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Small OLED performance and forecast in the first quarter of 2021

UBI Research has published a market track on the market performance of small OLED under 10 inches. The main application products are foldable phones, smartphones, and watches.

According to UBI Research’s small OLED market track, OLED shipments for smartphones (including foldable phones) in the first quarter were 140 million units, a decrease of 13.5% compared to the previous quarter (QoQ), but increase of 32.4% compared to the same quarter of the previous year (YoY).

In the first quarter of 2020, OLED shipments also decreased due to a decrease in smartphone sales due to the coronavirus outbreak.

The reason for the 13.5% decrease compared to the fourth quarter of 2020 is that shipments surged in the fourth quarter of last year due to iPhone launches and strong sales.

In terms of sales by company, Samsung Display and LG Display account for 79.0% and 11.3%, respectively, and Korean OLED dominate the market with 90.3%.

Publication of China OLED industry trend analysis report

Despite the ongoing Corona-19 situation and the US government’s sanctions on Huawei, the adoption of OLED by Chinese smartphone makers is gradually increasing.

The Chinese market, which had been concentrated in the low-end smartphone market, has been expanding into the mid-to-high-end market as Huawei increased its global market share. In particular in the Chinese market, with only the iPhone remaining in the premium smartphone market, Huawei, Oppo, Vivo, and Xiaomi have rapidly increased their market share in the mid- to high-end market with OLED smartphones.

Based on this growth, following Royole and Huawei, Xiaomi also launched a foldable phone in 2021. Chinese display makers have risen to the top spot in LCD production, and their OLED production technology has reached a significant level, and they are also directly producing foldable OLED, which requires the highest level of difficulty in OLED production technology. Foldable OLEDs from BOE and CSOT are used in Huawei and Xiaomi’s foldable phones.

In the “Chinese OLED Trend Report for 2021” published by UBI Research, the OLED-equipped smartphone, TV, and watch industries produced in China were analyzed, and technology development/investment trends and market performance of OLED panel makers were analyzed. In addition, the size of the light emitting material and component material market used by Chinese OLED panel makers was analyzed and summarized.

57 types of OLED smartphones released in the first quarter of 2021 were counted. This number is more than double the number of 27 species in the same quarter last year. This is because Chinese smartphone makers such as Oppo, Vivo, and Xiaomi have mass-released new OLED smartphones to occupy Huawei’s smartphone market.

The OLED market by Chinese panel makers is also growing explosively due to the active use of OLED by Chinese smartphone makers. In the first quarter of 2021, OLED sales for smartphones were counted at 990 million dollars, which increased by 38.3% compared to the same quarter of 2020 (YoY). The reason for the rapid growth of OLED sales is the increase in selling prices as OLEDs produced by Chinese panel makers move from low resolution to high resolution.

The amount of light emitting materials used by Chinese panel makers has not seen a significant increase yet. In the meantime, production was low due to low yield due to low production technology, but now production is increasing even with the same amount of material used. In 2020, 13.8 tons of luminescent material was used.

Forecast of OLED Light Emitting Materials Market in 2021: $15.2 billion

Citing the recently published ‘2021 OLED emitting material report’, UBI Research (www.ubiresearch.com), a company specializing in OLED market research, forecasted that the OLED emitting material market size in 2021 will be $1.52 billion, a 17% increase from $1.3 billion in 2020.

By country, Korean panel makers’ material purchase rate is expected to account for 74.3% of the total market, and China is expected to account for 25.7%. By company, Samsung Display is expected to take the 1st place with 45.9% of the total, LG Display to take second place with 28.5%, and BOE to take third place with 13.7%.

By evaporation method, it is expected that the emitting materials for RGB OLED used for small OLEDs account for 81.4% of the total market, and the emitting materials for WRGB OLED of LG Display account for 18.3%. Samsung Display’s QD-OLED emitting material, which will be released in the second half of this year, is expected to account for less than 1% of the total material market as shipments of QD-OLED panels are not expected to be large.

Meanwhile, the ‘2021 OLED Emitting Material Report’ published this time includes not only the OLED emitting material market forecast, but also the development trend of low-power driving technology, the development trend of blue phosphorescent materials, and the material supply chain of Chinese panel makers. It is expected to be helpful for the companies related to emitting materials understand related technologies and forecast future technology directions and markets.

Why did Apple choose LTPO?

