Showing total 62 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. Common-Mode Voltage Attenuation of an Active Common-Mode Filter in a Motor Drive System Fed by a PWM Inverter.

Author

Takahashi, Shotaro, Ogasawara, Satoshi, Takemoto, Masatsugu, Orikawa, Koji, and Tamate, Michio

Subjects

*PULSE width modulation, *NOISE generators (Electronics), *MOTOR drives (Electric motors), *ELECTROMAGNETIC interference, *ELECTRIC potential

Abstract

The switching speeds of next-generation power semiconductor devices, such as those made of silicon carbide and gallium nitride are roughly ten times those of conventional devices (e.g., silicon insulated-gate bipolar transistors). This increases the frequency range of the electromagnetic noise accompanying the switching operations of pulsewidth modulated (PWM) converters and worsens the influence of radiated noise. The authors have previously proposed an active common-mode filter (ACF) that reduces the radiated noise from the power cables connected to a PWM converter and evaluated its effect in reducing radiated noise by using a function generator as a common-mode (CM) noise source. In this paper, the ACF is applied to a motor drive system fed by a three-phase PWM inverter, and the attenuation characteristics of the CM voltage are evaluated. To avoid saturating the ACF, the combination of an active common-noise canceller and the ACF is discussed. The experimental results show that the system constructed in this paper can suppress the CM voltage produced by the PWM inverter over a wide frequency range from 100 to 100 MHz. [ABSTRACT FROM AUTHOR]

Published

2019

3. Carrier-Based Stair Edge PWM (SEPWM) for Capacitor Balancing in Multilevel Converters With Floating Capacitors.

Author

Tian, Hao and Li, Yun Wei

Subjects

*CAPACITORS, *ELECTRIC current converters, *DIRECT currents, *ALTERNATING current electric motors, *PULSE width modulation transformers, *MATHEMATICAL models, *SIMULATION methods & models

Abstract

Multilevel converters with floating capacitors (FCs) are widely applied in recent years in a wide range of industrial applications from high-voltage direct current systems to high power drives. However, some FC topologies lack complete FC voltage balancing capability due to the inherent topology limitation or the insufficient switching state for capacitor balancing. This will result in large ripples on capacitors at low frequency (such as fundamental frequency), limiting their performance and application, particularly, when the fundamental frequency is very low in low-speed drive operations. Typical examples of those multilevel converters are modular multilevel converters (MMC), nested neutral-point-clamped (NNPC) converter, etc. In order to improve the FC balancing for this kind of multilevel converters, this paper proposes a carrier-based pulse-width modulation (PWM) method, named stair edge PWM method. This method can obtain sufficient redundant switching states for FC voltage balancing by producing multiple levels in one PWM period. The FC voltage balancing is thus achieved at switching frequency, which can greatly reduce the capacitor voltage ripple and therefore enable the use of much smaller FCs. Meanwhile, the voltage stress on each device and low $dv/dt$ feature are still the same as the normal multilevel operation, reserving two of the most salient features of multilevel converters. The proposed method also features much simpler and easier implementation compared with space-vector-based approaches, particularly when high-level converters are considered. An application example using a four-level NNPC converter is provided in this paper. The effectiveness and performance of the proposed method are verified by both simulation and experiment. [ABSTRACT FROM AUTHOR]

Published

2018

4. A Novel Wide Duty Cycle Range Wide Band High Frequency Isolated Gate Driver for Power Converters.

Author

Naik, B. Satish, Shan, S., Umanand, L., and Reddy, B. Subba

Subjects

*ELECTRIC power conversion, *GALVANIC isolation, *PULSE width modulation, *INSULATED gate bipolar transistors, *WIDE gap semiconductors

Abstract

This paper presents a novel single source fed isolated gate driver circuit based on the dual-forward converter topology. The two forward converters are paralleled at the secondary side to achieve 0%–100 $\%$ duty cycle range together with galvanic isolation. The gate driver switching frequency is independent of the main pulse-width modulation frequency (PWM). As a result, the gate driver switching devices and magnetics are designed for high frequencies independent of the main PWM frequency. At high frequencies, problems of resonance due to parasitics become significant. This paper discusses this problem and proposes a novel solution to mitigate it. In addition, this paper also presents a novel solution and circuit to produce negative gate pulse for miller clamp. The proposed circuit can be used for any application, irrespective of switching frequency, thus making it a wide band generalized gate driver. The circuit is analyzed and verified experimentally. [ABSTRACT FROM PUBLISHER]

Published

2018

5. Theoretical and Experimental Comparison Between Phase-Shifted PWM and Level-Shifted PWM in a Modular Multilevel SDBC Inverter for Utility-Scale Photovoltaic Applications.

Author

Sochor, Paul and Akagi, Hirofumi

Subjects

*ELECTRIC inverters, *PHOTOVOLTAIC power generation, *ELECTRIC power distribution, *PULSE width modulation transformers, *DIRECT energy conversion

Abstract

This paper discusses and compares phase-shifted pulse-width modulation (PS-PWM) and level-shifted PWM (LS-PWM) in a modular multilevel single-delta bridge-cell (SDBC) inverter for utility-scale grid-tied photovoltaic applications. This three-phase SDBC inverter provides the capability of operating even under power-distribution imbalances not only among three clusters, but also among cascaded bridge cells in each cluster. The main focus of this research lies in analyzing the capability of operation under severe power-distribution imbalances and presenting power-balancing methods based on zero-sequence current injection, which result in an extended power-balancing capability. This paper highlights that LS-PWM is superior to PS-PWM in both power-balancing capability and harmonic performance at the ac side of the SDBC inverter when operating under power-distribution imbalances. Experimental results obtained from a three-phase 10-kW downscaled system show good agreement with those from the theoretical analysis. [ABSTRACT FROM AUTHOR]

Published

2017

6. Advanced PWM Switching Technique for Accurate Unity Power Factor of Bidirectional Three-Phase Grid-Tied DC–AC Converters.

