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MicroLED: Will Apple and Samsung Disrupt the Industry?

Apple can source microdrivers and microLED chips from foundry partners and assemble those components in-house or with other partners to create unique displays. Although it currently has more pressing battles to fight, the same logic applies to Huawei, with the possible added benefits of a 100% domestic display supply chain that doesn’t rely on restricted US technology.

In this context, Yole investigates disruptive technologies and related markets in depth, in order to point out the latest innovations and underline the business opportunities.

The MicroLED Displays – Market, Industry and Technology Trends 2020 report provides a detailed update on the status of the microLED industry as of Q3-2020 and gives detailed analysis of the different microLED technologies.

Including market trends and forecasts, roadmaps, cost analysis, technology status and trends, supply chain, competitive landscape and key player profiles, this new report aims to understand the microLED ecosystem and industry.

What is the status of the microLED technologies? What are the progresses and What are the remaining pinch points? What are the best yield management and repair strategies? Who’s taking the lead? Which applications could microLED display address and when?

Yole presents its vision of the microLED industry

As analyzed by Yole’s team in the new MicroLED Displays – Market, Industry and Technology Trends 2020 report, for SVD , Samsung’s TV division, microLED would confer the ability for it to compete against OLED in the high end, large, TV segment with a technology that doesn’t rely on panels from China or its friendly enemy SDC. SVD’s microLED technology still uses LTPS TFTs but, thanks to its modular design, only requires smartphone-sized tiles that could be sourced from existing G6 fabs.

Other display makers such as BOE or CSOT want to leverage their existing TFT infrastructure. Samsung Display is developing QNEDs, its own flavor of microLEDs that could fast track the technology and leverage most of its QD-OLED investments.

For AUO, microLED could be a matter of survival. The company has been successfully managing cash by limiting CapEx and focusing on high added value products. But China won the LCD war and the company never significantly invested in OLED capacity, making it difficult to pursue this strategy in the long term. MicroLED is AUO’s best shot at remaining relevant in high-end automotive and TV panels, without requiring the massive CapEx of an OLED fab. The company has already showed various automotive prototypes and could demo TV prototypes in 2021.

Availability of standard tools and processes enabled the commoditization of LCD and will soon do so for flexible RGB OLEDs. The lack of microLED process maturity and the proliferation of technology paths hinders the development of high volume manufacturing tools and the development of the supply chain. This complexity, however, is a welcome barrier to entry for companies such as Apple or Samsung. Both have the financial and technological strength to develop end-to-end solutions internally and acquire missing technology building blocks as needed.

Latecomers or smaller companies are eager to see microLED processes converge and off-the shelf tools become available. Equipment makers such as Toray Engineering, TDK, V-Technology, Besi, SET and others are making the first attempts while technology providers such as Playnitride, XDC and many others can license key processes and components.

For high volume consumer applications, economics drive die sizes to below 5 µm with stringent yields requirement for which traditional LED fabs are not suited. A paradigm shift is required toward a semiconductor-like manufacturing mindset with high efficiency, automation, end-to-end defect prevention and management strategies.

This is creating an additional push toward adoption of larger diameter substrates. Going from 6” to 8” is especially desirable as it grants access to battle-tested, retrofitted semiconductor equipment. This also increases the appeal for GaN-On-Si platforms that are readily available in 8” and already looking toward 12”. While more challenging, 8” sapphire and GaAs platforms however remain credible options.

All year long, Yole Développement publishes numerous display-related reports and monitors. In addition, experts realize various key presentations and organize key conferences.

Make sure to be aware of the latest news coming from the industry and get an overview of our activities, including interviews with leading companies and more on i-Micronews. Stay tuned!