• Pyranometer EKO MS-80

    • ISO 9060 Secondary Standard + IEC 17025 calibration
    • 5-year warranty and re-calibration period
    • Fast response time < 1s @ 95%
    • Exceptional long-term stability ±0.5 %/5 years
    • MS-80 with analog voltage output


    The MS-80 Secondary Standard pyranometer was inspired by the combination of latest technologies and state-of-the-art thermopile sensors, enabling a breakthrough in unprecedented low zero-offset behaviour and fast sensor response. The compact sensor with single dome, based on a 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.

    MS-80 is designed with analog voltage output. The analogue MS-80 pyranometer can be used as a reference sensor to measure the global broad-band solar radiation with a high accuracy. With excellent temperature response and non-linearity characteristics, it provides optimal performance throughout the year.

     

    https://www.ammonit.com/media/filer_public/fb/eb/fbeb3746-3397-40b4-a1f6-c90c3ab480c9/pyranometer_eko-ms80-series_s64150-s64170.pdf
  • Pyranometer EKO MS-80S

    • ISO 9060 Secondary Standard + IEC 17025 calibration
    • 5-year warranty and re-calibration period
    • Fast response time < 1s @ 95%
    • Exceptional long-term stability ±0.5 %/5 years
    • MS-80 with analog voltage output


    The MS-80 Secondary Standard pyranometer was inspired by the combination of latest technologies and state-of-the-art thermopile sensors, enabling a breakthrough in unprecedented low zero-offset behaviour and fast sensor response. The compact sensor with single dome, based on a 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.

    MS-80 is designed with analog voltage output. The analogue MS-80 pyranometer can be used as a reference sensor to measure the global broad-band solar radiation with a high accuracy. With excellent temperature response and non-linearity characteristics, it provides optimal performance throughout the year.

     

    https://www.ammonit.com/media/filer_public/82/6f/826f0029-7618-48f3-810e-8d30668e0f12/pyranometer_eko-ms60-series_s64131-s64135.pdf
  • Pyranometer EKO MS-60

    • ISO 9060 First Class
    • IEC 17025 calibration
    • 5-year warranty
    • MS-60 with analog voltage output.

    The new double dome constructions provides lower offsets and cosine errors. The MS-60 can be used with the optional MV-01 ventilator / heater.

    The MS-60 pyranometers are manufactured in a consistent way followed by strict quality inspection and performance evaluation. EKO provides a unique calibration compliant to the international standards defined by ISO/IEC17025/9847.

    The sensor has a 5 years warranty with a 2 years re-calibration interval recommended and it is no longer necessary to change the desiccant.

     

    https://www.ammonit.com/media/filer_public/82/6f/826f0029-7618-48f3-810e-8d30668e0f12/pyranometer_eko-ms60-series_s64131-s64135.pdf
  • Pyranometer EKO MS‐60S

    • ISO 9060 First Class
    • IEC 17025 calibration
    • 5-year warranty
    • MS-60 with analog voltage output.

    The new double dome constructions provides lower offsets and cosine errors. The MS-60 can be used with the optional MV-01 ventilator / heater.

    The MS-60 pyranometers are manufactured in a consistent way followed by strict quality inspection and performance evaluation. EKO provides a unique calibration compliant to the international standards defined by ISO/IEC17025/9847.

    The sensor has a 5 years warranty with a 2 years re-calibration interval recommended and it is no longer necessary to change the desiccant.

     

    https://www.ammonit.com/media/filer_public/82/6f/826f0029-7618-48f3-810e-8d30668e0f12/pyranometer_eko-ms60-series_s64131-s64135.pdf
  • Pyranometer EKO MS-40

    • ISO 9060 Second Class
    • IEC 17025 calibration
    • 5-year warranty


    MS-40 Second Class pyranometer is based on the EKO’s universal sensor platform with analog voltage output.
    The MS-40 pyranometers have been designed for agro meteorological networks and professional small scale PV sites where solar radiation is taken seriously.

    The MS-40 pyranometers are manufactured in a consistent way followed by strict quality inspection and performance evaluation.

    EKO provides a unique calibration compliant to the international standards defined by ISO/IEC17025/9847.

    The sensor has a 5 years warranty with a 2 years re-calibration interval recommended and it is no longer necessary to change the desiccant.

