Press Release

The EL3632 EtherCAT Terminal enables the direct connection of various accelerometers via an IEPE (Integrated Electronics Piezo-Electric) or ICP (Integrated Circuit Piezoelectric) interface. These sensors record vibrations in a machine, bearing or motor so that, by means of analysis, wear and damage can be detected before a breakdown occurs, avoiding unplanned downtime or prolonged maintenance intervals. A central, PC-based controller here is advantageous, particularly if large amounts of data from different devices need to be referred to for analysis or if damage frequencies need to be evaluated in relation to rotary speeds.

Condition Monitoring becomes an integrated part of the controller when using the EL3632. The data is recorded by the standard I/O system and made available to the superordinated PC controller. The measurement signals are evaluated on the PC using a TwinCAT library or user software; the warning and shutdown thresholds are set accordingly. Adjustable filters and supply currents for matching various sensors enable the user-specific adaptation of the Condition Monitoring terminal.

On the software side, the EL3632 is supported by various TwinCAT libraries, e.g. with high-quality filters such as FFT (Fast Fourier Transformation), digital high-pass or low-pass filters, or envelope monitoring. TwinCAT Scope is also being expanded to include Condition Monitoring functions.

Traditional Condition Monitoring systems are expensive, constructed as separate hardware devices and need to be coupled elaborately with the automation system. Other solutions merely report the respective operating status without supplying detailed information to the controller. In EtherCAT, a capable communication system is available for the high-performance relaying of the recorded status data to the PC controller. The “Scientific Automation” concept is applied on the central PC: besides sequential control, Motion Control and HMI, TwinCAT also integrates additional functions such as Condition Monitoring on a software and hardware platform. In addition to the perfect integration of all components and the reduction of hardware costs, engineering efforts are also greatly simplified: configuration, programming and diagnostics take place on one system using TwinCAT.