CR1000 Manual - Campbell Scientific

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Section 8. Operation greater than the extension-wire range. In any case, errors can arise if temperature gradients exist within the junction box. Figure Diagram of a Thermocouple Junction Box (p. 312) illustrates a typical junction box wherein the reference junction is the CR1000. Terminal strips are a different metal than the thermocouple wire. Thus, if a temperature gradient exists between A and A' or B and B', the junction box will act as another thermocouple in series, creating an error in the voltage measured by the CR1000. This thermoelectric-offset voltage is also a factor when the junction box is used as the reference junction. This offset can be minimized by making the thermal conduction between the two points large and the distance small. The best solution when extension-grade wire is being connected to thermocouple wire is to use connectors which clamp the two wires in contact with each other. When an external-junction box is also the reference junction, the points A, A', B, and B' need to be very close in temperature (isothermal) to measure a valid reference temperature, and to avoid thermoelectric-offset voltages. The box should contain elements of high thermal conductivity, which will act to rapidly equilibrate any thermal gradients to which the box is subjected. It is not necessary to design a constant-temperature box. It is desirable that the box respond slowly to external-temperature fluctuations. Radiation shielding must be provided when a junction box is installed in the field. Care must also be taken that a thermal gradient is not induced by conduction through the incoming wires. The CR1000 can be used to measure the temperature gradients within the junction box. Figure 96: Diagram of a thermocouple junction box 8.1.5 Pulse Figure Pulse-Sensor Output Signal Types (p. 39) illustrates pulse input types measured by the CR1000. Figure Switch-Closure Pulse Sensor (p. 313) is a generalized schematic showing connection of a pulse sensor to the CR1000. The CR1000 features two dedicated pulse-input channels, P1 through P2, and eight digital I/O channels, C1 through C8, for measuring frequency or pulse output sensors. As shown in table Pulse-Input Channels and Measurements (p. 39), all CR1000 pulse-input channels can be measured with CRBasic instruction PulseCount(). PulseCount() has various parameters to customize it to specific applications. Digital I/O ports C1 through C8 can also be measured with the TimerIO() instruction. PulseCount() instruction functions include returning counts or frequency on frequency or switch-closure signals. TimerIO() instruction has additional capabilities. Its primary function is to measure the time between state transitions. Note Consult CRBasic Editor Help for more information on PulseCount() and TimerIO() instructions. 312
Section 8. Operation Figure 97: Pulse-sensor output signal types Figure 98: Switch-closure pulse sensor Table 69. Pulse-Input Channels and Measurements Pulse-Input Channel Input Type Data Option CRBasic Instruction • High-frequency • Counts P1, P2 • Low-level ac • Switch-closure • Frequency • Run average of frequency PulseCount() • Counts • High-frequency • Frequency C1, C2, C3, C4, C5, C6, C7, C8 • Switch-closure • Low-level ac (with LLAC4 Low-Level AC Conversion Module) • Running average of frequency • Interval • Period PulseCount() TimerIO() • State 313
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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 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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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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