Conferences related to Electromagnets

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2013 13th International Conference on Control, Automaton and Systems (ICCAS)

Control Theory and Application, Intelligent Systems, Industrial Applications of Control,Sensor and Signal Processing, Control Devices and Instruments, Robot Control, RobotVision, Human-Robot Interaction, Robotic Applications, Unmanned Vehicle Systems...


2013 International Conference on Electrical Machines and Systems (ICEMS)

Main Topics1) PM, DC Machines and Drives2) Power Converters/Inverters3) Induction Machines and Drives4) Synchronous Machines and Drives5) Linear Machines and Magnetic Levitation6) Special Machines and Applications7) Renewable Energy and Related Topics8) Field Analysis and Computational Method9) Motion Control10) Fault and Diagnosis11) Designing, Manufacturing, Testing and Standards12) Transformers and High Voltage Machines13) OthersSpecial Topics1) High Speed Machine and Drives2) Personal Mobility3) EMI/EMC4) High Speed Train5) xEVs and Applications6) In-wheel Motors and Drives7) x-by-wire TechnologySpecial Topics1. High Speed Machine and Drives2. Personal Mobility3. In-wheel Motors and Drives4. x-by-wire Technology5. Electric Propulsion6. High Speed Train

  • 2012 15th International Conference on Electrical Machines and Systems (ICEMS)

    The conference will provide a big opportunity for researchers and professionals from all over the world to present the latest researches and developments and to exchange useful information and experiences in the fields of electrical machines and systems such as motor drive systems, turbine generators, linear machines, transformers, electric vehicles, renewable energy, power converters, etc.

  • 2011 International Conference on Electrical Machines and Systems (ICEMS)

    Electrical machines, power electronics and systems.

  • 2010 International Conference on Electrical Machines and Systems (ICEMS)

    1) Power Converters/Inverters 2) Systems for Renewable Energy 3) Motor Drives 4) PM Machines and DC Machines 5) Induction, Synchronous Machines 6) Transformers and High Voltage Machines 7) Linear Machines 8) Special Machines and Their Applications 9) Field Analysis and optimal Design Technologies 10) Electrical Technologies for the Next Generation Vehicle

  • 2009 International Conference on Electrical Machines and Systems (ICEMS)

    The aims of ICEMS2009 are to provide an opportunity for scientists and experts to present the latest research developments in the field of electrical machines and systems (rotating and other machines, power electronics, motion control, and motor drives) and to exchange useful information and experiences in research, trends and applications.

  • 2008 International Conference on Electrical Machines and Systems (ICEMS)

    The conference is a forum for specialists and engineers engaged in the field of electrical machines and drive systems to exchange their latest achievements and experiences of developments, trends and applications.

  • 2007 International Conference on Electrical Machines and Systems (ICEMS)

    MAIN TOPICS 1) Power Converters/Inverters 2) DC-DC Converters 3) Power Conditioning Systems for Renewable Energy 4) Motor Drives 5) PM Machines and DC Machines 6) Induction, Synchronous Machines 7) Transformers and Reactors 8) High Voltage Machines 9) Field Analysis and Optimal Design Technologies 10) Special Machines and Their Applications SPECIAL TOPICS 1) Status and Progress in Maglev Technology 2) Intelligent Mechatronics for Robotics and Advanced Vehicles (HEV & FCEV)


2012 15th Biennial IEEE Conference on Electromagnetic Field Computation (CEFC)

The aims of the IEEE CEFC are to present the latest developments in modeling and simulation methodologies for the analysis of electromagnetic fields and wave interactions, with the application emphasis being on the computer-aided design of low and high frequency devices, components and systems. Scientists and engineers worldwide are invited to submit original contributions in the areas of Static and Quasi-static Fields, Wave Propagation, Material Modeling, Coupled Problems, Numerical Techniques, Optimization and Design, Software Methodology, Nanomagnetics, Nanophotonics, Bioelectric Field Computation as well as Devices and Applications.



