Showing total 32 results

1. An Improved Model Predictive Control Strategy to Reduce Common-Mode Voltage for Two-Level Voltage Source Inverters Considering Dead-Time Effects.

Author

Guo, Leilei, Jin, Nan, Gan, Chun, Xu, Lie, and Wang, Qunjing

Subjects

*PREDICTIVE control systems, *ELECTRIC potential, *ELECTRIC inverters, *VOLTAGE control, *ELECTRIC currents

Abstract

To reduce the common-mode voltage (CMV) and eliminate the CMV spikes for two-level voltage source inverters (2L-VSIs), an improved model predictive control (MPC) based CMV reduction method is proposed in this paper considering dead-time effects. First, an improved voltage vector (VV) preselection strategy is proposed to reduce the CMV spikes caused by the dead time. Second, a new hybrid VV preselection strategy based on a delay compensation strategy and a modified current sector division strategy is proposed to completely eliminate the CMV spikes. As the proposed hybrid VV preselection based MPC strategy makes full use of the six nonzero VVs of the 2L-VSI, the current total harmonic distortions and ripples are reduced. The simulation and experiments are carried out to verify the effectiveness of the proposed strategy. [ABSTRACT FROM AUTHOR]

Published

2019

2. Three-Level Quasi-Switched Boost T-Type Inverter: Analysis, PWM Control, and Verification.

Author

Do, Duc-Tri and Nguyen, Minh-Khai

Subjects

*ELECTRIC inverters, *PULSE width modulation, *ELECTRIC inductors, *CAPACITORS, *VOLTAGE control

Abstract

In this paper, a three-level quasi-switched boost T-type inverter (3L qSBT2I) is proposed. A new pulse-width modulated (PWM) control method is presented to reduce the inductor current ripple of the qSBT2 I. In the introduced PWM technique, the shoot-through duty cycle is maintained constant to keep the modulation index as high as possible. Then, the only control parameters of the qSBT2I are the duty cycles of the two additional switches. By controlling the duty cycles of the two additional switches, the voltage gain of the proposed qSBT2 I can be improved to a value larger than that of the conventional 3L impedance source inverters. The steady-state analysis, operating principles, and comparisons with the impedance source-based 3L inverters are presented. A 1-kW prototype is constructed to verify the operating principle of the 3L qSBT2I. An indirect dc-link voltage regulator and a capacitor voltage-balance controller are applied to the proposed qSBT2I. Simulation and experimental results are presented. [ABSTRACT FROM AUTHOR]

Published

2018

3. Novel Discontinuous PWM Method of a Three-Level Inverter for Neutral-Point Voltage Ripple Reduction.

Author

Lee, June-Seok, Yoo, Seungjong, and Lee, Kyo-Beum

Subjects

*PULSE width modulation transformers, *ELECTRIC inverters, *VOLTAGE regulators, *ELECTRIC waves, *ELECTRIC potential

Abstract

A new pulsewidth modulation (PWM) strategy which is an alternative approach of the discontinuous PWM (DPWM) for a three-level neutral-point-clamped (NPC) inverter is proposed in this paper. A three-level NPC inverter is completely mature and very well-established topology in high-power applications. However, the three-level NPC inverter has an inheritance problem of the neutral-point voltage unbalancing due to the split dc-link capacitors. This structure can cause large neutral-point voltage ripple. Furthermore, output currents of the three-level NPC inverter are distorted by the neutral-point voltage ripple. Therefore, the neutral-point voltage must be controlled. In this paper, a new DPWM method using two different offsets for the neutral-point ripple reduction is proposed and the effectiveness of the proposed DPWM method is verified by using the simulation and the experimental results. [ABSTRACT FROM PUBLISHER]

Published

2016

4. Bearing Currents and Shaft Voltage Reduction in Dual-Inverter-Fed Open-End Winding Induction Motor With Reduced CMV PWM Methods.

Author

Kalaiselvi, J. and Srinivas, S.

Subjects

*PULSE width modulation, *INDUCTION motors, *ELECTRIC inverters, *ELECTRIC discharge research, *VOLTAGE control

Abstract

Exploiting the rich switching redundancies of the dual inverter, new hybrid pulsewidth-modulation (PWM) switching methods are proposed in this paper using the degree of freedom of operating the individual inverters independently, in addition to exercising the degree of freedom of controlling the switching action of the individual legs independently. Two voltage entities, namely, common-mode voltage (CMV) and differential-mode voltage are identified in the dual inverter, and all hybrid PWMs are envisaged aimed at reducing and also eliminating the CMV in it. The effects of such attempts on motor shaft voltage and also the motor bearing currents are presented in detail. Furthermore, bearing current profiles of an open-end winding induction motor are also presented with both conventional and hybrid PWMs proposed in this paper. Electric discharge machining discharge currents are completely eliminated with the use of all hybrid PWM methods proposed in this paper. In addition, implications of completely eliminating the CMV are also presented in this paper. All hybrid PWMs proposed in this paper are first simulated using MATLAB and are experimentally verified on a dual two-level inverter feeding a 1.1-kW 415-V 3- $\phi$ open-end winding induction motor drive. [ABSTRACT FROM PUBLISHER]

Published

2015

5. A Comparative Study of Synchronous Current Control Schemes Based on FCS-MPC and PI-PWM for a Two-Motor Three-Phase Drive.

