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体内微机电系统的三维无线能量传输装置的设计和实验 被引量:3

Design and experimental research of three-dimensional wireless power transmission system of MEMS in human body
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摘要 设计了基于电磁感应原理的体内无线能量传输系统,为体内内窥镜胶囊提供能量。首先,通过建立数学模型对三维无线能量接收线圈正交绕组的接收性能进行仿真,获得不同姿态下系统的耦合系数。结果表明:三维正交线圈在不同姿态下能有效地进行互补。然后,根据体内内窥镜胶囊尺寸要求,设计制造了微型接收绕组和整流稳压电路,并用此系统给自制的图像采集系统供能,且对实际传输的电压和电流进行测量。实验结果表明:该三维接收系统的能量传输效率和稳定性能够满足实际需要。 A wireless power transmission system is designed which is based on electromagnetic induction and it can power the capsule endoscope in human body. First, power receiving performances of orthometric windings of three-dimensional wireless power receiving coil are studied through mathematical models and coupling coefficient are acquired at different attitudes. The results confirm that three orthometric windings can compensate each other effectively at different attitudes. Then according to the side requirements of the capsule endoscope, a micro receiving windings and a micro rectifying circuit are designed and fabricated which power a self-made picture pick-up system. Based on this,the actual output power and current is measured. The experimental resuits verify that the efficiency and stability of the three-dimensional receiving system can meet practical requirements.
作者 李杨 黄平
出处 《现代制造工程》 CSCD 北大核心 2012年第1期126-130,共5页 Modern Manufacturing Engineering
关键词 无线能量传输 耦合系数 内窥镜 微机电系统 wireless power transmission coupling cocfficient endoscope MEMS
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参考文献9

  • 1Jow U M, Ghovanloo M. Design and optimization of printed spiral coils for efficient transcutaneous inductive power trans- mission, in IEEE TRANSACTIONS ON BIOMEDICAL CIR- CUITS AND SYSTEMS [ C ]. Baltimore, USA, 2007:193 - 202.
  • 2Atluri S, Ghovanloo M. A wideband power-efficient inductive wireless link for implantable microelectronic devices using multiple carriers, in IEEE International Symposium on Cir- cuits and Systems [ C ]. Island of Kos,2006 : 1131 - 1134.
  • 3DeHennis A D, Wise K D. A wireless microsystem for the re- mote sensing of pressure, temperature, and relative humidity [ J ]. Journal of Microelectromechanical Systems, 2005, 14 (1) :12 -22.
  • 4Lenaerts B,Puers R. An inductive power link for a wireless endoscope[ J ]. Biosensors and Bioelectronics, 2007 ( 22 ) : 1390 - 1395.
  • 5Lenaerts B, Puers R. Inductive powering of a freely moving system[ J]. Sensors and Actuators ,2005 ( 123 ) :522 - 530.
  • 6Lee S W, Kim J D, Son J H, et al. Design of two-dimensional coils for wireless power transmission to in vivo robotic cap- sule. in 27th Annual International Conference of the Engi- neering in Medicine and Biology Society [ C ]. Shanghai, China,2005:6631 - 6634.
  • 7Liu Xiuquan, Huang Ping. Study on techniques of outside en- ergy supply for the wireless capsule endoscope. IEEE/ ICCA07 [ C ]. Guangzhou, China,2007:203 - 206.
  • 8刘修泉,张炜,吴彦华,黄平.体内微机电无线能量传输系统的仿真分析[J].系统仿真学报,2008,20(8):2215-2219. 被引量:8
  • 9孙跃,王智慧,戴欣,苏玉刚,李良.非接触电能传输系统的频率稳定性研究[J].电工技术学报,2005,20(11):56-59. 被引量:112

二级参考文献21

  • 1毛赛君,王慧贞.非接触感应电能传输系统可分离变压器特性分析[J].电源世界,2006(5):37-39. 被引量:13
  • 2高朝晖,张晓斌,刘敏.带均衡电抗器12脉波变压整流器仿真模型的研究[J].系统仿真学报,2006,18(7):1976-1979. 被引量:15
  • 3罗宏浩,吴峻,常文森.新型电磁弹射器的动态性能仿真[J].系统仿真学报,2006,18(8):2285-2288. 被引量:36
  • 4末田正 徐其荣 译.电磁学[M].北京:科学出版社,2003..
  • 5Hu A P, Chen Z J, Hussmann S, et al. A dynamically on-off controlled resonant converter designed for coal mining battery charging applications. Power System Technology, 2002, 2:1039-1044.
  • 6Boys J T, Green A W. Inductively coupled power trans mission concept-design and application. IPENZ Trans,1995, 22(1): 1-9.
  • 7Wang Chwei Sen, Grant A Covic, Oskar H Stielau.Investigating an LCL load resonant inverter for indu ctive power transfer applications. IEEE Transactions on Power Electronics, 2004, 19(4): 995- 1001.
  • 8Iddan G, Meron G, Glukhovsky A, Swain P. Wireless Capsule Endoscopy [J]. Nature (S0028-0836), 2000, 405(6785): 417.
  • 9Intelligent Microsystem Center. Endoscopic Microcapsule [EB/OL]. (2005-4-23) [2007-1-8]. http://www.microsystem.re.kr/
  • 10金山科技集团.智能胶囊消化道内窥镜系统[EB/OL].(2005-1-18)[2007-1-8].http://www.cais.net/

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