CR1000 Manual - Campbell Scientific

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Section 8. Operation is reduced to ±2.5 Vdc, whereas input limits are always ±5 Vdc. Hence for nonnegligible DIFF signals, "input limits" is more descriptive than "common-mode range." Note Two sets of numbers indicate analog channel assignments. When differential channels are identified, analog channels are numbered 1 - 8. Each differential channel has two inputs: high (H) and low (L). Single-ended channels are identified by the number set 1-16. Caution Sustained voltages in excess of ±8.6 V input to the analog input channels can temporarily corrupt all analog measurements. Warning Sustained voltages in excess of ±16 V input to the analog channels will damage CR1000 circuitry. 8.1.2.2 Reducing Error Read More! Consult the following white papers at www.campbellsci.com for indepth treatment of the advantages of differential and single-ended measurements: Preventing and Attacking Measurement Noise Problems, Benefits of Input Reversal and Excitation Reversal for Voltage Measurements, and Voltage Measurement Accuracy, Self-Calibration, and Ratiometric Measurements. Deciding whether a differential or single-ended measurement is appropriate for a particular sensor requires sorting through trade-offs of accuracy and precision, available measurement hardware, and fiscal constraints. In broad terms, analog voltage is best measured differentially because these measurements include noise reduction features, listed below, that are not included in single-ended measurements. • Passive Noise Rejection o No voltage reference offset o Common-mode noise rejection Rejects capacitively coupled noise • Active Noise Rejection o Input reversal Review Input and Excitation Reversal (p. 282) for details Doubles input reversal signal integration time Reasons for using single-ended measurements, however, include: • Sensor is not designed for differential measurement. • Sensor number exceeds available differential channels. Sensors with a high signal-to-noise ratio, such as a relative-humidity sensor with a full-scale output of 0 to 1000 mV, can normally be measured single-ended without a significant reduction in accuracy or precision. 276
Section 8. Operation 8.1.2.3 Measurement Sequence Sensors with a low signal-to-noise ratio, such as thermocouples, should normally be measured differentially. However, if the measurement to be made does not require high accuracy or precision, such as thermocouples measuring brush-fire temperatures, a single-ended measurement may be appropriate. If sensors require differential measurement, but adequate input channels are not available, an analog multiplexer should be acquired to expand differential input capacity. Refer to the appendix Analog Multiplexers (p. 560) for information concerning available multiplexers. Because a single-ended measurement is referenced to CR1000 ground, any difference in ground potential between the sensor and the CR1000 will result in an error in the measurement. For example, if the measuring junction of a copperconstantan thermocouple being used to measure soil temperature is not insulated, and the potential of earth ground is 1 mV greater at the sensor than at the point where the CR1000 is grounded, the measured voltage will be 1 mV greater than the true thermocouple output, or report a temperature that is approximately 25°C too high. A common problem with ground-potential difference occurs in applications wherein external signal conditioning circuitry is powered by the same source as the CR1000, such as an ac mains power receptacle. Despite being tied to the same ground, differences in current drain and lead resistance may result in a different ground potential between the two instruments. Hence, a differential measurement should be made on the analog output from an external signal conditioner. Differential measurements MUST be used when the low input is known to be different from ground. The CR1000 measures analog voltage by integrating the input signal for a fixed duration and then holding the integrated value during the successive approximation analog-to-digital (A/D) conversion. The CR1000 can make and store measurements from up to 8 differential or 16 single-ended channels at the minimum scan interval of 10 ms (frequency of 100 Hz) using fast-measurementprogramming techniques as discussed in Fast Measurement Rates (p. 231). The maximum conversion rate is 2000 per second (2 kHz) for measurements made on a single channel. The timing of CR1000 measurements is precisely controlled. The measurement schedule is determined at compile time and loaded into memory. This schedule sets interrupts that drive the measurement task. Using two different voltage measurement instructions with the same voltage range takes the same measurement time as using one instruction with two repetitions. Note This is not the case with legacy CR10(X), 21X, CR23X, and CR7(X) dataloggers. Using multiple measurement "reps" in these dataloggers reduced overall measurement time. Several parameters in CRBasic voltage measurement instructions VoltDiff() and VoltSE() vary the sequence and timing of measurements. Table CRBasic Parameters Varying Measurement Sequence and Timing (p. 278) lists these parameters. 277
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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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Appendix A. CRBasic Programming Ins
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Appendix C. Serial Port Pinouts C.1
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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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