Showing total 27 results

1. Analysis and Control of Neutral-Point Deviation in Three-Level NPC Converter Under Unbalanced Three-Phase AC Grid.

Author

Jung, Kyungsub and Suh, Yongsug

Subjects

*AC DC transformers, *PULSE width modulation, *ELECTRIC potential, *VOLTAGE control

Abstract

This paper presents a neutral-point deviation and ripple compensating control method applied to a three-level neutral-point-clamped (NPC) converter. The neutral-point deviation and its harmonic components are analyzed with a focus on the average current flowing through the neutral-point of the dc link. This paper also proposes a control scheme compensating for the neutral-point deviation and dominant harmonic components under generalized unbalanced grid operating conditions. The positive and negative sequence components of the switching functions and ac input currents are employed to accurately explain the behavior of three-level NPC converter. Simulation and experimental results are presented to verify the validity of the proposed method. [ABSTRACT FROM AUTHOR]

Published

2019

2. A Modulation Technique for Neutral Point Voltage Control of the Three-Level Neutral-Point-Clamped Converter.

Author

Chen, Hsin-Chih, Tsai, Meng-Jiang, Wang, Yao-Bang, and Cheng, Po-Tai

Subjects

*SWITCHING circuits, *CLAMPING circuits, *VOLTAGE regulators, *ELECTRIC current converters, *ELECTRONIC modulation

Abstract

The neutral-point voltage-balancing control is a critical issue of a neutral-point-clamped converter. The conventional control strategy is to inject the specific zero-sequence voltage to regulate the redundant vector, but it is unacceptable to the three-phase four-wire system. This paper provides a neutral-point voltage-balancing control by the dipolar modulation, and the control freedom of the zero-sequence voltage is flexible. Therefore, the proposed method is suitable for both three-phase three-wire and three-phase four-wire systems. Besides, the proposed method improves the control dynamic in a reactive power system. The proposed neutral-point voltage-balancing control is verified by the mathematical analysis and experimental results. The control dynamic, power loss estimation, and the output current performance are analyzed in this paper. [ABSTRACT FROM PUBLISHER]

Published

2018

3. Analysis and Suppression of Zero Sequence Circulating Current in Open Winding PMSM Drives With Common DC Bus.

Author

Zhan, Hanlin, Zhu, Zi-qiang, and Odavic, Milijana

Subjects

*DIRECT currents, *RELUCTANCE motors, *ELECTRIC vehicles, *ELECTRIC windings, *PERMANENT magnets, *ELECTRIC potential

Abstract

In this paper, the zero sequence circulating current in open winding permanent magnet synchronous machine (OW-PMSM) drives with common dc bus is systematically analyzed for the first time. It is revealed that the zero sequence circulating current is affected by zero sequence back-electromotive force, cross coupling voltages in zero sequence from the machine side, pulse-width modulation induced zero sequence voltage, and inverter nonlinearity from the inverter side. Particularly, the influences from the cross coupling voltages in zero sequence and parasitic effect of inverter nonlinearity are investigated for the first time in this paper. Then, the synthetic model of the equivalent zero sequence circuit is proposed as well. Each cause is studied independently via analytical modeling, finite element analysis, and experiments. Meanwhile, to tackle this issue, the relevant suppression strategy using frequency adaptive proportional resonant controller is presented and tested on the 3 kW OW-PMSM platform. [ABSTRACT FROM AUTHOR]

Published

2017

4. Series Compensator Based on Cascaded Transformers Coupled With Three-Phase Bridge Converters.

Author

de Almeida Carlos, Gregory Arthur and Jacobina, Cursino Brandao

Subjects

*ELECTRIC transformers, *CONVERTERS (Electronics), *ELECTRIC potential, *ELECTRICAL load, *TOPOLOGY, *COMPUTER simulation

Abstract

This paper proposes a multilevel series compensator (MSC) to deal with voltage sags/swells, harmonic compensation, or reactive power compensation. Such a device can be considered as a dynamic voltage restorer or a series active power filter (Series-APF). The MSC can improve the power quality of loads located in stiff systems. The configuration is based on three-phase bridge (TPB) converters connected by means of cascaded single-phase transformers. This arrangement permits the use of a single dc-link. A generalization for $K$ -stages in which $K$ -transformers are coupled with $K$-TPB converters is presented. The topology permits generating a high number of levels in the voltage waveforms with a low number of power switches in comparison with a classic topology. The multilevel waveforms are generated by the converters through a suitable pulsewidth modulation (PWM) strategy that takes into consideration the transformer turns ratios. Modularity and simple maintenance make the proposed MSC an attractive solution compared with some conventional configurations. Model, PWM strategy, and overall control are discussed in this paper. Simulation and experimental results are presented as well. [ABSTRACT FROM PUBLISHER]

Published

2017

5. Direct Power Control of PWM Rectifier With Feedforward Compensation of DC-Bus Voltage Ripple Under Unbalanced Grid Conditions.

