Showing total 4,593 results

1. A comparison of the formation of bubbles and water droplets in vegetable and mineral oil impregnated transformer paper.

Author

Perkasa, Caesar, Lelekakis, Nick, Czaszejko, Tadeusz, Wijaya, Jaury, and Martin, Daniel

Subjects

BUBBLES, WATER, VEGETABLE oils, MINERAL oils, MOISTURE

Abstract

Bubble formation from paper insulation during overload is important to understand because it can cause a transformer to fail. This phenomenon has been investigated in a mineral oil-paper system, but not in vegetable oil. This study investigated bubble formation during overload in a vegetable oil impregnated paper system and the results were compared to a mineral oil (Shell Diala B) which was studied previously using similar test equipment and method. The limiting hot-spot temperatures for bubbles and water droplets in vegetable oil for paper with water content between 1 - 6 % were determined. The water content of paper measurement which is critical when setting the winding temperature limit was evaluated using both a moisture sensor and Karl-Fischer titration method. [ABSTRACT FROM AUTHOR]

Published

2014

2. Circuit Modeling of a Wireless Power Transfer System by Eigenmode Analysis Based on the Impedance Expansion Method.

Author

Haga, Nozomi and Takahashi, Masaharu

Subjects

WIRELESS power transmission, IMPEDANCE control, MULTIMODE waveguides, RADIO frequency, BROADBAND antennas, BROADBAND communication systems

Abstract

The impedance expansion method (IEM), which has been previously proposed by the authors of this paper, is a circuit modeling technique for electrically very small devices. This paper describes a circuit modeling procedure that utilizes the IEM and eigenmode analysis for a wireless power transfer system. First, a multimode circuit model that can represent the higher order resonances in a broadband frequency range is presented. Subsequently, a single-mode circuit model—consisting only of passive elements—that can represent both the radiated and conduction loss powers at approximately its operating frequency band is presented. [ABSTRACT FROM AUTHOR]

Published

2019

3. Current Regulation in Parallel Combined Winding Bearingless Motors.

Author

Jiang, Yunlei, Torres, Renato Amorim, and Severson, Eric Loren

Subjects

MAGNETIC suspension, MAGNETIC torque, ELECTROMAGNETS, MOTOR drives (Electric motors), MOTORS, TRANSFER functions, POWER density, HARDWARE

Abstract

To improve power density and motor performance, new bearingless motor topologies combine torque and magnetic suspension coils into a single winding. Of these topologies, the parallel dual-purpose no-voltage winding is advantageous from the bearingless drive perspective because it requires the least amount of hardware. However, this topology can result in undesirable current controller performance from cross-coupling effects between the suspension and torque operation. This paper investigates these cross-coupling effects using rotating reference frame theory to derive relevant system disturbance transfer functions. The nature of this coupling is explained in relation to the machine and control parameters (inductances, resistances, controller gains) to provide insights for bearingless machine and control designers. The paper proposes and simulates different compensation techniques to minimize or eliminate the cross-coupling. It is shown that with careful machine design or with proper feedback control compensation, the motor controller can be implemented as a conventional motor drive, without knowledge of the magnetic suspension system. Finally, experimental validation is provided via two prototype machines. [ABSTRACT FROM AUTHOR]

Published

2019

4. Postmortem Investigation of Power Transformers—Profile of Degree of Polymerization and Correlation With Furan Concentration in the Oil.

Author

Leibfried, Thomas, Jaya, Michael, Majer, Norbert, Schafer, Michael, Stach, Manfred, and Voss, Stephan

Subjects

POWER transformers, POLYMERIZATION reactors, FURANS, ELECTRIC power distribution, ELECTRIC power transmission

Abstract

In this paper, postmortem aging investigations on insulation material of power transformers are presented. A methodology for taking paper samples in a systematical manner and a scheme for calculating an average degree of polymerization (DP) for the entire transformer out of the DP values of the individual paper samples will be shown. The typical DP profile in the axial direction of transformer coils will be explained using calculated distribution of losses within the coils of a 740-MVA generator stepup transformer. Further, correlations between the furan (2-FAL) concentration in the oil and the average DP of the investigated German GSU transformers and grid transformers are derived and compared with existing correlations. [ABSTRACT FROM PUBLISHER]

Published

2013

5. Analytical modelling of high‐frequency losses in toroidal inductors.

Author

Zhao, Yuhu, Ming, Zhengfeng, and Han, Binbin

Subjects

ELECTRIC impedance measurement, FINITE element method, EDDY current losses, ELECTRONIC systems

Abstract

Toroidal inductors are widely used in power electronic systems. With the increasing switching frequency of power devices, the AC losses of high‐frequency inductor windings have become an issue that cannot be ignored in design. A method with low computational time cost and high accuracy is urgently needed by designers. This paper proposes a modified analytical method for winding loss calculation of toroidal inductors based on the one‐dimensional Dowell method and the two‐dimensional Ferreira method, and proposes a compensated analytical model considering the proximity effect of inter‐turn conductors of toroidal windings. The analytical method calculates the non‐linear porosity of toroidal windings, and can accurately solve the AC losses of toroidal inductors with arbitrary porosity winding encapsulation. The analytical results are in good agreement with the finite element method (FEM) and experimental data. The experimental measurement data verifies the validity of the proposed model within 1‐MHz frequency, the calculation error of the modified analytical method is less than 25%, and the calculation error of the compensated analytical model is reduced to 10%. [ABSTRACT FROM AUTHOR]

Published

2023

6. High-Frequency Electric Machines for Boundary Layer Ingestion Fan Propulsor.

Author

Yoon, Andy, Xiao, Jianqiao, Lohan, Danny, Arastu, Faraz, and Haran, Kiruba

Subjects

ELECTRIC machines, BOUNDARY layer (Aerodynamics), JET engines, ELECTRIC motors, INGESTION, EVOLUTIONARY algorithms

Abstract

High specific power electric motor is a key enabling technology for electric/hybrid-electric propulsion for aircraft. High-frequency, air core machine topologies show potential for high specific power when the machines are integrated within jet engines at high speed, e.g. 15,000 rpm. In this paper, we explore how these machines scale to a boundary layer ingestion (BLI) fan application in newly proposed Single-aisle Turboelectric Aircraft with an Aft Boundary Layer Propulsor (STARC-ABL). Detailed analytical models that have been experimentally verified, and an evolutionary genetic algorithm are utilized to choose an optimized design for the BLI propulsor. Analyses show that a 2.6 MW, 11 kW/kg, 98% electric motor is achievable. [ABSTRACT FROM AUTHOR]

Published

2019

7. Analysis of Flux Linkage and Detent Force for a Modular Tubular Permanent Magnet Synchronous Linear Motor With Large Slots.

Author

Tan, Qiang, Huang, Xuzhen, Li, Liyi, and Wang, Mingyi

Subjects

SYNCHRONOUS electric motors, PERMANENT magnets, FLUX (Energy), ELECTRIC potential, PERMANENT magnet motors, MODULAR construction, MAGNETIC suspension

Abstract

Conventionally, for a tubular permanent magnet synchronous linear motor (TPMSLM), adopting a modular structure can effectively reduce the detent force; however, the thrust density is sacrificed via the large proportion of the flux barrier to the total primary component volume. To overcome this disadvantage, this paper proposes a novel modular TPMSLM, in which the unit primary component adopts the large slot structure containing several coils. Focusing on this motor, research on the flux linkage characteristic is performed to obtain the design principle, and then the detent force is analyzed and suppressed by reasonable design of end teeth. First, the flux linkage characteristics of the unit motor and the whole motor are investigated. Variation rule of the coil flux linkage affected by the end tooth is discussed, and the principle of realizing three-phase balance for the whole motor flux linkage is elaborated. Moreover, the principle of the detent force suppression is verified and the detent force is further suppressed through the end tooth design. Finally, a prototype is developed. The back electromotive force and the detent force were tested, which verified the effectiveness of the novel modular TPMSLM proposed. [ABSTRACT FROM AUTHOR]

Published

2019

8. Repulsive Magnetic Levitation Force Calculation for a High Precision 6-DoF Magnetic Levitation Positioning System.

Author

Lahdo, Mousa, Strohla, Tom, and Kovalev, Sergej

Subjects

MAGNETISM, MAGNETIC suspension, COULOMB barriers (Nuclear fusion), MAGNETIC force microscopy, PSYCHOKINESIS

