CS215 Temperature and Relative Humidity Probe
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CS215 Temperature and Relative Humidity Probe Revision: 7/12 Copyright © 2005-2012 Campbell Scientific, Inc.
CS215 Temperature and Relative Humidity Probe Revision: 7/12 Copyright © 2005-2012 Campbell Scientific, Inc.
CS215 Temperature and Relative Humidity Probe
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... specific sections. 1. Use the PDF reader bookmarks tab for Measuring One Sensor Every 30 Seconds 15 7.4.3.5 CR10(X) Program Measuring a Sensor Every Minute........16 i Quickstart 2 4.1 Step 1 - CS215 Table of Contents PDF viewers: These page numbers refer to Program Datalogger and Generate Wiring Diagram 4 5. Specifications 7 6.1 Temperature Measurement 8 6.2 Relative Humidity 8 7. Installation 9 7.1 Siting...9 7.2 Assembly and...
... specific sections. 1. Use the PDF reader bookmarks tab for Measuring One Sensor Every 30 Seconds 15 7.4.3.5 CR10(X) Program Measuring a Sensor Every Minute........16 i Quickstart 2 4.1 Step 1 - CS215 Table of Contents PDF viewers: These page numbers refer to Program Datalogger and Generate Wiring Diagram 4 5. Specifications 7 6.1 Temperature Measurement 8 6.2 Relative Humidity 8 7. Installation 9 7.1 Siting...9 7.2 Assembly and...
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... when opening the shipping package to ensure the correct product and cable length are received. • The CS215 is shipped with a Campbell Scientific applications engineer. • Although the CS215 is rugged, it from the shield carefully, as the foam filter is easily broken if bent or knocked.... 3. This compound was chosen for its use inside buildings. • When removing the probe from a radiation shield,...
... when opening the shipping package to ensure the correct product and cable length are received. • The CS215 is shipped with a Campbell Scientific applications engineer. • Although the CS215 is rugged, it from the shield carefully, as the foam filter is easily broken if bent or knocked.... 3. This compound was chosen for its use inside buildings. • When removing the probe from a radiation shield,...
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... (reversing the removable portion if necessary) and gently insert the probe. 2. CAUTION Failure to secure the cable can lead to the mounting structure using the supplied U-bolt. CS215 Temperature and Relative Humidity Probe 4. Attach the radiation shield to blow back and forth in ...the tube stops it lightly grips the probe body. 3. To install the CS215, you will need: • 41305-5A 6-plate Radiation...
... (reversing the removable portion if necessary) and gently insert the probe. 2. CAUTION Failure to secure the cable can lead to the mounting structure using the supplied U-bolt. CS215 Temperature and Relative Humidity Probe 4. Attach the radiation shield to blow back and forth in ...the tube stops it lightly grips the probe body. 3. To install the CS215, you will need: • 41305-5A 6-plate Radiation...
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CS215 and 41303-5A Radiation Shield on a CM200 Series Crossarm 3 41303-5A CS215 Temperature and Relative Humidity Probe CS215 Tripod or Tower Mast FIGURE 4-1. CS215 and 41303-5A Radiation Shield on a tripod mast 41303-5A Tripod or Tower Mast CS215 CM200 Series Crossarm FIGURE 4-2.
CS215 and 41303-5A Radiation Shield on a CM200 Series Crossarm 3 41303-5A CS215 Temperature and Relative Humidity Probe CS215 Tripod or Tower Mast FIGURE 4-1. CS215 and 41303-5A Radiation Shield on a tripod mast 41303-5A Tripod or Tower Mast CS215 CM200 Series Crossarm FIGURE 4-2.
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Use SCWin Short Cut to Program Datalogger and Generate Wiring Diagram The simplest method for programming the datalogger to measure the CS215 is to use Campbell Scientific's SCWin Short Cut Program Generator. 1. Select a datalogger and scan interval. 4 Open Short Cut and click on New Program. 2. CS215 Temperature and Relative Humidity Probe 4.2 Step 2 -
Use SCWin Short Cut to Program Datalogger and Generate Wiring Diagram The simplest method for programming the datalogger to measure the CS215 is to use Campbell Scientific's SCWin Short Cut Program Generator. 1. Select a datalogger and scan interval. 4 Open Short Cut and click on New Program. 2. CS215 Temperature and Relative Humidity Probe 4.2 Step 2 -
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Select the desired units of the public variables. Units default to AirTC and RH that hold the air temperature and relative humidity measurements. Variables default to Deg C. 5 Define the name of measure. CS215 Temperature and Relative Humidity Probe 3. Select CS215 Temperature and Relative Humidity Sensor then click the right arrow to add it to the list of sensors to be measured. 4.
