In today's world, ensuring safe and reliable drinking water is a fundamental priority for communities and water utilities. Changes in water quality can occur at any stage of treatment or distribution and may pose risks to public health if not detected early. Continuous monitoring is essential to maintain water quality standards and build trust in drinking water systems. Our IoT sensors for drinking water monitoring provide real time insight into critical water quality parameters.
Our IoT sensors continuously measure essential parameters that indicate drinking water quality and system performance.
Dissolved Oxygen
Dissolved oxygen levels provide insight into biological activity and overall water condition. Monitoring dissolved oxygen supports stable treatment processes and early detection of abnormal changes.
Temperature
Water temperature influences chemical reactions, microbial growth, and disinfection efficiency. Continuous temperature monitoring helps maintain consistent treatment performance.
pH
pH levels are critical for water safety and treatment effectiveness. Accurate pH monitoring ensures water remains within safe limits and protects distribution infrastructure.
ORP
Oxidation reduction potential indicates the effectiveness of disinfection processes. Monitoring ORP supports proper control of disinfectants and helps maintain microbiological safety.
Turbidity
Turbidity measures the presence of suspended particles in water. Continuous turbidity monitoring provides early warning of filtration issues or contamination events.
Dissolved Oxygen Range: From 0 to 200 %, 0 ... 20 mg/L, 0 ... 20 ppm Resolution: 0.01 %, 0.01 mg/L, 0.01 ppm Accuracy: ±1 %, ±0.1 mg/L, ±0.1 ppm Temperature Range: From 0 to 50 °C Resolution: 0.01 °C Accuracy: 0.5 °C Length cable: 7m LoRaWAN® class A 2 C alkaline batteries
PH Range: From 0 to 14 units ORP Range: From -1000 to +1000 mV Temperature Range: From -10 to +50 °C Langth cable: 7m LoRaWAN® class A 2 C alkaline batteries *Handset not included. Optional on request
Turbidity sensor Range: From 0 to 4000 NTU From 0 to 4500 mg/L Resolution: 0.1 NTU, 0.1 mg/L Accuracy: < 5 % of reading Temperature Range: From 0 to 50 °C Resolution: 0.01 °C Accuracy: 0.5 °C Length cable: 7m LoRaWAN® class A 2 C alkaline batteries
Turbidity sensor Range: From 0 to 50 g/L Resolution: 0.01 @ 1 FAU Accuracy: +/- 5% (range 200-4000 FAU) Temperature Range: From 0 to 50 °C Resolution : 0.01 °C Accuracy: +/- 0.5 °C Length cable: 7m LoRaWAN® class A 2 C alkaline batteries
Improved Water Safety
Real time monitoring enables rapid detection of water quality changes, helping protect public health.
Regulatory Compliance
Continuous data supports compliance with drinking water regulations and simplifies reporting and audits.
Early Issue Detection
Abnormal changes in pH, turbidity, or ORP can be identified quickly, allowing corrective action before problems escalate.
Optimized Treatment Processes
Accurate sensor data helps optimize chemical dosing and filtration efficiency.
Reduced Operational Risk
Proactive monitoring minimizes the risk of system failures and unplanned service disruptions.
Data Driven Water Management
Reliable data supports informed decision making and long term planning for water infrastructure.
By monitoring dissolved oxygen, temperature, pH, ORP, and turbidity, drinking water systems gain continuous visibility into water quality from source to distribution. This enables safer operation, improved efficiency, and greater confidence in water supply.
Safe drinking water depends on accurate measurement. Monitor water quality in real time and protect public health with confidence.