Abstract

The analytical calculation of magnetic forces is currently an interesting alternative to the time-consuming 3-D finite-element method due to their high accuracy and low computational cost. In this paper, a new semi-analytical solution for determining the levitation force of the repulsive magnetic guidance that has a significant role for controlling and developing high precision magnetic levitation positioning system is presented. An important result is that this new expression, compared with other known equations in the literature, considers the position dependence of the magnetic levitation force over the whole travel range. In order to derive this force, the magnetic field of the permanent magnet is first calculated by introducing and solving the magnetic scalar potential. Taking Lorentz force law into consideration, the proposed equation is finally derived. This semi-analytical equation is suitable for designing and optimizing the magnetic guidance. Furthermore, it can also be used for developing other ironless actuators. The calculated levitation force from the derived equation and the verification by measurements are likewise presented in this paper. [ABSTRACT FROM AUTHOR]

Published

2017

9. Analysis of Electrodynamic Transients in the ITER PF Joints.

Author

Breschi, Marco, Cavallucci, Lorenzo, Ribani, Pier Luigi, and Gauthier, Florent

Subjects

TRANSIENT analysis, PANCAKES, waffles, etc., SUPERCONDUCTING wire, WIRE, SUPERCONDUCTING cables, MAGNETS

Abstract

The paper presents a numerical study on electrodynamic behavior of the inter-pancake twin-box joints of the Poloidal Field (PF) coils of the ITER Magnet System. This work was carried out with the THELMA code, developed at the University of Bologna. The THELMA model was adapted to describe both the superconducting wires and the resistive saddle of the joint in a set of reference configurations representative of a set of experimental tests performed on a joint sample at the SULTAN facility in Villigen, Switzerland. The model was applied to analyze both the DC joint resistance measurements and the AC loss vs frequency curve, in order to obtain a full representation of the joint electromagnetic behavior. The paper reports a comparison between the numerical and experimental results and parametric studies on the impact of the main model parameters on the loss vs frequency curve. [ABSTRACT FROM AUTHOR]

Published

2022

10. Modifications to Electronic Nicotine Delivery Systems: Content Analysis of YouTube Videos

Author

Katherine C. Henderson, Victoria Churchill, Jessica Holli, Bo Yang, Lucy Popova, Yachao Li, Zachary B. Massey, David L. Ashley, and Jidong Huang

Subjects

Male, 020205 medical informatics, Video Recording, Health Informatics, 02 engineering and technology, ENDS modifications, Electronic Nicotine Delivery Systems, lcsh:Computer applications to medicine. Medical informatics, coils, 03 medical and health sciences, 0302 clinical medicine, Key terms, 0202 electrical engineering, electronic engineering, information engineering, Humans, vaping, 030212 general & internal medicine, Original Paper, YouTube, e-liquid, lcsh:Public aspects of medicine, Advertising, lcsh:RA1-1270, Search terms, Nicotine delivery, Content analysis, lcsh:R858-859.7, Female, Psychology, Social Media

Abstract

Background As user modification can alter the addictiveness and toxicity of electronic nicotine delivery systems (ENDS), more research is needed to understand the types, motivations, risks, and information sources that lead to these product alterations. YouTube has been identified as a major platform where ENDS users obtain and share information about ENDS products and modifications. However, a comprehensive study of ENDS modification videos on YouTube is lacking. Objective This study aimed to analyze the content of YouTube videos depicting modifications of ENDS. Methods YouTube was searched in March 2019 to identify videos depicting ENDS modifications. Search terms were derived from interviews with ENDS users and current literature. We used 28 search phrases that combined the words vape and vaping with modification-related key terms (eg, custom build, modification, and dripping). The final sample included 168 videos. Results Videos were 1 to 108 min long (median 9.55). Presenters were largely male (117/168, 69.6%), white (94/168, 56.0%), and older than 25 years (94/168, 56.0%). Most videos gave how to instructions (148/168, 88.1%), but few offered warnings (30/168, 17.9%) or mentioned commercial alternatives to modifications they presented (16/168, 9.5%). The ENDS devices most often featured were drippers (63/168, 37.5%) and refillable tanks (37/168, 22.0%). The most often modified ENDS components were coils (82/168, 48.8%) and e-liquids (34/168, 20.2%), which included adding other substances, such as cannabis, to the e-liquids (6/168, 3.6%). Most videos portrayed ENDS modifications positively (106/168, 63.1% positive; 60/168, 35.7% neutral; and 2/168, 1.2% negative) and were either neutral or positive in their overall portrayal of ENDS devices (78/168, 46.4% positive; 89/168, 53.0% neutral; and 1/168, 0.6% negative). Conclusions This study identified several concerning trends in popular YouTube videos on ENDS modifications, including lack of warnings, the addition of marijuana derivatives to e-liquids, and the positive portrayal of ENDS devices and modifications. By identifying the types of modifications (coil and e-liquid being the most prevalent), this study sets an agenda for research on the effects of modifications.

Published

2020

11. A New Modular Relieving-DC-Saturation Vernier Reluctance Machine Excited by Zero-Sequence Current for Electric Vehicle.

Author

Zhao, Xing, Niu, Shuangxia, and Fu, Weinong

Subjects

ELECTRIC currents, ELECTRIC vehicles, VERNIERS, PERMANENT magnets, MACHINING

Abstract

This paper proposes a novel modular relieving-dc-saturation Vernier reluctance machine for electric vehicle application, which integrates the merits of a robust structure, controllable excitation field, strong fault-tolerant capacity, and enhanced torque density, benefiting from its special relieving-dc-saturation design. In the proposed machine, zero-sequence current establishes a modular magnetic path and functions as the dominant excitation source for the torque generation. Especially, slot permanent magnets are introduced into each module, which mitigates the saturation effect in stator core caused by dc-biased flux with the zero-sequence current source. Therefore, the proposed machine can achieve enhanced torque density with relatively high current density. In this paper, the machine structure and operation principle are illustrated in detail, with its electromagnetic performance evaluated by time-stepping finite-element analysis. It is revealed that, due to its relieving-dc-saturation ability, torque density of the proposed machine is enhanced by about 20% with high current density. [ABSTRACT FROM AUTHOR]

Published

2019

12. Study on the EM Loads Distribution on Updated HCCB Blanket Inboard and Outboard Blanket Vertical Segments.

Author

Wang, Ming, Lei, Mingzhun, Song, Yuntao, Lu, Mingxuan, Xu, Shuling, Lu, Kun, Zhang, Shanwen, Pei, Kun, and Xu, Kun

Subjects

BLANKETS, ELECTROMAGNETIC devices, TORQUE

Abstract

As part of the ongoing China Fusion Engineering Test Reactor (CFETR) studies, this work focused on the study of the electromagnetic (EM) loads distribution on inboard (IB) and outboard (OB) blanket vertical segments. In this paper, a major central disruption scenario with a 36-ms linear current quench was performed in the ANSYS finite element software. EM forces and moments, both on the single module and the complete blanket segment, were calculated for the updated helium-cooled ceramic breeder (HCCB) blanket. Furthermore, the effect of EM loads with respect to poloidal segmentations on the back plate (BP) was studied. Results show that the EM forces and moments in the IB blanket barely changed, but in the OB blanket, great changes occurred. With poloidal segmentations increasing, EM forces loads on the BP will be reduced. This paper may provide important data to support subsequent optimization of the BP of CFETR and could also be a technical reference for other fusion organizations. [ABSTRACT FROM AUTHOR]

Published

2019

13. Design and Optimization of Delphi-Based Electromagnetic Coilgun.

Author

Citak, Hakan, Ege, Yavuz, and Coramik, Mustafa

Subjects

PROGRAMMABLE controllers, MICROCONTROLLERS, SOFTWARE architecture, ALTERNATING currents, DATA transmission systems, MILITARY weapons

Abstract

In classical gun and satellite launching systems, noise, flame, and hazardous gasses occur during the explosion of gunpowder, and it is possible to change the muzzle velocity of projectile only during the production phase. In addition, negative aspects of classical guns include the storage of munitions, their decay in time, high amount of their mass, and their high cost. In this paper, “A New Electromagnetic Coilgun” is designed to allow acceleration of a ferromagnetic projectile with the help of instantaneous alternate current applied on four sequential stator coils without using any mechanical boosters. programmable interface controllers microcontroller software and Delphi software were used to obtain the data from optic systems placed at the beginning of stator coils for gradual velocity measurement of the projectile, to process the same, and to perform triggering checks. Furthermore, such Delphi-based software allowed to improve the muzzle velocity by changing the triggering time for coils and, thus, to optimize the system. This paper is distinguished from other studies in the literature in terms of the software used and the design of accelerating coil. Data communication was ensured through the serial port of the PC during the launching process. The study examined the effects of variables such as the voltage applied on coils, number of turns of the coil, and the number of capacitors on the maximum muzzle velocity that may be obtained through the launcher and these were discussed in detail in the scope of the paper. [ABSTRACT FROM AUTHOR]

Published

2019

14. Coreless Multidisc Axial Flux PM Machine with Carbon Nanotube Windings.

Author

Rallabandi, Vandana, Taran, Narges, Ionel, Dan M., and Eastham, John F.

