MS-80A Pyranometer
Pyranometer with 4-20mA output. ISO 9060:2018 Class A new generation digital pyranometer with the lowest measurement uncertainty.
MS-80A is a "Spectrally flat" ISO 9060:2018 Class A pyranometer. The innovative patented design was inspired by the combination of latest technologies and state-of-the-art thermopile sensor, enabling a breakthrough in unprecedented low zero-offset behaviour and fast sensor response.
The compact sensor with a single dome, based on an isolated thermopile detector and Quartz diffusor is immune to offsets and integrates all optional value added functions such as a ventilator, heater and different industrial interfaces. The heater and ventilator are recommended, particularly over areas impacted by dew, frost, snow, and dust.
The MS-80A is a MS-80 with built in 4-20mA converter, which is compatible to industrial output standards. Due to the ultra-low temperature dependency and exceptional non-linearity characteristics, the converter guarantees an optimal sensor performance, under any environmental conditions.
The MS-80 pyranometers are manufactured in a consistent way followed by strict quality inspection and performance evaluation. For each sensor the directional response and temperature dependency are measured and validated through a measurement report that comes with the sensor. EKO provides a unique calibration compliant to the international standards defined by ISO/IEC17025/9847.
The sensor has a 5 years warranty, 5 years recommended re-calibration interval and no longer the requirement for the desiccant to be changed.
Specification | |
ISO 9060:2018 | Class A |
ISO 9060:1990 | (Secondary Standard) |
Sub-category "Spectrally flat" | Compliant |
Sub-category "Fast response" | Not compliant |
Output | Digital (4-20mA) |
Response time 95% | < 1.5 Sec. |
Zero off-set a) 200W/m² | +/- 1 W/m² |
Zero off-set b) 5K/hr | +/- 1 W/m² |
Complete zero off-set c) | +/- 2 W/m² |
Non-stability change/1 year | - |
Non-stability change/5 years | +/- 0.5 % |
Non-linearity at 1000W/m² | +/- 0.2 % |
Directional response at 1000W/m² | +/- 10 W/m² |
Spectral error | +/- 0.13 % |
Temperature response -10°C to 40°C | +/- 0.5 % |
Temperature response -20°C to 50°C | +/- 0.5 % |
Tilt response at 1000W/m² | +/- 0.2 % |
Operating temperature range | -40 - 80 °C |
Irradiance range | 0 - 4000 W/m² |
Wavelength range | 285 - 3000 nm |
Power supply | 12 - 24 VDC |
Power consumption | 0.08 - 0.5 W |
Ingress protection IP | 67 |
Cable length | 10 m |
Additional signal processing errors | +/- 1.7 W/m² |
Cable length | 20 / 30 / 50 m |
Ventilation unit | MV-01 |
Albedo mounting kit | MS-albedo Kit |
Other
-
MS-80 Pyranometer
EKO’s new generation ISO9060:2018 Class A (secondary standard) analog pyranometer, with fast response and spectrally flat performance characteristics.
-
MS-80M Pyranometer
Pyranometer with Modbus technology. EKO new generation digital ISO 9060:2018 Class A pyranometer has the lowest measurement uncertainty.
-
MS-802 Pyranometer
The MS-802 ISO9060:2018 Class A (Secondary Standard) Pyranometer is a reference sensor to measure global solar irradiance with high precision.
-
MS-60 Pyranometer
Spectrally flat ISO 9060:2018 Class B (First Class) pyranometer with analog output.
-
MS-60A Pyranometer
ISO 9060:2018 Class B (First Class) pyranometer digital with 4-20mA output.
-
MS-60M Pyranometer
ISO 9060:2018 Class B (First Class) pyranometer digital with MODBUS 485 RTU output.
-
MS-40 Pyranometer
The MS-40 Class C (Second class) pyranometer with analog output is most cost-effective for irradiance measurements accross the Solar spectrum.
-
MS-40A Pyranometer
MS-40 Class C (Second class) pyranometer (4-20mA output) is the most cost-effective solution for irradiance measurements accross the Solar spectrum.
-
MS-40M Pyranometer
MS-40M Class C (Second class) pyranometer (Modbus 485 RTU) is the most cost-effective solution for irradiance measured accross the Solar spectrum.