The MCE100C is an extremely high input impedance, low noise differential amplifier that accurately amplifies signals derived from micro-electrodes. A number of selectable options make the module useful for general-purpose recording of cortical, muscle and nerve action/resting potentials (see NERVE1 Nerve Chamber) or cellular recordings with the optional use of input capacity compensation and a current clamp. Cable shield drives for input signals can be configured for voltage following (for reduced input capacitance) or simply grounded (for low feedback noise).
The MCE100C includes manual controls for input capacity compensation (100 pF) and clamp (I bias) current zeroing. In addition, the MCE100C incorporates an external voltage control to vary the clamp current proportionally to the control voltage (100 mV/nA).
When performing voltage measurements using Ion Selective Microelectrodes, the adjacent shield output, associated with either the Vin+ or Vin- input, is the buffered output of the input signal (1x gain) at the Vin+ or Vin- port. These shield outputs can be used to measure reference electrode voltages (against a remote non-polarizable Ag/AgCl -indifferent- electrode) and the output of the MCE100C can be used to measure the differential voltages between a pair of ISM electrodes, one of them being the reference.
For very accurate (less than ±10 mV error) reference or differential voltage measurements, it's important to first calibrate out amplifier offset voltages by shorting the various inputs together to obtain a true 0 volt input for each measurement type.
An MP150 D/A output channel can drive this external voltage control to change clamp currents automatically during recording. The MCE100C also includes a clamp current monitor output so the clamp current can easily be recorded by another MP150 input channel.
The MCE100C will function with an MP100 System, but an MP150 Systemis recommended due to the module's wide operational bandwidth; contact BIOPAC for details.
For general-purpose recording, without input capacity compensation or a current clamp, use standard shielded or unshielded electrode leads terminating in Touchproof sockets. Add simple input capacity compensation and current clamp control by connecting the respective signal ports to the [Vin+] input of the MCE100C using the JUMP100C jumper connectors. For the best performance and shielding, use the MCEKITC to interface your micro-electrode lead cable to the MCE100C.
Current Clamping can be enabled/disabled, by connecting/disconnecting the "I CLMP" port to either differential input of the MCE100C. Negative Capacity Compensation can be enabled/disabled, by connecting/disconnecting the "NEG C" port to either differential input of the MCE100C.
±3 fA (typical), ±100 fA (maximum) Note: Current Clamping and Negative Capacity Compensation Disabled
Z (input) Differential or Common mode:
10 E15 Ohm
Capacitance Compensation (Neg):
Input (0-100pF) - manual control I Clamp (I CLMP port): Adjustable (±100 nA) - voltage control
Clamp Control:
Input - 3.5mm phone jack (100 mV/nA)
I Clamp Monitor:
Output - 3.5mm phone jack (100 mV/nA)
Signal Source:
Micro-electrodes
Weight:
350 grams
Dimensions:
4 cm (wide) x 11 cm (deep) x 19 cm (high)
Gain & Voltage Range:
Gain Setting
Input Vin (mV)
10
±1000
50
±200
200
±50
1000
±10
IMPORTANT USAGE NOTE—Although the MCE100C will function with an MP100 System, an MP150 Systemis recommended due to the module's wide operational bandwidth. Contact BIOPAC for details.
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