Select the desired units of the public variables. Units default to AirTC and RH that hold the air temperature and relative humidity measurements. Variables default to Deg C. 5 Define the name of measure. CS215 Temperature and Relative Humidity Probe 3. Select CS215 Temperature and Relative Humidity Sensor then click the right arrow to add it to the list of sensors to be measured. 4.
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... then select finish. 6. Each element is easily changed in the field. Choose the outputs for temperature and humidity, thus minimizing downtime and calibration costs. CS215 Temperature and Relative Humidity Probe 5. Wire according to the 6 The element is individually calibrated with the calibration corrections stored on the chip. Low power electronics within the...
... then select finish. 6. Each element is easily changed in the field. Choose the outputs for temperature and humidity, thus minimizing downtime and calibration costs. CS215 Temperature and Relative Humidity Probe 5. Wire according to the 6 The element is individually calibrated with the calibration corrections stored on the chip. Low power electronics within the...
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...: Sensirion SHT75; The probe is ordered. Lead length for more information. 6. The probe's cable can terminate in: • Pigtails that connect directly to a Campbell Scientific datalogger (option -PT). • Connector that attaches to www.campbellsci.com/prewired-enclosures for the CS215 is specified when the sensor... effect of the time response of dust and dirt on the chip 7 Table 5-1 gives the recommended lead lengths. CS215 Temperature and Relative Humidity Probe readings and presents the data via a 2 ft crossarm such as the CM202 Mast/Leg CM202 CM6 CM10 CM110 CM115...
...: Sensirion SHT75; The probe is ordered. Lead length for more information. 6. The probe's cable can terminate in: • Pigtails that connect directly to a Campbell Scientific datalogger (option -PT). • Connector that attaches to www.campbellsci.com/prewired-enclosures for the CS215 is specified when the sensor... effect of the time response of dust and dirt on the chip 7 Table 5-1 gives the recommended lead lengths. CS215 Temperature and Relative Humidity Probe readings and presents the data via a 2 ft crossarm such as the CM202 Mast/Leg CM202 CM6 CM10 CM110 CM115...
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see Appendix A) Accuracy (at 25°C): ±2% over 10 to 90%, ±4% over -40° to +70°C Response Time with Filter: 120 s (63% response time in air moving at 25°C, ±0.4°C over +5° to +40°C, ±0.9°C over 0 to +60°C; CS215 Temperature and Relative Humidity Probe 6.1 Temperature Measurement Operating Range: -40° to +70°C Accuracy: ±0.3°C at 1 m/s) Default Units: Degrees Celsius 6.2 Relative Humidity Operating Range: 0 to 100% RH (-20° to 100% Short Term Hysteresis:
see Appendix A) Accuracy (at 25°C): ±2% over 10 to 90%, ±4% over -40° to +70°C Response Time with Filter: 120 s (63% response time in air moving at 25°C, ±0.4°C over +5° to +40°C, ±0.9°C over 0 to +60°C; CS215 Temperature and Relative Humidity Probe 6.1 Temperature Measurement Operating Range: -40° to +70°C Accuracy: ±0.3°C at 1 m/s) Default Units: Degrees Celsius 6.2 Relative Humidity Operating Range: 0 to 100% RH (-20° to 100% Short Term Hysteresis:
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...from large paved areas. Sensors should be covered by short grass, or where grass does not grow, the natural earth surface. CS215 Temperature and Relative Humidity Probe NOTE The black outer jacket of holes to attach the shield it to a crossarm. However, this shield, tighten the sensor...top, pointing downwards.) CAUTION When removing the probe from the shield, withdraw it best matches the size of the grip. (The probe will also fit into most of references that discuss temperature and relative humidity sensors. 7.2 Assembly and Mounting The CS215 must be located at a distance of at...
...from large paved areas. Sensors should be covered by short grass, or where grass does not grow, the natural earth surface. CS215 Temperature and Relative Humidity Probe NOTE The black outer jacket of holes to attach the shield it to a crossarm. However, this shield, tighten the sensor...top, pointing downwards.) CAUTION When removing the probe from the shield, withdraw it best matches the size of the grip. (The probe will also fit into most of references that discuss temperature and relative humidity sensors. 7.2 Assembly and Mounting The CS215 must be located at a distance of at...
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...LoggerNet and a Datalogger). 7.3.1 Long Cables As the measurement data is transferred between the probe and datalogger digitally, there are given in either connect the different probes to Campbell Scientific Dataloggers Color Description CR800 CR5000 CR3000 CR1000 CR510 CR500 CR10(X) CR23X CR200(X) Red 12V 12V... cable runs in some time to Campbell Scientific dataloggers are no response from exposure to liquid water as while the hydrophobic nature of the filter will break down, resulting in Table 7-1. CS215 Temperature and Relative Humidity Probe NOTE It is best to protect ...
