Campbell RAWS-H Remote Instrukcja Obsługi

RAWS-H RemoteAutomated Weather StationRevision: 4/12Copyright © 2006-2012Campbell Scientific, Inc.

RAWS-H Remote Automated Weather Station faces south (northern hemisphere) minimizing the chance of shading from other weather station structures. Ref

RAWS-H Remote Automated Weather Station 4.3 Solar Radiation The solar radiation sensor is connected to the RAWS connector panel “SOLAR RAD SDI-12” co

RAWS-H Remote Automated Weather Station 4.6 Barometric Pressure The barometric pressure sensor (part #CS100-QD) is mounted inside the RAWS environmen

RAWS-H Remote Automated Weather Station matter; either lead can be connected to either terminal. The CH100 charger/regulator has two functions: 1) bl

RAWS-H Remote Automated Weather Station connectors. The battery red lead connects to the positive battery terminal and the black lead connects to the

RAWS-H Remote Automated Weather Station batteries connected. The battery connections are diode isolated; however, if one of the batteries fails, it c

RAWS-H Remote Automated Weather Station FIGURE 5.4-1. GOES Transmitter 5.4.2 Wiring, GOES Transmitter (part #TX320) The GOES transmitter (part #TX

RAWS-H Remote Automated Weather Station 5.5 Voice Radio Interface 5.5.1 General Description, Voice Radio Interface (part #VSP3) The DACOM Voice Ra

RAWS-H Remote Automated Weather Station 5.5.3 Troubleshooting, Voice Radio Interface (part #VSP3) If a problem with the voice radio interface (part #

RAWS-H Remote Automated Weather Station 5.6.2 Wiring, CR1000 Keyboard/Display (part #CR1000KD) The CR1000 Keyboard/Display (part #CR1000KD) connects

RAWS-H Remote Automated Weather Station 5.7.2 Wiring, CR1000 Datalogger The CR1000 datalogger is mounted inside the RAWS environmental enclosure and

RAWS-H Remote Automated Weather Station station. More difficult maintenance, such as sensor calibration, sensor performance testing (i.e., bearing to

RAWS-H Remote Automated Weather Station FIGURE 8.1-1. Magnetic declination for the contiguous United States 16

RAWS-H Remote Automated Weather Station FIGURE 8.1-2. A declination angle East of True North (positive) is subtracted from 360 (0) degrees to find T

RAWS-H Remote Automated Weather Station 8.1.2 USGS Web Calculator The USGS provides an easy way of determining declination of a specific site. Since

Appendix A. Equipment Wiring and Connector Panel Jumper Location FIGURE A-1. RAWS-H equipment wiring A-1

Appendix A. Equipment Wiring and Connector Panel Jumper Location FIGURE A-2. RAWS-H connector panel schematic 1 of 2 A-2

Appendix A. Equipment Wiring and Connector Panel Jumper Location FIGURE A-3. RAWS-H connector panel schematic 2 of 2 A-3

Appendix A. Equipment Wiring and Connector Panel Jumper Location Page A-2 P22 Jumper 1 to OpenA-4 FIGURE A-4. RAWS-H connector

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

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

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

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

RAWS-H Table of Contents ii 5.6 CR1000 Keyboard/Display... 12 5.6.1 General Descrip

RAWS-H Remote Automated Weather Station 1. Introduction The RAWS environmental enclosure can be used for configuring a custom Remote Automated Weathe

RAWS-H Remote Automated Weather Station CR1000KD packed in foam (may go here) FIGURE 1-2. Inside Environmental Enclosure (optional equipment shown)

RAWS-H Remote Automated Weather Station 2. Getting Started Set up and test your station before field deployment. NOTE Keep this manual and the CR10