Author

Zhang, Yongchang, Jiao, Jian, Liu, Jie, and Gao, Jihao

Subjects

*PULSE width modulation rectifiers, *ELECTRIC power distribution grids, *PECCEI-Quinn theory, *ELECTRIC potential, *VOLTAGE control

Abstract

Three-phase voltage source pulsewidth modulation (PWM) rectifiers can achieve constant dc voltage and sinusoidal grid currents under ideal grid voltages. However, under unbalanced grid voltage conditions, there are ripples at twice the grid frequency in the dc voltage, and the grid currents become highly distorted. To address the aforementioned problems, control methods developed under ideal grid voltage conditions should be modified. Various techniques have been proposed in the literature to calculate the new current reference or power reference. However, most methods use conventional pq theory and only consider the grid-side power control. Hence, the dc voltage ripples are not completely eliminated. Furthermore, the derived mathematical expressions for reference calculations are usually very complicated. In contrast to current methods, this paper proposes a very simple yet effective direct power control (DPC) method based on extended pq theory. By analyzing the instantaneous extended power of the line inductance, a simple and concise power compensation is analytically derived and added to the original power references. As a result, the dc voltage ripples are significantly reduced, and the grid currents remain sinusoidal even under unbalanced grid voltage conditions. The proposed method is compared to conventional DPC methods, and its effectiveness is confirmed by the presented experimental results. [ABSTRACT FROM AUTHOR]

Published

2019

6. Analysis, Design, and Control of Switching Capacitor Based Buck–Boost Converter.

Author

Veerachary, Mummadi and Khubchandani, Vasudha

Subjects

*DC-to-DC converters, *PULSE width modulation, *ELECTRIC controllers, *ELECTRIC potential, *TRANSFER functions

Abstract

A switching-capacitor-based buck–boost converter (with common ground) for point of load applications is proposed in this paper. It is capable of operating in stand-alone buck or boost mode in addition to its primary operation of performing the buck–boost conversion. The striking feature of the proposed converter is low source current ripple content irrespective of its mode of operation (buck–boost, buck, or boost). First, feasible pulsewidth modulation schemes for the proposed converter are identified and thereafter the corresponding circuit performance analysis, steady-state analysis, and state-space modelling is established. Through steady-state analysis, voltage gain expressions are formulated and equations defining L-C components are derived in terms of their ripple quantities. The state-space models are used to formulate small-signal analysis and to obtain the relevant transfer functions required in the controller design. A voltage-mode/current-mode controller is designed, with a tradeoff in bandwidth, to control the proposed converter and transit it from buck to boost mode or vice versa seamlessly. A 30–55 W, 100 kHz, prototype point of load converter with 36-V input dc source is built to supply power at constant load voltage of either 48 or 28 V. The proposed converters’ effectiveness is demonstrated experimentally in terms of reduced source current ripple along with seamless transition from buck to boost mode and vice versa. [ABSTRACT FROM AUTHOR]

Published

2019

7. An Adaptive Control of DPWM for Clamped-Three-Level Photovoltaic Inverters With Unbalanced Neutral-Point Voltage.

Author

Hashempour, Mohammad M., Yang, Meng-Ying, and Lee, Tzung-Lin

Subjects

*PHOTOVOLTAIC cells, *ELECTRIC potential, *ELECTRIC inverters, *ELECTRIC current converters, *DIRECT currents

Abstract

An adaptive control of DPWM implementable in clamped-three-level inverters with two strings of photovoltaic (PV) panels in cascaded connection is proposed in this paper. The proposed modulation is developed based on the so-called circuit-level decoupling concept. It is able to provide balance line voltage even under unbalanced dc links. The unequal dc voltages appeared due to asymmetric maximum point of power trackings (MPPTs) are controlled by proper injection of zero-sequence voltage to the common mode voltage, while the total dc voltage is regulated based on the voltage commands generated by the MPPT of each string. Thus, both PV strings are able to be operated based on their MPPTs while there is almost no low-order harmonic distortion at the inverter output current. Compared with the previous methods, the high capability of the proposed method is evaluated by simulation study and experimental tests. [ABSTRACT FROM AUTHOR]

Published

2018

8. Prediction and Evaluation of PWM-Induced Current Ripple in IPM Machines Incorporating Slotting, Saturation, and Cross-Coupling Effects.

