A Current-Mode Capacitively-Coupled Chopper Instrumentation Amplifier for Biopotential Recording With Resistive or Capacitive Electrodes.

This brief presents a high-density, low-noise analog front-end (AFE) for capacitively coupled neural recording applications. Conventional capacitively coupled AFEs, when chopper-stabilized, require large coupling capacitors or servo loops to minimize 1/f^2 input-referred noise and chopper-induced offsets, limiting channel density. In this brief, a current-mode capacitively coupled chopper instrumentation amplifier with embedded delta-sigma analog-to-digital converter (ADC) is presented that enables an area-efficient low-noise design via chopper-stabilized current-mode amplification. In this design, 60 channels are implemented in a 2 \times 2 mm2 180-nm CMOS chip, and each channel consumes 4~ \mu \textW , achieves an input referred noise of 160 nV/ \sqrt \textHz , and an ADC effective number of bits of 8.5 bits. [ABSTRACT FROM PUBLISHER]