loading
| Availability: | |
|---|---|
◀◀ Key Selling Points ▶▶
1. High Precision Measurement: The sensor measures solar radiation with an accuracy of ±5% and a resolution of 1W/m², ensuring reliable and precise data.
2. Wide Spectral Range: Covers a spectral range of 400~1100nm, making it suitable for various solar radiation measurement applications.
3. Multiple Output Options: Supports analog voltage (0~2V), analog current (4~20mA), and RS485 Modbus protocol, providing flexibility for different system integrations.
4. Robust Design: Features a waterproof seal (IP66 rating), making it suitable for outdoor use in harsh environments.
5. Low Power Consumption: Consumes only 7mA at 24V DC, making it energy-efficient.
6. Easy Installation: Equipped with a horizontal bubble and leveling mechanism for quick and accurate installation.
7. Compact and Portable: Small size (755558mm) and lightweight design make it easy to carry and install in various locations.
8. Wide Operating Temperature Range: Operates in temperatures from -40°C to 85°C, ensuring reliable performance in extreme conditions.
◀◀ Product Parameters ▶▶
Signal Output | Voltage output: 0~2V (Output Impedance≈0Ω) | Current Output: 4~20mA (Load resistance<500ohm) | RS485 Modbus protocol |
Power Supply | 3.9~30V/DC | 12~30V/DC | 3.9~30V/DC |
Static Power | 7mA@24V DC | 30mA@24V DC (with 20mA output signal) | 7mA@24V DC |
Range and Accuracy | Range: 0~2000W/m2, Accuracy: 5%, Resolution: 1W/m2 | ||
Spectral Range | 400~1100nm | ||
Cosine Response | Reading percent:±3% (0~±70°angle of incidence); ±10% (±70~±85°angle of incidence) | ||
IP Grade | IP66 | ||
Operating Environment | -40~85℃ | ||
Default Cable Length | 2m (or Customized) | ||
Dimension | 75*55*58mm | ||
◀◀ Application Scenarios ▶▶
1. Solar Energy Resource Assessment: Accurate measurement of solar radiation for assessing solar energy potential in different locations.
2. Photovoltaic Power Generation: Monitoring solar radiation to optimize the performance of solar panels and photovoltaic systems.
3. Agriculture and Horticulture: Measuring solar radiation for crop management, greenhouse control, and plant growth optimization.
4. Climate Change Research: Providing reliable solar radiation data for climate studies and environmental monitoring.
5. Heat Exchange Research: Measuring solar radiation for research on heat exchange systems and energy efficiency.
6. Solar Energy System Monitoring: Continuous monitoring of solar radiation to ensure the efficient operation of solar energy systems.