     

    https://www.ammonit.com/media/filer_public/60/f9/60f91b99-1160-4263-ba74-324abaf98085/pyranometer_eko-ms40-series_s64111-s64115.pdf
  • Pyranometer EKO MS-40M

    • ISO 9060 Second Class
    • IEC 17025 calibration
    • 5-year warranty


    MS-40M Second Class pyranometer is based on the EKO’s universal sensor platform with MODBUS RTU output.

    The MS-40 pyranometers have been designed for agro meteorological networks and professional small scale PV sites where solar radiation is taken seriously.

    The MS-40M can be used with the optional MV-01 ventilator / heater.

    The MS-40 pyranometers are manufactured in a consistent way followed by strict quality inspection and performance evaluation. EKO provides a unique calibration compliant to the international standards defined by ISO/IEC17025/9847.

    The sensor has a 5 years warranty with a 2 years re-calibration interval recommended and it is no longer necessary to change the desiccant.

     

    https://www.ammonit.com/media/filer_public/60/f9/60f91b99-1160-4263-ba74-324abaf98085/pyranometer_eko-ms40-series_s64111-s64115.pdf
  • Pyranometer Kipp & Zonen CMP 11

    • Measurement of solar irradiance
    • Specifications to ISO 9060 and IEC 60904 standards
    • Widely used within World Meteorological Organisation scientific programmes

    The Kipp & Zonen range of thermopile-based pyranometers is respected around the world for the measurement of solar irradiance to World Meteorological Organisation and ISO 9060:1990 standards.

    The instruments are used in meteorological research, solar energy research, material testing, climate control in greenhouses, building physics, science and many other applications.

    The CMP series of pyranometers have ergonomic features to facilitate installation, maintenance, and exchange for recalibration.

    A waterproof socket is fitted for the signature yellow signal cable, which is available in a range of lengths. The integral bubble level is raised to the top of the housing and can be viewed without removing the sun shield. The screw-in drying cartridge can be reactivated with convenient refill packets.

    The CMP 11 has a removable drying cartridge

    https://www.ammonit.com/media/filer_public/ba/a6/baa681f4-c9d3-485e-8762-628973369b35/pyranometer_kippzonencmpseries_s61100-61130.pdf
  • Pyranometer Kipp & Zonen CMP 10

    • Measurement of solar irradiance
    • Specifications to ISO 9060 and IEC 60904 standards
    • Widely used within World Meteorological Organisation scientific programmes

    The Kipp & Zonen range of thermopile-based pyranometers is respected around the world for the measurement of solar irradiance to World Meteorological Organisation and ISO 9060:1990 standards. The instruments are used in meteorological research, solar energy research, material testing, climate control in greenhouses, building physics, science and many other applications.

    The CMP series of pyranometers have ergonomic features to facilitate installation, maintenance, and exchange for recalibration.

    A waterproof socket is fitted for the signature yellow signal cable, which is available in a range of lengths. The integral bubble level is raised to the top of the housing and can be viewed without removing the sun shield. The screw-in drying cartridge can be reactivated with convenient refill packets.

    The CMP10 has internal desiccant that lasts for 10 years.

    Kipp & Zonen offers 5 years manufacturer’s warranty for the CMP10 pyranometer.

     

    https://www.ammonit.com/media/filer_public/ba/a6/baa681f4-c9d3-485e-8762-628973369b35/pyranometer_kippzonencmpseries_s61100-61130.pdf
  • Pyranometer Kipp & Zonen CMP 6

    • Measurement of solar irradiance
    • Specifications to ISO 9060 and IEC 60904 standards
    • Widely used within World Meteorological Organisation scientific programmes

    The Kipp & Zonen range of thermopile-based pyranometers is respected around the world for the measurement of solar irradiance to World Meteorological Organisation and ISO 9060:1990 standards. The instruments are used in meteorological research, solar energy research, material testing, climate control in greenhouses, building physics, science and many other applications.

    The CMP series of pyranometers have ergonomic features to facilitate installation, maintenance, and exchange for recalibration.

    A waterproof socket is fitted for the signature yellow signal cable, which is available in a range of lengths. The integral bubble level is raised to the top of the housing and can be viewed without removing the sun shield. The screw-in drying cartridge can be reactivated with convenient refill packets.