  • Utilizing high refresh rate and reducing power consumption by up to 20%
  • but, 30% more complex process

LTPO (Low Temperature Poly-crystalline Oxide) is an Apple’s technology made by combining LTPS (Low Temperature Poly-Silicon) and Oxide (oxide semiconductor, mainly IGZO) TFT technology. It is characterized by further improving power efficiency by using LTPS with fast electron mobility and oxide with less leakage current.

LTPS TFT with fast electron mobility is applied as a driving role, and oxide TFT with low leakage current is applied as a switch.

LTPO was first applied to smart watches before smartphones. The first device to be applied is the Apple Watch Series 4, released in 2018, and was supplied exclusively by LG Display. Samsung Electronics also applied LTPO to the Galaxy Watch Active 2 in 2019.

Apple Watch with LTPO applied       

     Galaxy Watch Active 2

LTPO technology, which is characterized by low power, is suitable for 5G smartphones that consume more power than existing LTE and is in high demand from major smartphone manufacturers. Samsung Display launched the Galaxy Note 20 Ultra, the first smartphone to which LTPO technology was applied.

Galaxy Note 20 Ultra with LTPO applied

It is expected that Samsung Display will dominate the market as it is leading in technology of LTPO OLED panels for Smartphones, and as a latecomer, LG Display is known to develop panels to be applied to the iPhone, which is scheduled to be released next year.

LTPO technology does not only have the advantage of low power. Because masks are added during the process, the unit price is increased due to the complexity of the process. Manufacturing methods are completely different from existing LTPS and Oxide TFT, and processes are more than 30% complicated. Complex manufacturing processes lead to higher unit prices.

From a manufacturer’s perspective, LTPO application effect must be as large as the increased process unit price. Considering this, it is analyzed that the need and effect of LTPO application are greater (because of the always-on display function) than smartphones. Smartwatches also had a greater effect on lowering power consumption than smartphones. If LTPO is applied, the refresh rate can be lowered, which reduces power consumption, because smartphones require a high refresh rate. The refresh rate is a figure that shows how many scenes are shown per second, and the higher the refresh rate, the smoother the screen transition.

In the case of smartphones, if you play games or watch videos, you can quickly switch to the screen with high refresh rates, allowing you to experience smooth and smooth gaming. Recently released flagship Smartphones are currently supporting 120Hz refresh rate. Considering this trend, LTPO technology, which can reduce screen conversion, is not very suitable for smartphone utilization.

However, in a still picture, LTPS requires a driving of 60Hz to maintain the brightness of the screen due to a high leakage current, but the oxide TFT can be driven at 1Hz because of a low leakage current, so there is no decrease in brightness.

As a result, the LTPO TFT has the effect of reducing the total power in mobile devices by 10% to 15% compared to the LTPS TFT.

To take advantage of LTPO’s technology, new applications and services that consumers want are needed. If it is always turned on and has a function to flow information or a service function to view information by turning on only a certain part of it, OLED and LTPO technologies will be combined and used as an advantage.

 

Equipped with OLED panel on Samsung Display in Hyundai Electric Vehicle’Ionic 5′

  • Samsung Display’s first OLED panel mounted on Hyundai’s first exclusive electric vehicle,’Ionic 5′
  • Optional digital side mirror to mount camera and display screen
  • Significantly helps to improve the mileage and fuel economy of electric vehicles

Samsung Display’s organic light-emitting diode (OLED) display will be used in Hyundai Motor’s first exclusive electric car,’Ionic 5′.

▲ Inside Hyundai’s first exclusive electric car Ionic 5

Ionic 5 can choose a side view camera as an option along with a standard side mirror that uses a regular mirror as before. With this option, there are no mirrors on the side mirrors. In the digital side mirror, a camera is mounted in the place of a general side mirror and a display is located inside. You can see the back and surroundings of the vehicle using the camera and display screen. The wider field of view reduces blind spots and has the advantage of being able to see the surroundings brightly even in the dark underground or at night. This display screen is Samsung Display’s OLED product.

The contract for supplying OLED for vehicles is significant in that it is a 10-year contract between Hyundai Motor Company and Samsung. Samsung Display signed a contract to supply 8-inch LCDs for navigation in 2011, and supplied supplies for three years, but there was no significant business link between the two groups. Hyundai Motor Group selected Samsung Display as the first supplier when it first selected OLED as a vehicle display. As Hyundai Motor adopts Samsung products for its first dedicated electric vehicle with high symbolism, analysts say that the scope of cooperation between Hyundai Motor Group and Samsung will continue to expand in the automotive industry.

Samsung Display has been supplying OLED displays to Audi’s electric vehicle ‘e-tron’ that applied the same system under the name of ‘virtual side mirror’ from 2018.

