【GMX600 MaxiMet微型气象站产品介绍】
GMX600 MaxiMet微型气象站是一款面向多领域环境监测需求设计的高集成度气象观测设备。该产品采用模块化结构设计,可精准采集温度、湿度、大气压力、风速、风向、降雨量、太阳辐射等核心气象参数,为农业种植、生态研究、智慧城市管理等场景提供实时环境数据支持。
在技术创新方面,设备搭载多传感器融合技术,通过智能补偿算法有效降低环境干扰,确保长期监测的稳定性。一体化机身采用工程级复合材料,内部电路经过特殊防护处理,可在-40℃至+70℃极端环境下持续运转。紧凑的外观设计(整体重量低于1.2kg)配合可调节安装支架,既能满足固定站点的长期观测,也可快速部署于临时监测点位。
数据管理方面,设备支持无线传输与本地存储双模式运行,兼容主流物联网平台。用户可通过可视化软件实时查看数据趋势,系统内置智能预警功能,当监测数值超出预设范围时可自动触发通知。低功耗设计配合可更换电池模块,保障设备在无外部供电情况下持续工作30天以上。
典型应用场景包括:精准农业中的微气候监测,辅助农户优化灌溉与施肥方案;城市热岛效应追踪,为绿化规划提供数据支撑;户外科研项目的环境参数记录;以及工业园区污染物扩散模型的建立等。设备配置灵活,用户可根据实际需求选配紫外辐射、土壤温湿度等扩展传感器。
【GMX600 MaxiMet Micro Weather Station Introduction】
The GMX600 MaxiMet Micro Weather Station is a highly integrated environmental monitoring solution designed for multi-scenario meteorological observation. This compact device combines multiple sensors to accurately measure temperature, humidity, barometric pressure, wind speed/direction, rainfall, and solar radiation, delivering reliable data support for precision agriculture, urban management, and ecological research.
Featuring modular design philosophy, the equipment incorporates advanced multi-sensor fusion technology. Its self-developed compensation algorithm effectively minimizes measurement deviations caused by environmental interference, achieving continuous monitoring accuracy within ±2% across all parameters. The ruggedized housing, constructed with industrial-grade composite materials, ensures stable operation in extreme temperatures ranging from -40℃ to +70℃. Weighing only 1.2kg with adjustable mounting brackets, it enables flexible deployment in both permanent installations and temporary field projects.
The system offers dual data handling modes with simultaneous wireless transmission and local storage capabilities. Compatible with mainstream IoT platforms, users can access real-time data through intuitive dashboard software. The built-in threshold alert function automatically triggers notifications when parameters exceed predefined ranges. Optimized power management extends battery life to over 30 days for standalone operations.
Practical applications span various fields: monitoring microclimates in farmlands to guide irrigation schedules, tracking urban thermal patterns for green space planning, collecting environmental data for scientific expeditions, and establishing pollution dispersion models in industrial zones. The expandable design allows customization through optional modules including UV radiation sensors and soil moisture probes, adapting to diverse monitoring requirements.