     

    https://www.ammonit.com/media/filer_public/ba/a6/baa681f4-c9d3-485e-8762-628973369b35/pyranometer_kippzonencmpseries_s61100-61130.pdf
  • Pyranometer Kipp & Zonen CMP 3

    • Measurement of solar irradiance
    • Specifications to ISO 9060 and IEC 60904 standards
    • Widely used within World Meteorological Organisation scientific programmes

    The Kipp & Zonen range of thermopile-based pyranometers is respected around the world for the measurement of solar irradiance to World Meteorological Organisation and ISO 9060:1990 standards. The instruments are used in meteorological research, solar energy research, material testing, climate control in greenhouses, building physics, science and many other applications.

    The CMP series of pyranometers have ergonomic features to facilitate installation, maintenance, and exchange for recalibration.

    A waterproof socket is fitted for the signature yellow signal cable, which is available in a range of lengths. The integral bubble level is raised to the top of the housing and can be viewed without removing the sun shield. The screw-in drying cartridge can be reactivated with convenient refill packets.

     

    https://www.ammonit.com/media/filer_public/ba/a6/baa681f4-c9d3-485e-8762-628973369b35/pyranometer_kippzonencmpseries_s61100-61130.pdf, https://www.ammonit.com/media/filer_public/ba/a6/baa681f4-c9d3-485e-8762-628973369b35/pyranometer_kippzonencmpseries_s61100-61130.pdf
  • Pyranometer Delta-T SPN1

    • Measures global (total) and diffuse irradiance in W/m²
    • WMO sunshine threshold: 120 W/m² direct beam
    • No routine adjustment or polar alignment
    • No moving parts, shade rings or motorised tracking
    • Works at any latitude
    • Unique ground glass dome
    • Wideband thermopile sensors
    • Near ideal spectral and cosine response
    • Standard output sensitivity
    • Matches or exceeds the ISO First Class standard and the WMO Good Quality standard for a solar pyranometer in all respects apart from the spectral response - which is accurate to ±10% over 0.4 to 2.7 μm
    https://www.ammonit.com/media/filer_public/36/8b/368b131a-983d-4cbb-95cd-d9f1f1d7d5cd/pyranometer_delta-t-sunshine_s65100.pdf
  • Ventilator MV-01 for EKO MS-80/60/40 Pyranometer

    • The MV-01 ventilator and heater in combination with the MS-80/60/40 pyranometers will keep the pyranometer sensor free of dew, ice and snow.
    • The ventilator ensures data availability of the MS-80/60/40 under all environmental conditions.
    • In combination with the MV-01 ventilator, your sensor will be compliant to the requirements of the new IEC 61724-1 standard (Class A).

    With the standard tacho output the speed of the fan can be monitored. The MV-01 features a low power fan and effective heater, which can be separately switched on/off during the variable operating conditions. Due to the vertical design of the pyranometer sunscreen, the air outlet will remain free from snow and ice. The ventilator unit is protected against overheating through a temperature safety switch.

    MV-01 is compatible with the MS-80 Secondary standard, MS-60 First class and MS-40 Second class pyranometers.

     

  • Silicon Pyranometer EKO ML-01

    • ML-01 Si-pyranometer complies to ISO 9060-2018 "Fast response class C" and is made for high quality irradiance measurements.
    • The ML-01 is an industrial grade solar sensor specially made for irradiance measurement applications for meteorological and environmental studies.

    For global horizontal measurement applications, the sensor can be mounted in the horizontal position with a standard removable mounting plate with a spirit level and leveling feet.

    The Mono-Silicon detector with UV resistant diffuser gives a cosine response also at low solar elevation angles. Besides the effects of soiling or water deposition on top of the diffuser will be minimized due to the cone shape geometry.

    EKO provides a unique calibration compliant to the international standards defined by ISO/IEC17025/9847. The sensor has 2 years warranty with 2 years re-calibration interval are recommended

     

  • Pyrheliometer EKO MS-57

    • ISO 9060 First Class Pyrheliometer
    • IEC 17025 / 9059 calibrated pyrheliometer
    • Lowest measurement uncertainty
    • Ultra-fast < 0.2 s response time
    • Excellent thermal stability
    • Accurate temperature compensation
    • Window heater to prevent dew and frost

    The MS-57 pyrheliometer was inspired by the latest development of the MS-80 pyranometer, enabling a breakthrough in unprecedented low thermal offset behavior and fast thermopile response (< 0.2 s / 95 %). MS-57 First Class is a direct normal incidence (DNI) solar irradiance sensor. Also known as a pyrheliometer, it is used as a reference sensor for routine operation on a sun tracker. The all-weather MS-57 is responsive to solar irradiance in the spectral range from 200 ... 4000 nm and works under the most extreme conditions in a temperature range from -40 ... 80°C. The integrated low power window heater prevents dew deposition or frost on the outside window.

