Passive adapter with touchproof inputs and a high density output for adapting 3r
Passive adapter with touchproof inputs and a high density output for adapting 3rd party electrode interface cables to the ATLAS Neurophysiology System. Version "D" is labeled for connections to electrodes 193-256.
Passive adapter with touchproof inputs and a high density output for adapting 3r
Passive adapter with touchproof inputs and a high density output for adapting 3rd party electrode interface cables to the ATLAS Neurophysiology System. Version "B" is labeled for connections to electrodes 65-128.
The ADPT-NKSS-Y-A is an adapter cable that allows signals from an electrode inte
The ADPT-NKSS-Y-A is an adapter cable that allows signals from an electrode interface by Nihon Kohden Corporation to be recorded by both the JE-120A Amplifier by Nihon Kohden Corporation and the JE-212A Amplifier by Nihon Kohden Corporation.
Modular Electrode Interface for connecting 16 contact PMT MINI CONNECTOR to Modu
Modular Electrode Interface for connecting 16 contact PMT MINI CONNECTOR to Modular Headstage-36 which is connected to the ATLAS Acquisition Amplifier. Modular Electrode Interface-PM16 and Modular Headstage-36 are components of the ATLAS Neurophysiology System.
The ATLAS-HS-36-CHET-IDC10 is a clinical headstage that allows four X 3M 10 Pin
The ATLAS-HS-36-CHET-IDC10 is a clinical headstage that allows four X 3M 10 Pin Receptacle Connector (e.g. 8510-4500PL) connectors to interface with the ATLAS Data Acquisition System. The ATLAS-HS-36-CHET-IDC10 uses electronic components to buffer single unit activity sensed by the electrodes and sends it to the ATLAS Data Acquisition System to be digitized.
The ATLAS-CHET-36-TETHER is a connection between the ATLAS-HS-36-CHET-X headstag
The ATLAS-CHET-36-TETHER is a connection between the ATLAS-HS-36-CHET-X headstage and the ATLAS Neurophysiology System; Note X denotes the type of electrode connection for the CHET, while the TETHER is compatible with multiple CHET-X designs.
Passive adapter with touchproof inputs and a high density output for adapting 3r
Passive adapter with touchproof inputs and a high density output for adapting 3rd party electrode interface cables to the ATLAS Neurophysiology System. Version "E" is labeled for connections to electrodes 257-320.
The ADPT-NKSS-DRS-BCD is an adapter that allows signals from an electrode interf
The ADPT-NKSS-DRS-BCD is an adapter that allows signals from an electrode interface to be recorded by not only the ATLAS Neurophysiology System (K110967) by Neuralynx, Inc. but also the JE-120A Amplifier (K113117), by Nihon Kohden Corporation.
Passive adapter with touchproof inputs and a high density output for adapting 3r
Passive adapter with touchproof inputs and a high density output for adapting 3rd party electrode interface cables to the ATLAS Neurophysiology System. Version "A" is labeled for connections to electrodes 1-64.
The ATLAS CHET Adapter is an optional configuration of the ATLAS Neurophysiology
The ATLAS CHET Adapter is an optional configuration of the ATLAS Neurophysiology System that allows up to 4 clinical headstages to interface with the ATLAS Acquisition Amplifier.
Flexible cable to connect the High Density Junction Box to the ATLAS Neurophysio
Flexible cable to connect the High Density Junction Box to the ATLAS Neurophysiology System.
The HS-10-CHET-A 1.0 is a clinical headstage that allows one Ad-Tech Tail Electr
The HS-10-CHET-A 1.0 is a clinical headstage that allows one Ad-Tech Tail Electrode (usually consisting of up to 9 electrodes) to interface with the ATLAS Neurophysiology System.
The ATLAS TPSS Cable is an adapter that allows signals from an electrode interfa
The ATLAS TPSS Cable is an adapter that allows signals from an electrode interface to be recorded by not only the ATLAS Neurophysiology System by Neuralynx, Inc. but also other neurophysiology recording systems with touch proof connectors. The ATLAS TPSS Cable shares the outputs from the electrode interface and splits them to both systems to be digitized.
The Modular Headstage-36 is a clinical headstage that connects to one of several
The Modular Headstage-36 is a clinical headstage that connects to one of several modular electrode interfaces to connect electrodes from various manufacturers to the ATLAS Neurophysiology System. The Modular Headstage-36 uses electronic components to buffer single unit activity sensed by the electrodes and sends it to the ATLAS Data Acquisition System to be digitized.
The ATLAS NK Headbox allows JE-125A, JE-225A, JE-226A, JE-227A, and JE-228A Mini
The ATLAS NK Headbox allows JE-125A, JE-225A, JE-226A, JE-227A, and JE-228A Mini Flat Junction Boxes by Nihon Kohden Corporation (NKC) to interface with the ATLAS Neurophysiology System by Neuralynx and JE-120A or JE-212A Amplifier by Nihon Kohden Corporation through the ATLAS NKSS Cable (also by Neuralynx).
