249 results
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2. Preisach’s Model Extended With Dynamic Fractional Derivation Contribution.
- Author
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Zhang, B., Gupta, B., Ducharne, B., Sebald, G., and Uchimoto, T.
- Subjects
FRACTIONAL calculus ,MAGNETIC materials ,ELECTROMAGNETIC fields ,HYSTERESIS ,NUMERICAL analysis ,MATHEMATICAL models - Abstract
Accurate and simple magnetic material behavior law is necessary to correctly model complete electromagnetic systems. In this paper, a new formulation based on the scalar quasi-static hysteresis Preisach model extended to dynamic behavior using fractional derivation dynamic contribution is proposed. The fractional contribution is solved using convolution which highly reduces the numerical issues. The order of the fractional derivation provides a new degree of freedom and allows to correctly obtain simulation results on a very large frequency bandwidth. By using such formulation, space discretization techniques (finite differences, finite elements) are avoided which are highly space and time consuming while keeping the global simulation results precise. The numerical implementation of the problem and some experimental validations are shown in this paper. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
3. Generalized Frequency-Domain Controller Tuning Procedure for VSC Systems.
- Author
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Arunprasanth, Sakthivel, Annakkage, Udaya D., Karawita, Chandana, and Kuffel, Rick
- Subjects
VOLTAGE control ,FREQUENCY-domain analysis ,ELECTRIC power system control ,MATHEMATICAL optimization ,ELECTROMAGNETIC fields ,MATHEMATICAL models - Abstract
This paper proposes a robust frequency-domain method to tune the d–q decoupled control system used in Modular Multilevel Converter-type Voltage Source Converter (MMC-VSC) systems. A linearized state-space model of the MMC-VSC system is developed and used to calculate the stability-related frequency-domain attributes. The controller design problem is formulated as an optimization problem. In this paper, the simulated annealing optimization technique is applied to find the proportional-integral (PI) controller parameters that give desired damping for the oscillatory modes and desired values for decaying exponential modes. The efficacy of this method is tested on the electromagnetic transient model of a two-terminal MMC-VSC system on the real-time digital simulators, and the results are provided in this paper. Finally, tuned controller parameters for different ac system strengths are discussed and it is shown that this mathematical model is suitable to tune the PI-controller parameters for MMC-VSC systems connected to strong as well as weak ac networks. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
4. A Mode-Matching Technique for Analysis of Scattering by Periodic Comb Surfaces.
- Author
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Valtr, Pavel, Davenport, Christopher J., Pechac, Pavel, and Rigelsford, Jonathan M.
- Subjects
ELECTROMAGNETIC wave scattering ,ELECTROMAGNETIC fields ,PLANE wavefronts ,LINEAR equations ,NEAR-fields ,NUMERICAL analysis ,MATHEMATICAL models - Abstract
Numerical techniques for calculating electromagnetic fields within three-dimensional surfaces are computationally intensive. Therefore, this paper presents the application of a mode-matching technique developed for analyzing electromagnetic scattering from periodic comb surfaces illuminated by a plane wave. A set of linear equations has been developed to calculate mode coefficients of the field distribution for both E- and H-polarized incident waves. Analysis is performed for two cases where the comb thickness is either infinitely thin or of a finite thickness. The technique is shown to accurately predict both field intensities within the near-field of the periodic surface and far-field scattering patterns. Results are compared to those obtained using the finite integration techniques (FIT) implemented in CST Microwave Studio. Furthermore, numerical results are compared to measurements of an aluminum prototype. Additional far-field scattering measurements using a bi-static system provide additional confidence in CST simulations and the mode-matching methods presented here. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
5. Computational Methods in the Warp Code Framework for Kinetic Simulations of Particle Beams and Plasmas.
- Author
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Friedman, Alex, Cohen, Ronald H., Grote, David P., Lund, Steven M., Sharp, William M., Vay, Jean-Luc, Haber, Irving, and Kishek, Rami A.
- Subjects
PLASMA gases ,MATHEMATICAL models ,PLASMA gas research ,PARTICLE beams ,ALGORITHM research ,SIMULATION methods & models ,LASER research ,ELECTROMAGNETIC fields - Abstract
The Warp code (and its framework of associated tools) was initially developed for particle-in-cell simulations of space-charge-dominated ion beams in accelerators, for heavy-ion-driven inertial fusion energy, and related experiments. It has found a broad range of applications, including nonneutral plasmas in traps, stray electron clouds in accelerators, laser-based acceleration, and the focusing of ion beams produced when short-pulse lasers irradiate foil targets. We summarize novel methods used in Warp, including: time-stepping conducive to diagnosis and particle injection; an interactive Python-Fortran-C structure that enables scripted and interactive user steering of runs; a variety of geometries (3-D $x$ , $y$ , $z$ ; 2-D $r$ , $z$ ; 2-D $x$ , $y$ ); electrostatic and electromagnetic field solvers; a cut-cell representation for internal boundaries; the use of warped coordinates for bent beam lines; adaptive mesh refinement, including a capability for time-dependent space-charge-limited flow from curved surfaces; models for accelerator lattice elements (magnetic or electrostatic quadrupole lenses, accelerating gaps, etc.) at user-selectable levels of detail; models for particle interactions with gas and walls; moment/envelope models that support sophisticated particle loading; a drift-Lorentz mover for rapid tracking through regions of strong and weak magnetic field; a Lorentz-boosted frame formulation with a Lorentz-invariant modification of the Boris mover; an electromagnetic solver with tunable dispersion and stride-based digital filtering; and a pseudospectral electromagnetic solver. Warp has proven useful for a wide range of applications, described very briefly herein. It is available as an open-source code under a BSD license. This paper describes material presented during the Prof. Charles K. (Ned) Birdsall Memorial Session of the 2013 IEEE Pulsed Power and Plasma Science Conference. In addition to our overview of the computational methods used in Warp, we summarize a few aspects of Ned's contributions to plasma simulation and to the careers of those he mentored. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
6. Improved Analytical Modeling of Axial Flux Machine With a Double-Sided Permanent Magnet Rotor and Slotless Stator Based on an Analytical Method.
- Author
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Sung, So-Young, Jeong, Jae-Hoon, Park, Yu-Seop, Choi, Jang-Young, and Jang, Seok-Myeong
- Subjects
PERMANENT magnet motors ,MATHEMATICAL models ,MAGNETIC flux ,ROTORS ,STATORS ,ELECTROMAGNETIC fields ,SYNCHRONOUS generators - Abstract
This paper presents the results of an experimental verification and electromagnetic field analysis for an axial flux permanent magnet (PM) synchronous generator (AFPMSG) with a double-sided PM rotor and slotless stator windings based on analytical field computation to offer improved analytical modeling method. An analytical approach to analyze the magnetic field distribution and estimate the equivalent circuit parameters is presented that dramatically reduces analysis time while maintaining high reliability. Since the flux leakage phenomenon is dominant in the inner and outer radii of this type of AFPMSG, it is specifically considered. In addition, an actual device was fabricated on the basis of one of the analysis models, and used to experimentally verify all of the analysis results. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
- Full Text
- View/download PDF
7. Fast Computation of Electromagnetic Vibrations in Electrical Machines via Field Reconstruction Method and Knowledge of Mechanical Impulse Response.
