Conferences related to Induction motor drives

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2020 22nd European Conference on Power Electronics and Applications (EPE'20 ECCE Europe)

Energy conversion and conditioning technologies, power electronics, adjustable speed drives and their applications, power electronics for smarter grid, energy efficiency,technologies for sustainable energy systems, converters and power supplies


2020 IEEE 16th International Workshop on Advanced Motion Control (AMC)

AMC2020 is the 16th in a series of biennial international workshops on Advanced Motion Control which aims to bring together researchers from both academia and industry and to promote omnipresent motion control technologies and applications.


2020 IEEE Applied Power Electronics Conference and Exposition (APEC)

APEC focuses on the practical and applied aspects of the power electronics business. Not just a power designer’s conference, APEC has something of interest for anyone involved in power electronics including:- Equipment OEMs that use power supplies and converters in their equipment- Designers of power supplies, dc-dc converters, motor drives, uninterruptable power supplies, inverters and any other power electronic circuits, equipments and systems- Manufacturers and suppliers of components and assemblies used in power electronics- Manufacturing, quality and test engineers involved with power electronics equipment- Marketing, sales and anyone involved in the business of power electronic- Compliance engineers testing and qualifying power electronics equipment or equipment that uses power electronics


2020 IEEE Energy Conversion Congress and Exposition (ECCE)

IEEE-ECCE 2020 brings together practicing engineers, researchers, entrepreneurs and other professionals for interactive and multi-disciplinary discussions on the latest advances in energy conversion technologies. The Conference provides a unique platform for promoting your organization.

  • 2019 IEEE Energy Conversion Congress and Exposition (ECCE)

    IEEE-ECCE 2019 brings together practicing engineers, researchers, entrepreneurs and other professionals for interactive and multi-disciplinary discussions on the latest advances in energy conversion technologies. The Conference provides a unique platform for promoting your organization.

  • 2018 IEEE Energy Conversion Congress and Exposition (ECCE)

    The scope of ECCE 2018 includes all technical aspects of research, design, manufacture, application and marketing of devices, components, circuits and systems related to energyconversion, industrial power and power electronics.

  • 2017 IEEE Energy Conversion Congress and Exposition (ECCE)

    ECCE is the premier global conference covering topics in energy conversion from electric machines, power electronics, drives, devices and applications both existing and emergent

  • 2016 IEEE Energy Conversion Congress and Exposition (ECCE)

    The Energy Conversion Congress and Exposition (ECCE) is focused on research and industrial advancements related to our sustainable energy future. ECCE began as a collaborative effort between two societies within the IEEE: The Power Electronics Society (PELS) and the Industrial Power Conversion Systems Department (IPCSD) of the Industry Application Society (IAS) and has grown to the premier conference to discuss next generation technologies.

  • 2015 IEEE Energy Conversion Congress and Exposition

    The scope of ECCE 2015 includes all technical aspects of research, design, manufacture, application and marketing of devices, components, circuits and systems related to energy conversion, industrial power and power electronics.

  • 2014 IEEE Energy Conversion Congress and Exposition (ECCE)

    Those companies who have an interest in selling to: research engineers, application engineers, strategists, policy makers, and innovators, anyone with an interest in energy conversion systems and components.

  • 2013 IEEE Energy Conversion Congress and Exposition (ECCE)

    The scope of the congress interests include all technical aspects of the design, manufacture, application and marketing of devices, components, circuits and systems related to energy conversion, industrial power conversion and power electronics.

  • 2012 IEEE Energy Conversion Congress and Exposition (ECCE)

    The IEEE Energy Conversion Congress and Exposition (ECCE) will be held in Raleigh, the capital of North Carolina. This will provide a forum for the exchange of information among practicing professionals in the energy conversion business. This conference will bring together users and researchers and will provide technical insight as well.

  • 2011 IEEE Energy Conversion Congress and Exposition (ECCE)

    IEEE 3rd Energy Conversion Congress and Exposition follows the inagural event held in San Jose, CA in 2009 and 2nd meeting held in Atlanta, GA in 2010 as the premier conference dedicated to all aspects of energy processing in industrial, commercial, transportation and aerospace applications. ECCE2011 has a strong empahasis on renewable energy sources and power conditioning, grid interactions, power quality, storage and reliability.

  • 2010 IEEE Energy Conversion Congress and Exposition (ECCE)

    This conference covers all areas of electrical and electromechanical energy conversion. This includes power electrics, power semiconductors, electric machines and drives, components, subsystems, and applications of energy conversion systems.

  • 2009 IEEE Energy Conversion Congress and Exposition (ECCE)

    The scope of the conference include all technical aspects of the design, manufacture, application and marketing of devices, circuits, and systems related to electrical energy conversion technology


2020 IEEE Industry Applications Society Annual Meeting

The Annual Meeting is a gathering of experts who work and conduct research in the industrial applications of electrical systems.


