CR1000 Manual - Campbell Scientific

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Section 8. Operation Error Calculations with Input Reversal = True µV error = gain term + offset term = (830.7 µV * 0.12%) + (1.5 * 0.67 µV + 1.0 µV) = 0.997 µV + 2.01 µV = 3.01 µV (= 0.071 °C) Error Calculations with Input Reversal = False µV Error = gain term + offset term = (830.7 µV * 0.12%) + (3 * 0.67 µV + 2.0 µV) = 0.997 µV + 4.01 µV = 5.01 µV (= 0.12 °C) Input Error Examples: Type K Thermocouple @ 1300°C Error in the temperature due to inaccuracy in the measurement of the thermocouple voltage increases at temperature extremes, particularly when the temperature and thermocouple type require using the ±200|250 mV range. For example, assume type K (chromel-alumel) thermocouples are used to measure temperatures around 1300°C. These examples demonstrate that at temperature extremes, input offset error is much less than input gain error because the use of a larger input range is required. Conditions CR1000 module temperature, ‐25 to 50°C Temperature = 1300°C Reference temperature = 25°C Delta T (temperature difference) = 1275°C Thermocouple output multiplier at 1300°C = 34.9 µV °C ‐1 Thermocouple output = 1275°C * 34.9 µV °C ‐1 = 44500 µV Input range = ±250 mV Error Calculations with Input Reversal = True µV error = gain term + offset term = (44500 µV * 0.12%) + (1.5 * 66.7 µV + 1.0 µV) = 53.4 µV + 101.0 µV = 154 µV (= 4.41 °C) 308
Section 8. Operation Error Calculations with Input Reversal = False µV error = gain term + offset term = (44500 µV * 0.12%) + (3 * 66.7 µV + 2.0 µV) = 53.4 µV + 200 µV = 7.25 µV (= 7.25 °C) 8.1.4.1.4 Ground Looping Error When the thermocouple measurement junction is in electrical contact with the object being measured (or has the possibility of making contact), a differential measurement should be made to avoid ground looping. 8.1.4.1.5 Noise Error The typical input noise on the ±2_5-mV range for a differential measurement with 16.67 ms integration and input reversal is 0.19 μV RMS. On a type-T thermocouple (approximately 40 μV/°C), this is 0.005°C. 8.1.4.1.6 Thermocouple Polynomial Error Note This is an RMS value; some individual readings will vary by greater than this. NIST Monograph 175 gives high-order polynomials for computing the output voltage of a given thermocouple type over a broad range of temperatures. To speed processing and accommodate the CR1000 math and storage capabilities, four separate 6th-order polynomials are used to convert from volts to temperature over the range covered by each thermocouple type. The table Limits of Error on CR1000 Thermocouple Polynomials (p. 309) gives error limits for the thermocouple polynomials. Table 66. Limits of Error on CR1000 Thermocouple Polynomials TC Type Range °C Limits of Error °C Relative to NIST Standards T -270 to 400 -270 to -200 +18 @ -270 -200 to -100 ±0.08 -100 to 100 ±0.001 100 to 400 ±0.015 J -150 to 760 ±0.008 -100 to 300 ±0.002 E -240 to 1000 -240 to -130 ±0.4 309
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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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Section 11. Glossary 11.1 Terms ac
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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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