# IEEE Transactions on Industrial Electronics

## Filter Results

Displaying Results 1 - 25 of 74

Publication Year: 2014, Page(s):C1 - 6482
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• ### IEEE Transactions on Industrial Electronics publication information

Publication Year: 2014, Page(s): C2
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• ### Filter Design of Direct Matrix Converter for Synchronous Applications

Publication Year: 2014, Page(s):6483 - 6493
Cited by:  Papers (6)
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Filters for switching ripple attenuation are essential at the input, and sometimes at the output for certain applications, for the deployment of matrix converters (MCs). Due to the absence of inertial elements in the MC structure and the consequent tight input-output coupling, the filter parameters significantly affect its dynamic behavior. This paper presents an exhaustive filter design method fo... View full abstract»

• ### Design and Analysis of Multiloop Controllers With DC Suppression Loop for Paralleled UPS Inverter System

Publication Year: 2014, Page(s):6494 - 6506
Cited by:  Papers (5)
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This paper proposes an improved control strategy to eliminate dc circulating current in the paralleled uninterrupted power supply (UPS) systems. The active and reactive power control has good performance on restricting ac circulating current. However, it is unable to suppress dc circulating current effectively. Based on conventional active and reactive power control for load sharing in paralleled ... View full abstract»

• ### Large Signal Stability Analysis and Stabilization of Converters Connected to Grid Through $LCL$ Filters

Publication Year: 2014, Page(s):6507 - 6516
Cited by:  Papers (7)
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This paper develops a robust tool for handling ac side stability issues occurring in LCL-filter-based grid-connected converters.LCL filters give advantages in cost and dynamic as smaller inductors employed compared with L filters for the same required damping of the switching harmonics. Nevertheless, the additional poles introduced by the LC part induce resonance in the system leading to stability... View full abstract»

• ### An Improved Hybrid DSTATCOM Topology to Compensate Reactive and Nonlinear Loads

Publication Year: 2014, Page(s):6517 - 6527
Cited by:  Papers (28)
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This paper proposes an improved hybrid distribution static compensator (DSTATCOM) topology to address some practical issues such as power rating, filter size, compensation performance, and power loss. An LCL filter has been used at the front end of a voltage source inverter (VSI), which provides better switching harmonics elimination while using much smaller value of an inductor as compared with t... View full abstract»

• ### An Enhanced Grid Current Compensator for Grid-Connected Distributed Generation Under Nonlinear Loads and Grid Voltage Distortions

Publication Year: 2014, Page(s):6528 - 6537
Cited by:  Papers (33)
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This paper introduces an advanced current control strategy for grid-connected operations of distributed generation (DG), which supports the DG to transfer a sinusoidal current into the utility grid despite the distorted grid voltage and nonlinear local load conditions. The proposed current controller is designed in the synchronous reference frame and composed of a proportional-integral (PI) contro... View full abstract»

• ### Voltage Balancing Method for a Flying Capacitor Multilevel Converter Using Phase Disposition PWM

Publication Year: 2014, Page(s):6538 - 6546
Cited by:  Papers (21)
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This paper proposes a voltage balancing method for a flying capacitor multilevel converter based on the phase-disposition sinusoidal pulsewidth modulation (PD-SPWM). This voltage balancing method uses redundant switching states, which are determined by the minimization of a cost function. The implementation of the PD-SPWM using standard triangular carriers leads to additional switching events that... View full abstract»

• ### A Novel Compensation Scheme Based on a Virtual Air Gap Variable Reactor for AC Voltage Control

Publication Year: 2014, Page(s):6547 - 6555
Cited by:  Papers (9)
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Voltage control based on reactive power compensation is a fundamental aspect of the operation of ac electric power systems. This paper presents a novel shunt compensation scheme based on a virtual air gap variable reactor. The scheme is fully developed, from the adaptation of the virtual air gap principle to high-voltage applications and the determination of its expected performance, to the propos... View full abstract»

• ### Position Control of the Induction Motor Using an Adaptive Sliding-Mode Controller and Observers