Subjects

CARBON nanotubes, TORQUE, SYNCHRONOUS electric motors, ELECTRIC windings, ELECTRIC motors, FINITE element method

Abstract

Coreless axial flux permanent magnet (AFPM) machines are attracting increasing attention due to their compact structure and high torque density. The torque to weight ratio can be further enhanced by the use of alternate conductor materials, such as carbon nanotube (CNT), or aluminum windings in place of the copper material coils. This paper proposes a coreless AFPM synchronous motor with CNT windings. Analytical equations are developed to allow a systematic comparison of machine designs with different conductor materials. The performance of machine designs with different coil materials, namely, copper, aluminum, and CNT, is evaluated and compared. The calculations are also backed by 3-D finite-element analysis. [ABSTRACT FROM AUTHOR]

Published

2017

15. Optimization of the Force Density for Medium-Stroke Reluctance Actuators.

Author

Bao, J., Vrijsen, N. H., Gysen, B. L. J., Sprangers, R. L. J., and Lomonova, E. A.

Subjects

FORCE density, FINITE element method, SURFACE temperature, THERMAL analysis, ELECTRIC actuators, AIR gap flux, STRUCTURAL optimization

Abstract

This paper concerns the force density optimization for medium-stroke reluctance actuators applied in antivibration applications. The force density in a conventional E-core reluctance actuator is limited for medium strokes by the nonlinear force–displacement characteristic. In this paper, different tooth topologies are analyzed to maximize the force density along the stroke using the finite-element analysis. Teeth parameters are tuned in each topology to analyze the influences on the force density over a stroke of $\pm$12.5 mm. An analytic thermal model is used to estimate the surface temperature and is verified with finite-element simulations. The optimal topology is validated by experiments on a prototype. [ABSTRACT FROM AUTHOR]

Published

2014

16. Torque Pulsation Reduction in Fractional-Slot Concentrated-Windings IPM Motors by Lowering Sub-Harmonics.

Author

Liu, Guohai, Zhai, Fangfang, Chen, Qian, and Xu, Gaohong

Subjects

PERMANENT magnets, TORQUE, FINITE element method, MOTORS

Abstract

This paper proposes a method to reduce the torque pulsation of the three-phase fractional-slot concentrated-winding (FSCW) interior permanent magnet (IPM) motor by lowering sub-harmonics. The key principle of this method is the selection of an optimized six-layer winding with different numbers of conductors. Firstly, the interaction of stator-rotor magnetomotive force (MMF) which contributes to the torque pulsation is analyzed. Additionally, the relationship between sub-harmonics (1st sub-harmonic and 2nd sub-harmonic) and torque pulsation orders is revealed. Then, different numbers of conductors are adopted in coils to eliminate the 2nd sub-harmonic. Nevertheless, the 1st sub-harmonic increases in the two-layer and four-layer windings. Therefore, the optimized six-layer winding is employed to suppress the 1st sub-harmonic and ensure that the 2nd sub-harmonic is zero. Besides, there are almost no other harmonics except the main harmonic and slot harmonics in the proposed IPM motor. Hence, the torque pulsation can be greatly reduced even under different current angles. Furthermore, the principle for torque pulsation reduction by lowering sub-harmonics is revealed. The effectiveness of the proposed method is verified through the comparisons with finite element analysis and experimental test. [ABSTRACT FROM AUTHOR]

Published

2019

17. A 2-D Magnetoinductive Wave Device for Freer Wireless Power Transfer.

Author

Sandoval, Fralett Suarez, Delgado, Sarai M. Torres, Moazenzadeh, Ali, and Wallrabe, Ulrike

Subjects

WIRELESS power transmission, ORTHOGONALIZATION, IMPEDANCE matrices, NETWORK analysis (Communication), MUTUAL inductance, VECTOR analysis

Abstract

In this paper, we present a wireless power transfer (WPT) system with a two-dimensional (2-D) magnetoinductive wave (MIW) device composed by two orthogonal sets of 1-D MIW devices woven together. The device is made by 112 double-spiral coils, a geometry that we have optimized to render a low attenuation propagation. This approach enables a charging area of 22 × 22 cm2 from which a receiver device can be supplied with energy with optimum efficiency from 32 different locations with the use of a single excitation port. We present a detailed optimization of the design and fabrication of the device. To describe the behavior of the device, we use a modeling method based on the impedance matrix that allows us to include all coupling interactions among the increased number of cells. With this method, we are able to find the optimal operating conditions like the location of the excitation and the coupling conditions of the receiver device. With the proposed 2-D MIW device, we can provide up to 5 W to a load of 5  $\Omega$  located at the optimal axial separation. We corroborate our calculations with vector network analysis and dc output power measurements. Furthermore, we demonstrate the device supplying to distinct types of loads simultaneously. This paper is accompanied by a supplementary file showing the required MATLAB script and input files to calculate the mutual inductance between a receiver and the cells of the pad. [ABSTRACT FROM AUTHOR]

Published

2019

18. Options for an Electric Launcher System.

Author

Hundertmark, S. and Liebfried, O.

Subjects

PULSED power systems, HYPERVELOCITY, ELECTRIC circuits, ARTILLERY, ELECTRIC transients

Abstract

Railguns are current-driven guns that allow reaching large muzzle velocities and energies. In the military context, the long-range artillery scenario makes use of these two capabilities to enable the launch of hypervelocity projectiles to target distances above 100 km. As of today, the most advanced railgun project is conducted by the Office of Naval Research, Arlington, VA, USA, and features railguns with a muzzle energy of 32 MJ. Such large artillery railgun systems with efficiencies above 30% are fed by a pulsed power system with a nominal energy content of about 100 MJ. In contrast to this, experiments with French-German Research Institute’s (ISL) most powerful railgun, PEGASUS, have reached muzzle energies of 2 MJ, only. The nearer future ISL has to answer two questions: 1) is the railgun technology adequate for a long-range artillery scenario? 2) can the railgun launch a hypervelocity projectile which is being developed by other groups in ISL? To do so and to support the development of the hypervelocity projectile, a larger railgun installation with a significant increase of the energy and free flight capability is required. In this paper, three different railgun systems were investigated using an electric circuit simulation code. The systems are referred to by the energy being stored in the capacitors as 25, 50, and 100 MJ. The aim of this paper is to investigate what masses can be accelerated to the relevant velocity range for the long-range artillery scenario by these different primary energies. The results of this paper can be used to aid the decision about the required size, with respect to the military scenario, of a potential future railgun system. [ABSTRACT FROM AUTHOR]

Published

2019

19. Superior ophthalmic vein and ophthalmic artery in immediate evaluation after endovascular treatment of carotid-cavernous fistulas

Author

Krzysztof Brzozowski, Andrzej Podgórski, Piotr Piasecki, Jerzy Narloch, and Piotr Zięcina

Subjects

Chemosis, medicine.medical_specialty, Exophthalmos, Fistula, 050801 communication & media studies, coils, Onyx, Pseudoaneurysm, 0508 media and communications, medicine.artery, medicine, embolisation, CCF, Original Paper, medicine.diagnostic_test, business.industry, 05 social sciences, medicine.disease, Surgery, Ophthalmic artery, Angiography, interventional neuroradiology, Internal carotid artery, medicine.symptom, business, Superior ophthalmic vein

Abstract

Purpose To validate superior ophthalmic vein (SOV) and ophthalmic artery (OA) usefulness in immediate evaluation of new endovascular approaches to treat carotid-cavernous fistulas (CCFs). Material and methods A retrospective review of 597 intracerebral malformation embolisations yielded 40 embolisations of CCF in the treatment of 18 patients. Two interventional radiologists performed detailed radiological angiographic assessments. Results Mean age at initial admission was 58.9 years (SD 18.5 years, range 24-85 years). Patients presented with: chemosis (50%), ocular bruit (50%), exophthalmos (61%), diminished visual acuity (77.8%), headache (16.7%), and intracerebral haemorrhage (5.55%), and 5.55% were asymptomatic. Unilateral fistulas (10-55.5%) showed more diversified venous drainage pattern than bilateral ones (8-44.4%). There were statistically significant differences in post-traumatic and spontaneous CCF regarding age (p = 0.036), type of fistula (p = 0.0008), and presence of pseudoaneurysm (p = 0.036). 77.8% of patients had increased ipsilateral SOV diameter. SOV enlargement was not associated with type of fistula, history of trauma, or degree of exophthalmos. Ipsilateral ophthalmic artery was visible in all patients on both pre- and postprocedural angiography on lateral projection. Pre- and post-procedural SOV diameter was significantly different. Internal carotid artery patency was 100%, while the overall final angiographic or clinical success was 85.7%. We had three cases of peri-procedural complications. Conclusions We reported changeable dynamics of SOV and OA after endovascular treatment of CCFs and proved the feasibility of coils and Onyx-18 in the treatment thereof.

