Press Release

Beckhoff refers to the integration of engineering functions that go beyond traditional PLC and motion technologies into the automation software as "scientific automation". It builds on the ever-increasing performance of PC-based control technology and an ultra fast communication system such as EtherCAT. A prime example of scientific automation is measurement technology, which up to now has been performed by specialised devices for many high performance applications. The EL3602 EtherCAT Terminal enables measuring signals to be sampled directly in a standard I/O system. The analog 2-channel EL3602 input terminal handles signals in the range between -10 and +10 V. The voltage is digitised with a high resolution of 24 bit. The high precision of 0.01 % at 25 °C enables the execution of high-precision measuring tasks, at a machine or for test rig automation, for example.

With XFC terminals (eXtreme Fast Control Technology) for oversampling and time stamp technology, Beckhoff already offers solutions for maximum performance requirements. The new terminal generation for high-precision measurement technology also offers maximum accuracy.

The high-performance EtherCAT Terminal system is a modular I/O system consisting of electronic terminal blocks. The EtherCAT protocol is maintained right down into the individual terminal. An I/O station consists of an EtherCAT Coupler and almost any number of terminals (up to 65,535 devices). EtherCAT Terminals are available for all common digital and analog signal types encountered in the world of automation. Fieldbus devices, e.g. for PROFIBUS, PROFINET, CANopen, DeviceNet, Interbus or Lightbus, can be integrated via local fieldbus master/slave terminals. Any Ethernet device can be integrated locally via switch terminals.