MED64-Basic

MED64-Basic

Basic system suitable for all applications (Acute slices, Cultured cells, Slice cultures)

MED64-Basic System is user-friendly microelectrode array (MEA) system for in vitro extracellular electrophysiology. It features with the industry’s most sensitive MEA system, providing high-quality reliable data. Created by Panasonic, the MED64 has been on market for 20 years and has hundreds of users and publications worldwide.

System Configuration
(1) MED Probe MED Probe
(1) MED Connector
(MED-C03 / MED-CP04)
(1) MED64 Head Amplifier
(MED-A64HE1S)
Amplifier_Head_th
(1) MED64 Main Amplifier
(MED-A64MD1)
Amplifier_Main_th
(1) Mobius Software Mobius_icon
(1) Data acquisition PC  Spacer_th

Features

  • Acquire signal from 64 electrodes simultaneously.
  • Stimulation through any of the 64 electrodes (up to 2 electrodes simultaneously) using internal stimulator.
  • Unrivaled signal-to-noise ratio of 0.8 μV RMS noise level.
  • Record inside of a humidified incubator.
  • Large current-driven stimulation via any electrode.
  • High-quality evoked signal without interference of stimulus artifacts.
  • One system can be used for multiple experiments with its amplifier’s broad acquisition bandwidth and analog low pass/high pass filter.
  • Analyze data online during your experiment or offline after.
  • Suitable for acute slices, slice cultures, and cell cultures.
  • Low-cost upgrade to the MED64-Allegro or Quad II System.
Specifications
Number of channels / sample
64
RMS Noise (Typical)
*Short-circuited:
14 nV/ √Hz

* MED-515A input:
0.8 μV (f < 3 kHz)
1.2 μV (f < 5 kHz)
1.8 μV (f < 10 kHz)
Number of samples
1
Gain
X 200-2170
Acquisition bandwidth
0.1Hz – 10 kHz
Analog low-cult filter
0.1, 1, 10, 100 Hz
No. of stimulator channel
2
Analog high-cut filter
1.0, 2.0, 2.5, 5.0, 7.5, 10 kHz
Stimulus output format
Current-driven
Input impedance
100 MΩ
Max. output current
+/- 200 μA
Output impedance
NA
Signal output
Resolution
16 bit
Output format
USB
Sampling rate
Up to 20 kHz / channel
Enquire

Enquiry

Lorem ipsum dolor