Published

2019

20. A mutually decoupled coil system to improve sensitivity of inductively coupled communication.

Author

Xu, Qing, Thrimawithana, Duleepa J., Svirskis, Darren, and Rupenthal, Ilva D.

Subjects

INDUCTIVE power transmission, INTRAOCULAR pressure, SUPERCONDUCTING magnets, TELECOMMUNICATION systems, ELECTRIC capacity

Abstract

This paper proposes a mutually decoupled transmission and receiver coil (MDC) system to improve the sensitivity of inductively coupled communication. The proposed communication system is intended to be mounted on the frame of a spectacle and used to transfer a detectable voltage signal through weak inductive coupling with an implant measuring intraocular pressure (IOP). The implant consists of a coil that resonates with a capacitor. The capacitance of this capacitor is designed to change with the IOP, thus leading to a change in the self‐resonant frequency of the implant. The transmission coils excite the implant, while the decoupled receiver coils continuously monitor the self‐resonant frequency of the implant. The induced voltage across the receiver coil is used to determine the IOP. Simulation results show that a 1.43% change in the sensor capacitance leads to a 1 mV change in the voltage induced across the receiver coils. The experimental results reveal that raising the self‐inductance of the MDC on the transmission side results in a 0.5%/mV increase in sensitivity. [ABSTRACT FROM AUTHOR]

Published

2023

21. Compensation Network Optimal Design Based on Evolutionary Algorithm for Inductive Power Transfer System.

Author

Chen, Weiming, Lu, Weiguo, Iu, Herbert Ho-Ching, and Fernando, Tyrone

Subjects

EVOLUTIONARY algorithms, CURRENT fluctuations, EVOLUTIONARY computation, ALGORITHMS, MATHEMATICAL models, EXPERIMENTAL design

Abstract

Conventional design and optimization of passive compensation network (PCN) for inductive power transfer (IPT) system are based on specific topologies. The demerits of this design method are: i) The topology is mostly chosen by experience; ii) The design parameters are not multi-objective optimal. Aiming at these issues, this paper proposes an optimal PCN design scheme based on evolutionary algorithm (EA) to synchronously optimize the topology and parameters of PCN for IPT system. Firstly, a unified mathematical model of the PCN is presented and derived by transmission matrix. Then, according to the mathematical model, the multi-objective functions (such as output fluctuation and efficiency) as well as the constraints (such as load and coupling coefficient) for the optimal PCN design are established. The EA based multi-objective optimal PCN design algorithm is further constructed. Six optimal results are obtained using the algorithm, and one optimized PCN having minimum output current fluctuation and high-efficiency is chosen to validate the effectiveness of the proposed design scheme in experiment. For the given IPT system with the optimized PCN, the maximum fluctuation of output current is no more than 11%, within 200% of load variation and about 77% of coupling variation. [ABSTRACT FROM AUTHOR]

Published

2020

22. Performance Comparison Between the Normal-Conducting Magnet and the Superconducting Magnet in LSM for High-Speed Propulsion.

Author

Park, Chan-Bae

Subjects

SUPERCONDUCTING magnets, LINEAR synchronous motors, NUMERICAL analysis, LINEAR electric motors, MAGNETIC devices

Abstract

On the wheel-rail supported hybrid railway system, the linear synchronous motor (LSM) for very high-speed transit must be a system that can maintain a large air gap, and the maximum vertical displacement must be taken into consideration in designing the LSM. As such, this paper designs two small-scale LSM models that produce equal output power—one with the normal-conducting magnet and the other with the superconducting magnet. In addition, this paper conducts a comparative analysis of the various characteristics by applying the electromagnetic numerical analysis method. Furthermore, this paper manufactures two small-scale LSM prototypes which have the normal-conducting magnet and the superconducting magnet, while also conducting a no-load and load test. Through such comparisons, this paper attempts to verify the characteristic values of the two models. [ABSTRACT FROM AUTHOR]

Published

2017

23. On the Generation of Nondiffracting Beams in Extremely Subwavelength Applications.

Author

Gamez Rodriguez, Erik Saturnino, Machnoor, Manjunath, and Lazzi, Gianluca

Subjects

BESSEL beams, METAMATERIALS, COILS (Magnetism), ELECTRIC inductance, MICROWAVE devices, WIRELESS power transmission

Abstract

In this paper, extremely subwavelength evanescent Bessel beam launchers are designed, simulated, and experimentally tested to generate nondiffracting beams. The launching apertures consist of several concentric coils strategically positioned to spatially filter the fields of a single actively fed radiating coil. The geometrical properties of each coil element of the aperture were obtained through a procedure based on the orthogonal matching pursuit algorithm in order to maximize the quality of the launched beam while minimizing manufacturing complexity. Two apertures with outer diameters of 64 and 48 mm were fabricated and the generated field distributions were measured at the operating frequencies of 13.66 and 13.86 MHz, respectively. Desired and measured field distributions exhibited correlations above 0.9 even as the distance from the aperture was increased, demonstrating the ability of the apertures to approximate the field distribution and harmonic content of a Bessel beam. This paper furthers the study and practical implementation of Bessel beams and other types of beams in extremely subwavelength applications such as focusing, wireless power transfer, magnetic stimulation, and microwave ablation. [ABSTRACT FROM PUBLISHER]

Published

2017

24. Conceptual Design of Electrodynamic Wheels Based on HTS Halbach Array Magnets.

Author

Zhang, Hongye, Kails, Kevin, Machura, Philip, and Mueller, Markus

Subjects

MAGNETIC levitation vehicles, CONCEPTUAL design, MAGNETIC flux density, MAGNETS, SUPERCONDUCTING coils, LIFT (Aerodynamics)

Abstract

Maglev technologies have been extensively studied for modern transport systems; however, their main applications are limited to transportation systems with fixed tracks. On-road vehicles could have a broader outlook if combined with maglev technologies, for which electrodynamic wheels (EDWs) have provided a possible solution. Conventional EDWs are designed based on permanent magnets (PMs), which generate limited thrust and lift forces while having a low power density. In order to enhance the feasibility of EDWs in maglev vehicles, a novel design of EDWs based on high-temperature superconducting (HTS) Halbach array magnets (HAMs) has been proposed in this paper. The suggested design is made of the second generation (2G) superconducting coils, which have been modeled with the A-formulation and T-formulation based finite element methods. Simulation results show that the proposed HTS HAM EDW can generate higher thrust and lift forces, improve the magnetic flux density distribution in the airgap, and greatly reduce the weight of the magnets compared with the conventional design. This paper provides a possibility for future on-road maglev vehicles. [ABSTRACT FROM AUTHOR]

Published

2021

25. Completion of the Test Phase for the Hilumi LHC Skew Quadrupole Corrector Magnet.

Author

Prioli, M., Broggi, F., Campaniello, M., Canetti, M., De Matteis, E., Gangini, F., Imeri, L., Leone, A., Manini, P., Mariotto, S., Musso, A., Paccalini, A., Palmisano, A., Pasini, A., Pedrini, D., Santini, C., Sorbi, M., Statera, M., Todero, M., and Todesco, E.

