Campbell CS475 Manuel

CS475, CS476 and CS477 Radar Water Level SensorRevision: 7/13 Copyright © 2009-2013Campbell Scientific, Inc.

CS475, CS476, and CS477 Radar Water Level Sensor 3. Initial Inspection When unpacking the equipment, do the following: • Unpack the unit in a clean,

CS475, CS476, and CS477 Radar Water Level Sensor TABLE 4-2. Radiation Beam Spread for CS475 (10° Beam Angle) Distance in Meters Diameter of Footpri

CS475, CS476, and CS477 Radar Water Level Sensor CS475 CS476/CS477 12 FIGURE 4-1. Polarization markings (see TABLE 4-4 for label descriptions) TABL

CS475, CS476, and CS477 Radar Water Level Sensor TABLE 4-5. Example of a Start False Echo Learn Command Initial Command Response 0XSFEL+2.500! Whe

CS475, CS476, and CS477 Radar Water Level Sensor Subsequent Command Command Response 0D0! Where the first zero is the sensor address. This is the s

CS475, CS476, and CS477 Radar Water Level Sensor 3. Under Generic Measurements, select SDI-12 Sensor then click the right arrow to add it to the list

CS475, CS476, and CS477 Radar Water Level Sensor 5. Choose the outputs and then select Finish. 6. Wire according to the wiring diagram generated b

CS475, CS476, and CS477 Radar Water Level Sensor These radar sensors output a digital SDI-12 signal to indicate distance and stage. This output is ac

CS475, CS476, and CS477 Radar Water Level Sensor 5.1 Components and Hardware The radar sensor consists of an integrated microwave transmitter and sen

CS475, CS476, and CS477 Radar Water Level Sensor 6. Specifications Features: • FCC compliant • Ideal for areas where submersed sensors can be damag

CS475, CS476, and CS477 Radar Water Level Sensor Accuracy CS475: ±5 mm (±0.2 in) CS476: ±3 mm (±0.1 in) CS477: ±15 mm (±0.6 in) Resolution:

CS475, CS476, and CS477 Radar Water Level Sensor 6.3 Physical See FIGURE 6-2 and FIGURE 6-3 for dimensions. Rating: NEMA 4x Housing Material: Alum

CS475, CS476, and CS477 Radar Water Level Sensor FIGURE 6-3. CS476/CS477 dimensions 86 mm (3.4 in) 86 mm (3.4 in) 95 mm 585 mm (23 in) 430 m(1

CS475, CS476, and CS477 Radar Water Level Sensor 7. Installation Before installing the radar sensor, you must consider all the suggested guidelines f

CS475, CS476, and CS477 Radar Water Level Sensor 7.2 Sensor Alignment 7.2.1 Vertical Use a user-supplied bubble level or the 25619 bubble level to m

CS475, CS476, and CS477 Radar Water Level Sensor TABLE 7-1. Wiring Diagram Color Description CR800, CR850, CR1000, CR3000, CR10(X), CR510,

CS475, CS476, and CS477 Radar Water Level Sensor 7.5.1 CRBasic Dataloggers that are programmed with CRBasic include the CR200(X) series, CR800, CR850

CS475, CS476, and CS477 Radar Water Level Sensor 7.5.1.1 Example Program 'CR1000 Series Datalogger 'Declare the variable for the water le

CS475, CS476, and CS477 Radar Water Level Sensor Parameter 5 — Multiplier Parameter 6 — Offset Edlog allocates only one of the input locations needed

CS475, CS476, and CS477 Radar Water Level Sensor 8. Diagnostics, Repair, and Maintenance 8.1 Testing Procedure The test procedures for the sensor re

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

CS475, CS476, and CS477 Radar Water Level Sensor • Stage—the water level as measured in meters or feet. This measurement is calculated using the Wat

CS475, CS476, and CS477 Radar Water Level Sensor • Manufacturer’s Model Number: PS61 (CS475), PS62 (CS476), or PS63 (CS477) • Three Digit Firmware V

CS475, CS476, and CS477 Radar Water Level Sensor TABLE 8-4 shows an example of checking the CRC. TABLE 8-4. Checking CRC Example Initial Command R

CS475, CS476, and CS477 Radar Water Level Sensor 8.2 Diagnostics and Repair The radar sensor is extremely reliable, but problems can occur during ope

CS475, CS476, and CS477 Radar Water Level Sensor The electronics module is replaced by doing the following steps (see FIGURE 8-1 and TABLE 8-5): 1. U

CS475, CS476, and CS477 Radar Water Level Sensor 123345 FIGURE 8-1. Changing the electronics (see TABLE 8-5 for label descriptions) TABLE 8-5. Descr

CS475, CS476, and CS477 Radar Water Level Sensor 28

Appendix A. Replacing the Cable The sensor is fitted with a cable for connection to the datalogger. The following procedure is for replacing the or

Appendix A. Replacing the Cable 123(A)(C)456789101112(D)13(B)1415161718 FIGURE A-1. Connecting the instrument housing (see TABLE A-1 for description

Appendix B. SDI-12 Commands/ Changing Settings The SDI-12 commands are entered using the 25616, Adjustment/Display Module, or the terminal emulator

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

Appendix B. SDI-12 Commands/Changing Settings TABLE B-1. SDI-12 Commands Function SDI-12 Command Address Query ?! Send Identification aI! Acknowl

Appendix B. SDI-12 Commands/Changing Settings B.1 SDI-12 Command Descriptions B.1.1 Start False Echo Learn The Start False Echo Learn command is an

Appendix B. SDI-12 Commands/Changing Settings TABLE B-3. Example of Setting Address Initial Command Response 0A1! Where 0 is the original addres

Appendix B. SDI-12 Commands/Changing Settings The factory default water conditions are set to 1, which is smooth. The water condition settings shoul

Appendix B. SDI-12 Commands/Changing Settings Change this setting by first using the aXSPOM+n! command (where n=1 (on), 2 (auto), or 0 (off)) followe

Appendix B. SDI-12 Commands/Changing Settings are used to enter transparent mode with PC200W and PC400 software after accessing the terminal emulator

Appendix B. SDI-12 Commands/Changing Settings B.2.3 CR1000 Datalogger Example 1. Connect a single sensor to the datalogger as follows: • White to

Appendix B. SDI-12 Commands/Changing Settings will change its address and the datalogger will respond with the new address. To exit SDI-12 transpare

Appendix B. SDI-12 Commands/Changing Settings FIGURE B-4. SDI-12 transparent mode on CR10X datalogger using control port 1 and changing SDI-12 addr

Appendix B. SDI-12 Commands/Changing Settings 8. To change the SDI-12 address, enter the command aAb!; where a is the current address from the above

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 B. SDI-12 Commands/Changing Settings B-12

Appendix C. FCC/IC Equipment Authorization (USA/Canada only) The CS475, CS476, and CS477 are FCC compliant (FCC IC # M01PULS616263). Modifications

Appendix C. FCC/IC Equipment Authorization (USA/Canada only) C-2

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

Table of Contents 8.1.2 Check Unit Response ... 22 8.1.3 Check for Valid Data...

Table of Contents B-4. SDI-12 transparent mode on CR10X datalogger using control port 1 and changing SDI-12 address from 0 to 1...

Table of Contents iv

CS475, CS476, and CS477 Radar Water Level Sensor 1. Introduction The CS475, CS476, and CS477 are radar-ranging sensors that monitor the water level