Author

Chang, Le and Jahns, Thomas M.

Subjects

*PERMANENT magnets, *SYNCHRONOUS capacitors, *ELECTRIC inductance, *ELECTRIC potential, *PULSE width modulation transformers

Abstract

This paper presents an improved analytical model for estimating the high-frequency current ripple of interior permanent magnet synchronous machines due to pulsewidth modulation (PWM) switching. The proposed model accounts for the impact of slotting effect, magnetic saturation, and cross-coupling between the $d$ - and $q$ -axis. The model is subsequently used to investigate several factors that influence the PWM-induced current ripple. These include the PWM switching frequency, fundamental frequency (i.e., machine speed), dc-bus voltage, current control angle (i.e., γ angle), and the excitation current amplitude (i.e., saturation level). Experiments have been conducted to verify the analytical prediction results. These results show that the analytical model can predict the PWM-induced current ripple waveshape very well for many operating conditions and accurately estimate its rms value over a complete fundamental period. [ABSTRACT FROM AUTHOR]

Published

2018

9. Single-Phase AC–DC–AC Multilevel Converter Based on H-Bridges and Three-Leg Converters Connected in Series.

Author

de Paula Dias Queiroz, Antonio, Jacobina, Cursino Brandao, de Freitas, Nayara Brandao, Maia, Ayslan Caisson Noraes, and Melo, Victor Felipe Moura Bezerra

Subjects

*ELECTRIC current converters, *ALTERNATING currents, *ELECTRIC potential, *ELECTRIC currents, *POTENTIAL energy

Abstract

This paper investigates an ac–dc–ac multilevel power converter. The studied configuration is composed of two single-phase ac–dc–ac three-leg modules and series-connected H-bridges in the shared part of system. Because the proposed converter has shared legs between the input and output, it is employed in applications with same input and output frequency. Uninterrupted power supply and unified power quality conditioner are application examples for this converter. Such multilevel topology has lower dc-link voltage rating, which, consequently, presents low switch blocking voltages when compared to conventional topologies. System model, a space-vector pulsewidth modulation (PWM) strategy to symmetrical and asymmetrical dc-link voltages, and an overall control strategy to adjust the system variables are presented. A power flux analysis shows the operation zone in which the individual dc-link voltage balancing is possible. PWM and control strategies are developed to reduce the semiconductor total losses, harmonic distortion, and switching stress. Two ac–dc–ac multilevel conventional structures are used for comparison. Simulation and experimental results demonstrate the feasibility of the studied converter. [ABSTRACT FROM AUTHOR]

Published

2018

10. Investigation of a Single-Phase Multilevel Inverter Based on Series/Parallel-Connected H-Bridges.

Author

de Paula Dias Queiroz, Antonio, Jacobina, Cursino Brandao, Maia, Ayslan Caisson Noroes, Melo, Victor Felipe Moura Bezerra, and da Silva, Ivan

Subjects

*ELECTRIC inverters, *ELECTRIC potential, *SIMULATION methods & models, *ELECTRIC current converters, *POTENTIAL energy

Abstract

This paper investigates a multilevel inverter composed of series/parallel-connected H-bridges. The presented structure can be used for applications in which the use of semiconductor switches with low-voltage and low-current ratings is intended. A comprehensive system model, an overall control strategy to adjust the output voltage with constant magnitude and frequency, and a level-shifted PWM (LS-PWM) strategy based on a voltage vectors unidimensional analysis and a plane analysis are presented. The LS-PWM is capable of mitigating the low-frequency circulating current, thus generating multilevel voltage signals with low harmonic distortion, maximum number of levels, and low dv/dt. In addition, considering a wide range of values of voltages and currents and various power levels, the total converter losses are reduced compared with the conventional multilevel converters. Two multilevel conventional inverters with the same number of semiconductor switches are used for comparison. Simulation and experimental results demonstrate the feasibility of the studied converter. [ABSTRACT FROM AUTHOR]

Published

2018

11. Design and Implementation of Transformer-Based Multilevel Inverter Topology With Reduced Components.

Author

Behara, Siva, Sandeep, N., and Yaragatti, Udaykumar R.

