New AMP8620 Supply Module from Beckhoff Accommodates Cabinet-free Servo Drive Installation
IP65-rated distributed drive technology from Beckhoff thrives in harsh environments and reduces enclosure requirements
To greatly reduce cabinet and enclosure requirements for machine builders and manufacturers, Beckhoff Automation has announced the new AMP8620 supply module. The AMP8000 Distributed Servo Drive system provides optimal support for the implementation of modular machine concepts. With the AMP8620 supply module’s IP65 protection rating and consistent decentralization, the entire motion system can now be mounted directly on the machine. This means drive technology can now be implemented entirely without control cabinets, resulting in maximum possible savings in terms of cost, materials, space and installation work.
While coupling modules already reduced the requirements for connecting distributed AMP8000 drives to the control cabinet to just one cable, the cabinets can now be completely eliminated when using the AMP8620 supply module.
Eliminating the need for a control cabinet further reduces the footprint and cabling requirements for the entire machine. Costly air conditioning equipment, which would otherwise be necessary to cool control cabinets, can also be eliminated.
The AMP8620 module connects directly to the mains supply. It contains all circuitry required for that purpose, such as mains filters, rectifiers and charging circuits for the integrated DC link capacitors. The supply module enables the optional connection of additional distribution modules or distributed AMP8000 Servo Drives. It is also equipped with two EtherCAT P outputs, which can either supply EtherCAT P modules or connect to additional supply modules that may be required for motion system expansions. The safe 24 V power supply unit integrated in the supply module ensures that the logic power supply does not exceed the permissible level. The DC link capacitors integrated in the supply module store the regenerative energy of the entire system and then make it available again for acceleration processes. This ensures the most efficient usage of the energy supply.