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Lucas A J Pinto

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Research paper thumbnail of Use of Digital Twin in Electropneumatic Systems

Academia Letters, 2021

Evolution in current industrial processes will not be possible without a series of technological ... more Evolution in current industrial processes will not be possible without a series of technological advances, including the successful realization of the digital twin and the threads that connect it to the physical world. Digital transformation has been happening over the years in most companies. The way we track data or transactions and the way we collaborate and communicate has changed and undergo significant advances through digital technology. That's why there is a need for new types of technologies for this wave of digitization-a technology that combines digital objects with physical objects in a dynamic, learning and interactive way. Digital twins provide a way to model and manage the complexities inherent in products. Virtually modeling a product helps companies avoid costly quality issues or manufacturing rework, as manufacturing and performance variables can be modeled before they occur. Digital twins can therefore help manufacturers make their products or automate their processes for the first time without fail, and help development and support teams share the same product knowledge regardless of location. Creating a digital twin of a production system opens up new ways to improve productivity on some production machines and even entire facilities. Extending this concept from product to production also contributes to the idea of improving the operation of continuous processes and not just product manufacturing through them. The purpose of connecting the simulation systems was to communicate with physical systems, using an easyport USB. It is necessary to carry out the simulation of an electropneumatic system by the FluidSIM software, with precise adaptations so that the process simulation is communicated with a Programmable Logic Controller (PLC). For this experiment, FluidSIM Pneumática, Festo FST, EzOPC, a 24V voltage source, an EasyPort USB, a digital I/O crossover signal cable 167106, CLP FEC FC34 were used. A sequential electropneumatic system with two piston cylinders was created. The algebraic sequence used was 1A+ 2A+ 2A-1A-. The system starts up by means of a two-hand command with normal open (NO) actuation buttons.

Research paper thumbnail of Use of Digital Twin in Electropneumatic Systems

Academia Letters, 2021

Evolution in current industrial processes will not be possible without a series of technological ... more Evolution in current industrial processes will not be possible without a series of technological advances, including the successful realization of the digital twin and the threads that connect it to the physical world. Digital transformation has been happening over the years in most companies. The way we track data or transactions and the way we collaborate and communicate has changed and undergo significant advances through digital technology. That's why there is a need for new types of technologies for this wave of digitization-a technology that combines digital objects with physical objects in a dynamic, learning and interactive way. Digital twins provide a way to model and manage the complexities inherent in products. Virtually modeling a product helps companies avoid costly quality issues or manufacturing rework, as manufacturing and performance variables can be modeled before they occur. Digital twins can therefore help manufacturers make their products or automate their processes for the first time without fail, and help development and support teams share the same product knowledge regardless of location. Creating a digital twin of a production system opens up new ways to improve productivity on some production machines and even entire facilities. Extending this concept from product to production also contributes to the idea of improving the operation of continuous processes and not just product manufacturing through them. The purpose of connecting the simulation systems was to communicate with physical systems, using an easyport USB. It is necessary to carry out the simulation of an electropneumatic system by the FluidSIM software, with precise adaptations so that the process simulation is communicated with a Programmable Logic Controller (PLC). For this experiment, FluidSIM Pneumática, Festo FST, EzOPC, a 24V voltage source, an EasyPort USB, a digital I/O crossover signal cable 167106, CLP FEC FC34 were used. A sequential electropneumatic system with two piston cylinders was created. The algebraic sequence used was 1A+ 2A+ 2A-1A-. The system starts up by means of a two-hand command with normal open (NO) actuation buttons.

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