Solar Sensors
- High-precision pyranometer for measuring global solar irradiance.
- Fast response Class A sensor with thermopile technology.
- Complies with ISO 9060 and WMO performance standards.
- Designed for PV performance assessment and meteorological studies.
- Low maintenance with weatherproof IP67-rated housing.
- Measures solar irradiance for high-accuracy PV monitoring.
- ISO 9060 Class A performance ensures consistent precision.
- Features temperature compensation for stable readings.
- Designed for long-term field operation with minimal drift.
- Reliable and cost-effective pyranometer for general solar measurements.
- ISO 9060 Class B compliant with thermopile sensor technology.
- Delivers stable and accurate readings in all light conditions.
- Compact design ideal for rooftop and distributed solar systems.
- Compact Class C pyranometer for routine solar irradiance monitoring.
- Low-cost and robust design for small-scale solar installations.
- Fast response time with minimal maintenance requirements.
- Ideal for educational, weather, and solar energy applications.
- High-accuracy irradiance sensor with integrated Modbus RTU interface.
- Factory-calibrated for direct solar radiation measurement.
- Ideal for PV system efficiency and performance monitoring.
- Compact and rugged design suitable for outdoor use.
- Measures PV module backsheet temperature for performance analysis.
- PT1000 sensor element ensures precise and reliable readings.
- Weatherproof and UV-resistant construction for outdoor use.
- Provides fast response and linear output.
- ISO 9060 Class A pyranometer with shadow ring for diffuse radiation measurement.
- Eliminates direct sunlight for accurate sky irradiance readings.
- Ideal for calculating diffuse-to-global solar ratios.
- Built for meteorological research and PV testing stations.
Sunshine Duration Sensor – LPSD18 Series
- Measures sunshine duration based on WMO threshold definition.
- Optical sensor detects sunlight presence with high precision.
- Maintenance-free, no moving parts design for reliability.
- Used in solar radiation networks and meteorological observatories.
Pyranometer with Handheld Meter – MP-200
- Portable pyranometer with handheld digital display unit.
- Measures total solar irradiance for field and research applications.
- Calibration traceable to ISO and NIST standards.
- Lightweight, battery-operated design ideal for mobile surveys.
Spectrally Flat Albedometer – LPS11
- Measures both global and reflected solar radiation for albedo calculations.
- Class A performance with spectrally flat thermopile sensors.
- Weatherproof dual-dome design minimizes thermal offsets.
- Suitable for PV system efficiency and climate research.
Pyrgeometer – SL-510-SS (Apogee Instruments)
- Measures longwave (infrared) radiation from the sky or atmosphere.
- High-sensitivity thermopile sensor with spectral range 4.5–42 µm.
- Compact and robust for field and laboratory applications.
- Ideal for net radiation and energy balance studies.
Pyrgeometer – LPPIRG01 (Senseca)
- Precision pyrgeometer for far-infrared radiation measurement.
- Complies with ISO 9060 standards for longwave radiation sensors.
- Accurate, stable output suitable for climate and energy balance studies.
- Designed for all-weather outdoor applications.
Pyrheliometer – LPPYRHE16 Series (Senseca)
- First Class B direct normal irradiance (DNI) sensor.
- Precision optical alignment ensures accurate sun tracking.
- Ideal for solar resource assessment and CSP applications.
- Operates under extreme weather conditions with minimal maintenance.
Quantum (PAR) Meter – MQ-500 (Apogee Instruments)
- Measures photosynthetically active radiation (PAR) across 400–700 nm.
- Full-spectrum quantum sensor with enhanced accuracy for LED and sunlight.
- Ideal for research, agriculture, and greenhouse lighting optimization.
- Handheld display provides real-time µmol/m²/s readings.
- NIST-traceable calibration ensures precise light measurements.
Oxygen Sensor with Handheld Meter – MO-200 (Apogee Instruments)
- Portable sensor for measuring oxygen concentration in water and air.
- Optical measurement technology ensures high stability and accuracy.
- Ideal for aquatic research, soil studies, and environmental testing.
- Handheld meter with LCD screen for easy field data viewing.
Infrared Radiometer Sensor – MI-210 (Apogee Instruments)
- Measures surface temperature without physical contact.
- Research-grade infrared radiometer with standard 22° field of view.
- High accuracy and fast response time for dynamic studies.
- Ideal for canopy, soil, and surface energy balance research.
LightScout Solar/Electric Quantum (PAR) Meter – SpecMeters
- Measures both solar and electric light for plant growth applications.
- Portable, self-contained device with built-in quantum sensor.
- Displays PAR in µmol/m²/s for accurate grow-light assessment.
- Ideal for greenhouse, indoor farming, and research use.
4-Component Net Radiometer – LPNET14 (Senseca)
- Measures shortwave and longwave radiation in both directions.
- Complies with ISO 9060 standards for net radiation sensors.
- Four separate sensors (two pyranometers + two pyrgeometers).
- Ideal for energy balance and meteorological research.
- Weatherproof and thermally stable for continuous field monitoring.
Net Irradiance Meter – LPNET07 (Senseca)
- Measures total net solar irradiance for radiation balance applications.
- Combines two thermopile sensors in a compact weatherproof unit.
- Provides analog or Modbus output for direct integration.
- Used in agriculture, building energy studies, and meteorology.
- Low maintenance with factory-calibrated accuracy.
Portable Lux Meter – HD2302.0 (Senseca)
- Handheld lux meter for measuring illuminance from natural or artificial light.
- Measures up to 200,000 lux with selectable ranges.
- Backlit LCD display with data hold and min/max functions.
- Compact, lightweight design for easy field use.
- Ideal for laboratories, lighting design, and plant growth studies.
Solar Spectral Measurement System – SEMS (Geonica)
- High-precision system for measuring solar spectral irradiance.
- Captures full spectral range from UV to NIR for research analysis.
- Provides real-time data for photovoltaic and atmospheric studies.
- Automated operation with built-in calibration and temperature control.
- Used in solar resource assessment and PV efficiency optimization.