This article presents a CMOS microelectrode array (MEA) system with a reconfigurable sub-array multiplexing architecture using the time-division multiplexing (TDM) technique. The system consists of 24,320 TiN electrodes with 17.7 ??m-pitch pixels and 380 column-parallel readout channels including a low-noise amplifier, a programmable gain amplifier, and a 10-b successive approximation register analog to digital converter. Readout channels are placed outside the pixel for high spatial resolution, and a flexible structure to acquire neural signals from electrodes selected by configuring in-pixel memory is realized. In this structure, a single channel can handle 8 to 32 electrodes, guaranteeing a temporal resolution from 5kS/s to 20kS/s for ea...
This study aimed to develop a low-cost multichannel neural recording system and multi-electrode arra...
This paper presents the design and measurements of low-noise multichannel front-end electronics for ...
This paper presents a chip-based electrophysiological platform enabling the study of micro- and macr...
Thesis (Ph.D.)--Boston UniversityThe nervous system communicates and processes information through i...
Journal ArticleMultielectrode arrays (MEAs) have emerged as a leading technology for extracellular ...
Signal degradation and an array size dictated by the number of available interconnects are the two m...
The recording of electrophysiological activities of brain neurons in the last half-century has been ...
Abstract—This paper reports on an active 16 x 16, low-noise, low-power, multi-electrode array (MEA) ...
Journal ArticleWe have developed a single-chip neural recording system with wireless power delivery ...
Planar microelectrode arrays (MEAs) are devices that can be used in biomedical and basic in vitro re...
The electrophysiological observation of neurological cells has allowed much knowledge to be gathered...
This paper describes a multichannel microelectrode array capable of recording single-unit neural act...
Journal ArticleA CMOS very large scale integration (VLSI) chip has been designed and built to implem...
Recently, CMOS-based microelectrode arrays containing a high-density of electrodes have emerged as a...
Neuroscience research into how complex brain functions are implemented at an extra-cellular level re...
This study aimed to develop a low-cost multichannel neural recording system and multi-electrode arra...
This paper presents the design and measurements of low-noise multichannel front-end electronics for ...
This paper presents a chip-based electrophysiological platform enabling the study of micro- and macr...
Thesis (Ph.D.)--Boston UniversityThe nervous system communicates and processes information through i...
Journal ArticleMultielectrode arrays (MEAs) have emerged as a leading technology for extracellular ...
Signal degradation and an array size dictated by the number of available interconnects are the two m...
The recording of electrophysiological activities of brain neurons in the last half-century has been ...
Abstract—This paper reports on an active 16 x 16, low-noise, low-power, multi-electrode array (MEA) ...
Journal ArticleWe have developed a single-chip neural recording system with wireless power delivery ...
Planar microelectrode arrays (MEAs) are devices that can be used in biomedical and basic in vitro re...
The electrophysiological observation of neurological cells has allowed much knowledge to be gathered...
This paper describes a multichannel microelectrode array capable of recording single-unit neural act...
Journal ArticleA CMOS very large scale integration (VLSI) chip has been designed and built to implem...
Recently, CMOS-based microelectrode arrays containing a high-density of electrodes have emerged as a...
Neuroscience research into how complex brain functions are implemented at an extra-cellular level re...
This study aimed to develop a low-cost multichannel neural recording system and multi-electrode arra...
This paper presents the design and measurements of low-noise multichannel front-end electronics for ...
This paper presents a chip-based electrophysiological platform enabling the study of micro- and macr...