胶囊微机电无线能量传输系统设计与试验研究

工程设计学报

2011, Vol. 18

Issue (3): 222-227

机电一体化和智能化系统设计理论、方法与技术

胶囊微机电无线能量传输系统设计与试验研究

刘修泉¹, 李艳红¹, 薛凯峰², 黄平²

1. 广州番禺职业技术学院机械与电子系, 广东广州 511483; 2. 华南理工大学机械与汽车工程学院,广东广州 510640

The design and experimental research of capsule endoscope 
wireless energy transmission

LIU Xiu-Quan¹, LI Yan-Hong¹, XUE Kai-Feng², HUANG Ping²

1. Department of Mechanical and Electronic, Guangzhou Panyu Polytechnic, Guangzhou 511483, China;
2. School of Mechanical and Automotive Engineering, South China University of Technology, Guangzhou 510640, China

全文: PDF(1907 KB) HTML

摘要： 首先介绍了胶囊微机电无线电能传输系统的原理和系统的基本构成,然后设计了以松耦合变压器为基础的无线电能供给系统,采用互相正交的二维线圈来接收能量并进行试验研究.结果表明：不管体内微机电系统处在何种位置和姿态,都可以有效接收能量,特别在初级绕组窗口宽度内,次级绕组接收能量可以高达110~240 mW．最后研制了胶囊微机电无线能量传输系统样机,可以成功驱动胶囊微机电系统工作,表明了该胶囊无线电能传输系统设计是可行的．

关键词： 无线能量传输; 胶囊; 微机电系统

Abstract: The principle of a wireless power transmission(WPT) and the basic constitutions of the capsule micro-electro-mechanical systems(MEMS) were introduced. Then, based on a loosely coupling transformer, the WPT system of the capsule MEMS were designed. The secondary receiving windings composed of two orthogonal coils received power after experiment research. The results show that regardless of the capsule location, the secondary can receive effective power, up to 110-240 mW. At last the luminous capsule model prototype was made, and the luminous capsule can work by WPT. It shows the WPT system is feasible．

Key words: wireless power transmission capsule MEMS

出版日期: 2011-06-28

TH 39

基金资助:

广东省自然科学基金资助项目(10151148301000001)

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引用本文:

刘修泉, 李艳红, 薛凯峰, 黄平. 胶囊微机电无线能量传输系统设计与试验研究[J]. 工程设计学报, 2011, 18(3): 222-227.

LIU Xiu-Quan, LI Yan-Hong, XUE Kai-Feng, HUANG Ping. The design and experimental research of capsule endoscope 
wireless energy transmission[J]. Chinese Journal of Engineering Design, 2011, 18(3): 222-227.

链接本文:

https://www.zjujournals.com/gcsjxb/CN/ 或 https://www.zjujournals.com/gcsjxb/CN/Y2011/V18/I3/222

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