Subjects

MAGNETS, SUPERCONDUCTING magnets, QUADRUPOLES, ROOT cause analysis, ELECTRIC insulators & insulation, ACCELERATOR magnets

Abstract

In the family of the High-Luminosity LHC high order correctors, the skew quadrupole was the most critical magnet as three assemblies with different solutions were needed to meet the design specifications. This paper summarizes the prototyping phase of the magnet, discussing the observed nonconformities, the subsequent root cause analyses, and the adopted solutions. A first-hand experience showed us the importance of adopting rigorous quality assurance methods for the electrical insulation, aimed at the early defect detection, and implementing a consistent measurement-to-simulations chain for the optimization of the coils mechanical support. The improvements discussed in the paper are integrated into the final magnet design for the series production of six skew quadrupole correctors. [ABSTRACT FROM AUTHOR]

Published

2021

26. A Derivative Splitting Approach to Sensitivity Analysis of Magnet Design.

Author

Chiariello, Andrea G., Formisano, Alessandro, Ledda, Francesco, Martone, Raffaele, and Pizzo, Francesco

Subjects

SENSITIVITY analysis, MAGNETS, MAGNETIC fields, PARAMETER estimation, DEFORMATIONS (Mechanics), FINITE difference method

Abstract

This paper introduces an analytical approach for an effective evaluation of the variation of the magnetic field generated by complex coils due to deformations with respect to the nominal configuration. The coils are described with a set of synthetic design parameters, and the deformations can be described as variations of such parameters. This paper proposes a method to evaluate the derivatives of the magnetic field with respect to the design parameters by splitting them into a magnetic factor and a geometrical factor. A comparison with the classical finite-differences approach is carried out. This paper focuses on the context of sensitivity analysis, but the methodology is quite general and can easily be extended in other fields. [ABSTRACT FROM AUTHOR]

Published

2016

27. Transformer Windings’ $RLC$ Parameters Calculation and Lightning Impulse Voltage Distribution Simulation.

Author

Zupan, Tomislav, Trkulja, Bojan, Obrist, Roman, Franz, Thomas, Cranganu-Cretu, Bogdan, and Smajic, Jasmin

Subjects

ELECTRIC windings, ELECTRIC transformers, LIGHTNING, ELECTRIC potential, ELECTRIC resistance, PARAMETERS (Statistics), NUMERICAL calculations

Abstract

This paper presents a numerical method for calculating the resistance, inductance, and capacitance matrices of transformer windings. Importance of their precise calculation is shown in the simulation of voltage distribution over the windings for a lightning-impulse test. The results obtained in frequency domain analysis are in good agreement with the measurement data. All the parameters are calculated using the self-developed solvers, the theory and the novelty of which are described in this paper. The presented approach allows fast and accurate high-frequency modeling of transformer windings. [ABSTRACT FROM AUTHOR]

Published

2016

28. Electromagnetic Performance of Nonoverlapping Stator Wound Field Synchronous Machine With Salient Pole Rotor.

Author

Zhu, Z. Q., Zhou, Y. J., and Chen, J. T.

Subjects

ELECTROMAGNETIC fields, STATORS, ROTORS, FINITE element method, TORQUE measurements, ELECTRIC potential, PROTOTYPES

Abstract

Three-phase nonoverlapping stator wound-field synchronous (NSWFS) machines employing salient pole rotors are proposed in this paper. Based on the optimized design, the influence of rotor pole number on the proposed machine is investigated. According to 2-D finite-element analysis (FEA), it is found that the proposed machine shows higher torque density and lower torque ripple compared with the existing NSWFS machines. The operation principles of the proposed machine under different pole numbers are presented and compared in this paper. The FEA-predicted back electromotive force, cogging torque, and static torque of NSWFS machines are validated by experiments made on the prototypes. [ABSTRACT FROM AUTHOR]

Published

2015

29. A Linear Eddy Current Speed Sensor With a Perpendicular Coils Configuration.

Author

Mirzaei, Mehran and Ripka, Pavel

Subjects

EDDIES, SPEED, DETECTORS

Abstract

This paper presents a new linear eddy current speed sensor with rectangular-shaped coils. The excitation coil and the pick-up coil have a perpendicular configuration without a magnetic yoke. The proposed sensor is shorter than the previous designs. The sensor works for a conductive moving target; in this paper we present calculations and an experimental verification for solid iron and aluminum moving part materials. A novel 3D analytical method is presented for the description and for the design of an eddy current speed sensor that is fast and has high precision. The source fields and the reaction fields caused by induced eddy currents are separated in our 3D analytical method, which facilitates an enhanced investigation of the features of the speed sensor. Evaluations of the effects of the moving part material and of coil lift off on the performance of the speed sensor are made with the use of a 3D analytical method. Measurements are performed for an eddy current speed sensor at different speeds up to 11.65 m/s and at different frequencies with a novel analytical model in terms of the induced voltage in the pickup coil versus speed. Simplicity and high precision are the main advantages of the proposed speed sensor. The achieved linearity error is 0.47% (measured) up to 11.6 m/s, and 0.43% (calculated) up to 117 m/s (420 km/h). [ABSTRACT FROM AUTHOR]

Published

2021

30. A Stator With Offset Segments and a Double Stator Design for the Reduction of Torque Ripple of a Switched Reluctance Motor.

Author

Roth, Christoph, Milde, Friedhelm, Trebbels, Dennis, Schmidt, Jessica, and Doppelbauer, Martin

Subjects

SWITCHED reluctance motors, RELUCTANCE motors, STATORS, ELECTRONIC equipment, TORQUE, POLE assignment

Abstract

The torque ripple of a switched reluctance motor (SRM) should be taken into account, as it can have negative effects on a connected gearbox and/or load. In this paper a concept and two realization methods for the reduction of the torque ripple are presented. An optimized alignment of the active elements of the stator leads to a reduction of this torque ripple. The first method proposed here is a four-fold segmented motor, which can reduce the torque ripple by 37.3 %. This can be achieved by segmentation in combination with a clever arrangement of active elements. However, this increases the number of necessary inverters, which increases redundancy and therefore leads to more security. A second method of achieving an equal reduction can be obtained by using a “double stator” motor. In this configuration both stators can be powered together. With this concept, the number of converters is halved compared to the first mentioned solution. This saves electronic components and thus reduces the effort. All results referred to in this article are obtained by simulation, or measured on a prototype. [ABSTRACT FROM AUTHOR]

Published

2022

31. Analytical Prediction of the MCSA Signatures Under Dynamic Eccentricity in PM Machines With Concentrated Non-Overlapping Windings.

Author

Skarmoutsos, Giorgos A., Gyftakis, Konstantinos N., and Mueller, Markus

Subjects

WINDING machines, GRABENS (Geology), PERMANENT magnets, MACHINERY, FAULT diagnosis

Abstract

This paper proposes a novel algorithm which made it feasible to predict the harmonic fault signatures under dynamic eccentricity in Permanent-Magnet synchronous machines with concentrated non-overlapping winding for any slot-pole combination. In the literature, only the appearance of the fractional harmonic components related with the pole number has been proposed but there are no studies to predict which exact components will rise in each topology. Initially, a mathematical equation is derived for the machine EMF under dynamic eccentricity based on the air gap permeance model. Later on, the terms of this equation are inserted in a Fault Signature Block Binary Array in which the position of each cell expresses a specific harmonic frequency component. After substitution of the machines parameters, the array results with zero and nonzero terms. The positions of the nonzero terms express the frequency components excited by this particular fault. 3-D FEA and experimental results of a Permanent-Magnet Axial-Flux Machine are used to validate the proposed algorithm. [ABSTRACT FROM AUTHOR]

Published

2022

32. Embolization for Type Ia Endoleak after EVAR for Abdominal Aortic Aneurysms: A Systematic Review of the Literature.

Author

Marchiori, Elena, Ibrahim, Abdulhakim, Schäfers, Johannes Frederik, and Oberhuber, Alexander

Subjects

ABDOMINAL aortic aneurysms, AORTIC rupture, THERAPEUTIC embolization, ENDOVASCULAR surgery

Abstract

(1) Successful endovascular repair for abdominal aortic aneurysms is based on the complete exclusion of the aneurysm sac from the systemic circulation. Type Ia endoleak (ELIA) is defined as the persistent perfusion of the aneurysm sac due to incomplete proximal sealing between aorta and endograft, with a consequent risk of rupture and death. Endoleak embolization has been sporadically reported as a viable treatment for ELIA. (2) A systematic literature search in PubMed of all publications in English about ELIA embolization was performed until February 2022. Research methods and reporting were performed according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement. Data regarding patient numbers, technical success (endoleak absence at control angiography), reinterventions, clinical and imaging follow-up, and outcomes were collected and examined by two independent authors. (3) Twenty-one papers (12 original articles, 9 case reports) reported on 126 patients (age range 58–96 years) undergoing ELIA embolization 0–139 months after the index procedure. Indication for embolization was most often founded on unfavorable anatomy and patient comorbidities. Embolic agents used include liquid embolic agents, coils, plugs and combinations thereof. Technical success in this highly selected cohort ranged from 67–100%; the postprocedural complication rate within 30 days was 0–24%. ELIA recurrence was reported as 0–42.8%, with a secondary ELIA-embolization-intervention success rate of 50–100%. At a follow-up at 0–68 months, freedom from sac enlargement amounted to 76–100%, freedom from ELIA to 66.7–100%. (4) Specific literature about ELIA embolization is scant. ELIA embolization is a valuable bailout strategy for no-option patients; the immediate technical success rate is high and midterm and long-term outcomes are acceptable. [ABSTRACT FROM AUTHOR]

