Campbell-scientific WINDSONIC 2-D Sonic Wind Sensors Manual de usuario

WindSonic Two-Dimensional Sonic AnemometerRevision: 8/13 Copyright © 2004-2013Campbell Scientific, Inc.

WindSonic Two-Dimensional Sonic Anemometer • The black outer jacket of the cable is Santoprene® rubber. This compound was chosen for its resistance

WindSonic Two-Dimensional Sonic Anemometer 5. Mount the crossarm to the tripod or tower. 6. Orient the WindSonic so that the colored North marker ar

WindSonic Two-Dimensional Sonic Anemometer 4.3 Use Short Cut Program Generator for Windows (SCWin) to Program Datalogger and Generate Wiring Diagram

WindSonic Two-Dimensional Sonic Anemometer 3. Select WindSonic4 (SDI-12) Two Dimensional Ultrasonic Wind Sensor and select the right arrow (in center

WindSonic Two-Dimensional Sonic Anemometer 5. Select the outputs and then select finish. 6. Wire according to the wiring diagram generated by SCWi

WindSonic Two-Dimensional Sonic Anemometer 5. Overview The WindSonic is an ultrasonic anemometer for measuring wind direction and wind speed. It use

WindSonic Two-Dimensional Sonic Anemometer 6. Specifications Features: • Low maintenance—no moving parts significantly reduces maintenance cost and

WindSonic Two-Dimensional Sonic Anemometer 6.4 Campbell Scientific Factory Default Settings for the WindSonic1 The default settings for the WindSonic

WindSonic Two-Dimensional Sonic Anemometer White DotFIGURE 6-1. White dot indicating that the WindSonic1 has the newer settings 7. Operation 7.1 S

WindSonic Two-Dimensional Sonic Anemometer 7.2 Wiring 7.2.1 Serial Wiring (COMn) CRBasic dataloggers (CR800 series, CR1000, and CR3000) support seri

WindSonic Two-Dimensional Sonic Anemometer 7.2.3 SDI-12 Wiring The WindSonic4 interfaces to a Campbell Scientific datalogger using SDI-12. SDI-12 is

WindSonic Two-Dimensional Sonic Anemometer TABLE 7-5. CRBasic Datalogger OperatingSystems that Support RS-232 Communications and SerialInRecord() Da

WindSonic Two-Dimensional Sonic Anemometer FieldNames ("diag_10_TOT") Totalize (1,n,IEEE4,nmbr_bytes_rtrnd<>0) FieldNames ("

WindSonic Two-Dimensional Sonic Anemometer Totalize (1,n,IEEE4,diag<>2) FieldNames ("diag_2_TOT") Totalize (1,n,IEEE4,diag<&g

WindSonic Two-Dimensional Sonic Anemometer The WindSonic4 returns three data points; the datalogger program must allocate three consecutive input loca

WindSonic Two-Dimensional Sonic Anemometer 7.4.1 Example CR10X (Edlog) Datalogger Program for Measuring a WindSonic4 TABLE 7-10. Wiring for CR10(X)

WindSonic Two-Dimensional Sonic Anemometer 8: If (X<=>F) (P89) 1: 3 X Loc [ ws_diag ] 2: 2 <> 3: 0 F 4: 19 Set Inte

WindSonic Two-Dimensional Sonic Anemometer 17: If (X<=>F) (P89) 1: 3 X Loc [ ws_diag ] 2: 1 = 3: 8 F 4: 29 Set Intermed.

WindSonic Two-Dimensional Sonic Anemometer *Table 3 Subroutines End Program -Input Locations- 1 wnd_dir 2 wnd_spd 3 ws_diag 4 samples 7.4.2 Exampl

WindSonic Two-Dimensional Sonic Anemometer Totalize (1,one,diag<>NaN) FieldNames ("no_data_TOT") EndTable BeginProg one = 1 Scan

Warranty “PRODUCTS MANUFACTURED BY CAMPBELL SCIENTIFIC, INC. are warranted by Campbell Scientific, Inc. (“Campbell”) to be free from defects in materi

WindSonic Two-Dimensional Sonic Anemometer Totalize (1,one,IEEE4,diag<>10) FieldNames ("diag_10_TOT") Totalize (1,one,IEEE4,diag<

WindSonic Two-Dimensional Sonic Anemometer • To activate the SDI-12 Transparent Mode, on Control Port p, enter pX and press the <enter> key. T

WindSonic Two-Dimensional Sonic Anemometer 7.5.2 Table-Based Edlog Dataloggers • Connect a single WindSonic4 to the datalogger Control Port p as des

WindSonic Two-Dimensional Sonic Anemometer FIGURE 7-2. SDI-12 Transparent Mode on an Edlog table-based datalogger using control port 8 and changing

WindSonic Two-Dimensional Sonic Anemometer press the <enter> key. The WindSonic4 will respond with the current SDI-12 address. • To change the

WindSonic Two-Dimensional Sonic Anemometer (refer to the Assistance section at the beginning of this manual for the process of returning a product to

WindSonic Two-Dimensional Sonic Anemometer 28 10. Siting References The following references give detailed information on siting wind direction and w

Appendix A. WindSonic Orientation A.1 Determining True North and Sensor Orientation The orientation of the WindSonic “North Arrow Markers” is found

Appendix A. WindSonic Orientation Declination angles east of True North are considered negative, and are subtracted from 360 degrees to get True Nort

Appendix A. WindSonic Orientation A.2 Online Magnetic Declination Calculator The magnetic declination calculator web calculator published by NOAA’s

Assistance Products may not be returned without prior authorization. The following contact information is for US and international customers residing

Appendix A. WindSonic Orientation A-4

Appendix B. Updating an Older Program for Measuring a WindSonic1 With the New Settings In February 2013, the settings of the WindSonic1 sensor were

Appendix B. Updating an Older Program for Measuring a WindSonic1 With the New Settings New CR1000 Program (Section 7.3.1) (Public variables change.

Appendix B. Updating an Older Program for Measuring a WindSonic1 With the New Settings New CR1000 SDM-SIO1 Program (from Section 7.3.2) (Public varia

Appendix B. Updating an Older Program for Measuring a WindSonic1 With the New Settings B-4

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Table of Contents PDF viewers: These page numbers refer to the printed version of this document. Use the PDF reader bookmarks tab for links to spec

Table of Contents 7.5 Changing the SDI-12 Address Using LoggerNet and a Datalogger .. 22 7.5.1 Array-Based Edlog Dataloggers...

Table of Contents 7-8. WindSonic Data Format Option...15 7-9. Datalogger Operating Systems tha

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WindSonic Two-Dimensional Sonic Anemometer 1. Introduction The WindSonic1 and WindSonic4 are two-dimensional ultrasonic anemometers for measuring wi