- Author
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Torregrossa, Dimitri, Fahimi, Babak, Peyraut, François, and Miraoui, Abdellatif
- Subjects
ELECTROMAGNETIC fields ,VIBRATION (Mechanics) ,MATHEMATICAL models ,PERMANENT magnets ,FINITE element method ,ELECTRIC machinery - Abstract
The main objective of this paper is to provide an efficient computational model for fast and accurate calculation of electromagnetically induced vibrations in electrical machines. Although a three-phase permanent-magnet synchronous machine has been used in this paper, the same methodology can be extended to other types of electric machinery. A brief comparison between the different methods for structural analysis in electrical machines is introduced. The method proposed in this paper uses finite-element analysis in order to extract the impulse responses that are used in calculating the vibration. A field reconstruction method is used for the electromagnetic field analysis. [ABSTRACT FROM PUBLISHER]
- Published
- 2011
- Full Text
- View/download PDF
8. Nonconformal FETI-DP Domain Decomposition Methods for FE-BI-MLFMA.
- Author
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Gao, Hong-Wei, Yang, Ming-Lin, and Sheng, Xin-Qing
- Subjects
ELECTROMAGNETIC wave scattering ,ANTENNA radiation patterns ,DOMAIN decomposition methods ,FINITE element method ,BOUNDARY value problems ,LAGRANGE multiplier ,MATHEMATICAL models - Abstract
The nonconformal domain decomposition methods (DDMs) of the hybrid finite element-boundary integral-multilevel fast multipole algorithm (FE-BI-MLFMA) are presented for computing large electromagnetic scattering/radiation problems. The numerical performance of different transmission conditions between finite element method (FEM) subdomains, and FEM and BI domains is studied in this paper. The Dirichlet transmission condition (DTC) employed at the interface between FEM and BI domains has faster convergence than the Robin-type transmission condition, and this finding is different from the conclusions for the FEM DDMs published in the literature. Furthermore, the cement-element (CE)-based dual-primal finite element tearing and interconnecting (FETI-DP) DDM has faster convergence than the Lagrange-multiplier-based FETI-DP method under the FE-BI system, and is also different from that under the system of the FEM with the absorbing boundary condition (FEM-ABC). It shows that the DDMs of FE-BI-MLFMA have some essential differences from those of FEM-ABC. The analysis of these numerical phenomena is presented in this paper. Further comparison between the DDMs of FE-BI-MLFMA and FEM-ABC demonstrates that the DDMs of FE-BI-MLMFA have essential advantages over those of FEM-ABC. Various numerical experiments confirm the accuracy, efficiency, and flexibility of the nonconformal DDM of FE-BI-MLFMA, which is the CE-based FETI-DP DDM with DTC connecting FEM and BI. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
9. Electromagnetic Field Analysis Considering Reaction Field Caused by Eddy Currents and Hysteresis Phenomenon in Laminated Cores.
- Author
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Yamazaki, Katsumi and Sakamoto, Yuto
- Subjects
ELECTROMAGNETIC fields ,LAMINATED materials ,EDDY currents (Electric) ,HYSTERESIS ,THICKNESS measurement ,MATHEMATICAL models - Abstract
An analysis method for characteristics calculation of electric machines is proposed in order to take the effects of eddy currents and hysteresis phenomenon in laminated cores into account. In the proposed method, both the effects of eddy currents and hysteresis phenomenon are expressed as reaction magnetic fields against the exciting field. These fields are determined by coupling the main electromagnetic field analysis that neglects the detailed structures of laminated cores, and 1-D time-stepping analysis along the thickness of electrical steel sheets. The validity of this coupling is confirmed by comparing the measured and calculated results of the core-material characteristics. The effects of the reaction field on the torque characteristics of rotating machines are also clarified. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
10. Implicit Function and Level Set Methods for Computation of Moving Elements During Microwave Heating.
- Author
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Ye, Jing-Hua, Zhu, Hua-Cheng, Liao, Yin-Hong, Zhou, Yan-Ping, and Huang, Ka-Ma
- Subjects
MICROWAVE heating ,IMPLICIT functions ,COORDINATE transformations ,ELECTROMAGNETIC fields ,HEAT transfer ,MATHEMATICAL models - Abstract
It is popular to use moving elements to improve heating uniformity during microwave heating under some situations. However, it is still a challenge to simulate moving elements during microwave heating due to the complexity of mathematical modeling. In this paper, a novel continuous algorithm based on implicit function and level set methods is developed to compute this heating process. By introducing the implicit function and level set methods, the moving region’s properties are set as a function of space coordinate and time, which means that the movement of the elements is represented by the variation of the parameters. In addition, with the coordinate transformation, the coupling process of electromagnetic field and heat transfer in microwave heating can be performed. A 2-D applicator model and a 3-D applicator model with a rotating turntable are used to illustrate the proposed method in detail. Experiments are also conducted to testify the validity of the proposed method. The results obtained by the proposed method are in accordance with those obtained by experiments. Moreover, compared with conventional methods, the proposed method is more accurate and efficient. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
11. Accurate Numerical Method for Multipactor Analysis in Microwave Devices.
- Author
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You, Jian Wei, Wang, Hong Guang, Zhang, Jian Feng, Tan, Shu Run, and Cui, Tie Jun
- Subjects
MICROWAVE devices ,FINITE difference method ,INTEGRATED circuits ,FINITE integration technique ,ELECTROMAGNETIC fields ,COMPUTER simulation ,MATHEMATICAL models - Abstract
A novel hybrid method, combining the conformal time domain finite integral theorem with the conformal particle-in-cell method, is applied to accurately analyze multipactor phenomena. To successfully apply this hybrid method in microwave devices, we propose a novel power-to-amplitude transformation technique in this paper. The PAT technique is effective and convenient to bridge the gap between the average input power in experiments and electromagnetic field amplitude in numerical simulations. In the end, a numerical example is given to demonstrate the effectiveness and accuracy of the proposed method, whose superiority is also greatly verified by experiments. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
12. A New Quasi-3-D Analytical Model of Axial Flux Permanent Magnet Machines.
- Author
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Tiegna, Huguette, Amara, Yacine, and Barakat, Georges
- Subjects
ELECTROMAGNETIC fields ,MATHEMATICAL models ,END effectors (Robotics) ,FINITE element method ,PERMANENT magnet motors ,ELECTRIC machines -- Design & construction ,MAGNETIC flux - Abstract
Fast design procedures of electrical machines require the use of adapted modeling approaches. This is particularly true for axial flux permanent magnet (AFPM) machines, which have an intrinsic 3-D electromagnetic structure. Indeed, accurate modeling of AFPM machines requires the use of 3-D finite-element analysis (3-D FEA), which is highly time consuming, especially at first design stages. This paper presents a new quasi-3-D analytical model (AM) that allows modeling accurately AFPM machines while saving a huge amount of time as compared with 3-D FEA. This new approach combines a multislice AM, which takes into account a part of the 3-D effects, and considers the end-effects by a simple and effective radial dependence modeling of the magnetic field in AFPM machines. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
13. Metamaterials With Tunable Negative Permeability Based on Mie Resonance.
- Author
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Zhang, Kuang, Wu, Qun, Fu, Jia-Hui, Meng, Fan-Yi, and Li, Le-Wei
- Subjects
MAGNETIC properties of metamaterials ,MAGNETIC permeability ,MATHEMATICAL models ,BANDWIDTHS ,PARAMETER estimation ,DIELECTRICS ,ELECTROMAGNETIC fields - Abstract
Metamaterials with tunable negative permeability are proposed and investigated theoretically in this paper. First, the model of the dielectric bilayer sphere embedded in the dielectric substrate is put forward. Second, expressions of the electromagnetic fields in the model are derived based on the Mie scattering theory, and the general formula for the effective permeability of the model is deduced via the Maxwell-Garnett theory, which is further verified through the simulation results. Finally, the tunable bandwidth of the negative permeability of the metamaterials changing with the geometrical parameters is investigated based on the full-wave simulations, and the relative mechanisms are also discussed. It is believed that the results would be helpful for the practical applications of the metamaterials, and the metamaterials with tunable negative permeability proposed in the paper would facilitate the constructions of the left-handed materials in some degree. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
- Full Text
- View/download PDF
14. Magnet Pole Shape Design of Permanent Magnet Machine for Minimization of Torque Ripple Based on Electromagnetic Field Theory.
