Kipp & Zonen
Pyranometers:
Pyranometer SMP 11
Technical Data | |
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ISO- classification: | Secondary Standard |
Response time (63%): | < 0,7 s |
Response time (95%): | < 2 s |
Zero-Offsets:Thermal radiation (200 W/mĀ²) Temperature dependence (5 K/h) |
< 7 W/mĀ² < 2 W/mĀ² |
Stability deviation (per annum): | < 0,5% |
Non-linearity (0 ā¦ 1000 W/mĀ²): | < 0,2% |
Directional error (at 80 Ā° and 1000 W/mĀ²): | < 10 W/mĀ² |
Temperature dependence of thesensitivity | < 1% (-20 ā¦ 50Ā°C) < 2% (-40 ā¦ 70Ā°C) |
Inclination error (at 1000 W/mĀ²): | < 0,2% |
Maximum range of the digital output: | -400ā¦4000 W/mĀ² |
Error accuracy: | 0,1Ā° |
Operating temperature:: | -40ā¦80Ā°C |
Protection class: | IP67 |
Supply voltage: | 5ā¦30V DC |
Power consumption (at 12 V DC): | 100 mW |
Expected daily accuracy | < 2% |
Irradiance Measurement | IP67 |
Spectral range (50% points) | 285ā¦2800 nm |
Measuring range | 0ā¦1600 W/mĀ² |
Pyranometer CMP 11
The CMP 11 is particularly suitable for applications in the area of solar power.
Technical Data | |
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Enclosure | Metal-plastic enclosure,Ć 150 mm x H 93 mm |
Operating temperature | – 40 ā¦ 80 Ā°C |
Accuracy class under ISO 9060 | Secondary Standard |
Response time (95%) | 5 s |
Zero-Offset: (a) Thermal radiation (200 W/mĀ²) (b) Accuracy of temperature (5 K/h) |
< 7 W/mĀ² < 2 W/mĀ² |
Stability deviation (per annum) | < 0.5 % |
Non linearity (0 to 1000 W/mĀ²) | < 0.2 % |
Directional error at 80Ā° and 1000 W/mĀ² | < 10 W/mĀ² |
Temperature dependence of the sensitivity |
< 1 % (-10 ā¦ 40 Ā°C) |
Inclination error (at 1000 W/mĀ²) | < 0.2 % |
Sensitivity | 7 ā¦ 14 Ī¼V/W/mĀ² |
Impedance | 10 ā¦ 100 ×Ŗ |
Leveling accuracy | 0,1 Ā° |
Expected daily accuracy | < 2 % |
Recommended applications | Meteorological applications,PV panels and monitoring of solar collectors, material test |
Irradiance Measurement | |
Spectral range: (50% points) | 285 ā¦ 2800 nm |
Typical signal output for atmospheric applications | 0 ā¦ 15 mV |
Maximum radiation absorption | 4000 W/mĀ² |
Output current | 4 ā¦ 20 mA |
Measuring range | 0 ā¦ 1600 W/m2 |
Pyranometer CMP 10
The CMP 10 is particularly suitable for applications in the area of solar power.
Technical Data | |
---|---|
Enclosure | Metal-plastic enclosure,Ć 150 mm x H 93 mm |
Operating temperature | – 40 ā¦ 80 Ā°C |
Accuracy class under ISO 9060 | Secondary Standard |
Response time (95%) | 5 s |
Zero-Offset: (a) Thermal radiation (200 W/mĀ²) (b) Accuracy of temperature (5 K/h) |
< 7 W/mĀ² < 2 W/mĀ² |
Stability deviation (per annum) | < 0.5 % |
Non linearity (0 to 1000 W/mĀ²) | < 0.2 % |
Directional error at 80Ā° and 1000 W/mĀ² | < 10 W/mĀ² |
Temperature dependence of the sensitivity |
< 1 % (-10 ā¦ 40 Ā°C) |
Inclination error (at 1000 W/mĀ²) | < 0.2 % |
Sensitivity | 7 ā¦ 14 Ī¼V/W/mĀ² |
Impedance | 10 ā¦ 100 ×Ŗ |
Leveling accuracy | 0,1 Ā° |
Expected daily accuracy | < 2 % |
Recommended applications | Meteorological applications,PV panels and monitoring of solar collectors, material test |
Irradiance Measurement | |
Spectral range: (50% points) | 285 ā¦ 2800 nm |
Typical signal output for atmospheric applications | 0 ā¦ 15 mV |
Maximum radiation absorption | 4000 W/mĀ² |
Output current | 4 ā¦ 20 mA |
Measuring range | 0 ā¦ 1600 W/m2 |
AMPBOX
The sensor amplifier (AMPBOX) is an amplifier fed by a current loop. It allows for the pyranometer to be connected directly to the WEB’log.
Technical Data | |
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Output current | 4ā¦20 mA |
Input voltage range | – 12ā¦150 mV |
Standard amplification | 2 mV/ 1 mA |
Custom amplification | 0.1 mA/mVā¦4 mA/mV |
Input impedance | 10 M ×Ŗ |
Zero setting | Up to 50% of the 4ā¦20 mA range |
Zero offset | < Ā± 1 Ī¼V/K |
Non-linearity | < 0.2 % |
Signal dynamism, output | 16 bit |
Update time | 440 ms |
Inaccuracy (the higher value in each case) |
Ā± 0.05 % or Ā± 10 Ī¼V |
Temperature range | – 40ā¦80 Ā°C |
Supply voltage | 7.2ā¦35 V DC |
Voltage drop | 7.2V DC |
Protection class | IP66 |
Dimensions | 64 mm x 98 mm x 34 mm (WxLxH) |
Weight | 0.25 kg |
Cable diameter | 3ā¦7 mm |
Irradiance Measurement | |
Spectral range: (50 % points) | 285 ā¦ 2800 nm |
Typical signal output foratmospheric applications | 0 ā¦ 15 mV |
Maximum radiation absorption | 4000 W/mĀ² |
Output current | 4 ā¦ 20 mA |
Measuring range | 0 ā¦ 1600 W/m2 |