power–voltage regulation, and the stability of primary frequency regulation for the multilevel microgrid inverter can be improved by collaborative optimization of virtual inertia and virtual damping. The CPSD-PWM modulation strategy and VSG control strategy are verified by the simulation results and experimental data for the cascaded three-phase bridge inverter.
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9

Satiawan, I. Nyoman Wahyu, Ida Bagus Fery Citarsa, Warindi, I Ketut Wiryajati, Supriono, Ni Made Seniari, and I Made Budi Suksmadana. "Improved Modulation Methods of the Dual-inverter Fed Open-end Winding Three-phase Motor Drives with Equal DC-link Voltage." International Journal of Electrical, Energy and Power System Engineering 5, no. 3 (November 1, 2022): 93–98. http://dx.doi.org/10.31258/ijeepse.5.3.93-98.

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This paper investigates PWM method for the dual-inverter fed open end winding three-phase induction motor drives. This is aimed to improve the quality of the output voltage as well as to enhance the motor performance by solving the drawback of the PWM method. The proposed PWM method operates two inverters in different technique, i.e one inverter operates in square wave mode (slow switching) and one inverter in PWM mode (fast switching). Although the PWM method can improve the quality of the inverter output voltage over the two-level inverter output, the proposed PWM method causes an excessive ripple in both torque and stator current especially at the transient period. The drawback is solved by applying a new switching strategy that manage the inverter switches operate in turn between slow switching and fast switching in one circle of operation. The proposed method is verified via simulation. The result shows that the quality of output voltages improves for all modulation indices in comparison with two-level inverter. Furthermore, torque ripple is reduced, and current ripple are improved as the current waveform is enhanced to be more symmetrical.
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Yanshu, Niu. "Single Phase Sine Wave PWM Inverter Circuit Simulation And The Design Of Filter Based On Matlab." MATEC Web of Conferences 232 (2018): 04030. http://dx.doi.org/10.1051/matecconf/201823204030.

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Inverter circuit is the most important application of PWM control technology. This paper mainly discusses the unipolar PWM ( pulse width modulation ) control mode of single-phase bridge inverter circuit, and uses MATLAB visual simulation tool Simulink to model the circuit. At the same time, a filter is designed to filter the waveform of the inverted output so that the output waveform can reach a smooth sine wave shape. This simulation not only deepens the understanding of PWM inverter circuit theory, but also lay a good experimental foundation for the study of modern power electronics.
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Dissertations / Theses on the topic "PWM Inverter"

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Krogemann, Markus. "The parallel resonant DC link inverter : a soft-switching inverter topology with PWM capability." Thesis, University of Nottingham, 1997. http://eprints.nottingham.ac.uk/13526/.

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Soft-switching inverters have over the last decade received a lot of attention by researchers owing to the reduction or virtual elimination of switching losses that these circuits can achieve. Possible improvements in EMC performance due to the reduced levels of dv/dt have among other advantages triggered the development of a still growing number of zero-voltage or zero-current switching inverter circuits. More recently, the trend seems to have shifted from continuously resonant systems over to quasi-resonant topologies due to advantages in terms of device stresses and PWM compatibility. In this work, continuously resonant as well as quasi-resonant techniques are reviewed. A quasi-resonant circuit will be implemented in a three-phase PWM inverter system controlled by a network of transputers. It will be examined to which degree the working principle of this Parallel Resonant DC Link (PRDCL) inverter affects the PWM compatibility and a suitable PWM strategy will be presented and implemented. The modified PWM technique shows output quality comparable to standard PWM methods while being fully compatible with the operation of the resonant link. The conversion efficiency and EMC performance of a PWM inverter drive based on the PRDCL circuit will be measured and compared to its hard-switched equivalent. It will be shown that improvements over hard-switching inverters are possible. However, the investigation of the PRDCL PWM inverter also reveals a number of drawbacks which limit the achievable switching frequency and adversely affect the conversion efficiency. Despite the many previous publications these problems have generally been overlooked in the past.
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2

勞偉籌 and Wai-chau Lo. "A PWM inverter drive and control for electric vehicles." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 1986. http://hub.hku.hk/bib/B31207376.

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Lo, Wai-chau. "A PWM inverter drive and control for electric vehicles /." [Hong Kong : University of Hong Kong], 1986. http://sunzi.lib.hku.hk/hkuto/record.jsp?B1232243X.

