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Campbell Scientific CNR2 Radiometer Instruction Manual PDF

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Summary of Content for Campbell Scientific CNR2 Radiometer Instruction Manual PDF

CNR2 Net Radiometer Revision: 5/10

C o p y r i g h t 2 0 0 0 - 2 0 1 0 C a m p b e l l S c i e n t i f i c , I n c .

Warranty and Assistance The CNR2 NET RADIOMETER is warranted by CAMPBELL SCIENTIFIC, INC. to be free from defects in materials and workmanship under normal use and service for twelve (12) months from date of shipment unless specified otherwise. Batteries have no warranty. CAMPBELL SCIENTIFIC, INC.'s obligation under this warranty is limited to repairing or replacing (at CAMPBELL SCIENTIFIC, INC.'s option) defective products. The customer shall assume all costs of removing, reinstalling, and shipping defective products to CAMPBELL SCIENTIFIC, INC. CAMPBELL SCIENTIFIC, INC. will return such products by surface carrier prepaid. This warranty shall not apply to any CAMPBELL SCIENTIFIC, INC. products which have been subjected to modification, misuse, neglect, accidents of nature, or shipping damage. This warranty is in lieu of all other warranties, expressed or implied, including warranties of merchantability or fitness for a particular purpose. CAMPBELL SCIENTIFIC, INC. is not liable for special, indirect, incidental, or consequential damages.

Products may not be returned without prior authorization. The following contact information is for US and International customers residing in countries served by Campbell Scientific, Inc. directly. Affiliate companies handle repairs for customers within their territories. Please visit www.campbellsci.com to determine which Campbell Scientific company serves your country.

To obtain a Returned Materials Authorization (RMA), contact CAMPBELL SCIENTIFIC, INC., phone (435) 753-2342. After an applications engineer determines the nature of the problem, an RMA number will be issued. Please write this number clearly on the outside of the shipping container. CAMPBELL SCIENTIFIC's shipping address is:

CAMPBELL SCIENTIFIC, INC. RMA#_____ 815 West 1800 North Logan, Utah 84321-1784

For all returns, the customer must fill out a Declaration of Hazardous Material and Decontamination form and comply with the requirements specified in it. The form is available from our website at www.campbellsci.com/repair. A completed form must be either emailed to repair@campbellsci.com or faxed to 435-750-9579. Campbell Scientific will not process any returns until we receive this form. If the form is not received within three days of product receipt or is incomplete, the product will be returned to the customer at the customers expense. Campbell Scientific reserves the right to refuse service on products that were exposed to contaminants that may cause health or safety concerns for our employees.

CNR2 Table of Contents PDF viewers note: These page numbers refer to the printed version of this document. Use the Adobe Acrobat bookmarks tab for links to specific sections.

1. General Description.....................................................1

2. Sensor Specifications .................................................1 2.1 CNR2 Specifications ................................................................................1 2.2 Pyranometer Specifications ......................................................................2 2.3 Pyrgeometer Specifications ......................................................................2

3. Installation....................................................................2

4. Using the CNR2 in the Two Separate Components Mode (2SCM).............................................................5

4.1 Measuring Solar Radiation with the Pyranometers ..................................5 4.2 Measuring Far Infrared Radiation with the Pyrgeometers........................5 4.3 Calculation of the Net Solar Radiation .....................................................6

5. Wiring............................................................................6

6. Datalogger Programming............................................7 6.1 Calibration Factor .....................................................................................8 6.2 Example Programs....................................................................................8

6.2.1 Example Program for CR1000 Datalogger .....................................8 6.2.2 Example Program for CR10X Datalogger ......................................9

7. Calibration ..................................................................11

8. Maintenance ...............................................................12

9. Typical Values............................................................13

Figures 2-1. The Dimensions of the CNR2 .................................................................2 3-1. Mounting According to Hemisphere .......................................................3 3-2. The CNR2 mounted to a pole (top) and crossarm (bottom) via

the 26120 Mounting Bracket Kit..........................................................4 5-1. Pin Layout on Campbell Scientific Black Cable .....................................6 5-2. Pin Layout on Kipp & Zonen Original Cable .........................................7

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CNR2 Table of Contents

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8-1. Dirt, Rain, or Snow on CNR2 Sensor will Reduce the Readings ......... 12 8-2. CNR2 Net Radiometer Bubble-Level................................................... 13 8-3. Replacing Drying Cartridge.................................................................. 13

Tables 5-1. CRBasic Datalogger Connections for Differential Measurement........... 6 5-2. Edlog Datalogger Connections for Differential Measurement ............... 7 5-3. Campbell Scientific Cable vs. Kipp & Zonen Cable .............................. 7 9-1. Typical Values from CNR2 Net Radiometer........................................ 13

CNR2 Net Radiometer

1. General Description The CNR2 Net Radiometer is intended for the analysis of the radiation balance of short-wave and long-wave infrared radiation. The most common application is the measurement of total net radiation at the earth's surface.

