Abstract: A process is provided for manufacturing a multielectrode that may be used to record a bioelectrical potential difference at a detection site. The manufacturing process may comprise manufacturing a carrier from multiple thin layers of an insulating material. The manufacturing process may further comprise providing at least one recording electrode of a set of electrode pairs on at least one of the layers of the carrier. Each recording pair may include one active electrode surface and a different reference electrode surface. Also, the manufacturing process may further comprise folding, fastening, and gluing the layers of the insulating material to one another.
Abstract: A process is provided for manufacturing a multielectrode that may be used to record a bioelectrical potential difference at a detection site. The manufacturing process may comprise manufacturing a carrier from multiple thin layers of an insulating material. The manufacturing process may further comprise providing at least one recording electrode of a set of electrode pairs on at least one of the layers of the carrier. Each recording pair may include one active electrode surface and a different reference electrode surface. Also, the manufacturing process may further comprise folding, fastening, and gluing the layers of the insulating material to one another.
Abstract: An embodiment of the present invention takes the form of a multielectrode for recording a bioelectrical potential difference at a detection site. The multielectrode includes a carrier that has an active electrode surface and multiple reference electrode surfaces. The multielectrode includes a plurality of recording pairs for recording the bioelectrical potential difference at the detection site multiple times in response to a single stimulus. The active electrode surface is a part of more than one of the recording pairs. The recording pairs can be coupled to processing apparatus for an improved signal-to-noise ratio of the recorded bioelectrical-potential-difference recordings.