Author

Sayed, Mahmoud A., Takeshita, Takaharu, and Kitagawa, Wataru

Subjects

*AC DC transformers, *DC-AC converters, *MATRIX converters, *PULSE width modulation inverters, *VOLTAGE references

Abstract

Matrix-based high-frequency linked (MBHFL) bidirectional dc–ac converters are getting much interest in grid-tied applications due to their high efficiency and the compacted footprint. This paper proposes a new PWM switching technique of the MBHFL dc–ac converters based on phase shift angle considering compensation of the LC filter current at the grid side in order to realize accurate unity power factor and to reduce the total harmonic distortion (THD) of the grid current waveform. The proposed technique estimates the phase shift angle error between the grid voltage and current waveforms due to the capacitor injected current that reduces the power factor at the grid side. It considers two operational modes based on the patterns of three-phase grid voltage and current waveforms. Therefore, it provides the matrix converter switches with different duties according to the pattern of the detected grid voltage and the reference grid current to compensate the phase shift angle error. Also, grid LC filter design and the system controllable limit of the matrix converter output voltage are presented. In addition, the PWM switching technique of the H-bridge circuit is modified to realize safe operation of the converter during step changes at the grid voltage. The effectiveness of the proposed PWM switching technique and its related mathematical model have been investigated experimentally using laboratory prototype based 200 V, 2 kW. [ABSTRACT FROM AUTHOR]

Published

2019

7. Scale-Up Methodology of a Modular Multilevel Converter for HVdc Applications.

Author

Alharbi, Mohammed and Bhattacharya, Subhashish

Subjects

*HIGH voltages, *DIRECT currents, *VOLTAGE-frequency converters, *GATE array circuits, *IDEAL sources (Electric circuits), *TEXT messages

Abstract

Modular multilevel converters (MMCs) are a realistic alternative to the conventional voltage source converters for medium-voltage (MV) and high-voltage direct current (HVdc) applications. The number of submodules (SMs) per arm of the MMC can be as high as 512 to achieve desired high dc voltage levels required for HVdc with a very low total harmonic distortion (THD) (e.g., <0.1%) of the MMC ac-side interface voltage. Although the low THD of the MMC output voltage with a high number of SMs is desirable, the MMC control implementation and complexity is also important to be considered for the high number of SMs. The MMC control complexity significantly increases as the number of SMs increases. Redesigning the number of SMs in MMCs also becomes quite difficult and may require significant control upgrade, which in turn also needs additional tests and validations. This paper presents an MMC scale-up control methodology applicable for MV and HVdc applications. The number of SMs can be conveniently increased or reduced without any significant control modifications. The proposed control method and capacitor voltage balancing algorithm are implemented in the real-time digital simulator and MMC support units based on field-programmable gate array boards. The performance of the proposed MMC control method is investigated for a point-to-point MMC-based HVdc system under various operating conditions. [ABSTRACT FROM AUTHOR]

Published

2019

8. 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

9. A Flexible DC Voltage Balancing Control Based on the Power Flow Management for Star-Connected Cascaded H-Bridge Converter.

Author

Chen, Hsin-Chih, Wu, Ping-Heng, Lee, Chia-Tse, Wang, Ching-Wei, Yang, Ching-Hsiang, and Cheng, Po-Tai

Subjects

*ELECTRIC potential, *CONVERTERS (Electronics), *ELECTRIC machinery, *ELECTRIC power, *ELECTRIC currents

Abstract

This paper presents the flexible dc capacitor voltages balancing control method for star-connected cascaded H-bridge converters. In this paper, the power flows are analyzed by investigating all the converter's control freedoms. Based on the analyses, users can accomplish the dc capacitor voltage balancing with both negative-sequence current and zero-sequence voltage. These two kinds of control options are further integrated together with the defined weighting factor $K$. The low-voltage ride-through operation of a proposed control method is also discussed in this paper. The control method is verified with a 220-V 1-kVA static synchronous compensators based on the star-connected cascaded H-bridge converters, and the experimental test results show that all the dc voltages are well regulated at the commanded value with different weighting factor $K$. [ABSTRACT FROM AUTHOR]

Published

2016

10. DC-Bus Voltage Balancing Algorithm for Three-Level Neutral-Point-Clamped (NPC) Traction Inverter Drive With Modified Virtual Space Vector.

Author

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

Subjects

*BALANCING of machinery, *PERMANENT magnet motors, *DIRECT currents, *HARMONIC generation, *ELECTRIC potential

Abstract

A modified-virtual-space-vector-based dc-link voltage balancing strategy is proposed in this paper for a three-level inverter. In the proposed strategy, the summation of the three-phase currents for virtual vector needs not to be zero and it also keeps the two capacitor voltages balanced with wider range of load variations. The duty cycles for all the power switches are also derived in this paper using a nearest three-voltage vector scheme. Due to the reduced use of the medium voltage vectors, the proposed control strategy can considerably decrease the neutral-point voltage fluctuation for lower power-factor-based loads as well. Detailed simulation and experimental studies are also carried out to show the effectiveness of the proposed system with a dc-link voltage balancing strategy with permanent magnet synchronous machine. Voltage and current harmonic distortions are also presented with change in modulation index. A Dspace-based real-time operating system is used for real-time implementation with a 6.0-kW surface permanent magnet synchronous motor. [ABSTRACT FROM PUBLISHER]

Published

2016

11. Test Fixtures to Apply Variable DC Bias and AC Ripple Current for Reliability Testing of Electrolytic Capacitors.

Author

Wang, Xuechao, Karami, Marzieh, and Tallam, Rangarajan M.

Subjects

*ELECTROLYTIC capacitors, *ACCELERATED life testing, *CAPACITOR banks, *SOFTWARE reliability, *EXAMINATIONS, *SERVICE life, *CAPACITORS

Abstract

Electrolytic capacitors are widely used in the dc link of variable frequency drives (VFDs). Their reliability has a significant impact on VFD performance and lifetime. Typically, the lifetime of electrolytic capacitors is specified in vendors’ datasheets at the rated continuous dc voltage and at the rated ripple current at one fixed frequency, under rated temperature, and humidity conditions. In order to analyze and verify their life time specified in the datasheet, a test fixture is needed to apply both adjustable dc-bias voltage and ac ripple current at a specific frequency. In this paper, two portable test fixtures with low kVA requirements are proposed for electrolytic capacitor reliability testing for different dc-bias voltage. The test fixtures can easily be scaled to test large capacitors with high ripple current rating. Multiple capacitor samples or entire capacitor bank assemblies used in VFDs can be tested. Design details of the test fixtures and reliability test results are provided. [ABSTRACT FROM AUTHOR]

Published

2019

12. A Three-Phase Grid-Connected Inverter Equipped With a Shunt Instantaneous Reactive Power Compensator.

Author

Takagi, Kazuto and Fujita, Hideaki

Subjects

*REACTIVE power, *ELECTROLYTIC capacitors, *PULSE width modulation, *ELECTRIC inverters

Abstract

This paper introduces a three-phase grid-connected inverter for commercial-scale photovoltaic systems. The circuit topology combines an ac-inductor-less active bridge with a parallel-connected pulsewidth modulation inverter acting as an instantaneous reactive power compensator. The active bridge, called a 120° conduction inverter, operates at a switching frequency equal to the grid frequency and outputs a 120° rectangular current, while the compensator eliminates the harmonic currents included in the rectangular current. The main advantage of this strategy is the reduction in size of the required ac inductor by a factor of 4, as well as the reduction of power losses in the switching devices. The theoretical analysis clearly shows that the compensator can synthesize a sinusoidal output current by controlling only instantaneous reactive power, thus eliminating the need for electrolytic capacitors. A 5-kW experimental setup validates the operating principle and the control method of the proposed inverter and exhibits an inverter efficiency as high as 99.2% with Si superjunction mosfets. [ABSTRACT FROM AUTHOR]

Published

2019

13. Highly Reliable Back-to-Back Power Converter Without Redundant Bridge Arm for Doubly Fed Induction Generator-Based Wind Turbine.

Author

Ni, Kai, Hu, Yihua, Lagos, Dimitris T., Chen, Guipeng, Wang, Zheng, and Li, Xinhua

Subjects

*ELECTRIC current converters, *WIND turbines, *PULSE width modulation, *TORQUE, *COMPUTER simulation

Abstract

In this paper, a highly reliable back-to-back (BTB) power converter is proposed for doubly fed induction generator-based wind turbines (DFIG-WTs). When a power switch open-circuit fault is encountered in either the grid-side converter (GSC) or the rotor-side converter (RSC), a four-switch three-phase (FSTP) topology is formed to avoid using redundant bridge arms, which reduces the power circuit complexity and minimizes the conduction and switching losses. A simplified space vector pulsewidth modulation technique is used to eliminate sector identification and complex trigonometric calculations. In addition, the influence of dc-bus capacitor voltage unbalance on the electromagnetic torque is analyzed in detail. The offset current components are calculated, and they are deducted from the reference values in the modified control strategies to suppress the dc-bus voltage deviation. Moreover, the power loss model of a BTB converter is analyzed in detail, and the efficiency study is performed in various post-fault situations. Simulations in MATLAB/Simulink are carried out to verify the performance of a DFIG-WT based on a FSTP BTB converter. Furthermore, the control hardware-in-the-loop setup with RSC and GSC separately simulated in a digital real-time simulator is applied for experimental verification of the proposed control strategy. [ABSTRACT FROM AUTHOR]

Published

2019

14. 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

15. A Generalized Discontinuous PWM Scheme for Three-Level NPC Traction Inverter With Minimum Switching Loss for Electric Vehicles.

Author

Mukherjee, Sarbani, Kumar Giri, Santu, Kundu, Sourabh, and Banerjee, Subrata

Subjects

*ELECTRIC inverters, *PULSE width modulation, *ELECTRIC vehicles, *CAPACITORS, *CLOSED loop systems

Abstract

A discontinuous pulsewidth modulation (DPWM) strategy for three-level neutral-point-clamped (NPC) traction inverter drive for electric vehicles (EVs) with minimum switching loss for the full power factor (PF) range is developed and presented in this paper. Considering the dynamic loading conditions in an EV propelled by an induction motor (IM), the discontinuous modulation strategy is generalized to obtain minimum switching loss for a wide variations in load PF and modulation depth. The dynamic operating conditions in EV may render frequent unbalances in dc-link capacitor voltages in NPC inverter. It is demonstrated that the addition of an appropriate offset signal with the reference discontinuous signals generates compensating neutral current in the right direction, which can be used to mitigate existing unbalance in two dc-link capacitor voltages. Minimum switching loss at variable PF is attained by positioning the nonswitching clamped regions of the reference auxiliary signals according to the load PF. The effectiveness of the proposed scheme for a wide range of torque/speed variations is studied through simulation by developing a MATLAB/SIMULINK model of an IM traction inverter drive with field-oriented control strategy for closed loop control. Finally, the modulation scheme is validated through experimentation in a small-scale prototype NPC inverter with motor loads. [ABSTRACT FROM AUTHOR]

Published

2019

16. 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

17. 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

18. 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

19. Modified DC-Bus Voltage Balancing Algorithm for a Three-Level Neutral-Point-Clamped PMSM Inverter Drive With Reduced Common-Mode Voltage.

Author

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

Subjects

*ELECTRIC motors, *ELECTRIC inverters, *ELECTRIC drives, *ALGORITHMS, *CAPACITORS, *ELECTRIC capacity

Abstract

This paper presents an improved dc-link voltage balancing algorithm for a three-level neutral-point-clamped inverter by considering phase current direction. Detailed studies on the effects of change in load current direction on the dc-link capacitor voltages are presented. A maximum value of power factor is numerically derived, above which it affects the capacitor voltage balancing capability. Compared with the previously presented research work, the inputs to the space-vector pulsewidth-modulation block are the three phase currents and the difference between the two capacitor voltages. Depending on the states of the two dc-link capacitor voltages and phase current direction, redundant voltage vector sequences are selected. The selected vectors keep the capacitor voltage deviations within 5% of the total dc-link voltage. Two zero switching vectors (i.e., PPP and NNN) are also removed from all subsectors of the earlier proposed strategy, which one used to produce higher common-mode voltages. Detailed simulation and experimental results are presented in this paper for a 6.0-kW surface permanent-magnet synchronous machine. Both the simulation and experimental results show the required performance of the proposed system. [ABSTRACT FROM AUTHOR]

Published

2016

20. Zero-Sequence Voltage Injection for DC Capacitor Voltage Balancing Control of the Star-Connected Cascaded H-Bridge PWM Converter Under Unbalanced Grid.

Author

Chen, Hsin-Chih, Wu, Ping-Heng, Lee, Chia-Tse, Wang, Ching-Wei, Yang, Ching-Hsiang, and Cheng, Po-Tai

Subjects

*ELECTRIC potential, *CAPACITORS, *CONVERTERS (Electronics), *PULSE width modulation transformers, *REACTIVE power

Abstract

This paper presents a dc capacitor voltage balancing control method for the star-connected cascaded H-bridge pulsewidth modulation converter in the static synchronous compensator applications. With the zero-sequence voltage injection as a basis for dc capacitors voltage balancing, this paper investigates the detailed power flow of the converter as a whole and within individual modules under unbalanced grid voltages and then proposes a method to control the reactive power output and the dc capacitors voltage by precisely managing the power flow. This approach enhances the low-voltage ride-through capability, which is very critical as the penetration of distributed energy resources grows rapidly. The proposed control method is verified by a scaled-down prototype in the laboratory. [ABSTRACT FROM PUBLISHER]

Published

2015

21. Control and Experiment of a Modular Multilevel Cascade Converter Based on Triple-Star Bridge Cells.

Author

Kawamura, Wataru, Hagiwara, Makoto, and Akagi, Hirofumi

Subjects

*ELECTRIC power factor, *CYCLOCONVERTERS, *VOLTAGE control, *PULSE width modulation, *BRIDGE circuits, *TRIPLE stars, *MULTILEVEL models

Abstract

This paper presents a modular multilevel cascade converter based on triple-star bridge cells (MMCC-TSBC), devoting itself to control and experiment. The TSBC is one of the direct ac-to-ac power converters capable of bidirectional power flow with three-phase sinusoidal currents with any power factor at both supply (input) and motor (output) sides. Therefore, it is suitable for medium-voltage high-power motor drives with regenerative braking, intended to replace a conventional line-commutated cycloconverter using thyristors. This paper provides an intensive discussion on how to control the whole TSBC system, how to regulate and balance the dc mean voltages of all the dc capacitors, and how to mitigate their ac voltage fluctuations. The validity and effectiveness of the proposed control strategy and tactics are verified by a three-phase 400-V 15-kW downscaled model. [ABSTRACT FROM AUTHOR]

