Relevant bibliographies by topics / Induction coil parameter

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Induction coil parameter'

Author: Grafiati
Published: 4 June 2025
Last updated: 23 June 2025

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Journal articles on the topic "Induction coil parameter"

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B, Patidar, M.T.Saify, M.M.Hussain, S.K.Jha, and A.P.Tiwari. "Analytical, Numerical and Experimental Validation of Coil Voltage in Induction Melting Process." International Journal of Electromagnetics ( IJEL ) 1, no. 1 (2020): 21 to 32. https://doi.org/10.5281/zenodo.3762965.

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This paper presents, mathematical model of induction heating process by using analytical and numerical methods. In analytical method, series equivalent circuit (SEC) is used to represent induction coil and work piece. Induction coil and workpiece parameters (resistance and reactance) are calculated by standard formulas along with Nagaoka correction factors and Bessel functions. In Numerical method, magnetic vector potential formulation is done and finite element method (FEM) is used to solve the field equations. Analytically and numerically computed parameters such as equivalent coil resistance, reactance, coil voltage, work piece power are compared and found that they are in good agreement. Analytically and numerically obtained coil voltages at different frequencies are validated by experimental results. This mathematical model is useful for coil design and optimization of induction heating process.
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Gergely, Raphael. "Investigation of Induction Heating for Sheet Metal with Moving Induction Coil." International Journal of Electrical and Electronic Engineering & Telecommunications 13, no. 4 (2024): 317–22. http://dx.doi.org/10.18178/ijeetc.13.4.317-322.

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The efficiency of induction heating is highly dependent on the coil geometry and the air gap between the coil and the workpiece, therefore the aim of this research is to experimentally evaluate the efficiency and uniformity of temperature distribution in induction heating, utilizing an inductor coil, movable in three axes. The experiment is conducted under the condition that the inductor coil is not tailored for the specific workpiece, giving it a higher flexibility compared to the conventional application of induction heating. To achieve this objective, a downscaled test bench was designed, employing a CNC machine for execution. In addition, in this study, a second test bench was built to establish an analytical approach in determining the parameter field between power, air gap and efficiency. The steady-state conditions in this test bench allowed the closure of the energy balances to be calculated analytically, allowing immediate validation of the accuracy of the results. This parameter field was utilized to evaluate the outcomes of the moving inductor experiments.
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Ghimire, Kshitij. "Coil Parameter Analysis in Wireless Electric Vehicle Charging." International Journal of Electrical Engineering and Computer Science 4 (December 31, 2022): 101–9. http://dx.doi.org/10.37394/232027.2022.4.15.

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The hassle of using plug-in charging for electric vehicles (EVs) such as connecting charger to the port of vehicles, risk of getting electrocuted during rain, dirty and oily charging cable etc. can be eliminated using wireless/induction power transfer (IPT). It can be made smart and automated. Hence, IPT can be considered the future of EV charging. However, the technology is just emerging and there are a lot of limitations at present. The major problems are less efficiency caused by coil misalignment and air gap, and the electro-magnetic field generated around the coils which possesses greater risk for human health. These can be improved by selecting the types of coils and shields which produce maximum magnetic flux between the coils whereas reduce the flux outside the coils. In this research, the strength of magnetic fields produced by various types of coils (circular, square and hexagonal) were simulated in Ansys Maxwell 3D to understand their features and to know which coil is the best for high power transfer efficiency. Similarly, the effects of using ferrite and aluminum shields for leakage reduction, by varying their thickness, were studied. Finally, the leakage flux values were simulated at very high currents to understand their behavior in such conditions.
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Shi, Xiaona, Kelong Wang, Guochao Li, et al. "Study on Temperature Field Uniformity of Dynamic Induction Heating for Camshaft of Marine Diesel Engine." Machines 12, no. 4 (2024): 215. http://dx.doi.org/10.3390/machines12040215.

