SILICONCORE LAUNCHES 1.2MM LED DISPLAY

SiliconCore will launch the highest resolution LED display ever manufactured, the Lavender 1.2mm, at Infocomm MEA on Booth TA-120 from 13th – 16th October in Dubai. The groundbreaking display will advance the application uses of LED by achieving Full HD at just 110”.

The Common Cathode LED manufacturer is the first to achieve this revolutionary pixel pitch which will further enhance close proximity viewing within corporate, broadcast, command and control and simulation, all at a fraction of the power consumption of traditional displays.

Eric Li, President and CEO of SiliconCore commented:

“We have been working towards this product for several years, with the Orchid 1.9mm and Magnolia 1.50mm pioneering the way for its development, so we are very proud to finally be shipping.

“With a close proximity viewing distance of less than one metre, LED is now operating in the same space as existing large format display technologies. The display also comes with the additional benefit of being scalable for any size or shape application and due to the nature of LED is truly seamless. The clarity, uniformity and viewing angle are other market leading benefits that now new markets can utilise for comfortable large screen viewing.”

SiliconCore has made all of this possible by developing a new way to drive the LEDs using Common Cathode Technology, replacing the traditional Common Anode approach. The Common Cathode Technology design is a much more efficient at generating a given brightness for a given amount of power, ensuring that less power is wasted as heat, reducing power consumption and increasing the lifespan of the display. This results in market leading total cost of ownership.

These LED displays and their subsequent benefits can now be utilised for smaller corporate installations such as boardrooms for collaboration displays, command and control centres and simulation/visualisation suites, with the scalable nature and true seamlessness ensuring lifelike quality, size and appearance.