The CNR2 design is such that both the upward facing and the downward- facing instruments measure the energy that is received from the hemisphere. The short-wave sensor, or pyranometer, has a field of view of 180 degrees on the upper and 150 degrees on the lower detector. The long wave sensor, or pyrgeometer, has a field of view of 150 degrees on the upper and the lower detector. The output is expressed in Watts per square meter. The total spectral range that is measured is roughly from 0.3 to 40 micrometers. This spectral range covers both the solar radiation, 0.3 to 2.8 micrometers, and the far infrared radiation, 4.5 to 42 micrometers.

The design of the CNR2 is such that short-wave radiation and long-wave radiation are measured separately. Short-wave radiation is measured by two pyranometers, one for measuring incoming short-wave radiation from the sky, and the other, which faces downward, for measuring the reflected short-wave radiation. The final result from these two pyranometers is net short-wave radiation.

Long-waveradiation is measured by two pyrgeometers, one for measuring the long-wave radiation from the sky, the other from the soil surface. Net long- wave radiation is a final result of measurements from those two detectors.

Additional information on the CNR2 sensor can be found in the Kipp & Zonen CNR2 Manual. The primary intent of this manual is to provide information on interfacing the CNR2 to Campbell Scientific dataloggers.

2. Sensor Specifications 2.1 CNR2 Specifications

Response time: <10s Temperature dependence of sensitivity (-10C to +40C):

<5%

Sensor asymmetry: <5% Sensitivities: 10 to 20 V/W/m2 Sensitivity change per year: <1% Tilt error: <1% Uncertainty in daily total: <10% Cable length: Customers choice from 3 to 100 ft.

(Recommended are 50, 75, and 100 ft) Weight: 250 g (add about 300g for each

30ft of cable)

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CNR2 Net Radiometer

FIGURE 2-1. The Dimensions of the CNR2

2.2 Pyranometer Specifications Spectral range: 310 to 2800 nm

Zero offset: Type A; 200 W/m2 FIR <15 W/m2

Field of view for upper detector: 180

Field of view for lower detector: 150

Directional error: <20 W m-2

Non-linearity (0-1000 W m-2) net irradiance:

<2.0%

2.3 Pyrgeometer Specifications Spectral range: 4.5 to 42 m

Field of view of upper detector: 150

Field of view of lower detector: 150

Non-linearity (-250 to +250 W m-2) net irradiance:

<1%

3. Installation For measurement of the net radiation, it is important that the instrument is located in a place that is representative of the entire study region.

Install the CNR2 such that no shadow is cast on the net radiometer at any time during the day. In the Northern Hemisphere, mount the CNR2 south of the mast. In the Southern Hemisphere, mount the CNR2 north of the mast (see Figure 3-1).

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CNR2 Net Radiometer

FIGURE 3-1. Mounting According to Hemisphere

Mount the CNR2 at a height of at least 1.5 meters above the surface to avoid the shading effects of the instruments on the soil and to promote spatial averaging of the measurement. If the instrument is H meters above the surface, 99% of the input of the lower sensors comes from a circular area with a radius of 10 H. Shadows or surface disturbances with radius <0.1 H will affect the measurement by less than 1%.

The 26120 mounting bracket kit is used to attach the CNR2 directly to a vertical pole or to a CM202, CM204, or CM206 crossarm.

A 26127 mounting rod is required to attach the CNR2 to a pole or crossarm via the 26120 mounting kit. The 26127 mounting rod began shipping with the CNR2 in February 2010. This mounting rod will need to be purchased if the CNR2 was shipped prior to February 2010.

NOTE

Mount the sensor as follows:

1. Screw the 26127 mounting rod into the base of the CNR2.

2. Attach the 26120 mounting bracket to the pole or crossarm, using the kits U-bolts (see Figure 3-2).

3. Insert the 26127 mounting rod into the mounting block of the 26120 mounting bracket kit. Make sure the sensor points in the direction of the arrows that appear after the word SENSOR on top of the bracket (see Figure 3-2). Perform a coarse leveling of the sensor using the bubble level on the top of the CNR2, and tighten the four screws on top of the mounting bracket to properly secure the mounting rod so that it does not rotate.

