solar Environmental Monitoring System
Product Model: LS-5GF
Protection Class: IP67
Power Supply: DC 12V / AC 220V
Operating Temperature: -40°C to +70°C
Operating Humidity: 5% RH to 100% RH
Communication Method: RS485 / RS232, Modbus Protocol
The solar environmental monitoring system continuously collects data from various sensors, providing real-time insights into environmental conditions. This ensures timely detection of any anomalies and helps in maintaining optimal performance of solar installations.
Solar environmental monitoring can be collected
- Ambient Temperature
- Ambient Humidity
- Atmospheric Pressure
- Rainfall
- Wind Direction
- Wind Speed
- Solar Radiation (Horizontal/Inclined)
- Component Temperature
Solar Monitoring Environmental Image display
Product features
- With an IP67 rating, this device is perfect for long-term outdoor use. It’s got a tough aluminum-magnesium alloy shell that can handle impacts and resist corrosion. No matter the weather – rain, wind, or snow – this gadget keeps working without a hitch.
- Designed as one piece, it looks sleek and is super portable. The collector and sensor are integrated, and it uses a plug-and-play connection with the mounting bracket. No moving parts, making it the easiest photovoltaic environment monitor to install and remove.
- Environmental monitoring is energy-efficient and eco-friendly. With its low-power design, you can use solar panels to power it in remote areas without electricity. It can also run on mains electricity or a car power source.
- Small and lightweight, the core unit weighs under 4kg, making it easy to carry around. Despite its size, it offers high measurement accuracy and reliable stability, meeting meteorological observation standards. You can even use it handheld if needed.
- You can set the data collection interval to whatever suits you best, with a minimum interval of 1 second.
- It comes with a large built-in data storage that can hold hourly data for over a year. If you need more storage, you can expand it with a USB drive, allowing for unlimited data storage.
| Parameter | Measurement Range | Resolution | Accuracy |
|---|---|---|---|
| Ambient Temperature | -40 ~ +80°C | 0.1°C | ±0.2°C |
| Relative Humidity | 0~100%RH | 0.1%RH | ±2% (below 80%) ±5% (above 80%) |
| Dew Point Temperature | -40 ~ 50°C | 0.1°C | ±0.2°C |
| Wind Direction | 0~360° | 1° | ±3° |
| Wind Speed | 0~70m/s | 0.1m/s | ±(0.3+0.03V)m/s |
| Solar Radiation | 0-2000W/m² | 1W/m² | ±5% |
| Module Temperature | -40 ~ 120°C | 0.1°C | ±0.2°C |
| Rainfall | 0-999mm | 0.2mm | ±5% |
| Atmospheric Pressure | 300~1100hPa | 0.1 hPa | ±0.3hPa |
What are the benefits of using environmental monitoring systems?
Using solar power for environmental monitoring systems offers several benefits. It provides a renewable and sustainable energy source, reducing the carbon footprint of the monitoring activities. Solar power also allows for the deployment of monitoring systems in remote or off-grid locations, ensuring continuous data collection without the need for external power sources. Additionally, it can lower operational costs by eliminating the need for electricity from the grid.
How can the data from a solar environmental monitoring system be accessed and used?
Data from a solar environmental monitoring system can typically be accessed through a web-based user interface or a dedicated mobile app. Users can log in to view real-time data, historical trends, and visual images captured by the system. This data can be used for various purposes, such as environmental research, policy-making, and public awareness. Additionally, the data can be integrated with other systems and platforms for more comprehensive environmental analysis and reporting.
What are the main components of an EMS?
- Sensors: Detect environmental parameters, such as temperature sensors, humidity sensors, and gas sensors.
- Data Acquisition Devices: Collect and record data from the sensors.
- Data Transmission Modules: Transmit the data to a central system, often via wired or wireless networks.
- Data Analysis Software: Process and analyze the collected data to generate reports and alerts.
Which industries benefit from EMS?
- Manufacturing: Monitor temperature, humidity, and gas concentrations to ensure product quality and worker safety.
- Agriculture: Monitor environmental conditions in fields and greenhouses to optimize crop growth.
- Healthcare: Monitor hospital and laboratory environments to ensure the safe storage of medicines and samples.
- Research: Monitor laboratory environments to ensure the accuracy of experimental data.
How can EMS data security be ensured?
- Data Encryption: Encrypt data during transmission to prevent theft or tampering.
- Access Control: Restrict system access to authorized personnel only.
- Regular Backups: Regularly back up data to prevent data loss.
- Network Security Measures: Use firewalls, antivirus software, and other measures to protect the system from cyberattacks.
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