Su Xiaohong, Pei Weihua, Gu Ming, Liu Jin-bin, Chen Hongda
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Circuit design and simulation of a CMOS-based preamplifier for brain neural signals
A novel CMOS-based preamplifier for amplifying brain neural signal obtained by scalp electrodes in brain-computer interface (BCI) is presented in this paper. By means of constructing effective equivalent input circuit structure of the preamplifier, two capacitors of 5 pF are included to realize the DC suppression compared to conventional preamplifiers. Then this preamplifier is designed and simulated using the standard 0.6 /spl mu/m CMOS process technology model parameters with a supply voltage of 5 volts. With differential input structures adopted, simulation results of the preamplifier show that the input impedance amounts to more than 2 Gohm with brain neural signal frequency of 0.5 Hz-100 Hz. The equivalent input noise voltage is 18 nV/Hz/sup 1/2 /. The common mode rejection ratio (CMRR) of 112 dB and the open-loop differential gain of 90 dB are achieved.
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