The store will not work correctly in the case when cookies are disabled.
We use cookies to make your experience better.To comply with the new e-Privacy directive, we need to ask for your consent to set the cookies. Learn more.
This EEG lead kit allows users to make either monopolar or bipolar single channel measurements. 1.5 mm DIN Connector to disc. Sintered silver/silver-chloride (Ag/AgCl) EEG electrodes and ear clips for DC and low frequency EEG applications. Cable is appox 40" in length. Learn More
EEG-Z3 is a pre-amplified electroencephalograph sensor with built in impedance checking and 3 modes of operation: regular EEG mode (above 2 Hz), low frequency mode (above 0.01 Hz) for evoked potentials (EP) and low frequency applications and DC mode for true DC operation (above 0 Hz) for slow cortical potentials (SCP). Learn More
The Thought Technology SA9323 is a single gold EEG cup electrode on one end with a 1.5mm (.060) DIN connection on the other. This gold EEG cup lead can be used with any standard DIN cable. Approximately 18" in length. Learn More
The Thought Technology SA9323 is a single gold EEG cup electrode on one end with a 1.5mm (.060) DIN connection on the other. This gold EEG cup lead can be used with any standard DIN cable. Approximately 18" in length. Learn More
Ideal for 2 or 4 channel Z Score or any other multiple channel EEG applications, this kit includes the necessary cables to measure up to 4 channel EEG with common reference and ground, which is required when working with connectivity or other multiple-channel EEG protocols. Learn More
The T8780 kit is used in conjunction with one (1) monopolar/bipolar kit (T8775). It allows users to “link” two ear clips using a Y-connector. It is recommended for single EEG-Z3 sensor purchases to add a linked ear reference. Learn More
The Thought Technology T8785 - DC EEG 2 Channel Connectivity Kit allows users to make two-channel measurements with common ground and reference- required when working with two-channel DC or low frequency EEG protocols. Learn More