Conductivity transmitter LMIT 10
- Inductive conductivity measurement with automatic switching between 4 selectable measuring ranges (0 - 500 µS/cm … 0 - 1000 mS/cm)
- Temperature measurement from -20 °C to +150 °C, 4 selectable temperature compensation ranges
- Display of concentration for selected chemicals (stored concentration curves)
- Two design variants: Compact device and wall-mounted device with separate measuring probe
- Two electrically isolated current outputs 0/4 - 20 mA for conductivity and temperature
- IO-Link interface
- Permanently lit display
- Measuring cell body made of PEEK in hygienic design (from a single mould, without gluing and joining points)
- 3-A Sanitary Standards, FDA-compliant, EHEDG-certified, UL-approved
The LMIT 10 conductivity meter was designed for analysing liquid media. The device can display both the measured conductivity and a calculated chemical concentration and meets the highest industrial standards thanks to its robust, hygienic design.
Two different mounting versions with integrated or remote measuring cell allow flexible installation and a wide range of applications, such as:
- Phase separation during CIP applications
- Concentration monitoring for detergent and disinfectant solutions
- Monitoring of water quality
- Quality control for liquid products
- Process control by online measuring
- Contamination monitoring of food
For the necessary temperature compensation, a temperature sensor integrated in the measuring probe permanently measures the temperature as well as the conductivity. The incoming data for conductivity and temperature are automatically offset against each other, taking into account adjustable temperature compensation factors. The compensated conductivity value determined in this way can then be converted directly into concentration and displayed using stored concentration curves for various chemicals.
The display values for conductivity and temperature or concentration and temperature can be transferred to a higher-level controller via two configurable current outputs or optionally via the integrated IO-Link interface.