Published

2014

22. Three-Phase Unidirectional Rectifiers With Open-End Source and Cascaded Floating Capacitor H-Bridges.

Author

Mello, Joao Paulo Ramos Agra, Jacobina, Cursino Brandao, and de Rossiter Correa, Mauricio Beltrao

Subjects

*AC DC transformers, *CASCADE converters, *CAPACITORS, *PULSE width modulation, *POWER electronics

Abstract

This paper presents two topologies of three-phase semicontrolled rectifiers suitable for open-end ac power sources. The rectifiers are composed of a combination of two-level three-phase bridges (controlled, semicontrolled, or uncontrolled) and three single-phase floating capacitor h-bridges (controlled). These topologies generate two powered dc-links, each one belonging to a three-phase bridge. They present a reduced number of controlled power switches if compared with other open-end configurations of similar complexity found in the literature. It is also proposed a space-vector pulse-width modulation (SV-PWM) approach and a method of floating capacitor voltage control dedicated to the topologies with an equivalent approach based on the level-shifted PWM (LS-PWM). The proposed SV-PWM solving method is based on a redundant state selection (RSS) technique, which allows the floating capacitors voltage regulation. On the other hand, the LS-PWM solving method is based on the neutral voltage selection, which is shown to be equivalent to the SV-PWM RSS technique seen from the control system. Simulation results are shown to validate proposed topologies, as well as the SV-PWM and LS-PWM techniques, and the control strategy. Experimental results are shown to demonstrate proposed configurations feasibility. [ABSTRACT FROM PUBLISHER]

Published

2018

23. Alternative Breed of Three-Phase Four-Wire Shunt Compensators Based on the Cascaded Transformer With Single DC Link.

Author

de Almeida Carlos, Gregory Arthur, Jacobina, Cursino Brandao, and dos Santos, Euzeli Cipriano

Subjects

*ELECTRICAL harmonics, *SYNCHRONOUS capacitors, *POWER supply quality, *PULSE width modulation, *ELECTRIC power filters, *ELECTRIC transformers

Abstract

This paper discusses a variety of four-wire (4W) multilevel shunt compensators to deal with either harmonic or reactive power compensation. The converter configurations are generalized for K-stages and the main benefits of the proposed topologies lie on multilevel waveforms generation, single dc-link unit, and modular characteristic. The configurations are based on cascaded transformers along with three-phase-bridge converters. These converters are directly connected to the transformer primary side. A suitable pulse-width modulation strategy combined with an appropriate transformer turns ratio guarantees the desired multilevel output waveforms. The modularity feature provides simple maintenance and makes the proposed shunt active power filters an attractive solution in comparison with conventional configurations. The configuration model and overall control are addressed as well. Simulation and experimental results are presented for theoretical validation. [ABSTRACT FROM PUBLISHER]

Published

2018

24. A Guide to Matching Medium-Voltage Drive Topology to Petrochemical Applications.

Author

Zargari, Navid R., Cheng, Zhongyuan, and Paes, Richard

Subjects

*CONVERTERS (Electronics), *SWITCHING power supplies, *ELECTRIC potential, *ELECTRIC inverters, *AUTOMATIC control systems

Abstract

Medium-voltage drives are regularly used in the petrochemical industry. These drives often vary in topology, semiconductor design, and principles of operation. They each have their own merits, not only in terms of structure, design, and reliability, but also with regard to suitability to specific applications. This paper presents a technology overview of commercially available medium-voltage drive topologies with a view on how they match to petrochemical applications. The operating and performance characteristics of each drive topology are reviewed while manufacturer-specific implementation details are excluded. Common industry and application requirements such as harmonics, motor compatibility, regeneration capability, dynamic performance, and robustness to system power disturbances are used as comparison criteria. Application aspects such as commissioning and operation challenges are highlighted from a practical point of view. [ABSTRACT FROM AUTHOR]

Published

2018

25. Analysis and Implementation of Closed-Loop Control of Electrolytic Capacitor-Less Six-Pulse DC-Link Bidirectional Three-Phase Grid-Tied Inverter.

Author

Kanakesh, V. K., Yelaverthi, Dorai Babu, Ghoshal, Anirban, Rathore, Akshay Kumar, and Mahanty, Ranjit

Subjects

*ELECTROLYTIC capacitors, *CONVERTERS (Electronics), *UNINTERRUPTIBLE power supply, *BATTERY chargers, *DIRECT current circuits

Abstract

Cascaded bidirectional dc–ac converters are commonly used in uninterruptible power supply applications and battery chargers for electric vehicles. Power conversion units for such applications employ a large electrolytic capacitor at high-voltage dc bus, which not only reduces the lifetime but also adds to the weight of the converter. In this paper, a novel bidirectional dual active bridge cascaded three-phase converter (DABCC) with six-pulse dc link is proposed. Also, a new closed-loop control scheme to implement the six-pulse modulation (SPM) technique in DABCC is proposed. The advantages of the proposed control scheme in DABCC are that the electrolytic capacitor is eliminated and is replaced with a low-value film capacitor resulting in increased reliability, compactness, and reduced cost. SPM technique also increases the dc bus utilization and decreases the inverter average switching frequency to 33% when compared with the conventional sine pulse-width modulation (SPWM). Harmonic components introduced in the pole voltages of the SPM-modulated DABCC due to inverter dead time are analyzed, and a resonant controller is designed to mitigate them. Also, root mean square current stress for high-voltage dc-link capacitor is studied, and it is shown that the capacitor requirement for SPM modulation is lower than the conventional SPWM. To validate the proposed control scheme, an 800-W proof-of-concept laboratory hardware prototype is fabricated and experimental results are demonstrated. [ABSTRACT FROM PUBLISHER]

Published

2018

26. Soft-Switching PWM Technique for Grid-Tie Isolated Bidirectional DC?AC Converter With SiC Device.

Author

Sayed, Mahmoud A., Suzuki, Kazuma, Takeshita, Takaharu, and Kitagawa, Wataru

Subjects

*PULSE width modulation, *MATRIX converters, *ELECTRIC power conversion, *GALVANIC isolation, *ELECTRICAL engineering

Abstract

Soft-switching techniques have become very attractive in bidirectional grid-tie dc–ac converters utilizing high-frequency link transformers for galvanic isolation. This paper presents a new pulse-width modulation (PWM) switching technique for controlling a bidirectional isolated dc–ac–ac converter along with its soft-switching method. The proposed PWM technique has the ability to control the input dc current and to inject a sinusoidal three-phase current to the grid at unity power factor. In the first stage, an H-bridge converter is used to convert the dc voltage to a high-frequency square-wave single-phase voltage. In the second stage, a matrix converter is used to convert the high-frequency voltage waveform to conventional three-phase voltage synchronized with the grid. Therefore, a single-phase high-frequency transformer is used to link the H-bridge output voltage to the matrix converter input voltage. The proposed soft-switching technique is achieved by connecting shunt ceramic capacitors across all converter switches. The mathematical model and the circuit operation for soft-switching are presented along with the voltage controllable limits. The effectiveness of the proposed technique has been verified experimentally using a laboratory prototype. [ABSTRACT FROM PUBLISHER]

Published

2017

27. Topology and Capacitor Voltage Balancing Control of a Symmetrical Hybrid Nine-Level Inverter for High-Speed Motor Drives.

