A low-noise demultiplexing system for active multichannel microelectrode arrays

Abstract

This paper reports a low-noise demultiplexing system capable of reconstructing multichannel single-unit neural signals derived from multiplexed microelectrode arrays. The overall multiplexing-demultiplexing system realizes ten channels, a per-channel gain of 68 dB, a bandwidth from 100 Hz to 6 kHz, and an equivalent noise level (referred to the probe input) of 13 microV rms. It provides for signaling over the power supply to allow control of on-chip probe functions such as self-testing. The interchannel crosstalk is less than 3%, and switching noise is suppressed by blanking the transition intervals. The 200 kHz probe sample clock is tracked automatically over a range from 150 to 250 kHz. Neural signals as low as 20 microV (typically 640 microV at the demultiplexing system input) can be reconstructed. The overall system organization is compatible with the demultiplexing of as many as 40 time-multiplexed electrode channels from a single probe data line.