Your business issues are unique.
To keep customers satisfied, you need to supply machines that are safer, and more energy-efficient and reliable, at a reduced cost with shorter lead-times. TVDAs can help you to quickly build an automation solution, from machine design and engineering, to installation and documentation. Reduce the time needed for design, installation, and commissioning with these flexible, functionally validated, ready-to-use architectures.
Our experts help you throughout the entire machine life cycle.
SolutionsThe Compact / Modbus SL / HMI Controller SCU TVDA is designed for small to medium control applications requiring few I/Os. The 5.9” HMI with integrated logic controller provides maximum functionality while allowing for easy installation.The architecture includes a variable-speed drive with additional bypassing functionality for staging control, and drive starters for smooth motor operation, reducing mechanical stress on the machine.The system is well-suited for application in the pumping, hoisting, material working, and textile segments, but is also suitable for other machine types that demand control systems with optimized space characteristics.
- Scalable and flexible systems for creating economical solutions.
- Openness and flexibility with various connectivity options.
- Ready-to-use architectures with preconfigured PLC and HMI project templates.
- Comprehensive system documentation with component list and wiring diagrams.
- Device ModulesTM for quick and easy system adaptation.
- One software package to set up and maintain the entire system.
- Embedded visualization functions featuring platform-neutral, user-defined web pages.
- Full remote access for programming, operation and monitoring.
- Unique TVDA solutions to minimize effort at every stage of the development process.
- Ready-to-use architecture with a high level of pre-fabrication for quick design and setup of the automation system.
- Full interoperability and high system reliability based on Schneider Electric best-in-class products, and extensive functional validation of the architecture.