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BOE will start mass production of iPhone 13 panels from October.

BOE will supply OLED panels for Apple’s iPhone 13 in the US. Samsung Display and LG Display were supplying two 5.4-inch and 6.1-inch 60Hz panels with LTPS(Low-Temperature Polycrystalline Silicon) TFT for the existing iPhone 13 panels. And Samsung Display was exclusively supplying 6.1-inch and 6.7-inch 120Hz products to which LTPO(Low-Temperature Polycrystalline Oxid) TFT was applied. The panel that BOE is supplying with approval to Apple this time is a 6.1-inch LTPS TFT panel. BOE’s panel is expected to start mass production at the end of October if Apple approves it soon.

As for the panels that BOE supplied to the iPhone 12, EVEN process was carried out on the B7 (Chengdu) line, and the module process was carried out on the B11 (Myeonyang) line. The process was carried out separately due to the yield issue of the B7 module line, but from the iPhone 13, the deposition yield of the B11 line has improved and both the EVEN process and the module process are carried out on the B11 line. The total amount of panels that BOE will supply for iPhone 13 is estimated to be 15 million units, and although BOE has a target of producing more than 5 million units within this year, it is expected to be in the range of 2 to 3 million units in reality.

Meanwhile, it is known that BOE is also rapidly developing the LTPO line. The LTPO development speed of BOE’s B11 line is faster than that of the B7 line, and it is known that it already has mass production. At BOE, LTPO development is at a significant level, and attention is being paid to whether it will be able to supply LTPO panels to Apple’s next iPhone 14 (working title).

BOE has recently expanded its supply of flexible OLEDs to Samsung Electronics as well as Apple, and its influence in the flexible OLED market is growing. As BOE supplies new panels to Apple for the first time, attention is focused on how domestic panel makers will respond.

UBI Research predicts $2.25 billion in the OLED emitting material market in 2025

UBI Research (www.ubiresearch.com), a company specializing in OLED market research, cites the recently published ‘OLED emitting material market track for the second quarter of 2021’. It is predicted that the market for light emitting materials for OLED will grow at an average annual rate of 9% to reach $2.25 billion in 2025.

The purchase amount of light emitting materials by Korean panel makers is expected to reach $1.61 billion in 2025 at an average annual growth rate of 5.8%, accounting for 71.6% of the total market. In addition, over the next five years, it is expected that Korean panel makers’ total purchases of light emitting materials will account for 72.4% of the total. In contrast, the amount of material purchases by Chinese panel makers is expected to reach $640 million in 2025 at an average annual growth rate of 8.7%.

By panel maker, Samsung Display is expected to purchase the most emitting materials with a share of 43.5% over the next five years, while LG Display is expected to purchase 28.9% and BOE 17.5%.

Finally, looking at each deposition method, it is expected that the light emitting material for RGB OLED will account for 78% of the total market, and the light emitting material for WRGB OLED will account for 20.4%. Samsung Display’s QD-OLED emitting materials, which are expected to be released in the second half of this year, are expected to account for less than 2% of the total material market as panel shipments are not expected to be large.

Samsung’s 806 ppi AMOLED, to Synergize both VR and Smartphone

SDC`s 806 ppi OLED Panel for VR

Hyunjoo Kang / jjoo@olednet.com

Samsung Display’s recently revealed 5.5 inch 806 ppi AMOLED is expected to contribute to the expansion of the global VR (virtual reality) market as well as providing synergy for both Samsung Electronics’ future VR and smartphone business.

In SID 2016 (22-27 May), Samsung Display revealed 5.5 inch AMOLED with resolution of 806 ppi. This 4K UHD display has the highest resolution for 5 inch mark AMOLED in industry.

The response speed of AMOLED is approximately 1,000 times faster than LCD and can actualize much superior picture quality due to exceptional contrast ratio. The reduced amount of harmful blue light is also another merit of AMOLED, and it is becoming the general trend for display for VR display.

