Campbell Scientific CR10 CR10 Measurement and Control - Page 224

LIST OF TABLES 5. TELECOMMUNICATIONS 5.1-1 Telecommunications Commands 5-3 6. 9 PIN SERIAL INPUT/OUTPUT 6.1-1 6.6-1 6.7-'l 6.7-2 SD Addresses SC32A Pin Description DTE Pin Configuration 7. MEASUREMENTPROGRAMMINGEXAMPLES 7.16-1 7.17-1 7.17-2 7.',t7-3 Coefficient Entry Format for Parosci. "T" Series Pressure Transducer Instruction 30.........7 9. INPUT/OUTPUT INSTRUCTIONS 9-1 Input Voltage Ranges and Codes 9-1 9-2 Pulse Count Configuration Codes 9-3 Thermocouple Type Codes 9- 9-4 Voltage and Temperature Ranges for Thermocouples lf the Reference is 20'C 9- 9-5 Port Configuration Option Codes 9-6 SDI-12 Command Codes ......9-1 12. PROGRAM CONTROL INSTRUCTIONS 12-1 12-2 12-3 Loop Example: Block Data Transform............ 12-4 12-5 ........... 1 13. CR1O MEASUREMENTS 13.3-1 Exponential Decay, Percent of Maximum Error vs. Time in Units of r 1 Scientific 13.3-2 Properties of Three Belden Lead Wires Used by Campbell 1 13.3-3 Settfing Error, in Degrees, tor O24A Wind Direction Sensor vs. Lead Length 13- 13.3-4 Measured Peak Excitation Transients for 1000 Foot Lengths of Three Belden Lead Wires Used by CampbellScientific ........ 1 13.3-5 Summary of Input Settling Data for Campbell Scientific Resistive Sensors 1 13.3-6 Maximum Lead Length vs. Error for Campbell Scientific Resistive Sensors 1 13.3-7 13.4-1 13.4-2 Source Resistances and Signal Levels for YSI #44032 Thermistor OoC) Configurations Shown in Figure 13.3-7 (2V Excitation 13-1 Limits of Error for Thermocouple Wire (Reference Junction at 13-1 Limits of Error on CRIO Thermocouple Output Linearization ..... 13-1 13.4-3 13.4-4 13.5-1 13.5-2 Ref. Temp. Compensation Range & Linearization Error Relative to NBS Standards........ 13-1 Example of Errors in Thermocouple Temperature.......... 13-1 Comparison of Bridge Measurement Instructions .........13-1 Calculating Resistance Values from Bridge Measurement 1 LT.2