Dissolved Oxygen Sensor Meter 316L Stainless DO Probe
Features
① Advanced Fluorescence Technology:Utilizes fluorescence lifetime measurement to deliver stable, precise dissolved oxygen data without oxygen consumption or flow rate limitations, outperforming traditional electrochemical methods.
② Fast Response: response time<120s, ensuring timely data acquisition for various applications.
③ Reliable Performance:High accuracy 0.1-0.3mg/L and stable operation within working temperature range of 0-40°C.
④Easy Integration:Supports RS-485 and MODBUS protocol for seamless connectivity, with power supply of 9-24VDC (recommended 12VDC).
⑤Low Maintenance:Eliminates the need for electrolyte replacement or frequent calibration, reducing operational costs and downtime.
⑥ Robust Construction:Features IP68 waterproof rating for protection against water immersion and dust ingress, paired with 316L stainless steel material, ensuring durability and suitability for harsh industrial or aquatic environments.
Product Paramenters
| Product Name | Dissolved Oxygen Sensors |
| Model | LMS-DOS10B |
| Respond Time | < 120s |
| Range | 0~60℃、0~20mg⁄L |
| Accuracy | ±0.1-0.3mg/L |
| Temperature Accuracy | <0.3℃ |
| Working Temperature | 0~40℃ |
| Storage Temperature | -5~70℃ |
| Power | 9-24VDC(Recommend12 VDC) |
| Material | Polymer Plastic/ 316L/ Ti |
| Size | φ32mm*170mm |
| Sensor Interface Supports | RS-485, MODBUS protocol |
| Applications | Suitable for online monitoring of clean water quality. Temperature built-in or external. |
Application
① Handheld Detection:
Ideal for on-site water quality assessment in environmental monitoring, research, and quick field surveys, where portability and fast response are crucial.
② Online Water Quality Monitoring:
Suitable for continuous monitoring in clean water environments such as drinking water sources, municipal water treatment plants, and industrial process water, ensuring water quality safety.
③ Aquaculture:
Specifically designed for harsh aquaculture water bodies, helping monitor dissolved oxygen levels to maintain optimal aquatic health, prevent fish suffocation, and improve aquaculture efficiency.
