Showing total 275 results

251. Method for Controlling the PWM Switching: Application to Magnetic Noise Reduction.

Author

Brudny, Jean-Francois, Szkudlapski, Tifany, Morganti, Fabrice, and Lecointe, Jean-Philippe

Subjects

*PULSE width modulation transformers, *PULSE width modulation, *ELECTRICAL harmonics, *VARIABLE speed drives, *MAGNETIC noise

Abstract

This paper presents an analytical method that makes it possible to define the pulsewidth modulation (PWM) supply output voltage spectral content, particularly the harmonic phase sequences, without switching instant determination. The results obtained from these developments lead to define a PWM control strategy that allows deleting some switching harmonics in order to reduce undesirable effects. Numerical studies and experiments confirm the theoretical approach and this harmonic control strategy. [ABSTRACT FROM PUBLISHER]

Published

2015

252. Bidirectional Current-Fed Resonant Inverter for Contactless Energy Transfer Systems.

Author

Namadmalan, Alireza

Subjects

*RESONANT inverters, *ENERGY transfer, *ZERO voltage switching, *PHASE-locked loops, *INDUSTRIAL electronics

Abstract

This paper presents a bidirectional current-fed parallel resonant push–pull inverter (CFPRPI) for contactless energy conversions. In conventional CFPRPIs, each switch is in series with a blocking diode. Direct zero voltage switching (ZVS) is proposed to remove the series blocking diodes for higher efficiency and boosting ratio. In addition, the modified inverter has bidirectional power flow capability when these blocking diodes are omitted. Resonant tuning of the system is investigated by using a phase-locked loop and a new self-oscillating switching technique (SST). By using the new SST, the inverter has direct ZVS in a wide range of operating frequencies, which is necessary for inductively coupled power transfer systems. Finally, a laboratory prototype with an input voltage of 12 V and a maximum output power of 60 W has been implemented. [ABSTRACT FROM PUBLISHER]

Published

2015

253. Contour-Based Dead-Time Harmonic Analysis in a Three-Level Neutral-Point-Clamped Inverter.

Author

Dolguntseva, Irina, Krishna, Remya, Soman, Deepak E., and Leijon, Mats

Subjects

*ELECTRIC inverters, *DC-AC converters, *ELECTRIC current converters, *PULSE width modulation transformers, *ELECTRICAL harmonics

Abstract

The term dead time refers to a prime safety factor for most power electronic converter topologies, and it is included either in the control software or in the gate/base driver hardware, depending on the application as well as the control requirements. In this paper, the authors present a comprehensive numerical analysis of dead-time effects on the output voltage of a three-level neutral-point-clamped (NPC) inverter. To incorporate the dead-time effect in the output voltage, 3-D models of three-level carrier pulse width modulation (PWM) methods are modified for two dead-time implementations. Closed-form expressions of inverter phase voltage harmonics for phase opposition disposition (POD) PWM are derived based on the double Fourier series approach and modified contour plots. The harmonic spectra from numerical evaluations, simulations, and experiments for natural sampling (NS), symmetrical regular sampling (SRS), and asymmetrical regular sampling (ARS) are compared to validate the mathematical models. In addition, the fundamental voltage with respect to the dead time and the load phase angle is presented based on analytical results and simulation. [ABSTRACT FROM PUBLISHER]

Published

2015

254. High-Frequency-Link Inverter Using Combined Synchronous Rectifiers.

Author

Kan, Jiarong, Xie, Shaojun, Wu, Yunya, Tang, Yu, Yao, Zhilei, and Chen, Rong

Subjects

*FULL-wave rectifiers, *ELECTRIC inverters, *SHORT circuits, *ELECTRIC switchgear, *ELECTRIC current converters, *PREVENTION

Abstract

This paper presents a novel combined-synchronous-rectifier high-frequency-link (CSR-HFL) inverter. Three types of conventional HFL inverters are analyzed and their performance is summarized. According to one of the conventional HFL inverters, i.e., cycloconverter-type HFL (CHFL) inverter, a combined rectifier topology is deduced. To prevent a shorted circuit, two additional switches are used in the new topology. The operation mode of the CSR-HFL inverter is analyzed and the mathematical relationships are given. The difference and correlation, and advantages and disadvantages, are analyzed between the CSR-HFL inverter and the conventional HFL inverter. The relevant grid-connected inverter, ac/ac converter, and full-wave CSR-HFL inverter are also given. The experimental results verify that the proposed CSR-HFL inverter has excellent performance and high efficiency. [ABSTRACT FROM PUBLISHER]

