基于压电MEMS的直线电机

Proceedings of 1st International Electronic Conference on Actuator Technology: Materials, Devices and Applications Pub Date : 2020-11-20 DOI:10.3390/iecat2020-08483

V. Ruiz-Díez, J. Hernando-García, J. Sánchez-Rojas

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引用次数: 2

摘要

本文报道了桥式谐振器中具有3D打印腿的mems压电双向输送机的设计、制造和性能。该结构由氮化铝(AlN)压电薄膜和两个电极片组成，薄膜位于毫米大小的矩形薄硅桥和两个电极片之上。为了产生波浪，对贴片的位置和大小进行了分析优化，同时增加了3d打印的腿，用于控制接触，从而进一步进入高效直线电机的制造。这种混合装置最近展示了滑块的传输-超过电机重量的几倍-在6 V和19.3kHz下工作时速度为1.7 mm/s。然而，通过优化设备的各个方面，如振动模式和激励信号的速度超过25毫米/秒被证明。

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Linear motors based on piezoelectric MEMS

: This paper reports the design, fabrication and performance of MEMS-based piezoelectric bidirectional conveyors featuring 3D printed legs in bridge resonators. The structures consisted of aluminium-nitride (AlN) piezoelectric film on top of millimetre-sized rectangular thin silicon bridges and two electrode patches. The position and size of the patches were analytically optimised for the wave generation, while the addition of 3D-printed legs, for a controlled contact, allowed for a further step into the manufacturing of efficient linear motors. Such hybrid devices have recently demonstrated the conveyance of sliders – surpassing several times the motor weight – with speeds of 1.7 mm/s, while operated at 6 V and 19.3kHz. However, by the optimisation of various aspects of the device such as the vibrational modes and excitation signals speeds above 25 mm/s were demonstrated.

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Proceedings of 1st International Electronic Conference on Actuator Technology: Materials, Devices and Applications

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