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MODBUS-RTU RS485 Soil Moisture, Temperature & EC Sensor IP68, 5-30V - DFRobot SEN0601

:SEN06086
€43.90
Tax included

This sensor is suitable for measuring soil temperature, humidity and electrical conductivity. It has a wide voltage power supply of 5-30V and RS485 output. It can be used with the Arduino UNO R3 and TTL to 485 expansion board to build and test quickly.

The protection level of the soil sensor is IP68, and it is vacuum-filled and sealed with black flame-retardant epoxy resin. The probe material is made of 316 stainless steel, which is rustproof, waterproof, anti-corrosion, salt-alkali corrosion resistance and long-term electrolysis resistance. It is most affected by the salt content of the soil. It is small, can be buried in the ground for a long time and is suitable for various types of soil.

If you want to know more about this product, please check its Wiki Page.

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*Disclaimer: The images are merely illustrative.

Introduction

This soil sensor facilitates rapid acquisition of soil temperature, moisture, and electrical conductivity (EC) data, ensuring precise irrigation for optimal plant growth. It supports a wide voltage power supply range of 5-30V and communicates data via RS485 using the reliable MODBUS-RTU protocol. The sensor exhibits quick response times and delivers stable, reliable output. Seamlessly integrate it with an Arduino UNO R3 and a TTL to RS485 expansion board to efficiently create a test environment.

The protection level of the soil sensor is IP68, and it is vacuum-filled and sealed with black flame-retardant epoxy resin. The probe material is made of 316 stainless steel, which is rust-proof, waterproof, anti-corrosion, salt-alkali corrosion resistance, and long-term electrolysis resistance. It is more affected by the soil salt content. It is small, can be buried in the soil for a long time, and is suitable for various soil types.

Wiring Diagram of soil sensor and Arduino Uno

Wiring Diagram of soil sensor and Arduino Uno

 

 

Probe Material - 316 Stainless Steel

Probe Material - 316 Stainless Steel

 

The soil sensor has an automatic temperature compensation function for conductivity, which ensures measurement accuracy no matter how the environment changes.

It is widely used in agricultural irrigation, greenhouses, flowers and vegetables, grassland and pastures, soil rapid testing, plant culture, scientific experiments, grain storage and the measurement of moisture content and temperature of various particulate matter.

Soil temperature has a direct impact on plant growth. Proper soil temperatures help promote plant root growth and the ability to absorb nutrients. Generally speaking, higher soil temperature is helpful for plant growth because it can increase plant metabolism, promote nutrient absorption and transport, and increase plant microbial synthesis capabilities, thereby promoting plant growth rate and yield.

In addition, appropriate soil moisture helps plant roots absorb water and nutrients and maintains water balance within plant cells. If the soil moisture is too low, plant roots will be limited in absorbing water, which can lead to plant dehydration, stagnant growth or even death. Excessive soil moisture may cause hypoxia in plant roots, hinder normal respiration and nutrient absorption of roots, and thus affect plant growth and development.

Soil electrical conductivity (EC) is the level of salt in the soil (salinity). These parameters are important indicators of soil fertility and health, and ultimately affect plants. When soil has high salt content, the salt makes it difficult for plants to absorb water, even if the moisture content in the soil is high. This condition will eventually "burn" the plant. Plants grow best in their preferred environment within the optimal range of soil moisture, temperature and EC levels. Growers need data on these parameters and understand what actions need to be taken to ensure plant health and higher yields.

How to install and use the soil sensor

How to install and use the soil sensor

 

Features

  1. Wide Voltage Range: Supports 5-30V power supply.

  2. RS485 Output: Compatible with Arduino and other systems.

  3. Automatic Temperature Compensation: Ensures measurement accuracy regardless of environmental changes.

  4. Stainless Steel Probe: Designed for long-term burial in soil or water.

  5. IP68 Protection Level: Vacuum-filled and sealed with flame-retardant epoxy resin.

 

Applications

Applications of RS485 Soil Sensor - Grasslands and Pastures, Soil Rapid Testing

 

Specification

  1. Power supply voltage: DC5-30V

  2. Power consumption: 0.7W@24V

  3. Output mode: RS485

  4. Detection parameters: Temperature, Humidity, Electrical Conductivity (EC)

  5. Humidity parameters

    1. Measuring range: 0-100%

    2. Resolution: 0.1%

    3. Accuracy: 0-50%@±2%, 50-100%@±3%

  6. Temperature parameters

    1. Measuring range: -40°C~+80°C

    2. Resolution: 0.1°C

    3. Accuracy: ±0.5°C

  7. EC parameters

    1. Measuring range: 0-20000us/cm

    2. Resolution: 1us/cm

    3. Accuracy: 0-10000us/cm@±3%FS, 10000-20000us/cm@±5%FS

    4. Temperature compensation: memory temperature compensation, compensation range 0-50°C

  8. Protection level: IP68

  9. Probe material: anti-corrosion special electrode

  10. Sealing material: black flame retardant epoxy resin

  11. Working temperature: -40°C~+60°C

  12. Cable length: 2m

  13. Size: 123*45*15mm

 

Documents

 

Shipping List

  1. RS485 Soil Sensor (Temperature&Humidity&EC) x1

 

SEN06086

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