Easy and fast commissioning

IO-Link allows for more parameters than so-called sensor teaching, for example freely selectable switching points, adjustable measuring ranges, filter functions and much more. This way the sensor is reliably configured to the application. PC user interfaces or mobile devices allow for user-friendly and place-independent configuration. More additional value in the event of sensor exchange is provided by automatic parameter transfer via IO-Link Master for upload into the new Baumer sensor.  In addition, easy and automated parameterization during format alignments in ongoing production offers maximum flexibility and machine performance.

Dual Channel – digital and analog interface benefits all at once

By SIO mode (Standard In-Out Mode), the IO-Link standard defines a conventional operating mode for switching sensors. However, standard IO-Link sensors do not enable analog control. Baumer recognized this early on and has implemented additional outputs allowing digital, analog or hybrid sensor operation.

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Thanks to Dual Channel with analog output, the sensor is capable  of conventional control architectures and digital interfaces. In other words, the sensors feature 4 ... 20 mA analog output AND digital IO-Link interface. This way they offer all IO-Link benefits in setup and commissioning by considerably simplified sensor parameterization and further allow for process control via 4 ... 20 mA analog output. Thus, they offer all IO- Link benefits even if the controller is not yet IO-Link ready. Both cannels can be utilized simultaneously. This provides users with maximum flexibility for a wide range of applications in process automation.

Added value by digital sensor data

Data is the most important basis for process and product optimization. Digital IO-Link interface provides access to valuable secondary data. However, precondition are sensors with outstanding primary functions. Only if sensors deliver reliable and process data for efficient plant control and monitoring , these secondary data really provide added value.


Thanks to IO-Link, sensors can communicate these additional information, such as process, analysis or diagnostic data, to the controller or even store them to retrieved later if required. Secondary data may include sensor-specific information, such as sensor temperature. In addition,  thanks to IO-Link sensors can deliver several physical measured values all at once. PP20H pressure sensor, for example, allows for temperature read out further to pressure information, and CombiLyz AFI conductivity sensor provides information on media concentration  in addition to media conductivity. Doing so means process optimization and avoids time-consuming maintenance. Digital data transmission to the controller is without loss which eliminates the need for analogue conversion.

Enhanced process efficiency thanks to direct combination of sensor data
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IO-Link allows for mutual and bidirectional sensor communication via the controller. This way, every sensor can utilize the measured values of other sensors to solve complex measuring tasks or for optimization of processes and production flow. Both process and secondary data are made accessible to other sensors. Using conductivity sensor CombiLyz AFI, for example, transmission of the measured temperature value would reduce response times of temperature compensation or even completely circumvent them. Among other things this allows for faster media detection during phase separation, thus saving water and cleaning media.


In filling level detection in closed tanks, the combination of data of two pressure sensors enables direct indication of the filling level.  The head pressure sensor transmits the measured value to the pressure sensor at the tank bottom. The difference determines the filling level which is indicated on the DFON display. This way, IO-Link sensors can set up differential pressure measuring systems in level detection.
 

For continuous level measurement with hydrostatic pressure it must be considered that the sensor signals slightly shift over the time.  In level detection, these shifts cause signal errors, reason why the sensors should be calibrated every time the tank is empty. Besides reliable detection of emptiness,  level switch CleverLevel  used in combination with hydrostatic level sensor PP20H allows for automated calibration via IO Link every time the tank is empty.  Any ambiguity in hydrostatic level measurement is thus a thing of the past.

IO-Link glossary

More detailed descriptions of the individual IO-Link functions and definitions can be found here:

To the IO-Link glossary

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IO-Link connectivity

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