Published

2014

255. Cascaded Multilevel Inverter With Series Connection of Novel H-Bridge Basic Units.

Author

Babaei, Ebrahim, Laali, Sara, and Alilu, Somayeh

Subjects

*ELECTRIC inverters, *ELECTRIC potential, *ALGORITHM research, *DIRECT currents, *ELECTRIC circuits

Abstract

In this paper, a new single-phase cascaded multilevel inverter based on novel H-bridge units is proposed. In order to generate all voltage levels (even and odd) at the output, nine different algorithms are proposed to determine the magnitudes of dc voltage sources. Then, the proposed algorithms are compared to investigate their advantages and disadvantages. This topology is able to increase the number of output voltage levels by using a lower number of power electronic devices such as switches, power diodes, driver circuits, and dc voltage sources that lead to reduction in installation space and cost of the inverter. In addition, in the proposed cascaded multilevel inverter, not only the number of required power electronic devices is reduced, but also the amount of the blocked voltage by switches, and the number of different voltage amplitudes of the used sources is decreased. These features are some of the most important advantages of the proposed topology. These features are obtained via the comparison of the proposed topology and its proposed algorithms with the conventional cascaded multilevel inverters that have been presented in the literatures. The operation and performances of the proposed topology with its presented algorithms in generating all voltage levels have been verified by using the experimental results of a 49-level single-phase inverter. [ABSTRACT FROM PUBLISHER]

Published

2014

256. An Effective Control Method for Three-Phase Quasi-Z-Source Cascaded Multilevel Inverter Based Grid-Tie Photovoltaic Power System.

Author

Liu, Yushan, Ge, Baoming, Abu-Rub, Haitham, and Peng, Fang Zheng

Subjects

*PHOTOVOLTAIC power systems, *ELECTRIC inverters, *ELECTRIC potential, *DIRECT currents, *ALGORITHM research

Abstract

The quasi-Z-source cascaded multilevel inverter (qZS-CMI) presented many advantages over conventional CMI when applied in photovoltaic (PV) power systems. For example, qZS-CMI provides the balanced dc-link voltage and voltage boost ability, saves one-third modules, etc. However, current research studies only disclosed control of single-phase qZS-CMI-based PV power systems, and there was no literature related to control of three-phase qZS-CMI-based PV power systems. In this paper, for the first time, three-phase qZS-CMI's control is proposed and demonstrated for application to PV power systems. The models of PV-panel-fed qZS H-bridge module and qZS-CMI-based PV power system are built to accurately design control algorithms for each module and the whole system. The proposed control method includes the distributed maximum power point tracking for each module, dc-link peak voltage balance control for all modules, and grid-tie control for the whole system; moreover, a new multilevel space vector modulation method is proposed for the three-phase qZS-CMI. Simulation and experimental results on a test bench with a three-phase seven-level qZS-CMI-based PV power system verify the proposed control and modulation methods. [ABSTRACT FROM PUBLISHER]

Published

2014

257. A Step-Up Switched-Capacitor Multilevel Inverter With Self-Voltage Balancing.

Author

Ye, Yuanmao, Cheng, K. W. E., Liu, Junfeng, and Ding, Kai

Subjects

*CAPACITORS, *ELECTRIC inverters, *ELECTRIC potential, *DIRECT currents, *ELECTRIC circuits

Abstract

The objective of this paper is to propose a new inverter topology for a multilevel voltage output. This topology is designed based on a switched capacitor (SC) technique, and the number of output levels is determined by the number of SC cells. Only one dc voltage source is needed, and the problem of capacitor voltage balancing is avoided as well. This structure is not only very simple and easy to be extended to a higher level, but also its gate driver circuits are simplified because the number of active switches is reduced. The operational principle of this inverter and the targeted modulation strategies are presented, and power losses are investigated. Finally, the performance of the proposed multilevel inverter is evaluated with the experimental results of an 11-level prototype inverter. [ABSTRACT FROM PUBLISHER]

Published

2014

258. Predictive Control for Low-Voltage Ride-Through Enhancement of Three-Level-Boost and NPC-Converter-Based PMSG Wind Turbine.