Publication Year: 2014, Page(s):6556 - 6565
Cited by:  Papers (44)
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An adaptive robust position control for real-time high-performance applications of induction motors is developed in this work. The proposed sliding-mode controller provides a global asymptotic position tracking in the presence of model uncertainties and load torque variations. The proposed control scheme incorporates an adaptation law for the switching gain, so that the controller can calculate th... View full abstract»

• ### Power Flow Maximization in Permanent-Magnet Generators

Publication Year: 2014, Page(s):6566 - 6573
Cited by:  Papers (5)
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The main hypothesis proposed in this paper is that by controlling the harmonic and zero-sequence components of the current in nonsinusoidal permanent-magnet synchronous generators (PMGs), additional energy can be obtained, thereby increasing the machine power density without increasing the Joule effect losses. Two different strategies are proposed for three- and four-wire topologies; therefore, fo... View full abstract»

• ### FPGA-Based Sensorless PMSM Speed Control Using Reduced-Order Extended Kalman Filters

Publication Year: 2014, Page(s):6574 - 6582
Cited by:  Papers (43)
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This paper presents the design and implementation of a field-programmable gate array (FPGA)-based architecture for the speed control of sensorless permanent-magnet synchronous motor (PMSM) drives. For the reduction of computation resources, as well as accuracy improvement in the rotor position estimation, a parallel reduced-order extended Kalman filter (EKF) is proposed in this work. Compared with... View full abstract»

• ### A New Method for Multiple Finite-Element Models in Cosimulation With Electrical Circuit Using Machine Multiloop Modeling Scheme

Publication Year: 2014, Page(s):6583 - 6590
Cited by:  Papers (8)
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The circuit-field coupling techniques, which could take the nonlinearity, time and space harmonics, core losses, and mechanical movement into consideration, have been widely applied in modern power system simulation. However, existing coupling schemes can deal with only one finite-element (FE) model connected to the external circuit. A new coupling method in which the generic machine model is esta... View full abstract»

• ### System-Level Design Optimization Methods for Electrical Drive Systems: Deterministic Approach

Publication Year: 2014, Page(s):6591 - 6602
Cited by:  Papers (58)
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Electrical drive systems are key components in modern appliances, industry equipment, and systems, e.g., hybrid electric vehicles. To obtain the best performance of these drive systems, the motors and their control systems should be designed and optimized at the system level rather than the component level. This paper presents an effort to develop system-level design and optimization methods for e... View full abstract»

• ### A Fault-Tolerant Two-Motor Drive With FCS-MP-Based Flux and Torque Control

Publication Year: 2014, Page(s):6603 - 6614
Cited by:  Papers (14)
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Independently controlled multimotor drives are typically realized by using a common dc link and independent sets of three-phase inverters and motors. In the case of an open-circuit fault in an inverter leg, one motor becomes single phase. To enable continued controllable operation by eliminating single phasing, the supply for the motor phase with the faulted inverter leg can be paralleled to a hea... View full abstract»

• ### Design and Comparison of Two Fault-Tolerant Interior-Permanent-Magnet Motors

Publication Year: 2014, Page(s):6615 - 6623
Cited by:  Papers (33)
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The aim of this paper is to design and investigate two fault-tolerant interior-permanent-magnet motors for high reliability operation. The first one is the spoke type, while the second one has V-shape magnets embedded in the rotor. The structures and features of both motors are presented and the optimal designs are performed. The electromagnetic performances, such as dq-axis inductances, torque, f... View full abstract»

• ### Sensorless Control for SPMSM With Concentrated Windings Using Multisignal Injection Method

Publication Year: 2014, Page(s):6624 - 6634
Cited by:  Papers (26)
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Surface-mounted permanent magnet synchronous machine with concentrated windings (cwSPMSM) is a high-performance drive machine and has been adopted in many applications. The difficulty of implementing its sensorless control at low and zero speeds is its multiple saliencies, which is much more significant than most other ac machines. The traditional decoupling methods provide successful results only... View full abstract»

• ### An Encoderless Predictive Torque Control for an Induction Machine With a Revised Prediction Model and EFOSMO