Audi’s first pure electric car’e-tron 55 quattro’ was applied with ‘virtual side mirrors’ for the first time in mass-produced cars. Are collected.

▲ Audi e-tron ‘Virtual Exterior Mirror’ with Samsung OLED

When the camera is mounted on the side mirror, it improves the aerodynamic flow, greatly helping to improve the mileage of electric vehicles and increase fuel efficiency of internal combustion engine vehicles. In addition, even if the window is covered by snow or rain and it is difficult to see the outside, the side view can be clearly seen through the internal display.

▲ Hyundai Ionic 5’digital side mirror’ equipped with Samsung OLED

The e-tron is equipped with a diamond-shaped OLED display, but the digital side mirror of Hyundai Ionic 5 has a square display design. When I got on the inside of the vehicle and looked at the digital side mirror, I could clearly see the outside from the inside through the screen. In addition, the screen response speed was also smoothly driven without interruption. It is a structure that can easily adapt to drivers who were used to the existing mirror-type side.

 

 

 

 

Cover window market forecast for foldable phones

The biggest difference between flexible OLED and foldable OLED will be the cover window material. In terms of price competitiveness, various Colorless Poly Imide (CPI) are superior to suppliers, but in the end, the cover window market is expected to depend on which material Samsung Electronics and Apple choose.

Samsung Display plans to supply only foldable OLEDs using UTG (Ultra Thin Glass) to Samsung Electronics and other China this year, and is expected to adopt UTG as the main cover window material in the future.

BOE and CSOT currently focus on transparent PI, but they are securing technology by continuously collaborating with UTG-related glass processing companies. For this reason, according to the UBI Research component and materials market track, UTG is expected to occupy 80% of the market for foldable cover windows in the future, and transparent PI is low in price and easy to apply to products larger than 10 inches As a result, it is expected to be applied to low-end models, tablets, and notebook models.

 

In 2020, small OLED shipments increased by 3.4%↑, sales decreased by 2.8%↓

Corona 19 and Huawei’s US sanctions negatively affected the OLED market for smartphones, but it was a plus with Apple’s strong sales of iphone 12.

Samsung Display completed the Y-OCTA renovation of the Apple line in 2020, and the LTPO TFT secured a 30K scale. By the first half of 2021, the company plans to convert the LTPS line from Apple’s line to the LTPO TFT line.

The foldable phones released by Samsung Electronics in 2020 are the Galaxy Z Flip released in February and the Galaxy Z Fold 2 released in September, both in-folding and using UTG (ultra thin glass). Galaxy Z Fold 2 is a product to which LTPO TFT technology is applied.

BOE failed several times without exceeding the approval process in Apple’s iPhone12 quality test, but received final approval for panel supply at the end of December 2020. BOE’s new line, B12, is an Apple module line that starts bringing in equipment from December 2020, and is aiming for mass production in November 2021.

According to the annual small OLED display report published by UBI Research, small OLED shipments in 2020 increased by 3.4% compared to 2019, but sales decreased by 2.8%. The increase in shipments is due to the increase in OLED for watches, and the decrease in sales is due to the decrease in OLEDs for smartphones.

In 2020, the total sales of OLED for smartphones was 26.7 billion dollars, of which Samsung Display accounted for 78.8% with 21 billion dollars. LG Display has sales of $2.8 billion and a market share of 10.5%. Samsung Display accounted for 91.7% with 2.35 million dollars in 2019. Smartphone sales in 2020 decreased by 6.68 million units compared to 2019.

Middle and Large OLED sales growth of 40.2% in 2020

Although Samsung Display’s rigid OLED line is expected to decrease due to a decrease in Huawei’s volume due to the US production, demand for rigid OLEDs is expected to increase as demand for laptops, monitors and tablet PCs is increasing. To respond to this, investment in rigid OLED lines in A4 is also being reviewed. This year’s notebook OLED panel is expected to come out with more than 10 different model product lines, and Apple’s OLED production for iPad is scheduled to start from 2022, so demand for middle and large-sized OLED panels is expected to increase.

In addition, LG Display, a leader in P-OLED supplying in the automotive field, is planning to supply plastic OLEDs for automobiles to German car makers by producing premium OLED panels, and Samsung Display is also supplying OLED panels for vehicles.

According to the 2021 middle and large OLED annual report published by UBI Research, the total sales of middle and large-sized OLEDs in 2020 was $3.882.7 million, and last year was $2.63 billion, an increase of 40.2% from the previous year. By application, the notebook and automobile markets have increased remarkably, and the notebook, monitor, and automotive product markets are expected to grow in 2021.

