Pyranometer

A pyranometer is a key instrument used to measure solar radiation on a flat surface. It is widely used in fields like renewable energy, agriculture, and meteorology. Whether it’s for planning a solar power plant or monitoring daily sunlight, a pyranometer provides accurate data that supports smart energy decisions. It is a core part of any weather monitoring system or solar weather station, helping track how much solar energy reaches the Earth.

Pyranometer

ML-01 Si Pyranometer – Solar Radiation Measurement

Pyranometer

MS-40 Class C Pyranometer – Solar Radiation Measurement

Pyranometer

MS-40S Class C Pyranometer – Solar Radiation Measurement with Modbus Output

Pyranometer

MS-60 Class B Pyranometer – Solar Radiation Measurement

Pyranometer

MS-60S Class B Pyranometer – Solar Radiation Measurement

Pyranometer

MS-80 Class A Pyranometer – Solar Radiation Measurement

Pyranometer

MS-80S Class A Pyranometer – Solar Radiation Measurement

Pyranometer

LPPYRA-Lite Class C Pyranometer – Solar Radiation Measurement

Pyranometer

LPPYRA-LiteAC Spectrally Flat Pyranometer – Solar Radiation Measurement

Pyranometer

LPPYRA03... Series Spectrally Flat Class C Pyranometers – Solar Radiation Measurement

Pyranometer

LPPYRA13... Series Spectrally Flat Class A Pyranometers – Solar Radiation Measurement

Pyranometer

LPSILICON-PYRA04 Silicon Pyranometer – Solar Radiation Measurement

Pyranometer

SPN1 Sunshine Pyranometer – Global, Diffuse Radiation & Sunshine Duration Measurement

Pyranometer

LPS03... PYRAsense03 Pyranometer – Solar Radiation Measurement

Pyranometer

SR300-D1 Spectrally Flat Class A Pyranometer – Hemispherical Solar Radiation Measurement

Pyranometer

SR200-D1 Spectrally Flat Class A Pyranometer – Hemispherical Solar Radiation Measurement

Pyranometer

SR100-D1 Spectrally Flat Class B Pyranometer – Hemispherical Solar Radiation Measurement

Pyranometer

MS-80SH Class A Pyranometer – Global Radiation Measurement

Pyranometer

MS-80SH Plus+ Class A Pyranometer – Global, Direct & Diffuse Solar Radiation Measurement

Pyranometer

ML-02 Si-Pyranometer – Solar Radiation Measurement

Pyranometer

SR20-D2 Spectrally Flat Class A Pyranometer – Hemispherical Solar Radiation Measurement

Pyranometer

SR25 Spectrally Flat Class A Pyranometer – Solar Radiation Measurement

Pyranometer

PID01 Pyranometer Insulation Disk – Electrical Isolation Mounting Accessory

Pyranometer

VU01 Ventilation Unit – Pyranometer & Pyrgeometer Ventilation System

Pyranometer

SR30-M2-D1 Spectrally Flat Class A Pyranometer – Solar Radiation Measurement

Pyranometer

SR15-D1 Spectrally Flat Class B Pyranometer – Solar Radiation Measurement

Pyranometer

SR15-D2A2 Spectrally Flat Class B Pyranometer – Solar Radiation Measurement

Pyranometer

SR15-A1 Spectrally Flat Class B Pyranometer – Solar Radiation Measurement

Pyranometer

LPPYRA02… Series Pyranometer

Pyranometer

LPPYRA10… Series – Pyranometers

Pyranometer

PYRAsense10 Spectrally Flat Class A Pyranometer – Solar Irradiance Measurement

Pyranometer

SP Lite2 Silicon Pyranometer – Global Solar Irradiance Measurement

Pyranometer

SMP3 Smart Pyranometer – Global Solar Irradiance Measurement

Pyranometer

SMP6 Spectrally Flat Class B Pyranometer – Global Solar Irradiance Measurement

Pyranometer

SMP10 Spectrally Flat Class A Pyranometer – Global Solar Irradiance Measurement

Pyranometer

SMP12 Spectrally Flat Class A Pyranometer – Global Solar Radiation Measurement

Pyranometer

SMP22 Spectrally Flat Class A Pyranometer – Global Solar Radiation Measurement

Pyranometer

CM4 High-Temperature Pyranometer – Solar Radiation Measurement

Pyranometer

CMP3 Thermopile Pyranometer – Solar Irradiance Measurement

Pyranometer

CMP6 Thermopile Pyranometer – Global Solar Radiation Measurement

Pyranometer

CMP10 Class A Thermopile Pyranometer – Global Solar Radiation Measurement

Pyranometer

CMP21 Class A Research Grade Thermopile Pyranometer – Global Solar Radiation Measurement

