• SR30-M2-D1

    Digital Class A (secondary standard) Pyranometer with Heating and Tilt Sensor

    Welcome to the next level in solar radiation monitoring! The all-digital heated SR30-M2-D1 offers the highest accuracy and highest data availability: using Recirculating Ventilation and Heating (RVH™) technology, SR30 outperforms pyranometers equipped with traditional ventilation systems. SR30 is the ideal instrument for use in PV system performance monitoring and meteorological networks. It measures the solar radiation received by a plane surface, in W/m², from a 180 ° field of view angle. SR30 is an ISO 9060 spectrally flat Class A (previously “secondary standard”) pyranometer. It is employed where the highest measurement accuracy is required. SR30-M2-D1 offers several advantages over competing pyranometers:
    • Heated for high data availability, featuring new RVH™ technology
    • Compliant with IEC 61724-1:2017 Class A and B
    • Low cost of ownership
    • Remote sensor diagnostics
    • Liabilities covered: test certificates
    Details

  • SRA01

    Second class albedometer

    SRA01 albedometer is an instrument that measures global and reflected solar radiation and the solar albedo, or solar reflectance. It is composed of two identical second class pyranometers with thermopile sensors, the upfacing one measuring global solar radiation, the downfacing one measuring reflected solar radiation. SRA01 complies with the latest ISO and WMO standards.
    • Measures global and reflected solar radiation and the solar albedo, or solar reflectance
    • Composed of two identical second class pyranometers with thermopile sensors
    • Complies with the latest ISO and WMO standards
    Details

  • SRA15

    Spectrally flat Class B albedometers

    SRA15 series spectrally flat Class B albedometer is an instrument that measures global and reflected solar radiation and the solar albedo, or solar reflectance. It is composed of two SR15 series spectrally flat Class B pyranometers and one AMF03 albedometer mounting kit. AMF03 includes one glare screen, one mounting fixture with rod, mounting hardware, and tools. Each pyranometer has a thermopile sensor, the up-facing one measuring global solar radiation, the downfacing one measuring reflected solar radiation. You may choose digital SR15-D1 pyranometers with heating, analog SR15-A1 pyranometers, offering millivolt output and heating, or SR15-D2A2 pyranometers with 4-20 mA output. SRA15 complies with the latest ISO and WMO standards. The modular design facilitates maintenance and calibration.
    • digital SR15-D1 pyranometers with heating, or analog SR15-A1 pyranometers, offering millivolt output and heating, or SR15-D2A2 pyranometers with 4-20 mA output
    • SRA15 complies with the latest ISO and WMO standards.
    • modular design facilitates maintenance and calibration
    Details

  • SRA20-D2

    Digital secondary standard albedometer

    SRA20-D2 albedometer is an instrument that measures global and reflected solar radiation and the solar albedo, or solar reflectance, with the highest accuracy. It is composed of two SR20-D2 secondary standard pyranometers, one sun screen, one glare screen and one fixture with rod. Mounting hardware and tools are included. Each pyranometer offers two types of commonly used irradiance outputs: digital via Modbus RTU over RS-485 and analogue 4-20 mA (current loop). Individually tested for temperature and directional response, SRA20-D2 is the most accurate digital secondary standard albedometer available. SRA20-D2 complies with the latest ISO and WMO standards. The modular design facilitates maintenance and calibration.
    • Digital outputs: easy implementation & servicing
    • Best-in-class temperature response
    • Test certificates for temperature- and directional response included as required by ISO 9060
    • Re-calibration registers fully accessible to users
    • Modular; can be calibrated as separate pyranometers
    Details

  • SRA30-M2-D1

    Digital secondary standard albedometer

    SRA30-M2-D1 digital spectrally flat Class A albedometer is an instrument that measures global and reflected solar radiation and the solar albedo, or solar reflectance. SRA30-M2-D1 is the most accurate albedometer available and heated for the best data availability. It is composed of one AMF03 albedometer mounting kit and two SR30-M2-D1 spectrally flat Class A (previously "secondary standard") pyranometers. This pyranometer is compliant in its standard configuration with the requirements for Class A PV monitoring systems of the IEC 61724-1:2017 standard. Each pyranometer has a thermopile sensor, the up-facing one measuring global solar radiation, the downfacing one measuring reflected solar radiation. AMF03 includes one glare screen, one mounting fixture with a rod, mounting hardware, and tools. The modular design facilitates maintenance and calibration.
    • the most accurate albedometer
    • compliant with requirements for Class A PV monitoring systems
    • heated for high data availability, featuring RVH technology
    • modular design of SRA30 facilitates maintenance and calibration
    Details