- Author
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Jang, Seok-Myeong, Park, Hyung-Il, Choi, Jang-Young, Ko, Kyoung-Jin, and Lee, Sung-Ho
- Subjects
PERMANENT magnet motors ,ELECTROMAGNETIC fields ,MAGNETIC materials ,TORQUE ,MACHINE design ,MATHEMATICAL models ,FINITE element method ,MAGNETS ,FIELD theory (Physics) - Abstract
This paper deals with the magnet pole shape design of permanent magnet machines for the minimization of torque ripple based on electromagnetic field theory. On the basis of a magnetic vector potential and a two-dimensional (2-D) polar system, analytical solutions for flux density due to permanent magnet (PM) and current are obtained. In particular, the analytical solutions for mathematical expressions of magnets with different circumferential thicknesses can be solved by introducing improved magnetization modeling techniques, resulting in accurate calculations of electromagnetic torque. The analytical results are validated extensively by nonlinear finite element method (FEM). Test results such as back-emf measurements are also given to confirm the analyses. Finally, on the basis of derived analytical solutions, a reduction of torque ripple can be achieved. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
15. Using a Two-Step Finite-Difference Time-Domain Method to Analyze Lightning-Induced Voltages on Transmission Lines.
- Author
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Yang, Bo, Zhou, Bi-Hua, Gao, Cheng, Shi, Li-Hua, Chen, Bin, and Chen, Hai-Lin
- Subjects
FINITE differences ,ELECTRIC lines ,ELECTROMAGNETIC pulses ,TIME-domain analysis ,ENERGY consumption ,ELECTROMAGNETIC fields ,MATHEMATICAL models - Abstract
A novel high-efficient two-step finite-difference time-domain (FDTD) method is proposed to analyze the lightning-induced voltages on transmission lines (TLs) in this paper. The proposed method includes two steps. The first step is to calculate, using the 2-D FDTD method, electromagnetic fields that are radiated from a vertical lightning channel and illuminate the nearby TLs. The second step is to calculate, using the 3-D FDTD method, the electromagnetic response of the TL that is illuminated by the incident electromagnetic fields added at the total field–scattered field connecting the boundary of the 3-D space. To validate the proposed two-step FDTD method, the results calculated using the two-step FDTD method are compared with those calculated with Agrawal coupling model, and with those calculated using the 3-D FDTD method. The two-step FDTD method shows high computational efficiency in analyzing lightning-induced voltages on TLs. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
16. An Analytical Formulation of the Electromagnetic Field Generated by Lightning Return Strokes.
- Author
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Napolitano, Fabio
- Subjects
ELECTROMAGNETIC fields ,LIGHTING ,PIECEWISE linear topology ,MATHEMATICAL models ,ELECTROMAGNETIC measurements ,ELECTRIC lines ,ELECTRIC currents - Abstract
The evaluation of the lightning performance of overhead lines requires, mainly for distribution lines, the calculation of the voltages induced by nearby lightning strokes hitting the ground. Generally, when calculating lightning-induced voltages using the time-domain approach and the TEM assumption, the most time-consuming stage is the calculation of the source terms of the coupling equations, which means, in turn, the electromagnetic field radiated by the lightning channel. Hence, simplified approaches are still desirable in order to save computational time. Analytical solution of the lighting-originated electric- and magnetic field is available in literature for the case of an ideal transmission-line (TL) return-stroke model with channel-base current having a stepwise waveshape. This paper describes an analytical approach that applies to the case of a general waveshape of the channel-base current, based on the piecewise straight-line approximation, in cylindrical coordinates, which is functional when using the TL return-stroke current model and the Agrawal et al. coupling model. This paper reports the exact solution for the case of trapezoidal waveshape of the current at the base of the channel and the analytical solution for the case of piecewise linear waveform. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
17. EMC Assessment at Chip and PCB Level: Use of the ICEM Model for Jitter Analysis in an Integrated PLL.
- Author
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Levant, Jean-Luc, Ramdani, Mohamed, Perdriau, Richard, and Drissi, M'hamed
- Subjects
INTEGRATED circuits ,MATHEMATICAL models ,ELECTROMAGNETIC fields ,PRINTED circuits ,ELECTROMAGNETIC compatibility - Abstract
This paper deals with the use of the integrated circuit electromagnetic model (ICEM) to analyze, predict, and optimize autocompatibility and electromagnetic emission at chip and system level. ICEM is currently under standardization process (IEC62014- 3). The basic ICEM architecture is composed of a power distribution network model and an internal current source modeling digital activity. Such an approach enables the description of any kind of digital or mixed-signal design. This model is useful either for the IC manufacturer or the system manufacturer. The power distribution network of a printed circuit board (PCB) can be optimized using this model by choosing the number and the right values of decoupling capacitors as well as the size of power planes. The IC manufacturer may check out the autocompatibility of an IC and determine the number of power pins as well as the package to be used. As an example, jitter analysis of an integrated phase-locked-loop can be performed using ICEM. This paper demonstrates that this jitter can be predicted by simulation and that corrective solutions can be provided and checked out before implementation. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
18. Effect of High Permeability on the Accurate Determination of Permittivity for Mn-Zn Ferrite Cores.
- Author
-
Darning Thang and Foo, Chek Fok
- Subjects
FERRITE cores ,CAPACITORS ,FERRITES ,ELECTRIC equipment ,ELECTROMAGNETIC fields ,MATHEMATICAL models - Abstract
This paper presents a field-circuit-coupled method to investigate differences between intrinsic and measured permittiveties for a Mn-Zn ferrite. Electric and magnetic fields in a flat cylindrical ferrite, which is used here to construct a ferrite capacitor, are solved analytically. Then, complex power supplied to the capacitor is calculated. On the basis of the complex power, parametears in an equivalent circuit for the ferrite capacitor are extracted. The paper examines the validity of the developed mathematical model. Numerical results show that for a ferrite with high permeabilities, measured permittivities follow intrinsic values well at low frequency but fail to embody the intrinsic values when the frequency runs above several hundred kilohertz. Numerical results also demonstrate that the dimensions of the sample under investigation play a role in measurement errors. The larger the radius of the cylindrical ferrite is, the higher the errors are. Correction curves are generated, from which the measured permittivities can be corrected to reflect the intrinsic values. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
19. Two Ways to Increase the Pulse Duration of the Solid Pulse-Forming Line Based on Dispersion Analysis.
- Author
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Wang, Langning and Liu, Jinliang
- Subjects
PARTICLE size determination ,DIELECTRICS ,COULTER principle ,ELECTROMAGNETISM ,ELECTROMAGNETIC fields ,MATHEMATICAL models - Abstract
Solid dielectrics have been widely investigated as potential attractive candidates in compact portable pulsed-power systems. Slow-wave structure with good dispersion characteristics and broad transmission band can be used to increase the pulse duration while the size of pulse-forming line (PFL) decreases. In this paper, we present two different slow-wave structures, the tape helix for coaxial-line and the meander-line structure for the planar line, to increase the pulse duration of solid PFLs based on dispersion analysis. At first, the characteristic impedances, electric length, and dispersion curve of the PFL with the slow-wave structure are calculated by the electromagnetic dispersion theory. Based on the theoretical calculations, the PFLs are designed and simulated by the electromagnetic field tool. Finally, some test results on the PFLs are introduced. Currently, both the Al2O3 ( \varepsilon r= 9.3 ) helical PFL and the glass–ceramic ( \varepsilon r = 225 ) meander-line PFL can deliver a pulsewith 50-ns width, of which the dimension is \phi ~67~\mathrm mm \times 305 mm and 95~\mathrm mm \times 95~\mathrm mm\times 4 mm, respectively. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
20. A General Framework Based on a Hybrid Analytical Model for the Analysis and Design of Permanent Magnet Machines.
- Author
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Ouagued, S., Aden Diriye, A., Amara, Y., and Barakat, G.