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McCarty, Michael James. "Determining the Optimum Operating Parameters of a Unipolar PWM Inverter." DigitalCommons@CalPoly, 2010. https://digitalcommons.calpoly.edu/theses/287.

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This study presents a determination of the optimum operating parameters of a unipolar PWM inverter through theoretical and experimental analysis. The inverter is investigated in its simplest form without input DC-DC conversion or output filtering. The intent of this study is to understand the core of the inverter thoroughly before adding peripheral elements such as output filtering. Variations on the input voltage level and switching frequency were investigated to determine their impacts on the operation of the inverter and harmonics produced. Theoretical modeling and calculations confirmed by experimental measurements and analysis allow determination of the inverter operating conditions which allow highest converter efficiency with lowest distortion. Results suggest highest efficiency and lowest harmonic distortion is achieved at the lowest input voltage (just above the peak of the desired fundamental component) and lowest switching frequency independent of output power.
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Venugopal, S. "Study On Overmodulation Methods For PWM Inverter Fed AC Drives." Thesis, Indian Institute of Science, 2006. https://etd.iisc.ac.in/handle/2005/278.

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A voltage source inverter is commonly used to supply a variable frequency variable voltage to a three phase induction motor in a variable speed application. A suitable pulse width modulation (PWM) technique is employed to obtain the required output voltage in the line side of the inverter. Real-time methods for PWM generation can be broadly classified into triangle comparison based PWM (TCPWM) and space vector based PWM (SVPWM). In TCPWM methods such as sine-triangle PWM, three phase reference modulating signals are compared against a common triangular carrier to generate the PWM signals for the three phases. In SVPWM methods, a revolving reference voltage vector is provided as voltage reference instead of three phase modulating waves. The magnitude and frequency of the fundamental component in the line side are controlled by the magnitude and frequency, respectively, of the reference vector. The fundamental line side voltage is proportional to the reference magnitude during linear modulation. With sine-triangle PWM, the highest possible peak phase fundamental voltage is 0.5Vdc, where Vdc is the DC bus voltage, in the linear modulation zone. With techniques such as third harmonic injection PWM and space vector based PWM, the peak phase fundamental voltage can be as high as (formula) (i.e., 0:577Vdc)during linear modulation. To increase the line side voltage further, the operation of the VSI must be extended into the overmodulation region. The overmodulation region extends upto the six-step mode, which gives the highest possible ac voltage for a given (formula). In TCPWM based methods, increasing the reference magnitude beyond a certain level leads to pulse dropping, and gradually leads to six-step operation. However, in SVPWM methods, an overmodulation algorithm is required for controlling the line-side voltage during overmodulation and to achieve a smooth transition from PWM to six-step mode. Numerous overmodulation algorithms have been proposed in the literature for space vector modulated inverter. A well known algorithm among these divides the overmodulation zone into two zones, namely zone-I and zone-II. This is termed as the 'existing overmodulation algorithm' here. This algorithm is modified in the present work to reduce computational burden without much increase in the line current distortion. During overmodulation, the fundamental line side voltage and the reference magnitude are not proportional, which is undesirable from the control point of view. The present work ensures a linear relationship between the two. Apart from the fundamental component, the inverter output voltage mainly consists of harmonic components at high frequencies (around switching frequency and the integral multiples) during linear modulation. However, during overmodulation, low order harmonic components such as 5th, 7th, 11th, 13th etc., are also present in the output voltage. These low order harmonic voltages lead to low order harmonic currents in the motor. The sum of the lower order harmonic currents is termed as 'lower order current ripple'. The present thesis proposes a method for estimation of lower order current ripple in real-time. In closed loop current control, the motor current is fed back to the current controller. During overmodulation, the motor current contains low order harmonics, which appear in the current error fed to the controller. These harmonic currents are amplified by the current error amplifier deteriorating the performance of the drive. It is possible to filter the lower order harmonic currents before being fed back. However, filtering introduces delay in the current loop, and reduces the bandwidth even during linear modulation. In the present work, the estimated lower order current ripple is subtracted from the measured current before the latter is fed back to the controller. The estimation of lower order current ripple and the proposed current control are verified through simulation using MATLAB/SIMULINK and also experimentally on a laboratory prototype. The experimental setup comprises of a field programmable gate arrays (FPGA) based digital controller, an IGBT based inverter and a four-pole squirrel cage induction motor. (Pl refer the original document for formula)
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Venugopal, S. "Study On Overmodulation Methods For PWM Inverter Fed AC Drives." Thesis, Indian Institute of Science, 2006. http://hdl.handle.net/2005/278.

