CR1000 Manual - Campbell Scientific

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Section 7. Installation 'Global variables (Used only outside subroutine by choice) 'Declare Counter in the Main Scan. Public counter(2) As Long 'Declare Product of PI * counter(2). Public pi_product(2) As Float 'Global variable (Used only in subroutine by choice) 'For / Next incrementor used in the subroutine. Public i_sub As Long 'Declare Data Table DataTable(pi_results,True,-1) Sample(1,counter(),IEEE4) EndTable 'Declare Subroutine 'Declares j(4) as local array (can only be used in subroutine) Sub ProcessSub (j(2) As Long,OutVar(2) As Float) For i_sub = 1 To 2 j(i_sub) = j(i_sub) + 1 'Processing to show functionality OutVar(i_sub) = j(i_sub) * 4 * ATN(1) '(Tip: 4 * ATN(1) = pi to IEEE4 precision) Next i_sub EndSub BeginProg counter(1) = 1 counter(2) = 2 Scan(1,Sec,0,0) 'Pass Counter() array to j() array, pi_pruduct() to OutVar() Call ProcessSub (counter(),pi_product()) CallTable pi_results NextScan EndProg 7.8.5 Wind Vector The WindVector() instruction processes wind-speed and direction measurements to calculate mean speed, mean vector magnitude, and mean vector direction over a data storage interval. Measurements from polar (wind speed and direction) or orthogonal (fixed East and North propellers) sensors are supported. Vector direction and standard deviation of vector direction can be calculated weighted or unweighted for wind speed. 7.8.5.1 OutputOpt Parameters In the CR1000 WindVector() instruction, the OutputOpt parameter defines the processed data that are stored. All output options result in an array of values, the elements of which have _WVc(n) as a suffix, where n is the element number. The array uses the name of the Speed/East variable as its base. table OutputOpt Options (p. 189) lists and describes OutputOpt options. 188
Section 7. Installation Table 29. OutputOpt Options Option 0 1 2 Description (WVc() is the Output Array) WVc(1): Mean horizontal wind speed (S) WVc(2): Unit vector mean wind direction (Θ1) WVc(3): Standard deviation of wind direction σ(Θ1). Standard deviation is calculated using the Yamartino algorithm. This option complies with EPA guidelines for use with straight-line Gaussian dispersion models to model plume transport. WVc(1): Mean horizontal wind speed (S) WVc(2): Unit vector mean wind direction (Θ1) WVc(1): Mean horizontal wind speed (S) WVc(2): Resultant mean horizontal wind speed (U) WVc(3): Resultant mean wind direction (Θu) WVc(4): Standard deviation of wind direction σ(Θu). This standard deviation is calculated using Campbell Scientific's wind speed weighted algorithm. Use of the resultant mean horizontal wind direction is not recommended for straight-line Gaussian dispersion models, but may be used to model transport direction in a variable-trajectory model. 3 WVc(1): Unit vector mean wind direction (Θ1) 4 WVc(1): Unit vector mean wind direction (Θ1) WVc(2): Standard deviation of wind direction σ(Θu). This standard deviation is calculated using Campbell Scientific's wind speed weighted algorithm. Use of the resultant mean horizontal wind direction is not recommended for straight-line Gaussian dispersion models, but may be used to model transport direction in a variable-trajectory model. 7.8.5.2 Wind Vector Processing WindVector() uses a zero-wind-speed measurement when processing scalar wind speed only. Measurements at zero wind speed are not used in vector speed or direction calculations (vectors require magnitude and direction). This means, for example, that manually-computed hourly vector directions from 15-minute vector directions will not agree with CR1000-computed hourly vector directions. Correct manual calculation of hourly vector direction from 15-minute vector directions requires proper weighting of the 15-minute vector directions by the number of valid (non-zero wind speed) wind direction samples. Note Cup anemometers typically have a mechanical offset which is added to each measurement. A numeric offset is usually encoded in the CRBasic program to compensate for the mechanical offset. When this is done, a measurement will equal the offset only when wind speed is zero; consequently, additional code is often included to zero the measurement when it equals the offset so that WindVector() can reject measurements when wind speed is zero. Standard deviation can be processed one of two ways: 1) using every sample taken during the data storage interval (enter 0 for the Subinterval parameter), or 2) by averaging standard deviations processed from shorter sub-intervals of the datastorage interval. Averaging sub-interval standard deviations minimizes the effects of meander under light wind conditions, and it provides more complete information for periods of transition (see EPA publication "On-site Meteorological Program Guidance for Regulatory Modeling Applications"). 189
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CR1000 Measurement and Control Syst
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Table of Contents CRBasic Example 6
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Section 1. Introduction Italic —
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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 C. Serial Port Pinouts Tab
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Appendix D. ASCII / ANSI Table Amer
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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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CR1000 Manual - Campbell Scientific

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