一种16点神经记录探针阵列及其电路模型仿真

Proceedings. 2005 First International Conference on Neural Interface and Control, 2005. Pub Date : 2005-05-26 DOI:10.1109/ICNIC.2005.1499844

Lin Jianhui, Wu Xiaoming, Huang Pengsheng, Ren Tianling, Liu Litian

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引用次数: 2

摘要

本文介绍了一种简单的MEMS(微机电系统)工艺，用于制造16位神经记录探针阵列，并基于等效电路方法对神经元-电极界面进行了详细表征。从100Hz到1MHz，探头的阻抗大小显示出大约恒定的斜率f/sup -0.75/。动作电位可以通过通用电路仿真程序(如HSPICE)进行模拟。微电极的响应是几个参数的函数，如前置放大器的密封电阻和输入电阻。该响应对微电极参数的变化不敏感。当密封电阻较大(如100M/spl ω /)时，寄生电容对密封电阻的影响较为明显。

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A 16-site neural recording probe array and its circuit model simulation

This paper introduces a simple MEMS (micro electromechanical system) process to fabricate a 16-site neural recording probe array and gives a detailed characterization of the neuron-electrode interface, based on the equivalent circuit approach. The impedance magnitude of the probes shows approximately a constant slope of f/sup -0.75/ from 100Hz up to 1MHz. The action potential can be simulated by the general-purpose circuit simulation program, such as HSPICE. The responses of the microelectrodes act as a function of several parameters, such as the sealing resistance and input resistance of the preamplifier. The responses are not sensitive to the changes of the microelectrode parameters. However, appreciable influence of the parasitic capacitance was obtained when the sealing resistance was large (e.g. 100M/spl Omega/).

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Proceedings. 2005 First International Conference on Neural Interface and Control, 2005.

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