Subjects

*ELECTRIC transformers, *ELECTRIC inverters, *ELECTRIC potential, *ELECTRIC currents, *ELECTROSTATICS

Abstract

This paper presents a nine-level transformer-based inverter requiring only eight switches. The envisaged structure consists of two standard H-bridges fed from a single dc source. Besides, a single-phase transformer is employed to aid the process of intermediate voltage level generation. An ad-hoc pulsewidth modulation scheme based on boolean logic form equations is developed to derive the gating pulses. An effortless extension of the proposed inverter to a higher number of voltage levels is also achieved by generalizing the switching functions. Furthermore, the superior performance of the proposed topology is demonstrated through a comprehensive cost-based analysis. Finally, the validation of the proposed topology is accomplished through experiments on a down-scale prototype, and the measurement results are included. [ABSTRACT FROM AUTHOR]

Published

2018

12. Analysis and Mitigation of Dead-Time Harmonics in the Single-Phase Full-Bridge PWM Converter With Repetitive Controllers.

Author

Yang, Yongheng, Zhou, Keliang, Wang, Huai, and Blaabjerg, Frede

Subjects

*ELECTRIC current converters, *ELECTRIC potential, *ELECTRIC machinery, *POWER transformers

Abstract

In order to prevent the power switching devices (e.g., an insulated-gate bipolar transistor, IGBT) from shoot-through in voltage-source converters during a switching period, the dead time is added either in the hardware driver circuits of the IGBTs or implemented in software in pulse width modulation (PWM) schemes. Both solutions will contribute to a degradation of the injected current quality. As a consequence, the harmonics induced by the dead time (referred to as “dead-time harmonics” hereafter) have to be compensated in order to achieve a satisfactory current quality, as required by standards. In this paper, the emission mechanism of dead-time harmonics in single-phase PWM inverters is, thus, presented considering the modulation schemes in detail. More importantly, a repetitive controller has been adopted to eliminate the dead-time effect in single-phase grid-connected PWM converters. The repetitive controller has been plugged into a proportional-resonant-based fundamental-frequency current controller so as to mitigate the dead-time harmonics and also to maintain the control of the fundamental-frequency grid current in terms of dynamics. Simulations and experiments are provided, which confirm that the repetitive controller can effectively compensate the dead-time harmonics and other low-order distortions, and also, it is a simple method without hardware modifications. [ABSTRACT FROM AUTHOR]

Published

2018

13. Discontinuous Hybrid-PWM-Based DC-Link Voltage Balancing Algorithm for a Three-Level Neutral-Point-Clamped (NPC) Traction Inverter Drive.

Author

Choudhury, Abhijit, Pillay, Pragasen, and Williamson, Sheldon S.

Subjects

*INSULATED gate bipolar transistors, *BIPOLAR transistors, *VOLTAGE regulators, *VOLTAGE control, *SYNCHRONOUS capacitors

Abstract

This paper presents a hybrid pulse width modulation-based discontinuous modulation (D-HPWM) strategy with dc-link voltage balancing for a three-level neutral-point-clamped (NPC) traction inverter drive. The results are then compared with continuous-hybrid-PWM (C-HPWM) to check the performance improvement. The HPWM strategy uses both the advantages of carrier- and space-vector-based PWM strategies. The duty cycles are generated using the carrier-based strategy to reduce the computational time and complexity of the system and redundant vector states are used to keep the two dc-link capacitor voltages balanced. As discontinuous PWM (DPWM) reduces the switching losses considerably compared to the continuous PWM, the DPWM strategy is developed in this paper for the HPWM-based strategy. Detailed comparison studies are then carried out in MATLAB/Simulink and PLECS to show the conduction and switching loss distribution with change in modulation index for different power switches. A 54.0-kW surface permanent magnet synchronous machine (PMSM) is used for this simulation studies. Moreover, the total inverter loss and losses in each insulated gate bipolar transistor (IGBT) are also compared. Detailed experimental performance analysis is also carried out with a scaled down prototype of a 6.0-kW surface PMSM, NPC inverter, and real-time emulator DSpace, to show the capacitor voltage deviation with both control strategies. [ABSTRACT FROM PUBLISHER]

Published

2016

14. Optimization of PWM for the Overmodulation Region of Two-Level Inverters.

Author

Stumpf, Peter and Halasz, Sandor

Subjects

*PULSE width modulation, *MATHEMATICAL optimization, *ELECTRIC inverters, *HARMONIC oscillators (Circuits), *MEAN square algorithms, *ELECTRIC potential, *TORQUE

Abstract

Three optimized pulse-width modulated (PWM) techniques for the overmodulation region of two-level inverter-fed ac drives are introduced and investigated from the harmonic loss minimization point of view. The optimization is elaborated for the lowest loss-factor, which is proportional to the square of the root mean square value of current harmonics. The loss-factors are computed for different switching numbers as the function of the motor fundamental voltage. It is shown that, with respect to the motor heating and torque ripples, the acceptable drive condition can be guaranteed by a relatively low value of an inverter switching frequency up to 96%–97% of maximal possible motor voltage. Furthermore, it is shown that the so-called three-vector methods have considerably better performance in the lower part of the overmodulation region than the so-called two-vector method for the same number of switching. The performance of the techniques is compared with other existing PWM techniques. This paper discusses the implementation details of the proposed optimal PWM techniques. The theoretical results are verified by experimental and simulation tests. [ABSTRACT FROM AUTHOR]

Published

2018

15. A Modified T-Structured Three-Level Inverter Configuration Optimized With Respect to PWM Strategy Used for Common-Mode Voltage Elimination.

Author

Hota, Arpan, Jain, Sachin, and Agarwal, Vivek

Subjects

*ELECTROMAGNETIC interference, *ELECTRIC potential, *ELECTRIC inverters, *PULSE width modulation transformers, *DIRECT currents

Abstract

This paper presents an optimized topology for a \text3-\phi three-level inverter with complete elimination of common-mode voltage (CMV). The proposed multilevel inverter (MLI) configuration is realized by modifying a T-structure \text3-\phi inverter. The proposed configuration is an optimized solution with respect to the pulse-width modulation strategy used for CMV elimination. The given three-level inverter structure uses only 16 power semiconductor switches, which is much lower than the existing configurations. A reduced number of power semiconductor devices results in a diminished number of driver circuits, less installation space, and low cost. Further, due to the complete elimination of CMV, the proposed MLI is free from issues such as electromagnetic interference and leakage current with a reduction in filter requirement. The presented topology is also compared with other existing topologies to prove its advantage. It is an optimized solution with respect to the dc bus voltage requirement and the total voltage rating of the devices or the components used in the system. Simulation and experimental results are presented to confirm the capability of the proposed MLI. [ABSTRACT FROM AUTHOR]

Published

2017

16. Using Volt-Second Sensing to Directly Improve Torque Accuracy and Self-Sensing at Low Speeds.

Author

Wang, Yukai, Xu, Yang, Niimura, Naoto, Rudolph, Benjamin D., and Lorenz, Robert D.

Subjects

*ELECTRIC potential, *POTENTIAL energy, *ELECTRIC inverters, *NONLINEAR theories, *PARAMETER estimation

Abstract

As a result of dead-time, device on-state voltage drop, dc bus voltage measurement error, etc., volt-second errors degrade precise control of torque and flux linkage, particularly at low speeds. This is true for deadbeat-direct torque and flux control, which directly manipulates the volt-second vector sourced by inverters, as well as for indirect field oriented control drives. This paper introduces a real-time sensing scheme to measure the motor terminal volt-second vectors for each switching period with negligible phase lag. Based on the volt-second sensing, a model reference adaptive system-based approach is developed to decouple the volt-second errors from inverter nonlinearity, and dc bus voltage fluctuation and measurement error. By delivering an accurate volt-second vector for each switching period, torque and flux control accuracy, self-sensing performance, and parameter estimation accuracy are significantly enhanced. [ABSTRACT FROM AUTHOR]

Published

2017

17. Control of a PWM Voltage-Source Inverter in the Pulse-Dropping Region to Reduce Reflected-Wave Motor Overvoltage.

Author

Tallam, Rangarajan M. and Leggate, David

Subjects

*PULSE width modulation, *ALTERNATING current electric motors, *DIRECT currents, *ELECTRIC windings, *ELECTRIC potential

Abstract

Pulsewidth modulation (PWM) ac drives generate high line–line motor voltage, up to twice dc bus voltage, due to the reflected-wave phenomenon. Under certain conditions, motor voltage greater than twice the dc bus voltage can occur, resulting in winding insulation failure. It is well known that by suitably adjusting the PWM pulse pattern, the occurrence of voltages greater than twice the dc bus voltage can be avoided, up to a certain maximum cable length; beyond which, output filters are typically used to limit peak motor voltage. It will be shown in this paper that when the inverter operates in the pulse dropping region, voltages greater than twice the dc bus voltage will occur, with existing methods for pulse pattern compensation. A method to adjust the PWM pulse pattern in the pulse dropping region to ensure the same reflected-wave performance as the linear PWM region is presented in this paper. Experimental results are provided to demonstrate the effectiveness of the proposed method. [ABSTRACT FROM AUTHOR]

Published

2013

18. A New Three-Phase AC?DC?AC Multilevel Converter Based on Cascaded Three-Leg Converters.

Author

Maia, Ayslan Caisson Noroes, Jacobina, Cursino Brandao, and de Almeida Carlos, Gregory Arthur

Subjects

*AC DC transformers, *DC-AC converters, *ELECTRIC potential, *PULSE width modulation, *SEMICONDUCTORS

Abstract

This paper proposes and investigates a new three-phase ac–dc–ac multilevel conversion system obtained from cascaded three-leg converters. Such configuration presents advantages in terms of reduced switch blocking voltages and consequently lower dc-link voltage rating. Operating principles, a pulse-width modulation (PWM) technique based on vector approach, and a control strategy are presented. The operation with different dc-link voltage values and a balancing method are discussed, and is supported by simulation and experimental results. The PWM technique is able to generate multilevel voltage waveforms, which permits reducing the switching frequency stress leading to reduced semiconductor losses. Simulation results are used to compare the proposed configuration with a conventional solution in terms of harmonic distortion and semiconductor losses. Experimental results demonstrate the feasibility of the studied converter, and were obtained by using a downscaled prototype with insulated gate bipolar transistors with dedicated drives and a digital signal processor with appropriated plug-in boards and sensors. [ABSTRACT FROM PUBLISHER]

Published

2017

19. On the Common-Mode Voltage in Multilevel Multiphase Single- and Double-Ended Diode-Clamped Voltage-Source Inverter Systems.

Author

Karugaba, Sosthenes, Muetze, Annette, and Ojo, Olorunfemi

Subjects

*ELECTRIC potential, *ELECTRIC inverters, *ELECTRONIC modulation, *ELECTRIC switchgear, *ELECTROMAGNETIC interference, *BEARINGS (Machinery)

Abstract

Common-mode voltage (CMV) in voltage-source inverters (VSIs) has been well defined and is frequently referred to in the literature. While often referred to, there is no real consistency with respect to how the CMV properties of an individual modulation scheme are evaluated, lacking tools to assess the relative merits or disadvantages of a certain topology or modification of a control scheme. The way that it is analyzed is still mostly a matter of the different authors' foci. In this paper, we propose a metric for the analysis of the CMV, aiming to fill the aforementioned gap. Thereby, the CMV in VSIs is quantified by the number of possible levels and the step sizes between different levels, as well as the respective frequencies of occurrence. The first two are given by the number of levels and the number of phases of the inverter. Depending on the modulation (control) schemes, all possibly available levels or a few of these levels are present in the CMV. We illustrate the use of the tool by applying it to thoroughly study the CMV properties intrinsic to the topologies of multilevel multiphase single- as well as double-ended diode-clamped VSI drive systems. As part of this analysis, we uncover new relationships concerning the existence of zero CMV level. Furthermore, we exemplarily apply the developed tool to the assessment of the CMV properties of selected pulse width modulation (PWM) control schemes and translate the findings into an interpretation of the endangerment of a given drive to suffer damage from inverter-induced bearing currents. The theoretical findings are supported by measurements. This paper also reviews the literature on CMV in multilevel multiphase VSI systems. With the proposed metric in mind, the CMV being mostly discussed as an element of different foci becomes even clearer, confirming again the need for the development of such a tool. [ABSTRACT FROM AUTHOR]

Published

2012

20. A Generalized Natural Balance Model and Balance Booster Filter Design for Three-Level Neutral-Point-Clamped Converters.