Author

Lim, Chee-Shen, Levi, Emil, Jones, Martin, Rahim, Nasrudin Abd., and Hew, Wooi-Ping

Subjects

*MOTOR drives (Electric motors), *ELECTRIC inverters, *PULSE width modulation, *VOLTAGE control, *ELECTRONIC control, *PREDICTIVE control systems, *VECTOR control

Abstract

A two-motor drive, supplied by a five-leg inverter, is considered in this paper. The independent control of machines with full dc-bus voltage utilization is typically achieved using an existing pulsewidth modulation (PWM) technique in conjunction with field-oriented control, based on PI current control. However, model predictive control (MPC), based on a finite number of control inputs [finite-control-set MPC (FCS-MPC)], does not utilize a pulsewidth modulator. This paper introduces three FCS-MPC schemes for synchronous current control in this drive system. The first scheme uses all of the available switching states. The second and third schemes are aimed at reducing the computational burden and utilize a reduced set of voltage vectors and a duty ratio partitioning principle, respectively. Steady-state and transient performances are analyzed and compared both against each other and with respect to the field-oriented control based on PI controllers and PWM. All analyses are experimental and use the same experimental rig and test conditions. Comparison of the predictive schemes leads to the conclusion that the first two schemes have the fastest transient response. The third scheme has a much smaller current ripple while achieving perfect control decoupling between the machines and is of low computational complexity. Nevertheless, at approximately the same switching loss, the PI-PWM control yields the lowest current ripple but with slower electrical transient response. [ABSTRACT FROM PUBLISHER]

Published

2014

6. Disturbance-Rejection-Based Model Predictive Control: Flexible-Mode Design With a Modulator for Three-Phase Inverters.

Author

Nguyen, Hoach The and Jung, Jin-Woo

Subjects

*ELECTRIC inverters, *AUTOMATIC control systems, *PREDICTIVE control systems, *PULSE width modulation, *NUMERICAL analysis

Abstract

This paper aims to investigate a disturbance-rejection-based model predictive control (MPC) with two flexible modes (i.e., unconstrained mode and constrained mode) for three-phase inverters with an $LC$ filter. A disturbance observer (DOB) is designed to both simplify the prediction model and achieve the robustness against uncertain parameters. First, the unconstrained mode is designed with a simple horizon-one MPC control law to precisely regulate the output voltage in the steady state. Next, the constrained mode is designed with long-horizon MPC to quickly drive the system to the unconstrained mode by further optimizing the modulation stage. Also, the proposed MPC ensures the robustness and optimality in all operating modes. Especially, the overall closed-loop stability with DOB dynamics is proven by using Lyapunov function. Unlike other MPC methods, the long-horizon MPC in the constrained mode is specialized by finite switching sequences of the sector-based space vector modulation. Comparative studies with the conventional linear quadratic regulator are conducted on a prototype test bed with a TI TMS320F28335 DSP. Then, the proposed MPC method verifies fast dynamic response and advanced voltage regulation (i.e., small steady-state errors and low total harmonic distortion) under various load conditions and uncertain parameters. [ABSTRACT FROM AUTHOR]

Published

2018

7. Multicarrier-Based PWM Strategies With Complete Voltage Balance Control for NNPC Inverters.

Author

Tan, Longcheng, Wu, Bin, Narimani, Mehdi, Xu, Dewei, and Joos, Geza

Subjects

*ELECTRIC inverters, *ELECTRIC circuits, *CAPACITORS, *NUMERICAL analysis, *MATHEMATICAL analysis

Abstract

Compared with multilevel space vector modulation, level-shifted multicarrier sinusoidal pulsewidth modulation (SPWM) for nested neutral point-clamped (NNPC) inverters requires much less calculations and implementation efforts, but the existing conventional SPWM cannot suppress the severe flying-capacitor (FC) voltage ripples under low output-frequency conditions. In order to solve this problem, a multicarrier-based PWM strategy with complete voltage balance control (VBC) capacity is proposed in this paper. For NNPC inverters operating under low output-frequency conditions, two preprocessing steps, the zero-sequence injection and the modulation-signal rearrangement, are proposed before the comparisons between level-shifted carriers and modulating signals. These preprocessing steps make the average currents flowing through FCs zero, which is beneficial to greatly reduce the FC voltage ripples under low output-frequency conditions. Together with additional VBC, the proposed modulation can assure the FC voltages balanced under the entire output-frequency conditions. Principles and implementation processes of proposed modulation techniques and VBC methodsare elaborated in detail and compared with conventional modulation methods. Both simulation results from a 5-MVA system and experimental results based on a 5-kVA platform are presented to verify the effectiveness. [ABSTRACT FROM AUTHOR]

Published

2018

8. Adjustable Proportional Hybrid SVPWM Strategy for Neutral-Point-Clamped Three-Level Inverters.

Author

Xia, Changliang, Shao, Hongjun, Zhang, Yun, and He, Xiangning

Subjects

*CONVERTERS (Electronics), *PULSE width modulation, *ELECTRIC inverters, *ELECTRIC potential, *ELECTRONICS