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This paper focuses on the study of the induction heating process of a camshaft in a marine diesel engine. A three-dimensional finite element model for dynamic induction heating is established using the finite element method of multi-physical field coupling, aiming to investigate the temperature uniformity of the cam during this process. Three elements are analyzed in this study: the moving speed, the gap between the induction coil and the workpiece, and the width of the induction coil. These factors allow for an analysis of the temperature distribution in the thickness direction and contour line direction of the cam under various conditions. On this basis, an equivalent parameter about the temperature uniformity in the thickness direction of the cam is proposed to guide the selection of the camshaft induction heating process parameters.
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Hariz Santoso, Asfari, Rhezal Agung Ananto, Ahmad Hermawan, and Sri Wahyuni Dali. "Desain Motor Kapasitor Dua Fasa Simetris 1 kW." Elposys: Jurnal Sistem Kelistrikan 11, no. 1 (2024): 40–44. http://dx.doi.org/10.33795/elposys.v11i1.4507.

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Single phase induction motors are one of the most frequently used types of motors because of their economical, sturdy, simple and easy maintenance advantages. One application is for electric vehicles. When single phase induction motors are applied to electric vehicles there are problems related to torque regulation based on vehicle operating conditions where when operating on light road conditions the torque produced by the motor remains high. In this research, a single-phase induction motor was made to have the same proportion of torque produced by the main coil and auxiliary coil or a 1kW 1000 rpm symmetrical two-phase induction motor. The type of winding applied to the stator is divided screws with the main and auxiliary coils each occupying 18 stator slots, 45 conductors per slots,, with a conductor diameter of 1.2 mm. As a phase shifter at start and operation so that they differ by 90°, a capacitance of 505.51 µF is used. As a result of the winding modification, the induction motor parameter values ​​for each stator winding are the same. So the starting torque of the main and auxiliary coils is 3.89 Nm and 3.88 Nm respectively and the nominal torque produced by the main and auxiliary coils is 4.28 Nm and 4.29 Nm respectively.
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Marpaung, Parlindungan Pandapotan. "EFEK KENAIKAN SUHU DAPUR INDUKSI ELEKTROMAGNETIK ALTERNATOR TERHADAP PERUBAHAN RESISTANSI LILITAN STATOR." Jurnal Poli-Teknologi 21, no. 2 (2022): 71–77. http://dx.doi.org/10.32722/pt.v21i2.4506.

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In this study, the design of the ac power plant equipment using an alternator derived from a motorcycle was carried out to produce an ac output voltage in the stator coil winding based on the electromagnetic induction process. The problem is that the ac output voltage flows rotary current or eddy current through the coil windings causing heat in the core plane which is in the alternator electromagnetic induction furnace. The initial condition of the electromagnetic induction alternator temperature is Tind(awal) = 30 oC, coil resistance Rt(awal) = 1.28 ohms and ac output voltage Vo(awal) = 12.68 volts. The research method was carried out by increasing the Tind parameter initial causing the effect of increasing the resistance of the conductor coil winding material as the output voltage decreased. The specification of the temperature coefficient of the coil conducting conductor is 0.0291 oC-1 the temperature increase of the electromagnetic induction alternator is Tind. 62 oC causes the effect of increasing the coil resistance as the output voltage decreases to Vo(temp.) = 7.68 volts ac. This decrease in the ac output voltage of the alternator causes the electricity supply to the automotive electrical load to become ineffective and inefficient. 
 Keywords: alternator ; electromagnetic induction ; coil windin ; temperature coefficient ; initial conditions
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Orosz, Tamás, Miklós Csizmadia, and Balázs Nagy. "Numerical Modeling and Optimization of a Quasi-Resonant Inverter-Based Induction Heating Process of a Magnetic Gear." Energies 17, no. 16 (2024): 4130. http://dx.doi.org/10.3390/en17164130.

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Induction heating is a clear, cheap, and highly effective technology used for many industrial and commercial applications. Generally, a time-varying magnetic field produces the required heat in the workpiece with a specially designed coil. The efficiency of the heating process depends highly on the coil design and the geometrical arrangement. A detailed and accurate finite element analysis of the induction heating process usually needs to resolve a coupled thermoelastic–magnetic problem, whose parameters values depend on the solution of another field. The paper deals with a shrink-fitting process design problem: a gear should be assembled with an axe. The interesting part of this case study is given the prescribed low limits for critical stress, the temperature of the gear material, and the heat-treated wearing surfaces. A coupled finite-element-based model and a genetic algorithm-based parameter determination methodology were presented. A thermal imaging-based measurement validated the presented numerical model and parameter determination task. The results show that the proposed methodology can be used to calibrate and validate the numerical model and optimize an induction heating process.
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Liu, Anqi, Zhan Wang, and Yong Zhang. "Research on pulse induction metal detector probe based on finite element simulation." Journal of Physics: Conference Series 2964, no. 1 (2025): 012024. https://doi.org/10.1088/1742-6596/2964/1/012024.

