Theoretical Modeling of Complicated Inductive Wireless Power Transfer Systems

机译：复杂感应无线功率传输系统的理论建模

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Inductive RF power transfer designs can be incredibly versatile, designed with a multiplicity of geometries and current paths to focus and enhance the transfer of power. However, most inductive systems in engineering practice are limited to either two-flat-loop systems or several basic coils with simplifying symmetry aspects. Complicated loop designs are largely ignored or untried by engineers because they are notoriously difficult to understand and model. This paper presents a foundational model for inductive systems with an arbitrarily large number of mutually-coupling loops. For the first time, comprehensive first-principle expressions for calculating voltage gain, s-parameters, and transfer efficiencies for these arbitrarily complicated inductive systems are presented and compared to measurements. The final result is a set of tools for designing the next-generation inductive RFID and wireless power transfer systems.

机译：感应式射频功率传输设计具有多种几何形状和电流路径，可实现多种功能，以集中和增强功率传输。但是，在工程实践中，大多数电感系统都限于两个扁平环路系统或几个基本线圈，以简化对称性方面。复杂的回路设计在很大程度上被工程师忽略或尝试，因为众所周知它们难以理解和建模。本文提出了具有任意数量的相互耦合回路的感应系统的基础模型。首次提出了用于计算这些任意复杂的感应系统的电压增益，s参数和传输效率的综合第一性原理，并将其与测量结果进行了比较。最终结果是一套用于设计下一代感应式RFID和无线电力传输系统的工具。

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《IEEE International Conference on RFID》|2020年|1-6|共6页
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Scott Roman; Gregory D. Durgin;
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1. Resonant inductive-coupling configurations with load-independent transfer-parameters for wireless power transfer - a perspective from the transformer equivalent-models [J] . Marques Carlos EPE Journal: European Power Electronics and Drives . 2018,第1期

机译：具有负载无线传输参数的谐振电感耦合配置，用于无线电力传输 - 来自变压器等效型号的透视图
2. Coil geometry models for power loss analysis and hybrid inductive link for wireless power transfer applications [J] . CHANDRASEKHARAN NATARAJ, SHEROZ KHAN, MOHAMED HADI HABAEBI Sadhana . 2018,第5期

机译：用于功率损耗分析的线圈几何模型和用于无线功率传输应用的混合感应链路
3. Coil geometry models for power loss analysis and hybrid inductive link for wireless power transfer applications [J] . Nataraj Chandrasekharan, Khan Sheroz, Habaebi Mohamed Hadi Sadhana: Academy Proceedings in Engineering Science . 2018,第5期

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4. Theoretical Analysis of Power Transfer Performance of Primary and Secondary Compensation Topology of Inductive Coupled Power Transfer System [C] . Zhang Xu, Meng Guoying International Conference on Optical, Electronic Materials and Applications . 2011

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5. A multi-port power electronics interface for battery powered electric vehicles: Application of inductively coupled wireless power transfer and hybrid energy storage system. [D] . McDonough, Matthew Kelly. 2014

机译：电池供电电动汽车的多端口电力电子接口：感应耦合无线功率传输和混合能量存储系统的应用。
6. Inductively powered wireless pacing via a miniature pacemaker and remote stimulation control system [O] . Parinaz Abiri, Ahmad Abiri, René R. Sevag Packard, -1

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7. Coil geometry models for power loss analysis and hybrid inductive link for wireless power transfer applications [O] . CHANDRASEKHARAN NATARAJ, SHEROZ KHAN, MOHAMED HADI HABAEBI 2018

机译：用于无线电力传输应用的电力损耗分析和混合电感链路的线圈几何模型

Theoretical Modeling of Complicated Inductive Wireless Power Transfer Systems

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