Abstract

Neutral-point (NP)-clamped three-level inverter, which is a widely used topology of multilevel converters, suffers from the NP voltage drift as its main technical drawback. The nearest-three-virtual-vector (\NTV^2) modulation method can control the NP voltage balance for any load over the full range of inverter output voltage. However, compared with the nearest-three-vector (NTV) modulation method, \NTV^2 increases the switching frequency. This paper combines \NTV^2 with NTV, and the two methods are used alternately in a fundamental cycle. The duty-cycle coefficients of the redundant small vectors are analyzed to explore the intervals where NTV can control the NP voltage balance in a fundamental cycle. The proportional parameter, which represents the combination of the two methods in hybrid space vector pulsewidth modulation, can be selected to achieve a high-performance NP balance control and low switching frequency. The steady- and transient-state behaviors of the proposed strategy are analyzed in this paper. The experimental results verify the validity of the proposed strategy. [ABSTRACT FROM PUBLISHER]

Published

2013

9. Novel High-Efficiency Three-Level Stacked-Neutral-Point-Clamped Grid-Tied Inverter.

Author

Wang, Yong and Li, Rui

Subjects

*DIODES, *HYBRID power systems, *ELECTRIC inverters, *ELECTRIC current converters, *DIRECT currents

Abstract

In recent years, high photovoltaic array voltage up to 1000 V and transformerless grid-tied inverter have been increasingly researched and applied to elevate the inverter and the dc power collection efficiency. With the same reasons, a three-level neutral point clamped (3L-NPC) inverter featuring low power device voltage stress and low leakage current becomes increasingly attractive. In this paper, the operation and the features of a novel grid-tied 3L-NPC are presented. The proposed topology is a derivative of the three-level stacked neutral point clamped (3L-SNPC) structure. However, compared with the conventional 3L-SNPC and its pulse width modulation (PWM) strategy, the new topology with novel PWM strategy features completely inactive intrinsic body diodes. Furthermore, only two outer power devices are working with switching frequency, while the other four Insulated Gate Bipolar Transistors (IGBTs) are actually with the grid frequency. Therefore, the relatively high switching frequency is selected to reduce the inverter output filter inductance. A hybrid CoolMosfet and IGBT power module configuration is also proposed based on the new PWM strategy. The calculation shows that the total power device losses are reduced. The experimental results are illustrated in this paper to confirm the operation of the proposed topology and controller. [ABSTRACT FROM PUBLISHER]

Published

2013

10. An Immune-Algorithm-Based Space-Vector PWM Control Strategy in a Three-Phase Inverter.

Author

Yuan, Jiaxin, Pan, Jianbing, Fei, Wenli, Cai, Chao, Chen, Yaojun, and Chen, Baichao

Subjects

*ELECTRONIC modulation, *ALGORITHMS, *ELECTRIC inverters, *ELECTRICAL harmonics, *FIELD programmable gate arrays

Abstract

In this paper, an immune algorithm (IA) is developed for optimization of the harmonic performance of a three-phase inverter under the space-vector pulsewidth-modulation (SVPWM) control strategy. The presented algorithm employs the immune approach as the search method for finding the best optimal control vectors and action time of the three-phase inverter. As a result, the optimal control vectors and action time are calculated to minimize the objective function of the weighted total harmonic distortion of the output voltage waveforms. In addition, an experimental platform based on DSP and field-programmable gate array is built. This paper provides a detailed performance analysis of the method with comparison to the conventional SVPWM. The simulation and experimental results verify the superiority of the best control sequences generated by IA compared with the existing conventional control strategies. [ABSTRACT FROM PUBLISHER]

Published

2013

11. Discontinuous PWM Modulation Strategy With Circuit-Level Decoupling Concept of Three-Level Neutral-Point-Clamped (NPC) Inverter.

Author

Zhang, Zhe, Thomsen, Ole C., and Andersen, Michael A. E.

Subjects

*ELECTRONIC modulation, *ELECTRIC inverters, *ELECTRIC potential, *ELECTRICAL harmonics, *ELECTRIC currents

Abstract

A new pulse width modulation (PWM) strategy which is an alternative approach of the discontinuous PWM (DPWM) for a three-level neutral-point-clamped (NPC) inverter is developed and presented in this paper. The proposed PWM scheme not only takes advantage of the special properties available in NPC inverters, but also reduces the switching loss of the inverter along with an inherent neutral point (NP) voltage control. Based on a circuit-level decoupling concept, the NPC inverter can be decoupled into two three-level Buck converters in every defined operating section, and thereby the controller design can be simplified. The salient features of the proposed scheme, as compared with the existing carrier-based DPWM strategies, are: 1) its reduced computational processing time, 2) its capability to balance the dc-link voltage without any additional control, and 3) its reduced complexity, e.g., only one carrier wave needed for pulse width modulating. Same as a space-vector modulation, the maximum modulation index, 1.1547, can be attainable by the proposed scheme. Moreover, compared to conventional continuous sinusoidal PWM, using this technique proposed here, the switching losses of the devices can be reduced by one third. In order to explain the operation of this topology properly, the decoupling principle including the driving signal synthesis and the NP potential variation are analyzed in detail in this paper. Finally, the viability and performance of the proposed modulation scheme are shown through simulation and experimental results in a laboratory prototype. [ABSTRACT FROM PUBLISHER]

Published

2013

12. A Carrier-Based PWM Scheme for Neutral Point Voltage Balancing in Three-Level Inverter Extending to Full Power Factor Range.