- Subjects
PERMANENT magnets ,ELECTROMAGNETISM ,MATHEMATICAL models ,MAGNETIC circuits ,FINITE element method ,MAXWELL equations - Abstract
The aim of this paper is to highlight the capabilities of a new hybrid analytical modeling (HAM) approach for the analysis and design of various electromagnetic structures. After an introduction, where the aim of the development of this modeling approach is presented, the modeling approach is described. The new HAM is based on a strong coupling of the magnetic equivalent circuits method and analytical models (AMs). The AM, based on the formal solution of Maxwell’s equations, is established thanks to the separation of variables method. The HAM is applied to different permanent magnet electric machine structures, and the results are validated extensively by comparison with the finite-element analyses. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
21. Transient Process Analysis of Multi-Physical Parameters of Turbine Generator During Out of Phase Synchronization Fault.
- Author
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Liu, Wenmao, Li, Weili, Wang, Purui, Li, Dan, Li, Zhiqiang, and Xu, Guorui
- Subjects
TURBINE generators ,TRANSIENT analysis ,MAGNETIC flux leakage ,ELECTROMAGNETIC forces ,ELECTROMAGNETIC fields ,MAGNETIC flux ,ELECTRIC transients - Abstract
The air-cooled turbo-generator often works in the more frequent start-up and shut-down operation. Either the misoperation or the failure of synchronizing controllers can cause the out of phase synchronization fault. The fault can disturb the power angle and cause a strong impact electromagnetic force for the generator. With the traditional numerical calculation method, it is difficult to calculate the variations of key physical parameters and the electromagnetic field in the end region of the generator under complex working conditions, especially the out of phase synchronization fault. In order to solve the problem, a calculation method of the nonlinear transient electromagnetic field with multi-domain field-circuit-grid coupled is proposed. The correctness of the model and method is validated by comparing the calculated and test values of the magnetic density flux at the key points of the generator under the no-load condition. Based on this method, the power angle variation, the magnetic flux leakage distribution in the end region, and the electromagnetic force on the end winding in the transient process of the fault are calculated and analyzed. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
22. Acceleration of Dynamic Bubble Mesh Generation for Large-Scale Model.
- Author
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Noguchi, So, Nobuyama, Fumiaki, and Igarashi, Hajime
- Subjects
NUMERICAL grid generation (Numerical analysis) ,ACCELERATION (Mechanics) ,MATHEMATICAL models ,FINITE element method ,VAN der Waals forces ,PARALLEL computers ,ELECTROMAGNETIC fields - Abstract
An automatic mesh generation method employing a dynamic bubble system can provide a high-quality mesh for electromagnetic finite element analysis. However, it takes a very long time to compute bubbles' movement when a mesh with a large number of elements is generated. The bubbles move according to a force among them, such as the van der Waals force. However, the force received from bubbles of very far distance can be ignored. Therefore, it is unnecessary to calculate the force from all the bubbles. In this paper, we propose a subdivided dynamic bubble system in order to shorten the computation time. The proposed method considers the analysis region to be divided into some tetrahedral subdivisions, and then the bubbles move independently in the tetrahedral subdivisions. As a result, acceleration of the computation time is achieved. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
23. Influence of the Variation of the Input Parameters on the Simulation Results of a Large Hydrogenerator.
- Author
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Aguiar, Ana B. M., Merkhouf, Arezki, Hudon, Claude, and Al-Haddad, Kamal
- Subjects
HYDROELECTRIC generators ,PARAMETER estimation ,SIMULATION methods & models ,MATHEMATICAL variables ,MATHEMATICAL models ,ELECTROMAGNETIC fields ,AIR gap (Engineering) - Abstract
Electromagnetic modeling and simulation of hydroelectric generators require a large number of variables for accurate study and test result validation. Simulation results can be affected by mesh density, magnetic material properties, excitation current, and air gap. A finite-element analysis was performed to calculate the relative effect of these variables on a 122.6-MVA, 13.8-kV, 60-Hz, 60-pole, 504-stator slot design. The obtained results were compared with measured parameters such as air-gap flux density, line current, and magnetic core losses. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
24. Development of a 2-D Analytical Model for the Electromagnetic Computation of Axial-Field Magnetic Gears.
- Author
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Lubin, Thierry, Mezani, Smail, and Rezzoug, Abderrezak
- Subjects
ELECTROMAGNETIC fields ,PARTIAL differential equations ,MATHEMATICAL models ,AXIAL loads ,FINITE element method ,CARTESIAN coordinates - Abstract
This paper describes a two-dimensional (2-D) analytical model to predict the magnetic field distribution in axial-field magnetic gears by using the sub-domain method. The sub-domain method consists in solving the partial differential equations linked to the Maxwell's equations in each rectangular region (magnets, air gaps, and slots) by the separation of variables method. The proposed model is based on a two-dimensional approximation for the magnetic field distribution (mean radius model) i.e. the problem is solved in 2-D Cartesian coordinates. One of the main contributions of the paper concerns the analytic solution of the magnetic field in a slot open on the two sides (space between the ferromagnetic pole-pieces). Moreover, it is shown that the analytical model and the 3-D finite elements simulations follow the same trends in the determination of the optimum values for the geometrical parameters. As the analytical model takes less computational time than 3-D numerical model, it can be used as an effective tool for the first step of design optimization. [ABSTRACT FROM PUBLISHER]
- Published
- 2013
- Full Text
- View/download PDF
25. Modeling and Analysis of Acoustic Noise in External Rotor In-Wheel Motor Considering Doppler Effect.
- Author
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Lin, Fu, Zuo, Shuguang, Deng, Wenzhe, and Wu, Shuanglong
- Subjects
ELECTROMAGNETIC noise ,DOPPLER effect ,ELECTRIC motors ,ELECTRICAL harmonics ,FINITE element method ,ELECTROMAGNETIC fields ,MATHEMATICAL models - Abstract
In this paper, the characteristics of the electromagnetic noise radiated by an external rotor in-wheel motor (IWM) are investigated with the Doppler effect taken into consideration. First, Maxwell stress tensor method is employed to derive electromagnetic forces on the magnet surface. The effect of common current harmonics is also analyzed. Then, a structural model of the rotor is built and modal test is conducted to validate the model. Nodal forces, which are calculated by finite element method, are transferred from the electromagnetic mesh to the structural model for further vibration prediction. Finally, boundary element method is used to calculate the noise radiated by the rotor. In particular, the Doppler effect is considered. The calculated results are validated by the noise test. It is found that the end cap contributes more to the overall noise than the shell, and obvious sound directivity appears in the noise of the IWM. The noise measured perpendicular to the outer end cap is larger than that measured in other directions. In addition, the Doppler effect would induce additional side-frequency components around high-frequency peaks in the external rotor motor. [ABSTRACT FROM PUBLISHER]
- Published
- 2018
- Full Text
- View/download PDF
26. A Novel Two-Axis Theory-Based Experimental Approach Towards Determination of Magnetization Characteristics of Line-Start Permanent Magnet Synchronous Machines.
- Author
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Lu, Xiaomin, Iyer, K. Lakshmi Varaha, Mukherjee, Kaushik, and Kar, Narayan C.
