Campbell-scientific RAWS-F Remote Automated Weather Station for Fire W Uživatelský manuál

RAWS-F RemoteAutomated Weather Stationfor Fire WeatherRevision: 12/13 Copyright © 2006-2013Campbell Scientific, Inc.

RAWS-F Remote Automated Weather Station for Fire Weather RF antennaTE525 (adjust level)CS300-QD is behind the TE525 Yagi antenna for TX320 satellite

RAWS-F Remote Automated Weather Station for Fire Weather 2. Getting Started Set up and test your station before field deployment (Appendix A). Level

RAWS-F Remote Automated Weather Station for Fire Weather VSP3 Vosponder RF Radio (1) Connect battery (2) Turn on CH100 CR1000KD packed in foam (may g

RAWS-F Remote Automated Weather Station for Fire Weather Use the CR1000KD Keyboard Display to see the “Public Variables” shown in TABLE 2-1. NOTE •

RAWS-F Remote Automated Weather Station for Fire Weather 19 Clockgood True or False: True after GPS fix and CR1000 clock has been set to match TX32

RAWS-F Remote Automated Weather Station for Fire Weather 3.3 Precipitation A rain gage should be located over an open level area covered by short gra

RAWS-F Remote Automated Weather Station for Fire Weather A station log should be maintained for each weather station that includes equipment model, se

RAWS-F Remote Automated Weather Station for Fire Weather 4.2.2 Wiring The HC2S3 attaches to the connector labeled TEMP/RH, which is color coded orang

RAWS-F Remote Automated Weather Station for Fire Weather FIGURE 4-2. Rain gage and CS300-QD pyranometer 4.3.2 Wiring The TE525-LQ attaches to the c

RAWS-F Remote Automated Weather Station for Fire Weather 4.3.5 Troubleshooting .3.5 Troubleshooting If a problem is suspected, check the sensor cabl

RAWS-F Remote Automated Weather Station for Fire Weather 4.4.2 Wiring The CS300-LQ attaches to the connector labeled SOLAR RAD SDI-12; this connector

RAWS-F Remote Automated Weather Station for Fire Weather 4.5 Wind Speed and Direction .5 Wind Speed and Direction 4.5.1 Wind Sensor 4.5.1 Wind Sen

RAWS-F Remote Automated Weather Station for Fire Weather 4.5.1.2 Wiring The 034B-LQ attaches to the connector labeled WS/WD; this connector is color

RAWS-F Remote Automated Weather Station for Fire Weather FIGURE 4-5. 2-D WindSonic Blue north marker arrow 4.5.2.2 Wiring The WindSonic4-LQ attache

RAWS-F Remote Automated Weather Station for Fire Weather 4.5.2.5 Troubleshooting If a problem is suspected, check the sensor cable. Disconnect the c

RAWS-F Remote Automated Weather Station for Fire Weather 4.6.3 Maintenance Since the CS100 is semi-sealed, minimum maintenance is required. Change t

RAWS-F Remote Automated Weather Station for Fire Weather FIGURE 4-7. CS516-QD Fuel Moisture/Fuel Temperature 4.7.2 Wiring The CS516-LQ attaches to

RAWS-F Remote Automated Weather Station for Fire Weather 4.7.4 Calibration For most applications, it is unnecessary to calibrate the CS516-QD Fuel Mo

RAWS-F Remote Automated Weather Station for Fire Weather 5.1.3 Maintenance An occasional cleaning of the glass improves the solar panel’s efficiency.

