Introduction: The SW100-T10 solar radiation sensor is a first-class pyranometer independently developed by our company that complies with ISO9060 and WMO technical standards. Total solar radiation at ~3000nm. SW100-T10 pyranometer adopts semiconductor thin film thermopile technology, which is widely used in the measurement of solar radiation energy such as meteorological detection, atmospheric environment monitoring, climate observation, solar energy utilization, agriculture, and building physics research. Features: 1. The SW100-T10 pyranometer is a first-class pyranometer, and its main performance has been tested by professional institutions, and its stability, response time, temperature response, and nonlinearity are better than the performance of the existing first-class pyranometers on the market; 2. The appearance is compact and beautiful, easy to install and cost-effective. Technical parameter: Signal output mode: 0~20mV/4~20mA/RS485 Operating temperature: -40~+85°C Protection class: IP67 Spectral range: 280~3000nm Test range: 0~2000W/m² Sensitivity: 7~14μV/W·m² Resolution: 1W/m² Annual stability: ≤2% Internal resistance: <50Ω Response time (95%): ≤15s Temperature response: <4%(-30℃~+80℃) Nonlinear error: <1% Directional response error: <20W/m² Zero offset: <1.5W/m² High and low temperature storage test: refer to GB/T 2423.2 -2008 Reference GB/T 2423.1-2008 High and low temperature operation test: refer to GB/T 2423.2-2008 Reference GB/T 2423.1-2008 Vibration test: refer to GB5170.14-85 Salt spray test: refer to ISO 6270 -1:1998 Reference ISO 7253:2001 Refer to ISO 12944-6:1998
Introduction: The SW100-T10 solar radiation sensor is a first-class pyranometer independently developed by our company that complies with ISO9060 and WMO technical standards. Total solar radiation at ~3000nm. SW100-T10 pyranometer adopts semiconductor thin film thermopile technology, which is widely used in the measurement of solar radiation energy such as meteorological detection, atmospheric environment monitoring, climate observation, solar energy utilization, agriculture, and building physics research.