- Subjects
PERMANENT magnet motors ,MAGNETIZATION ,ELECTRIC machines ,ELECTROMAGNETIC fields ,MATHEMATICAL models ,ELECTRIC machinery rotors ,SYNCHRONIZATION - Abstract
Understanding the importance of saturation of parameters in line-start permanent magnet synchronous machine (LSPMSM) and the scanty available research literature on simplistic methods of determining the magnetizing characteristics of LSPMSM, this paper proposes a novel and yet simplistic approach towards its determination. Experimental investigations have been performed on a laboratory LSPMSM based on the proposed dq axis (two-axis)-based methodology and the measured magnetization characteristics of the machine has been incorporated into the machine model. The measured characteristics have hence been validated through dynamic and steady state performance analyses of the machine under direct online (DOL) starting. Furthermore, performance analysis of the machine has also been performed through the developed machine model with and without incorporating the magnetization characteristics of the machine to elicit the effects of parameter saturation during startup and synchronization of the machine. [ABSTRACT FROM PUBLISHER]
- Published
- 2013
- Full Text
- View/download PDF
27. Quantum Cellular Automaton for Simulating Static Magnetic Fields.
- Author
-
Doi, T.
- Subjects
CELLULAR automata ,QUANTUM computers ,ELECTROMAGNETIC fields ,QUANTUM gates ,COMPUTER simulation ,MAGNETIC fields ,MAGNETOSTATICS ,MATHEMATICAL models - Abstract
This paper proposes a new quantum cellular automaton (quantum CA) for simulating macroscopic electromagnetic fields. The final target is to simulate the macroscopic electromagnetic fields on a quantum computer. In the proposal approach, Maxwell's historical model, which was explained the nature of electromagnetic fields in 1861, has been modified for a quantum CA model to simulate the electromagnetic fields. Then, a state transition rule for CA is determined by a strategy based on the quantum mechanics and the quantum computation theories. One of originalities of the proposed approach is that a system using quantum gates is superstructed to simulate magneto-static fields from currents. First, a modified Maxwell model for applying to quantum CA was shown. Second, by using the quantum computation theory, a quantum gate system to simulate the magnetic fields from currents was described. Finally, the proposed approach was applied to an example of magnetostatic field simulation. [ABSTRACT FROM PUBLISHER]
- Published
- 2013
- Full Text
- View/download PDF
28. A Lossy Circuit Model Based on Physical Interpretation for Integrated Shielded Slow-Wave CMOS Coplanar Waveguide Structures.
- Author
-
Franc, Anne-Laure, Pistono, Emmanuel, Meunier, Gérard, Gloria, Daniel, and Ferrari, Philippe
- Subjects
ELECTRIC lines ,EDDY currents (Electric) ,INTEGRATED circuits ,ELECTROMAGNETIC fields ,MATHEMATICAL models ,MAGNETIC shielding ,WAVEGUIDES ,COMPLEMENTARY metal oxide semiconductors ,MILLIMETER waves ,SEMICONDUCTORS - Abstract
This paper presents a new physical model for shielded slow-wave coplanar waveguide structures. This lossy electrical model is based on physical behavior of the transmission lines. It allows a better understanding of the losses distribution along the structure. The ohmic losses in the coplanar strips, as well as the ohmic losses and the eddy current losses in the floating shield strips are studied for transmission lines having different geometrical dimensions and hence electrical characteristics. The model is then validated on different CMOS technologies and leads to the efficient optimization of the slow-wave transmission lines, especially concerning the floating shield dimensions. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
29. Dynamic Average-Value Modeling of 120° VSI-Commutated Brushless DC Motors With Trapezoidal Back EMF.
- Author
-
Tabarraee, Kamran, Iyer, Jaishankar, Atighechi, Hamid, and Jatskevich, Juri
- Subjects
MATHEMATICAL models ,ROTORS ,TORQUE ,HARMONIC analysis (Mathematics) ,BRUSHLESS direct current electric motors ,ELECTROMAGNETIC fields ,COMMUTATION (Electricity) - Abstract
The 120° voltage source inverter driven brushless dc (BLDC) motors are very common in many applications. This paper extends the previous work and presents an improved dynamic average-value model for such BLDC motor-drive systems. The new model is explicit and uses a proper qd model of the permanent magnet synchronous machine with nonsinusoidal rotor flux. The model utilizes multiple reference frame theory to properly include the back EMF harmonics as well as commutation and conduction intervals into the averaged voltage and torque relationships. The commutation angle is readily obtained from the detailed simulation. The proposed model is demonstrated on a typical industrial BLDC motor with trapezoidal back EMF waveforms. The results of studies are compared with experimental measurements as well as previously established models, whereas the new model is shown to provide appreciable improvement. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
- Full Text
- View/download PDF
30. Time-Domain Generalized Telegrapher's Equations for the Electromagnetic Field Coupling to Finite Length Wires Above a Lossy Ground.
- Author
-
Poljak, Dragan, Shoory, Abdolhamid, Rachidi, Farhad, Antonijevic, Sinisa, and Tkachenko, Sergey V.
- Subjects
GENERALIZATION ,NUMERICAL solutions to equations ,ELECTROMAGNETIC fields ,MAGNETIC coupling ,LENGTH measurement ,APPROXIMATION theory ,ELECTRIC lines ,MATHEMATICAL models - Abstract
In this paper, a time-domain variant of the generalized telegrapher's equations for transient electromagnetic field coupling to a finite-length wire above a lossy half-space is derived. The approach is fully based on the thin-wire antenna theory. The lossy ground effects are taken into account by means of the reflection coefficient approximation. The obtained equations are handled numerically via the Galerkin–Bubnov indirect boundary element method. Computational examples are presented for the case of a single-wire line excited by an electromagnetic pulse excitation source. The obtained results for the induced current along the line are compared with those obtained using 1) the method of moments solution of the electric field integral equation implemented in the numerical electromagnetics code (NEC-4), and 2) the transmission line (TL) theory. It is shown that the results obtained by the proposed method are in excellent agreement with those of NEC-4. It is also shown that the TL approximation yields in general results which are in reasonably good agreement with the full-wave results, especially for the early time response and even beyond the limits of the accuracy of the TL theory. The TL theory can, however, give accurate results only for times before the arrival of the first reflection from the TL terminations and it fails to reproduce accurately the dispersion effects occurring after the first reflection. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
31. Decomposable Medium Conditions in Four-Dimensional Representation.
- Author
-
Lindell, Ismo V., Bergamin, Luzi, and Favaro, Alberto
- Subjects
ELECTROMAGNETIC fields ,MATHEMATICAL models ,DIFFERENTIAL forms ,ORTHOGONAL decompositions ,BIVECTORS ,ELECTROMAGNETIC theory ,ELECTRICAL harmonics ,QUADRATIC equations - Abstract
The well-known TE/TM decomposition of time-harmonic electromagnetic fields in uniaxial anisotropic media is generalized in terms of four-dimensional differential-form formalism by requiring that the field two-form satisfies an orthogonality condition with respect to two given bivectors. Conditions for the electromagnetic medium in which such a decomposition is possible are derived and found to define three subclasses of media. It is shown that the previously known classes of generalized Q-media and generalized P-media are particular cases of the proposed decomposable media (DCM) associated to a quadratic equation for the medium dyadic. As a novel solution, another class of special decomposable media (SDCM) is defined by a linear dyadic equation. The paper further discusses the properties of medium dyadics and plane-wave propagation in all the identified cases of DCM and SDCM. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
- Full Text
- View/download PDF
32. Directly Coupled Electromagnetic Field-Electric Circuit Model for Analysis of a Vector-Controlled Wound Field Brushless Starter Generator.
