“Flexible, light weight, and of an easily customisable size, the LED advertising panel enables the creation of a dynamic look for a large area applications, or those that require a 3D shape, such as vehicles,” says Project Manager Eveliina Juntunen of VTT.
The OptIntegral project, which was completed at the end of January, used a hybrid integration manufacturing process (combining injection moulding and printed electronics), in which the flexible electronics substrate was immersed in an overmoulded polymer. Overmoulding protects the components and enables additional features, such as optical and mechanical structures to be integrated during a single processing step.
This technology was applied to the production of large area LED displays during the project. Overmoulding was used to add optical structures to the display elements, improving the visual appearance of the product. In addition, VTT’s measurements indicate that overmoulding lowers the temperature of the LEDs by around 20%, which is significant in terms of the reliability and efficiency of LEDs. This makes the displays energy-efficient, lightweight, flexible and even three-dimensional.
VTT Technical Research Centre of Finland (VTT) used a roll-to-roll process to make flexible LED substrates for the displays, refining the process to make it more productive. Neonelektro Oy developed an overmoulded RGB display element manufactured using the roll-to-roll technique.
“Interest in dynamic backlighting has grown dramatically during the project, and we have developed a new product family based on it. Developing a technology to meet such demand has opened up new markets for us,” says Matti Koponen, who is in charge of product development at Neonelektro.
The project was coordinated by the Spanish organisation Eurecat, The Technology Centre of Catalonia. In addition to the Finnish partners, the consortium included the Spanish firm SnellOptics and the Spanish Association for Standardisation (UNE), LumyComp and Megatex from Bulgaria, Holografika from Hungary, and the University of Bath from the United Kingdom. The project was funded by the European Commission’s Horizon 2020 programme.