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A voltage source inverter is commonly used to supply a variable frequency variable voltage to a three phase induction motor in a variable speed application. A suitable pulse width modulation (PWM) technique is employed to obtain the required output voltage in the line side of the inverter. Real-time methods for PWM generation can be broadly classified into triangle comparison based PWM (TCPWM) and space vector based PWM (SVPWM). In TCPWM methods such as sine-triangle PWM, three phase reference modulating signals are compared against a common triangular carrier to generate the PWM signals for the three phases. In SVPWM methods, a revolving reference voltage vector is provided as voltage reference instead of three phase modulating waves. The magnitude and frequency of the fundamental component in the line side are controlled by the magnitude and frequency, respectively, of the reference vector. The fundamental line side voltage is proportional to the reference magnitude during linear modulation. With sine-triangle PWM, the highest possible peak phase fundamental voltage is 0.5Vdc, where Vdc is the DC bus voltage, in the linear modulation zone. With techniques such as third harmonic injection PWM and space vector based PWM, the peak phase fundamental voltage can be as high as (formula) (i.e., 0:577Vdc)during linear modulation. To increase the line side voltage further, the operation of the VSI must be extended into the overmodulation region. The overmodulation region extends upto the six-step mode, which gives the highest possible ac voltage for a given (formula). In TCPWM based methods, increasing the reference magnitude beyond a certain level leads to pulse dropping, and gradually leads to six-step operation. However, in SVPWM methods, an overmodulation algorithm is required for controlling the line-side voltage during overmodulation and to achieve a smooth transition from PWM to six-step mode. Numerous overmodulation algorithms have been proposed in the literature for space vector modulated inverter. A well known algorithm among these divides the overmodulation zone into two zones, namely zone-I and zone-II. This is termed as the 'existing overmodulation algorithm' here. This algorithm is modified in the present work to reduce computational burden without much increase in the line current distortion. During overmodulation, the fundamental line side voltage and the reference magnitude are not proportional, which is undesirable from the control point of view. The present work ensures a linear relationship between the two. Apart from the fundamental component, the inverter output voltage mainly consists of harmonic components at high frequencies (around switching frequency and the integral multiples) during linear modulation. However, during overmodulation, low order harmonic components such as 5th, 7th, 11th, 13th etc., are also present in the output voltage. These low order harmonic voltages lead to low order harmonic currents in the motor. The sum of the lower order harmonic currents is termed as 'lower order current ripple'. The present thesis proposes a method for estimation of lower order current ripple in real-time. In closed loop current control, the motor current is fed back to the current controller. During overmodulation, the motor current contains low order harmonics, which appear in the current error fed to the controller. These harmonic currents are amplified by the current error amplifier deteriorating the performance of the drive. It is possible to filter the lower order harmonic currents before being fed back. However, filtering introduces delay in the current loop, and reduces the bandwidth even during linear modulation. In the present work, the estimated lower order current ripple is subtracted from the measured current before the latter is fed back to the controller. The estimation of lower order current ripple and the proposed current control are verified through simulation using MATLAB/SIMULINK and also experimentally on a laboratory prototype. The experimental setup comprises of a field programmable gate arrays (FPGA) based digital controller, an IGBT based inverter and a four-pole squirrel cage induction motor. (Pl refer the original document for formula)
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7

Bisulli, Lorenzo. "Progetto e analisi di tecniche di modulazione pwm per inverter trifase." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2020. http://amslaurea.unibo.it/21387/.