The ATLAS Headbox is a clinical headbox that allows ECoG electrodes with 1.5mm T
The ATLAS Headbox is a clinical headbox that allows ECoG electrodes with 1.5mm Touch-Proof Connector Adapters to interface with the ATLAS Neurophysiology System.
Passive adapter with touchproof inputs and a high density output for adapting 3r
Passive adapter with touchproof inputs and a high density output for adapting 3rd party electrode interface cables to the ATLAS Neurophysiology System. Version "H" is labeled for connections to electrodes 449-512.
Passive adapter with touchproof inputs and a high density output for adapting 3r
Passive adapter with touchproof inputs and a high density output for adapting 3rd party electrode interface cables to the ATLAS Neurophysiology System. Version "G" is labeled for connections to electrodes 385-448.
Passive adapter with touchproof inputs and a high density output for adapting 3r
Passive adapter with touchproof inputs and a high density output for adapting 3rd party electrode interface cables to the ATLAS Neurophysiology System. Version "C" is labeled for connections to electrodes 129-192.
The ATLAS-HS-36-CHET-D18 is a clinical headstage that allows two 18 contact DIXI
The ATLAS-HS-36-CHET-D18 is a clinical headstage that allows two 18 contact DIXI electrode connectors to interface with the ATLAS Data Acquisition System. The ATLAS-HS-36-CHET-D18 uses electronic components to buffer single unit activity sensed by the electrodes and sends it to the ATLAS Data Acquisition System to be digitized.
Pegasus is the software component of the ATLAS Neurophysiology System that inter
Pegasus is the software component of the ATLAS Neurophysiology System that interfaces with the amplifier. It is used to display, store and archive EEG signals and allow user-only annotation and marking. Pegasus does not analyze EEG or automatically detect events.
The ATLAS HD Headbox is a clinical headbox that allows electrode connections end
The ATLAS HD Headbox is a clinical headbox that allows electrode connections ending in an MDR-68 connector to interface with the ATLAS Neurophysiology System. The ATLAS HD Headbox allows two MDR-68 connectors to be tied in parallel and a switch to disable active driven ground supplied by the ATLAS Neurophysiology system.
Modular Electrode Interface for connecting 10 contact PMT MINI CONNECTOR to Modu
Modular Electrode Interface for connecting 10 contact PMT MINI CONNECTOR to Modular Headstage-36 which is connected to the ATLAS Acquisition Amplifier. Modular Electrode Interface-PM10 and Modular Headstage-36 are components of the ATLAS Neurophysiology System.
The ATLAS MICROMED JB INTERFACE is a buffered interface between Micromed Jackbox
The ATLAS MICROMED JB INTERFACE is a buffered interface between Micromed Jackbox and ATLAS. The ATLAS MICROMED JB INTERFACE uses electronic components to buffer single unit activity sensed by the electrodes and sends it to the ATLAS Data Acquisition System to be digitized.
The ATLAS Patient Event Marker is an optional configuration of the ATLAS Neuroph
The ATLAS Patient Event Marker is an optional configuration of the ATLAS Neurophysiology System that allows the patient to mark an event in the Data Acquisition Software.
The HS-18-CHET-A 1.0 is a clinical headstage that allows one Ad-Tech Tail Electr
The HS-18-CHET-A 1.0 is a clinical headstage that allows one Ad-Tech Tail Electrode (usually consisting of up to 16 electrodes) to interface with the ATLAS Neurophysiology System.
The ADPT-NKSS-Y-B is an adapter cable that allows signals from an electrode inte
The ADPT-NKSS-Y-B is an adapter cable that allows signals from an electrode interface by Nihon Kohden Corporation to be recorded by both the JE-120A Amplifier by Nihon Kohden Corporation and the JE-212A Amplifier by Nihon Kohden Corporation.
The High Density Tether is a flexible cable to connect the High Density Junction
The High Density Tether is a flexible cable to connect the High Density Junction Box to the ATLAS Neurophysiology System. The High Density Tether is a component of the ATLAS Neurophysiology System.
The High Density Tether is a flexible cable to connect the High Density Junction
The High Density Tether is a flexible cable to connect the High Density Junction Box to the ATLAS Neurophysiology System. The High Density Tether is a component of the ATLAS Neurophysiology System.
The Active Ground Drive generates the Active Ground signal based on input select
The Active Ground Drive generates the Active Ground signal based on input selected in the Data Acquisition Software.
The ADPT-NKSS-Y-C is an adapter cable that allows signals from an electrode inte
The ADPT-NKSS-Y-C is an adapter cable that allows signals from an electrode interface by Nihon Kohden Corporation to be recorded by both the JE-120A Amplifier by Nihon Kohden Corporation and the JE-212A Amplifier by Nihon Kohden Corporation.
