Furthermore, LEDinside estimates that having all wearable devices and indoor public displays on the market to switch to micro-LED would consume as much as 50% of the current LED production capacity worldwide.

“Typically, developers of new display technologies would first create solutions for small-size display applications,” said LEDinside analyst Philip Chang. “They eventually transfer their technologies to displays of larger sizes as they overcome problems related to the yield rate and cost. However, micro-LED’s two potential applications are at the opposite ends of the size spectrum. On one hand, wearable devices such as smartwatches have the smallest displays around. On the other hand, we have the extremely large indoor public displays.”

Chang furthermore pointed out the development of micro-LED is very different from other display technologies: “Micro-LED combines the pixel and the light source together into one package. Therefore, specifications and product development for this technology will depend on sizes and volumes of pixels needed for various applications. Small-size displays have the advantage of having lower pixel volumes. Displays of wearable devices, for example, are usually smaller than a two-inch silicon wafer. Micro-LED solutions for this applications even allows for the wafer bonding process, which simplifies the LED manufacturing process and lower the technology barriers for LED suppliers.”

Adoption of micro-LED in large-size display applications has an advantage of products having lower pixel densities (as expressed in pixels per inch or PPI). Micro-LED solutions for large-size but low PPI displays do not need to significantly scale down their LED packages. However, the LED usage volume for micro-LED display increases with the size of the screen panel, and the technology is currently not mature enough to be transferred to large-size applications.

“Having several smaller micro-LED display modules connected together to form one giant screen could bypass the need to mass produce large single-panel displays,” noted Chang. “At the same time, this method also reduces LED usage volume and addresses the yield rate issue associated with increasing the display size. Theoretically, large indoor micro-LED display systems based this “connected structure” design will likely become practical products sooner than wearable devices with micro-LED displays.

Currently, Taiwanese companies that are focusing on the R&D of micro-LED include Epistar, PlayNitride, Industrial Technology Research Institute, AU Optronics and Innolux. Providing a complete supply chain solution would be developmental advantage for Taiwanese micro-LED display manufacturers. Major international branded electronics makers and LED suppliers such as Samsung, LG, Nichia, Sharp and Sony are also very active in the field. Among them, the leaders in terms of transferring the technology to end applications are LuxVue, which was acquired by Apple, and X-Celeprint, which spun off from the University of Illinois.

LEDinside is proud to present LEDforum 2016 at National Taiwan University Hospital (NTUH) International Convention Center on September 30. This event will feature detailed presentations on the micro-LED supply chain, including materials, manufacturing process, system integration, end-use applications and market trends. We cordially invite industry representatives and friends in the media to take advantage of this opportunity and participate in the conference.

http://press.trendforce.com/node/view/2620.html

Micro-LED Displays Might Make Way into Apple Watch 3 by Mid 2017 or Later (June.27, 2016 )

A latest report from Taiwanese media DIGITIMES has pointed out that the Apple Watch 3 might be forgoing OLED and switching to micro-LED displays instead sometime after 2017 earliest.

Based on the time line Apple Watch 2 to be launched during second half of 2016 will probably still house an OLED display, and the rumored micro-LED displays will find its way into Apple Watch 3.

MicroLED displays are thinner, lighter, and have better color gamut performance, and offer higher resolutions. The panels do not require backlighting, but can be difficult and expensive to mass produce, due to its small size that ranges from 1-micron to 100-microns.

In 2014, Apple acquired micro-LED display manufacturer LuxVue Technology that holds key micro-LED related patents, such as the patent for mass transfer of tiny micro-LEDs, which has been the main technology threshold to mass producing the micron sized LEDs, reported Taiwanese media Commercial Times.

It is rumored that Apple has opened a facility in Longtan in northern Taiwan last year to focus on micro-LED related technology, and the Taiwanese media claimed leading LED chip maker Epistar might have co-developed a prototype micro-LED Apple Watch with the Cupertino-based company.

http://www.ledinside.com/news/2016/6/micro_led_displays_might_make_way_into_apple_watch_3_by_mid_2017_or_later