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Abstract Metal detection technology based on the principle of electromagnetic induction has always played an important role in the field of mine detection. In metal detectors, the probe coil is an essential component, and its performance affects the overall performance of the system. This paper introduces the basic principles of pulsed electromagnetic induction and constructs a model of the metal detector probe using the finite element electromagnetic simulation software Ansys Maxwell. The study explores the impact of the coil shape and radius, the number of turns, and the coil current on the primary field generated by the probe coil, as well as the influence of different metallic target materials on the secondary field received by the coil. Finally, the effectiveness of the simulation is verified by the experiments. The research findings have certain reference significance for optimizing the best parameter configuration of the probe coil.
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Fan, Bin, Lianfu Wang, Yong Liu, Peng Zhang, and Song Feng. "Simulation and Optimization Design of Inductive Wear Particle Sensor." Sensors 23, no. 10 (2023): 4890. http://dx.doi.org/10.3390/s23104890.

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In order to monitor the diagnosis of mechanical equipment by monitoring the metal wear particles carried in large aperture lubricating oil tubes, the simulation optimization structure design was carried out based on the traditional three-coil inductance wear particle sensor. The numerical model of electromotive force induced by the wear particle sensor was established, and the coil distance and coil turns were simulated by finite element analysis software. When permalloy is covered on the surface of the excitation coil and induction coil, the background magnetic field at the air gap increases, and the induced electromotive force amplitude generated by wear particles is increased. The effect of alloy thickness on the induced voltage and magnetic field was analyzed to determine the optimum thickness, and increase the induction voltage of the alloy chamfer detection at the air gap. The optimal parameter structure was determined to improve the detection ability of the sensor. Ultimately, by comparing the extreme values of the induced voltage of various types of sensors, the simulation determined that the minimum allowable detection of the optimal sensor was 27.5 µm ferromagnetic particles.
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Wessapan, Teerapot, Phadungsak Rattanadecho, Nisakorn Somsuk, Manop Yamfang, Manaporn Guptasa, and Prempreeya Montienthong. "Thermal Effects of Electromagnetic Energy on Skin in Contact with Metal: A Numerical Analysis." Energies 16, no. 16 (2023): 5925. http://dx.doi.org/10.3390/en16165925.

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It has been well recognized that interactions between electromagnetic fields and metals are very strong. The consequence of human tissue in contact with metal, when subjected to an alternating electromagnetic field, is an increase in tissue temperature, which results from metals absorbing the energy obtained through induction. However, the electromagnetic induction characteristics and tissue energy absorbed caused by various electromagnetic field exposure conditions have not been well understood. A computational model was developed and employed in this study to assess the temporal and spatial temperature increases in skin due to contact with a highly conductive metallic plate while subjected to a high-intensity electromagnetic field. The effects of plate material, plate thickness, coil distance, and exposure time on temperature increase in the skin were computationally investigated. The electromagnetic and temperature distributions in skin layers during exposure to electromagnetic fields were achieved using models of electromagnetic wave propagation and an unsteady bioheat transfer. The modeling approach used indicates that the plate thickness, plate material, coil distance, and exposure time have a significant impact on the temperature change in the skin. The most important parameter was found to be the metal type. Iron has the greatest effect on skin temperature increase when subjected to external electromagnetic induction. These results allow the researchers to estimate more precisely the exposure limits for induction coils.
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Dissertations / Theses on the topic "Induction coil parameter"

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Durukan, Ilker. "Effects Of Induction Heating Parameters On Forging Billet Temperature." Master's thesis, METU, 2007. http://etd.lib.metu.edu.tr/upload/12608879/index.pdf.

