This LoRaWAN solar water quality multi parameter sensor is designed specifically for real-time monitoring of multi parameter water quality monitoring needs. It is equipped with efficient solar modules and does not require frequent battery replacement, allowing for long-term battery life; Equipped with temperature compensation function to maintain high measurement accuracy. By connecting the LoRaWAN collector with a waterproof aviation connector, long-distance low-power wireless transmission can be achieved, solving the problems of difficult wiring and expensive maintenance of traditional wired devices. It can be used for monitoring industrial circulating water, municipal drinking water, surface water, and agricultural irrigation water, providing all-weather automatic continuous data support.
LoRaWAN water total hardness sensor measures water hardness as CaCO₃. With temperature compensation, it ensures fast, simple, accurate and economical testing. It connects to a LoRaWAN collector via aviation connector for wireless communication. It is widely used for online continuous water quality monitoring in industrial wastewater, surface water, drinking water, seawater and industrial process control.
LoRaWAN water quality calcium ion sensor is a wireless sensor for measuring the concentration of calcium ions in water, with automatic temperature compensation, less affected by the environment, and higher measurement accuracy. Connect with LoRaWAN collector through aviation connector to achieve wireless communication. Widely used for ion online automatic continuous analysis and detection in industrial wastewater, surface water, drinking water, seawater, and industrial production process control.
LoRaWAN water quality chlorophyll sensor is an LPWAN wireless low-power IoT sensor that integrates collection, monitoring, and transmission. Adopting filtering algorithm, strong resistance to external light interference, automatic temperature compensation, suitable for long-term online detection environment use. Supports standard LoRaWAN protocol for long-distance wireless transmission.
The solar blue-green algae sensor is a green and efficient solution for water environment monitoring. It is powered by solar energy and monitors the concentration of blue-green algae in water in real time. It does not require reagents and is easy to maintain. It is an ideal choice for early warning of unmanned algal blooms in lakes, reservoirs, and other water bodies.
The solar powered ammonia nitrogen sensor is an environmental sensing device used for real-time monitoring of ammonia nitrogen concentration in water bodies. It is powered by efficient solar cells, completely freeing itself from the constraints of wiring and power supply, and can be deployed in any outdoor water area. This sensor has high-precision measurement, wireless data transmission, and self-cleaning and anti pollution capabilities, which can effectively provide unmanned and low maintenance accurate water quality solutions for fields such as river and lake monitoring and aquaculture.
The solar COD sensor is an intelligent device that uses solar power to monitor the chemical oxygen demand (COD) of water in real-time online. It is suitable for outdoor unmanned long-term water quality monitoring, providing convenient and efficient data support for water environment protection.
Solar turbidity sensors are the smart choice for modern water quality monitoring. It completely breaks free from the constraints of electricity and cables, uses solar energy to achieve all-weather self power supply, and remotely transmits data through wireless technology, providing you with convenient, reliable, and environmentally friendly turbidity monitoring solutions in lakes, rivers, and remote areas.
The solar residual chlorine(CL) sensor is an outdoor water quality monitoring device that uses solar power to achieve real-time detection and remote data transmission of residual chlorine content. It is suitable for scenarios such as aquaculture and sewage treatment, and has the characteristics of no wiring and low maintenance.