MOVI-C® modular automation system

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MOVI-C® – the future of automation

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MOVI-C®, the modular automation system for all-in-one solutions from a single source

MOVI-C® is the all-in-one solution for automation tasks. Whether you want to implement standards-based single-axis or multi-axis applications, particularly complex motion control applications or customized automation solutions, MOVI-C® can help you do all that and give you the scope to achieve optimum automation for new projects.

Your benefits: MOVI-C® is the all-in-one modular automation system from SEW EURODRIVE. This end-to-end solution from a single manufacturer covers all your needs – planning, commissioning, operation and diagnostics software, electronic control and monitoring devices, mechanical drives and gearmotors. There is only one place you have to go to for all the automation components you need. Naturally, all components can be fully integrated into all automation concepts, fieldbus topologies and network standards. You have complete freedom when it comes to the communication topology, as MOVI-C® harnesses all communication advantages – from PROFIBUS and Industrial Ethernet to Modbus and, in the future, OPC UA.

MOVI-C® offers automation and a whole range of benefits from a single source – specifically, a company that is both an automation specialist and a manufacturer.

Four modules – one solution: Complete automation from a single source

MOVI-C®, the modular automation system for all-in-one solutions from a single source

MOVI-C® – the all-rounder for any topology

1) Topology for single-axis automation

Typical application: Materials transportation (single-axis automation)

The MOVIDRIVE® technology application inverter and the MOVIGEAR® performance and MOVIMOT® flexible mechatronic drive system are connected directly to the higher-level master via fieldbus interfaces. Predefined MOVIKIT® software modules ensure the drive function can be quickly and reliably implemented using graphical editors. Each axis is controlled individually via the network. Data is stored via a data exchange function on a memory card in the application inverters and in the decentralized units.

Motors, inverters, communication and power supply

2) Topology for motion control

Typical application: Multiple column hoists, tripod mechanics, robots, including auxiliary axes (motion control)

The MOVIDRIVE® modular and MOVIDRIVE® system application inverters and decentralized peripherals such as the MOVIGEAR® performance mechatronic drive system and MOVIMOT® flexible have a real-time-capable connection to the MOVI-C® CONTROLLER via EtherCAT®/SBusPLUS.

The MOVI-C® CONTROLLER receives setpoints for single-axis motions or coordinated motions from the higher-level master via the fieldbus. The MOVI-C® CONTROLLER determines the setpoints for the connected application inverters, thereby taking care of tasks such as phase-synchronous operation, electronic cam function or kinematics. Predefined MOVIKIT® software modules are used to implement the motion control drive function quickly and reliably with the aid of graphical editors. Thanks to more than 50 kinematic models, a large number of mechanical configurations are already covered. New functions for kinematic models can be custom-made by SEW-EURODRIVE. Data is stored via a data exchange function on a memory card in the MOVI-C® CONTROLLER.

Gearmotors, inverters, axis modules, power supply and communication

3) Topology for module automation

Typical application: Packing machines, processing machines, complex transportation tasks (module automation)

All drive functions of the motion control topology are available in the module automation topology. In addition to the graphical editors for the drive functions, automation tasks associated with the higher-level master controller can also be implemented in part or in full in a straightforward and flexible approach using the programming system (IEC 61131) in the MOVI-C® CONTROLLER. To support automation, any EtherCAT® devices can be integrated centrally or decentralized in addition to the MOVI-C® application inverters and drives.

The CiA402 profile for controlling inverters has established itself in plants with highly specific motion control applications that are calculated in the higher-level master controller. To support control via CiA402, the application inverter MOVIDRIVE® modular, MOVIDRIVE® system and the mechatronic drive system MOVIGEAR® performance and MOVIMOT® flexible can be connected directly to the controller via the integrated EtherCAT® interface. This means integration into the higher-level controller can be achieved particularly quickly and easily, and does not require extensive conversion work. More sophisticated safety functions can be triggered via FSoE directly from the safety control system.

Gearmotors, inverters, axis modules, power supply and communication

4) Topology for EtherCAT® motion slave

Typical application: Series machines with numerous axes, kinematic calculation in the higher-level PLC (EtherCAT® motion slave)

The MOVIDRIVE® technology application inverters are directly connected with the higher-level controller via fieldbus interfaces. Predefined MOVIKIT® application modules are used to implement the drive function quickly and reliably using graphical editors. Each axis is controlled individually. A memory card in the MOVIDRIVE® application inverter is used for data management.

Gearmotors, inverters, axis modules, power supply and communication

In all topologies, the higher-level master controller uses safe communication to activate safety functions that are executed in the MOVISAFE® CS..A safety card in the application inverter, in the mechatronic drive system MOVIGEAR® perfomance and in the MOVIMOT® flexible.

MOVI-C® in use

Since its debut at the SPS IPC Drives trade fair in November 2016, we have also captured the highlights of the new MOVI-C® modular automation system in moving pictures. Interested in finding out more? Then join us on a short journey into the future of automation.

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