Title :
A 1.3μW 0.7μVRMS chopper current-reuse instrumentation amplifier for EEG applications
Author :
Guocheng Huang ; Tao Yin ; Qisong Wu ; Yuanming Zhu ; Haigang Yang
Author_Institution :
Inst. of Electron., Beijing, China
Abstract :
This paper presents a low noise chopper-stabilized instrumentation amplifier (IA) for EEG recording. The current-reuse technology is adopted to reduce noise of the IA and the regulated cascode circuit is used to boost the open-loop gain of the amplifier. A ripple reduction loop (RRL) based on a novel output-resistance-tuning technology is proposed to reduce the intrinsic offset of the IA and reduce the output ripple of the chopper amplifier. Simulation results show the high-pass cutoff frequency of 0.15Hz, the input referred noise of 0.7μVRMS (BW=100Hz) and a NEF of 2.83. The attenuation to the chopping ripple is about 35dB with the novel output-resistance-tuning based RRL. The proposed IA achieves an average CMRR of 110dB, average PSRR of 105dB and average input-impedance of 1.5GΩ from Monte Carlo analysis. The overall IA consumes only 1.1μA current at a 1.2V supply.
Keywords :
Monte Carlo methods; choppers (circuits); circuit tuning; electroencephalography; instrumentation amplifiers; CMRR; EEG recording application; IA; Monte Carlo analysis; NEF; PSRR; RRL; bandwidth 100 Hz; cascode circuit; chopper amplifier; chopper current-reuse technology; chopping ripple; current 1.1 muA; frequency 0.15 Hz; high-pass cutoff frequency; input-impedance; instrumentation amplifier; open-loop gain; output-resistance-tuning technology; power 1.3 muW; ripple reduction loop; voltage 1.2 V; Choppers (circuits); Electrodes; Electroencephalography; Impedance; Instruments; Monte Carlo methods; Noise; EEG; chopper-stabilized; current-reuse; instrumentation amplifier; output-resistance-tuning; ripple reduction;
Conference_Titel :
Circuits and Systems (ISCAS), 2015 IEEE International Symposium on
Conference_Location :
Lisbon
DOI :
10.1109/ISCAS.2015.7169224
