Campbell-scientific CS700 Tipping Bucket Rain Gage and CS700H Heated R Manual do Utilizador

CS700 Tipping Bucket Rain Gageand CS700H Heated Rain GageRevision: 5/11Copyright © 1995-2011Campbell Scientific, Inc.

CS700 and CS700H Rain Gage FIGURE 3-1. CM240 Mounting Bracket 24"08"FIGURE 3-2. Typical Rain Gage Installation 6

CS700 and CS700H Rain Gage 3.5”1.5”24”14” FIGURE 3-3. Pedestal Base Options 3.3 Leveling Level the rain gage after mounting it. To l

CS700 and CS700H Rain Gage Funnel Tipping Bucket Assembly Housing Bullseye Level Base Base Screw FIGURE 3-4. Main Components of the CS700 3.4 CS7

CS700 and CS700H Rain Gage 4.1 CS700 Connections The CS700 is typically wired to a datalogger’s pulse channel (see Table 4-1). TABLE 4-1. CS700 Wiri

CS700 and CS700H Rain Gage 4.2 CS700H Heated Rain Gage Connections The CS700H sensor cable can be wired to the datalogger’s pulse channels (see Table

CS700 and CS700H Rain Gage The power cable is wired to the power supply (see Table 4-5). Figure 4-2 shows the terminals for connecting the power cabl

CS700 and CS700H Rain Gage 5. Datalogger Programming This section is for users who write their own datalogger programs. A datalogger program to meas

CS700 and CS700H Rain Gage 5.1.1.2 CR200(X) Series Pulse Channel Example 'CR200 Series 'CS700 program 'Declare Variables and Units Pu

CS700 and CS700H Rain Gage 3: Set Active Storage Area (P80) 1: 1 Final Storage Area 1 2: 101 Array ID 4: Real Time (P77) 1: 1220

CS700 and CS700H Rain Gage 5.1.2.2 CR200(X) Series Control Port Example 'CR200 ' A 20 kOhm pull up resistor is required to read a switch

Warranty and Assistance PRODUCTS MANUFACTURED BY CAMPBELL SCIENTIFIC, INC. are warranted by Campbell Scientific, Inc. (“Campbell”) to be free from def

CS700 and CS700H Rain Gage 5: Sample (P70) 1: 1 Reps 2: 1 Loc [ Rain_mm ] *Table 2 Program 01: 0.0000 Execution Interval (seconds)

CS700 and CS700H Rain Gage Units BattV = Volts Units CH700HA =inch Units CH700HB =inch 'Define Data Tables DataTable(OneMin,True,-1) DataInter

CS700 and CS700H Rain Gage 6. Troubleshooting 6.1 Precipitation Symptom: No Precipitation 1. Check that the sensor is wired to the Pulse Channel s

CS700 and CS700H Rain Gage To access the above components, dismantle the CS700 using the following procedure: 1. Remove the housing assembly from the

CS700 and CS700H Rain Gage 2. Separate the filter/siphon assembly from the funnel by pushing the filter while pulling the siphon (see Figure 7-2). Do

CS700 and CS700H Rain Gage 3. Disassemble the filter/siphon assembly by doing the following (see Figure 7-3): (a) Unscrew nut (b) Lightly press stem

CS700 and CS700H Rain Gage 7.2 Reassembling the CS700 1. Screw cap on stem, finger tighten only (see Figure 7-3). 2. Push stem into siphon body (se

CS700 and CS700H Rain Gage 8. Calibration The sensor is factory calibrated; recalibration is not required unless damage has occurred or the adjustmen

CS700 and CS700H Rain Gage 24

Appendix A. CS700H Operation Factory settings have been set to adequately measure precipitation during cold precipitation events. Changing these set

CS700 and CS700H Table of Contents PDF viewers note: These page numbers refer to the printed version of this document. Use the Adobe Acrobat® bookma

Appendix A. CS700H Operation When the CS700H is “not Active” the status LED flashes every 1.5 seconds. When the ambient temperature sensor detects th

Appendix A. CS700H Operation When snow is last detected, a timer is left running, to keep the heater cycling so that any snow built up on the funnel

Appendix A. CS700H Operation A.3 Status LED The Status LED, within the ambient temperature sensor probe, flashes to indicate the mode that the CS700

Appendix A. CS700H Operation TABLE A-3. Snow Sensor Power Options Mode (X20 command) Snow Enabled X22 command Description 0 Snow sensor doesn’t

Appendix A. CS700H Operation TABLE A-4. SDI-12 V1.2 COMPLIANT COMMAND SET – Go to www.sdi-12.org Name Command Response Break Continuous spacing

Appendix A. CS700H Operation Notes: (1) Identification has the following syntax: a12HydrServTBHeat4.112345<CR><LF> -- ------------

Appendix A. CS700H Operation TABLE A-5. Special X Commands User ID aX04! aX04+12345! – X04 Command Get the transducer ID using the aD0! Command Set

Appendix A. CS700H Operation Cycle Enable aX29! aX29+0! aX29+1! – X29 Command (Only operates if “External Control” set to 1) Get the Cycle Enable sta

Appendix A. CS700H Operation A.5.2 Operating Modes The CS700H can be put into Automatic or Manual Operation Modes. Table A-6 describes how the mode

Appendix A. CS700H Operation A.5.3 Command Examples For the following examples, the SDI-12 address is set to “0”. <CR> = Carriage Return and &

CS700 and CS700H Table of Contents ii Appendix A. CS700H Operation... A-1 A.1 High Power Operation .

Appendix A. CS700H Operation A-12

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

CS700 and CS700H Rain Gage 1. General Description The CS700 tipping bucket rain gage is manufactured by Hydrological Services Pty. Ltd. (Model TB-3),

CS700 and CS700H Rain Gage FIGURE 1-1. The CS700 (left) and CS700H (right). 2. Specifications Orifice Diameter: 7.87 in (200 mm) Measureme

CS700 and CS700H Rain Gage 2.1 Heated Rain Gage Snow Sensor and Heater Operating Temperature Range: -20° to +5°C Output: SDI-12 Voltage Requiremen

CS700 and CS700H Rain Gage 2.1.1 Phoenix Contact Power Supply (AC option only) Model Name: Quint-PS/1AC/24DC/10 Input data Nominal input voltage:

CS700 and CS700H Rain Gage General data Width: 2.4 in. (60 mm) Height: 5.1 in. (130 mm) Depth: 4.9 in. (125 mm) Weight: 2.4 lb. (1.1 kg) Efficie