Author

Yaramasu, Venkata, Wu, Bin, Alepuz, Salvador, and Kouro, Samir

Subjects

*WIND turbines, *PREDICTIVE control systems, *ELECTRIC potential, *PERMANENT magnets, *SYNCHRONOUS generators, *ELECTRIC inverters

Abstract

In this paper, a predictive control scheme is proposed for the low-voltage ride-through (LVRT) enhancement of direct-driven permanent-magnet-synchronous-generator-based megawatt-level wind turbines. The proposed method uses the turbine–generator rotor inertia to store the surplus energy during the grid voltage dips. The power conversion system is realized using a three-phase diode-bridge rectifier, a three-level-boost converter, and a neutral-point-clamped (NPC) inverter. The wind turbine requirements, such as maximum power point tracking, net dc-bus voltage control, balancing of the dc capacitor voltages, and reactive power generation, are modeled as the reference control variables. The generator- and grid-side cost functions are defined to deal with these control objectives. During each sampling interval, the control goals are achieved based on the minimization of cost functions. The coordination of boost and NPC converters and the exchange of reference control variables during normal and LVRT operation are formulated such that the power converters operate in a safe mode while meeting the grid code requirements. Simulation and experimental results are presented to validate the proposed strategy. [ABSTRACT FROM PUBLISHER]

Published

2014

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

Author

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

Subjects

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

Abstract

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

Published

2014

260. A Resonance-Frequency-Tracing Method for a Current-Fed Piezoelectric Transducer.

Author

Cheng, Li-Chen, Kang, Yi-Chen, and Chen, Chern-Lin

Subjects

*PIEZOELECTRIC transducers, *ULTRASONIC dispersion, *RESONANCE fluorescence, *PIEZOELECTRIC devices, *ELECTRIC inverters

Abstract

This paper presents a novel control method for a current-fed full-bridge inverter actuating an ultrasonic piezoelectric transducer (PT). In the conventional ultrasonic detection system, the PT has maximum transmitting gain at its series resonance frequency while having maximum receiving gain at its parallel resonance frequency. With the proposed approach, the PT could have maximum transmitting gain at the parallel resonance frequency and this frequency can be automatically traced, and hence adapted, to the environmental variation. A prototype circuit was constructed to verify the proposed control method. The experimental results show that the receiving voltage signal could have a maximum value at the parallel resonance frequency, and the traced frequency is 0.04 kHz higher than the parallel resonance frequency. [ABSTRACT FROM PUBLISHER]

Published

2014

261. Survey of Fault-Tolerance Techniques for Three-Phase Voltage Source Inverters.

Author

Mirafzal, Behrooz

Subjects

*ELECTRIC inverters, *MOTOR drives (Electric motors), *POWER transmission, *RENEWABLE energy sources, *ANALOG-to-digital converters, *FAULT tolerance (Engineering)

Abstract

Inverters play key roles in motor drives, flexible power transmissions, and recently grid-tied renewable energy generation units. Therefore, availability and reliability of inverters have become increasingly important. Following early stage fault detections in inverters, remedial actions can extend normal operation of inverters and, in some cases, derate the system to prevent unexpected shutdowns. A remedial action typically contains a combination of hardware and software reconfigurations. The main purpose of this paper is to provide an instructive survey of existing fault-tolerance (remedial) techniques for three-phase, two-level, and multilevel inverters. [ABSTRACT FROM PUBLISHER]

Published

2014

262. Zero-Voltage-Transition Full-Bridge Topologies for Transformerless Photovoltaic Grid-Connected Inverter.

Author

Xiao, Hua F., Liu, Xi P., and Lan, Ke

Subjects

*PHOTOVOLTAIC power generation, *ELECTRIC inverters, *ELECTRIC transformers, *PLUG-in hybrid electric vehicles, *ELECTRIC switchgear

