Conductivity Transmitter-Baumer CombiLyz AFI5
Precise analysis and exact differentiation of fluid media
- Analog output of either conductivity or concentration
- Large touchscreen with varied presentation of process variables
- Short reaction time and fast temperature condensation
- Integrated programmable switching output
- Hygienic and durable one-piece design
- Digital integration by communication interface
The Baumer CombiLyz AFI5 is a high-performance conductivity transmitter designed for precise monitoring and control of conductivity in industrial processes. Featuring advanced sensor technology and a robust design, the CombiLyz AFI5 is ideal for applications in water treatment, chemical processing, food and beverage, and pharmaceutical industries. It ensures accurate and reliable conductivity measurements in both conductive and non-conductive media, offering versatility and efficiency.
Key Features
- Precise Conductivity Measurement: Offers high accuracy in measuring conductivity, ensuring optimal control of processes.
- Wide Measuring Range: Capable of measuring conductivity from 0.01 µS/cm to 2000 mS/cm, suitable for a variety of applications.
- Modular Design: Supports a wide range of conductivity sensors, providing flexibility to adapt to different process requirements.
- Advanced Sensor Technology: Features a 4-electrode system for accurate and stable readings, even in complex media.
- Multiple Output Options: Available with 4–20 mA, HART, and digital outputs, enabling seamless integration into automation and control systems.
- User-Friendly Interface: The intuitive display and control options allow for easy setup, calibration, and maintenance.
- Durable Construction: Stainless steel housing and robust materials ensure the transmitter can withstand harsh industrial environments.
- High Protection Rating: IP65-rated, ensuring durability against dust, moisture, and challenging conditions.
- Temperature Compensation: Automatic compensation for temperature variations to maintain accuracy in diverse environments.
Approvals:
