Whether it is the monitoring of operating conditions in machine and plant engineering or the control and regulation of sensitive processes, the reliable and accurate determination of temperature is of fundamental importance in many industries. The SICK range of screw-in and insertion thermometers, along with temperature switches provides high-quality solutions for in-contact temperature measurement of fluids and gases.
In many branches of machine and plant engineering, the production industry, machine tool construction, process technology, and the manufacture and refinement of foodstuffs and beverages, measurement of variable state pressure plays a central role. SICK offers a portfolio of electronic pressure measurement transmitters and switches that can be adapted to individual customer requirements because of intelligent and varied configuration options.
Whether it is continuous fill-level measurement, limit value determination or a combination of the two, SICK provides a wide spectrum of solutions for process control, stock supply, or protection. Based on the installation situation, medium properties, and environmental conditions, SICK provides sensors that ensure efficient processes. As the provider of one of the broadest technology portfolios, SICK brings its knowledge to the forefront. This includes sensors with guided wave radar (TDR), ultrasonic devices, vibration-principle devices and various optical technologies.
Innovative sensor systems for flow rate measurement that combine flexible measurement processes with rugged device design and cost-effective connection design to higher-level systems. Whether it is the analog values of the current flow rate level, or the volume determination from impulse sampling that is required, SICK volume flow sensors work reliably and safely with the most varied media under difficult process and environmental conditions. Whether detecting fluids or gases, SICK flow rate sensor systems rely on innovative run-time measurement processes based on ultrasonic and laser technology.