Author

Wang, Kui, Zheng, Zedong, Wei, Dabo, Fan, Boran, and Li, Yongdong

Subjects

*ELECTRIC inverters, *MOTOR drives (Electric motors), *PULSE width modulation, *CASCADE converters, *ELECTRICAL engineering

Abstract

In order to increase the output voltage levels and reduce the isolated dc sources, a symmetrical hybrid nine-level inverter for high-speed motor drive applications is presented in this paper. Each phase of this inverter is composed of a five-level dc/dc converter cell and an H-bridge cell. The dc/dc converter is operated at high frequency with low-voltage devices and the H-bridge is operated at fundamental frequency with high-voltage devices. The three phases are connected to a common dc-link and each drives an isolated winding of an open-winding motor. The operating principles and modulation method are introduced. A detailed analysis of the average currents through the flying capacitor and neutral point of the dc-link is presented and a capacitor voltage balancing method based on phase-shifted pulse-width modulation is proposed. Simulation and experimental results are presented to demonstrate the feasibility of this topology and control method. [ABSTRACT FROM PUBLISHER]

Published

2017

28. 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

29. Shunt Active Power Filter Based on Cascaded Transformers Coupled With Three-Phase Bridge Converters.

Author

de Almeida Carlos, Gregory Arthur, Jacobina, Cursino Brandao, Mello, Joao Paulo Ramos Agra, and Santos, Euzeli Cipriano dos

Subjects

*ELECTRIC power filters, *BRIDGE circuits, *ELECTRONIC circuits, *SHUNT electric reactors, *PULSE width modulation transformers

Abstract

This paper proposes a multilevel shunt active power filter (SAPF) to deal with either harmonic current compensation or reactive power compensation. Such a device can reduce the harmonic distortion at the grid currents provided by nonlinear loads located in stiff systems. The proposed SAPF is based on three-phase bridge converters connected to cascaded single-phase transformers. The transformer arrangement permits the compensator to use a single dc-link unit, which simplifies the control strategy and the number of sensors. The multilevel waveforms are generated by using a suitable pulse-width modulation (PWM) strategy associated with the transformer turns ratio. Modularity and simple maintenance make the proposed SAPF an attractive solution compared with some conventional configurations. The model, the PWM technique, and the control strategy are presented, as well as studies considering harmonic distortion and semiconductor losses estimation. Simulation and experimental results are presented in order to validate theoretical approaches. [ABSTRACT FROM AUTHOR]

Published

2017

30. Resonance Reduction for AC Drives With Small Capacitance in the DC Link.

Author

Mathe, Laszlo, Torok, Lajos, Wang, Dong, and Sera, Dezso

Subjects

*ALTERNATING currents, *ELECTRIC capacity, *DIRECT currents, *PULSE width modulation, *CAPACITORS

Abstract

Pulse-width modulated ac drives equipped with a small dc-link capacitor are becoming an attractive solution for electric drive applications with moderate requirements for shaft dynamic performance. However, when these drives are fed from a weak grid, a resonance between the line side impedance and the dc-link capacitor appears. Due to this resonance, the total harmonic distortion and the partially weighted harmonic distortion of the line currents are increased, which may raise compatibility problems with the ac line harmonic standards. This paper proposes a novel dc-link voltage compensation method, which can reduce the amplitude of the aforementioned oscillation, while the large dc-link voltage variation, caused by the rectification, can be eliminated from the motor current. The method has been experimentally validated and the results show excellent performance. [ABSTRACT FROM AUTHOR]

Published

2017

31. Multilevel Reduced Controlled Switches AC–DC Power Conversion Cells.

Author

Mello, Joao Paulo Ramos Agra, Jacobina, Cursino Brandao, and da Silva, Italo Roger Ferreira Moreno Pinheiro

Subjects

*AC DC transformers, *ELECTRIC switchgear, *HIGH voltages, *COMPUTER simulation, *CAPACITORS

Abstract

This paper presents multilevel ac–dc single-phase power conversion cells for applications in which the regenerative operation is either not required or prohibited. The ac primary power source is a single phase from a permanent magnet generator or from an electrical grid. The cells are composed of two h-bridges in cascade: 1) an unidirectional high-voltage h-bridge with two controlled switches; and 2) two power diodes, processing the active power, and a low-voltage h-bridge with four controlled switches and a floating capacitor. These cells can be part of multiphase systems, in which it is required one cell for each phase. Some examples of application for three-phase systems are given, exploring different ways of connection between the single-phase cells. Simulation and experimental results regarding the proposed cells and conventional h-bridge based ac–dc converters are shown for validation and comparison purposes. [ABSTRACT FROM PUBLISHER]

Published

2017

32. A PFC Modified Landsman Converter-Based PWM-Dimmable RGB HB-LED Driver for Large Area Projection Applications.

Author

Jha, Aman Kumar and Singh, Bhim

Subjects

*ELECTRIC power factor, *CONVERTERS (Electronics), *PULSE width modulation, *HIGH-brightness accelerators, *LIGHT emitting diodes

Abstract

In this paper for power factor correction (PFC), a modified Landsman converter is introduced. The application is targeted for high-brightness (HB) projection application with brightness control for HB red–green–blue (HB-RGB) light-emitting diode (LED). A pulse-width modulation (PWM) technique is used for intensity control to achieve brightness control of the LED driver. The proposed PFC converter is used to feed a dual output flyback dc–dc converter that supplies power to the forced cooling unit and the LED module with galvanic isolation. The brightness control of LED is performed by synchronous buck converter. The modified Landsman converter operates in discontinuous output inductor current mode for PFC at universal ac mains. A prototype of the proposed LED driver is experimentally verified. The performance of proposed driver is evaluated at full and light-load condition for universal ac mains (90–265 V) over a full range of brightness. The power quality parameters are found within the acceptable limits of harmonic standard IEC 61000-3-2 for universal ac mains. [ABSTRACT FROM PUBLISHER]

Published

2017

33. Novel Integrated CM Inductor for Single-Phase Power Converters With Reduced EMI.

Author

Hedayati, Mohammad H. and John, Vinod

Subjects

*CONVERTERS (Electronics), *ELECTROMAGNETIC interference, *NOISE, *ELECTRIC power distribution grids, *ELECTRIC inductors