Samsung Display’s QD-OLED mass production is expected to be around December 2021, and 65-inch panels are highly likely to be used by Sony. Samsung Electronics is expected to receive only 32-inch QD-OLEDs for monitors, not purchasing 65 inches.

LG Display’s 2020 TV OLED panel shipments were counted to 4.4 million units, and if the Guangzhou plant operates at 90K from the third quarter, the production capacity will reach 8.5 million units in 2021.

 

2020 OLED annual performance analysis

Total shipments of AMOLED in 2020 were aggregated to 575.78 million units. This is an increase of 20.41 million units compared to the 557.46 million units shipped in 2019.

The first OLED application products released in 2020 are for automobiles and for notebooks. Analysis by application product shows that the market has increased for foldable OLED, TV WRGB OLED, and watch OLED, and the decline is for smartphone and tablet PC.

Sales in 2020 were $32.68 billion, an increase of $2.3 billion from $32.45 billion in 2019. The insignificant increase in sales compared to the increase in shipments in 2020 is due to the decline in OLED unit prices for smartphones. This is because the OLED unit prices of iPhone and Galaxy S20, which are supporting the OLED market for smartphones, have decreased compared to 2019, and OLED shipments by Chinese panel makers have led to a decrease in OLED unit prices of Samsung Display.

In terms of sales by company, Samsung Display was found to be $22.3 billion, a decrease of $4.2 billion from $26.5 billion in 2019. Samsung Display’s smartphone OLED shipments amounted to 390 million units, a decrease of 40 million units compared to 430 million units in 2019, and sales decreased due to a drop in selling prices. As a result, Samsung Display’s market share in 2020 dropped sharply to 68.2%.

On the other hand, LG Display’s OLED sales reached $68.7 billion, and its market share surged to 21%. LG Display’s sales increase is due to increased shipments of POLEDs for iPhone and OLED panels for TVs.

BOE’s 2020 sales were $1.86 billion, up $7.5 billion compared to 2019. The market share was 5.7%, ranking third.

Korea’s market share in 2019 was 89.3%, falling below 90% for the first time.

Kopin’s 2.6K x 2.6K OLED display incorporated in Panasonic’s new VR glasses

January 19, 2021 – Kopin Corporation announced its Lightning® 2.6K x 2.6K (2560 x 2560 resolution) OLED display on chip (DoCTM) are incorporated in Panasonic’s VR Glasses introduced at the CES 2021 this week.

<Panasonic’s new VR glasses, Source: Panasonic>

The Panasonic VR Glasses are the world’s first high-dynamic-range (HDR) capable, ultra-high-definition VR eyeglasses and offer stunning lifelike images. It comes in a very small form-factor thanks to the 1.3” displays and the slim Pancake® optics. The small, lightweight form factor makes the glasses comfortable to wear for extended periods of time, unlike today’s bulky VR headsets.

The 2.6K x 2.6K OLED DoC is made with Kopin’s patented ColorMaxTM technology for high color fidelity (> 100% sRGB) and a duo-stack OLED structure for high brightness (> 1000 nits). The 10-bit color control, together with the high color fidelity, high brightness and high contrast ratio (> 10,000: 1), enables the much-desired studio-quality, HDR capable VR experience.

“We have worked very closely with Panasonic and Lakeside Optoelectronic Technology on the display and with 3M on the Pancake optics for the Panasonic VR glasses,” said Dr. John C.C. Fan, President and CEO of Kopin.

Wu Di, President of Lakeside Optoelectronic Technology, said, “In the development of 2.6K x 2.6K OLED displays on silicon with Kopin, we optimized the OLED deposition processes, tuned our production line, and delivered the industry-leading products.”

The mini-LED TV market in 2025 is the trend of the premium TV market

Products with more advanced LCDs appear. It is an LCD that has greatly improved brightness, HDR, and color reproducibility by adding QD film and mini-LED to BLU. The existing top-level LCD used a full array local dimming (FALD) BLU with a local dimming zone of about 300 to 500.

When the local dimming zone is increased to more than 3,000 by using mini-LED, the contrast ratio is significantly improved, and the halo effect is reduced compared to FALD BLU LCD TVs. In order to achieve the same performance as OLED, the local dimming zone must have as many pixels as the number of pixels, but due to the limitation of LED size reduction, mini-LED TVs to be sold this year will have a local dimming zone of 1,000-3,000 products.