Author

Giri, Santu Kr., Chakrabarti, Sibaprasad, Banerjee, Subrata, and Chakraborty, Chandan

Subjects

*PULSE width modulation, *ELECTRIC inverters, *ELECTRIC potential, *ELECTRIC power factor, *ELECTRIC currents, *OSCILLATIONS

Abstract

This paper proposes a unique carrier-based pulse width modulation strategy for a three-level neutral-point-clamped inverter that works satisfactorily and with uniform convergence time over the full power factor (PF) range of the load variation. It has excellent control over capacitor voltages and mitigates low-frequency oscillations in the neutral point for the full PF range. First, an investigation is made to see how the load currents get modulated to generate compensating neutral current causing charging and discharging of dc-link capacitors. It is observed that when an additional modulating voltage signal that is in phase with the corresponding phase current is added in each phase, a neutral current is produced in the right direction which can be used to compensate for any prior unbalance in capacitor voltages. It is demonstrated that the performance of this scheme is insensitive to the load PF variation (full range from zero to unity). It performs satisfactorily throughout the entire linear modulation range and eliminates any undesirable low-frequency harmonic component in the compensating neutral current. The effectiveness of the proposed scheme is verified through simulation and experimental results by varying load PF as well as modulation index with both passive and motor loads. [ABSTRACT FROM PUBLISHER]

Published

2017

13. Voltage THD Reduction for Dual-Inverter Fed Open-End Load With Isolated DC Sources.

Author

Kiadehi, Abbas Dehghani, Drissi, Khalil El Khamlichi, and Pasquier, Christophe

Subjects

*HARMONIC distortion (Physics), *ELECTRIC inverters, *IDEAL sources (Electric circuits), *ELECTRICAL load, *VOLTAGE doublers

Abstract

In this paper, the near-state pulse width modulation (NSPWM), adapted to be used in dual-voltage source inverter (VSI) fed open-end load, is introduced primarily aiming to appreciably minimize the voltage total harmonic distortion (THD). Within the framework of the proposed method, the active time of pulses at the second inverter is relatively adjusted within switching interval (compared to the first VSI). The phase voltage harmonics are formulated for dual-inverter modulated by NSPWM; then, optimal adjustment is identified via a three-dimensional curve of phase voltage THD versus modulation index (MI) and phase angle displacement (PAD). Due to the limitation of MI in NSPWM, the desired output voltage is synthesized with modifying not only MI but also PAD between references of two VSIs. Furthermore, NSPWM inherently takes advantage of better efficiency compared to conventional space vector modulation due to switching only two phases within an interval (by clamping one phase to positive/negative dc-rail). The dual-VSI supplied by two isolated dc sources is assembled in the laboratory to experimentally evaluate the THD reduction feature of the proposed method; also, the simulation results obtained by means of a MATLAB/Simulink environment show close agreement with experimental data. [ABSTRACT FROM PUBLISHER]

Published

2017

14. IZDPWM-Based Feedforward Controller for Grid-Connected Inverters Under Unbalanced and Distorted Conditions.

Author

Shayestehfard, Alireza, Mekhilef, Saad, and Mokhlis, Hazlie

Subjects

*ELECTRIC potential measurement, *POWER factor measurement, *HARMONIC analysis (Mathematics), *PULSE width modulation transformers, *LAPLACE distribution

Abstract

In grid-connected inverters, a feedforward controller accurately compensates for a large number of the harmonic components of the injected current. This controller is fast and directly tackles the grid dynamic voltage disturbances without doing any further harmonic analysis. A feedforward controller was introduced to a three-phase grid connection with a wye configuration; however, for the widespread delta connections, such a scheme is less established. Moreover, the nonsinusoidal profile of the grid voltage waveform makes the online conversion of line-to-line values into phase values impossible. In this paper, implicit zero-sequence discontinuous pulse width modulation (IZDPWM) based feedforward control is implemented on the two-level grid-connected inverter. Regardless of the grid topology, the IZDPWM-based controller ensures sinusoidal current injection to the grid under balanced, unbalanced, and distorted conditions. [ABSTRACT FROM PUBLISHER]

Published

2017

15. Dead-Time and Semiconductor Voltage Drop Compensation for Cascaded H-Bridge Converters.

Author

Mora, Andres, Juliet, Jorge, Santander, Alex, and Lezana, Pablo

Subjects

*ELECTRIC properties of semiconductors, *ELECTRIC potential, *CASCADE converters, *NONLINEAR theories, *VOLTAGE control

Abstract

Compensation of nonlinear effects generated by dead-time and semiconductors voltage drop has been widely studied in the literature about two-level converters. This paper takes a closer look at those analyses for multilevel converters, specifically for a cascaded H-bridge (CHB) converter modulated with phase-shifted pulse width modulation. The interaction between the cells is analyzed for a generic $n$ -cell converter, from which a general expression for the distortion generated by the nonlinearities has been obtained. Based on this expression, a compensation signal for the overall converter is calculated on each sample time, which is a fraction of the triangular carrier used to modulate each cell, thus significantly improving the quality of the output voltage signals. Experimental validation of the proposed compensation method is presented using a three-phase four-cell CHB converter prototype of 5.5 kW. [ABSTRACT FROM AUTHOR]

