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Soil Sensor JXBS-3001-TH-RS

3,000.0

Brand JXCT
Part Number JXBS-3001-TH-RS
Temperature Measurement Range -40-80(Customizable)
Humidity Measurement Range 0-100% RH
Communication Port Analog quantity interface
Power Supply 12V-24V DC
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Soil Sensor JXBS-3001-TH-RS Introduction

Soil Sensor JXBS-3001-TH-RS transmitter is widely used in agricultural greenhouses, flower culture and other occasions need temperature and humidity monitoring. Three parts of the sensor input power supply, induction probe, signal output are completely isolated. safe and reliable, beautiful appearance and convenient installation.

Features

The temperature and humidity transmitter adopts high sensitivity probe, the signal is stable and the precision is high. It has the characteristics of wide measuring range, good linearity, good waterproof performance, convenient use, easy installation, long transmission distance and so on.

Materials Used:

  • Austenitic 316 Stainless Steel Probe
    • In the probe part, we choose austenitic 316 stainless steel as raw material, which is rust-proof, electrolytic and saline-alkali corrosion-resistant to ensure the long-term operation of the probe part. Therefore, it is suitable for all kinds of soil. It can cause abnormalities in sand and is not suitable for sand.
  • Low Power Sensitive Chip
    • Using top-level chips: Low power consumption, high sensitivity and signal stability.
  • Epoxy Resin Vacuum Pouring
    • High Temperature vacuum canning with high density epoxy resin between probe and airframe can prevent moisture from entering the airframe, and the airframe and the airproof performance is good.
  • Protection Class:IP68
    • In addition to the combination part, we also made waterproof and dust-proof treatment for the whole fuselage to ensure long-term operation of components, waterproof and dust-proof grade to IP68

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Sensors play a crucial role in modern agricultural farming by providing real-time data on various environmental factors and crop conditions. When it comes to sustainability, the use of sensors in agriculture can have both positive and negative implications. Here are some key points to consider:

  1. Water Conservation: Sensor technologies such as soil moisture sensors and weather-based irrigation controllers help optimize water usage by providing accurate information about soil moisture levels and weather conditions. This enables farmers to apply water precisely when and where it is needed, reducing water waste and promoting sustainable irrigation practices.

  2. Precision Farming: Sensors contribute to precision agriculture techniques, allowing farmers to monitor and manage their fields more efficiently. By precisely targeting inputs such as fertilizers, pesticides, and water, farmers can minimize waste and reduce environmental impacts, including water pollution and soil degradation.

  3. Resource Optimization: Sensors provide real-time data on crop health, nutrient levels, and pest infestations, enabling farmers to make informed decisions regarding resource allocation. This helps optimize the use of fertilizers, pesticides, and other inputs, minimizing their use and potential environmental harm.

  4. Energy Consumption: While sensors offer significant benefits, their use can also increase energy consumption. Sensors require power to operate and transmit data, and this energy requirement should be considered to ensure a sustainable balance. Efforts should be made to explore energy-efficient sensor technologies, utilize renewable energy sources, and optimize power management systems.

  5. E-Waste: The disposal of sensors and related electronic components can contribute to electronic waste (e-waste) accumulation. To address this, manufacturers and farmers should prioritize the use of durable, long-lasting sensors and implement appropriate recycling and waste management practices to minimize the environmental impact.

  6. Data Privacy and Security: The use of sensors generates vast amounts of data, including sensitive information about farming practices and crop conditions. It is crucial to ensure robust data privacy and security measures to protect farmers' information and prevent potential misuse.

In summary, the sustainability of sensors in agricultural farming largely depends on how they are used and managed. When properly implemented, sensors can contribute to more efficient resource utilization, reduced environmental impact, and improved productivity. However, attention must be given to energy consumption, e-waste management, and data privacy to ensure a holistic approach to sustainability in agricultural sensor applications.

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