To make the best LCD TV, a TFT substrate capable of AM driving mini-LED BLU is needed. The competitive pointer of LCD TVs using mini-LED BLU is a technology that can make the image quality similar to OLED while minimizing the local dimming zone and the number of LEDs. In order to realize the same image quality as OLED, the local dimming zone must be more than 100,000 divisions, and hundreds of thousands of LEDs and TFT substrates are required for driving, so the manufacturing cost of panels (including modules) becomes similar to that of OLED.

If the backplane of the mini-LED BLU uses FR4 or BT and the local dimming zone is divided into 3,000, the mini-LED TV manufacturing cost can be reduced to about half of that of the OLED TV, maximizing the quality of the LCD TV while lowering the price. The TV with the best cost performance is created.

The manufacturing cost of mini-LED BLU for 65-inch TVs with a local dimming zone of 10,000 divisions or less is analyzed at 250-1,100 dollars level, and the TV price is expected to range from 1,500 to 6,000 dollars depending on the size and local dimming division level. In 2021, the mini-LED TV market is expected to form 2.5 million units.

In terms of market share with OLED TVs, mini-LED TVs are expected to dominate after 2024.

TCL has led the development of Mini-LED TVs, but the market will be led by Samsung Electronics and LG Electronics.

OLED Market Enters Adjustment Period from Rapid Growth

As smartphone makers, including Samsung Electronics and Apple, increased the use of OLEDs in flagship models, the growth of the OLED market, which had been rapidly growing, has been braked.

The third quarter of each year is the season with the best OLED performance for smartphones due to the launch of a new iPhone. According to the display market track of UBI Research (www.ubiresearch.com), in the third quarter of this year, 113 million units were shipped, an increase of 26.3 million units compared to 86.7 million units in the last quarter, showing a growth of 30.4%. However, this figure is due to an optical illusion. The reason is that the results in the first and second quarters were very poor compared to before due to COVID-19. Compared to the third quarter of last year, shipments in the third quarter of this year decreased by 17.9%. Shipments are smaller than in the third quarter of 2018.

The decrease in OLED shipments for smartphones in the third quarter is due to the addition of Huawei sanctions to COVID-19. The sharp drop in shipments from Samsung Display and BOE to Huawei deteriorated the third quarter earnings.

There are also many analyzes that companies such as Samsung Electronics, Oppo, and Vivo will benefit from the reflection due to Huawei sanctions. However, since Samsung Electronics is currently struggling in the Chinese market, and the brand power of Oppo and Vivo is less than that of Huawei, it will be difficult to replace the expensive smartphone market in China occupied by Huawei. Therefore, Huawei’s smartphones, which mainly use OLEDs, disappear from the market, and shipments of Samsung Display and BOE are also forced to decrease more than expected.

The growth of the smartphone OLED market is expected to slow for the time being due to Huawei’s smartphone production disruption, which was expected to break through the 300 million units’ market and purchase OLED in large quantities. As a result, the OLED market in China will suffer a severe oversupply situation.

Samsung Electronics’ foldable smartphone to be released in 2021, with touch pen and UTG thickness different?

According to the ‘2020 OLED Components and Materials Report’ recently published by UBI Research, Samsung Electronics’ next-generation foldable smartphones to be released in 2021 are expected to be equipped with a pen function.

It is expected that the pen function will be added to Samsung Electronics’ Galaxy Z Fold2, which was released in September, but the flexibility issue of the digitizer, which is an essential material to support the pen function, and ultra thin glass (UTG), the cover window material. The pen function was not added in the end due to its thin thickness.

In order to add a pen function, Samsung Display seems to be considering applying an active electrostatic solution (AES) method that does not require a digitizer and changing the thickness of UTG.

First, the’Galaxy Note’ series uses an electro-magnetic resonance (EMR) method with a digitizer at the bottom of the OLED panel. The EMR method has good touch sensitivity and does not require a battery to be embedded in the pen, but it is not applicable to foldable devices due to the flexibility issue of the metal digitizer.

Unless the companies developing the EMR method provide a special solution, the AES method is highly likely to be applied to the pen for the next ball double device. In this case, the sensor pitch of Y-OCTA is formed more densely or the Touch IC is more complex. Can be designed.

The AES method is also being developed by LG Display and BOE to apply to foldable devices.

In addition, the thickness of UTG is also expected to change. The 30 um thick UTG, which is currently commercially available, has good flexibility, but due to its film-like characteristics, when pressure is applied with a touch pen, traces remain and may affect touch sensitivity. To solve this problem, Samsung Display is developing UTG with a thickness of more than 60 um in cooperation with glass processing companies.