Published

2022

33. Comparative Study Between a Novel Multi-Tooth and a V-Shaped Flux-Switching Permanent Magnet Machines.

Author

Zhao, Guishu and Hua, Wei

Subjects

PERMANENT magnets, TOOTH roots, MAGNETISM, STATORS, ELECTRIC potential, FINITE element method

Abstract

In this paper, on the basis of a conventional 12-stator-coils/17-rotor-teeth (12/17) flux-switching permanent magnet (PM) (FSPM) machine and a 6/17 V-shaped FSPM machine, a novel 6/17 multi-tooth FSPM machine with a pair of magnets located in the upper apex of stator tooth is proposed. Then, four multi-tooth topologies sharing the same 6-stator-coils but with different rotor teeth combinations, namely, 6/17, 6/10, 6/11, and 6/13, are compared by the 2-D finite element analysis (2-D-FEA). The FEA-predicted results reveal the optimal combinations of stator coils and rotor teeth should be 6/17 for high-performance multi-tooth machines. Thereafter, an optimal design criterion of multi-tooth FSPM machines for the combinations of stator coils and rotor teeth is proposed. Afterward, electromagnetic performance evaluation between the 6/17 V-shaped and 6/17 multi-tooth machines is conducted, in terms of back electromotive force (back EMF), electromagnetic torque, cogging torque, phase inductance, unbalanced magnetic force (UMF), torque/magnet ratio, and efficiency. The comparative results indicate that the proposed 6/17 multi-tooth machine is superior to the V-shaped one, since it exhibits much higher torque/magnet ratio, larger torque, lower inductance, and much lower UMF, though the cogging torque and total harmonic distribution of phase back EMF are unfavorably larger. [ABSTRACT FROM AUTHOR]

Published

2019

34. Modeling and Analyzing a Novel Dual-Flux-Modulation Consequent-Pole Linear Permanent-Magnet Machine.

Author

Zhou, You, Qu, Ronghai, Gao, Yuting, Shi, Chaojie, and Wang, Cong

Subjects

TORQUE control, PERMANENT magnets, MACHINING, MACHINE performance, THERMAL analysis, FORCE density, MAGNETIC cores

Abstract

A novel dual-flux-modulation consequent-pole linear permanent-magnet (DFM-CP-LPM) machine is proposed in this paper, which can be regarded as the combination of a linear flux-switching PM machine and a linear vernier PM machine. Via two sets of interoperable PMs mounted on both the primary and the secondary, the proposed machine can work in a dual-flux-modulation mode, achieving higher thrust density. Meanwhile, the consequent-pole structure is introduced, reducing approximately half of the PM usage compared to a conventional surface-mounted linear PM vernier machine (LPMVM), which will greatly reduce the cost. In this paper, the configuration and the operation principle of the novel DFM-CP-LPM are presented. Then the optimization and several thrust ripple reduction methods are introduced to improve the performance of the machine. Thermal analysis is also carried out to check the demagnetization risk of primary PMs, due to the heat from coils. Finally, the proposed machine is compared to a conventional LPMVM and a consequent-pole linear vernier permanent magnet machine with only PMs set on the secondary. The results verify the superiority of the proposed DFM-CP-LPM. [ABSTRACT FROM AUTHOR]

Published

2019

35. A Novel Multi-Function Saturated-Core Fault Current Limiter.

Author

Zhong, Yongheng, Xie, Yaoheng, Liu, Yun, Ye, Huisheng, Yuan, Jiaxin, Zhou, Hang, and Wei, Liangliang

Subjects

FAULT current limiters, FAULT currents, TECHNOLOGY convergence, FUSION reactors, MAGNETIC cores, MAGNETIC circuits

Abstract

A novel multi-function saturated-core fault current limiter (MFCL) with two operating modes is proposed in this paper. MFCL can achieve fault current limitation and power flow management by switching operating mode: current-limiting mode and power-flow-controlling mode, which realizes technology convergence. The MFCL consists of an iron core with rotatable magnetic valve, ac coils, dc coils, and a fault-limiting reactor. The operating principle of the MFCL and the design of the rotatable magnetic valve are analyzed in this paper. The finite-element analysis (FEA) model based on Maxwell is used to analyze the MFCL. Simulation results depict that the MFCL can limit fault current effectively and provide variable impedance for power flow controlling. [ABSTRACT FROM AUTHOR]

Published

2019

36. Comparative Study of Two Novel Double-Sided Hybrid-Excitation Flux-Reversal Linear Motors With Surface and Interior PM Arrangements.

Author

Zeng, Zhiqiang, Shen, Yiming, Lu, Qinfen, Jiang, Qian, Gerada, David, and Gerada, Chris

Subjects

DEMAGNETIZATION, ELECTROMAGNETIC fields, FINITE element method, MOTORS, MAGNETIC fields, COMPARATIVE studies

Abstract

In this paper, two novel double-sided hybrid-excitation flux-reversal linear motors (DSHEFRLM) with the surface (S-) and interior (I-) permanent-magnet(PM) arrangements are proposed and comparatively investigated. The proposed motors feature an asymmetrical double-sided primary configuration which enables the armature and field excitations to be placed separately. Through 2-D finite-element method (FEM), two motor structures with different slot/pole combinations are optimized, and then, the magnetic fields and electromagnetic performances are calculated, including inductances, no-load flux linkage, thrust characteristics, and PM demagnetization capability. By comparison, it is found that S-DSHEFRLMs show larger thrust density while I-DSHEFRLMs exhibit superior flux-adjusting capability. Finally, these predicted results are validated by 3-D FEM. [ABSTRACT FROM AUTHOR]

Published

2019

37. Investigation of Single-Stage Double-Layer Saddle Sextupole Field Electromagnetic Launcher.

Author

Yan, Zhongming, Luo, Kun, Liang, Le, Fan, Guangcheng, Deng, Huimin, and Wang, Yu

Subjects

ELECTROMAGNETIC launchers, ELECTROMAGNETIC fields, LINEAR acceleration, SADDLERY, ENERGY conversion, ELECTROMAGNETIC pulses

Abstract

This paper proposes a novel single-stage double-layer saddle multipole field electromagnetic launcher (SSDFEL), which combines the characteristics of reconnection gun to achieve simultaneous linear acceleration and gyroscopic stabilization of the projectile. Since the saddle driving coils are divided into two layers, the magnetic field density inside the launcher is enhanced. The eddy current induced on the inner and outer surfaces of the projectile is greatly changed by the hollow cylindrical projectile with six symmetrical vertical slots twisted at a certain angle, and the projectile is simultaneously propelled to perform rotation motion and linear motion. In this paper, the electromagnetic field finite-element software is used to simulate and calculate this model. The simulation results indicated that the double-layer driving coil distribution has larger axial acceleration force and bigger circumferential torque than that of the single-layer driving coil distribution, the energy conversion efficiency has also been obviously increased, and there is an optimal initial twisted angle, which accelerates the projectile to the peak of rotation. To verify the results, an SSDFEL was established and tested. The experiment results confirm that the rotation performance can be affected by the initial twisted angle and a better launching effect is achieved than a single-layer distribution. In general, the experimental results are in agreement with the simulation results. [ABSTRACT FROM AUTHOR]

Published

2019

38. Development of a Capacitor Bank-Based Pulsed Power Supply Module for Electromagnetic Induction Coilguns.

Author

Le, Dinh-Vuong, Go, Byeong-Soo, Song, Myung-Geun, Park, Minwon, and Yu, In-Keun

Subjects

POWER resources, ELECTROMAGNETIC induction, ELECTROMAGNETIC launchers, LINE drivers (Integrated circuits), THYRISTORS, CAPACITORS, SEMICONDUCTOR lasers