The ATLAS TOPHAT Adapter cable allows signals from a Micromed JB TOPHAT electrod
The ATLAS TOPHAT Adapter cable allows signals from a Micromed JB TOPHAT electrode interface to be recorded by the ATLAS Neurophysiology System.
The ATLAS Combo Board combines the functionality of the ATLAS Hybrid Input Board
The ATLAS Combo Board combines the functionality of the ATLAS Hybrid Input Board and ATLAS DRS-36 Board onto a single board, meaning the Digital Reference Selection and Analog to Digital Conversion for 32 electrodes is combined into a single slot.
The High Density Tether is a flexible cable to connect the High Density Junction
The High Density Tether is a flexible cable to connect the High Density Junction Box to the ATLAS Neurophysiology System. The High Density Tether is a component of the ATLAS Neurophysiology System.
Passive adapter with touchproof inputs and a high density output for adapting 3r
Passive adapter with touchproof inputs and a high density output for adapting 3rd party electrode interface cables to the ATLAS Neurophysiology System. Version "F" is labeled for connections to electrodes 321-384.
The ATLAS TTL Isolator is an optional configuration of the ATLAS Neurophysiology
The ATLAS TTL Isolator is an optional configuration of the ATLAS Neurophysiology System that isolates two of the four 8 bit TTL Ports on the front of the system.
The High Density Tether is a flexible cable to connect the High Density Junction
The High Density Tether is a flexible cable to connect the High Density Junction Box to the ATLAS Neurophysiology System. The High Density Tether is a component of the ATLAS Neurophysiology System.
The ADPT-NKSS-DRS-A is an adapter cable that allows signals from an electrode in
The ADPT-NKSS-DRS-A is an adapter cable that allows signals from an electrode interface to be recorded by not only the ATLAS Neurophysiology System (K110967) by Neuralynx, Inc. but also the JE-120A Amplifier (K113117), by Nihon Kohden Corporation.
The ATLAS High Density Signal Splitter (HDSS) is an adapter that allows signals
The ATLAS High Density Signal Splitter (HDSS) is an adapter that allows signals from an electrode interface to be recorded by not only the ATLAS Neurophysiological System (K110967) by Neuralynx, Inc. but also the Quantum Amplifier by Natus Corporation. The ATLAS HDSS shares the buffered outputs from the electrode interface and routes them to both systems to be digitized.
The ATLAS Analog Isolator is an optional accessory of the ATLAS Neurophysiology
The ATLAS Analog Isolator is an optional accessory of the ATLAS Neurophysiology System that isolates 16 analog channels on the system.
The ATLAS HC Headbox is a clinical headbox that allows a CA-105 waveguardâ„¢ EEG C
The ATLAS HC Headbox is a clinical headbox that allows a CA-105 waveguardâ„¢ EEG Cap by ANT Neuro to interface with the ATLAS Neurophysiology System by Neuralynx.
cortiQ PRO is a system that uses g.HIamp to map high-gamma broad band brain acti
cortiQ PRO is a system that uses g.HIamp to map high-gamma broad band brain activity while running an experimental paradigm. The software helps to identify electrode positions coding differences in brain activity by means of experimental paradigm. cortiQ PRO performs the signal analysis in real-time and compares the high-gamma broad band activity during specific tasks. Then it performs a statistical analysis and visualizes electrodes coding the information that are statistically significant. It is abstracted from technical details of data acquisition, channel order and signal processing assuring robust and efficient measurements.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.USBamp is inteded to measuring, recording and analysis of electrical activ
The g.USBamp is inteded to measuring, recording and analysis of electrical activity of the brain (EEG) and/or through the attachment of multiple electrodes at various locations to aid in monitoring and diagnosis as routinely found in clinical settings for the EEG.
The g.USBamp is inteded to measuring, recording and analysis of electrical activ
The g.USBamp is inteded to measuring, recording and analysis of electrical activity of the brain (EEG) and/or through the attachment of multiple electrodes at various locations to aid in monitoring and diagnosis as routinely found in clinical settings for the EEG.
Cervello Software for use with Blackrock Neuromed systems, version 1.04 and all
Cervello Software for use with Blackrock Neuromed systems, version 1.04 and all sub releases.
JackBox with 64 Common Reference Inputs, with 6 of them to be switched to Bipola
JackBox with 64 Common Reference Inputs, with 6 of them to be switched to Bipolar, to be used with CERVELLO 64 Series Headboxes
JackBox with 32 Common Reference Inputs, 21 arranged as Head Shape, 8 to be swit
JackBox with 32 Common Reference Inputs, 21 arranged as Head Shape, 8 to be switched to Bipolar, to be used with CERVELLO 32 Series Headboxes