- Author
-
Bangura, John F.
- Subjects
ELECTRIC generators ,ELECTROMAGNETIC fields ,ELECTRIC circuits ,BRUSHLESS electric motors ,MATHEMATICAL models ,FEEDBACK control systems ,ELECTRIC potential - Abstract
Directly coupled electromagnetic field-electric circuit modeling approach for coupling an electrical machine to its associated external circuit and power electronics has been widely reported in the literature. However, the inclusion of a closed-loop control system, such as conventional vector (field-oriented) control, within a directly coupled electromagnetic field-electric circuit model has not been widely studied. This is partly because it is a rather complex task. This paper introduces a directly coupled electromagnetic field-electric circuit computational model in which a conventional vector control system has been incorporated for detail simulation of vector-controlled electric machinery drive systems. The model has been successfully applied in the design and analysis of a vector-controlled wound field brushless starter-generator system prototype. Comparison between the simulation and test results for both motor and generator modes show excellent correlation that validates the efficacy and computational soundness of the modeling approach. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
33. A Calderón Multiplicative Preconditioner for the PMCHWT Integral Equation.
- Author
-
Cools, Kristof, Andriulli, Francesco P., and Michielssen, Eric
- Subjects
INTEGRAL equations ,SCATTERING (Physics) ,ELECTROMAGNETIC fields ,MATHEMATICAL models ,EIGENVALUES ,ALGORITHMS ,NUMERICAL analysis - Abstract
Electromagnetic scattering by penetrable bodies often is modelled by the Poggio-Miller-Chan-Harrington-Wu-Tsai (PMCHWT) integral equation. Unfortunately the spectrum of the operator involved in this equation is bounded neither from above or below. This implies that the equation suffers from dense discretization breakdown; that is, the condition numbers of the matrix resulting upon discretizing the equation rise with the mesh density. The electric field integral equation, often used to model scattering by perfect electrically conducting bodies, is susceptible to a similar breakdown phenomenon. Recently, this breakdown was cured by leveraging the Calderón identities. In this paper, a Calderón preconditioned PMCHWT integral equation is introduced. By constructing a Calderón identity for the PMCHWT operator, it is shown that the new equation does not suffer from dense discretization breakdown. A consistent discretization scheme involving both Rao-Wilton-Glisson and Buffa-Christiansen functions is introduced. This scheme amounts to the application of a multiplicative matrix preconditioner to the classical PMCHWT system, and therefore is compatible with existing boundary element codes and acceleration schemes. The efficiency and accuracy of the algorithm are corroborated by numerical examples. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
34. Towards a Unified Approach to Electromagnetic Fields and Quantum Currents From Dirac Spinors.
- Author
-
Rozzi, Tullio, Mencarelli, Davide, and Pierantoni, Luca
- Subjects
ELECTROMAGNETIC fields ,SPINOR analysis ,QUANTUM theory ,ELECTRIC currents ,MATHEMATICAL models ,TIME-domain analysis ,DIRAC equation ,ELECTROMAGNETISM ,HARMONIC functions ,MAXWELL equations - Abstract
Modeling the combined electromagnetic (EM)/quantum transport problem in graphene circuits requires the development of novel concepts and novel unified tools. In this paper, we further explore the correlation between Dirac and Maxwell equations, in the time domain, where we derive the transmission-line equations, valid for both EM and quantum current. This is a step forward toward an effective integration of the Dirac theory in the numerical simulation of EM field problems and introducing EM concepts and simulators to describe quantum transport. We show that the familiar Telegrapher's equations can be readapted in order to investigate the mechanisms that govern the space–time evolution of Dirac spinors; two significant examples, having a double quantum/EM meaning, are provided. Final considerations about associated quantum current have also been reported. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
35. Dynamic Characteristics of a Linear Induction Motor for Predicting Operating Performance of Magnetic Levitation Vehicles Based on Electromagnetic Field Theory.
- Author
-
Jang, Seok-Myeong, Park, Yu-Seop, Sung, So-Young, Lee, Kyoung-Bok, Cho, Han-Wook, and You, Dae-Joon
- Subjects
MAGNETIC levitation vehicles ,INDUCTION motors ,MATHEMATICAL models ,DYNAMICS ,INTEGRATED circuits ,ELECTROMAGNETIC fields ,FINITE element method ,FIELD theory (Physics) ,PREDICTION theory - Abstract
This paper deals with the dynamic characteristics of a linear induction motor (LIM) in terms of acceleration times and jerk conditions. We employed Matlab Simulink for conducting simulations of the dynamic modeling of LIM operated by a space vector pulse width modulation inverter. From the simulation results, the maximum load conditions and minimum acceleration times to guarantee passengers' safety were determined. Further, the electromagnetic field theory was employed to derive equivalent circuit parameters, and the results were validated by the finite element method. The analysis model was applied to a magnetic levitation vehicle for providing electromagnetic propulsion force, and its dynamic characteristics were analyzed to predict its operating performance; moreover, experimental results were employed to demonstrate the validity. We believe that the proposed prediction technique for the operating characteristics of LIMs can contribute to improving passengers' safety and riding quality. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
36. Local Exposure System for Rats Head Using a Figure-8 Loop Antenna in 1500-MHz Band.
- Author
-
Arima, Takuji, Watanabe, Hiroshi, Wake, Kanako, Masuda, Hiroshi, Watanabe, Soichi, Taki, Masao, and Uno, Toru
- Subjects
BRAIN ,MICROWAVE antennas ,MATHEMATICAL models ,ELECTROMAGNETIC fields ,CELL phones ,SIMULATION methods & models ,LABORATORY rats - Abstract
Cellular phones are used in the vicinity of the human head, resulting in localized exposure to this part of the body. To simulate exposure during cellular phone use, microwave energy absorption should be focused within the head region of laboratory animals. In this paper, we developed an exposure system using a figure-8 loop antenna to permit localized exposure of a rat head to 1500-MHz microwave fields, simulating human head exposure to cellular phones. We have numerically estimated the specific absorption rate (SAR) in a rat exposed to microwave fields via our new exposure system. The high ratio of SAR averaged over the target tissue (i.e., the brain) to that averaged over the whole body suggests that the figure-8 antenna can realize greater localized exposure than the previously used exposure system. We have also confirmed the effectiveness of our proposed system experimentally. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
37. A Nondestructive Method for Accurately Extracting Substrate Parameters of Arbitrary Doping Profile in Nanoscale VLSI.
- Author
-
Bontzios, Yiorgos I., Dimopoulos, Michael G., and Hatzopoulos, Alkis A.
- Subjects
VERY large scale circuit integration ,ELECTROMAGNETIC fields ,GEOMETRIC analysis ,ELECTRIC conductivity ,MATHEMATICAL models ,HARMONIC functions - Abstract
In this paper, a new approach is presented for determining the substrate parameters of an arbitrary doping profile. It is general, technology independent, nonintrusive, and relies on simple direct-current measurements. A single measurement is required for uniform substrates, whereas two more measurements are needed for each additional layer in the multilayer case. Two different kernels are introduced for substrate resistance computation. One features a closed-form analytical solution of the Laplace equations defining the problem under study. The other relies on a geometric formulation of the current streamlines in order to compute the substrate resistance. Both simulations and measurements are exploited in order to show the validity of the proposed scheme. For measurements, data from literature are utilized and also data from a fabricated test chip. The results demonstrate that the proposed method succeeds in computing the substrate parameters fast and with high accuracy. In uniform substrates, the error falls to zero, whereas, in epitaxial substrates, the average error is kept bellow 4%. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
38. Validation of Single- and Multiple-Machine Equivalents for Modeling Wind Power Plants.
- Author
-
Brochu, Jacques, Larose, Christian, and Gagnon, Richard
- Subjects
MATHEMATICAL models ,WIND power plants ,REACTIVE power ,WIND speed ,ELECTRIC transients ,ELECTROMAGNETIC fields ,SIMULATION methods & models - Abstract
This paper presents an exhaustive simulation study performed to validate the adequacy of the equivalencing method promoted by the National Renewable Energy Laboratory for modeling wind power plants by single- and multiple-machine equivalents. The main simulation results are presented for a number of steady state and transient wind turbine generator operating conditions following various faults and a typical low-voltage ride through. The impact of protection systems such as the crowbar is also taken into account. The aggregation technique has shown to be adequate for load flow, stability, and electromagnetic transient studies with limitations, as presented in the paper. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
39. Particle-Filter-Based Multisensor Fusion for Solving Low-Frequency Electromagnetic NDE Inverse Problems.
- Author
-
Khan, Tariq, Ramuhalli, Pradeep, and Dass, Sarat C.
