|Product Name:||Turbidity Sensor||Measuring Technology:||Infrared Scattering Principle|
|Measuring Range:||Turbidity: 0.01~1000NTU Suspended Solids: 1~3000mg/L||Resolution:||0.01NTU/1mg/L|
|Accuracy:||Better Than 5% Of Measured Value Or 0.3NTU, Take The Larger One||Communication:||RS485 MODBUS-RTU|
|Related Configuration:||Humidity Alarm||Response Time:||T90＜15s|
|Calibration Method:||Multi-point Calibration; Contrast Offset; Factor Offset||Work Pressure:||≤4Bar|
|Operating Temp:||0~50℃ (does Not Freeze)||Shell Material:||POM+SS 316L (Customized Titanium)|
|Protection Grade:||IP68||Cable:||Standard 5 Meters|
RS485 Infrared Turbidity Analyzer,
SS316L Suspended Solids Sensor,
Industry Sewage Turbidity Analyzer
RS485 Infrared Turbidity /Suspended Solids Sensor For Industry Sewage
Infrared digital turbidity/suspended solids sensor OPTU850Z has many advantages in measuring water turbidity and suspended solids concentration, and adopts advanced technology in the process.
High precision: Infrared digital turbidity/suspended solids sensor adopts digital signal processing technology, which can achieve higher measurement precision and accuracy. Digital signal processing allows for finer processing and correction of the raw measurement signal, reducing measurement errors.
Real-time data output: These sensors can output measurement data in real time, and transmit the turbidity value or suspended solid concentration to the data acquisition system or controller in digital form, which is convenient for data recording, monitoring and remote control.
Strong anti-interference: Infrared digital turbidity/suspended solids sensor has high anti-interference performance, can work stably in complex environments, and reduces the influence of external interference on measurement results.
|Electrical Isolation||Electrical isolated communication and power interfaces|
|Measuring Technology||Infrared scattering principle|
Suspended solids: 1~3000mg/L
Suspended solids: 1~3000mg/L
|Accuracy||Better than 5% of measured value or 0.3NTU, take the larger one||Better than 5% of measured value or 1NTU, take the larger one|
|Related Configuration||Humidity alarm|
|Calibration Method||Multi-point calibration; Contrast Offset; Factor offset|
|Sample Flow Rate||Not dependent|
|Operating Temp||0~50℃ (does not freeze)|
|Storage Temp||-10~60℃ (does not freeze)|
|Shell Material||POM+SS 316L or POM+Titanium alloy|
|Dimension||Diameter: 52mm length: 260 mm|
|Mounting Thread||Horizontal installation, dedicated 90° mounting accessories|
|Lead interface||Split M16 connector|
|Power Supply||9~24V DC|
|Cable||Standard 5 meters (other length can be customized)|
Infrared digital turbidity sensor / solid suspended matter sensor OPTU850Z application environment:
Water quality monitoring: Infrared digital turbidity sensors can be used to monitor turbidity changes in water bodies such as tap water, surface water, rivers, lakes and reservoirs. In these environments, sensors help assess the cleanliness of water bodies and changes in water quality, as well as detect the presence of suspended particulate matter and pollutants.
Sewage treatment: In sewage treatment plants, infrared digital turbidity sensors can be used to monitor the turbidity of sewage before and after treatment, help evaluate the treatment effect and determine whether further treatment steps are required to ensure that the treated water quality meets the discharge standards.
Aquaculture: In hydroponic and aquaculture farms, infrared digital turbidity sensors can help monitor suspended matter in water to maintain a suitable water quality environment and promote the growth and health of plants and animals.
Industrial process: In some industrial production processes, especially those involving water treatment and suspended particulate matter, infrared digital turbidity sensors can be used to monitor and control the water quality in the production process.
Environmental monitoring: Infrared digital turbidity sensors can also be used in environmental monitoring projects, such as measuring water quality in rivers, lakes and oceans to monitor environmental changes and pollution conditions.
Infrared digital turbidity sensors are widely used in various fields involving water turbidity and suspended solids concentration. They provide a convenient, efficient, and accurate measurement method that contributes to water safety, environmental monitoring, and quality control of industrial production processes.
Contact Person: Yuki Fu