All in One Weather Station For Agrometeorological Monitoring

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Client Requirements

The client required a monitoring solution capable of stable, long-term operation in outdoor environments, with particular emphasis on the following points:

High-precision photosynthetic radiation monitoring: Accurate measurement of total solar radiation is required to calculate crop photosynthetic efficiency.
Self-sufficient power supply: The equipment must operate in the center of farmland far from the power grid.
Multi-parameter Integration: In addition to radiation, the system must integrate wind speed, wind direction, atmospheric pressure, temperature, humidity, and precipitation.
High Stability: Sensors must possess exceptional environmental adaptability to minimize maintenance frequency.

Solución

Following discussions, the Yantai technical team provided the client with an integrated weather station solution that combines a solar power system, a data acquisition system, and high-precision sensors.

This solution features a tripod-style mounting structure that seamlessly integrates solar panels, a waterproof control box, and a sensor array. Thermopile technology ensures ultra-fast response times for radiation measurements, while a double-glazed design effectively shields against environmental interference, guaranteeing agricultural research-grade data accuracy.

This All-in-One Weather Station consists of the following core modules:

1. TBQ-2C Total Solar Radiation Sensor:

The TBQ-2C Total Solar Radiation Sensor is used to acquire radiation data at the monitoring station, specifically designed to measure total solar radiation within the 0.3–3.2 μm wavelength range.

Elemento sensor: Utilizes a fast-response wound, electroplated thermopile. The sensing surface is coated with 3M matte black paint, serving as the hot junction.

Working Principle: When exposed to sunlight, the temperature of the sensing surface rises, creating a thermoelectric potential proportional to the intensity of solar radiation relative to the cold junction on the opposite side.

Double-layer quartz glass cover design: The outer layer is designed to minimize the impact of air convection on measurements; the inner layer specifically blocks infrared radiation generated by the outer glass cover, ensuring data purity.

2. Other Integrated Components

Compact weather sensor: Integrates ultrasonic wind speed and direction, temperature, humidity, and pressure sensors.
Solar Power System: High-efficiency polycrystalline silicon solar panels paired with a high-capacity battery.
Protective Enclosure and Data Logger: Built-in data acquisition module and 4G/5G transmission module enable remote monitoring.

Features of All in One Weather Station

High-Sensitivity Thermal Stability: The TBQ-2C sensor’s high sensitivity and double-layer thermal insulation design ensure data linearity even under complex weather conditions.
Superior Weather Resistance: The sensor housing is resistant to UV aging, and the desiccant design prevents internal fogging, extending service life.
Fully Automatic Operation: Low-power design combined with the solar system supports uninterrupted monitoring 365 days a year.
Integrated Installation: Compact mounting bracket design facilitates rapid deployment and relocation in farm fields.

Project Summary

By deploying this All-in-One weather station, the client has successfully achieved precise monitoring of solar radiation resources during the wheat growing season. The inclusion of the TBQ-2C solar radiation sensor not only provides basic meteorological indicators but also delivers critical solar radiation data, offering a scientific basis for precision fertilization and pest and disease early warning. This project has enhanced the farm’s technological capabilities and set a benchmark for the standardized development of smart agriculture.

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