CR1000 Manual - Campbell Scientific

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Section 8. Operation 8.1.2.6 Offset Voltage Compensation Analog measurement circuitry in the CR1000 may introduce a small offset voltage to a measurement. Depending on the magnitude of the signal, this offset voltage may introduce significant error. For example, an offset of 3 μV on a 2500- mV signal introduces an error of only 0.00012%; however, the same offset on a 0.25-mV signal introduces an error of 1.2%. The primary source of offset voltage is the Seebeck effect, which arises at the junctions of differing metals in electronic circuits. Secondary sources of offset voltages are return currents incident to powering external devices through the CR1000. Return currents create voltage drop at the ground terminals that may be used as signal references. CR1000 measurement instructions incorporate techniques to cancel these unwanted offsets. The table Analog Measurement Instructions and Offset Voltage Compensation Options (p. 282) lists available options. Table 53. Analog Measurements and Offset Voltage Compensation CRBasic Voltage Measurement Instruction VoltDiff() VoltSe() TCDiff() TCSe() BrHalf() BrHalf3W() Therm107() Therm108() Therm109() BrHalf4W() BrFull() BrFull6W() AM25T() Input Reversal (RevDiff = True) Excitation Reversal (RevEx = True) Measure Ground Reference Offset (MeasOff = True) Background Calibration (RevDiff = False) (RevEx = False) (MeasOff = False) * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * 8.1.2.6.1 Input and Excitation Reversal Reversing inputs (differential measurements) or reversing polarity of excitation voltage (bridge measurements) cancels stray voltage offsets. For example, if there is a 3-μV offset in the measurement circuitry, a 5-mV signal is measured as 5.003 mV. When the input or excitation is reversed, the measurement is -4.997 mV. Subtracting the second measurement from the first and dividing by two cancels the offset: 5.003 mV - (-4.997 mV) = 10.000 mV 10.000 mV / 2 = 5.000 mV. 282
Section 8. Operation 8.1.2.6.2 Ground Reference Offset Voltage 8.1.2.6.3 Background Calibration 8.1.2.7 Integration When the CR1000 reverses differential inputs or excitation polarity, it delays the same settling time after the reversal as it does before the first measurement. So, there are two delays per channel when either RevDiff or RevEx is used. If both RevDiff and RevEx are True, four measurements are performed; positive and negative excitations with the inputs one way and positive and negative excitations with the inputs reversed. To illustrate, 1. the CR1000 switches to the channel 2. sets the excitation, settles, measures, 3. reverses the excitation, settles, measures, 4. reverses the excitation, reverses the inputs, settles, measures, 5. reverses the excitation, settles, measures. There are four delays per channel measured. The CR1000 processes the four submeasurements into a single reported value. In cases of excitation reversal, excitation "on time" for each polarity is exactly the same to ensure that ionic sensors do not polarize with repetitive measurements. Read More! A white paper entitled "The Benefits of Input Reversal and Excitation Reversal for Voltage Measurements" is available at www.campbellsci.com. When MeasOff is enabled (= True), the CR1000 measures the offset voltage of the ground reference prior to each VoltSe() or TCSe() measurement. This offset voltage is subtracted from the subsequent measurement. If RevDiff, RevEx, or MeasOff is disabled (= False) in a measurement instruction, offset voltage compensation is still performed, albeit less effectively, by using measurements from automatic background calibration. Disabling RevDiff, RevEx, or MeasOff speeds up measurement time; however, the increase in speed comes at the cost of accuracy 1) because RevDiff, RevEx, and MeasOff are more effective techniques, and 2) because background calibrations are performed only periodically, so more time skew occurs between the background calibration offsets and the measurements to which they are applied. Note Disable RevDiff, RevEx, and MeasOff when CR1000 module temperature and return currents are slow to change or when measurement duration must be minimal to maximize measurement frequency. Read More! See White Paper "Preventing and Attacking Measurement Noise Problems" at www.campbellsci.com. The CR1000 incorporates circuitry to perform an analog integration on voltages to be measured prior to the A/D conversion. The magnitude of the frequency response of an analog integrator is a SIN(x) / x shape, which has notches (transmission zeros) occurring at 1 / (integer multiples) of the integration 283
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CR1000 Measurement and Control Syst
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Appendix A. CRBasic Programming Ins
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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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