As the thickness of the UTG decreases as the thickness increases, it is expected that the UTG currently under development will be applied with a concept in which the folded part is processed thin and filled with a material having the same refractive index as glass. In addition, in the future, there is a possibility that an additional coating process will be added after the reinforcement process without a protective film such as PET on UTG.

In UBI Research’s ‘2020 OLED Parts and Materials Report’, Samsung Display’s expected change in foldable OLED was written as a roadmap and the trends of related materials were analyzed. According to the report, Samsung Electronics’ application of pens for foldable devices is expected in 2021, and UTG materials are expected to lead the market at 78% by 2025 in the future cover window market for foldable devices.

OLED performance analysis in the first half of 2020

It was found that COVID-19, which has spread around the world since January this year, has adversely affected the OLED industry as well. According to UBI Research (CEO Choong Hoon Yi)’s [2020 OLED Display Semi-Annual Report], OLED total shipments and sales in the first half of 2020 were 231 million units and 13.2 billion dollars, respectively. Compared to shipments of 230 million units and sales of 13.8 billion dollars in the first half of last year, shipments increased by 1 million units but sales decreased by 600 million dollars.

The reason for the decrease in sales compared to the increase in shipments is because the shipments of OLEDs for watches, which are cheaper, have increased, but OLEDs for smartphones and TVs have decreased. OLED for watch was 22 million units in 1H19, but 1H20 increased significantly to 33.5 million units, helping to increase OLED shipments. However, the OLED market for smartphones decreased by 10.6 million units. The foldable OLED market has risen significantly with the Galaxy Z Flip, which Samsung Electronics released in the first half of this year.

In the future, the increase in line capacity for mobile devices by panel makers is expected to slow from 2023. Until 2022, investments by Chinese companies are maintained, but further investment is difficult to expect as the oversupply of OLED for smartphones continues.

Samsung Display is converting the LTPS TFT line of the A3 plant to the LTPO TFT line, and since it has been converted so that Y-OCTA can be manufactured at all plants, the mass production capacity is expected to decrease gradually, reaching 9 million square meters in 2021.

As a result, Korea’s mass-produced substrate area is 56.5% until this year, but from 2021, China is expected to have 1% mass-produced capacity, and after 2022, China’s mass-produced capacity will exceed 50%.

Smartphone OLED shipments plummeted to 87 million units in the second quarter of 2020

According to the market track for the second quarter of 2020 published by UBI Research, the total OLED shipments in the second quarter were 107 million units, down 13.4% (QoQ) from 124 million units in the last quarter. In addition, it decreased by 16.6% (YoY) compared to the 122 million units in the second quarter of 2019. This is because sales of OLED set devices decreased due to the aftermath of COVID-19.

However, it was found that the OLED market for smartphones that support the OLED market was significantly affected by COVID-19 compared to the overall market.

OLED shipments for smartphones in the second quarter were 87 million units, down 17% from the previous quarter (QoQ), and 23.1% from the same quarter last year (YoY). Compared to the decline in overall OLED shipments, the decline in OLED shipments for smartphones is even greater. However, the reason for the decline in OLED shipments for smartphones is concentrated on rigid OLEDs.

Despite the sharp decline in OLED shipments for smartphones, flexible OLEDs grew 38% compared to the same quarter last year.

However, the YoY of rigid OLED shipments was -40.3%, a sharp decline from the same quarter last year.

The reason why the increase in flexible OLED for smartphones has soared and the shipments of rigid OLEDs have fallen sharply is because Chinese smartphone makers reduced production of mid-priced smartphones using rigid OLEDs and increased smartphone shipments using flexible OLEDs.

According to UBI Research’s CEO Choong Hoon YI, the reason Chinese smartphone makers have increased their flexible OLED smartphone shipments is: First, due to the influence of Apple, Chinese smartphone makers also use OLED for their flagship models. In particular, Chinese smartphone makers use the name plus or max, which are used by Apple and Samsung Electronics, for the highest-end specifications, and imitate that they are making a product that is equivalent to Apple and Samsung Electronics, which are the most recognized in the smartphone market. The second reason is that Chinese display makers have improved OLED manufacturing technology, allowing them to produce panels similar to Samsung Display’s OLED. In particular, it is because Chinese panel makers are supplying panels at 60% of Samsung Display’s price, so Chinese smartphone makers have increased the choice of flexible OLEDs. The third reason is that Chinese panel makers can supply OLEDs at low prices because of the Chinese government’s subsidy policy.

