Soil Sensor JXBS-3001-EC-I20 Introduction
Soil Sensor JXBS-3001-EC-I20 is a high functional and digital display soil meter. Agricultural sensor series products are widely used in agricultural greenhouses, flower cultivation, pasture grassland and other occasions, real-time monitoring of temperature and humidity, light care, soil and other conditions, including temperature and humidity sensors, soil conductivity (EC) sensors, illuminance sensors, and other types All-in-one sensor. This product uses a highly sensitive gas detection probe with stable signal and high precision. The soil conductivity sensor is suitable for measuring the total salt content (conductivity) of the soil. The soil conductivity sensor greatly facilitates the customer system’s assessment of soil conditions. Compared with the German original high-accuracy sensor, the precision is high, the response is fast, and the output is stable. Suitable for all kinds of soil. Can be buried in soil for a long time, resistant to long-term electrolysis, corrosion resistance, vacuum potting, completely waterproof.
Methods of testing
- Speed measurement method
- Select the appropriate measurement site, avoid the stones, ensure that the steel needle does not hit a hard object, throw the topsoil at the required depth of measurement, keep the underlying soil tightness, grip the sensor vertically into the soil, insert It is not possible to shake left and right. It is recommended to measure multiple times within a small area of a measurement point to obtain the average value.
- Buried method
- Dig a pit with a diameter of >20cm vertically and insert the sensor steel needle horizontally into the wall of the pit at a predetermined depth. After the pit is buried tightly and stable for a period of time, it can be measured and recorded for several days, months, or even longer
Precautions
- Steel needle must be fully inserted into the soil.
- Avoid direct sunlight on the sensor and cause excessive temperature. Use caution in the field against lightning strikes.
- Do not violently bend the steel needle, do not force pull the sensor leads, do not beat or violently hit the sensor.
- Sensor protection grade IP68, the sensor can be soaked in water.
- Due to the presence of radio frequency electromagnetic radiation in the air, it should not be in a state of power in the air for a long time.
Application
- Detection of Acid Soil
- Alkaline Soil Detection
- Matrix Soil Detection
- Seedbed Soil Testing
- Copra Soil Testing
Sensors play a crucial role in enhancing sustainability in agricultural farming. They enable farmers to monitor and manage various aspects of their operations more efficiently, leading to optimized resource utilization and reduced environmental impact. Here are some ways in which sensors contribute to agricultural sustainability:
Water Management: Sensor technologies such as soil moisture sensors, weather stations, and evapotranspiration sensors help farmers optimize irrigation practices. By monitoring soil moisture levels and weather conditions in real-time, farmers can precisely determine when and how much water to apply, minimizing water waste and reducing the risk of over- or under-irrigation.
Nutrient Management: Sensors, such as soil nutrient sensors and plant sap analysis tools, allow farmers to accurately measure nutrient levels in the soil and plants. This information helps optimize fertilizer application, preventing excessive use and minimizing nutrient runoff, which can pollute water bodies and harm ecosystems.
Pest and Disease Management: Sensor-based monitoring systems help detect early signs of pests and diseases in crops. For instance, automated pest traps, weather-based pest models, and image recognition systems can identify pest infestations or disease symptoms. By identifying issues at an early stage, farmers can take targeted and precise actions, reducing the need for broad-spectrum chemical treatments and minimizing the environmental impact.
Yield Optimization: Sensors, such as crop yield monitors and yield mapping systems, enable farmers to collect detailed data on crop performance. This information helps identify areas of the field with higher or lower productivity, allowing farmers to implement site-specific management strategies. By optimizing input application and focusing resources where they are most needed, farmers can maximize yields while minimizing resource wastage.
Energy Efficiency: Sensors contribute to energy conservation in agriculture by enabling smart automation and control systems. For example, sensors can monitor temperature, humidity, and light levels in greenhouses, optimizing climate control and reducing energy consumption. Similarly, sensors can regulate irrigation systems, machinery operation, and other energy-intensive processes, ensuring efficient use of power resources.
Decision Support: Sensor data combined with advanced analytics and machine learning techniques provide valuable insights for decision-making. By leveraging historical data and real-time sensor information, farmers can make informed choices regarding planting, harvesting, resource allocation, and other critical activities. This data-driven approach helps optimize resource usage, reduce waste, and enhance overall farm sustainability.
While sensors offer substantial benefits in agricultural sustainability, their adoption and effectiveness depend on several factors such as cost, reliability, compatibility, and accessibility. Additionally, ensuring proper data privacy and security measures is crucial when implementing sensor-based systems in agriculture.
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