A Wide Dynamic Range Sigma-Delta Modulator for EEG Acquisition Using Randomized DWA and Dynamic-Modulated Scaling-Down Techniques

Abstract: This paper proposes a wide dynamic range (DR) and high-resolution discrete-time (DT) 2-order 4-bit sigma-delta modulator with a novel dynamic-modulated scaling-down (DM-SD) technology for non-invasive electroencephalogram (EEG) acquisition. The DM-SD technology can expand the input dynamic range and suppress large input offsets at the same time. The modulator was designed with 180 nm CMOS technology with an area of 0.49 mm2. We achieve a 118.1 dB SNDR when the input signal is 437.5 Hz and the signal bandwidth … Show more

“…G m -C filters, based on OTAs, have been employed in sensor interface integrated circuits (ICs) [1][2][3], biopotential recording circuits [4][5][6], and wireless communication integrated circuits (ICs) [7][8][9] to attenuate interferers with a wide tuning range of cut-off frequencies. OTA-based integrators with an inherent high gain and low-pass frequency response have been used in delta-sigma analog-to-digital converters (ADCs) [10][11][12]. Moreover, OTAs themselves have served as feedforward amplifiers of closed-loop systems such as capacitively coupled instrumentation amplifiers (CCIAs) [13][14][15] and power ICs [16][17][18][19][20] thanks to their high gain performance.…”

Single-Stage CMOS Operational Transconductance Amplifiers (OTAs): A Design Tutorial

“…G m -C filters, based on OTAs, have been employed in sensor interface integrated circuits (ICs) [1][2][3], biopotential recording circuits [4][5][6], and wireless communication integrated circuits (ICs) [7][8][9] to attenuate interferers with a wide tuning range of cut-off frequencies. OTA-based integrators with an inherent high gain and low-pass frequency response have been used in delta-sigma analog-to-digital converters (ADCs) [10][11][12]. Moreover, OTAs themselves have served as feedforward amplifiers of closed-loop systems such as capacitively coupled instrumentation amplifiers (CCIAs) [13][14][15] and power ICs [16][17][18][19][20] thanks to their high gain performance.…”

Single-Stage CMOS Operational Transconductance Amplifiers (OTAs): A Design Tutorial

Amplification and Filtering CMOS Circuits for processing EEG Biosignals-A Review

A 0.12 µ<i>V_rms</i> Input Noise 4.14G<i>Ω</i> Input Impedance Chopper and Auto-Zero Instrumentation Amplifier for EEG Recording Front Ends