According to research conducted by TrendForce, the much-anticipated Micro LED version of the Apple Watch is facing yet another delay and is now expected to be launched in the first quarter of 2026. The primary reason behind this delay is believed to be the need for reconfiguring the production supply chain.

Previously, industry speculations suggested that Apple would take charge of the core production process, particularly the massive transfer of Micro LED technology. However, recent industry research by TrendForce indicate that LG Display (LGD) might now take over this crucial aspect of the production process.

The critical process involved in the production of the Micro LED version of the Apple Watch, especially the massive transfer of Micro LED technology, has been a point of interest in the industry. It was widely speculated that Apple would handle this key engineering either at its Cupertino headquarters in the United States or potentially transfer the production to its facility in Longtan, Taiwan, for the essential massive transfer of the technology.

TrendForce understands that Apple’s decision to undertake the crucial engineering process in either the United States or Taiwan reflects their intent to have complete control over the core manufacturing process during the initial production phase. However, this approach also introduces complexities in terms of logistics and supply chain management, as the chips are set to be manufactured in Malaysia, the backplates in South Korea, and the final assembly by system integrators in China or Vietnam.

As a result, recent industry research by TrendForce indicate that Apple has finalized LGD as its primary collaborator for Micro LED production. This means that LGD will now be responsible for the critical massive transfer process. In addition to providing its own equipment and technical support, Apple is also expected to invest in LGD’s related equipment procurement to ensure a smooth transition and expedited progress in the Micro LED production pipeline.

For more information and details about the Micro LED industry, TrendForce will hold the “2023 LED Forum” on September 5th (Tuesday) from 9:30 am to 5:00 pm at the NTUH International Convention Center. The seminar has invited TrendForce’s Senior Research Vice President, Eric Chiou, as well as representatives from various industries such as Mojo Vision, ITRI, Lumus, Unikorn, Porotech, Nitride Semiconductor, Tohoku University, Coherent, InZiv, AUO, and Tianma to share the progress and related applications of Micro LED technology.

Apple has finally launched the Vision Pro, an MR device equipped with Micro OLED, but the debut of the Apple Watch with Micro LED panels has been repeatedly delayed. According to a report from TechNews, industry insiders revealed that the production timeline for the Micro LED Apple Watch has been pushed back once again, from the second quarter of 2025 to the first quarter of 2026.

Over the past decade, Apple has invested at least $1 billion in developing Micro LED panels, aiming to reduce reliance on Samsung and strengthen control over critical component supplies. Once in mass production, Apple intends to execute the crucial “mass transfer” process on its own. This highlights Apple’s cautious approach in researching and developing Micro LED technology, which is still in the sample phase due to challenging production techniques and higher manufacturing costs.

In the Micro LED project, Apple has partnered with ams Osram for the development of Micro LED components, collaborated with LG Display for backplate production, and enlisted TSMC to manufacture 12-inch silicon wafers. Initially, Micro LED technology will be introduced in the Apple Watch Ultra model before gradually expanding to other product lines such as iPad and MacBook, with the ultimate plan of incorporating it into the iPhone.

Currently, the Apple Watch utilizes OLED technology, which has been in use since the launch of the first Apple Watch model in 2015. In comparison to OLED screens, Micro LED displays offer higher brightness and overcome issues such as screen aging and differential aging, making them a promising advancement.

Throughout this year, the Micro LED industry has been receiving a constant stream of positive news in terms of new product launches, latest technological achievements, project progress, and investment and financing. This has once again accelerated the commercial development of Micro LED. TrendForce has collected and compiled various dynamics of Micro LED since the beginning of the year, providing a retrospective view of the latest progress in the Micro LED industry.

As of early June, a diverse array of Micro LED-related products have emerged this year, covering essential aspects of the Micro LED industry. These products include upstream components such as wafers, chips, devices, backplane materials, driver ICs, production equipment, micro displays, and micro display modules, as well as downstream end-user products like displays, automotive lighting, consumer-grade televisions, and AR glasses. In total, there are approximately 29 different products. These latest Micro LED products reflect the development trends within the Micro LED supply chain.

In the upstream segment, wafer manufacturers are focused on developing larger-sized Micro LED wafers, such as 8-inch and 12-inch wafers. Chip manufacturers are continuously improving the light emission efficiency of Micro LED. Equipment manufacturers are introducing devices that enable larger-scale production and testing of Micro LED.

In the midstream segment, an increasing number of manufacturers are paying attention to the applications of Micro LED micro displays. They have released multiple small-sized, high-resolution, and high-brightness monochrome or full-color micro displays and display modules to meet the application requirements of XR, smartwatches, and other head-mounted or wearable devices.

