top of page
Golf Course

Specialised Meteorological Systems

Specialized meteorological systems are essential for addressing specific environmental and industrial requirements. From early rain warning systems to renewable energy optimization, these advanced solutions provide precise data and insights to enhance decision-making, improve safety, and support sustainability goals.

pluvi-one system.png
pluvi-one system.png

Pluvi-ONE System

Pluvi-ONE is an advanced rain monitoring and early warning solution designed for precise rainfall measurement and real-time alerting.

 

Combining state-of-the-art sensors, communication systems, and a robust data logger, it excels in providing actionable insights and enhancing hydrometric monitoring networks.

  • Monitors rain amount and intensity with a Class A rain gauge (UNI EN 17277:2020) featuring intensity correction.

  • Measures storm distance (lightning) with optional sensors for water level, air temperature, and humidity.

  • Smart rain analysis with cumulative totals and running values for alarm thresholds.

  • Sends alerts via SMS, email, and MQTT when thresholds are exceeded.

  • Features a powerful data logger with 16 MB internal memory and 4 GB external storage.

  • Equipped with GPRS/3G/4G modem and router for remote communication.

  • Integrated web server for real-time data display, diagnostics, and Excel file downloads.

Pluvi-ONE is the ideal choice for remote and autonomous operations, offering unmatched reliability for rain monitoring, storm analysis, and early warning activities.

G.Re.T.A.

GeoRestivimeter for Time Lapse Analysis

G.Re.T.A. is an advanced system for permanent geoelectrical monitoring, designed to analyze the conditions of large soil sections with precision and efficiency. 

 

By measuring alterations in the soil’s resistivity profile over time, it provides critical insights into water content, cavity presence, and other anomalies. This system is designed to monitor and protect the integrity of soil embankments and tailing dams against the risk of infiltration.

The features include:

  • Employs Electric Resistivity Tomography (ERT) for accurate soil characterization.

  • Measures resistivity using input and measurement electrodes to determine water content and detect anomalies.

  • Remote sensing capabilities with Cloud-based visualization and configuration tools.

  • Energy-autonomous system for continuous operation in remote areas.

  • Sends automatic alarm messages when thresholds are exceeded.

  • Easy-to-install, off-the-shelf solution for long-term soil monitoring.

G.Re.T.A. is the innovative choice for soil monitoring, offering real-time data and reliability for geotechnical and environmental applications.

Sensors for Renewable Energy

Class A Pyranometer.png
Class B Pyranometer.png
Class C Pyranometer.webp
calibrated cell.png
MSB.png
Net solar radiation.png
Soiling.webp

We offer a comprehensive range of sensors designed to optimize solar energy systems and environmental monitoring. These high-performance instruments ensure precise data collection for diverse renewable energy applications.

Class A Pyranometer

DPA952
High-precision radiometer for solar irradiance measurement, classified as Class A under ISO 9060 with a daily uncertainty of only 2%. 

Class B Pyranometer

DPA154
Provides reliable solar irradiance measurements with a flat spectral response (285–3000 nm) and total daily uncertainty of 5%. Classified as Class B under ISO 9060.

Class C Pyranometer

DPA053A

A cost-effective radiometer for measuring global solar irradiance, classified as Class C according to ISO 9060 and WMO No. 8.

Calibrated Cell

PRRDA4000

Designed for photovoltaic systems, this reference cell evaluates solar insolation within the spectral band of PV panels.

Net Solar Radiation Sensor

DPA840 / PRRDA0130

Measures net solar radiation as the balance between incident solar radiation and reflected or re-emitted energy, using high-sensitivity thermopile technology.

Soiling Sensor

PRPMA4100

Measures the soiling ratio on photovoltaic panels using Mars optical technology. By analyzing time-lapse images of the sensor lens, it quantifies the deposition of dirt particles.

MSB – Modbus Sensor Box

MDMMA1010.1

A versatile signal converter for integrating solar irradiance, temperature (Pt100), and wind speed sensors into RS485 Modbus RTU systems. Also supports storm distance sensor inputs.

bottom of page