Poster

Integrated Agricultural Gas Detection Module

Integrated monitoring of temperature, humidity, light intensity, and CO₂

This integrated module combines multiple key environmental parameters, including temperature, humidity, light intensity, and CO₂ concentration, to provide real-time, continuous, and high-accuracy monitoring of agricultural environments. The sensor supports multiple communication interfaces and is suitable for greenhouses, modern agricultural bases, and smart farming systems, providing reliable data support for crop growth regulation, environmental optimization, and intelligent decision-making.

Key Advantages

High Sensitivity

Provides real-time environmental data output with fast response and stable performance.

Multi-Protocol Communication

Supports Wi-Fi, RS485, and ZigBee communication protocols.

Cost-Effective

The integrated multi-parameter design reduces deployment complexity and maintenance cost.

System Coordination

Compatible with smart agriculture platforms for automatic adjustment and coordinated control.

Agricultural System Architecture
Agricultural System Architecture Diagram
Agricultural System Architecture Diagram

Integrated Agricultural Gas Detection Module

Designed for modern protected agriculture and smart farming applications, the integrated agricultural sensor enables comprehensive sensing and refined management of growing environments by synchronously monitoring key parameters such as temperature, humidity, light intensity, and CO₂ concentration. In greenhouses, large-scale planting bases, seedling centers, and plant factories, the sensor continuously outputs stable and reliable data, providing real-time support for ventilation, supplemental lighting, humidification, and CO₂ control systems, helping crops grow in a controllable and stable environment. By working with agricultural IoT platforms and automation systems, the integrated sensor reduces dependence on manual inspection and experience-based management while improving the response efficiency and consistency of environmental control. This helps improve crop yield, stabilize quality, and optimize energy use, making agricultural production more scientific, efficient, and intelligent.

Agricultural Sensor Application Illustration
Technical Specifications
Integrated Agricultural Gas Detection Module
Detection Parameters
Temperature / Relative Humidity / Light Intensity / CO₂ Concentration
Operating Humidity
0 ~ 95 %RH (non-condensing)
Temperature Measurement Range
-20°C ~ +60°C
Protection Rating
IP65 (dustproof and water spray resistant, suitable for agricultural environments)
Temperature Accuracy
±0.5°C
Supply Voltage
DC 9 V ~ 24 V
Humidity Measurement Range
0 ~ 100 %RH
Power Consumption
≤ 1.5 W (typical)
Humidity Accuracy
±3 %RH
Communication Interface
RS485 / Modbus RTU / ZigBee / Wi-Fi (optional)
Light Measurement Range
0 ~ 200,000 Lux
Mounting Method
Wall-mounted / suspended / bracket-mounted
Light Measurement Accuracy
±5%
CO₂ Measurement Range
0 ~ 5,000 ppm (optional 10,000 ppm)
CO₂ Accuracy
±(50 ppm + 5% of reading)
Response Time
T90 ≤ 30 s
Operating Temperature
-20°C ~ +60°C