Periodicals related to Electromagnets

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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


Magnetics, IEEE Transactions on

Science and technology related to the basic physics and engineering of magnetism, magnetic materials, applied magnetics, magnetic devices, and magnetic data storage. The Transactions publishes scholarly articles of archival value as well as tutorial expositions and critical reviews of classical subjects and topics of current interest.


Mechatronics, IEEE/ASME Transactions on

Synergetic integration of mechanical engineering with electronic and intelligent computer control in the design and manufacture of industrial products and processes. (4) (IEEE Guide for Authors) A primary purpose is to have an aarchival publication which will encompass both theory and practice. Papers will be published which disclose significant new knowledge needed to implement intelligent mechatronics systems, from analysis and ...



Most published Xplore authors for Electromagnets

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Xplore Articles related to Electromagnets

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3-D nonlinear analysis of effect of air gap between yoke and steel in alternating flux leakage testing

Y. Gotoh; N. Takahashi Electrical Machines and Systems, 2001. ICEMS 2001. Proceedings of the Fifth International Conference on, 2001

The alternating magnetic flux leakage testing has been applied in the inspection process for detecting cracks on the surface of steel. This testing detects the leakage flux from the cracks in ferromagnetic material magnetized by the AC electromagnet. The signal is affected by the construction of the equipment. In this paper, the effect of the air gap between the yoke ...


Finite element analysis for eddy current in DC electromagnet during its closing process

Yang Qingxin; Yan Weili IEEE Transactions on Magnetics, 1990

A simplified eddy current model is used to analyze the effect of eddy current in a DC electromagnet core on the closing movement time of the armature. The dynamic characteristic of the DC electromagnet is then calculated by means of the finite-element method. The proposed eddy current model is shown to be simple and effective


Optimum design of iron-core electromagnets

P. Di Barba; P. Navarra; A. Savini; R. Sikora IEEE Transactions on Magnetics, 1990

General problems of optimization of iron-core electromagnets are considered. The use of analytical and numerical methods are compared. Various models of electromagnets are examined, taking into account the magnetization curve of iron, operating conditions, the construction of coils, etc. The possibility of tackling the automatic design of iron-core electromagnets with cylindrical symmetry is demonstrated. The optimization procedure can also be ...


Nonlinear feedback control of magnetic levitating system by exact linearization approach

Feifei Zhang; K. Suyama Proceedings of International Conference on Control Applications, 1995

This paper presents a robust control design for magnetic levitating systems (MLS) using the exact linearization approach. It consists of two steps: 1) it is shown that the MLS can be exactly linearized, so the problem caused by the model uncertainties in the usual approximate linearization can be overcome; 2) the robustness against the parameter uncertainties is guaranteed by linear ...


Concentricity alignment between electromagnet yoke and suspended coil in NIM-2

Yongmeng Liu; Yang Bai; Tao Zeng; Zhengkun Li; Yunfeng Lu; Jiubin Tan 2016 Conference on Precision Electromagnetic Measurements (CPEM 2016), 2016

The concentricity alignment error between the electromagnet yoke and the suspended coil is one of the key undetermined sources of Planck constant measured by Joule Balance NIM-2. Firstly, three capacitance sensors are mounted on the frame of the suspended coil with 120° equal angular distribution to measure the concentricity alignment errors. Secondly, the theoretical model of the concentricity alignment error ...


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Educational Resources on Electromagnets

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eLearning

3-D nonlinear analysis of effect of air gap between yoke and steel in alternating flux leakage testing

Y. Gotoh; N. Takahashi Electrical Machines and Systems, 2001. ICEMS 2001. Proceedings of the Fifth International Conference on, 2001

The alternating magnetic flux leakage testing has been applied in the inspection process for detecting cracks on the surface of steel. This testing detects the leakage flux from the cracks in ferromagnetic material magnetized by the AC electromagnet. The signal is affected by the construction of the equipment. In this paper, the effect of the air gap between the yoke ...