Author

Mohzani, Zaki, McGrath, Brendan P., and Holmes, Donald Grahame

Subjects

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

Abstract

Three-level neutral point clamped (NPC) inverters exhibit a natural balancing property that can self-regulate the intermediate neutral point voltage to half the overall dc-link voltage. However, the underlying mechanisms of this process are not well understood, its performance under various load conditions has not been properly explored, and the requirements and benefits of ( $RLC$) balance booster filters to enhance the natural balancing response are not clear. This paper presents a generalized model of an NPC natural balancing process that allows these issues to be explored for various load structures and balance booster configurations (i.e., isolated wye, wye with a grounded star point, etc.). The model accurately predicts the dominant balancing time constant, identifies the harmonics that drive the balancing process, and can quantify the steady-state balance booster losses for a designed target natural balance response. Extensive simulation and experimental tests have been performed to validate the theoretical model. [ABSTRACT FROM PUBLISHER]

Published

2015

21. Analysis of Current Sampling Errors in PWM VSI Drives.

Author

Wolf, Christopher M., Degner, Michael W., and Briz, Fernando

Subjects

*ELECTRIC current measurement, *PULSE width modulation, *CLOSED loop systems, *ELECTRIC potential, *BANDWIDTHS, *HARMONIC analysis (Mathematics)

Abstract

Current measurement and pulsewidth modulation (PWM) are critical components of modern current-controlled voltage source inverters. Current measurements enable accurate and robust closed-loop control of current, while PWM enables the efficient high-bandwidth regulation of the voltage. These two components do not operate independently, however. The synthesized voltage from PWM, a sequential series of discrete voltage levels, from a predefined finite set of possible levels, is only equivalent to the desired voltage on an average basis. As a result, the response of the electrical current to this synthesized voltage deviates from the response to the desired voltage. This deviation from the desired response, when combined with the standard synchronous sampling method, results in current measurement errors. This paper will present an analytical derivation of this current response deviation. This can be used to model the current measurement errors. A better understanding of this phenomenon will result in better design and control of power converter systems. The analytical work will be evaluated and verified using simulations and experimental measurements. [ABSTRACT FROM PUBLISHER]

Published

2015

22. A Novel Modulation Technique and a New Balancing Control Strategy for a Single-Phase Five-Level ANPC Converter.

Author

Teymour, Hamid R., Sutanto, Danny, Muttaqi, Kashem M., and Ciufo, P.

Subjects

*ELECTRIC current converters, *PULSE width modulation transformers, *PHOTOVOLTAIC power systems, *ELECTRIC potential, *ELECTRIC power distribution grids, *SIMULATION methods & models

Abstract

This paper proposes a novel modulation technique and a new balancing control strategy for a single-phase five-level flying-capacitor (FC)-based active-neutral-point-clamped (ANPC) converter. The proposed modulator can control the FC voltage to follow the requested reference value and simultaneously generate the required ac output voltage regardless of the values of the dc capacitor voltages of the converter. By implementing this method, smaller values of the dc-link capacitor and FC can be used even in applications that could experience ripple or transient in the capacitor voltage. In a single-phase five-level ANPC converter applications, where the capacitors can experience pulsation power and dc-link balancing issues, such as grid-connected photovoltaic system, the selection of the reference voltage value for the FC can play an important role to balance the average values of the dc-link capacitor voltage. The proposed new control strategy uses a new reference voltage for the FC to be applied by the new modulator to have an average balanced dc-link voltages as well as an ac output voltage with good power quality. Simulation studies and experimental results demonstrate the effectiveness of the proposed modulation technique and control strategy even with relatively small dc capacitors to produce high-quality output voltage and current waveforms while maintaining an average balanced dc-link voltages. [ABSTRACT FROM PUBLISHER]

Published

2015

23. Current Source Rectifiers in Discontinuous Conduction Modes of Operation.

Author

Cuzner, Robert M. and Venkataramanan, Giri

Subjects

*ELECTRIC current rectifiers, *IDEAL sources (Electric circuits), *ELECTRIC conductivity, *AC DC transformers, *ELECTRIC power conversion, *PULSE width modulation, *ELECTRIC potential

Abstract

Although the operation of a three-phase current source rectifier (CSR) for ac-to-dc conversion using phase control or low-frequency pulse control is well established in a wide variety of applications, CSR realization using high-frequency pulsewidth-modulation control has been recently studied as a potentially competitive alternative to a voltage source rectifier. In the CSR, reverse blocking gate turn-off switches are realized using series-connected diodes, which prevent any reversal of the dc-link current. A significant consequence of this limitation occurs at light load conditions. The dc-link inductor current enters the discontinuous mode of operation and leads to the loss of the control of the output voltage and a highly distorted input current, which compromise the potential advantages of the approach. This paper characterizes the CSR while operating in the discontinuous conduction mode and proposes a modulation strategy that restores the control of the output voltage and ensures a nearly sinusoidal current at light loads. Simulation and hardware results are provided for a 3-kW laboratory-scale prototype system. [ABSTRACT FROM AUTHOR]

Published

2015

24. A Carrier-Based PWM Modulation Technique for Balanced and Unbalanced Reference Voltages in Multiphase Voltage-Source Inverters.