Even at the same resolution, the visual effects for smartphone and VR device are different. For example, 577 ppi QHD resolution applied to Galaxy S7 can actualize quite clear picture quality for smartphone. However, when the display is directly in front of the eyes, in cases of VR, aliasing effects, when what is on the screen looks jagged, occurs. In order to produce clear picture quality with almost no aliasing effects in VR, expert believe that 1,500 ppi is required at minimum. However, the current VR AMOLED only can actualize up to high 500 mark ppi.

That Samsung Display displayed AMOLED with resolution of over 800 ppi for the first time should be noted. With this resolution, aliasing in VR can be significantly improved even if not perfectly. Furthermore, this AMOLED has the same brightness as the Samsung’s Galaxy S7. Considering the production yield improvement, this display could be used for Galaxy S8 (TBA) that is expected to be released in 2017. For VR device connected to smartphone, smartphone’s resolution is directly related to the VR’s picture quality. This means that the Samsung’s 806 ppi 5.5 inch AMOLED allows for UHD smartphone production as well as the introduction of VR with upgraded picture quality.

UBI Research explained that while some believe that ultra-high resolution is not necessary in small screen such as smartphone, the 4K UHD 5.5 inch AMOLED is significant in that smartphone is linked with VR which market is being opened. He added that the 806 ppi AMOLED recently revealed in SID 2016 by Samsung will contribute to the expansion of the global VR market as well as providing synergy for both Samsung Electronics’ future VR and smartphone business.

[SID 2016] Samsung Reveals 806 ppi VR Panel, Highest Resolution in Industry

SDC Showcasing an 806ppi OLED Panel for VR ( San Francisco = OLEDNET )

Hyunjoo Kang / jjoo@olednet.com

Samsung Display is drawing attention with 5 inch level VR (virtual Reality) device display with the highest resolution in the industry. The company also displayed Bio Blue, which minimized blue wavelength harmful to human eye.

At Society for Information Display 2016 ( SID 2016, 22-27 May), Samsung Display drew visitors’ attention with their new panel products such as OLED for VR and rollable OLED. At the exhibition booth, Samsung Display presented new 5.5 inch panel. The panel’s resolution, 806 ppi, is the highest pixel density of the 5 inch level VR panels published so far. The resolution is 3840 x 2160 with 306 nit brightness and 97% color gamut.

SDC`s ‘Bioblue’ (Sanfrancisco = OLEDNET)

Additionally, Samsung Display revealed another OLED panel for VR named Bio Blue. Bio Blue minimized harmful blue light by adding light blue to the existing RGB pixel structure. Displaying Bio Blue, the company emphasized that OLED is better for eye health compared to LCD. Of the total blue spectrum, the proportion of blue light harmful to human eye is 66% for LCD and 32% for AMOLED. Samsung Display added that AMOLED will be able to reduce this figure to 6% in future.

Samsung Display exhibited diverse OLED panels including 5.7 inch rollable and panel for notebook use.

[SID 2016] Samsung Display ’s EVP “The Future of Car, Window and Mirror is AMOLED”

a Slide from Samsung Display EVP`s Keynote at SID 2016 (San Francisco = OLEDNET)

Hyunjoo Kang / jjoo@olednet.com

As a keynote speaker for SID 2016, Samsung Display ’s Executive VP and Chief of Research Center, Dr. Sung-Chul Kim explained that display will expand human life experiences through application to automotive, window, mirror, etc. and emphasized that AMOLED will become a key solution for this.

During his keynote session in SID 2016, Kim explained display related technological issues and AMOLED’s advantages. In particular, he highlighted AMOLED’s characteristics suitable for flexible.

Displays that can turn from a wall or window into an information display simultaneously require flexibility and hardness. Kim also explained curved display is suitable for automotive uses. In terms of mirror display, AMOLED is suitable as superior color gamut is required.

Kim added that for realistic image required by VR (virtual reality) and others requires ‘driving tech’. He explained that foldable, rollable, deformable, and stretchable displays will produce more attractive devices, and provide new experiences through VR, automotive, digital signage, etc.

Kim told the attendees that display is a window to communicate with the world and expands lives. He emphasized that AMOLED is the key solution for future display, and will bring more opportunities than expected.