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Lo scopo della tesi era quello di analizzare vari parametri delle principali modulazioni PWM per inverter trifase in modo da distinguere quali fossero le più efficienti o le più affidabili. A tale scopo, è stata dapprima effettuata una panoramica dell’inverter trifase e delle relative modulazioni. Sono stati quindi scritti vari codici in Matlab per simulare le diverse tecniche di modulazione. Le modulazioni presentate in questo testo (con i rispettivi codici) sono: Sinusoidal PWM, THIPWM, SVPWM, DSVPWM (0,1,2,3,+,-), ASDSVPWM, Six-step (implementata solo per effettuare un confronto). Al termine della creazione dei vari codici, le modulazioni sono state studiate attraverso uno schema di inverter trifase implementato su Simulink. Il circuito, oltre a permettere la visualizzazione delle varie tensioni e correnti in uscita, ha consentito di studiare varie figure di merito utili per l’obbiettivo. Le figure di merito studiate sono state: THD, ripple di corrente, tensione di modo comune, numero di switching e rendimento di conversione. I risultati ottenuti hanno permesso di capire che le modulazioni meno efficienti sono la six-step (basso rendimento di conversione e THD troppo elevato) e la ASDSVPWM (distorsione troppo elevata nonostante i buoni parametri in potenza e ripple). Al contrario le modulazioni più efficienti sono la DSVPWM0 e la DSVPWM2 grazie alla loro bassa distorsione armonica e ai buoni parametri ottenuti nelle altre figure di merito. Tutte le altre modulazioni in termini di efficienza sono inferiori alle ultime due.
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8

Yatim, Abdul Halim bin Mohamed. "A microprocessor controlled three-phase insulated gate transistor PWM inverter drive." Thesis, University of Bradford, 1989. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.292639.

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Patkar, Fazlli. "PWM techniques for control of dual-inverter supplied six-phase drives." Thesis, Liverpool John Moores University, 2013. http://researchonline.ljmu.ac.uk/4463/.

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Among the different multiphase ac drive solutions, one of the most widely reported in the literature is the six-phase machine. The machines can be realised into two different configurations, symmetrical and asymmetrical. For the symmetrical configuration, the stator winding consists of two sets of three-phase windings that are spatially shifted by 60 degrees where spatial displacement between any two consecutive phases is the same and equal to 60 degrees. For the asymmetrical configuration, the two sets of three-phase windings are spatially shifted by 30 degrees. As a result, the spatial shift between consecutive phases becomes non-equidistant. In this thesis, modulation techniques for both symmetrical and asymmetrical six-phase machines are investigated. The machines are configured in open-end winding configuration where both ends of the stator winding are connected to separate isolated inverters in a topology known as dual-inverter supply. Compared to conventional single-sided supply topology where one end of the winding is connected to an inverter while the other side is star-connected, some additional benefits are offered by the dual-inverter supply topology. First, fault tolerance of the drive is improved, since the supply is realised with two independent inverters. In case one of the inverters is faulted, the other can continue to provide power to the machine. Second, the same phase voltages can be achieved with half the dc-link voltages on the two inverter inputs compared to the single-sided supply, which can be useful in applications such as electric and hybrid electric vehicles and medium sized ships, where the dc voltage levels are limited. Further, due to the nature of the topology, additional diodes and capacitors like in the Neutral Point Clamped (NPC) and Flying Capacitor (FC) VSIs are not required. The latter results in a further advantage - capacitor voltage balancing techniques are not required. Two pulse width modulation (PWM) techniques for control of the dual-inverter supplied six-phase drives are proposed in this thesis. The first is a reference sharing algorithm where the inverters are modulated using reference voltage that is shared equally and unequally between the two modulators. For both symmetrical and asymmetrical six-phase drives, a better performance, in term of total harmonic distortion (THD) of phase voltage is obtained when the reference is shared unequally between the two modulators. The second technique is carrier-based modulation where the modulation of the two inverters is determined by the disposition of the carrier signals. Three variations of carrier signals disposition are investigated namely; the phase disposition (PD-PWM), alternate phase opposition disposition (APOD-PWM) and phase-shifted PWM (PS-PWM). For the symmetrical six-phase drive, the best phase voltage and current THDs are obtained using APOD-PWM while for asymmetrical six-phase drive, the APOD-PWM produces the worst current THD despite having the best voltage THD among the three methods. All the developed modulation techniques are analysed using simulations and experiments undertaken using a laboratory prototypes. The waveforms and spectra of phase voltage and load current obtained from the simulation and experimental works are presented in this thesis together with the THD of both the voltage and current over entire linear modulation range.
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Ad'doweesh, K. E. "A microprocessor based PWM inverter drive incorporating a three-phase induction motor." Thesis, University of Bradford, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.371459.

