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Low frequency wireless powering of microsystems using piezoelectric-magnetostrictive laminate composites

机译：使用压电磁致伸缩层压复合材料的微系统的低频无线供电

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We have developed a new wireless powering technique for microsystems based on low frequency excitation of a piezoelectric-magnetostrictive laminate (i.e., magnetoelectric effect). The laminate composites subjected to a magnetic field have been used to generate an electric voltage (up to 285 V). Adequate power levels (10-80 /spl mu/W) for many microsystem applications have been generated by inserting a piezoelectric PZT sheet between two highly magnetostrictive Terfenol-D layers (strains of the order of 10/sup -3/ at 2-3 kGauss). The possibility of driving a microactuator with the generator has been demonstrated. Comparing with other remote powering techniques, this method possesses much higher voltage generation efficiency per generator volume.

机译：我们已经基于压电磁致伸缩层压板的低频激励（即磁电效应）为微系统开发了一种新的无线供电技术。受到磁场作用的层压复合材料已用于产生电压（最高285 V）。通过在两个高度磁致伸缩的Terfenol-D层之间插入压电PZT薄板（应变为2-3时10 / sup -3 /的量级），已经产生了许多微系统应用足够的功率水平（10-80 / spl mu / W） kGauss）。已经证明了用发电机驱动微致动器的可能性。与其他远程供电技术相比，此方法具有更高的每发电机体积电压产生效率。

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《》|2003年|p.1707-1710|共4页
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Bayrashev; A.; Parker; A.; Robbins; W.P.; Ziaie; B.;
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中图分类无线电电子学、电信技术;
关键词
lead compounds; piezoelectric materials; laminates; microactuators; magnetoelectric effects; DC generators; magnetostrictive devices; neodymium alloys; iron alloys; boron alloys; permanent magnets; low frequency wireless powering; microsystems; piezoelec;

机译：铅化合物;压电材料;叠层;微致动器;磁电效应;直流发电机;磁致伸缩器件;钕合金;铁合金;硼合金;永磁体;低频无线供电;微系统;压电;

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1. Low frequency wireless powering of microsystems using piezoelectric-magnetostrictive laminate composites [J] . Bayrashev A, Robbins WP, Ziaie B Sensors and Actuators, A. Physical . 2004,第2a3期

机译：使用压电磁致伸缩层压复合材料的微系统的低频无线供电
2. A High-Gain Power-Matching Technique for Efficient Radio-Frequency Power Harvest of Passive Wireless Microsystems [J] . Soltani N.Yuan F. Circuits and Systems I: Regular Papers, IEEE Transactions on . 2010,第10期

机译：一种无源无线微系统的高效射频功率收集的高增益功率匹配技术
3. Low-power/low-voltage RF microsystems for wireless sensors networks [J] . J.P. Carmo, J.H. Correia Microelectronics journal . 2009,第12期

机译：用于无线传感器网络的低功率/低压RF微型系统
4. LOW FREQUENCY WIRELESS POWERING OF MICROSYSTEMS USING PIEZOELECTRIC-MAGNETOSTRICTIVE LAMINATE COMPOSITES [C] . IEEE International Conference on Solid-State Sensors, Actuators and Microsystems . 2003

机译：使用压电 - 磁致伸缩层压复合材料的微系统低频无线供电
5. A small low-power wireless integrated microsystem. [D] . Redd, Bennion. 2015

机译：小型低功耗无线集成微系统。
6. Equivalent Circuit Model of Low-Frequency Magnetoelectric Effect in Disk-Type Terfenol-D/PZT Laminate Composites Considering a New Interface Coupling Factor [O] . Guofeng Lou, Xinjie Yu, Shihua Lu 2017

机译：考虑新的界面耦合因子的盘形Terfenol-D / PZT层状复合材料的低频磁电效应等效电路模型
7. MPPE/SEBS Composites with Low Dielectric Loss for High-Frequency Copper Clad Laminates Applications [O] . Jianming Guo, Hao Wang, Caixia Zhang, 2020

机译：具有低介电损耗的MPPE / SEBS复合材料，适用于高频铜包层压板应用
8. Low Frequency Acoustics of Laminated Composite Axisymmetric Structures [R] . James, J. H. 1993

机译：层合复合轴对称结构的低频声学

Low frequency wireless powering of microsystems using piezoelectric-magnetostrictive laminate composites

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