Abstract

Ground leakage current and electromagnetic interference noise are important challenges during design of grid-connected power converters. Use of common-mode (CM) choke helps to mitigate these issues. A common practice is to use a separate CM filter and a differential mode LCL filter. In this paper, an integrated CM inductor (ICMI) is proposed in which the LCL filter boost inductor and the CM choke are combined into a single component. This results in a reduction in the number of magnetic components required to build the power converter. Steps involving design of the ICMI are provided. The proposed ICMI is fabricated in the laboratory. Experimental test are carried out on a 5-kW single-phase grid-connected power converter to validate the effectiveness of the proposed ICMI. The results show that the use of proposed ICMI along with an added ground capacitor in the power circuit as a CM filter can reduce the electromagnetic interference noise level up to 30 dB. [ABSTRACT FROM PUBLISHER]

Published

2017

34. Hybrid Modular Multilevel DSCC Inverter for Open-End Winding Induction Motor Drives.

Author

da Silva, Italo Roger Ferreira Moreno Pinheiro, Jacobina, Cursino Brandao, Oliveira, Alexandre Cunha, de Almeida Carlos, Gregory Arthur, and de Rossiter Correa, Mauricio Beltrao

Subjects

*ELECTRIC inverters, *MOTOR drives (Electric motors), *ELECTRONIC modulation, *TOPOLOGY, *ELECTRIC potential

Abstract

This paper proposes a hybrid modular multilevel drive system based on a modular multilevel cascade inverter (MMCI) with double-star chopper cells (DSCC) and a two-level (2L) inverter to feed three-phase induction motors with open-end windings (OEWs). The proposed system is an alternative for high-speed motor drives based on a small-scale DSCC topology. A voltage reference technique is presented based on the analysis of the degrees of freedom of the system for generating the output voltage references, considering any voltage ratios of the dc links. The proposed system is evaluated in a symmetric scenario, in which the dc-link voltages are equal. Thus, the 2L inverter is set up to operate at the fundamental frequency, while the DSCC inverter synthesizes the output voltage references from high-quality waveform with a significant number of voltage levels. Experimental results obtained from a downscaled 10-kVA 380-V prototype driving a full loaded 3.7-kW OEW induction motor are provided to verify the viability of the proposed system. [ABSTRACT FROM PUBLISHER]

Published

2017

35. A Highly Reliable Single-Phase High-Frequency Isolated Double Step-Down AC?AC Converter With Both Noninverting and Inverting Operations.

Author

Ahmed, Hafiz Furqan, Cha, Honnyong, Khan, Ashraf Ali, and Kim, Heung-Geun

Subjects

*CONVERTERS (Electronics), *ELECTRIC power conversion, *ROTARY converters, *ELECTRIC currents, *TECHNOLOGY

Abstract

In this paper, the switching cell concept is extended to isolated ac–ac converters, and a highly reliable double step-down ac–ac converter is proposed with high-frequency transformer (HFT) isolation. By using the switching cell structure and coupled inductors, the proposed converter has no commutation problem as it is immune from both short-circuit and open-circuit problems, even when all the switches are turned on or turned off, simultaneously. Therefore, it does not require pulse width modulation dead times along with bulky and lossy RC snubbers or voltage-sensing circuitry to implement soft-commutation strategies, resulting in high reliability and high quality output waveforms. The HFT in the proposed converter provides electrical isolation and safety which is required in applications such as dynamic voltage restorer (DVR), solid-state transformer (SST), etc., without the need for external bulky line frequency transformer. Moreover, all the passive components experience twice the switching frequency; therefore, their size can be reduced. The proposed converter is very suitable for application as DVR, to compensate both voltage sags and swells, owing to its ability to provide both inverting and noninverting outputs. A detailed theoretical analysis and operation of the proposed ac–ac converter are provided, and its applications as DVR and SST are also discussed. Experimental results with scaled-down prototype are also provided to verify its performance. [ABSTRACT FROM AUTHOR]

Published

2016

36. Mitigation of the Effects of Common-Mode Current on the Operation of SCR-Based Rectifiers for AC Drives.

Author

Patel, Yogesh P., Tallam, Rangarajan M., Brown, Brian P., Busse, Doyle F., Hu, Jiangang, Campuzano, Daniel, and Strandt, Alia R.

Subjects

*ELECTRIC machinery, *ELECTRIC currents, *DIRECT energy conversion, *ELECTRIC resistors, *CIRCUIT elements

Abstract

Common-mode current generated by the pulse-width modulated (PWM) ac drive at low modulation index and higher switching frequency results in overheating of the precharge resistor of the silicon-controlled rectifier (SCR)-based rectifier. In this paper, two modifications are proposed for the operation of SCR-based rectifiers to significantly reduce the resistor overheating issue. The solution is cost and size effective when compared with alternative solutions. Experimental results are provided to show the reduction of common-mode current flow through the precharge resistor and the consequent reduction in its temperature. [ABSTRACT FROM AUTHOR]

Published

2016

37. Operation of Current Source Inverters in Discontinuous Conduction Mode.

Author

Drews, Daniel, Cuzner, Robert, and Venkataramanan, Giri

Subjects

*ELECTRIC inverters, *ELECTRIC currents, *ELECTRIC machinery, *SYSTEMS design, *TECHNOLOGY

Abstract

This paper identifies the characteristics of a current source inverter operating in discontinuous conduction mode, and proposes a new multiobjective pulse-width modulation (PWM) method to mitigate voltage boosting and harmonic distortion effects. The method takes into account load impedance effects. Controls are also developed to enable transition between the multiobjective PWM method and conventional PWM as the current source inverter operates in discontinuous and continuous modes of operation. The concept is verified experimentally on a 3 kW test bed. [ABSTRACT FROM AUTHOR]

Published

2016

38. A Modified Static Ground Power Unit Based on Novel Modular Active Neutral Point Clamped Converter.

Author

Abarzadeh, Mostafa, Kojabadi, Hossein Madadi, and Chang, Liuchen

Subjects

*CASCADE converters, *ELECTRIC power system harmonics, *ELECTRIC power conversion harmonics, *ELECTRIC inductance, *ELECTRIC inductors

Abstract

Two new configurations of static ground power unit based on 5L active neutral point clamped (ANPC) and novel modular 9L-ANPC converter are proposed. First, a new level shifted phase-shifted carrier pulse-width modulation (LS-PSC-PWM) switching method for the 5L-ANPC converter is defined. By utilizing the proposed method, total harmonic distortion of output voltage is reduced in comparison with traditional PSC-PWM switching method. Then, a novel modular 9L-ANPC multilevel converter and its suggested modulation method is proposed in this paper. In comparison with traditional 9L-ANPC converter, the main advantages of proposed modular 9L-ANPC converter are halving the applied voltages on flying capacitors (FC), reduced number of FCs, and self-balancing of FCs, which is provided by suggested switching method. This results in reduction of the size and cost of converter, and makes it more feasible and reliable. Furthermore, inductance reduction of output LC filter enhances static ground power unit dynamic performances. The simulation and experimental results verified the feasibility and performance of proposed converters. [ABSTRACT FROM PUBLISHER]