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Books on the topic "PWM Inverter"

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M, Nelms R., Shepherd Michael T, and United States. National Aeronautics and Space Administration., eds. Design of a ZVS PWM inverter for a brushless DC motor in an EMA application. [Washington, DC: National Aeronautics and Space Administration, 1993.

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Naeem, Muhammad. Microprocessor based phree-phase PWM inverter. Bradford, 1988.

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Siddiqui, Ahmed Nadeem. Microprocessor based three-phase PWM inverter. Bradford, 1987.

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Al-Ghubari, Fahad H. Voltage analysis of PWM inverter fed induction motors. 1999.

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Issa, R. H. An investigation of efficient control strategies for a PWM inverter driven induction motor. 1987.

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Implementation of She PWM Based Cascaded H-Bridge Multilevel Inverter Using Newton Raphson Method. Kanyakumari, India: ASDF International, 2017.

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Ad'Doweesh, Khaled E. A microprocessor based PWM inverter drive incorporating a three-phase induction motor: A power transistor inverter drive is designed in which the firing logic utilises a Motorola 68000 microprocessor system to construct regular sampled, pulse width modulated voltage wave forms. Bradford, 1986.

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Khan, Muhammad Zafar Ullah. Microprocessor controlled PWM inverters for UPS applications. 1989.

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Zhang, Haoran. Investigation and mitigation of the adverse effects of PWM adjustable speed drives. 1998.

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Distributed Control for Paralleled PWM Inverters in the DC Zonal Distribution System. Storming Media, 1999.

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Book chapters on the topic "PWM Inverter"

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Shen, Shuiwen, and Qiong-zhong Chen. "Inverter PWM Control." In Lecture Notes in Electrical Engineering, 289–318. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-38161-4_9.

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Esquivel, Jesús A., J. Aarón Rios, Pedro Galván, and Isela Carrera. "Fault Detection for Sinusoidal PWM Inverter." In Advances in Automation and Robotics Research in Latin America, 204–15. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-54377-2_17.

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Fujisaki, Keisuke. "Magnetic Property and Measurement Excited by PWM Inverter." In Magnetic Material for Motor Drive Systems, 85–104. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-32-9906-1_7.

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Bharti, Hempushpa, and B. M. Prasad. "A Review Article on PWM Inverter and Z-Source Inverter for Induction Motor." In Advances in Smart Grid Automation and Industry 4.0, 187–97. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-7675-1_18.

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Firdous, Ayesha, Mohammed Imran, and Mahboob Shaik. "Analysis of Three Phase Inverter Using Different PWM Techniques." In Advances in Power Systems and Energy Management, 519–30. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4394-9_51.

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Fernández, E., S. Zeas, and D. Rojas. "PWM Methods in SiC-Current Source Inverter in Motor Drives." In Communication, Smart Technologies and Innovation for Society, 333–44. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-4126-8_31.

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Muthuselvi, M., and K. Antony Samson. "Design and Analysis of PEM Fuel Cell with Multilevel Inverter Using Multicarrier PWM Techniques." In Advances in Intelligent Systems and Computing, 1239–52. New Delhi: Springer India, 2016. http://dx.doi.org/10.1007/978-81-322-2656-7_113.

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Tao, Haijun, Ben Xu, and Xiumei Xue. "Study of Restraining DC-Bus Voltage Fluctuation in Dual-PWM Inverter." In Electrical, Information Engineering and Mechatronics 2011, 305–11. London: Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-2467-2_35.

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Tripathi, Shashi Shekhar, Manoj Kumar Kar, and Arun Kumar Singh. "Comparative THD Analysis of Multilevel Inverter Using Different Multicarrier PWM Schemes." In Recent Advances in Power Electronics and Drives, 69–79. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-9239-0_6.

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Muhammed Alaudeen Ashiq, M., and L. Jessi Sahaya Shanthi. "Simulation of Electric Vehicle Driven by PWM Inverter Fed Induction Machine." In Advances in Automation, Signal Processing, Instrumentation, and Control, 2639–48. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-8221-9_246.

