The Xylem TetraCon 925 is a universal IDS conductivity cell designed for precise conductivity measurement in aqueous samples. Featuring robust graphite electrodes and proven four-electrode technology, this sensor delivers reliable and accurate readings across a wide measurement range. Built with an epoxy shaft and integrated temperature sensor, it is ideal for demanding applications in laboratories and field environments. The 1.5 m fixed cable comes with a waterproof digital connector for secure and flexible usage.
Product Features
- 4-electrode digital conductivity sensor with graphite electrodes
- Cell constant: 0.475 cm⁻¹
- Epoxy shaft for enhanced durability and chemical resistance
- 1.5 m fixed cable with waterproof digital connector
- Suitable for use with IDS-enabled meters
Highlights
- Proven 4-electrode technology ensures accurate and stable measurements
- Integrated NTC 30 kΩ temperature sensor for automatic compensation
- Automatic transfer of cell constant and temperature settings
- Extremely wide measurement range from 1 µS/cm to 2000 mS/cm
- Waterproof up to 10 bar (IP68 rating)
- Robust design for both field and lab applications
Benefits
- Delivers precise and consistent conductivity readings across various sample types
- Low maintenance and long-lasting design with rugged epoxy construction
- Quick setup with automatic parameter transfer to the measuring instrument
- Ideal for challenging environments including environmental monitoring, industrial, and lab settings
Why Choose Xylem TetraCon 925?
The Xylem TetraCon 925 is engineered for reliability and precision. Whether you're testing drinking water, wastewater, or industrial process samples, this sensor provides superior performance backed by Xylem’s expertise in electrochemical technology. With durable construction, intelligent integration, and a wide operating range, the TetraCon 925 is a trusted choice for conductivity measurements in a variety of settings.
Choose the Xylem TetraCon 925 for dependable, accurate conductivity measurements — even in demanding environments.