Published

2016

39. Investigation of Three-Phase AC–DC–AC Multilevel Nine-Leg Converter.

Author

Maia, Ayslan Caisson Noroes, Jacobina, Cursino Brandao, de Freitas, Nayara Brandao, and Vitorino, Montie Alves

Subjects

*VOLTAGE regulators, *ELECTRIC controllers, *VOLTAGE control, *ELECTRIC power factor, *PULSE width modulation

Abstract

In this paper, a reversible multilevel nine-leg converter for three-phase applications is investigated. This topology can be applied in line voltage regulators, power factor correction devices, and uninterrupted power supplies. It is composed of three single-phase three-leg converters with a leg shared by both load and grid sides. Suitable modeling, a pulse-width modulation (PWM) strategy based on a vector approach, and a control system are developed. The proposed PWM and control strategies are suitable to balance the dc-link voltages and to optimize the harmonic distortion, reducing switching stress and power losses. The investigated configuration is compared with two conventional topologies, including a neutral-point-clamped converter and has demonstrated that it presents some advantages in terms of voltage rating of the power switches, harmonic distortion, and semiconductor losses. Computer simulations and experimental results have been carried in the same operation conditions to verify the validity of theoretical considerations. [ABSTRACT FROM PUBLISHER]

Published

2016

40. Characteristics of Independent Two Induction Motor Drives Fed by a Four-Leg Inverter.

Author

Matsuse, Kouki, Kezuka, Nobutaka, and Oka, Kazuo

Subjects

*ELECTRIC inverters, *INDUCTION motors, *CAPACITORS, *PULSE width modulation, *ELECTRIC switchgear, *NICKEL, *ELECTRONIC modulation, *ALTERNATING current machinery

Abstract

This paper presents the experimental results of the independent drive characteristics of two three-phase induction motors (IMs) fed by a four-leg inverter (FLI). The FLI is a single inverter that can drive two three-phase ac motors independently. The inverter consists of four legs and two capacitors connected in a series. The U and V phases of both motors are connected in each leg, respectively, whereas the W phase of both motors is connected in the neutral point of two-sprit capacitors. The pulsewidth modulation technique in three-phase voltage source inverter is not directly applicable for the FLI because only two phases must be modulated. Then, this paper also analyzes about the neutral point potential of two-sprit capacitors and inverter output voltage. Next, the modulation technique in the FLI is also shown. The experimental results demonstrate the characteristics of two IM independent drives and the validity of those analytic results. [ABSTRACT FROM AUTHOR]

Published

2011

41. Flux-Weakening Strategy of an Induction Machine Driven by an Electrolytic-Capacitor-Less Inverter.

Author

Yoo, Anno, Sul, Seung-Ki, Kim, Hyeseung, and Kim, Kyung-Seo

Subjects

*ELECTRIC inverters, *INDUCTION motors, *ELECTROLYTIC capacitors, *FLUCTUATIONS (Physics), *STABILITY (Mechanics), *TORQUE, *ELECTRIC current rectifiers

Abstract

This paper presents a novel flux-weakening strategy for an induction machine driven by an electrolytic-capacitor-less inverter. In the electrolytic-capacitor-less inverter, the dc-link voltage is fluctuating at six times the frequency of the input three-phase source due to its small dc-link capacitance. Hence, the decoupling of the fluctuation and maximum utilization of the dc-link voltage is a major issue in the electrolytic-capacitor-less inverter. In this paper, the cost function is set to increase the voltage utilization of the inverter for the flux-weakening operation of an induction machine. With the proposed flux-weakening strategy, the operating speed of the induction machine is extended above the base speed without any stability problems. The experimental results show the effectiveness of the proposed strategy. [ABSTRACT FROM AUTHOR]

Published

2011

42. Investigation on Dynamic Voltage Restorers With Two DC Links and Series Converters for Three-Phase Four-Wire Systems.

Author

Carlos, Gregory Arthur de Almeida, Jacobina, Cursino Brandao, and dos Santos, Euzeli Cipriano

Subjects

*VOLTAGE control, *CASCADE converters, *DC-to-DC converters, *PULSE width modulation transformers, *COMPUTER simulation

Abstract

This paper proposes three dynamic voltage restorer (DVR) topologies. Such configurations are able to compensate voltage sags/swells in three-phase four-wire (3P4W) systems under balanced and unbalanced conditions. The proposed systems use two independent dc links. Proposed configurations present advantages in terms of switch blocking voltages and consequently lower dc-link voltage rating. The complete control system, including the pulsewidth modulation (PWM) technique, is developed, and comparisons between the proposed configurations and a conventional one are performed. Simulation and experimental results are provided to validate the theoretical approach. [ABSTRACT FROM AUTHOR]

Published

2016

43. A Novel Modulation Scheme and Voltage Balancing Algorithm for Modular Multilevel Converter.

Author

Dekka, Apparao, Wu, Bin, and Zargari, Navid R.

Subjects

*CAPACITORS, *ALGORITHMS, *ELECTRIC power conversion, *PULSE width modulation transformers, *HARMONIC distortion (Physics), *ELECTRIC current converters

Abstract

The control complexity of modular multilevel converter (MMC) increases with the number of submodules per arm. In particular, the implementation of a pulsewidth modulation (PWM) scheme and a voltage balancing approach for MMC is a major challenge. This paper proposes a generalized low-cost less computational decoupled sampled average PWM scheme for MMC. In this approach, the reference output voltage is generated by averaging the two nearest voltage levels from the top and bottom arms in each sampling interval. In addition, a simplified voltage balancing approach is proposed for MMC. The proposed approach does not require a sorting technique to select the submodules. Instead, the relative comparison logic is presented. The effectiveness of the proposed modulation scheme and voltage balancing approach is evaluated on a single-phase MMC system with three-level flying capacitor submodules. The proposed approach is extended to a three-phase system, which results in dynamic balancing of the zero-sequence voltage. Hence, the zero-sequence current is minimized. The performance of the proposed three-phase approach is compared with that of the conventional phase-shifted carrier PWM scheme. The simulation and experimental studies show successful voltage balancing among submodule capacitor voltage, low harmonic distortion, and less ripple in output current. [ABSTRACT FROM AUTHOR]

Published

2016

44. Single-Phase AC–AC Double-Star Chopper Cells (DSCC) Converter Without Common DC-Link Capacitor.

Author

Ferreira Moreno Pinheiro da Silva, Italo Roger, Brandao Jacobina, Cursino, and Cunha Oliveira, Alexandre

Subjects

*AC DC transformers, *CASCADE converters, *ELECTRIC current converters, *ELECTRONIC modulation, *PULSE width modulation

Abstract

This paper presents a single-phase ac–ac converter based on a modular multilevel cascade converter (MMCC) with double-star chopper cells (DSCC). The converter topology is composed of three DSCC legs, in which the middle leg is shared, and it does not present a common dc-link capacitor. It is suitable for nonregenerative or regenerative low-power and medium-power ac–ac conversions. A voltage-balancing control is presented for regulating the floating dc capacitor voltages. Furthermore, a grid current and load voltage control is presented to correct the input power factor and to ensure input/output sinusoidal waveforms. A phase-shifted carrier (PSC) pulsewidth modulation (PWM) commands submodules (SMs) using half of PSCs, preserving the characteristics of conventional modulation. Details about a downscaled prototype rated at 3.3 kW and 220 V are also presented. The experimental results allow validating the control strategies and the effectiveness of the proposed system. [ABSTRACT FROM PUBLISHER]

Published

2015

45. Detection of Capacitor Degradation in $LC$ Filters for AC Drives.

Author

Tallam, Rangarajan M., Kerkman, Russel J., and Lukaszewski, Richard A.