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Induction heating is one of the efficient and modern technique for heating raw materials for hot forging process. The induction heating furnaces use electro-magnetic field to transfer energy to the metal workpiece and heat is generated inside the material. The magnetic field can be provided by using induction coil. The power supplied to induction coil, the moving speed of the billet that is called conveyor speed and the coil box hole diameter are the factors affecting the resultant temperature of the heated billet. In this study, AISI 1045 type steel billets with a diameter of &Oslash<br>30 mm and length of 100 mm have been heated in a particular induction heater. During heating, effects of different levels of power, conveyor speed and the coil boxes with different hole diameters are investigated. The 125 KW 3000 Hz induction heater which is available in METU-BILTIR Research and Application Center Forging Laboratory is used in experiments. The heating experiments are designed according to 23 Factorial Design of Experiment Method. Multiple linear regression technique is used to derive a mathematical formula to predict the temperature of the heated billet. A good correlation between the measured temperatures that are the results of different sets of induction heating parameters and the predicted temperatures that are calculated by using temperature prediction formula has been observed.
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Book chapters on the topic "Induction coil parameter"

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Zhou, Yuan, Xue Han, Dongdong Zhang, and Zhigang Bing. "Optimal Parameters Configuration of an Induction Coil Gun." In Lecture Notes in Electrical Engineering. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-0408-2_63.

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Liu, Qingzhao, Pinghui Li, Xiaoliang Zhang, and Yawei Wang. "Research on Solid Armature Parameters of Induction Coil Launcher." In Lecture Notes in Electrical Engineering. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-97-1428-5_74.

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Taylor, Troy, John-Paul Denson, and Dominic Esposito. "Optimizing Expression and Solubility of Proteins in E. coli Using Modified Media and Induction Parameters." In Methods in Molecular Biology. Springer New York, 2017. http://dx.doi.org/10.1007/978-1-4939-6887-9_5.

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"Case Studies of Induction Heating." In Handbook of Induction Soldering. ASM International, 2024. https://doi.org/10.31399/asm.tb.hisppa.t56110135.

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Abstract This chapter explores case studies on using induction heating for joining applications, encompassing both soldering and brazing to demonstrate versatility. Each study focuses on inductor coil design, workpiece geometry, and production quantities, emphasizing optimization due to the interplay between material geometry, coil configuration, and process parameters like generator frequency and power. The case studies provide real-world data on effectively implementing induction heating in joining processes.
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"Induction Soldering Equipment." In Handbook of Induction Soldering. ASM International, 2024. https://doi.org/10.31399/asm.tb.hisppa.t56110123.

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Abstract This chapter describes important aspects of the interrelationship between the workpiece and the inductor coil, an understanding of which is essential for achieving an efficient soldering process and a solder joint with the desired performance and reliability. It also discusses induction soldering machine operation parameters, including temperature measurement and control sensors. The chapter illustrates the equipment used in a fully automated induction heating system. Fully automated soldering systems include temperature monitoring devices to control the temperature-time profile, the movement of workpieces, the supply of solder filler metal and flux, and the provision of shielding gas in the solder joint area.
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Zhyltsov, Andrii, Igor Kondratenko, and Vyacheslav Vasyuk. "Linear Electromechanical Transducer in the Systems of Welded Joints of Electrodynamic Processing." In Advances in Environmental Engineering and Green Technologies. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-5225-9420-8.ch016.

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This chapter is dedicated to establishing characteristics relationships between the induction type impact electromechanical transducer and parameters and quality indicators of electrodynamic effects on the welded joints. The authors developed two-dimensional circle-field mathematical model of transient discharge capacity at the branched electrical circuit with the coil inductance which changes dynamically, allowing by adjusting the parameters of the electromechanical transducer to achieve the necessary technological requirements for the characteristics of electrodynamic processing. Based on mathematical modeling of electrophysical processes in electromechanical transducers, induction type for electrodynamic processing of welded joints, reasonably geometrical parameters massive disk, and the contact area, the necessary conditions are created to reduce residual stresses in the weld joints.
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Fabo Peter, Faktorová Dagmar, and Savin Adriana. "New Approach to Mechanical Tension Measurement in Ferromagnetic Materials Using Non-Contact Impulse Magnetoelastic Method." In Studies in Applied Electromagnetics and Mechanics. IOS Press, 2016. https://doi.org/10.3233/978-1-61499-639-2-245.

