MS-410 Pyranometer

Note: this product is obsolete

  • ISO 9060 First class
  • Double dome for lower zero offset
  • Balance costs and quality
  • ISO 17025 certified calibration
  • 5 years warranty
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The MS-410 First class pyranometer made for routine global solar radiation measurements. The MS-410 is perfectly suited for sampling 10-minute averages of the solar radiative flux in horizontal or tilted configurations. It is fully compliant with the ISO9060 "First Class" norm. The flat sensor surface, coated with a special, highly absorbing black paint, is protected by two transparent hemispheric glass domes. The MS-410 has a practical light-weight anodized aluminum housing and a stable low TC detector. These features, together with the two, high quality machined hemispheric glass domes are the key to the excellent performance characteristics of the MS-410.

The MS-410 pyranometers are manufactured in a consistent way followed by strict quality inspection and performance evaluation. EKO provides a unique ...

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  Specifications MS-410
  ISO 9060:1990 First Class
  Output Analog (mV)
Response time 95% < 18 Sec.
Zero off-set a) 200W/m² < 6 W/m²
Zero off-set b) 5K/hr +/- 2 W/m²
  Non-stability change/1 year +/- 1.5 %
Non-linearity at 1000W/m² +/- 1 %
Directional response at 1000W/m² < 20 W/m²
  Spectral selectivity 0.35-1.5µm -
Temperature response -10°C to 40°C +/- 2 %
Tilt response at 1000W/m² < 2 %
Sensitivity Approx. 10 µV/W/m²
  Impedance 140 Ω
  Operating temperature range -40 - 80 °C
Irradiance range 0 - 2000 W/m²
Wavelength range 285 - 3000 nm
  Ingress protection IP 67
  Cable length 10 m
  Options

Applications and uses

Accurate solar radiation measurements

The accurate solar radiation measurements and the reliable driving require a little knowledge and attention: think about environmental influences (wind, rain/snow, soiling), re-calibration (bi-annual), without mentioning data processing, spectral effects, ...

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Outdoor material testing

Weathering of materials is most often an irreversible process affecting the cosmetic properties or strength of materials. This aging process is mainly driven by UV radiation, Heat and reactive elements ...

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