Qi Wenjie, Xu Chao, Liu Bowen, She Xu, Liang Tian, Chen Deyong, Wang Junbo, Chen Jian
State Key Laboratory of Transducer Technology, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100190, China.
School of Electronic, Electrical and Communication Engineering, University of Chinese Academy of Sciences, Beijing 100049, China.
Micromachines (Basel). 2021 Jun 15;12(6):699. doi: 10.3390/mi12060699.
This paper presents a new process to fabricate a sensing unit of electrochemical seismometers using only one silicon-glass-silicon bonded wafer. By integrating four electrodes on one silicon-glass-silicon bonded wafer, the consistency of the developed sensing unit was greatly improved, benefiting from the high alignment accuracy. Parameter designs and simulations were carried out based on this sensing unit, which indicated that the sensitivities of the developed electrochemical seismometer decreased with the decrease in the number of flow holes in the sensing unit, and the initial stabilization time decreased gradually with the decrease in the thickness of the glass layer. Based on experimental results of four devices, the peak sensitivity was quantified as 5345.45 ± 43.78 V/(m/s) at 2 Hz, which proved high consistency of the fabricated electrochemical seismometer. In terms of the responses to random ground motions, high consistencies between the developed electrochemical seismometer and the commercial counterpart of CME6011 (R-sensors, Moscow, Russia) were found, where the developed electrochemical seismometer produced comparable noise levels to those of CME6011. These results validated the performance of the device and it may function as an effective tool for a variety of applications.
本文提出了一种仅使用一片硅-玻璃-硅键合晶圆制造电化学地震仪传感单元的新工艺。通过在一片硅-玻璃-硅键合晶圆上集成四个电极,得益于高对准精度,所开发传感单元的一致性得到了极大提高。基于该传感单元进行了参数设计和模拟,结果表明,所开发的电化学地震仪的灵敏度随着传感单元中流孔数量的减少而降低,初始稳定时间随着玻璃层厚度的减小而逐渐缩短。基于四个器件的实验结果,在2 Hz时峰值灵敏度量化为5345.45±43.78 V/(m/s),这证明了所制造的电化学地震仪具有高度一致性。在对随机地面运动的响应方面,发现所开发的电化学地震仪与俄罗斯莫斯科的CME6011(R传感器)商业同类产品之间具有高度一致性,所开发的电化学地震仪产生的噪声水平与CME6011相当。这些结果验证了该器件的性能,它可能成为各种应用的有效工具。