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The classical determination of electromagnetic ferromagnetic material parameters calls for the measurement of the hysteresis loop by means of a standard arrangement consisting from the primary excitation winding, secondary coil and integrator. At a repeated or longer measurement the magnetoelastic parameters of the measured material are influenced by the joule heat, generated by the current in the primary coil. The topic of the paper is a description of the equipment using impulse magnetic field for the determination of magnetoelastic parameters of the tested material. At the impulse excitation of the primary coil it is possible to reach fundamentally higher values of the magnetic field intensity, the material can be magnetized in the situation with a high saturation, and by an act of it to eliminate memory effects of the magnetic hysteresis loop. Since the mean value of the excitation current is fundamentally lower as at the standard measurement, there is at the same time eliminated the thermal influence of the measured material. In the range of high saturations it is possible to approximate the course of the magnetic induction by the exponential course and the limit value to use as a reference point for the determination of possibilities of the impulse magnetoelastic method and its limitations at the practical use, the requirements for materials and the application possibilities at an application of the method in industry and construction industry.
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Vázquez, Javier, Pedro Roncero-Sánchez, and Alfonso Parreño Torres. "An Inductive Power Transfer System for the Wireless Charging of Electric Vehicles." In Emerging Capabilities and Applications of Wireless Power Transfer. IGI Global, 2019. http://dx.doi.org/10.4018/978-1-5225-5870-5.ch012.

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This chapter describes two methods whose purpose is to estimate the coupling factor k for the inductive coupling of an experimental prototype designed for the contactless battery charging of electric vehicles. The air gap that separates the two square-shaped coils of the inductive coupling is 150 mm. The first method is analytical and provides an expression with which to calculate the mutual inductance between both coils by solving Neumann's formula, from which k readily follows. The second approach is empirical and combines data from waveforms of currents that were obtained both experimentally and from PSpice simulations, where k is a model parameter, under different loading conditions. The agreement between the analytical and the empirical method is good, as they both yield coupling factor figures that are equal to 0.197 and 0.200, respectively. Both techniques could, therefore, be applied in order to determine the coupling factor of the constructed inductive coupling for other air gaps near to 150 mm, which are also of practical interest in electric vehicle charging.
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Amroliya, Praduman, and Santosh Kumar Sharma. "Wireless Power Transfer Based on Enhancement of Frequency Through PLL for Wide Range." In Artificial Intelligence and Communication Technologies. Soft Computing Research Society, 2022. http://dx.doi.org/10.52458/978-81-955020-5-9-56.

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In this paper, the proposed work conveys an efficient way to the desired extent while maintaining stable power generation and efficiency over long distances which has been difficult for past decades. These inductive or microwave plus coupling varieties are typically regarded key characteristics in a regularly used system. In a broad sense, capacitive coupling (CC), magnetic resonance coupling (MRC), microwave radiation (MR), &amp; inductive coupling are the 4 kinds of coupling. Since its evaluation in the mid-1930s, when it was utilized as element of both the Synchronization of the level and lateral outputs of television, it has progressed to a Progressed representation of coordinated circuit (IC). Technological advances have been identified inside a long range of applications nowadays. The very first PLL ICs started available about 1965. Furthermore, its quality factor allows for maximum coupling efficiency at longer wavelengths and voltages. Past decades proved that obtaining a wide range of components leads to optimizing the wireless power transfer system. The suggested control approaches and frequent usage of PLL are described in this research, and they will enhance the effectiveness of the transmission frequency to acquire as much distance as possible while maintaining the required efficiency. Furthermore, the proposed technique for the inverter, which is dependent on the saturation principle, necessitates the monitoring of potential within transmitter and reception coils. The high-frequency transformer, on the other hand, fulfilled the specified distance at Megahertz by stepping up the regulated voltage and frequency using coil parameters. With the aid of optimization in coil settings, this suggested work approaches a novel high efficiency experiment and control upon coupled magnetic resonance across a large range of load power also with PLL that can raise the voltage at a rather high value to get the wide range. In a WPT system, this simple way can obtain optimal distance. The MATLAB-2019b environment was used to evaluate the simulation.
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Gao Jing, Müller Wolfgang F.O., Greiner Felix, Eicher Dirk, Weiland Thomas, and Schlaak Helmut F. "Combined Simulation of Micro Permanent Magnetic Linear Contactless Displacement Sensor." In Studies in Applied Electromagnetics and Mechanics. IOS Press, 2010. https://doi.org/10.3233/978-1-60750-604-1-861.