Do not attempt to rotate the instrument using the sensor heads, or you may damage the sensor; use the mounting rod only.

NOTE

4. Perform the fine leveling using the two spring-loaded leveling screws: one on the front and the other on the back of the bracket.

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CNR2 Net Radiometer

FIGURE 3-2. The CNR2 mounted to a pole (top) and crossarm (bottom) via the 26120 Mounting Bracket Kit.

For installation in buildings or in solar energy applications, users will often have to mount the CNR2 parallel to the surface that is being studied. This may be in a tilted or a vertical position. The sensitivity of the radiometers will be affected, but only in a minor way. This is specified as the so-called tilt effect. From the specifications, notice that the tilt effect (this is change in sensitivity) remains within 1%.

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CNR2 Net Radiometer

4. Using the CNR2 in the Two Separate Components Mode (2SCM)

The two pyranometers will measure the short-wave radiation (incoming from the sky and reflected from the soil surface); the two pyrgeometers will measure the long-wave radiation (incoming from the sky and reflected from the soil surface). However, only one output for short-wave radiation (net short-wave) and one output for long-wave radiation (net long-wave) will be given as a result of the CNR2 measurements.

4.1 Measuring Solar Radiation with the Pyranometers The upward-facing pyranometer measures incoming short-wave (global or solar) radiation. The downward-facing pyranometer measures the reflected short-wave (solar) radiation. When the final output of the net solar radiation is made by the sensor, the reflected radiation is subtracted from the global radiation.

To find the net short-wave radiation, divide the measured short-wave output from the sensor by its sensitivity.

SW

SW NETSW S

UE = (4.1)

Where, ENETSW is the net short-wave radiation in W m-2 USW is output voltage in V

SSW is sensitivity in 2m/W V

4.2 Measuring Far Infrared Radiation with the Pyrgeometers The upward-facing pyrgeometer measures the far infrared radiation from the sky. The downward-facing pyrgeometer measures the far infrared radiation that is emitted by the ground.

The long-wave infrared signal output is the difference between incoming and outgoing infrared radiation.

To find the net long-wave radiation, divide the measured long-wave output from the sensor by its sensitivity.

2

LW

LW NETLW m/W

S UE = (4.2)

Where, ENETLW is the net long-wave radiation in W m-2 ULW is output voltage in V

SLW is sensitivity in 2m/W V

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CNR2 Net Radiometer

4.3 Calculation of the Net Solar Radiation The net radiation, ENET, is calculated using the sensor measurement results for net short-wave radiation and net long-wave radiation. The net radiation is the difference between the net short-wave and net long-wave radiation.

ENET = ENETSW + ENETLW

5. Wiring The two radiation outputs from CNR2 Net Radiometer can be measured using differential or single-ended inputs on the datalogger. A differential voltage measurement (VoltSE instruction in CRBasic or Instruction 2 in Edlog) is recommended because it has better noise rejection than a single-ended measurement.

FIGURE 5-1. Pin Layout on Campbell Scientific Black Cable

TABLE 5-1. CRBasic Datalogger Connections for Differential Measurement

Heat Shrink Label

Color

Pin Number

CR800/CR850 CR1000/CR3000/CR5000

Pyranometer Sig White 1 Differential Input (H) Pyranometer Ref Blue 2 Differential Input (L) Pyrgeometer Sig Brown 3 Differential Input (H) Pyrgeometer Ref Black 4 Differential Input (L)

Shield Clear

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CNR2 Net Radiometer

TABLE 5-2. Edlog Datalogger Connections for Differential Measurement

Heat Shrink Label Color CR10X, CR510 CR23X 21X/CR7 Pyranometer Sig White Differential Input (H) Differential Input (H) Differential Input (H) Pyranometer Ref Blue Differential Input (L) Differential Input (L) Differential Input (L) Pyrgeometer Sig Brown Differential Input (H) Differential Input (H) Differential Input (H) Pyrgeometer Ref Black Differential Input (L) Differential Input (L) Differential Input (L)

Shield Clear G

If the CNR2 Net Radiometer was purchased from Kipp and Zonen, the color of the connection cable is yellow and have the pin out shown in Figure 5-2.