Abstract

Low leakage current and high efficiency are two key indexes for the transformerless photovoltaic (PV) grid-connected inverter. The transformerless inverter topologies have superior efficiency owing to saving the transformer, but their switches are still on a hard-switching state at present. This paper presents a novel zero-voltage transition (ZVT) concept for the full-bridge transformerless PV grid-connected inverter topologies. The zero-voltage turn-on and turnoff of the high-frequency main switches and the zero-current turn-on of the auxiliary switches, as well as the zero-voltage turn-on and turnoff of the antiparallel diodes of the line-frequency switches, are realized by introducing two resonant tanks. Take ZVT-H6-I for example. The operation principle, soft-switching conditions, duty cycle restriction, and parameter design rule of the resonant tank are analyzed in detail. Finally, the validity of the ZVT concept is verified by a ZVT-H6-I prototype rated at 100 kHz and 1 kW. [ABSTRACT FROM PUBLISHER]

Published

2014

263. Short-Circuit Fault Diagnosis for Three-Phase Inverters Based on Voltage-Space Patterns.

Author

Alavi, Marjan, Wang, Danwei, and Luo, Ming

Subjects

*SEMICONDUCTORS, *FIELD-effect transistors, *FAULT diagnosis, *SHORT-circuit currents, *ELECTRIC power production

Abstract

This paper introduces a fault detection and isolation (FDI) method for faulty metal–oxide–semiconductor field-effect transistors in a three-phase pulsewidth-modulated (PWM) voltage source inverter. Short-circuit switch faults are the leading cause of failure in power converters. It is extremely vital to detect them in the early stages to prevent unwanted shutdown and catastrophic failures in motor drives and power generation systems. Against the common FDI methods for power electronic inverters that use phase currents and PWM gate control signals, the proposed method only uses the inverter output voltages. This method analyzes the PWM switching signals in a time-free domain that is called the voltage space. For a healthy inverter, the projection of the state transitions in the voltage space results in a cubic pattern. Each short-circuit switch fault uniquely changes the voltage-space pattern that allows isolating the faulty switch. The fault detection time is only within one PWM carrier period, which is significantly faster than current-based conventional methods. The FDI result does not depend on the load, the PWM switching frequency, and the feedback loop. This method can address the reliability problem of multilevel inverters in renewable electrical generation systems and can dramatically reduce the number of required sensors. [ABSTRACT FROM PUBLISHER]

Published

2014

264. Model Predictive Approach for a Simple and Effective Load Voltage Control of Four-Leg Inverter With an Output $LC$ Filter.

Author

Yaramasu, Venkata, Rivera, Marco, Narimani, Mehdi, Wu, Bin, and Rodriguez, Jose

Subjects

*DIGITAL control systems, *DISTRIBUTED power generation, *PREDICTIVE control systems, *ELECTRIC inverters, *VOLTAGE regulators

Abstract

This paper presents a finite control set model predictive strategy and its application to the load voltage control of two-level four-leg inverters. The proposed approach uses the novel discrete-time model of the inverter and output $LC$ filter in order to predict the variables to be controlled. These predictions are carried out for the 16 switching states of the inverter and are evaluated using a cost function. The switching state that forces the load voltages to be closest to their respective references is chosen and applied to the inverter. The behavior of the predictive controller has been investigated, and the changes to both inductive and capacitive filter parameters have been considered. In order to improve the reliability of the fourth leg as well as the overall inverter efficiency, a solution is proposed, which combines hardware and software reconfigurations. The feasibility of the proposed method is verified through simulation and experimental results considering single-/three-phase, balanced/unbalanced, and linear/nonlinear loads. [ABSTRACT FROM PUBLISHER]

Published

2014

265. Active Buck–Boost Inverter.

Author

Tang, Yu, Dong, Xianmei, and He, Yaohua

Subjects

*PHOTOVOLTAIC cells, *RENEWABLE energy sources, *ELECTRIC inverters, *ENERGY conservation, *POWER resources