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This permanent magnetic linear contactless displacement sensor is a new type of displacement sensor operating on the magnetic inductive principle and abbreviated as PLCD sensor. It has many excellent properties and has already been used for many applications. In this article a Micro-PLCD sensor which can be used for micro electromechanical system (MEMS) measurements is designed and simulated with software CST EM STUDIO&amp;reg;including building a virtual model, magnetostatic calculations, low frequency calculations, steady current calculations and thermal calculations. The influence of some important parameters such as dimension of air gap, working frequency, coil current and eddy currents etc are studied in depth.
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Conference papers on the topic "Induction coil parameter"

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Rudnev, Valery. "Novel User-Friendly Computer Modeling Software for Induction Heating and Induction Heat Treating." In HT 2013, edited by B. Lynn Ferguson. ASM International, 2013. https://doi.org/10.31399/asm.cp.ht2013p0110.

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Abstract This presentation discusses a newly developed family of software for computer modeling a variety of induction heating and heat-treating applications. Many manufacturers of induction heating machinery apply commercially available 2-D and 3-D computer modeling software in optimizing coil design and determining process recipes. As has been reported in numerous publications, successful use of these programs requires intensive and time-consuming training for users and often takes several days to obtain the results of simulations. This presentation reveals recent developments in a family of unique user-friendly software applications that assist induction-heating professionals with making fast, intelligent decisions on the most appropriate process parameters of the induction system, process effectiveness and load matching capability. Basic engineering knowledge, understanding fundamentals of induction heat-treating and common sense should be sufficient to do reliable numerical computer modeling utilizing such advanced and user-friendly numerical simulation software.
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Cincunegui, C., M. Coloschi, P. Marino, E. Martínez, and M. Valdez. "Online Seam Treatment of ERW Pipes for Proper Material Selection, Process Control and Toughness Improvement." In MPWT 2019. NACE International, 2019. https://doi.org/10.5006/mpwt19-14408.

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Abstract Electric Resistance Welded (ERW) pipes X60M / X65M API 5L PSL2, with resistance to ductile fracture propagation as per API 5L PSL2 Annex G [1] are achieved not only by setting the proper welding parameters and the steel cleanliness, but also by a combination of metallurgical processes affecting the final weld line and HAZ microstructure. The steel chemistry is the starting point to minimize the presence of inclusions, central segregation and the toughness impairment due to harmful elements, S, P, etc. on the pipe body, with a given casting and rolling technology. During the welding process, the right parameters combination is needed to avoid cold weld, penetrators, and other weld imperfections. At the last stage, the Seam Heat Treatment (SHT) has to be adjusted in a way that the steel response to the thermal cycles leads to the compliance of mechanical requirements at the weld line and Heat Affected Zone (HAZ). This heat treatment is performed through electromagnetic induction using several coils, which allows it to have a rapid and localized heating of the HAZ into the austenitic region, and that is followed by air cooling. The objective is to refine the structure and to eliminate brittle constituents around the weld line. As the SHT strongly affects the weld performance, the optimum processing conditions such as austenitization temperature and cooling rate may not be the same for all steel chemistry, and has to be carefully selected. The capability to model the thermal cycle after the ERW process and the understanding of the metallurgical behavior of different steel chemistries and dimensional configuration becomes the main target of any ERW pipe manufacturer aiming supply reliable Line Pipes as per API 5L PSL2 Annex G. In this work, a numerical thermal model of the SHT is presented along with validation and simulation results. A summary of metallurgical thermal cycle simulations by means of a Gleeble® 3500, applied on different steels is also included.
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Yang, J. K., G. H. Pack, J. C. Lee, and D. H. Park. "The Parameter Dependency of Induction Coil in Cylindrical ICP Lamp." In IEEE Conference Record - Abstracts. 2005 IEEE International Conference on Plasma Science. IEEE, 2005. http://dx.doi.org/10.1109/plasma.2005.359446.

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Wu, Jie, and Ziyi Gao. "Parameter design and response research of ahead detection half-coil induction logging." In 2022 4th International Conference on Intelligent Control, Measurement and Signal Processing (ICMSP). IEEE, 2022. http://dx.doi.org/10.1109/icmsp55950.2022.9859007.

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Cordes, A., K. Heimann, and S. Leonhardt. "Magnetic induction measurements with a six channel coil array for vital parameter monitoring." In 2012 34th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC). IEEE, 2012. http://dx.doi.org/10.1109/embc.2012.6346003.

