Optimal sensor setting to the individual application
Enhanced functions and filters such as sonic cone adjustment, moving-average filter, or disruption filter allow quick and easy optimization of the sensor performance
High plant effectiveness and reliability thanks to easy optimization of the sensor to the individual application requirements
Connected
Efficient integration and additional data via the IO-Link interface
Efficient integration into the automation systems via the standardized IO-Link interface
On-the-fly-parameterization via the IO-Link allows flexible production lines
Additional diagnosis data, such as device temperature or number of switching processes, as the basis for predictive maintenance
Fast design-in
Highest performance with the most compact design
Best-in-class measurement range with a blind zone of 15 mm for a measuring distance up to 500 mm
Compact, space-saving design with standard hole spacing allows flexible integration of the sensor into the machine
Optimum sensor setting to the application
The setting and filter options integrated in the sensor allow the sensor to be set optimally to the application via the IO-Link interface. Find out more in the video.
Tutorial | Ultrasonic sensors U300, U500, UR18
The integrated settings and filters allow the ultrasonic sensors to be optimally adjusted to the application. This not only reduces the variant diversity but also ensures an even more reliable solution. The video shows the following examples:
The flexibly adjustable sound cone for a stable measurement
The reliable double sheet detector
The interrupt filter using the example of a clock unit
Applications
Distance measurement to the roll
Short blind zone and compact design for unimpeded design-in
Reliable detection of a great variety of carrier materials and their colors as well as transparent film
PCB detection
Reliable detection of a great variety of surface structures, colors, and transparent PCBs
Quick response times for high throughput
Shortest blind region and compact design for unimpeded design-in
Level measurement in containers
Detection of a great variety of materials with different geometries
Flexible sonic cone adjustment for optimal sensor setting to the application
The distance measurement is based on a time-of-flight measurement. The sensor calculates the time between sending and receiving the reflected sound signal. Advantage:Immunity to moisture, light, steam or object color