Abstract

The voltage range of a renewable energy source, such as the photovoltaic cell, is influenced by the environment, light, temperature, and so on. The power conditioning system should adapt to the wide input voltage and have buck–boost ability. Based on the structure of the “ac/ac unit,” this paper presents a novel active buck–boost inverter (ABI) topology suitable for wide-range input, which can realize buck–boost conversion in a quasi-single-stage inverter. The ac/ac unit composed of active switches is utilized to perform voltage boost without introducing additional passive elements, which is in favor to the system power density and efficiency. Operational analysis in buck and boost modes are presented, and the modulation strategy applied in the ABI is also developed. Simulation and experimental results are presented to verify the operational principle and its modulation strategy. [ABSTRACT FROM PUBLISHER]

Published

2014

266. Hybrid Multilevel Inverter Using Switched Capacitor Units.

Author

Babaei, Ebrahim and Gowgani, Saeed Sheermohammadzadeh

Subjects

*ELECTRIC inverters, *CAPACITORS, *TOPOLOGY, *ENERGY storage, *ELECTRIC equipment

Abstract

In this paper, two new topologies are proposed for multilevel inverters. The proposed topologies consist of a combination of the conventional series and the switched capacitor inverter units. The proposed topologies reduce the number of switches and isolated dc voltage sources, the variety of the dc voltage source values, and the size and cost of the system in comparison with the conventional topologies. In addition, the proposed topologies can double the input voltage without a transformer. There is no need for complicated methods to balance the capacitor voltage. The simulation and experimental results of single-phase 25- and 17-level inverters are given to prove the correct operation of the proposed topologies. [ABSTRACT FROM PUBLISHER]

Published

2014

267. Current-Fed Switched Inverter.

Author

Nag, Soumya Shubhra and Mishra, Santanu

Subjects

*PHOTOVOLTAIC cells, *FUEL cells, *EMERGENCY power supply, *ELECTRIC batteries, *SOLAR energy

Abstract

High-boost dc-ac inverters are used in solar photovoltaic (PV), fuel cell, wind energy, and uninterruptible power supply systems. High step-up and step-down capabilities and shoot-through immunity are some of the desired properties of an inverter for a reliable, versatile, and low-distortion ac inversion. The recently developed Z-source inverter (ZSI) possesses these qualities. However, the realization of ZSI comes at a cost of higher passive component count as it needs two sets of passive filters. A switched boost inverter (SBI) has similar properties as ZSI, and it has one L\-C pair less compared to ZSI, but its gain is less than ZSI. This paper proposes the current-fed switched inverter (CFSI) which combines the high-gain property of ZSI and low passive component count of SBI. The proposed inverter uses only one L\-C filter and three switches apart from the inverter structure. The inverter topology is based on current-fed dc/dc topology. Steady-state analysis of the inverter is presented to establish the relation between the dc input and the ac output. A pulse width modulation (PWM) control strategy is devised for the proposed inverter. An experimental prototype is built to validate the proposed inverter circuit in both buck and boost modes of operation. A 353-V dc-link and a 127 V (rms) ac are obtained from a 35.3-V dc input to demonstrate the boost mode of operation. A 200-V dc-link and a 10.5-V (rms) ac are obtained from a 37.8-V dc input to verify the buck mode of operation of CFSI. [ABSTRACT FROM PUBLISHER]

Published

2014

268. Suppression of Common-Mode Voltage Using a Multicentral Photovoltaic Inverter Topology With Synchronized PWM.

Author

Bae, Youngsang and Kim, Rae-Young

Subjects

*PHOTOVOLTAIC power generation, *ELECTRIC inverters, *POWER plants, *ELECTRIC utilities, *ELECTRIC power production

Abstract

This paper describes an optimal configuration for multicentral inverters in a medium-voltage (MV) grid, which is suitable for large-scale photovoltaic (PV) power plants. We theoretically analyze a proposed common-mode equivalent model for problems associated with multicentral transformerless-type three-phase full bridge (3FB) PV inverters employing two-winding MV transformers. We propose a synchronized pulse width modulation (PWM) control strategy to effectively reduce the common-mode voltages that may simultaneously occur. In addition, we propose that the existing 3FB topology may also have the configuration of a multicentral inverter with a two-winding MV transformer by making a simple circuit modification. Simulation and experimental results of three 350 kW PV inverters in a multicentral configuration verify the effectiveness of the proposed synchronization control strategy. The modified transformerless-type 3FB topology for a multicentral PV inverter configuration is verified using an experimental prototype of a 100 kW PV inverter. [ABSTRACT FROM PUBLISHER]

