CR1000 Manual - Campbell Scientific

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Section 7. Installation Scan(100,mSec,0,0) 'Simulate measurement by exciting channel VX1/EX1 ExciteV(Vx1,mV,0) 'Make the calibrated measurement VoltSE(RelH2OContent,1,mV2500,6,1,0,250,Multiplier,Offset) 'Perform a calibration if CalMode = 1 FieldCal(3,RelH2OContent,1,Multiplier,Offset,CalMode,KnownWC,1,30) 'If there was a calibration, store it into a data table CallTable(CalHist) NextScan EndProg 7.8.1.6 FieldCalStrain() Demonstration Program Strain-gage systems consist of one or more strain gages, a resistive bridge in which the gage resides, and a measurement device such as the CR1000 datalogger. The FieldCalStrain() instruction facilitates shunt calibration of straingage systems and is designed exclusively for strain applications wherein microstrain is the unit of measure. The FieldCal() instruction (FieldCal() Demonstration Programs (p. 153) ) is typically used in non-microstrain applications. Shunt calibration of strain-gage systems is common practice. However, the technique provides many opportunities for misapplication and misinterpretation. This section is not intended to be a primer on shunt-calibration theory, but only to introduce use of the technique with the CR1000 datalogger. Campbell Scientific strongly urges users to study shunt-calibration theory from other sources. A thorough treatment of strain gages and shunt-calibration theory is available from Vishay at: http://www.vishaypg.com/micro-measurements/stress-analysis-straingages/calculator-list/ Campbell Scientific applications engineers also have resources that may assist users with strain-gage applications. FieldCalStrain() shunt-calibration concepts: 1. Shunt calibration does not calibrate the strain gage itself. 2. Shunt calibration does compensate for long leads and non-linearity in the resistive bridge. Long leads reduce sensitivity because of voltage drop. FieldCalStrain() uses the known value of the shunt resistor to adjust the gain (multiplier / span) to compensate. The gain adjustment (S) is incorporated by FieldCalStrain() with the manufacturer's gage factor (GF), becoming the adjusted gage factor (GF adj ), which is then used as the gage factor in StrainCalc(). GF is stored in the CAL file and continues to be used in subsequent calibrations. Non-linearity of the bridge is compensated for by selecting a shunt resistor with a value that best simulates a measurement near the range of measurements to be made. Strain-gage manufacturers typically specify and supply a range of resistors available for shunt calibration. 3. Shunt calibration verifies the function of the CR1000. 162
Section 7. Installation 4. The zero function of FieldCalStrain() allows the user to set a particular strain as an arbitrary zero, if desired. Zeroing is normally done after the shunt calibration. Zero and shunt options can be combined through a single CR1000 program. The following program is provided to demonstrate use of FieldCalStrain() features. If a strain gage configured as shown in figure Quarter-Bridge Strain- Gage Schematic (p. 163) is not available, strain signals can be simulated by building the simple circuit, substituting a 1000-Ω potentiometer for the strain gage. To reset calibration tests, use the support software File Control (p. 454) menu to delete .cal files, and then send the demonstration program again to the CR1000. Case: A 1000-Ω strain gage is placed into a resistive bridge at position R1. The resulting circuit is a quarter-bridge strain gage with alternate shunt-resistor (Rc) positions shown. Gage specifications indicate that the gage factor is 2.0 and that with a 249-kΩ shunt, measurement should be about 2000 microstrain. Send CRBasic example FieldCalStrain() Calibration Demo (p. 164) as a program to a CR1000 datalogger. Figure 49: Quarter-bridge strain-gage schematic with RC-resistor shunt 163
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CR1000 Measurement and Control Syst
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Assistance Products may not be retu
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Appendix A. CRBasic Programming Ins
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Appendix C. Serial Port Pinouts C.1
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Index 1 12V Terminal...............
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Index Communications Memory Errors
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Index Expression...................
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Index IP Information...............
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Index PanelTemp....................
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Index TCDiff ......................
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