CR1000 Manual - Campbell Scientific

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Section 8. Operation Figure 103: Circuit to limit control port input to 5 Vdc 8.1.9 Field Calibration 8.1.10 Cabling Effects 8.1.10.1 Analog Sensor Cables Read More! Field Calibration of Linear Sensors (FieldCal) (p. 151) has complete information. Calibration increases accuracy of a measurement device by adjusting its output, or the measurement of its output, to match independently verified quantities. Adjusting a sensor output directly is preferred, but not always possible or practical. By adding FieldCal() or FieldCalStrain() instructions to the CR1000 program, a user can easily adjust the measured output of a linear sensors by modifying multipliers and offsets. Sensor cabling can have significant effects on sensor response and accuracy. This is usually only a concern with sensors acquired from manufacturers other than Campbell Scientific. Campbell Scientific sensors are engineered for optimal performance with factory-installed cables. Cable length in analog sensors is most likely to affect the signal settling time. For more information, see Signal Settling Time (p. 286). 8.1.10.2 Pulse Sensors Because of the long interval between switch closures in tipping bucket rain gages, appreciable capacitance can build up between wires in long cables. A built-up charge can cause arcing when the switch closes, shortening switch life. As shown in figure Current Limiting Resistor in a Rain Gage Circuit (p. 324), a 100-ohm resistor is connected in series at the switch to prevent arcing. This resistor is installed on all rain gages currently sold by Campbell Scientific. 324
Section 8. Operation Figure 104: Current limiting resistor in a rain gage circuit 8.1.10.3 RS-232 Sensors RS-232 sensor cable lengths should be limited to 50 feet. 8.1.10.4 SDI-12 Sensors The SDI-12 standard allows cable lengths of up to 200 feet. Campbell Scientific does not recommend SDI-12 sensor lead lengths greater than 200 feet; however, longer lead lengths can sometimes be accommodated by increasing the wire gage or powering the sensor with a second 12-Vdc power supply placed near the sensor. 8.1.11 Synchronizing Measurements Timing of a measurement is usually controlled relative to the CR1000 clock. When sensors in a sensor network are measured by a single CR1000, measurement times are synchronized, often within a few milliseconds, depending on sensor number and measurement type. Large numbers of sensors, cable length restrictions, or long distances between measurement sites may require use of multiple CR1000s. Techniques outlined below enable network administrators to synchronize CR1000 clocks and measurements in a CR1000 network. Care should be taken when a clock-change operation is planned. Any time the CR1000 clock is changed, the deviation of the new time from the old time may be sufficient to cause a skipped record in data tables. Any command used to synchronize clocks should be executed after any CallTable() instructions and timed so as to execute well clear of data output intervals. Techniques to synchronize measurements across a network include: 1. LoggerNet (p. 77) – when reliable telecommunications are common to all CR1000s in a network, the LoggerNet automated clock check provides a simple time synchronization function. Accuracy is limited by the system clock on the PC running the LoggerNet server. Precision is limited by network transmission latencies. LoggerNet compensates for latencies in many telecommunications systems and can achieve synchronies of
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CR1000 Measurement and Control Syst
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Assistance Products may not be retu
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Table of Contents Section 5. System
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Table of Contents A.21 User Defined
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Table of Contents CRBasic Example 6
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Section 1. Introduction Italic —
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Section 2. Cautionary Statements 30
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Section 3. Initial Inspection 32
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Section 9. Maintenance 9.1 Moisture
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Section 10. Troubleshooting Table 1
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Section 11. Glossary 11.1 Terms ac
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Section 11. Glossary Cache Data The
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Section 11. Glossary CR10X Older ge
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Section 11. Glossary watchdog timer
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Appendix A. CRBasic Programming Ins
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Appendix B. Status Table and Settin
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Appendix C. Serial Port Pinouts C.1
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Appendix C. Serial Port Pinouts Tab
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Appendix D. ASCII / ANSI Table Amer
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Appendix D. ASCII / ANSI Table Dec
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Appendix E. FP2 Data Format FP2 dat
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Appendix F. Other Campbell Scientif
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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 Runtime Errors...............
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Index TCDiff ......................
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CR1000 Manual - Campbell Scientific

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