Abstract

This paper presents some discussions and findings related to the development of the capacitor bank-based pulsed power supply module (PPSM) for an electromagnetic induction coilgun (EIC). Three PPSMs were designed for a three-stage EIC to launch a 21.68-kg projectile at a minimum velocity of 20 m/s. The energy of the PPSM in the first, second, and third stages was 200, 100, and 100 kJ, respectively. Two light-triggered thyristors (LTT) were used as the main switches of the module. The synchronous behaviors of the series LTT, dump circuit, laser diode driver circuit, and protection scheme are analyzed and discussed. The PPSM was built and tested as an EIC system. The simulation results of the PPSM were in agreement with the experimental results. The peak current was about 42 kA at a maximum voltage of 10 kV as in the simulation. The maximum current in the 4-kV launch experiment was 16.47 kA. The velocity of the projectile was more than 25 m/s, which is consistent with the design goal. [ABSTRACT FROM AUTHOR]

Published

2019

39. Hilbert Curve-Based Metasurface to Enhance Sensitivity of Radio Frequency Coils for 7-T MRI.

Author

Motovilova, Elizaveta and Huang, Shao Ying

Subjects

HILBERT space, RADIO frequency, RESONATORS, ELECTROMAGNETISM, MAGNETIC fields

Abstract

In this paper, we propose a compact, lightweight, and easy-to-fabricate Hilbert curve-based metasurface resonator that can effectively increase the sensitivity (radio frequency (RF) field intensity) and penetration depth of an RF coil for 7-T magnetic resonance imaging scanner. A circuit model is proposed to accurately calculate the resonance frequency of Hilbert curve resonators of different orders. A single element of a transverse electromagnetic (EM) coil was used for this paper. The increase in the field sensitivity introduced by the proposed metasurface to an RF coil was successfully demonstrated through simulations and experiments. The EM field produced by the RF coil is redistributed due to the presence of the proposed metasurface. The key feature of the proposed structure is its significant increase in the penetration depth of magnetic fields into the imaging volume. An enhancement of the magnetic field by more than four times was observed at 13.5 cm away from the coil experimentally. Flexibility for matching the coil integrated with the proposed surface is shown. [ABSTRACT FROM AUTHOR]

Published

2019

40. Study of Eddy Current Analysis by a Meshless Method Using RPIM.

Author

Tanaka, Yoshikazu, Watanabe, Sho, and Oko, Takuya

Subjects

EDDY currents (Electric), MESHFREE methods, INTERPOLATION, ELECTROMAGNETIC fields, MAGNETIC domain

Abstract

In this paper, a unique meshless method using the radial point interpolation method (RPIM) for the analysis of electromagnetic fields is proposed. In electromagnetic field analysis, treatment of the interfaces between different mediums is important. In this paper, a unique approach is proposed, which is to consider the material constants to be functions of space. Based on this condition, the governing equation of the electromagnetic field is derived and the equations are discretized using the RPIM. The proposed method is applied to eddy current problems, and the results are discussed. [ABSTRACT FROM PUBLISHER]

Published

2015

41. Computations of Source for Non-Meshed Coils With A– V Formulation Using Edge Elements.

Author

Ferrouillat, Pauline, Guerin, Christophe, Meunier, Gerard, Ramdane, Brahim, Labie, Patrice, and Dupuy, Delphine

Subjects

ELECTROMAGNETISM, ELECTRIC potential, INDUCTION machinery, SUPERCONDUCTING magnets, MAGNETOSTATICS

Abstract

In this paper, different ways to compute electromagnetic source fields for non-meshed coils will be described for magnetic vector potential \mathbf A and electric scalar potential V formulation ( \mathbf {A}- V formulation). The originality of this paper is demonstrated by the source computations for \mathbf {A}- V formulation with non-meshed coils. Usually, coils for \mathbf A- V formulation are meshed, and non-meshed coils are studied with reduced magnetic vector potential \mathbf Ar and electric scalar potential V formulation ( \mathbf {A}_{r}-V formulation). Different source computations for \mathbf {A}- V$ formulation will be applied on an induction machine with non-meshed coils. [ABSTRACT FROM PUBLISHER]

Published

2015

42. Analytical Field and Torque Analysis of a Reaction Sphere.

Author

Zhu, Linyu, Guo, Jian, and Gill, Eberhard

Subjects

MICROSPACECRAFT, MINIATURE electronic equipment, PERMANENT magnets, ELECTROMAGNETIC induction, EARTH currents

Abstract

In recent years, the increasing need in small satellite solutions triggers the miniaturization of attitude control systems. Reaction spheres were proposed as promising replacements of conventional reaction wheels for their $4\pi $ rotations. Since the generated control torques could be about any desired axes, a single reaction sphere is sufficient for three-axis stabilizations of spacecraft. This paper presents an innovative design of reaction spheres. Its driving unit is a combination of permanent magnets (PMs) and electromagnetic induction. This enables the generation of torques about three principle axes simultaneously. Meanwhile, a contactless bearing is integrated into the actuator design. Detailed designs and working principles of the reaction sphere are described. To investigate performance characteristics of the actuator, field modeling is of great importance and provides the basis for dynamics modeling. In this paper, an improved analytical model for dynamic fields excited by slotless distributed windings is presented for the first time. To study the cross coupling between PMs and electromagnetic induction, the static field generated by PMs is also modeled analytically. These developed models are validated through comparisons with numerical simulations. Electromagnetic torques generated by the actuator are calculated through the approaches of the Maxwell stress tensor and the Lorentz force law. Torque calculations based on the analytical field models deviate from those based on the numerical model slightly, with the maximum error within 4%. This means the presented analytical models allow to predict the electromagnetic field distribution and torques precisely. [ABSTRACT FROM AUTHOR]

Published

2018

43. Single Line to Ground Fault Detection in a Non-Effectively Grounded Distribution Network.

Author

Wang, Xiaowei, Gao, Jie, Wei, Xiangxiang, Zeng, Zhihui, Wei, Yanfang, and Kheshti, Mostafa

Subjects

ELECTRIC power systems, ELECTRICAL engineering, ELECTRIC circuits, ELECTRIC power distribution grids, ELECTRIC potential, ELECTRIC lines, HILBERT transform

Abstract

In the event of a single line to ground (SLG) fault in a non-effectively grounded distribution network, the faulted current is weak (only a few amperes or less) and the existing devices cannot accurately judge the faulted feeder. In this paper, we proposed algorithms that combine complete ensemble empirical mode decomposition with adaptive noise (CEEMDAN) and Hilbert transform to construct a multi-criteria comprehensive voting method. First, CEEMDAN algorithm is used to decompose the zero-sequence current to obtain the IMF1(the first intrinsic mode function) component and the Hilbert transform is used to calculate the instantaneous amplitude and instantaneous phase. Then, according to the three largest instantaneous amplitudes information, we constructed the characteristic instantaneous phase, characteristic instantaneous energy relative entropy and characteristic instantaneous zero sequence current polarity criteria from the phase, energy and polarity, respectively. Finally, we proposed a comprehensive voting method, which is specifically shown as follows: when two or more criteria show that one feeder or the bus has an SLG fault, it is voted that the feeder or the bus has an SLG fault. In contrast, if the judgment results of the three criteria are inconsistent, then we would return to recalculation and then vote. Compared with existing method, simulation tests and field experiments show that the method proposed in this paper has higher accuracy and a faster calculation speed. [ABSTRACT FROM AUTHOR]

Published

2018

44. A Modularized IPT With Magnetic Shielding for a Wide-Range Ubiquitous Wi-Power Zone.

Author

Lee, Eun S., Sohn, Yeong H., Choi, Byeong G., Han, Seung H., and Rim, Chun T.