Pyranometer

CMP22 Class A Quartz Dome Thermopile Pyranometer – Global Solar Radiation Measurement

Pyranometer

SR20 Class A Pyranometer – Global Solar Radiation Measurement

Pyranometer

LPR10M0T PyraFast Class A Pyranometer – Global Solar Irradiance Measurement

Frequently Asked Questions

A pyranometer is a type of solar radiation sensor that measures the total incoming solar radiation from the sky. It captures both the direct sunlight and the diffuse light scattered by clouds or particles. The data it collects is measured in watts per square meter (W/m²). These readings are essential for determining how much solar energy is available at a specific location.
This makes the pyranometer an important component in solar weather stations, solar energy projects, climate studies, and agricultural systems where sunlight affects growth and yield.

The working principle of a pyranometer is based on how it detects and converts sunlight into an electrical signal. There are two main types based on the sensor used:
1. Thermopile Sensor Pyranometer
This type uses a black-coated surface that absorbs sunlight. As the surface heats up, it creates a temperature difference between the hot and cold junctions. This difference produces a small voltage (Seebeck effect), which is directly proportional to the solar radiation.
2. Silicon Photodiode Sensor Pyranometer
In this version, a silicon photodiode converts light into an electrical current. These sensors are faster and more affordable, making them common in basic weather monitoring systems or portable irradiance meters.

Pyranometers are also classified according to the ISO 9060 standard, which helps determine their accuracy and reliability:
1. Class A (Secondary Standard)
High-accuracy devices used for scientific research, solar power plants, and professional energy audits. These are commonly installed in utility-scale solar weather stations.
2. Class B (First Class)
Used in commercial solar energy systems and environmental studies where a balance of accuracy and cost is needed.
3. Class C (Second Class)
Budget-friendly instruments used for basic environmental tracking or educational purposes.
These classes help users choose the right solar pyranometer depending on the accuracy needed and the application.

A pyranometer is designed to measure different types of solar radiation. These include:
1. GHI – Global Horizontal Irradiance
This is the total amount of solar radiation (direct + diffuse) falling on a horizontal surface. GHI is the most commonly measured value in solar weather stations and solar energy systems.
2. DNI – Direct Normal Irradiance
This is the amount of sunlight coming directly from the sun, without any scattering. It is measured using a pyrheliometer, not a pyranometer. However, both instruments are often used together in solar studies—referred to as pyranometer and pyrheliometer setups.
3. DHI – Diffuse Horizontal Irradiance
This measures only the scattered light coming from the sky, excluding direct sunlight. It is usually measured with a shaded pyranometer that blocks direct rays from the sun.
Together, GHI, DNI, and DHI provide a full picture of solar radiation and help design efficient solar systems.

Because of their versatility and accuracy, pyranometers are used in a variety of fields:
Weather monitoring systems for environmental data
Solar weather stations to monitor and predict energy output
Scientific research related to the Earth’s energy balance
Agriculture, to track sunlight for crop growth
Building design and energy efficiency evaluations
PV (photovoltaic) performance analysis and diagnostics
In many of these cases, a solar pyranometer is used alongside other tools like the irradiance meter or pyrheliometer for a more comprehensive view.

Though both tools measure solar radiation, they do so differently:
A pyranometer captures radiation from the whole sky, including direct and scattered sunlight.
A pyrheliometer focuses only on the direct sunlight and must be mounted on a solar tracking system to stay aligned with the sun.
In solar energy systems, using both gives a better understanding of the site's solar resource.

Choosing the right pyranometer is essential for ensuring accurate solar measurements. Poor-quality sensors can lead to incorrect energy estimates, resulting in financial losses. Whether you need a basic solar radiation sensor for agricultural use or a high-end ISO Class A model for a large solar plant, picking a reliable and accurate instrument is key.