RAWS-F Remote Automated Weather Station for Fire Weather 5.2.2 Wiring The leads from the RAWS connector panel “BATT CHARGER/SOLAR PANEL” connector CO

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

RAWS-F Remote Automated Weather Station for Fire Weather No voltage output implies a bad solar panel, regulator, or battery. If problems persist, obt

RAWS-F Remote Automated Weather Station for Fire Weather 5.3.5 Troubleshooting If a problem is suspected, measure the +12 V and Ground terminal on t

RAWS-F Remote Automated Weather Station for Fire Weather FIGURE 5-2. GOES transmitter 5.4.2 Wiring The TX320 is mounted inside the RAWS environmen

RAWS-F Remote Automated Weather Station for Fire Weather 5.4.4 Calibration No calibration is required. 5.4.5 Troubleshooting If a problem is suspect

RAWS-F Remote Automated Weather Station for Fire Weather 5.5.3 Maintenance There are no user-serviceable parts on the CR1000KD. No maintenance is re

RAWS-F Remote Automated Weather Station for Fire Weather FIGURE 5-5. Printed circuit board wiring panel connector ID 5.6.2 Wiring The CR1000 is mou

RAWS-F Remote Automated Weather Station for Fire Weather 7. References General guidelines for site selection are listed below. EPA, (1987): On-Site

RAWS-F Remote Automated Weather Station for Fire Weather FIGURE 8-1. Magnetic declination for the contiguous United States 29

RAWS-F Remote Automated Weather Station for Fire Weather FIGURE 8-2. A declination angle east of True North (positive) is subtracted from 360 (0) de

RAWS-F Remote Automated Weather Station for Fire Weather FIGURE 8-4. USGS web calculator In the example above the declination for Logan, UT is 12º 2

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

RAWS-F Remote Automated Weather Station for Fire Weather 32

Appendix A. Assemble the RAWS-F Station Alignment notchAlignment slotMay be shipped unfoldedLower mastAlignment slotUpper mastAlignment pin A-1

Appendix A. Assemble the RAWS-F Station Bulls-eye levelSecure lower mastAlignment nutAlignment notch facing inLevel adjustment leverFace this leg t

Appendix A. Assemble the RAWS-F Station Secure bucket to crossarmBucket alignment pinsBucket level adjustmentCrossarm alignment pin Secure crossarm

Appendix A. Assemble the RAWS-F Station Wind sensor alignment pinAttach cableSecure wind set A-4

Appendix A. Assemble the RAWS-F Station Enclosure hanger points A-5

Appendix A. Assemble the RAWS-F Station Solar panel should face the equator. A-6

Appendix A. Assemble the RAWS-F Station A-7

Appendix A. Assemble the RAWS-F Station Optional transport cases A-8

Appendix A. Assemble the RAWS-F Station Wind sensor alignm ent tool A-9

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

Appendix A. Assemble the RAWS-F Station A-10

Appendix B. Transport Cases (Optional) Hard transport case (optional) B-1

Appendix B. Transport Cases (Optional) Enclosure Solar panel (not shown) GPS antenna (optional) TE525-QD 41003-5 and HC2S3-QD GOES antenna elements

Appendix B. Transport Cases (Optional) Solar panel Wind sensor Hard transport case “base” layer (2 of 2) B-3

Appendix B. Transport Cases (Optional) Tripod crossarm GOES antenna (optional) Hard transport case “lid” (1 of 1) Note: optional components also sh

Appendix B. Transport Cases (Optional) Canvas transport case (optional) B-5

Appendix B. Transport Cases (Optional) Tripod Grounding assembly and tripod stakes Masts GOES and GPSmounting arm (optional) Canvas transport case N

Campbell Scientific Companies Campbell Scientific, Inc. (CSI) 815 West 1800 North Logan, Utah 84321 UNITED STATES www.campbellsci.com • info@campbel

Table of Contents 4.5.2 2-D WindSonic (optional)... 14 4.5.2.1 General Description...

Table of Contents 5.6.3 Maintenance...27 5.6.4 Calibration...

Table of Contents iv 4-5. SDI-12 Connector (color coded yellow).... 15 4-6. CS100-QD Wiring...

RAWS-F Remote Automated Weather Station for Fire Weather 1. Introduction The RAWS-F Fire Weather Quick Deployment Station is a lightweight, pre-conf