As a miniaturized and intelligent air quality monitoring device, air micro stations have multiple advanced functional features and can meet diverse environmental monitoring needs. The following are the main functional features of air micro stations:
1. Real time monitoring 24/7
Continuous monitoring capability: Air micro stations can continuously monitor environmental air quality 24 hours a day, ensuring the continuity and integrity of data.
Real time data update: With built-in high-precision sensors, air quality data is collected and uploaded in real-time, allowing users to view the latest monitoring results at any time.
2. Multi parameter comprehensive monitoring
Pollutant monitoring: It can simultaneously monitor multiple air pollutants, including sulfur dioxide (SO ₂), nitrogen dioxide (NO ₂), ozone (O3), carbon monoxide (CO), PM2.5, PM10, and volatile organic compounds (TVOC).
Meteorological parameter monitoring: It can expand the monitoring of meteorological parameters (temperature, humidity, wind speed, wind direction, atmospheric pressure) and environmental parameters such as noise, providing users with more comprehensive environmental data.
3. High precision and high reliability
Advanced sensor technology: using high-precision sensors such as electrochemistry, laser scattering, and infrared absorption to ensure the accuracy and reliability of measurement results.
Strong anti-interference ability: It has functions such as temperature compensation and humidity compensation, effectively reducing the interference of environmental factors on measurement results.
Long life design: Sensors and key components have been optimized to have a long service life and reduce maintenance costs.
4. Online transmission and sharing of data
Wireless Communication Module: Built in 4G/5G, LoRa, Wi Fi and other wireless communication modules, supporting real-time data transmission to cloud platforms or data centers.
Multi platform compatibility: Data can be seamlessly integrated with environmental protection departments, enterprise monitoring platforms, or third-party applications to achieve data sharing and remote monitoring.
5. Intelligent management and analysis
Supporting Monitoring Platform: Provides a cloud based monitoring platform that allows users to view data, generate reports, and set alarm thresholds in real-time through a computer or mobile app.
Data analysis function: The platform supports historical data query, trend analysis, pollution tracing and other functions, helping users to deeply understand the laws of air quality changes.
Automatic alarm function: When the monitoring data exceeds the preset threshold, the system can automatically send alarm information to relevant personnel to respond to pollution incidents in a timely manner.
6. Flexible deployment and scalability
Small scale design: compact in size and lightweight, easy to install in various scenarios such as street lamp poles, building exterior walls, traffic signals, etc.
Modular structure: Supports flexible configuration and expansion of parameters, allowing users to choose monitoring parameters according to their actual needs, reducing initial investment costs.
Mobile monitoring capability: Some air micro stations support vehicle mounted or portable installation, suitable for mobile environment monitoring and emergency monitoring tasks.
7. Low power consumption and long battery life
Energy saving design: Using low-power sensors and communication modules to reduce energy consumption and extend device battery life.
Solar power supply option: Optional solar panels for long-term autonomous outdoor operation without the need for an external power source.
8. Easy to maintain and upgrade
Remote calibration and maintenance: supports remote software upgrades and sensor calibration, reducing on-site maintenance workload.
Self diagnostic function: The device has self checking capability, which can monitor the operating status in real time, detect and report faults in a timely manner.
Dustproof and waterproof design: The shell is made of materials with high protection levels, which can adapt to harsh environments and extend the service life of the equipment.
9. Widely applicable scenarios
Urban environmental monitoring: used for air quality monitoring in public places such as urban streets, parks, schools, hospitals, etc.
Industrial environment supervision: Monitor the exhaust emissions of enterprises in industrial parks and assist environmental protection departments in strengthening supervision.
Traffic pollution monitoring: Monitor the impact of motor vehicle exhaust emissions on air quality in busy traffic areas.
Ecological protection monitoring: Monitor changes in air quality in natural environments such as parks and forests to support ecological protection decisions.