In the downstream and end-user segments, the abundant applications of Micro LED can be observed. These applications range from common large-sized display screen products to small-sized AR glasses, and even to automotive lighting and display applications, as well as flexible touch displays. Micro LED demonstrates its diverse range of applications as the ultimate display technology.

Furthermore, Micro LED applications extend beyond the aforementioned areas. Recent reports reveal that Apple plans to upgrade iPhone screen materials from OLED to Micro LED in the future, aiming to achieve higher brightness, lower power consumption, and superior contrast.

Eric Chiu, Vice President of TrendForce, predicts that looking ahead to 2026, with further maturation of Micro LED technology and costs, AR and automotive displays are expected to enter a fast track of development, driving the demand for Micro LED chips. Based on significant cost reductions, there is bold anticipation that by 2027, smartphones will also provide opportunities for Micro LED applications.

While the Micro LED industry boasts a rich variety of related products, Micro LED technology still faces several challenges. Therefore, continuous research efforts are underway, involving collaboration between academia and industry to gradually improve Micro LED performance. This year alone, approximately 17 Micro LED-related research projects have achieved notable results. These include advancements in red light efficiency, realization of full-color displays, improvement in massive transfer efficiency, and research on new structures and materials for Micro LED. The ultimate goal is to enhance Micro LED performance, production efficiency, and reduce application costs.

For more information on reports and market data from TrendForce’s Department of Display Research, please click here, or email Ms. Vivie Liu from the Sales Department at graceli@trendforce.com

(Photo credit: AUO)

Apple’s latest MR device, the “Vision Pro,” utilizes Micro OLED technology. This technology, along with Micro LED, is considered the next generation of display technology. So what are the differences between Micro OLED and Micro LED, and which one is better suited for AR/VR/MR devices?

According to market research firm TrendForce, ideal smart glasses must meet three major criteria. Firstly, to minimize the burden of wearing glasses, the display engine’s size should be below 1 inch. Secondly, in terms of content recognition requirements, the display brightness specification should reach at least 4,000 nits to ensure immunity to external factors such as weather or venue conditions. Lastly, the resolution should be at least 3,000 PPI to ensure clear projection and magnification.

Currently, Micro LED and Micro OLED are the primary technologies that meet these requirements. However, Micro LED is still in the early stages of AR technology development and faces several challenges that need to be overcome. Therefore, Micro OLED is currently the mainstream technology in the field.

Micro OLED technology enables full-color capabilities and has become the preferred choice for AR/VR manufacturers. According to TrendForce’s comparison of display engines, Micro LED outperforms Micro OLED in pixel size, luminous efficiency, and brightness. It appears to be the most suitable for AR glasses based on specifications. However, Micro LED is currently limited to a single green color, while Micro OLED can achieve full color. As a result, Micro OLED has a competitive advantage in AR/VR devices.

In terms of manufacturers, Sony remains the main supplier for Micro OLED technology. Due to their longer investment time and technological advantages, South Korean manufacturers Samsung and LG Display (LGD) are expected to join Apple’s MR supply chain in 2024.

Last year, reports suggested that Samsung initially considered Micro OLED a niche market and lagged behind its competitor, LGD. However, due to demands from Apple, Meta, and Samsung’s parent company, they began developing Micro OLED in the third quarter of last year. The latest news reveals that Samsung will acquire American Micro OLED display manufacturer eMagin for a price of $218 million.

Meanwhile, Meta will also collaborate with South Korean semiconductor giants SK hynix and LGD to develop Micro OLED panels for Meta XR (Extended Reality) devices. This partnership is expected to lead to more Micro OLED applications in AR/VR in the future.

Micro LED technology is still facing bottlenecks, but it has the potential to surpass Micro OLED in the medium to long term. TrendForce states that Micro LED AR glasses, due to the bottleneck in achieving full colorization, primarily display monochromatic information such as informational prompts, navigation, translation, and note-taking functions. Achieving higher resolutions requires chip miniaturization, reducing the size of Micro LED to 5 micrometers. In this situation, epitaxial processes are affected by wavelength uniformity issues, which impact yield. Additionally, smaller chips raise concerns about the external quantum efficiency (EQE) of red chips.

Overall, although Micro LED faces many challenges in AR glasses, it still outperforms Micro OLED in contrast, responsiveness, lifespan, power consumption, and other specifications. Considering the limitations of waveguide component technology in transparent AR glasses, which restricts optical efficiency from exceeding 1%, Micro LED remains an excellent choice in the medium to long term.