YI said that the OLED industry will become more active due to the increase in OLED usage by Chinese smartphone makers, but the growth of Samsung Display’s OLED business, which has maintained a monopoly position in the smartphone OLED market, may stop growing due to the increase in production of Chinese panel makers.

Supplied foldable OLED panels to CSOT T4, Motorola

Recently, the panel maker COST T4 plant, a subsidiary of TCL Group, mainly produces premium flexible AMOLED displays, and already supplies them to Motorola foldable OLED phones and Xiaomi 10/10 Pro premium OLED phones.

In early 2019, TCL Group changed its company name to “TCL Technology” while reorganizing its assets and focused on the display panel business. The production capacity of TCL Technology, one of the LCD manufacturers with the largest production capacity in China, is showing rapid growth in recent years.

It is said that the CSOT shipment in 2019 was 22.84 million square meters, an increase of 23.8% from the same period last year. Among them, the flexible AMOLED T4 plant achieved the first stage of mass production in the fourth quarter of last year. CSOT expects that flexible products will be mass-produced within this year and will enter the market in large quantities.

At the same time, the spread of next-generation display technologies and materials is also strengthening. In 2019, the company invested 5.46 billion yuan in R&D and applied for 2,752 PCT international patent applications

The cumulative number of patents is 11,261, covering countries such as Europe, the United States, and Korea. 

Even in the large size area, TCL applied HVA technology in LCD premium products to increase market share such as 4K/8K and Touch, and launched MLED, the world’s first glass substrate mini LED product.

 Even in the small and medium sized area, TCL’s LTPS production line yield and quality have already reached the international level, and the market share of Incell/COF/Blind hole products is steadily increasing. Therefore, it is said that Off Screen/In Screen fingerprint technology is also actively developing.

TCL Technology, which focuses on premium flexible AMOLED, is focusing on premium technologies such as UDC technology and foldable.

Will Dowooinsys expand UTG lines to prepare for the foldable phone market?

The cover window material of Samsung Electronics ‘Galaxy Z Fold 2’ which will be released in the second half of this year, is UTG like ‘Galaxy Z Filp’. The reason why Samsung Electronics prefers UTG is analyzed for its sense of luxury, differentiation, and sensitivity for the touch pen expected to be applied in the future.

In 2021, the market for over 10 million foldable phones is expected to expand, and the main cover window material of Samsung’s foldable phones will be UTG. To respond to this, Dowooinsys should increase their capacity.

Dowooinsys’ capa is estimated to be 250K/month for 6 inch cells and 375K/month for 7 inch cells. Even if the 6 inch line will be converted to a 7 inch line in the future, it will be 500K/month. Considering the yield of Dowooinsisy and Samsung Display’s Vietnamese module line, more than 4 to 5 lines should be expanded.

Currently, Samsung Display’s Vietnamese module line is assumed as 450K/month considering the yield, but the Vietnamese module line is continually being converted into a foldable line. Even in response to the current situation that Samsung Electronics prefers UTG, Dowooinsys is expected to expand more lines in the second half of this year, and its location is also expected to be considered near Samsung Display’s Vietnamese module line.

With the expansion of Dowooinsys’ additional lines, the market of cover window materials for foldable phones is expected to change in the future. At UBI Research’s ‘Next-Generation Display Technology and Industry Outlook Seminar’ held in mid-July, it is predicted that UTG will lead the future market at a ratio of 7:3 with colorless polyimide.

LPKF’s laser glass processing technology, makes a cover glass thicker than UTG be folded.

It was expected that the S Pen would be applied to Samsung’s ‘Galaxy Z Fold2’, which will be released in the second half of this year, but it has passed the year.

UTG, the cover window material currently applied to Samsung Electronics’ ‘Galaxy Z Filp’, is 30 um thick and is 1/10 thinner than 300 um, the thickness of commercially available cover glass.

It was possible to have flexibility by using UTG into a foldable phone, but due to the film-like characteristics, there was an issue that durability was insufficient to apply the S Pen.

In order to handle this issue, a technology that increases the thickness of UTG and secures flexibility will be needed. A typical method is processing the folding part of the glass to get flexibility even at a thick thickness.

LIDE (Laser induced deep etching) technology, developed and patented by German high-tech company LPKF, is expected to be a good example. It is known that this technology is a two-step process called micro-region transformation and chemical treatment using a laser, and can process glass of various thicknesses from 30 um to 900 um without micro crack.

LPKF explains that the part where the cover glass is folded is finely processed with a laser to give flexibility to the glass, and it is possible to design the pattern to be invisible using a polymer having same reflectivity as a cover glass.

