Tissue conductance measurements can be performed with the MCE100C using either AC or DC excitation currents.
Use surface, needle or micro-electrodes to interface to the tissue. Use four electrodes to perform standard tetrapolar measurements-two to drive current and two to monitor voltage.
See More...Monitor the excitation current using the current monitor output.
For tissue conductance, use the Equation Generator to divide the current signal by the monitored voltage. For tissue resistance, invert the tissue conductance.
The MCE100C can measure tissue resistances between 1,000 and 10,000,000 ohms.
Hardware Bundles are complete solutions for the specified application. Choose your preferred platform and bundle, then click "Request Pricing" to request an estimate, add/remove items, or complete purchase. If you have questions about specific items, click through to the product web page for details and specifications, or contact your Local Sales contact.
MP160 System
Wired | Tissue Conductance Measurement
MP160 System with microelectrode amplifier and needle electrodes
MP160 System
MP160 System
Animal | Tissue Conductance Measurement
MP160 System with microelectrode amplifier and needle electrodes
MP160 System
Easily Add EEG to Your Research Study! B-Alert X-Series Systems offer acquisition of high fidelity wireless EEG plus ECG, and AcqKnowledge® adds powerful analysis tools, including automated scoring and reporting options. Choose X10 for 9-channels EEG+1 biopotential or X24 for 20-channel EEG+1 biopotential. Together, a B-Alert X-Series System and AcqKnowledge provide researchers with a turnkey, easily procured system solution […]
View AllThese researchers studied EEG using BIOPAC equipment and software, adding to over 6,500 citations from the scientific community. We look forward to even more studies using BIOPAC for EEG in 2021! Can Computers Feel Empathy? When a person thinks of empathetic computers, most likely a fictional computer character in a movie comes to mind, like J.A.R.V.I.S. […]
BIOPAC’s comprehensive Introductory ECG Guide addresses fundamental to advanced concerns to optimize electrocardiography data recording and analysis. Topics include: ECG Complex; Electrical and Mechanical Sequence of a Heartbeat; Systole and Diastole; Configurations for Lead I, Lead II, Lead III, 6-lead ECG, 12-lead ECG, precordial leads; Ventricular Late Potentials (VLPs); ECG Measurement Tools; Automated Analysis Routines for extracting, […]
Read All