First class pyranometer
SR11 is a high accuracy solar radiation sensor. SR11 pyranometer complies with the first class specifications of the ISO 9060 standard and the WMO Guide. It is the preferred instrument for outdoor PV system performance monitoring, according to the ASTM E2848 standard.
SR11 measures the solar radiation received by a plane surface from a 180o field of view angle. This quantity, expressed in W/m2 , is called “hemispherical” solar radiation. SR11 pyranometer can be employed outdoors under the sun, as well as indoors with lamp-based solar simulators. Its orientation depends on the application and may be horizontal, tilted (for plane of array radiation) or inverted (for reflected radiation).
Improved measurement accuracy
Calibration of SR11 first class pyranometer has been improved; our latest calibration method results in an uncertainty of the sensitivity of 1.8 %, compared to typical uncertainties of higher than 2.8 % for this pyranometer class.
- PV system performance monitoring
- general solar resource monitoring
- indoor simulated solar testing
- meteorological networks
PV system performance monitoring
The ASTM E2848 “Standard Test Method for Reporting Photovoltaic Non-Concentrator System Performance” (issued end 2011) confirms that a pyranometer is the preferred instrument for PV system performance monitoring. SR11 complies with the requirements of this standard.
Use as sunshine duration sensor
WMO has approved the “pyranometric method” to calculate sunshine duration from pyranometer measurements in WMO-No. 8, Guide to Meteorological Instruments and Methods of Observation. This implies that SR11 may be used, in combination with appropriate software, to estimate sunshine duration. This is much more cost-effective than using a dedicated sunshine duration sensor. Ask for our application note.
Applicable instrument classification standards are ISO 9060 and WMO-No. 8. Calibration is according to ISO 9847. PV related standards are ASTM E2848 and IEC 61724.
Choosing the right instrument
Pyranometers are subject to classification in three classes according to ISO 9060. From second class to first class and from first class to secondary standard, achievable accuracy improves by a factor 2. Measurement accuracy does not only depend on instrument properties, but also on measurement conditions. A very accurate instrument will quickly underperform without a regular schedule of maintenance.
Our pyranometer selection guide assists you in choosing the right instrument.
Whatever your application is: Hukseflux offers the highest accuracy in every class at the most attractive price level.
The uncertainty of a measurement under outdoor conditions depends on many factors. Guidelines for uncertainty evaluation according to the “Guide to Expression of Uncertainty in Measurement” (GUM) can be found in our manuals. We provide spreadsheets to assist in the process of uncertainty evaluation of your measurement.
- longer cable, in multiples of 5 metres
- internal temperature sensor
- AC100 / AC420 amplifiers, LI19 hand held readout
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- hemispherical solar radiation
- ISO classification
- first class pyranometer
- Calibration uncertainty
- < 1.8 % (k = 2)
- Calibration traceability
- Spectral range(50 % transmission points)
- 300 to 2800 x 10-9 m
- Sensitivity (nominal)
- 15 x 10-6 V/(W/m2)
- Rated operating temperature range
- -40 to +80 °C
- Temperature response
- < ± 2 % (-10 to +40 °C)
- Standard cable length
- 5 m