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Xiang, Hongjun, Bin Lei, Zhiyuan Li, et al. "Analysis of parameter sensitivity for induction coil launcher based on orthogonal experimental method." In 2014 17th International Symposium on Electromagnetic Launch Technology (EML). IEEE, 2014. http://dx.doi.org/10.1109/eml.2014.6920148.

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Nalinnopphakhun, Panatda, Wandee Onreabroy, and Amornrat Kaewpradap. "Parameter Effects on Induction Coil Transmitter of Wireless Charging System for Small Electric Motorcycle." In 2018 IEEE International WIE Conference on Electrical and Computer Engineering (WIECON-ECE). IEEE, 2018. http://dx.doi.org/10.1109/wiecon-ece.2018.8783005.

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Nordstrom, Robert S., and Subha K. Kumpaty. "Modeling of Internal Combustion Engine Ignition Coil via MATLAB® Simulink® and Ansoft Maxwell® Software." In ASME 2011 International Mechanical Engineering Congress and Exposition. ASMEDC, 2011. http://dx.doi.org/10.1115/imece2011-63835.

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Electrical ignition (spark ignition) is the mechanism that ignites the air-fuel mixture provided by the induction system of an internal combustion engine. SAE J973 NOV1999 is a test method that was designed and established by the Society of Automotive Engineers (SAE). This specification provides a test sequence along with the equipment that ensures the proper test for a spark delivery device. To have a mathematical model of the ignition coil to function per this SAE specification would be beneficial to the design engineer. This paper will discuss the operation and simulation of an ignition coil using MATLAB® Simulink® and Ansoft Maxwell® finite element analysis software. The aforementioned numerical packages are used to evaluate a coil design and how it would correlate to the SAE J973 prescribed by the SAE Ignition Systems Standards Committee. The coil that is simulated is of inductive type ignition. The simulation results show that accuracy within 10% to 15% from tested values is obtainable with lumped parameter elements using this modeling technique.
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Goodwin, Aaron. "How Long Should My Induction Coil Last?" In HT 2023. ASM International, 2023. http://dx.doi.org/10.31399/asm.cp.ht2023p0023.

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Abstract When you purchase induction equipment, the perishable tooling (i.e., induction coils) will become a point of reoccurring cost over the life of the program. The loss of production that occurs when an induction coil fails and the equipment is idled, is more costly. It is important to note that some coils have a short usable life while others will last for months or years. Some of the notable factors include the coil type, equipment process parameters, the quality of the coil design, and specific coil features employed. All these influence coil life, some profoundly. Due to the number of factors that influence coil life, no induction equipment supplier can closely approximate the expected coil life. A proper understanding of these factors will enable the program manager to execute proper planning for the annual cost of induction coil tooling, number of coils on hand, coil changeover schedule, and possible downtime of induction equipment. It is important that your induction coil supplier has the expertise to provide you with good coil designs and is committed to continuous improvement by resolving early failure modes to maximize coil life.
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Mazursky, Alex J., Hee-Chang Park, Sung-Hyuk Song, and Jeong-Hoi Koo. "Multiphysics Modeling and Parametric Analysis of an Inductor for Heating Thin Sheet Materials." In ASME 2018 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/imece2018-88676.

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Abstract:
Over the past two decades, induction heating technology has begun to replace conventional heating methods in manufacturing due to its ability to rapidly and uniformly heat conductive materials. This advancement has made induction heating very attractive to a wide range of industries, including applications in which thin sheet geometries are used (sheet thickness &lt; 10 mm). According to preliminary testing, conventional coil geometries cannot efficiently heat thin sheet samples. Thus, the primary goal of this study is to investigate a suitable coil design for thin sheet materials and to evaluate the effects of varying coil design parameters. To this end, this project has developed a 3D Multiphysics model that includes a longitudinal induction coil and a thin sheet workpiece. Using the model, a series of parametric studies have been performed to identify the best induction coil geometry for heating of thin sheets along with suitable excitation parameters for the coil and workpiece. It was found that uniform heating is produced when the space between coils is tight. Additionally, insignificant variance in temperature uniformity was found when vertically displacing the workpiece within the coil. Parametric studies resulted in finding a cross-section geometry that reduced temperature deviation to within 1.1% across the workpiece width. The model can be used as a design tool for developing a (full-scale) prototype induction heating system.
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