Subjects

WIRELESS power transmission, MAGNETIC shielding, MAGNETIC fields, ELECTROMAGNETIC shielding, ANTENNA arrays

Abstract

A wide-range ubiquitous wireless power environment, called a ubiquitous Wi-power zone, where any electric devices can be charged by three-dimensional (3-D)-omnidirectional wireless charging, is newly proposed in this paper. By virtue of the proposed direct-quadrature (DQ) transmitting (Tx) coils composed of multiple Tx modules with same size, a ubiquitous Wi-power zone having the transmitting (Tx) coils can be provided over wide-range 3-D space. In this area, a number of electric devices can be simultaneously charged during operation. Therefore, the proposed IPT is expected to be the next generation of wireless power transfer (WPT), as the internet of things (IoT), mobile devices, and sensor technologies evolve. For magnetic shielding behind the Tx coils and high power efficient operation of the proposed DQ Tx coils, providing an evenly distributed magnetic field, a conductive plate is adopted, and the effects of the conductive plate for the dipole coil structure were thoroughly evaluated by a 3-D FEM simulation. To create the proposed ubiquitous Wi-power zone, simulation-based optimum design procedures are established based on four design considerations and the optimized number of modularizations for the DQ Tx coils can be found by an optimum point of figure of merit (FoM). The DQ Tx module composed of the DQ Tx coils and series resonant capacitors was adopted as a standard unit of the proposed IPT so that different sizes and shapes of 3-D space can be utilized for universal use of the proposed ubiquitous IPT; hence, a general solution to create the proposed ubiquitous IPT is provided in this paper. A prototype 5 × 5 modularized IPT composed of 25 DQ Tx modules having the same size of ${\text{10 cm}} \times {\text{10 cm}}\times {\text{2 cm}}$ was fabricated and experimentally verified for a ${\text{1 m}}\times {\text{1 m}}\times {\text{0.7 m}}$ ubiquitous Wi-power zone. Experimental results showed that 95.5%, 92.1%, and 98.8% of high magnetic field uniformity for $z_{1}= {\text{25}}$  cm, 50 cm, and 75 cm, respectively, and 3-D omnidirectional wireless power delivery have been achieved; thus, meeting essential requirements for the proposed ubiquitous Wi-power zone. Nine Rx coils can be simultaneously charged with 14.2 W of total received load power and 8.2% power efficiency at $z_{1}= {\text{70}}$  cm. [ABSTRACT FROM AUTHOR]

Published

2018

45. A Study on Output Characteristics of the Spherical Multi-DOF Motor According to the Number of Phases and Pole Pitch Angles.

Author

Cho, Sooyoung, Lim, Jong-Suk, Oh, Ye Jun, Jeong, Geochul, Kang, Dong-Woo, and Lee, Ju

Subjects

DEGREES of freedom, TORQUE measurements, FABRICATION (Manufacturing), HARMONIC analysis (Mathematics), AIR gap flux

Abstract

This paper studies the output performance improvement of the spherical multi-degree-of-freedom (multi-DOF) motor. The multi-DOF motor is a motor that is designed to drive in multiple axes. Therefore, it is important that the shape of the motor should be fabricated to enable multi-axis driving when designing the multi-DOF motor. In addition, it is essential to consider the output density characteristics and stability characteristic analysis to reduce the volume of the multi-DOF motor and to operate of the motor in the stable range, respectively. In this paper, the structure and operating characteristics of the spherical multi-DOF motor with dual air gaps are described. In order to improve the output characteristics of the multi-DOF motor, characteristics analysis was performed according to the change of the number of the phases and pole pitch angles, and stability characteristic analysis for stable operation of the multi-DOF motor was performed. [ABSTRACT FROM AUTHOR]

Published

2018

46. Multiple Objective-Based Optimal Energy Distribution for Wireless Power Transfer.

Author

Zhang, Zhen, Pang, Hongliang, and Wang, Jiang

Subjects

WIRELESS power transmission, MAGNETIC coupling, MAGNETIC energy storage, PHYSICAL constants, WIRELESS communications

Abstract

This paper presents a multi-coupling wireless power transfer (WPT) system aimed at dealing with various charging requests simultaneously. The proposed WPT system is able to distribute the energy more reasonably based on the top priority principle applying a novel distribution algorithm. Besides, the proposed system has the ability to charge the load in both the constant current mode and constant voltage mode while detecting the state of charging without using the bidirectional wireless communication. Moreover, this paper also puts forward a current injection topology named capacitance buffer rather than the traditional capacitor array in order to alleviate the large demand of the capacitors with different values under different resonant frequencies. Both simulation and experimental results are provided to demonstrate the feasibility and the performance of the proposed system. [ABSTRACT FROM AUTHOR]

Published

2018

47. Topological Transformer Leakage Modeling With Losses.

Author

Lambert, Mathieu, Martinez-Duro, Manuel, Rezaei-Zare, Afshin, and Mahseredjian, Jean

Subjects

LEAKAGE, EDDY current losses, MAGNETIC circuits, ELECTRON tubes

Abstract

This paper presents a novel leakage model for transformers that includes losses. This new model is physically based (topological) and it is possible to connect it to a topological core model without using any fictitious windings. The methods to calculate its parameters from standard test data and from design data are detailed within the paper. The results show that the new coupled leakage model with losses is able to match exactly the test report, when using standard test data. Preliminary investigations show that the results are very close to measurements, when using design data. [ABSTRACT FROM AUTHOR]

Published

2020

48. Preemptive Arc-Fault Detection Techniques in Switchgear and Controlgear—Part II.

Author

Hussain, G. Amjad, Kumpulainen, Lauri, Lehtonen, Matti, and Kay, John A.

Subjects

ELECTRIC switchgear, ELECTRIC fault location, ELECTRIC equipment, ELECTRIC contact sensors, COST effectiveness, PROGRAMMABLE controllers

Abstract

The significant benefits of preemptive arc-flash protection and the online condition monitoring of electrical equipment are quite well known. Our continuing research focuses on the development of new advanced sensor technologies that are cost-effective, reliable, and efficient for the early detection of faults in order to predict impending arc-flash occurrences in mediumvoltage and low-voltage switchgear and controlgear. More extensive and detailed measurements regarding significant defects that lead to an arc-flash event have been completed since the original work in Part I was completed. A more detailed analysis of the results of this additional testing is presented in this paper. It has been documented that the two major noncontact causes that lead to an arc-flash event in switchgear are insulation degradation and thermal stresses. This paper covers the detailed measurement results under both of these conditions. New sensor technologies for both the partial discharge measurement and the thermal detection are introduced and evaluated. An effective signal processing technique, which is needed for extracting the essential indication of a developing fault, is also presented. Finally, this paper outlines how a preemptive arc detection system can be connected to protection, the programmable logic controller, or the supervisory control and data acquisition. [ABSTRACT FROM PUBLISHER]

Published

2014

49. Electromagnetic Measurement of Molten Metal Level in Pyrometallurgical Furnaces.

Author

Saleem, Aroba, Underhill, Peter Ross, Chataway, David, Gerritsen, Terry, Sadri, Afshin, and Krause, Thomas W.

Subjects

LIQUID metals, ELECTROMAGNETIC measurements, FURNACES, METAL detectors, ELECTROMAGNETIC testing, LEAST squares

Abstract

Accurate control of molten metal levels during pyrometallurgical smelting operations is critical to improve process decision-making and maximizing production efficiency, such as when to commence tapping and the duration of the tapping operation. In addition, molten metal level control is important for long-term structural integrity of the furnace. Current methods to measure molten metal levels have limited accuracy and are intermittent, as they require manual measurement from above the furnace. In this paper, a continuous measurement system was designed to improve the molten metal level measurement in pyrometallurgical furnaces. This paper describes the tests of an electromagnetic sensing system consisting of eddy current drive and pickup coils that could be embedded in the wall of a furnace. As part of the development, portions of the system were simulated using COMSOL, and a prototype of the key hardware components was built and tested in the laboratory to validate the simulation results. Differential coil hookup provided a low-noise and high-resolution response. The system obtained a molten metal level detection resolution of 5 mm at liftoff distances approximately 300 mm from the simulated metal bath. Projection to latent structures (or partial least square) and regression analyses were applied to signal response to predict metal height, and a good agreement between predicted and measured laboratory metal heights was obtained. Initial results of the prototype system demonstrate its potential to accurately and continuously measure molten metal level, thereby improving safety and control of furnace operations. [ABSTRACT FROM AUTHOR]

Published

2020

50. A New Slot-PM Vernier Reluctance Machine With Enhanced Zero-Sequence Current Excitation for Electric Vehicle Propulsion.

Author

Zhao, Xing and Niu, Shuangxia

Subjects

ELECTRIC currents, ELECTRIC propulsion, ELECTRIC vehicles, VERNIERS, PERMANENT magnet generators, MAGNETIC circuits

Abstract

This paper aims to propose a new Vernier reluctance machine (VRM), which integrates the advantages of a robust rotor structure, good torque density, and flexible flux control ability. The key is to establish the excitation field with both stator slot permanent magnets (PMs) and zero-sequence current. Two excitation sources have different pole pair numbers but share a parallel magnetic circuit and contribute to superimposed torque in this machine. Meanwhile, a flexible flux control can be achieved by regulating zero-sequence current, and little demagnetization risk exists for slot PMs during flux control. In this paper, the machine configuration and operation principle are introduced, along with its integrated ac and dc drive method. Electromagnetic performance of this new machine is evaluated by finite-element analysis. Leading design parameters are determined and optimized considering optimal injection ratio of zero-sequence current. A prototype is fabricated, and relevant experiment results demonstrate the feasibility of the proposed solution. [ABSTRACT FROM AUTHOR]

Published

2020