5) Continue to increase the gain until you can easily position the line ith the
input offset control. If you cannot see a signal on your recorder or if the signal
is “pegged” all the ay to the top or bottom of the soft are range, disconnect
the transducer immediately and refer to the troubleshooting section of this
manual.
6) No that you have your signal positioned, deflect your transducer by an
amount appropriate to your experiment. For example, if you have connected a
blood pressure transducer, apply approximately 250mmHg, or if you have
connected a force transducer, hang a eight from it hich is approximately
equal to the maximum force you expect to see.
7) Does the trace go off the screen? If so, reduce the gain. If the deflection on the
screen appears small (less than 20% of the full screen or paper), increase the
gain. You are no ready to calibrate the transducer. Refer to the manual that
came ith your iWorx data acquisition system for the best procedure to
accomplish this.
Operation of devices without resistive bridges, or e citation voltages
The high input impedance of the ETH-256 in Bridge mode makes it useful for
transducer types other than transducers ith resistive bridges. Piezoelectric, pH, or
any device ith a signal output less than ±5VDC can be applied to the inputs in
differential or single-ended modes. Be careful to shield the cable and source hen
using high-impedance devices.
Using a pH sensor with the ETH-256:
1) Set the ETH-256 gain s itch to x1 and the lo -pass filter setting to 50 Hz.
2) Put the electrode in pH7.0 buffer. Observe the output of the ETH-256 on your
recording device. Use the input offset to adjust the output to zero.
3) Use a pH10 buffer to do the second measurement. Select a gain on the ETH-
256 that allo s the deflection from zero produced by the change of buffer to be
seen. Refer to the manual that came ith your iWorx data acquisition device for
the best procedure to accomplish this.
Operation in Bio Mode
With the LED of the 0.03, 0.3, or 3 Hz high-pass filter illuminated, the amplifier is
ready to record biopotentials. Any of these three settings ill AC-couple the input to
the amplifier. AC-coupling selectively removes the DC component of signals being
recorded. For example, hen recording an ECG, the electrodes placed on the
surface of the skin ill generate a relatively small galvanic (steady state) potential
bet een them. This small galvanic potential is many times the amplitude of the
ECG signal being recorded. If the input is AC-coupled to the amplifier, the galvanic
potential is selectively removed from the complete signal and the ECG signal
remains. All the gain required to record the ECG can no be used. The 0.03, 0.3,
or 3 Hz filters ill also remove lo frequency AC signals, like the artifacts due to
breathing or movement.
ETH-256 Amplifier with Isolated Headstage
iWor Systems, Inc.
.i orx.com
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