A Variable Gain and Bandwidth Fully Differential CMOS Neural Preamplifier

RAU, LUCIANO S. MARTINEZ

2020 Argentine Conference on Electronics, CAE 2020

Institute of Electrical and Electronics Engineers Inc.

Lugar: Piscataway; Año: 2020 p. 47 - 52

The design of a low noise low power fully-differential CMOS preamplifier for bioelectrical signals recording applications is presented. The capacitive-coupled and capacitive-feedback topology is adopted. The amplifier current consumption is 5.2 mu mathrm{A} or 18.2 mu mathrm{A} at 3 V supply for a mid-band gain of 39.4 dB or 25.9 dB, respectively. Each corner frequency is 2-bit programmable for amplifying biosignals located in different bands. The bandwidth can be extend from 0.15 Hz - 2.68 kHz to 0.03 Hz - 40.4 kHz. To avoid possible saturation at the differential output, a discharged switch is incorporated. The circuit has an input-referred noise of 2.99 mu ext{Vrms} integrated from 0.1 Hz to 10 kHz. It was designed and simulated using 0.5 mu mathrm{m} 3M2P CMOS process. The circuit is in the manufacturing process.