Your search keyword '"Instantaneous symmetrical component theory"' showing total 4 results

1. A Grid-Connected Dual Voltage Source Inverter With Power Quality Improvement Features

Author

Mahesh K. Mishra, M. V. Manoj Kumar, and Chandan Kumar

Subjects

Engineering, Distributed Energy Resources, Power quality improvement, Topology (electrical circuits), Instantaneous symmetrical component theory, Grid connected inverters, Electric inverters, Load management, Micro grid, Electronic engineering, Voltage source inverter, Electric power distribution, Energy resources, Renewable Energy, Sustainability and the Environment, business.industry, Grid, Power (physics), Power quality, Extensive simulations, Distributed generation, Inverter, Microgrid, Bandwidth requirement, business, Electric network analysis, Algorithms

Abstract

This paper presents a dual voltage source inverter (DVSI) scheme to enhance the power quality and reliability of the microgrid system. The proposed scheme is comprised of two inverters, which enables the microgrid to exchange power generated by the distributed energy resources (DERs) and also to compensate the local unbalanced and nonlinear load. The control algorithms are developed based on instantaneous symmetrical component theory (ISCT) to operate DVSI in grid sharing and grid injecting modes. The proposed scheme has increased reliability, lower bandwidth requirement of the main inverter, lower cost due to reduction in filter size, and better utilization of microgrid power while using reduced dc-link voltage rating for the main inverter. These features make the DVSI scheme a promising option for microgrid supplying sensitive loads. The topology and control algorithm are validated through extensive simulation and experimental results. � 2010-2012 IEEE.

Published

2015

2. A Control Scheme for Storageless DVR Based on Characterization of Voltage Sags

Author

Mahesh K. Mishra and Suma Jothibasu

Subjects

Engineering, business.industry, Energy Engineering and Power Technology, Control schemes, Dynamic voltage restorer (DVR), Instantaneous symmetrical component theory, Phase jumps, Voltage sags, Topology (electrical circuits), Voltage regulator, Voltage optimisation, Network topology, AC/AC converter, Compensation (engineering), Control theory, Voltage sag, Electronic engineering, Electrical and Electronic Engineering, business, Voltage

Abstract

Voltage sag remains a serious power-quality (PQ) problem by being the most common and causing more economic losses. The dynamic voltage restorer (DVR) is a definitive solution to address the voltage-related PQ problems. Conventional topologies operate with a dc link, which makes them bulkier and costlier; it also imposes limits on the compensation capability of the DVR. Topologies with the same functionality, operating without the dc link by utilizing a direct ac-ac converter, are preferable over the conventional ones. Since no storage device is employed, these topologies require improved information on instantaneous voltages at the point of common coupling and need flexible control schemes depending on these voltages. Therefore, a control scheme for DVR topologies with an ac-ac converter, based on the characterization of voltage sags is proposed in this paper to mitigate voltage sags with phase jump. The proposed control scheme is tested on an interphase ac-ac converter topology to validate its efficacy. Detailed simulations to support the same have been carried out in MATLAB, and the results are presented. The results of real-time testing of the scheme on a single-phase model of the topology to compensate various sag types using DSPF28335 are also presented. � 2014 IEEE.

Published

2014

3. A Novel Method of Load Compensation Under Unbalanced and Distorted Voltages

Author

Hiralal M. Suryawanshi, Mahesh K. Mishra, Arindam Ghosh, and A. Joshi

Subjects

Engineering, Sequence, Computer simulation, business.industry, Energy Engineering and Power Technology, Electric distortion, Compensation methods, Instantaneous symmetrical component theory, Electric load management, Electric inverters, law.invention, Compensation (engineering), Synchronous detection, Electric potential, Control theory, law, Power electronics, Electrical network, Voltage source, Electrical and Electronic Engineering, business, Modified equal current strategies, Voltage source inverter, Voltage

Abstract

In this paper, load compensation techniques under unbalanced and distorted voltages have been discussed. Two kinds of compensation methods are considered. In the first category, synchronous detection and modified equal current strategies are used under the unbalanced but sinusoidal source voltages. In the second method, load compensation based on instantaneous symmetrical component theory with positive sequence extraction is proposed and is shown to work under unbalanced and the non-sinusoidal source voltages. To support the proposed method, a 440 V (L-L) three-phase, four-wire distribution system is considered. The compensator is realized using a three-phase voltage source inverter (VSI) operated in the current control mode. Detailed digital simulation and experimental results are presented to validate the approach. � 2006 IEEE.

Published

2007

4. Control strategies for load compensation using instantaneous symmetrical component theory under different supply voltages

Author

Mahesh K. Mishra, U.K. Rao, and Arindam Ghosh

Subjects

Total harmonic distortion, Engineering, business.industry, Energy Engineering and Power Technology, Power factor, AC power, 090607 Power and Energy Systems Engineering (excl. Renewable Power), Symmetrical components, Compensation (engineering), Load management, Control theory, Power electronics, Harmonics, Electronic engineering, Active filters, Electric filters, Electric network analysis, Electric power factor, Harmonic analysis, MATLAB, Optical filters, Wave filters, Active power filter (APF), Instantaneous symmetrical component theory, Load compensation, Perfect harmonic cancellation, Unbalanced and distorted supply voltages, Unity power factor, Electric power factor correction, Electrical and Electronic Engineering, business, Active power filter (APF), instantaneous symmetrical component theory, load compensation, perfect harmonic cancellation, unbalanced and distorted supply voltages

Abstract

In this paper, the theory of instantaneous symmetrical components is applied to explore various control strategies of load compensation, under different supply voltages. When the supply voltages are balanced and sinusoidal, all of these strategies converge to the same compensation characteristics. However, when the supply voltages are not balanced sinusoids, these control strategies result in different degrees of compensation in harmonics, power factor, neutral current, and compensator ratings. These control strategies are discussed in detail and a comparative study of their performance in terms of the rms value, total harmonic distortion, power factor of source currents, and compensator ratings is presented. Based on this study, it is possible to select the best strategy to meet the required load compensation characteristics for available supply voltages. A three-phase four-wire distribution system supplying an unbalanced and nonlinear load is considered for simulation study. The detailed simulation results using MATLAB are presented to support the proposed compensation strategies. � 2008 IEEE.

Published

2008