04.06.23
The electronics industry is one of the most innovative. That is why the readers of the journal Elektronik and the online platform elektroniknet.de had no less than 111 innovative products to choose from, from which they could select the finalists in ten categories as their favorites. The researchers at Fraunhofer FEP were among the finalists, and in the category "Optoelectronics and Displays," the new ultra-low power OLED microdisplay entered the race and won first place.
Tiny display elements such as microdisplays are key components in wearables used as daily little assistants in leisure and sports, but also for professional environments. They can display vital data or navigation instructions to the user, or even show warnings in warehouse logistics, e.g. integrated in helmets. But also full-color displays with a diagonal of up to one inch and resolutions of extended full-HD for virtual reality applications have been realized.
Years ago, Fraunhofer FEP scientists realized that such integrated microdisplays are most useful when they consume extremely little power in the overall system to ensure the longest possible battery life for the entire device. This is how the first generations of ultra-low power microdisplays were developed, with a special backplane architecture that allowed the researchers to significantly minimize power consumption to just a few milliwatts.
The existing "ultra-low-power microdisplay platform" of Fraunhofer FEP only featured monochrome displays. This is sufficient for simple information displays in wearables or data glasses, however not for many other areas of application. Especially the distinguishability of the signal colors red and green is of particular importance here.
In order to make their use even more attractive, new variants have been developed. Among other things, bicolor or warm white versions and new brightness levels from 5,000 - 35,000 nits are now available in addition to a monochrome version. These OLED microdisplays can now display significantly brighter navigation instructions in systems such as helmets during firefighting missions and still manage without charging breaks.
Another 720p version of a full-color display, also designed to be very low-power consumption, is predestined for integration in augmented reality (AR) applications.
The readers of Elektronik and elektroniknet.de have now voted these new microdisplays, which are also available as evaluation kits, the winner in the category "Optoelectronics and Displays."
“In addition, we were able to design the color subpixels of the new displays to be only half the size of those of the monochrome version, while maintaining the same optical properties and higher circuit density, i. e. also higher data rates,” said Stephan Brenner, IC designer at Fraunhofer FEP. “We are very happy about this award! It shows that our research, always close to the application for innovative products of tomorrow, is of great interest by the readers."
Tiny display elements such as microdisplays are key components in wearables used as daily little assistants in leisure and sports, but also for professional environments. They can display vital data or navigation instructions to the user, or even show warnings in warehouse logistics, e.g. integrated in helmets. But also full-color displays with a diagonal of up to one inch and resolutions of extended full-HD for virtual reality applications have been realized.
Years ago, Fraunhofer FEP scientists realized that such integrated microdisplays are most useful when they consume extremely little power in the overall system to ensure the longest possible battery life for the entire device. This is how the first generations of ultra-low power microdisplays were developed, with a special backplane architecture that allowed the researchers to significantly minimize power consumption to just a few milliwatts.
The existing "ultra-low-power microdisplay platform" of Fraunhofer FEP only featured monochrome displays. This is sufficient for simple information displays in wearables or data glasses, however not for many other areas of application. Especially the distinguishability of the signal colors red and green is of particular importance here.
In order to make their use even more attractive, new variants have been developed. Among other things, bicolor or warm white versions and new brightness levels from 5,000 - 35,000 nits are now available in addition to a monochrome version. These OLED microdisplays can now display significantly brighter navigation instructions in systems such as helmets during firefighting missions and still manage without charging breaks.
Another 720p version of a full-color display, also designed to be very low-power consumption, is predestined for integration in augmented reality (AR) applications.
The readers of Elektronik and elektroniknet.de have now voted these new microdisplays, which are also available as evaluation kits, the winner in the category "Optoelectronics and Displays."
“In addition, we were able to design the color subpixels of the new displays to be only half the size of those of the monochrome version, while maintaining the same optical properties and higher circuit density, i. e. also higher data rates,” said Stephan Brenner, IC designer at Fraunhofer FEP. “We are very happy about this award! It shows that our research, always close to the application for innovative products of tomorrow, is of great interest by the readers."