FIGURE 5-2. Pin Layout on Kipp & Zonen Original Cable

TABLE 5-3. Campbell Scientific Cable vs. Kipp & Zonen Cable

Campbell Scientific Cable Kipp & Zonen Cable White Red Blue Blue Brown Green Black Yellow Clear Clear

6. Datalogger Programming The CNR2 outputs two voltages that typically range from 0 to 15 mV for the pyranometers, and 5 mV for the pyrgeometers. Use a differential voltage measurement because it has better noise rejection than a single-ended measurement. If differential channels are not available, single-ended measurements can be used. The acceptability of a single-ended measurement

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CNR2 Net Radiometer

can be determined by simply comparing the results of single-ended and differential measurements made under the same conditions.

6.1 Calibration Factor Each CNR2 is shipped with a Certificate of Calibration by the manufacturer that shows the sensor serial number and sensitivity, or calibration factor. The serial number and sensitivity are also shown on a label attached to the sensor.

The calibration factor is in units of V/(W m-2), which needs to be converted to units of (W m-2)/mV for the multiplier parameter in the datalogger program.

To determine the multiplier, divide the calibration factor into 1000. For example, if the calibration factor is 22.0 for short-wave radiation and 11.6 for long-wave radiation, the multipliers are:

Short Wave: 1000/22.0 V/(W m-2) = 45.46 (W m-2)/mV

Long Wave: 1000/11.6 V/(W m-2) = 86.21 (W m-2)/mV

6.2 Example Programs

6.2.1 Example Program for CR1000 Datalogger 'CNR2 Net Radiometer program for CR1000 datalogger '*** Wiring *** '1H Short wave signal (white) '1L Short wave signal reference (blue) '2H Long wave signal (brown) '2L Long wave signal reference (black) 'gnd Shield (clear) Declare Constants Const CNR2_SW_CAL = 45.46 'Unique multiplier for CNR 2 net SW radiation (1000/sensitivity). Const CNR2_LW_CAL = 86.21 'Unique multiplier for CNR 2 net LW radiation (1000/sensitivity). 'Declare Variables and Units Public Net_Shortwave Public Net_Longwave Public Net_Rad Units Net_Shortwave=Wm-2 Units Net_Longwave=Wm-2 Units Net_Rad=Wm-2 'Define Data Tables DataTable(Table1,True,-1) DataInterval(0,60,Min,10) Minimum(1,Net_Shortwave,IEEE4,False,True) Maximum(1,Net_Shortwave, IEEE4,False,True) Average(1,Net_Shortwave, IEEE4,False)

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CNR2 Net Radiometer

Minimum(1,Net_Longwave, IEEE4,False,True) Maximum(1,Net_Longwave, IEEE4,False,True) Average(1,Net_Longwave, IEEE4,False) Average(1,Net_Rad, IEEE4,False) EndTable 'Main Program BeginProg Scan(1,Sec,1,0) 'CNR2 Net Radiation Measurements VoltDiff(Net_Shortwave,1,mV25,1,True,200,250, CNR2_SW_CAL,0.0) VoltDiff(Net_Longwave,1,mV25,2,True,0,250, CNR2_LW_CAL,0.0) Net_Rad = Net_Shortwave+Net_Longwave 'Call Data Tables and Store Data CallTable(Table1) NextScan EndProg

6.2.2 Example Program for CR10X Datalogger ;CNR2 Net Radiometer program for CR10X datalogger ;*** Wiring *** ; 1H Shortwave signal (white) ; 1L Shortwave signal reference (blue) ; 2H Longwave signal (brown) ; 2L Longwave signalreference- (black) ;gnd Shiled (clear) ; ;*** Wiring *** ; 1H Shortwave signal (white) ; 1L Shortwave signal reference (blue) ;gnd ; 2H Longwave signal (brown) ; 2L Longwave signal reference (black) ;gnd Shield (clear) ; *Table 1 Program 01: 1.0000 Execution Interval (seconds) ; Measure Net Shortwave Radiation 1: Volt (Diff) (P2) 1: 1 Reps 2: 23 25 mV 60 Hz Rejection Range 3: 1 DIFF Channel 4: 1 Loc [ Net_SW ] 5: 45.46 Multiplier 6: 0.0 Offset