Author

Karugaba, Sosthenes and Ojo, Olorunfemi

Subjects

*ELECTRIC potential, *IDEAL sources (Electric circuits), *ELECTRIC inverters, *PHASE modulation, *ELECTRIC switchgear, *CASCADE converters

Abstract

The advancement in power electronics has made the use of any number of phases in ac machines possible since with the inverter, any number of phase voltages can be realized as long as the corresponding inverter exists. To supply multiphase drives requires multiphase voltage source inverters (VSIs) whose output voltages depend very much on the methods of generating the pulses to turn on and turn off the inverter devices appropriately. This paper presents an analytical technique for the determination of the expressions for the modulation signals used in the carrier-based sinusoidal and generalized discontinuous pulse width modulation schemes for two-level, five-phase voltage source converters. These expressions can be used for both balanced and unbalanced phase voltages generated by any two-level multiphase inverter, in generating the required reference signals appropriately. An example of a five-phase VSI is presented to illustrate the strategy. Simulation and experimental results are presented in which a close examination shows that both results are similar for the balanced and unbalanced load voltage cases. [ABSTRACT FROM AUTHOR]

Published

2012

25. Optimal Pulsewidth Modulation of a Dual Three-Level Inverter System Operated From a Single DC Link.

Author

Boller, Till, Holtz, Joachim, and Rathore, Akshay K.

Subjects

*ELECTRIC inverters, *PULSE width modulation, *DIRECT currents, *MATHEMATICAL optimization, *ELECTRIC windings, *ELECTRIC distortion, *ELECTRIC potential

Abstract

Operating a dual three-level inverter system from a single dc link circuit is an economic solution for generating five-level output voltage waveforms and to double the output power compared to a single three-level inverter. Such an inverter system is used for feeding a drive motor with open stator windings. A mechanism is then required to reduce the common-mode voltage components of the motor voltages. This paper describes an offline optimization method that minimizes both the harmonic distortion of the motor currents and the common-mode voltage components. The optimization permits reduction of the switching frequency to a very low value of 200 Hz without compromising the harmonic distortion. High performance operation of the drive system at low switching frequency is experimentally demonstrated. [ABSTRACT FROM PUBLISHER]

Published

2012

26. Three-Phase VSI with FPGA-Based Multisampled Space Vector Modulation.

Author

Oriti, Giovanna and Julian, Alexander L.

Subjects

*ELECTRIC inverters, *PULSE width modulation, *ELECTRIC potential, *ELECTRIC controllers, *FIELD programmable gate arrays, *ELECTRIC switchgear, *MATHEMATICAL models, *MICROPROCESSORS

Abstract

This paper demonstrates improved performance of a three-phase voltage source inverter (VSI) when digital multisampled space vector modulation is used. The modulator and the inverter controller are implemented entirely using a field-programmable gate array platform, thus achieving increased bandwidth with respect to a typical digital signal processor or microprocessor-based controller. Increased controller bandwidth results in lower output voltage harmonic distortion in the frequency range above the fundamental and below the switching frequency. Experimental validation is presented together with the analysis carried out using a state space model of a VSI with an output LC filter. [ABSTRACT FROM AUTHOR]

Published

2011

27. Efficiency Improvement of Synchronous Buck Converter by Passive Auxiliary Circuit.

Author

Pattnaik, Swapnajit, Panda, Anup Kumar, and Mahapatra, Kamalakanta

Subjects

*PULSE width modulation, *ROTARY converters, *CAPACITORS, *ELECTRIC inductors, *FEASIBILITY studies, *SHOCK absorbers, *ELECTRIC switchgear, *ELECTRIC potential

Abstract

This paper proposes a zero-voltage-transition (ZVT) pulsewidth-modulated (PWM) synchronous buck converter, which is designed to operate at low voltage and high efficiency typically required for portable systems. A new passive auxiliary circuit that allows the main switch to operate with zero-voltage switching has been incorporated in the conventional PWM synchronous buck converter. The operation principles and detailed steady-state analysis of the ZVT PWM synchronous converter with a passive auxiliary circuit are presented. All of the semiconductor devices aside from the main switch operate under soft-switching conditions. Thus, the auxiliary circuit provides a larger overall efficiency. The feasibility of the auxiliary circuit is confirmed by the simulation and experimental results. [ABSTRACT FROM PUBLISHER]

Published

2010