Published

2014

269. A D-\Sigma Digital Control for Three-Phase Inverter to Achieve Active and Reactive Power Injection.

Author

Wu, Tsai-Fu, Chang, Chih-Hao, Lin, Li-Chiun, Yu, Gwo-Ruey, and Chang, Yung-Ruei

Subjects

*DIGITAL control systems, *ELECTRIC inverters, *ELECTRIC power distribution grids, *ALTERNATING currents, *ELECTRIC power factor, *REACTIVE power, *CURRENT distribution, *PHASE modulation

Abstract

This paper presents a division-summation (D-\Sigma) digital control for a three-phase inverter to achieve active and reactive power injection to the ac grid. The proposed D-\Sigma approach summarizes the inductor-current variations over one switching cycle to derive control laws directly, which can overcome the limitation of d–q transformation. The inverter with this control can achieve various power factors (PFs) leading or lagging, by taking into account wide filter-inductance variation and grid-voltage distortion, reducing core size significantly. The control laws for achieving the desired features are derived in detail, and they are expressed in general forms for readily software programming. With the enhancement work of previous research, active and reactive power injection with PF from 0 to 1 can be controlled effectively, so that these control laws can be extended to wide current-tracking applications, such as static synchronous compensator and active power filter. In the design and implementation, the inductance values corresponding to various inductor currents were measured at the startup and stored in the controller for scheduling loop gain cycle by cycle. Measured results from a 10-kVA 3 \phi inverter have confirmed the analysis and discussion of the proposed control approaches. [ABSTRACT FROM PUBLISHER]

Published

2014

270. Space-Vector-Based Synchronized Three-Level Discontinuous PWM for Medium-Voltage High-Power VSI.

Author

Beig, Abdul Rahiman, Kanukollu, Saikrishna, Al Hosani, Khalifa, and Dekka, Apparao

Subjects

*IDEAL sources (Electric circuits), *ELECTRIC inverters, *PULSE width modulation, *SYNCHRONIZATION, *INDUCTION motors, *VARIABLE speed drives, *HARMONIC distortion (Physics), *HARMONIC analysis (Mathematics)

Abstract

The high-power voltage source inverters are switched at low frequency to reduce the losses in the inverter. The discontinuous pulsewidth-modulation (PWM) sequences reduce the switching frequency to two-thirds compared to the conventional continuous PWM sequences. At low switching frequency, the output will be rich in harmonics, and synchronization is a must to avoid subharmonics. This paper presents four basic types of synchronized discontinuous PWM (DPWM) sequences that ensure synchronization, three-phase symmetry, and half-wave symmetry. The proposed synchronized DPWM sequences are verified through simulation and experiment on a constant- v/f open-loop induction motor drive. The performance of the proposed DPWM algorithms is studied in the entire modulation region, including the overmodulation region, and is compared with that of the conventional synchronized space vector PWM. A different type of DPWM with low common-mode voltage is suggested for low-modulation region and verified experimentally. [ABSTRACT FROM PUBLISHER]

Published

2014

271. A New General Topology for Cascaded Multilevel Inverters With Reduced Number of Components Based on Developed H-Bridge.

Author

Babaei, Ebrahim, Alilu, Somayeh, and Laali, Sara

Subjects

*ELECTRIC inverters, *DIRECT currents, *IDEAL sources (Electric circuits), *ELECTRONIC circuits, *TOPOLOGY

Abstract

In this paper, a new general cascaded multilevel inverter using developed H-bridges is proposed. The proposed topology requires a lesser number of dc voltage sources and power switches and consists of lower blocking voltage on switches, which results in decreased complexity and total cost of the inverter. These abilities obtained within comparing the proposed topology with the conventional topologies from aforementioned points of view. Moreover, a new algorithm to determine the magnitude of dc voltage sources is proposed. The performance and functional accuracy of the proposed topology using the new algorithm in generating all voltage levels for a 31-level inverter are confirmed by simulation and experimental results. [ABSTRACT FROM PUBLISHER]

Published

2014

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

Author

Gupta, Krishna Kumar and Jain, Shailendra

Subjects

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

Abstract

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

Published

2014

273. Analysis and Design of Grid-Connected Photovoltaic Systems With Multiple-Integrated Converters and a Pseudo-DC-Link Inverter.