Subjects

*CAPACITORS, *POWER transmission equipment, *SYMMETRICAL components (Electric engineering), *ELECTRIC current rectifiers, *HARMONIC distortion (Physics)

Abstract

Adjustable-speed drives with regenerative pulsewidth modulation rectifiers—both voltage source rectifiers and current source rectifiers—have $LC$ filters on their input to attenuate the high-frequency components of current and achieve reduced levels of total harmonic distortion. The capacitors used in these filters are predominantly of the metalized film construction and are prone to catastrophic failure. In this paper, a method is proposed for the detection of capacitor degradation and location of the faulted phase. The method uses measurements of voltages and currents—which may already be available for control purposes, for line synchronization and active damping—to detect impedance asymmetry and is impervious to input voltage unbalance. [ABSTRACT FROM PUBLISHER]

Published

2015

46. A Bridgeless BHB ZVS-PWM AC–AC Converter for High-Frequency Induction Heating Applications.

Author

Mishima, Tomokazu, Nakagawa, Yuki, and Nakaoka, Mutsuo

Subjects

*INDUCTION heating, *POWER factor measurement, *PULSE width modulation, *ZERO voltage switching, *ELECTRIC power conversion

Abstract

A new prototype of a zero voltage soft-switching (ZVS) utility frequency ac to high-frequency ac resonant power converter for induction heating (IH) applications is presented in this paper. The series resonant ac–ac converter proposed herein can process the frequency conversion without any diode bridge rectifier, thereby reducing the relevant conduction power losses. In addition, power factor correction (PFC) can be naturally achieved by the inductor-based boost half-bridge circuit with the nonsmoothed dc-link. The operation principle together with an IH load power regulation scheme is described, and the converter performances including ZVS operations and PFC are demonstrated in an experiment with a 3.0-kW–30-kHz prototype by comparing it with the previously developed converter. Finally, the feasibility of the proposed ac–ac converter is evaluated from a practical point of view. [ABSTRACT FROM PUBLISHER]

Published

2015

47. Shunt Active Power Filter With Open-End Winding Transformer and Series-Connected Converters.

Author

de Almeida Carlos, Gregory Arthur, Jacobina, Cursino Brandao, dos Santos, Euzeli Cipriano, Fabricio, Edgard Luiz Lopes, and Rocha, Nady

Subjects

*ELECTRIC power filters, *ELECTRIC transformers, *ROTARY converters, *PULSE width modulation, *HARMONIC distortion (Physics), *ELECTRIC loss in electric power systems

Abstract

This paper presents a shunt active power filter based on the concept of open-end winding (OEW) transformer for three-phase three-wire systems. The proposed configuration is constituted of two converters, with three legs in each one, series-connected throughout a three-phase OEW transformer. Model, pulsewidth modulation (PWM) strategy, and control scheme are presented as well. The main advantage of the proposed system lies on the multilevel waveform generation, which allows reduction of either harmonic distortions or switching losses. This proposed topology is suitable for medium-voltage distribution systems. Simulation and experimental results validate the theoretical study. [ABSTRACT FROM PUBLISHER]

Published

2015

48. 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

49. Reduced-Capacity Smart Charger for Electric Vehicles on Single-Phase Three-Wire Distribution Feeders With Reactive Power Control.

Author

Tanaka, Hidenori, Tanaka, Toshihiko, Wakimoto, Takaaki, Hiraki, Eiji, and Okamoto, Masayuki

Subjects

*BATTERY chargers, *ELECTRIC vehicles, *REACTIVE power control, *COMPUTER simulation, *PULSE width modulation transformers

Abstract

In this paper, we propose a new control algorithm to reduce the capacity of a previously proposed smart charger for electric vehicles (EVs) on single-phase three-wire distribution feeders with reactive power control. The basic principle of the proposed control algorithm is discussed in detail. It is shown that controlling the reactive power on the source side reduces the capacity of the previously proposed smart charger. A digital computer simulation is implemented to confirm the validity of the proposed control algorithm using PSIM software. A prototype experimental model is also constructed and tested. Experimental results demonstrate that balanced source currents with a power factor of 0.9, which is acceptable for Japanese home appliances, are obtained on the secondary side of the pole-mounted distribution transformer during both the battery charging and discharging operations in EVs. The capacity of dc capacitor CDC is also reduced by 37% with the proposed reactive power control algorithm. [ABSTRACT FROM AUTHOR]

Published

2015

50. Dual-Purpose Offline LED Driver for Illumination and Visible Light Communication.

Author

Modepalli, Kumar and Parsa, Leila

Subjects

*LIGHT emitting diodes, *OPTICAL communications, *CONSTANT current sources, *PULSE width modulation transformers, *CERAMIC capacitors, *ELECTRIC power distribution

Abstract

This paper presents a dual-purpose offline LED driver with illumination control and visible light communications (VLC). LEDs, due to their nonlinear $I$– $V$ characteristics, are driven by constant current sources. The proposed dual-purpose offline LED driver realizes a constant current source by a buck converter without a capacitor using average current mode control. VLC is implemented through variable pulse position modulation scheme using a shunt switch in parallel to LED string. Conventional LED drivers are typically designed to perform illumination control with pulsewidth modulation (PWM) dimming at low frequencies ( $<$ 20 kHz), which results in audible noise due to the mechanical vibrations of inductors and piezoelectric properties of ceramic capacitors. The proposed converter presents an illumination control with PWM dimming frequencies above the audible range. The detailed control and modeling of the proposed dual-purpose LED driver using high-frequency model of LED string is discussed. The effects of the phosphor on phosphor-based white LEDs for VLC are reported. The proposed driver is experimentally evaluated on 110/120 ac mains with 450-lm output. The linear characteristics of PWM dimming for data transfer of 2 Mb/s are demonstrated. Detailed simulation and experimental results to validate the operation of the proposed converter are presented. [ABSTRACT FROM AUTHOR]

Published

2015