【中文介绍】
Biral SWS-50 能见度传感器是一款由英国Biral公司设计的高精度环境监测设备,专为实时测量大气能见度而研发。该产品采用先进的光学传感技术,通过检测空气中悬浮颗粒对光的散射效应,实现对能见度数据的连续、稳定采集。其测量范围覆盖10米至50公里,可精准捕捉从浓雾到晴朗天气等多种环境条件下的能见度变化。
设备搭载智能温度补偿系统,能够有效消除极端温度对测量结果的影响,确保在-40℃至+60℃的宽温域内保持数据可靠性。创新的光学镜头自清洁设计可减少灰尘、雨雪等污染物对传感器的干扰,显著降低维护需求。紧凑型机身采用耐腐蚀材质,支持IP66防护等级,适用于海岸、高山、公路等多种复杂户外场景。
SWS-50能见度传感器提供多协议数字接口,可无缝集成气象站、交通管理系统及机场监测网络。其实时数据输出功能为气象预警、交通安全和航空调度提供关键决策支持。设备运行功耗低,支持太阳能供电方案,满足偏远地区长期监测需求。通过模块化设计,用户可根据实际应用场景灵活配置参数,是智慧城市建设和环境监测领域的优选解决方案。
【English Introduction】
The Biral SWS-50 Visibility Sensor is a precision environmental monitoring instrument developed by UK-based Biral for real-time atmospheric visibility measurement. Utilizing cutting-edge optical sensing technology, this device continuously captures visibility data by analyzing light scattering caused by airborne particles, with a detection range spanning from 10 meters to 50 kilometers. Its sophisticated algorithms ensure accurate monitoring across diverse weather conditions, from dense fog to clear skies.
Equipped with intelligent temperature compensation, the sensor maintains measurement accuracy within an operational temperature range of -40℃ to +60℃. The innovative self-cleaning optical system minimizes interference from environmental contaminants such as dust and precipitation, substantially reducing maintenance requirements. The compact housing, constructed with corrosion-resistant materials and IP66-rated protection, demonstrates reliable performance in challenging outdoor environments including coastal areas, mountainous terrain, and transportation corridors.
Featuring multi-protocol digital interfaces, the SWS-50 seamlessly integrates with weather stations, traffic management systems, and airport monitoring networks. Its real-time data output capability supports critical decision-making processes for meteorological early warning, road safety management, and aviation operations. With low power consumption and compatibility with solar power solutions, the device is ideal for extended deployment in remote locations. The modular design allows customizable parameter configuration to adapt to specific application scenarios, making it a versatile choice for smart city infrastructure and environmental monitoring projects.