  • ST01

    Soil Temperature Sensor

    ST01 is a high quality temperature sensor that is specifically designed for soil temperature measurement in extreme environments. Using top quality materials it is suitable for hostile conditions as encountered in outdoor installation (temperature, radiation, chemicals). It is designed to have a record-breaking lifetime with optimal stability. Employing a platinum sensor, at extreme temperatures a higher accuracy can be attained than with commonly used thermistors.
    • Can be used across a very wide temperature range
    • Ultra-stable sensor
    • Record-breaking lifetime
    Details

  • STP01

    Soil Temperature Profile Sensor with Self-Test

    STP01 accurately measures the temperature profile of the soil at 5 depths close to its surface. It is used for scientific grade surface energy balance measurements. The sensor is buried and usually cannot be taken to the laboratory for calibration. The on-line self-test using the incorporated heating wire offers a solution to verify STP01’s measurement stability.
    • High accuracy, scientific measurement of soil energy balance, with a high level of data quality assurance
    • Thin, 0.6 x 10⁻³ m thickness, construction which leaves the soil structure intact
    • Simple copper-core signal wire; no special connectors needed
    • Self-test saves servicing time
    Details

  • Sun Tracker 2000 SMS

    Solar Energy Measurement System

    The Geonica SunTracker-2000 is a two axis, fully automatic, low power consumption and lightweight solar tracker, to align solar radiation instruments with the normal incidence of the Sun, from any position on the earth's surface.
    • Unattended and automatic operation
    • Very high accuracy
    • Integrated GPS receiver
    • Remote positioning control and communications
    Details

  • TCOMSYS01 Hot Cube

    Thermal comfort measuring system - a new tool for research and education

    TCOMSYS01 is a measuring system to help understand and quantify “causes and effects” leading to human thermal comfort. The TCOM01 body is temperature stabilized at 33 °C so that it offers a relatively direct measurement of the human experience. In essence, TCOM01 is a miniature thermal mannequin, measuring according to the innovative Hot Cube method. The heater power required to keep the TCOM01 at a constant temperature is the main measurand. Incorporating 5 heat flux sensors with a black absorber also offers a detailed picture of the heat gain and loss from different directions, and a good indication of convective and radiative asymmetry. Other measurements are sensor body temperature, air temperature, and relative humidity. In its standard configuration, the system consists of an MCU (Measurement and Control Unit) and a TCOM01 sensor. The MCU offers a direct connection to any local area network and “Ethernet over USB”. TCOM01 is also available as a sensor only.

    TCOMSYS01 advantages

    • direct representation of the human body
    • helps understand and quantify the detailed physical cause and effect of thermal comfort
    • simple experiments can be used to quantify the sources of heat gain or loss
    • offers directional information
    • good addition to Wet-Bulb Globe temperature measurement
    • robust, student-proof
    • “stand-alone”; equipped with its own clock and memory
    • safe, low voltage power supply
    • communication by (virtual) Ethernet link
    • user interface program on MCU
    Details

  • TNS02

    Thermal Needle Set for Thermal Resistivity / Conductivity Measurement

    TNS02 efficiently and accurately performs on-site (field) as well as laboratory measurements of the thermal conductivity and thermal resistivity of soils. The system is a combination of our FTN02 and MTN02 systems. Measurement with TNS02 complies with ASTM D5334 and IEEE 442 standards. It is designed for optimal flexibility. TNS02 includes two different needles; one on a short insertion tool for use in the laboratory, the other mounted on a long lance for use on-site. The control and readout unit, CRU02, is shared between the two (on-site and laboratory) needle models.
    • Efficient and accurate measurement of thermal conductivity and resistivity of soils
    • Measurements both in the field and in laboratory environments
    Details

Go to Top