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CNR2 Net Radiometer

; Measure Net Longwave Radiation 2: Volt (Diff) (P2) 1: 1 Reps 2: 22 7.5 mV 60 Hz Rejection Range 3: 2 DIFF Channel 4: 2 Loc [ Net_LW ] 5: 86.21 Multiplier 6: 0.0 Offset ; ;Measure Net Radiation 3: Z=X+Y (P33) 1: 1 X Loc [ Net_SW ] 2: 2 Y Loc [ Net_LW ] 3: 3 Z Loc [ Net_Rad ] ;Output data to the final storage every 60 minutes ; 4: If time is (P92) 1: 0 Minutes (Seconds --) into a 2: 60 Interval (same units as above) 3: 10 Set Output Flag High (Flag 0) 5: Set Active Storage Area (P80)^2826 1: 1 Final Storage Area 1 2: 102 Array ID 6: Real Time (P77)^11314 1: 1220 Year,Day,Hour/Minute (midnight = 2400) 7: Minimum (P74)^13722 1: 1 Reps 2: 10 Value with Hr-Min 3: 1 Loc [ Net_SW ] 8: Maximum (P73)^10217 1: 1 Reps 2: 10 Value with Hr-Min 3: 1 Loc [ Net_SW ] 9: Average (P71)^10475 1: 1 Reps 2: 1 Loc [ Net_SW ] 10: Minimum (P74)^11228 1: 1 Reps 2: 10 Value with Hr-Min 3: 2 Loc [ Net_LW ] 11: Maximum (P73)^17442 1: 1 Reps 2: 10 Value with Hr-Min 3: 2 Loc [ Net_LW ]

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CNR2 Net Radiometer

12: Average (P71)^29073 1: 1 Reps 2: 2 Loc [ Net_LW ] 13: Average (P71)^15174 1: 1 Reps 2: 3 Loc [ Net_Rad ] *Table 2 Program 01: 10.0000 Execution Interval (seconds) 1: Serial Out (P96) 1: 71 Storage Module *Table 3 Subroutines End Program

7. Calibration Recalibrate the CNR2 every two years, or as an alternative, by running a higher standard next to it. Compare the pyranometers over a two-day period when the days are clear. Compare the pyrgeometers during the night. Deviations of more than 6% can be used to correct the calibration factors.

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CNR2 Net Radiometer

8. Maintenance Clean domes and windows with distilled water or alcohol. Readings are reduced if domes and/or windows are not clean.

FIGURE 8-1. Dirt, Rain or Snow on CNR2 Sensors will Reduce the Readings

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CNR2 Net Radiometer

Keep instrument leveled at all times during the measurements.

FIGURE 8-2. CNR2 Net Radiometer Bubble-Level

Replace drying cartridge every 6 months.

FIGURE 8-3. Replacing Drying Cartridge (first replacement cartridge comes with the CNR2)

9. Typical Values TABLE 9-1. Typical Values from CNR2 Net Radiometer

Wavelength Fully Clouded Sunny, Partly Clouded Clear and Sunny Net short wave 0 to 120 W/m 50 to 500 W/m 200 to 1000 W/m Net long wave 25 to +25 W/m 50 to +50 W/m 50 to 200 W/m

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CNR2 Net Radiometer

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Campbell Scientific Companies

Campbell Scientific, Inc. (CSI) 815 West 1800 North Logan, Utah 84321 UNITED STATES

www.campbellsci.com info@campbellsci.com

Campbell Scientific Africa Pty. Ltd. (CSAf) PO Box 2450

Somerset West 7129 SOUTH AFRICA

www.csafrica.co.za cleroux@csafrica.co.za

Campbell Scientific Australia Pty. Ltd. (CSA) PO Box 444

Thuringowa Central QLD 4812 AUSTRALIA

www.campbellsci.com.au info@campbellsci.com.au

Campbell Scientific do Brazil Ltda. (CSB) Rua Luisa Crapsi Orsi, 15 Butant

CEP: 005543-000 So Paulo SP BRAZIL www.campbellsci.com.br suporte@campbellsci.com.br

Campbell Scientific Canada Corp. (CSC)

11564 - 149th Street NW Edmonton, Alberta T5M 1W7

CANADA www.campbellsci.ca dataloggers@campbellsci.ca

Campbell Scientific Centro Caribe S.A. (CSCC)

300 N Cementerio, Edificio Breller Santo Domingo, Heredia 40305

COSTA RICA www.campbellsci.cc info@campbellsci.cc

Campbell Scientific Ltd. (CSL)

Campbell Park 80 Hathern Road

Shepshed, Loughborough LE12 9GX UNITED KINGDOM

www.campbellsci.co.uk sales@campbellsci.co.uk

Campbell Scientific Ltd. (France) Miniparc du Verger - Bat. H

1, rue de Terre Neuve - Les Ulis 91967 COURTABOEUF CEDEX

FRANCE www.campbellsci.fr info@campbellsci.fr

Campbell Scientific Spain, S. L. Avda. Pom

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