- Subjects
MULTISENSOR data fusion ,ELECTROMAGNETIC fields ,INVERSE problems ,NONDESTRUCTIVE testing ,MONTE Carlo method ,PRINCIPAL components analysis ,MATHEMATICAL models - Abstract
Flaw profile characterization from nondestructive evaluation (NDE) measurements is a typical inverse problem. A novel transformation of this inverse problem into a tracking problem and subsequent application of a sequential Monte Carlo method called particle filtering has been proposed by the authors in an earlier publication. In this paper, the problem of flaw characterization from multisensor data is considered. The NDE inverse problem is posed as a statistical inverse problem, and particle filtering is modified to handle data from multiple measurement modes. The measurement modes are assumed to be independent of each other with principal component analysis used to legitimize the assumption of independence. The proposed particle-filter-based data fusion algorithm is applied to experimental low-frequency NDE data to investigate its feasibility. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
40. Overlapping Finite Elements Used to Connect Non-Conforming Meshes in 3-D With a Vector Potential Formulation.
- Author
-
Krebs, Guillaume, Henneron, Thomas, Clenet, Stéphane, and Le Bihan, Yann
- Subjects
FINITE element method ,NUMERICAL grid generation (Numerical analysis) ,NUMERICAL analysis ,ELECTROMAGNETIC fields ,MAGNETOSTATICS ,MAXWELL equations ,MATHEMATICAL models - Abstract
Overlapping elements can be used to connect non-conforming meshes in the finite-element method. This approach has been developed with the scalar potential formulation and used to solve magnetostatic problems but not in the case of the vector potential formulation. In this paper, we propose to introduce the overlapping element method in this second formulation. [ABSTRACT FROM PUBLISHER]
- Published
- 2011
- Full Text
- View/download PDF
41. Time-Domain Finite-Element Method for the Transient Response of Multiconductor Transmission Lines Excited by an Electromagnetic Field.
- Author
-
Liu, Xin, Cui, Xiang, and Qi, Lei
- Subjects
TIME-domain analysis ,FINITE element method ,ELECTRIC transients ,MULTICONDUCTOR transmission lines ,ELECTROMAGNETIC fields ,MATHEMATICAL models ,ELECTRICAL conductors ,INTEGRATED circuits ,ELECTRIC lines - Abstract
The calculation of voltages induced by external electromagnetic fields on multiconductor transmission lines (MTLs) has been the subject of several studies. In this paper, discrete equations for MTLs exposed to incident fields are derived based on the time-domain finite-element method and the backward differentiation formula. Based on these equations, a value-delivery table characterizing the MTLs is presented. Combining this table with modified node analysis formulation, it is convenient for analyzing the responses of transmission lines composed of complex termination networks or complex transmission-lines networks. The validity and efficiency of the proposed algorithm is demonstrated using several examples. Finally, a 1-km 35 kV overhead line above an imperfectly conducting ground is studied, and the influences of ground wire and a metal-oxide arrester to the lightning-induced voltage are both discussed. [ABSTRACT FROM PUBLISHER]
- Published
- 2011
- Full Text
- View/download PDF
42. Comparative Studies Between Classical and Mutually Coupled Switched Reluctance Motors Using Thermal-Electromagnetic Analysis for Driving Cycles.
- Author
-
Li, G. J., Ojeda, J., Hoang, E., Lecrivain, M., and Gabsi, M.
- Subjects
COMPARATIVE studies ,RELUCTANCE motors ,THERMAL analysis ,ELECTROMAGNETIC fields ,COPPER ,MATHEMATICAL models ,LUMPED parameter systems ,ROTORS ,FINITE element method - Abstract
This paper presents copper and iron loss models of a classical switched reluctance motor (SRM) and a mutually coupled switched reluctance motor (MCSRM). The iron losses in different parts of machines are then detailed. Based on the power losses model, a lumped parameter (LP) transient thermal model during driving cycles is performed, the analytical results are validated by the finite-element (FE) transient thermal model. Special attention has been paid to model the salient rotor and a method to transform the salient rotor into a nonsalient one has been proposed. A comparison between the maximum temperatures obtained by using different heat source (average power losses or instantaneous power losses during driving cycles) is given. The experimental tests are also realized to verify the analytical and numerical results. [ABSTRACT FROM PUBLISHER]
- Published
- 2011
- Full Text
- View/download PDF
43. Determination of Current Within the Lightning Path in the Case of Lightning to a Tall Object.
- Author
-
Boev, Ivan and Janischewskyj, Wasyl
- Subjects
TIME-domain analysis ,MATHEMATICAL models ,LIGHTNING ,APPROXIMATION theory ,ELECTROMAGNETIC fields ,ELECTRIC lines - Abstract
Four model types that could be used to theoretically approximate lightning events currently exist. These are namely gas dynamic (physical) models, electromagnetic models, distributed-circuit models, and “engineering” models. In this paper, a modified transmission line (TL) “engineering” modeling approach, which incorporates the presence of a tall object in the lightning path is adopted. The associated discontinuity at the lightning channel front is treated by introducing reflected and transmitted components, with constituents that are less influential omitted. All computations are performed in the time domain. The considered tall structure is the CN Tower and it is represented by either one, three, or five transmission line sections connected in series. The lightning channel is represented by two more transmission line sections of variable length. The models allow for calculation of current at any height of the CN Tower or the lightning channel and at any time, as needed for determination of the electric and magnetic fields at a distance. The approach is applicable to any other tall structure. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
44. Modeling Rough-Surface and Granular Scattering at Terahertz Frequencies Using the Finite-Difference Time-Domain Method.
- Author
-
Sundberg, Garth, Zurk, Lisa M., Schecklman, Scott, and Henry, Sam
- Subjects
FINITE differences ,TIME-domain analysis ,SURFACE roughness ,SURFACE waves (Fluids) ,MATHEMATICAL models ,IMAGING systems ,ELECTROMAGNETIC waves ,SCATTERING (Physics) - Abstract
Exploration of the terahertz (THz) portion of the electromagnetic spectrum has recently expanded due to advances in ultrafast optical laser systems. The application of THz imaging to detect explosive materials (and other chemical agents) is a promising potential application because of the unique spectral signatures found for many explosives in the THz band. However, since the wavelength of THz radiation is on the order of tens to hundreds of micrometers, the rough interface between materials and the granular nature of material mixtures (such as explosives) may cause frequency-dependent scattering, which could mask the spectral signature. Thus, to evaluate the effectiveness of THz imaging systems, it is necessary to characterize the combined volume and rough-surface scattering effects. Because of the complexity of the media and the requirement for broadband modeling, the finite-difference time-domain (FDTD) formulation is an ideal tool. In this paper, transmission measurements through granular media and reflection measurements from controlled rough surfaces are shown to be in good agreement with FDTD results. Methods for extracting the material spectral peaks from a limited number of measurements are presented and discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
45. Efficiency Optimization of Two-Asymmetrical-Winding Induction Motor Based on Swarm Intelligence.
- Author
-
Amin, Amr M. A., El Korfally, Mohamed I., Sayed, Abdallah A., and Hegazy, Omar T. M.
