Ion Selective Electrodes

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

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

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

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

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

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

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

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

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

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