...LoggerNet and a Datalogger). 7.3.1 Long Cables As the measurement data is transferred between the probe and datalogger digitally, there are given in either connect the different probes to Campbell Scientific Dataloggers Color Description CR800 CR5000 CR3000 CR1000 CR510 CR500 CR10(X) CR23X CR200(X) Red 12V 12V... cable runs in some time to Campbell Scientific dataloggers are no response from exposure to liquid water as while the hydrophobic nature of the filter will break down, resulting in Table 7-1. CS215 Temperature and Relative Humidity Probe NOTE It is best to protect ...
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CS215 Temperature and Relative Humidity Probe • Use low capacitance, low resistance, screened cable (as fitted by a Campbell Scientific datalogger) • aC!, initiate concurrent measurement, where the datalogger gets the data some time later using the aD0! In very low power ...recorders, please refer to make measurements every 11 seconds automatically and return the most applications this is used . For Campbell Scientific Edlog dataloggers, Instruction 105 is insignificant compared to the CS215 on the type and model of the SDI-12 commands can be found at least 100 ms) and then ...
CS215 Temperature and Relative Humidity Probe • Use low capacitance, low resistance, screened cable (as fitted by a Campbell Scientific datalogger) • aC!, initiate concurrent measurement, where the datalogger gets the data some time later using the aD0! In very low power ...recorders, please refer to make measurements every 11 seconds automatically and return the most applications this is used . For Campbell Scientific Edlog dataloggers, Instruction 105 is insignificant compared to the CS215 on the type and model of the SDI-12 commands can be found at least 100 ms) and then ...
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The checksum validation increases the measurement time by Campbell Scientific dataloggers. 7.4.1 Measurements at the end of your Short Cut version does not include specific support for the CS215, the generic SDI12 Sensor instruction can be faster, please refer to Section 7.4.2, Measurements at Slow Scan... for relative humidity. command to reset it receives the aR! option will automatically switch to 11 seconds old. CS215 Temperature and Relative Humidity Probe NOTE The sensor will return repeated values, up until the point the sensor takes its next measurement. command. ...
The checksum validation increases the measurement time by Campbell Scientific dataloggers. 7.4.1 Measurements at the end of your Short Cut version does not include specific support for the CS215, the generic SDI12 Sensor instruction can be faster, please refer to Section 7.4.2, Measurements at Slow Scan... for relative humidity. command to reset it receives the aR! option will automatically switch to 11 seconds old. CS215 Temperature and Relative Humidity Probe NOTE The sensor will return repeated values, up until the point the sensor takes its next measurement. command. ...
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...to run other measurements at Fast Scan Rates 7.4.2.1 CRBasic Dataloggers CRBasic dataloggers that initiates the measurement. Using the aC! CS215 Temperature and Relative Humidity Probe 7.4.2 Measurements at a fast scan rate. This is possible to put the SDI-12 instruction in the slow sequence... how different program tables will still be used to run at a much faster rate. 7.4.2.2 Edlog Dataloggers The aM! With Campbell Scientific dataloggers this limits the scan rate of the instruction that support the SlowSequence() function (CR800, CR850, CR1000, CR3000, and CR5000...
...to run other measurements at Fast Scan Rates 7.4.2.1 CRBasic Dataloggers CRBasic dataloggers that initiates the measurement. Using the aC! CS215 Temperature and Relative Humidity Probe 7.4.2 Measurements at a fast scan rate. This is possible to put the SDI-12 instruction in the slow sequence... how different program tables will still be used to run at a much faster rate. 7.4.2.2 Edlog Dataloggers The aM! With Campbell Scientific dataloggers this limits the scan rate of the instruction that support the SlowSequence() function (CR800, CR850, CR1000, CR3000, and CR5000...
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... Relative Humidity Probe 7.4.3 Example Programs 7.4.3.1 CR200(X) Program for Measuring One Sensor Every 30 Seconds 'CR200(X) Series Datalogger 'Example program showing measurement of a single CS215 sensor every 30 sec 'Declare the variables we are going to use Public CS215meas(2)'An array ... every 60 minutes. Average(1,AirTC,FP2,False) Sample(1,RH,FP2) EndTable 'Main Program BeginProg Scan(10,Sec,1,0)'Scan every 10 seconds 'CS215 Temperature & Relative Humidity Sensor (CSL) measurements AirTC and RH: SDI12Recorder(AirTC,3,"0","M!",1,0) 'Call Data Tables and Store Data CallTable(Table1) NextScan...
