Low-voltage fully differential CMOS neural amplifier based on CFOA

Abstract: In this paper, a low voltage fully differential neural amplifier based on current feedback operational amplifier (CFOA) is introduced. The gains of LFP and spikes signals can be tuned using the amplifiers capacitors. The designed amplifier provides a maximum output gain up to 50 dB, a total power consumption of 4.218 nW, and an input referred noise of 3.38 µV/Hz 1/2 and 5.96 µV/Hz 1/2 for LFP signals and spikes signals, respectively. Moreover, the lower cutoff frequencies of the amplifier can be tuned using th… Show more

“…The current feedback operational amplifier (CFOA) is one of the most important active building blocks in fully integrated continuous time circuits [1][2][3][4][5][6][7][8]. Compared with traditional voltage-mode operational amplifiers, it has many essential advantages such as wider and nearly constant bandwidth independent of closed-loop gain, higher slew rate, lower sensitivity, larger dynamic range, lower power consumption, and ease of realizing various functions with lesser number of passive components.…”

A novel Nth-order voltage-mode universal filter based on CMOS CFOA

“…The current feedback operational amplifier (CFOA) is one of the most important active building blocks in fully integrated continuous time circuits [1][2][3][4][5][6][7][8]. Compared with traditional voltage-mode operational amplifiers, it has many essential advantages such as wider and nearly constant bandwidth independent of closed-loop gain, higher slew rate, lower sensitivity, larger dynamic range, lower power consumption, and ease of realizing various functions with lesser number of passive components.…”

A novel Nth-order voltage-mode universal filter based on CMOS CFOA