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Fully-Differential Multichannel Integrated Neural Signal Recording Front-End 被引量:1
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作者 Xiaoran Li Shun'an Zhong +1 位作者 Haidong Yang Libin Yao 《Journal of Beijing Institute of Technology》 EI CAS 2017年第2期228-234,共7页
Neural signal can be used for clinical disease diagnosis,data analysis and real-time life signal monitoring.Its analysis requires high-performance signal processors.Based on the 180 nm standard CMOS technology,a16-cha... Neural signal can be used for clinical disease diagnosis,data analysis and real-time life signal monitoring.Its analysis requires high-performance signal processors.Based on the 180 nm standard CMOS technology,a16-channel fully-differential neural recording chip is designed.The chip consists of 16-channel low-noise pre-amplifiers,a multiplexer and a successive approximation register(SAR)ADC.The result shows that the equivalent input-referred noise of recording amplifier is 3.63μV,bringing down noise efficiency factor to 4.24.At 8.5 bits effective number of bit(ENOB),the analog-to-digital converter(ADC)has an SNR of 52.6dB.The core area of the proposed neural recording front-end is about 2.46 mm^2. 展开更多
关键词 neuralrecording low noise operational amplifier MULTIPLEXER successive approxima-tion register (SAR) analog-to-digital converter (ADC)
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A low-noise widely tunable Gm-C filter with frequency calibration
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作者 王彧 刘静 +1 位作者 闫娜 闵昊 《Journal of Semiconductors》 EI CAS CSCD 2016年第9期88-95,共8页
A fourth-order Gm-C Chebyshev low-pass filter is presented as channel selection filter for reconfigurable multi-mode wireless receivers. Low-noise technologies are proposed in optimizing the noise characteristics of b... A fourth-order Gm-C Chebyshev low-pass filter is presented as channel selection filter for reconfigurable multi-mode wireless receivers. Low-noise technologies are proposed in optimizing the noise characteristics of both the Gm cells and the filter topology. A frequency tuning strategy is used by tuning both the transconductance of the Gm cells and the capacitance of the capacitor banks. To achieve accurate cut-off frequencies, an on-chip calibration circuit is presented to compensate for the frequency inaccuracy introduced by process variation. The filter is fabricated in a 0.13 m CMOS process. It exhibits a wide programmable bandwidth from 322.5 k Hz to20 MHz. Measured results show that the filter has low input referred noise of 5.9 n V/(Hz)^(1/2) and high out-of-band IIP3 of 16.2 d Bm. It consumes 4.2 and 9.5 m W from a 1 V power supply at its lowest and highest cut-off frequencies respectively. 展开更多
关键词 Gm-C filter CMOS technology operational transconductance amplifier low noise frequency calibration
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