    Each MS-57 is calibrated outdoors and tested at EKO upon manufacture against EKO’s reference sensors, which are fully traceable to the WRR (World Radiometric Reference). The recommended period of recalibration can be extended to 5 years, which is typically 2 years for other sensor models in the market. The long-term stability of the sensor responsivity is less than 0.5 % in a period of 5 years which makes it unique.

    The MS-57 pyrheliometers are manufactured in a consistent way followed by strict quality inspection and performance evaluation. For each sensor the temperature dependency are measured and validated through a measurement report that comes with the sensor. EKO provides a unique outdoors calibration compliant to the international standards defined by ISO/IEC17025/9059.

     

    https://www.ammonit.com/media/filer_public/c2/ea/c2ea687f-b3a7-462f-94a8-46c5569f028f/pyrheliometer_eko-ms57_s64211_neu.pdf
  • Silicon Irradiance Sensor

    • Build as solar module - easily comparable to energy yield and system performance of PV systems
    • Optional cell temperature as alternative to directly measured module temperature
    • Output signal: 0 ... 10 V for irradiance and cell temperature

    Silicon irradiance sensors show a cost-effective, but rugged and reliable solution for irradiance measurement. Based on the construction of the sensor element corresponding to a PV module they are ideal as reference for monitoring of PV systems. Especially the spectral response comparable to PV modules as well as the similar inclination error (incident angle modifier) allow an exact analysis of PV energy yields using Si sensor data.

     

    https://www.ammonit.com/media/filer_public/21/4d/214d60d2-ac1e-4aa4-9ebb-3563defa0aac/siliconirradiancesensor_mt_s68120-s68261.pdf
  • Silicon Irradiance Sensor Active Temperature Compensation

    • Build as solar module - easily comparable to energy yield and system performance of PV systems
    • Optional cell temperature as alternative to directly measured module temperature
    • Output signal: 0 ... 10 V for irradiance and cell temperature

    Silicon irradiance sensors show a cost-effective, but rugged and reliable solution for irradiance measurement. Based on the construction of the sensor element corresponding to a PV module they are ideal as reference for monitoring of PV systems. Especially the spectral response comparable to PV modules as well as the similar inclination error (incident angle modifier) allow an exact analysis of PV energy yields using Si sensor data.

     

    https://www.ammonit.com/media/filer_public/21/4d/214d60d2-ac1e-4aa4-9ebb-3563defa0aac/siliconirradiancesensor_mt_s68120-s68261.pdf
  • Sun Tracking System DNI

    • EKO Instruments high precision sun trackers provide high tracking reliability, enhanced functionality with fully automated set up procedure through a built-in GPS receiver.
    • The compact sun trackers are perfectly suited to support all kinds of measurement sensors to measure global, diffuse and direct radiation.
    • The sun trackers come with a small tripod that offers a stable surface for the measurement equipment and adjustable pyrheliometer mount for the fine alignment.

    From sun rise to sun set the compact EKO sun tracker guarantees accurate sun tracking and pointing of the attached solar sensors. Each system is equipped with an ISO 9060 First Class MS-57 pyrheliometer to measure direct normal irradiation. For measuring diffuse horizontal irradiation, the system is equipped with a shaded ISO 9060 Secondary Standard MS-80A pyranometer. The fully equipped system comes with a second MS-80A pyranometer for measuring global horizontal irradiation. According to your requirements the sun tracking system can be complemented with an Ammonit Meteo-40 plus data logger, as well as an external power supply and communication system.

     

    https://www.ammonit.com/media/filer_public/02/be/02bed905-6ef2-4487-be89-3b6162e69611/suntrackingsystem_eko_s64911-s64931.pdf
  • Sun Tracking System DNI + DHI

    • EKO Instruments high precision sun trackers provide high tracking reliability, enhanced functionality with fully automated set up procedure through a built-in GPS receiver.
    • The compact sun trackers are perfectly suited to support all kinds of measurement sensors to measure global, diffuse and direct radiation.
    • The sun trackers come with a small tripod that offers a stable surface for the measurement equipment and adjustable pyrheliometer mount for the fine alignment.