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Periodicals related to Induction motor drives

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Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


Control Systems Technology, IEEE Transactions on

Serves as a compendium for papers on the technological advances in control engineering and as an archival publication which will bridge the gap between theory and practice. Papers will highlight the latest knowledge, exploratory developments, and practical applications in all aspects of the technology needed to implement control systems from analysis and design through simulation and hardware.


Energy Conversion, IEEE Transaction on

Research, development, design, application, construction, installation, and operation of electric power generating facilities (along with their conventional, nuclear, or renewable sources) for the safe, reliable, and economic generation of electrical energy for general industrial, commercial, public, and domestic consumption, and electromechanical energy conversion for the use of electrical energy


Industrial Electronics, IEEE Transactions on

Theory and applications of industrial electronics and control instrumentation science and engineering, including microprocessor control systems, high-power controls, process control, programmable controllers, numerical and program control systems, flow meters, and identification systems.


Industrial Informatics, IEEE Transactions on

IEEE Transactions on Industrial Informatics focuses on knowledge-based factory automation as a means to enhance industrial fabrication and manufacturing processes. This embraces a collection of techniques that use information analysis, manipulation, and distribution to achieve higher efficiency, effectiveness, reliability, and/or security within the industrial environment. The scope of the Transaction includes reporting, defining, providing a forum for discourse, and informing ...


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Most published Xplore authors for Induction motor drives

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Xplore Articles related to Induction motor drives

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Analysis of Current Source Induction Motor Drive Fed from Photovoltaic Energy Source

IEEE Power Engineering Review, 1991

None


Induction Motor Drives

Analysis of Electric Machinery and Drive Systems, None

This chapter explores the use of induction machines in variable speed drive systems by using several control strategies. First, volts‐per‐hertz control, is designed to accommodate variable‐speed commands by using the inverter to apply a voltage of correct magnitude and frequency so as to approximately achieve the commanded speed without the use of speed feedback. Second, constant slip control drive system ...


Model reference adaptive speed control for induction motor drive using neural networks

IEEE Transactions on Industrial Electronics, 1998

A model reference adaptive speed control scheme using neural networks is presented. The robust observer-based model reference tracking control technique is used to establish the training patterns. Then, the trained neural networks are used as an adaptive speed controller to robustly track a reference model for an induction motor drive.


A comparative study of various motor drive systems for aircraft applications

Conference Record of the 1991 IEEE Industry Applications Society Annual Meeting, 1991

Due to the increasing complexity and requirements of various aircraft applications, the associated drive systems demand significant improvements in performance, speed of response and functionality, without leading to deterioration in efficiency and power density. Three such drive systems, the permanent magnet synchronous motor drive system, the switched reluctance motor drive system, and the induction motor drive system, are considered for ...


A current-source-inverter-fed induction motor drive system with reduced losses

IEEE Transactions on Industry Applications, 1998

Standard low- and medium-power induction motor drives are based on the pulse width modulation (PWM) voltage-source inverter (VSI) fed from a diode rectifier. The dual topology, based on the current-source inverter/rectifier structure is used in medium- and high-power applications. This paper analyzes the existing motor drives based on current-source topologies and proposes a control strategy that addresses some of the ...


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Educational Resources on Induction motor drives

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IEEE-USA E-Books

  • Analysis of Current Source Induction Motor Drive Fed from Photovoltaic Energy Source

    None

  • Induction Motor Drives

    This chapter explores the use of induction machines in variable speed drive systems by using several control strategies. First, volts‐per‐hertz control, is designed to accommodate variable‐speed commands by using the inverter to apply a voltage of correct magnitude and frequency so as to approximately achieve the commanded speed without the use of speed feedback. Second, constant slip control drive system is designed so as to accept a torque command input - and therefore speed control requires and additional feedback loop. Another strategy considered is field‐oriented control to nearly instantaneous control of torque. Another method of controlling torque, called direct torque control (DTC), is also described, and its performance illustrated by computer traces. Finally, slip energy recovery systems, such as those used in modern variable‐speed wind turbines, are described.

  • Model reference adaptive speed control for induction motor drive using neural networks

    A model reference adaptive speed control scheme using neural networks is presented. The robust observer-based model reference tracking control technique is used to establish the training patterns. Then, the trained neural networks are used as an adaptive speed controller to robustly track a reference model for an induction motor drive.