Therefore, if Apple wants to introduce Micro LED technology, it plans to start with the Apple Watch. However, the project’s launch has been delayed from 2024 to a later date, possibly beyond 2025, due to technological bottlenecks. In fact, over the past decade, Apple has invested significant funds in collaboration with ams Osram to develop Micro LED components. Once the technology is ready for mass production, Apple is likely to take charge of the critical “mass transfer” process, which may be carried out at its secret research and development center in Longtan, Taoyuan.

It’s worth noting that in addition to Micro LED, the Longtan research and development center is also where Apple collaborates with TSMC on Micro OLED technology for MR devices.

(Photo credit: Apple)

Apple’s plan to release the first Apple Watch with a Micro LED display in 2024 has reportedly been delayed until the second half of 2025 or later due to production challenges. However, this delay shows Apple’s cautious approach to technology and evaluation. This delay shows Apple’s prudence and assessment of technology, but it also brings new opportunities for Ennostar, which was previously considered only a second supplier

According to market research firm DSCC’s, the new Apple Watch will initially adopt Osram’s Micro LED chips, and Epistar(under Ennostar), will be responsible for shipping related components. However, some insiders have revealed that Osram’s technology produces Vertical Chips, which are different from Epistar’s technology and are unlikely to be used in the same project simultaneously.

Epistar’s current chip technology is Flip Chips, Ennostar has stated that American brands are currently collaborating with European suppliers, and Epistar “may have a chance” to be the second supplier, however, ‘the second supplier” may not have a chance to join the cast until 2026.

DSCC mentioned that Epistar is responsible for shipping related components, which differs from what Ennostar said “second supplier”. Technically speaking, Ennostar is more likely to be a “parallel competitor” to Osram since the process of Vertical Chips versus Flip Chips are not on the same technical base. From this perspective, obviously, Apple has dual strategies on Micro LED from adopting Osram’s Vertical Chips as the core and maintaining the technical connections with Taiwanese manufacturers at the same time, which Ennostar may have a shot to ramp up to the main supplier again to take off the “second source” label.

Does the Micro LED process hint at Apple’s product line planning?

Micro LED chips now are mainly categorized into Vertical, Lateral, and Flip chips. According to industry insiders, Osram began developing Micro LED in 2019 but only focused on vertical chips due to patent issues. Currently, only 3 companies in the world have patents for Vertical Chips, and Osram is likely to gain a competitive advantage in Micro LED through these patents. As a result, the company is targeting the development of watches, phones, and AR glasses, and has been collaborating with Apple on watch projects in Germany since 2019. The size of the watch chip produced in collaboration with Apple is approximately 8um.

Meanwhile, Osram announced in 2021 that it is expanding its LED factory in Kulim, Malaysia with an investment of approximately $850 million, and plans to produce Mini LED and Micro LED chips in its 8-inch factory, with mass production expected in 2024. The company also mentioned last year that it plans to produce small-sized products by 2024, and this small-sized product is very likely to be Apple’s Apple Watch.

As for companies such as PlayNitride, Epistar, and Chinese manufacturers that are working on Micro LED technology, they are all using flip chips. PlayNitride stated that they have the opportunity to produce Lateral Chips as client’s request, and Vertical Chips may be produced for AR and VR in the future. “It still depends on the customer’s application to determine what kind of chips matches their products, e.g. Vertical Chips can bring higher PPI with a smaller size of chips.” PlayNitirde said.

Due to differences in the position of electrodes among Vertical chips, Lateral chips, and Flip Chips, give their own pros and cons in each production process. The advantage of Vertical Chips is that they can be made smaller, and the yield rate is higher as the size gets smaller. However, it is difficult to test and repair them once all the Micro LEDs are arranged and connected for testing, so the yield rate may decrease during the bonding process.

Vertical Chips are now suitable for use in the fields of watches, smartphones, and AR glasses, while Lateral Chips are used for other applications like automotive or large displays. However, AUO plans to produce Micro LED watches using Flip Chips, showing that different technologies can still be applied to similar products. In the future, using Vertical Chips may be necessary for developing AR glasses, which may explain why Apple is using this technology in its Apple Watch.

With the dawn of the era of Micro LED mass production, what will be Apple’s strategy?

Apple’s influence in display technology development affects other brands’ adoption attitudes. To reduce risks, Apple is not taking sides as different technologies and processes are involved, which may pose challenges to transfer technology or backplane technology, affecting the entire Micro LED supply chain. For the next generation Apple Watch, Apple is mainly working with Osram for Vertical MicroLED Chips, but may also collaborate with Taiwanese companies on Lateral or Flip Chips in the future.（Image credit: TechNews）