C4E digital sensor
Description
The C4E sensor features a 4-electrode system with alternating current and constant voltage. Its technology ensures accurate conductivity and salinity readings in most water applications, even in challenging conditions.
Advantages
- Simultaneous measurement of conductivity, salinity, temperature
- 4 measuring ranges and 1 automatic range
- Low energy consumption
- Modbus RS485 digital communication open protocol
Assets
- Open communication protocol (MODBUS RTU RS485 or SDI12)
- Sensor with very low energy consumption
Similar products
Why trust AQUALABO?
AQUALABO, a French company, offers a combination of experience, innovation, international presence, adaptability, and ecological commitment, making it a trusted partner for water quality control.
FAQ C4E digital sensor
Is temperature a factor that affects water conductivity measurement?
Yes, temperature is a significant factor influencing water conductivity. Our conductivity sensors are all temperature-compensated to provide accurate results.
How often do Aqualabo’s conductivity probes require recalibration and maintenance?
Thanks to smart digital technology, Aqualabo sensors, including CTZN and C4E, store calibration data internally, offering a plug and play experience without the need for frequent recalibration. Regular maintenance may include cleaning the electrodes, checking for damage and calibrating the sensors. The CTZN (inductive) requires minimal maintenance due to its resistance to fouling, making it a practical choice for installations where access for maintenance may be limited. While generally low maintenance, the C4E (4-electrode system) sensor may require more attention in environments prone to fouling.
Can Aqualabo sensors withstand harsh environmental conditions?
Yes, Aqualabo sensors are built to withstand challenging conditions. The sensors are IP68 rated and constructed with durable materials, ensuring reliability in various water environments.
What is the advantage of the 4-electrode system in C4E probes?
The 4-electrode system in C4E sensors provides enhanced accuracy by regulating voltage and compensating for fouling, ensuring precise conductivity measurements in wastewater, drinking water, and more.
What is the benefit of the inductive method used in CTZN probes?
The inductive method in CTZN sensors ensures resilience to fouling, making them particularly well-suited for applications where water conditions might lead to sensor contamination. This feature enhances the sensor's reliability, especially in environments prone to fouling or sedimentation.