  • A comparative study of various motor drive systems for aircraft applications

    Due to the increasing complexity and requirements of various aircraft applications, the associated drive systems demand significant improvements in performance, speed of response and functionality, without leading to deterioration in efficiency and power density. Three such drive systems, the permanent magnet synchronous motor drive system, the switched reluctance motor drive system, and the induction motor drive system, are considered for such an application and a comparative study is presented. Three machine design software packages were developed by the authors for the purpose of comparative study based on electromagnetic considerations. Sample results obtained from the software packages for a wide range of power ratings are presented for the three motor drive systems.<<ETX>>

  • A current-source-inverter-fed induction motor drive system with reduced losses

    Standard low- and medium-power induction motor drives are based on the pulse width modulation (PWM) voltage-source inverter (VSI) fed from a diode rectifier. The dual topology, based on the current-source inverter/rectifier structure is used in medium- and high-power applications. This paper analyzes the existing motor drives based on current-source topologies and proposes a control strategy that addresses some of the drawbacks of this approach compared to the voltage-source approach. The proposed strategy features the following: (1) an online operated PWM CSI, using instantaneous output capacitor voltage control based on space-vector modulation; and (2) an additional inverter modulation index control loop, ensuring constant inverter modulation index and minimum DC-link current operation. The resulting additional advantages include the following: (1) fixed and reduced motor voltage distortion; (2) minimized DC-bus inductor losses; (3) minimized switch conduction losses; and (4) elimination of motor circuit resonances. Experimental results based on a DSP implementation are given.

  • 1983 Design of Angle-Controlled Current Source Inverter-Fed Induction Motor Drive

    The current source inverter-fed induction motor drive (hereafter referred to as CSIM drive) is one of the widely used drives in the industry. Of the many strategies employed for the control of CSIM drive, angle control is the simplest scheme to incorporate the aspect of "frequency compensation," thus paving the way for a fast response CSIM drive. A step-by-step design of the angle-controlled CSIM drive is described. A systematic design of inner current loop, slip speed loop, outer speed loop, and frequency compensation loop is given. The design incorporates a linear relationship between the reference input and output of electromagnetic torque and a strategy to obtain maximum torque per ampere. The commutation delay in the current source inverter is taken care of in the design of the frequency compensator. Experimental results are given in support of the design procedure.

  • Influence of three-phase symmetry on pulsating torque in induction motor drives

    In sine-triangle (ST) pulse width modulation (PWM), the carrier frequency is chosen to be an odd-triplen multiple (e.g., 3, 9, 15... etc.) of the modulating signal frequency in order to maintain the three-phase symmetry among the three pole voltages. However, for ST PWM with non-triplen pulse numbers (e.g., 5, 7, 11... etc.), the three-phase symmetry is not maintained. This paper studies the influence of three-phase symmetry on the line current and torque harmonics in a motor drive, considering pulse numbers of 5, 7 and 9. Absence of three-phase symmetry is shown to result in balanced third harmonic/triplen frequency components in the three-phase line currents. These triplen frequency components interact with the fundamental flux to produce even torque harmonics of order other than multiples of 6. It is predicted that a pulse number of 5 would lead to significant torque harmonics of order 2 and 8, and that a pulse number of 7 would lead to 4<sup>th</sup> and 10<sup>th</sup> harmonics torques. Those theoretical predictions are confirmed by simulations and experimental results on a 3.7 kW induction motor drives.

  • Accuracy Of The Speed Estimation In The Sensorless Induction Motor Drives Based On The Mras Technique

    None

  • A unified drive-how and why?

    Some manufacturers offer a range of similar variable speed drives to cover a range of applications and motor types so that their customers do not have to be familiar with several different products. The set-up and control of drives is never the same throughout a range and the user must keep several sets of different spares. A unified drive which incorporates the necessary power and control elements for more than one type of motor would help to address the problem. A majority of AC motor applications from 0.75 kW to 1 MW can be covered by the following: open loop AC motor drive (for induction, reluctance or permanent magnet motors); sensorless vector AC induction motor drive; closed loop vector AC induction motor drive; and closed loop permanent magnet synchronous (servo) motor drive. These are all normally based on a PWM voltage source inverter and controlled by microprocessor based hardware. This has allowed all four to be combined to form the Unidrive in which the type of drive is selected simply by changing a software parameter, and which can operate in each of the four configurations without any additional hardware modules. It is not possible to use exactly the same control algorithm in each case, but as described in this paper there can be a high degree of commonality between drive types. This is an enormous benefit in the design process as it reduces the effort required to produce the drive software. It also benefits the user because the drive parameter set differs little between each drive type.<<ETX>>

  • Robust adaptive control for direct torque controlled induction motor drives

    A new, simple, high performance, robust control strategy for induction machines is proposed. The Bristol University developed Minimum Controller Synthesis technique, which is simpler than conventional Model Reference Adaptive Control techniques, is further developed and, for the first time, included in a Direct Torque Control strategy. A rigorous mathematical proof, not presented here, has shown that stability is guaranteed. The new control scheme is compared with the widely used PI control strategy for speed transient, sudden load disturbance and non-linear torque variations. In all cases, the new strategy exhibits significant improvements in performance.



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