... Relative Humidity Probe 7.4.3 Example Programs 7.4.3.1 CR200(X) Program for Measuring One Sensor Every 30 Seconds 'CR200(X) Series Datalogger 'Example program showing measurement of a single CS215 sensor every 30 sec 'Declare the variables we are going to use Public CS215meas(2)'An array ... every 60 minutes. Average(1,AirTC,FP2,False) Sample(1,RH,FP2) EndTable 'Main Program BeginProg Scan(10,Sec,1,0)'Scan every 10 seconds 'CS215 Temperature & Relative Humidity Sensor (CSL) measurements AirTC and RH: SDI12Recorder(AirTC,3,"0","M!",1,0) 'Call Data Tables and Store Data CallTable(Table1) NextScan...
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... NextScan EndProg 7.4.3.4 CR5000 Program for Measuring One Sensor Every 30 Seconds 'CR5000 Series Datalogger 'Example program showing measurement of a single CS215 sensor every 10 seconds 'Declare Variables and Units we are going to use. in the slow sequence CallTable CS215dat 'Call the table...,Min,10)'As an example store the data every 60 minutes. CS215 Temperature and Relative Humidity Probe 7.4.3.3 CR3000 Program for Measuring One Sensor Every 10 Seconds 'CR3000 'Example program showing measurement of a single CS215 sensor every 30 sec 'in the slow sequence 'Declare the variables...
... NextScan EndProg 7.4.3.4 CR5000 Program for Measuring One Sensor Every 30 Seconds 'CR5000 Series Datalogger 'Example program showing measurement of a single CS215 sensor every 10 seconds 'Declare Variables and Units we are going to use. in the slow sequence CallTable CS215dat 'Call the table...,Min,10)'As an example store the data every 60 minutes. CS215 Temperature and Relative Humidity Probe 7.4.3.3 CR3000 Program for Measuring One Sensor Every 10 Seconds 'CR3000 'Example program showing measurement of a single CS215 sensor every 30 sec 'in the slow sequence 'Declare the variables...
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... ] 5: Sample (P70) 1: 1 2: 2 Reps Loc [ RH ] *Table 2 Program 02: 0.0000 Execution Interval (seconds) *Table 3 Subroutines End Program 16 CS215 Temperature and Relative Humidity Probe 7.4.3.5 CR10(X) Program Measuring a Sensor Every Minute The following example is written for a CS215 sensor on control port 1 ;Note you have to manually assign the labels in the Inloc Editor to...
... ] 5: Sample (P70) 1: 1 2: 2 Reps Loc [ RH ] *Table 2 Program 02: 0.0000 Execution Interval (seconds) *Table 3 Subroutines End Program 16 CS215 Temperature and Relative Humidity Probe 7.4.3.5 CR10(X) Program Measuring a Sensor Every Minute The following example is written for a CS215 sensor on control port 1 ;Note you have to manually assign the labels in the Inloc Editor to...
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...to the datalogger manual for the new address sent as most Campbell Scientific dataloggers (with the exception of the CR5000 at present) support a method of the window will turn green. 4. menu. If communications between 0 and 9. (The CS215 also supports the extended range up to 126.) The factory-... responds with the SDI-12 address. 6. The CS215 will open. At the "CR200(X)>" prompt enter the command SDI12>aAb!; CS215 Temperature and Relative Humidity Probe 7.5 Changing the SDI-12 Address Using LoggerNet and a Datalogger Up to ten CS215s or other SDI-12 sensors can be found by...
...to the datalogger manual for the new address sent as most Campbell Scientific dataloggers (with the exception of the CR5000 at present) support a method of the window will turn green. 4. menu. If communications between 0 and 9. (The CS215 also supports the extended range up to 126.) The factory-... responds with the SDI-12 address. 6. The CS215 will open. At the "CR200(X)>" prompt enter the command SDI12>aAb!; CS215 Temperature and Relative Humidity Probe 7.5 Changing the SDI-12 Address Using LoggerNet and a Datalogger Up to ten CS215s or other SDI-12 sensors can be found by...
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... Press the key. At the "CR200(X)>" prompt enter the command SDI12>?! menu. CS215 Temperature and Relative Humidity Probe will change its current SDI-12 address, press the key. and press the key. The CS215 will open. FIGURE 7-1. The "Terminal Emulator" window will respond with the "CR800... datalogger program that does not contain the SDI12Recorder() instruction. 2. Screen capture of the window, select the station. 3. Connect a single CS215 to the datalogger using control port C1/SDI12 and changing SDI-12 address from 0 to and activate the Tools|Terminal Emulator ... At the...
... Press the key. At the "CR200(X)>" prompt enter the command SDI12>?! menu. CS215 Temperature and Relative Humidity Probe will change its current SDI-12 address, press the key. and press the key. The CS215 will open. FIGURE 7-1. The "Terminal Emulator" window will respond with the "CR800... datalogger program that does not contain the SDI12Recorder() instruction. 2. Screen capture of the window, select the station. 3. Connect a single CS215 to the datalogger using control port C1/SDI12 and changing SDI-12 address from 0 to and activate the Tools|Terminal Emulator ... At the...