Design and implementation of contactless power track system with improved inductively coupled structure

机译：具有改进的电感耦合结构的非接触式电源轨道系统的设计与实现

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This paper is an attempt to improve the pickup coupling structure for the inductive power track in automated production line system. First, the strip-type inductive power track is wounded linearly by circular coils. Its flux emission ability is better than traditional power track because the magnetic flux density enhances in the identical length and current of the track. Next, the improved core structure having high coupling coefficient is designed by using magnetic field simulation and magnetic equivalent circuit model. Then, the inductively coupled structure with a 2-m long track, 5-cm long pickup and related circuits are implemented based on the feature of this system. Last, in accordance with the experimental results, the maximum transmission efficiency is about 70.34%, and the efficiency is still above 60% when operating at one fourth of rated power.

机译：本文试图改善自动化生产线系统中电感电源轨道的拾取耦合结构。首先，通过圆形线圈线性地缠绕带式电感电源轨道。其磁通排放能力优于传统的动力轨道，因为磁通密度在轨道的相同长度和电流中增大。接下来，通过使用磁场仿真和磁性等效电路模型来设计具有高耦合系数的改进的芯结构。然后，基于该系统的特征实现具有2米长轨道的电感耦合结构，5厘米长的拾取和相关电路。最后，按照实验结果，最大传输效率约为70.34 ％，在额定功率的四分之一操作时，效率仍然高于60 ％。

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《IEEE International Future Energy Electronics Conference and ECCE Asia》|2017年|1 v.|共6页
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Jia-You Lee; Tsai-Hua Lin; I-Lin Chen;
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Magnetic cores; Magnetic circuits; Couplings; Coils; Magnetic fields; Magnetic flux leakage;

机译：磁性核心;磁电路;联轴器;线圈;磁场;磁通泄漏;

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1. Design and implementation of contactless power track system with Y-shaped inductive pickup [J] . J. Y. Lee, H. Y. Shen, H. J. Chang Power Electronics, IET . 2016,第3期

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2. Design and Implementation of Removable and Closed-Shape Dual-Ring Pickup for Contactless Linear Inductive Power Track System [J] . Lee J., Shen H., Chan K. Industry Applications, IEEE Transactions on . 2014,第6期

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3. Design of an Improved Type Rotary Inductive Coupling Structure for Rotatable Contactless Power Transfer System [J] . Jia-You Leea, Hsin-Ming Chen, Li-Yu Huang MATEC Web of Conferences . 2015,第1期

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4. Design and implementation of contactless power track system with improved inductively coupled structure [C] . Jia-You Lee, Tsai-Hua Lin, I-Lin Chen IEEE International Future Energy Electronics Conference and ECCE Asia . 2017

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5. Loosely Coupled Transformer and Tuning Network Design for High-Efficiency Inductive Power Transfer Systems [D] . Zheng, Cong. 2015

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6. Improved Power System Stability Using Backtracking Search Algorithm for Coordination Design of PSS and TCSC Damping Controller [O] . Naz Niamul Islam, M. A. Hannan, Azah Mohamed, 2011

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7. Design of an Improved Type Rotary Inductive Coupling Structure for Rotatable Contactless Power Transfer System [O] . Jia-You Lee, Hsin-Ming Chen, Li-Yu Huang 2015

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8. Design and Construction of a Low-Flow, Low-Power Torch for Inductively Coupled Plasma Spectrometry. [R] . Rezaaiyaan, R., Hieftje, G. M., Anderson, H., 1982

机译：用于电感耦合等离子体光谱仪的低流量，低功率炬的设计和构造。

Design and implementation of contactless power track system with improved inductively coupled structure

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