Published

2016

16. A Unified PWM Method for Matrix Converters and Its Carrier-Based Realization Using Dipolar Modulation Technique.

Author

Kiatsookkanatorn, Paiboon and Sangwongwanich, Somboon

Subjects

*PHASE modulation, *CASCADE converters, *DIPOLE moments, *ALGORITHMS, *MATHEMATICAL transformations, *ELECTRIC inverters, *SWITCHING circuits

Abstract

This paper proposes a unified PWM method for matrix converters so as to establish a common platform which can generate various types of PWM methods in real time by adjusting the free parameters in the modulation algorithm. As a foundation for unification, the general form of the modulation functions for matrix converters is derived using geometric transformation approach. All eligible direct modulation matrices are shown to be of indirect form and are expressed in terms of instantaneous phase quantities. This paper also presents a new viewpoint to consider a matrix converter as a generalized three-level inverter and to apply the double-carrier-based dipolar modulation technique of the three-level inverter to the matrix converter. Several concepts of the two-level PWM inverters are then generalized to the matrix converters for better visualization and understanding of the modulation process. [ABSTRACT FROM AUTHOR]

Published

2011

17. Space-Vector Pulsewidth Modulation for Three-Level NPC Converter With the Neutral Point Voltage Control.

Author

Lewicki, Arkadiusz, Krzeminski, Zbigniew, and Abu-Rub, Haitham

Subjects

*PULSE width modulation, *ELECTRIC switchgear, *ELECTRIC inverters, *ELECTRIC potential, *CAPACITORS, *TRANSISTORS, *DIRECT currents, *ELECTRIC current converters

Abstract

This paper proposes a new space-vector pulsewidth modulation (SV-PWM) strategy for a three-level neutral point clamped inverter. The presented SV-PWM strategy makes it possible to control the neutral point voltage by optimum choice of switch sequence for any position and length of output voltage vector. The proposed solution takes into consideration the unbalance of the dc-link voltages. It also analyzes the influence of vector sequences on the predicted unbalance of the dc-link voltage. The solution allows selecting optimum vectors and their on-time durations in order to reduce quickly the dc-link voltage unbalance. The calculation of the space vector area proposed in this paper takes into consideration voltage unbalance and its influence on the length and position of vectors. The proposed approach assures properly generating the voltage output vectors, even in the case of the existing large voltage unbalance in the dc-link. The results of the experimental investigation of the proposed modulation strategy are presented in this paper. [ABSTRACT FROM PUBLISHER]

Published

2011

18. Model-Predictive Control Scheme of Five-Leg AC–DC–AC Converter-Fed Induction Motor Drive.

Author

Zhou, Dehong, Zhao, Jin, and Li, Yunhua

Subjects

*AC DC transformers, *INDUCTION motors, *SEMICONDUCTORS, *ELECTRIC current rectifiers, *PULSE width modulation transformers

Abstract

AC–DC–AC converter-fed induction motor (IM) drive is mainly realized by back-to-back three-phase converters. However, fault in a single semiconductor switch will make it inoperative. To enable continued controllable operation in case of the faults occurring in the converter, the five-leg converter with a shared leg between the grid and load sides is a possible solution. However, this topology poses an inherent two-objective control problem, because its grid and load sides should be controlled simultaneously. More importantly, the potential increase of the shared-leg current may destroy the converters. In this paper, a new control scheme based on the FCS-MPC combined with intrinsic characteristic of the five-leg converter is proposed for independent control of the rectifier and inverter subsystem with the shared-leg overcurrent constraint. The condition for independent control is analyzed. In order to give a complete evaluation of the proposed control scheme, the conventional pulsewidth modulation (PWM) control scheme is conducted for comparison. Experimental results are provided to validate the effectiveness of the proposed scheme. [ABSTRACT FROM PUBLISHER]

Published

2016

19. The Essential Role and the Continuous Evolution of Modulation Techniques for Voltage-Source Inverters in the Past, Present, and Future Power Electronics.

Author

Leon, Jose I., Kouro, Samir, Franquelo, Leopoldo G., Rodriguez, Jose, and Wu, Bin

Subjects

*POWER electronics, *ELECTRIC network topology, *ELECTRIC inverters, *DC-to-DC converters, *PULSE width modulation

Abstract

The cost reduction of power-electronic devices, the increase in their reliability, efficiency, and power capability, and lower development times, together with more demanding application requirements, has driven the development of several new inverter topologies recently introduced in the industry, particularly medium-voltage converters. New more complex inverter topologies and new application fields come along with additional control challenges, such as voltage imbalances, power-quality issues, higher efficiency needs, and fault-tolerant operation, which necessarily requires the parallel development of modulation schemes. Therefore, recently, there have been significant advances in the field of modulation of dc/ac converters, which conceptually has been dominated during the last several decades almost exclusively by classic pulse-width modulation (PWM) methods. This paper aims to concentrate and discuss the latest developments on this exciting technology, to provide insight on where the state-of-the-art stands today, and analyze the trends and challenges driving its future. [ABSTRACT FROM PUBLISHER]

Published

2016

20. Carrier-Based PWM Methods With Common-Mode Voltage Reduction for Five-Phase Coupled Inductor Inverter.

Author

Tan, Cheng, Xiao, Dan, Fletcher, John Edward, and Rahman, Muhammed Fazlur

Subjects

*PULSE width modulation, *VOLTAGE control, *ELECTRIC inductors, *ELECTRIC inverters, *ELECTRICAL conductivity transitions

