The ISC40 series offers a robust solution for high-accuracy and low-maintenance conductivity measurements. The inductive technology ensures that the sensor's measuring element does not come into direct contact with the process, eliminating common problems such as coating, polarisation and electrode contamination.
The sensor's measuring elements are encapsulated in PEEK or PFA material, providing excellent chemical resistance and durability even in aggressive environments. The ISC40 is compatible with several mounting options, including flanges and grommets, making it flexible for different installation needs.
The ISC40 has a wide measurement range, from 1 μS/cm to 2 S/cm, making it suitable for applications requiring reliable measurements in low to high conduction ranges. With temperature resistance up to 130°C and an erosion-resistant design, it is ideal for use in processes with high performance and durability requirements.
Features and benefits
- Inductive technology: Eliminates problems such as polarisation and coating, ensuring accurate and stable measurements.
- Wide measurement range: Supports conductivity measurements from 1 μS/cm to 2 S/cm.
- High chemical resistanceAvailable in PEEK and PFA materials for excellent durability in aggressive chemical environments.
- Flexible installation: Compatible with flanged and grommet mounts as well as several bracket options.
- Temperature resistant: Withstands temperatures up to 130°C for demanding applications.
- Maintenance free: The design requires minimal maintenance and ensures a long service life.
- Improved sustainability: When installed correctly, the sensor stays clean through the flow, reducing measurement errors.
Applications
- Industrial processes: Reliable measurements in chemical processes and slurry applications.
- Water and wastewater treatment: Management control to ensure quality and compliance.
- Food and beverage industry: Accurate measurements in CIP systems and other hygienic processes.
- Paper and pulp industry: Long-lasting performance in high-wear processes.