Author

Thang, T. V., Thao, N. M., Jang, Jong-Ho, and Park, Joung-Hu

Subjects

*PHOTOVOLTAIC power systems, *CASCADE converters, *GRID computing, *DC-to-DC converters, *VOLTAGE control

Abstract

An architecture of multiple-integrated converter modules sharing an unfolding full-bridge inverter with a pseudo dc link (MIPs) is proposed for grid-connected photovoltaic systems in this paper. The proposed configuration can improve the power conversion, the control circuit complexity, and the cost competitiveness. The proposed MIP is composed of distributed flyback dc–dc converters (DFCs) and an unfolding full-bridge inverter with an ac filter. The DFCs can eliminate the shading effect by using the individual maximum power point tracking. In conventional flyback-type single-phase utility-interactive inverters, discontinuous conduction mode and boundary conduction mode are popular because of the inherent constant current-source characteristics more desirable for grid connection and of the simple procedures for the controller design. However, the operating mode suffers from a large current stress of the circuit components, which leads to the low power efficiency. To avoid this, the DFCs operate under continuous conduction mode that allows reduced current stresses and increased power efficiency, as well as low material cost. The current control loop of the converters employs primary-side regulation contributing to improvement of dynamics as well as the cost reduction significantly due to the elimination of the high-linearity photocoupler device. Development of a new dc-current loop that maintains the level of dc-current injection into the grid within the levels stipulated by IEEE 1547 will be dealt as well. The performance validation of the proposed design is confirmed by experimental results of a 200-W hardware prototype. [ABSTRACT FROM PUBLISHER]

Published

2014

274. Model Predictive Decoupled Active and Reactive Power Control for High-Power Grid-Connected Four-Level Diode-Clamped Inverters.

Author

Yaramasu, Venkata and Wu, Bin

Subjects

*PREDICTIVE control systems, *ELECTRIC inverters, *ELECTRON tube grids, *APPROXIMATION theory, *SEMICONDUCTOR industry, *MATHEMATICAL models

Abstract

In this paper, a model predictive scheme is proposed to control the grid-connected high-power four-level diode-clamped inverter. To predict the future behavior of active and reactive grid power values and dc link capacitor voltages, a discrete-time model of the inverter is developed in synchronous reference frame. The controller uses all the possible switching states of the inverter for the prediction and evaluates them using a cost function. The switching state, which minimizes the cost function, is then chosen and applied at the next sampling interval. The switching frequency minimization is also achieved by including an extra constraint in the cost function. A simplified extrapolation method with reduced computational burden is proposed to safeguard the semiconductor devices during the dynamic changes in reference power values. The performance of the proposed method is investigated with the perturbations in the grid filter and dc link parameters. The feasibility of the proposed method is verified through simulation and experimental results, showing good dynamic and steady-state performance. [ABSTRACT FROM PUBLISHER]

Published

2014

275. A Multifunctional DSTATCOM Operating Under Stiff Source.

Author

Kumar, Chandan and Mishra, Mahesh K.

Subjects

*SYNCHRONOUS capacitors, *VOLTAGE regulators, *SYNCHRONOUS electric motors, *VOLTAGE control, *ELECTRIC power factor

Abstract

Loads connected to a stiff source cannot be protected from voltage disturbances using a distribution static compensator (DSTATCOM). In this paper, a new control-algorithm-based multifunctional DSTATCOM is proposed to operate in voltage control mode under stiff source. This scheme provides fast voltage regulation at the load terminal during voltage disturbances and protects critical loads. In addition, during normal operation, the generated reference load voltages allow control of the source currents. Consequently, DSTATCOM injects reactive and harmonic components of load currents to make source power factor unity. Simulation and experimental results are presented to verify the efficacy of the proposed control algorithm and multifunctional DSTATCOM. [ABSTRACT FROM PUBLISHER]

Published

2014