Abstract

Carrier-based pulsewidth-modulation (CBPWM) techniques are popular due to their simplicity, and have been widely researched for various three-phase inverter configurations. In this paper, two CBPWM techniques are proposed to reduce the common-mode (CM) voltage generated by the five-phase inverter. The five-phase inverters have more flexibility in reducing the CM voltage than their three-phase counterparts because they have more phase legs, hence finer control over the star-point voltage of the load. Two methods are proposed for the conventional two-level five-phase inverter to reduce the CM voltage; one utilizing adjacent modulating waveforms and the other utilizing nonadjacent modulating waveforms. The coupled inductor inverter (CII) uses coupled inductors to generate multilevel outputs. As the volt-second balance must be maintained across each coupled inductor, direct application of the proposed methods on the CII inverter will result in overcurrents in the coupled inductors. Hence, the proposed methods are further improved to ensure the volt-second integral over each switching period is zero. Moreover, the two proposed methods are designed to reduce switching events and prevent unexpected states occurring during the switching transitions. The performance and the switching strategy of both methods are verified by both simulations and experiments on a prototype of five-phase CII. [ABSTRACT FROM AUTHOR]

Published

2016

21. Seven-Level PWM Inverter Employing Series-Connected Capacitors Paralleled to a Single DC Voltage Source.

Author

Choi, Jin-Sung and Kang, Feel-soon

Subjects

*CAPACITORS, *ELECTRIC inverters, *PULSE width modulation transformers, *DIRECT currents, *COMPUTER simulation

Abstract

This paper presents an effective circuit configuration of a multilevel inverter that can increase the number of output voltage levels with a reduced number of circuit components. The proposed seven-level pulsewidth-modulation inverter consists of a single dc voltage source with a series of capacitors, diodes, active switches for synthesizing output voltage levels, and an H-bridge cell. After theoretical analysis, we carry out computer-aided simulations and experiments to verify the validity of the proposed approach. Here, we also introduce a modified switching strategy to solve the capacitor voltage unbalancing that occurs in series-connected capacitors. [ABSTRACT FROM PUBLISHER]

Published

2015

22. Zero-Crossing Disturbance Elimination and Spectrum Analysis of Single-Carrier Seven-Level SPWM.

Author

Wu, Fengjiang, Feng, Fan, Duan, Jiandong, and Sun, Bo

Subjects

*PULSE width modulation, *DIGITAL signal processing, *ZERO voltage switching, *ELECTRIC controllers, *PULSE modulation

Abstract

In this paper, a seven-level single-carrier and multi-modulation-wave sinusoidal pulsewidth modulation (SCMM-SPWM) strategy is proposed. In the negative half cycle of the modulation waves (MWs), dc offsets related to the amplitude of the carrier are set on the three MWs, respectively, to apply the same comparison logics of the MWs and carrier during positive and negative half cycles of the MWs. Thus, it is implemented with only one digital signal processor chip without any other attached logical circuit or controller. The reason for generating the zero-crossing voltage pulse disturbance (ZCVPD) in this strategy is analyzed, and the elimination of the ZCVPD is proposed and verified by experimental results. The spectral characters of the conventional multi-MW-based SPWM and the proposed one are originally derived and compared with each other by simulation in detail. The theoretical analysis, simulation, and experimental results indicate that the output characters of the proposed strategy are identical to those of the conventional one; it means that the proposed strategy can replace the conventional one while with the benefit of significantly reducing the cost and bulk of the implemental platform. [ABSTRACT FROM PUBLISHER]

Published

2015

23. High-Efficiency Current Control Methods Based on Multidimensional Feedback Quantization and Its Application to Three-Phase PMSM.

Author

Chen, Hung-Chi, Chen, Keng-Yuan, and Chen, Wei-Yu

Subjects

*ELECTRIC inverters, *PULSE modulation, *ELECTRONIC feedback, *ELECTRIC potential, *PERMANENT magnet motors

Abstract

In a six-switch three-phase inverter, the conventional pulsewidth modulation (PWM) has six switching times in every switching period based on the average concept. The used multidimensional feedback quantized modulation (MDFQM) strategy selects one switching state and keeps it in every sampling period based on the minimization of filtered voltage errors between the desired voltage commands and the output voltages. The widths of the output voltage pulse are integer times the fixed sampling time in MDFQM. In this paper, two high-efficiency current control methods based on MDFQM are proposed. They integrate the MDFQM strategy and the current control function to minimize the filtered current errors between the desired current commands and the inverter current. Due to the main advantages of less switching numbers and more closed fundamental current, a high-efficiency performance is achieved. The proposed methods are applied to the current control of a three-phase permanent-magnet synchronous motor. The simulation results and experimental results verify the effectiveness of the proposed methods. [ABSTRACT FROM PUBLISHER]

Published

2014

24. A Novel Multilevel Inverter Based on Switched DC Sources.

Author

Gupta, Krishna Kumar and Jain, Shailendra

Subjects

*ELECTRIC inverters, *HARMONIC distortion (Physics), *DIRECT currents, *VOLTAGE control, *INTEGRATED circuits, *FAULT-tolerant control systems