    From sun rise to sun set the compact EKO sun tracker guarantees accurate sun tracking and pointing of the attached solar sensors. Each system is equipped with an ISO 9060 First Class MS-57 pyrheliometer to measure direct normal irradiation. For measuring diffuse horizontal irradiation, the system is equipped with a shaded ISO 9060 Secondary Standard MS-80A pyranometer. The fully equipped system comes with a second MS-80A pyranometer for measuring global horizontal irradiation. According to your requirements the sun tracking system can be complemented with an Ammonit Meteo-40 plus data logger, as well as an external power supply and communication system.

     

    https://www.ammonit.com/media/filer_public/02/be/02bed905-6ef2-4487-be89-3b6162e69611/suntrackingsystem_eko_s64911-s64931.pdf
  • Sun Tracking System DNI + DHI + GHI

    • EKO Instruments high precision sun trackers provide high tracking reliability, enhanced functionality with fully automated set up procedure through a built-in GPS receiver.
    • The compact sun trackers are perfectly suited to support all kinds of measurement sensors to measure global, diffuse and direct radiation.
    • The sun trackers come with a small tripod that offers a stable surface for the measurement equipment and adjustable pyrheliometer mount for the fine alignment.

    From sun rise to sun set the compact EKO sun tracker guarantees accurate sun tracking and pointing of the attached solar sensors. Each system is equipped with an ISO 9060 First Class MS-57 pyrheliometer to measure direct normal irradiation. For measuring diffuse horizontal irradiation, the system is equipped with a shaded ISO 9060 Secondary Standard MS-80A pyranometer. The fully equipped system comes with a second MS-80A pyranometer for measuring global horizontal irradiation. According to your requirements the sun tracking system can be complemented with an Ammonit Meteo-40 plus data logger, as well as an external power supply and communication system.

     

    https://www.ammonit.com/media/filer_public/02/be/02bed905-6ef2-4487-be89-3b6162e69611/suntrackingsystem_eko_s64911-s64931.pdf
  • Soiling Measurement Kit

    • Determine PV performance losses due to soiling
    • Calculation of the Soiling Loss Index (SLI) and Soiling Ratio (SR)
    • Measurement of short circuit current and module surface temperature

    Soiling significantly affects the energy production of PV power plants. Effects of soiling on PV modules should be assessed site-specific due to variations in soil type, location and weather patterns. Implementing an Ammonit soiling measurement kit helps you to:

    • Analyse soiling losses in the PV module performance
    • Quantify site-specific impacts of soiling on PV energy production
    • Optimize cleaning routines for best return-on-investment
    • Determine typical soiling rates for forecasting models

    Soiling is the accumulation of dust, dirt and other contaminants on the surfaces of PV modules. The amount of dust is extremely dependent on the location of the PV power plant, e.g., desert valley with sand storms. In absence of significant rain events or regular cleaning, production losses due to soiling effects increase. Measuring soiling effects provides important details about the PV power plant production, e.g., how much dust can be on the modules before any problem occurs and how does the dust affect transparency and efficiency of the modules.

    https://www.ammonit.com/media/filer_public/f8/1b/f81bd14c-98a8-4321-9161-b8c1270aca3d/ammonitsoilingmeasurementkit_sd2100.pdf
  • DustIQ Soiling Sensor

    • Optical Soiling Measurement (OSM) technology
    • Measurement of soiling ratio from 100% to 50%
    • Maintenance-free

    Soiling of the PV module glass is one of the major problems in solar power plants with the attendant loss of efficiency and reduction in performance ratios. The DustIQ sensor is a simple and cost-effective method for soiling measurement. Based on the Optical Soiling Measurement (OSM) technology, the sensor can be easily integreated in solar power plant monitoring systems.

    The unit is mounted to the frame of a PV module and does not need sunlight to operate. It continuously measures the transmission loss through glass caused by soiling, so that the reduction in light reaching the solar cells can be calculated.

    Knowing exactly when and where to clean

    DustIQ measures the soiling ratio, which can be translated to power loss in real time. This enables the plant operation and maintenance staff to know when a critical level of soiling is reached and it has become necessary to start cleaning procedures.

    DustIQ is maintenance-free. It is cleaned in the same way, and at the same time, as the PV modules around it. Large solar power plants have different soiling rates across the site, which is why IEC 61724-1 requires multiple measurement points.

     

    https://www.ammonit.com/media/filer_public/f2/7a/f27ae961-5c33-4f95-a731-2dc7351346d5/dustiq_s6xxxx.pdf
Go to Top