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Conference papers on the topic "PWM Inverter"

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Wang, Bo-Han, Ruei-Yu Huang, and An-Chen Lee. "Harmonic elimination for PWM inverter." In 2017 International Conference on Consumer Electronics and Devices (ICCED). IEEE, 2017. http://dx.doi.org/10.1109/icced.2017.8019982.

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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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Govinthasamy, N. R., R. Arungopal, S. Haridharan, K. Prabakaran, and T. Rajashekar. "Space vector PWM based inverter." In 2017 International Conference on Innovations in Green Energy and Healthcare Technologies (IGEHT). IEEE, 2017. http://dx.doi.org/10.1109/igeht.2017.8094087.

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Dos Santos, Rafael, and Flávio A. S. Gonçalves. "Sinusoidal PWM techniques comparison for the Quasi-Y-Source Inverter." In Simpósio Brasileiro de Sistemas Elétricos - SBSE2020. sbabra, 2020. http://dx.doi.org/10.48011/sbse.v1i1.2316.

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Abstract:
Impedance networks inverters (INI) have emerged as an alternative to improve traditional inverters, allowing their operation as a buck-boost type converter, through the utilization of the "shoot-through" conduction state, where switches of one or more inverter legs are gated on simultaneously. Recently introduced, the Quasi-Y-Source inverter (QYSI) is a magnetic coupled INI that has particular performance advantages, specially for renewable sources and distributed generation. To control the QYSI there is several techniques based on Sinusoidal Pulse Width Modulation (SPWM), that are modified to allow the shootthrough state. This work aims to present, through computational simulations, a comparative analysis of three SPWM techniques applied in three-phase QYSI, considering a fixed boost factor and a three-phase/three-wire RL load connected to the inverter output. The following modulation techniques were compared: Simple Boost Control (SBC), Maximum Boost Control with third harmonic injection (MBC3h) and Maximum Constant Boost Control with third harmonic injection (MCBC3h). Simulation results show operation characteristics of the QYSI for the different modulation techniques. A Fourier analysis was performed in order to evaluate harmonic distortion and harmonic spectrum for both inverter output voltage and current, and a comparative analysis was performed showing several relationships among voltage gain, switch voltage stress, shoot-through duty ratio and modulation index for the different SPWM techniques. Simulation results shows the advantages and disadvantages of each SPWM technique applied to QYSI and the impact of the coupled inductor on inverter performance, helping to establish proper criteria for choosing among SPWM techniques for different power systems applications.
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Barreto, Eduardo Maldaun, Marcello Mezaroba, and Denis Silva Oliveira. "Single phase ZVS PWM NPC inverter." In 2011 Brazilian Power Electronics Conference (COBEP 2011). IEEE, 2011. http://dx.doi.org/10.1109/cobep.2011.6085255.

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Taniguchi, Katsunori, Kiyoshi Ohishi, and Yasumasa Ogino. "PAM-PWM Inverter Using Power MOSFETs For AC Motor Drives." In Robotics and IECON '87 Conferences, edited by Martin F. Schlecht. SPIE, 1987. http://dx.doi.org/10.1117/12.942983.

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Lopatkin, Nikolay, Gennady Zinoviev, and Sergey Kharitonov. "Inverter Asynchronous Electric Drive System with PAM and PWM Control." In 2022 International Ural Conference on Electrical Power Engineering (UralCon). IEEE, 2022. http://dx.doi.org/10.1109/uralcon54942.2022.9906743.

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Islam, Md Khurshedul, Md Mustafa Zaved, Air Mohammad Siddiky, and Khandakar Abdulla Al Mamun. "A comparative analysis among PWM control Z-Source Inverter with conventional PWM Inverter for induction motor drive." In 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET). IEEE, 2016. http://dx.doi.org/10.1109/iciset.2016.7856496.

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Leebanon, T. RajaSundra Pandiyan, and R. Ashok. "Solar PWM inverter using artifical neural network." In 2013 7th International Conference on Intelligent Systems and Control (ISCO). IEEE, 2013. http://dx.doi.org/10.1109/isco.2013.6481131.

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Karthik K, Narsimharaju B. L, and Srinivasa Rao S. "Five-level inverter using POD PWM technique." In 2015 International Conference on Electrical, Electronics, Signals, Communication and Optimization (EESCO). IEEE, 2015. http://dx.doi.org/10.1109/eesco.2015.7254048.

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