Abstract

This paper presents a multilevel inverter that has been conceptualized to reduce component count, particularly for a large number of output levels. It comprises floating input dc sources alternately connected in opposite polarities with one another through power switches. Each input dc level appears in the stepped load voltage either individually or in additive combinations with other input levels. This approach results in reduced number of power switches as compared to classical topologies. The working principle of the proposed topology is demonstrated with the help of a single-phase five-level inverter. The topology is investigated through simulations and validated experimentally on a laboratory prototype. An exhaustive comparison of the proposed topology is made against the classical cascaded H-bridge topology. [ABSTRACT FROM PUBLISHER]

Published

2014

25. Pulsewidth Modulation of Z-Source Inverters With Minimum Inductor Current Ripple.

Author

Tang, Yu, Xie, Shaojun, and Ding, Jiudong

Subjects

*ELECTRONIC modulation, *ELECTRIC inverters, *ELECTRIC inductors, *CIRCUIT elements, *SIMULATION methods & models

Abstract

This paper proposes the pulsewidth modulation (PWM) strategy of Z-source inverters (ZSIs) with minimum inductor current ripple. In existing PWM strategy with single-phase shoot-through, the shoot-through time interval is divided into six equal parts, therefore the three phase legs bear the equal shoot-through time interval. In this manner, the allotment and arrangement of the shoot-through state is easy to realize, but the inductor current ripple is not optimized. This causes to use relatively large inductors. In the proposed PWM strategy, the shoot-through time intervals of three phase legs are calculated and rearranged according to the active state and zero state time intervals to achieve the minimum current ripple across the Z-source inductor, while maintaining the same total shoot-through time interval. The principle of the proposed PWM strategy is analyzed in detail, and the comparison of current ripple under the traditional and proposed PWM strategy is given. Simulation and experimental results on the series ZSI are shown to verify the analysis. [ABSTRACT FROM PUBLISHER]

Published

2014

26. Capacitor Voltage Regulation in Single-DC-Source Cascaded H-Bridge Multilevel Converters Using Phase-Shift Modulation.

Author

Sepahvand, Hossein, Liao, Jingsheng, Ferdowsi, Mehdi, and Corzine, Keith A.

Subjects

*ELECTRIC controllers, *SYNCHRONOUS capacitors, *VOLTAGE regulators, *CASCADE converters, *ELECTRIC current converters

Abstract

Cascaded H-bridge multilevel power electronic converters generally require several dc sources. An alternative option is to replace all the separate dc sources feeding the H-bridge cells with capacitors, leaving only one H-bridge cell with a real dc voltage source. This will yield a cost-effective converter. However, the required capacitor voltage balancing is challenging. In this paper, using the phase-shift modulation approach, a new control method for cascaded H-bridge multilevel converters fed with only one independent dc source is presented. The proposed method has a wide voltage regulation range for the replacement capacitors in the H-bridge cells. Experimental and simulation results support the proposed control method. [ABSTRACT FROM PUBLISHER]

Published

2013

27. Neutral-Point Potential Balancing of a Five-Level Active Neutral-Point-Clamped Inverter.

Author

Wang, Kui, Zheng, Zedong, Li, Yongdong, Liu, Kean, and Shang, Jing

Subjects

*CASCADE converters, *ELECTRIC potential, *SEMICONDUCTORS, *CAPACITORS, *DIODES

Abstract

The five-level active neutral-point (NP)-clamped (ANPC) converter is a newly emerging topology which can overcome the drawbacks of traditional NP-clamped and flying-capacitor multilevel converters. This paper presents a comprehensive theoretical analysis of the NP potential balancing issue and demonstrates that the NP potential can be naturally balanced under ideal and steady conditions. An NP potential balancing method based on zero-sequence voltage injection is presented. By calculating the average NP currents of all key zero-sequence voltages, the most appropriate zero-sequence voltage is selected to generate the demanded NP current, which can also limit the switching frequency of the series-connected insulated-gate bipolar transistors to the fundamental frequency. A three-phase five-level ANPC inverter prototype is built up, and both steady and dynamic experimental results are presented to verify the validity of this method. [ABSTRACT FROM PUBLISHER]

Published

2013

28. Design of Neutral-Point Voltage Controller of a Three-Level NPC Inverter With Small DC-Link Capacitors.

Author

Maheshwari, Ramkrishan, Munk-Nielsen, Stig, and Busquets-Monge, Sergio

Subjects

*ELECTRIC inverters, *VOLTAGE-controlled oscillators, *ELECTRONIC modulation, *CAPACITORS, *ELECTRIC circuits

Abstract

A neutral-point-clamped three-level inverter with small dc-link capacitors is presented in this paper. The inverter requires zero average neutral-point current for stable neutral-point voltage. The small dc-link capacitors may not maintain capacitor voltage balance, even with zero neutral-point current. This may happen due to nonlinearities present in the circuit. This requires a fast control of the neutral-point voltage. A simple carrier-based modulation strategy which allows modeling of the neutral-point voltage dynamics as a continuous function of power drawn from the inverter is proposed. This continuous model shows that the neutral-point current is proportional to the power drawn from the inverter, and it enables the use of a well-established classical control theory for the neutral-point voltage controller design. A simple proportional integral controller is designed for the neutral-point voltage control on the basis of the continuous model. The design method for optimum performance is discussed. The implementation of the proposed modulation strategy and the controller is very simple. The controller is implemented in a 7.5-kW induction machine-based drive with only 14 \mu \F dc-link capacitors. Also, the experimental results show that fast and stable performance of the neutral-point voltage controller are achieved and thus verify the validity of the proposed control approach. [ABSTRACT FROM PUBLISHER]

