A Cantilever Type Bistable MEM Nonvolatile Memory with Piezoelectric Deactuation for High-Temperature Applications

2019 IEEE SENSORS Pub Date : 2019-10-01 DOI:10.1109/SENSORS43011.2019.8956710
D. S. Arya, Sushil Kumar, Pushpapraj Singh
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引用次数: 1

Abstract

This paper reports a mechanism of introducing bistability in the cantilever switch for the microelectromechanical system based non-volatile memory (MEMS-NVM). The bistability in cantilever switch is a fine play of adhesion and restoring force. The innovation lies in the adopted method to control the switch contact adhesion force. The prototype MEM-NVM imbeds piezoelectric slabs, which on biasing alters the surface roughness and thus the adhesion force. The prototype bistable cantilever switch is fabricated and tested for its bistability and memory applications. The obtained SET/RESET voltages, to toggle in two logic states is 10 volts at ~250 °C. The memory SET/RESET time is ~1µs. The idea is not limited to non-volatile memories but can be extended to any of the adhesion failed MEMS devices.
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悬臂式双稳MEM非易失性高温压电脱动存储器
本文报道了基于微机电系统的非易失性存储器(MEMS-NVM)悬臂开关中引入双稳性的机制。悬臂开关的双稳性是附着力和恢复力的良好结合。创新之处在于采用了控制开关接触附着力的方法。原型memm - nvm嵌入压电板,压电板的偏置改变了表面粗糙度,从而改变了附着力。制作了双稳悬臂开关原型,并对其双稳性和存储应用进行了测试。获得的SET/RESET电压,在两个逻辑状态下切换为10伏在~250°C。内存SET/RESET时间为~1µs。这个想法不仅限于非易失性存储器,而且可以扩展到任何粘附失败的MEMS器件。
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2019 IEEE SENSORS
2019 IEEE SENSORS
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