- Subjects
ELECTRIC windings ,INDUCTION motors ,SWARM intelligence ,MATHEMATICAL models ,FIELD orientation principle ,ELECTRIC inverters ,ELECTROMAGNETIC fields ,SIMULATION methods & models ,ROTATIONAL motion (Rigid dynamics) ,STRUCTURAL optimization ,TORQUE - Abstract
In this paper, applying field orientation based on particle swarm optimization (PSO) controls the speed of two- asymmetrical-winding induction motor. The maximum efficiency of the motor is obtained by the evaluation of optimal rotor flux at any operating point. In addition, the electromagnetic torque is also improved while maintaining a fast dynamic response. In this research, a novel approach is used to evaluate the optimal rotor flux level. This approach is based on PSO. This research presents two speed control strategies. These are field-oriented controller (FOC) and FOC based on PSO. The strategies are implemented mathematically and experimentally. The simulation and experimental results have demonstrated that the FOC based on PSO method saves more energy than the conventional FOC method. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
- View/download PDF
46. Scattering From Layered Structures With One Rough Interface: A Unified Formulation of Perturbative Solutions.
- Author
-
Franceschetti, Giorgio, Imperatore, Pasquale, Iodice, Antonio, Riccio, Daniele, and Ruello, Giuseppe
- Subjects
LIGHT scattering ,LAYER structure (Solids) ,REFLECTANCE ,RADIATIVE transfer ,ELECTROMAGNETIC fields ,MATHEMATICAL models ,GREEN'S functions - Abstract
In this paper, we investigate analytically the connection between the existing first-order small perturbation method solutions for the scattering from a layered structure with one rough interface. First of all, by using effectively the concept of generalized reflection coefficients, we cast the existing models in a unified more compact formulation and point out the connection between the different analytical solutions. The obtained reformulations of the available analytical solutions allow us to subsequently prove the consistency of the considered models. Finally, a suitable expansion is performed that leads us to understand the physical meaning of the analytical expressions. The obtained unified formulation also opens the way toward a general closed-form solution for the problem of scattering by a layered structure with an arbitrary number of corrugated interfaces. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
47. Computation of 3-D Magnetic Field Distribution in Long-Lifetime Electromagnetic Actuators.
- Author
-
Khan, Sanowar H., Ming Cai, Grattan, Kenneth T. V., Kajan, Kamalanathan, Honeywood2, Mark, and Mills, Stewart
- Subjects
ACTUATORS ,ELECTROMAGNETIC fields ,SOLENOID magnetic fields ,MATHEMATICAL models ,FINITE element method ,MAGNETIC circuits - Abstract
This paper involves the computation of 3-D magnetic fields in high-performance, long-lifetime solenoid actuators by finite-element (FE) modeling. Operating at frequencies between 150 and 300 Hz, these actuators are unique in terms of the large force they produce (8–15 N) and their very long lifetime (over five billion continuous duty cycles). Their magnetic circuit typically operates at saturation and, because of the compact dimensions, the 3-D nature of the field distribution needs to be taken into account for their design. Results are presented in terms of the effects of design parameters on saturation and force calculation. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
48. Evaluation of the Diffusion Equation for Modeling Reverberant Electromagnetic Fields.
- Author
-
Flintoft, Ian D., Marvin, Andy C., Funn, Foo Inn, Dawson, Linda, Zhang, Xiaotian, Robinson, Martin P., and Dawson, John. F.
- Subjects
HEAT equation ,ELECTROMAGNETIC fields ,MATHEMATICAL models ,ABSORPTION cross sections ,REVERBERATION chambers ,ELECTROMAGNETIC compatibility - Abstract
Determination of the distribution of electromagnetic energy inside electrically large enclosed spaces is important in many electromagnetic compatibility applications, such as certification of aircraft and equipment shielding enclosures. The field inside such enclosed environments contains a dominant diffuse component due to multiple randomizing reflections from the enclosing surfaces. The power balance technique has been widely applied to the analysis of such problems; however, it is unable to account for the inhomogeneities in the field that arise when the absorption in the walls and contents of the enclosure is significant. In this paper, we show how a diffusion equation approach can be applied to modeling diffuse electromagnetic fields and evaluate its potential for use in electromagnetic compatibility applications. Two canonical examples were investigated: a loaded cavity and two cavities coupled by a large aperture. The predictions of the diffusion model were compared to measurement data and found to be in good agreement. The diffusion model has a very low computational cost compared to other applicable techniques, such as full-wave simulation and ray-tracing, offering the potential for a radical increase in the efficiency of the solution high frequency electromagnetic shielding problems with complex topologies. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
49. Analysis, Design, and Measurements of Circularly Symmetric High-Impedance Surfaces for Loop Antenna Applications.
- Author
-
Amiri, Mikal Askarian, Balanis, Constantine A., and Birtcher, Craig R.
- Subjects
LOOP antennas ,ANTENNAS (Electronics) ,ELECTRIC impedance ,ELECTROMAGNETIC fields ,BANDWIDTHS ,MATHEMATICAL models - Abstract
A new wideband circular high-impedance surface (HIS) is proposed. Two models are developed to analyze the reflection characteristics of the proposed HIS. It is also shown through simulations that a circular HIS as a ground plane for loop antennas is superior to a rectangular HIS ground plane. The circular HIS was fabricated and a loop antenna was placed above it. Measurements were then performed and their results were compared with simulations. An excellent agreement was indicated. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
50. Improved Model and Experiment for AC-DC Three-Degree-of-Freedom Hybrid Magnetic Bearing.
- Author
-
Zhang, Weiyu and Zhu, Huangqiu
- Subjects
MATHEMATICAL models ,ALTERNATING currents ,DEGREES of freedom ,HYBRID systems ,MAGNETIC bearings ,ENERGY consumption ,ELECTROMAGNETIC fields - Abstract
Compared with the most popular DC and other emerging AC magnetic bearings, the AC-DC three-degree-of-freedom hybrid magnetic bearing (AC-DC 3-DOF HMB) invented in our research has a lot of advantages in cost savings and consumption reducing. In this paper, to overcome the insufficiency and shortcomings of the previously established classic model, a new mathematical model for suspension force of AC-DC 3-DOF HMB is deduced again to get more accurate results. To illustrate the improvement in the new model, some validation experiments and contrast experiments are designed and implemented to prove their correctness and accuracy. In the validation experiments, the nonlinearity, linearity, electromagnetic cross-coupling and kinematic cross-coupling of suspension force model are validated, which prove the correctness of the improved mathematical model. In the contrast experiments, the encouraging results between the experimentally measured result and two calculated results (classic and improved model results) show that the improved model is closer to the test results. Moreover, system performance comparison results show the control system based on the new model has stronger anti-disturbance characteristics than that based on the classic model. Thus, the improved modeling results on suspension force of AC-DC 3-DOF HMB is more accurate than the traditional results, even if they share the same modeling method (equivalent magnetic circuit method). So only a change of coefficient could help to significantly improve the accuracy of the mathematical model, and also the improved model instance has important reference value for solving other kinds of hybrid magnetic bearings. [ABSTRACT FROM PUBLISHER]
- Published
- 2013
- Full Text
- View/download PDF
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