Published

2013

29. A Family of Z-Source Matrix Converters.

Author

Ge, Baoming, Lei, Qin, Qian, Wei, and Peng, Fang Zheng

Subjects

*CASCADE converters, *ELECTRONIC modulation, *ELECTRIC controllers, *SWITCHING circuits, *ELECTRIC inverters, *RELIABILITY in engineering, *COST analysis

Abstract

This paper extends the Z-source concept to matrix converters and explores a family of Z-source matrix converters. Their principles and characteristics are analyzed, and a simplified voltage-fed Z-source matrix converter is used as an example to demonstrate its operation, voltage gain versus modulation index, PWM method, boost control, and implementation of the control. Both simulation and experimental results verify operation of the proposed Z-source matrix converter, analytical results, and control method. The Z-source converters can achieve buck and boost operation with reduced number of switches needed, therefore achieving low cost, high efficiency, and reliability, compared to the traditional matrix converters. [ABSTRACT FROM AUTHOR]

Published

2011

30. Modulation Strategies to Reduce Common-Mode Voltage for Indirect Matrix Converters.

Author

Nguyen, Tuyen D. and Lee, Hong-Hee

Subjects

*ELECTRONIC modulation, *CASCADE converters, *ELECTRIC insulators & insulation, *ELECTRIC leakage, *ELECTRIC current rectifiers, *SIMULATION methods & models

Abstract

Common-mode voltage (CMV) is responsible for overvoltage stress to the winding insulation and bearing damage of an ac motor. High dv/dt of CMV raises leakage currents, which can cause serious problems such as motor damage and electromagnetic noise to the equipment installed near the converter. This paper proposes two modulation strategies for indirect matrix converters that substantially eliminate CMV. The first method is developed by using the suitable couple of nonzero space vectors instead of zero space vectors in the inverter stage. The maximum voltage transfer ratio of this method is unaffected and remains 0.866. The second one, which is useful for low-voltage operation, is approached by choosing the medium and the lowest positive line-to-line input voltages in the rectifier stage to generate the dc-link voltage and by placing suitable zero space vectors in the inverter stage. In the second method, the maximum voltage transfer ratio is 0.5. Both methods can mitigate the peak value to 42%. In addition, while the first method provides the same performance to the conventional method, the second method can reduce significantly the harmonic components of line-to-line output voltage. Simulation and experimental results are shown to verify the effectiveness of the proposed methods. [ABSTRACT FROM AUTHOR]

Published

2011

31. An Efficient Control Strategy for a Five-Level Inverter Comprising Flying-Capacitor Asymmetric H-Bridge.

Author

Zhang, Yun and Sun, Li

Subjects

*ELECTRIC inverters, *CAPACITORS, *ELECTRIC potential, *ELECTRONIC modulation, *ELECTRIC currents, *PULSE width modulation, *ELECTRIC capacity, *ELECTRIC switchgear

Abstract

With regard to a five-level inverter comprising flying-capacitor asymmetric H-bridge, the impact on the capacitor voltage under conventional modulation approach is analyzed. Since it is sensitive to the fundamental period and the load current, it may introduce undesired low-order harmonics into the output voltage and may even break down the power switches due to the considerable fluctuation of the flying-capacitor voltage. Thus, this paper proposes a novel pulsewidth-modulation scheme with the positive and negative cross carriers, which controls the flying-capacitor voltage by utilizing the redundant switching states of the output voltages. Three modes of precharging the flying capacitor without extra equipments are presented. Moreover, the capacitance of the flying capacitor and the switching frequency of the power switches can be chosen according to the allowable fluctuation of the flying-capacitor voltage and the load current. In order to remove the overlapping of the level layers, the optimization of the line-to-line voltage waveform is proposed to synthesize the reference vector with the “nearest three-vector” approach. The theory is supported by the experimental results from the prototype. [ABSTRACT FROM AUTHOR]

Published

2011

32. Single-Phase Seven-Level Grid-Connected Inverter for Photovoltaic System.

Author

Rahim, Nasrudin A., Chaniago, Krismadinata, and Selvaraj, Jeyraj

Subjects

*ELECTRIC inverters, *PHOTOVOLTAIC power systems, *ELECTRIC switchgear, *PULSE width modulation, *VOLTAGE regulators, *ELECTRIC distortion, *ELECTRICAL harmonics, *ALGORITHMS

Abstract

This paper proposes a single-phase seven-level inverter for grid-connected photovoltaic systems, with a novel pulsewidth-modulated (PWM) control scheme. Three reference signals that are identical to each other with an offset that is equivalent to the amplitude of the triangular carrier signal were used to generate the PWM signals. The inverter is capable of producing seven levels of output-voltage levels (Vdc, 2Vdc/3, Vdc/3, 0, -Vdc, -2Vdc/3, -Vdc/3) from the dc supply voltage. A digital proportional–integral current-control algorithm was implemented in a TMS320F2812 DSP to keep the current injected into the grid sinusoidal. The proposed system was verified through simulation and implemented in a prototype. [ABSTRACT FROM AUTHOR]

Published

2011