Publication Year: 2014, Page(s):6635 - 6644
Cited by:  Papers (27)
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The finite control state predictive torque control (FCS-PTC) method is known to produce a fast response. However, when compared with the direct torque control (DTC) method, which is inherently encoderless, the FCS-PTC method has a disadvantage because of its speed dependence. An encoderless FCS-PTC method that is based on a revised prediction model for an induction machine is proposed and experime... View full abstract»

• ### High-Performance Indirect Current Control Scheme for Railway Traction Four-Quadrant Converters

Publication Year: 2014, Page(s):6645 - 6654
Cited by:  Papers (17)
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In the recent development of railway traction drives, four-quadrant converters are widely adopted at the grid side as front-end converters. Since the switching frequency of such megawatt-rated converters is limited to several hundreds of hertz, the bandwidth of the current controller is usually restricted. In addition to feedback control of instantaneous current, indirect current control (ICC) is ... View full abstract»

• ### Analysis and Verification of the Doubly Salient Brushless DC Generator for Automobile Auxiliary Power Unit Application

Publication Year: 2014, Page(s):6655 - 6663
Cited by:  Papers (32)
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The doubly salient brushless dc generator (DS-BLDCG) is constituted by a doubly salient electromagnetic generator (DSEG) and the associated rectifier circuit. The DS-BLDCG is suitable for the automobile auxiliary power unit (APU) application due to its merits of simplicity, high robustness, low cost, and flexible control. Since no constraint is imposed to the number of phases of the onboard brushl... View full abstract»

• ### Cascaded Multilevel Inverter With Series Connection of Novel H-Bridge Basic Units

Publication Year: 2014, Page(s):6664 - 6671
Cited by:  Papers (52)
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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 nu... View full abstract»

• ### A Step-Up Switched-Capacitor Multilevel Inverter With Self-Voltage Balancing

Publication Year: 2014, Page(s):6672 - 6680
Cited by:  Papers (34)
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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 ... View full abstract»

• ### Game-Theoretic Cold-Start Transient Optimization in DC Microgrids

Publication Year: 2014, Page(s):6681 - 6690
Cited by:  Papers (15)
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An interconnected electrical network that has electrical sources and loads makes a small-scale power system (SSPS). These systems have low inertia, which makes the modeling and controlling of them dissimilar to that of traditional large-scale power systems. A differential game-theoretic framework allows for the design of the distributed control structures for SSPS with player dynamics under simult... View full abstract»

• ### Inductive Power Transfer Systems for PT-Based Ozone-Driven Circuit With Flexible Capacity Operation and Frequency-Tracking Mechanism

Publication Year: 2014, Page(s):6691 - 6699
Cited by:  Papers (11)
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This paper presents inductive power transfer (IPT) systems for a piezoelectric transformer (PT) based ozone-driven circuit with flexible capacity operation and frequency-tracking mechanism. The proposed system consists of an IPT circuit as the front stage along with an ozone-driven circuit as the back stage. Considering that the ozone generator system was often used under high-humidity and particl... View full abstract»

• ### Application of Piezoelectric-Transformer-Based Resonant Circuits for AC LED Lighting-Driven Systems With Frequency-Tracking Techniques

Publication Year: 2014, Page(s):6700 - 6709
Cited by:  Papers (3)
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This paper proposes an application of piezoelectric transformer (PT) based inverters for alternating current (ac) light-emitting diode (LED) lighting-driven systems with a new resonant topology and frequency-tracking technique. This proposed architecture comprises a full-bridge phase-shift inverter with a PT-based C-L-C series resonant circuit, piezoelectric ceramic transformers, and a microwindin... View full abstract»

## Aims & Scope

IEEE Transactions on Industrial Electronics encompasses the applications of electronics, controls and communications, instrumentation and computational intelligence for the enhancement of industrial and manufacturing systems and processes.

Full Aims & Scope

## Meet Our Editors

Editor-in-Chief
Leopoldo Garcia Franquelo
Escuela Superior de Ingenieros