Pyranometer

ML-01 Si Pyranometer – Solar Radiation Measurement

MS-40 Class C Pyranometer – Solar Radiation Measurement

MS-40S Class C Pyranometer – Solar Radiation Measurement with Modbus Output

MS-60 Class B Pyranometer – Solar Radiation Measurement

MS-60S Class B Pyranometer – Solar Radiation Measurement

MS-80 Class A Pyranometer – Solar Radiation Measurement

MS-80S Class A Pyranometer – Solar Radiation Measurement

LPPYRA-Lite Class C Pyranometer – Solar Radiation Measurement

LPPYRA-LiteAC Spectrally Flat Pyranometer – Solar Radiation Measurement

LPPYRA03... Series Spectrally Flat Class C Pyranometers – Solar Radiation Measurement

LPPYRA13... Series Spectrally Flat Class A Pyranometers – Solar Radiation Measurement

LPSILICON-PYRA04 Silicon Pyranometer – Solar Radiation Measurement

SPN1 Sunshine Pyranometer – Global, Diffuse Radiation & Sunshine Duration Measurement

LPS03... PYRAsense03 Pyranometer – Solar Radiation Measurement

SR300-D1 Spectrally Flat Class A Pyranometer – Hemispherical Solar Radiation Measurement

SR200-D1 Spectrally Flat Class A Pyranometer – Hemispherical Solar Radiation Measurement

SR100-D1 Spectrally Flat Class B Pyranometer – Hemispherical Solar Radiation Measurement

MS-80SH Class A Pyranometer – Global Radiation Measurement

MS-80SH Plus+ Class A Pyranometer – Global, Direct & Diffuse Solar Radiation Measurement

ML-02 Si-Pyranometer – Solar Radiation Measurement

SR20-D2 Spectrally Flat Class A Pyranometer – Hemispherical Solar Radiation Measurement

SR25 Spectrally Flat Class A Pyranometer – Solar Radiation Measurement

PID01 Pyranometer Insulation Disk – Electrical Isolation Mounting Accessory

VU01 Ventilation Unit – Pyranometer & Pyrgeometer Ventilation System

SR30-M2-D1 Spectrally Flat Class A Pyranometer – Solar Radiation Measurement

SR15-D1 Spectrally Flat Class B Pyranometer – Solar Radiation Measurement

SR15-D2A2 Spectrally Flat Class B Pyranometer – Solar Radiation Measurement

SR15-A1 Spectrally Flat Class B Pyranometer – Solar Radiation Measurement

LPPYRA02… Series Pyranometer

LPPYRA10… Series – Pyranometers

PYRAsense10 Spectrally Flat Class A Pyranometer – Solar Irradiance Measurement

SP Lite2 Silicon Pyranometer – Global Solar Irradiance Measurement

SMP3 Smart Pyranometer – Global Solar Irradiance Measurement

SMP6 Spectrally Flat Class B Pyranometer – Global Solar Irradiance Measurement

SMP10 Spectrally Flat Class A Pyranometer – Global Solar Irradiance Measurement

SMP12 Spectrally Flat Class A Pyranometer – Global Solar Radiation Measurement

SMP22 Spectrally Flat Class A Pyranometer – Global Solar Radiation Measurement

CM4 High-Temperature Pyranometer – Solar Radiation Measurement

CMP3 Thermopile Pyranometer – Solar Irradiance Measurement

CMP6 Thermopile Pyranometer – Global Solar Radiation Measurement

CMP10 Class A Thermopile Pyranometer – Global Solar Radiation Measurement

CMP21 Class A Research Grade Thermopile Pyranometer – Global Solar Radiation Measurement

CMP22 Class A Quartz Dome Thermopile Pyranometer – Global Solar Radiation Measurement

SR20 Class A Pyranometer – Global Solar Radiation Measurement

LPR10M0T PyraFast Class A Pyranometer – Global Solar Irradiance Measurement

Frequently Asked Questions

What is a Pyranometer ?

Working Principle of a Pyranometer

1. Thermopile Sensor Pyranometer

2. Silicon Photodiode Sensor Pyranometer

Types of Pyranometers Based on ISO Classification

1. Class A (Secondary Standard)

2. Class B (First Class)

3. Class C (Second Class)

What Does a Pyranometer Measure ?

1. GHI – Global Horizontal Irradiance

2. DNI – Direct Normal Irradiance

3. DHI – Diffuse Horizontal Irradiance

Applications of Pyranometers

Pyranometer vs Pyrheliometer

Why Choose the Right Pyranometer ?