Title :
Study of microelectronics for detecting and stimulating of central neural signals
Author :
Zhi-Gong, Wang ; Xiaoying, Lü ; Wenyuan, Li ; Wang Huiling ; Zhenyu, Zhang ; Yufeng, WANG ; Wei, Cui
Author_Institution :
Inst. of RF & OE-Ics, Southeast Univ., Nanjing, China
Abstract :
Test circuits for the signal detection and the function electrical stimulation (FES) of neurons have been designed, implemented at first by using discrete devices and characterized off-body. The detecting circuit consisting of three-stage operational amplifiers has a controllable gain up to 105, a -3 dB bandwidth of 30 kHz, and an equivalent input noise of about 9 nV/√Hz. The FES circuit consisting of two-stage operational amplifiers has a bandwidth of more than 10 kHz and a variable gain from 20 dB to 60 dB can provide a current of more than 1 mA to a load of 10 kΩ They are intended to connect with both cuff-type and staff-type microelectrodes. Integrated circuits (IC) for the neural signal process have been designed with features of low voltage and low power. A more biocompatible composite has been synthesized to modify the silicon and related material.
Keywords :
biomedical electronics; integrated circuit design; integrated circuits; medical signal detection; microelectrodes; neurophysiology; noise; operational amplifiers; 10 kohm; 20 to 60 dB; biocompatible composite material; body-embedded circuits; central neural signal detection; controllable gain; function electrical stimulation; integrated circuits; microelectrodes; microelectronics; neural function regeneration; neural signal process; operational amplifier; Bandwidth; Circuit noise; Circuit testing; Electric variables control; Electrical stimulation; Microelectronics; Neurons; Operational amplifiers; Signal design; Signal detection;
Conference_Titel :
Neural Interface and Control, 2005. Proceedings. 2005 First International Conference on
Print_ISBN :
0-7803-8902-6
DOI :
10.1109/ICNIC.2005.1499875