Finite element analysis for eddy current in DC electromagnet during its closing process

Yang Qingxin; Yan Weili IEEE Transactions on Magnetics, 1990

A simplified eddy current model is used to analyze the effect of eddy current in a DC electromagnet core on the closing movement time of the armature. The dynamic characteristic of the DC electromagnet is then calculated by means of the finite-element method. The proposed eddy current model is shown to be simple and effective


Optimum design of iron-core electromagnets

P. Di Barba; P. Navarra; A. Savini; R. Sikora IEEE Transactions on Magnetics, 1990

General problems of optimization of iron-core electromagnets are considered. The use of analytical and numerical methods are compared. Various models of electromagnets are examined, taking into account the magnetization curve of iron, operating conditions, the construction of coils, etc. The possibility of tackling the automatic design of iron-core electromagnets with cylindrical symmetry is demonstrated. The optimization procedure can also be ...


Nonlinear feedback control of magnetic levitating system by exact linearization approach

Feifei Zhang; K. Suyama Proceedings of International Conference on Control Applications, 1995

This paper presents a robust control design for magnetic levitating systems (MLS) using the exact linearization approach. It consists of two steps: 1) it is shown that the MLS can be exactly linearized, so the problem caused by the model uncertainties in the usual approximate linearization can be overcome; 2) the robustness against the parameter uncertainties is guaranteed by linear ...


Concentricity alignment between electromagnet yoke and suspended coil in NIM-2

Yongmeng Liu; Yang Bai; Tao Zeng; Zhengkun Li; Yunfeng Lu; Jiubin Tan 2016 Conference on Precision Electromagnetic Measurements (CPEM 2016), 2016

The concentricity alignment error between the electromagnet yoke and the suspended coil is one of the key undetermined sources of Planck constant measured by Joule Balance NIM-2. Firstly, three capacitance sensors are mounted on the frame of the suspended coil with 120° equal angular distribution to measure the concentricity alignment errors. Secondly, the theoretical model of the concentricity alignment error ...


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IEEE.tv Videos

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IEEE-USA E-Books

  • Core Laminations and Their Insulation

    This chapter covers a class of materials known as ferromagnetics. They are very strongly magnetic and include iron, nickel, cobalt, and some alloys. For motor and generator applications, there are two ways to obtain a magnetic field with ferromagnetic materials. It can be created either by electric currents, as in electromagnets, or by permanent magnets. We focus on the materials, processes, and insulation of electromagnets.

  • Dynamic Modeling of Stick Slip Motion in an Untethered Magnetic Micro-Robot

    This work presents the dynamic modeling of an untethered electromagnetically actuated magnetic micro-robot, and compares computer simulations to experimental results. The micro-robot, which is composed of neodymium-iron- boron with dimensions 250 µm x 130 µm x 100 µm, is actuated by a system of 5 macro-scale electromagnets. Periodic magnetic fields are created using two different control methods, which induce stick-slip motion in the micro-robot. The effects of model parameter variations on micro-robot velocity are explored and discussed. Micro-robot stick-slip motion is accurately captured in simulation. Velocity trends of the micro-robot on a silicon surface as a function of magnetic field oscillation frequency and magnetic field strength are also captured. Mismatch between simulation and reality is discussed.

  • Experimental Methods

    This chapter contains sections titled: Introduction Field Production By Solenoids Field Production by Electromagnets Field Production by Permanent Magnets Measurement of Field Strength Magnetic Measurements in Closed Circuits Demagnetizing Fields Magnetic Shielding Demagnetizing Factors Magnetic Measurements in Open Circuits Instruments for Measuring Magnetization Magnetic Circuits and Permeameters Susceptibility Measurements Problems

  • Superconductivity and Magnetism

    This chapter contains sections titled: Historical Introduction Magnetic Flux Magnetic Levitation Magnetic Materials Magnetic Noise, Barkhausen Effect Magnetic Refrigeration Magnetic Resonance Superconducting Magnets, Quench Protection Superconductivity: Critical Current Superconductivity: Electromagnets Superconductivity: Electronics Superconductivity: Hysteresis and Coupling Losses Superconductivity: Microwave Technology Superconductivity: Tunneling and Josephson Junctions Superconductivity: Type I and II



Standards related to Electromagnets

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Jobs related to Electromagnets

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