If you look at Vitrion’s YouTube video (https://youtu.be/Vh3rU4LRHaw), a separate brand related to LIDE, in LPKF, you can see that a cover glass with a thickness of 500 um was patterned to secure bending radius of 1 mm.

<LPKF foldable OLED cover glass, Source: LPKF>

With this glass processing technology, attention is paid to whether a S-pen can be supported as a thicker cover glass is applied to a foldable phone in the future.

Samsung’s Galaxy Z Fold 2 image leak, internal and external displays become bigger

<The first supposed official render of Galaxy Z Fold2, Source: twitter.com/ishanagarwal24>

On 21 July, information leaker for IT new product, Ishan Agarwal, released an image presumed to be a rendered photo of ‘Galaxy Z Fold2’ on his Twitter.

Galaxy Z Fold2 will be released at the end of September, about two months after it was unveiled at the Galaxy Unpack event on the 5th of next month.

Inside the Galaxy Z Fold2, a 7.7-inch foldable OLED that is larger than the previous Galaxy Fold’s 7.3-inch screen is used, and the cover window material of the foldable OLED is UTG. The size of the external OLED is 6.23 inch, which is 1.63 inch larger than the previous one.

The rear camera is equipped with a 1,800-megapixel main camera, a triple (three) camera and a flight distance sensor (ToF), and the internal camera is known to be located in the center of the right screen in the form of a punch hole, but can’t see in this image.

Expected touch pens do not apply to this model. The shipping price is expected to be 2.3 million won, which is about 100,000 won cheaper than the previous one.

Published The Chinese OLED Industry Trend Report for The First Half of 2020

UBI Research published a report on trends in China related to the OLED industry at the end of the first half of 2020.

In 2020, 1Q China’s OLED sales were $842 million, despite a Corona 19 crisis, up 1.7% QoQ and 59.4% YoY. China’s OLED shipments are 23% of the total market as of 2020, and it is expected to expand to 45% in 2025.

This report includes product launch trends of OLED-related Chinese set makers during the 2019~first half of 2020, business and investment status by major panel manufacturers, supply chains for major products, various performance analysis and forecasts, and includes the trend of recently announced exhibition products.

This report will provide guidelines for people engaged in various tasks such as OLED-related panel manufacturing, parts/materials, and equipment fields to understand and forecast the Chinese OLED industry.

Material Science Co., Ltd. develops high-purity blue light-emitting material with a half width of 11 nm

In OLEDs which are currently leading the display industry for mobile devices and TVs, blue material is still using fluorescent material unlike red and green.

Currently, a lot of light emitting material companies are trying to improve the efficiency, lifespan, and color purity of blue light emitting materials, also next-generation materials such as phosphorescence, TADF, and hyper-fluorescence as well as actively developing luminous efficiency by controlling emission wavelengths.

Material Science (hereinafter referred to as MS), a Korean company that has been developing blue light emitting materials since 2015, has recently focused on realizing high color purity and successfully developed high color purity blue light emitting materials with a light emission wavelength of 460 nm and a half width of 11 nm. Considering that the emission wavelength of the currently commercially available blue material is about 20 nm, the blue material of MS is expected to receive great attention.

The full width at half maximum (FWHM) is an expression of the extent of function given by the difference between the two extreme values of the independent variable at which the dependent variable is equal to half of its maximum value.

And the narrower the half width, the higher the purity.

A typical example is Samsung Electronics’ QLED TV, which has significantly improved color reproduction by applying a QD sheet to the LCD back light.

The blue light emitting material developed by MS is expected to be applicable not only to fluorescent materials but also to hyper-fluorescence, which is attracting attention as a next-generation blue material according to emission wavelength control.

<Comparison of the half width of the existing blue dopant with the half width of the blue dopant developed by MS, Source: Materials Science>

Announcement of sale of Samsung LCD P8-2 line

Recently, Samsung’s announcement of the sale of the P8-2 LCD line in Tangjeong was posted (announced on June 29).

Samsung has been steadily selling the old LCD line until recently, but since it has never posted a sale announcement, it is unusual to post a notice on the sale of this P8-2 line.

Prior to this, some facilities of the P8-1 line were converted to the newly invested QD display line, and only about 30K of TFT and 200K of CF out of all 200K-scale process equipment were sold to companies in China.

Shenzhen EFONLONG OPTRONICS DISPLAY CO., LTD, which acquired Samsung P8-1 line equipment, was founded in 2008 as a manufacturer of LCD modules , located in shenzhen, China. Hefengtai is known to attract investment from the government of Zhejiang, China, and install and operate a relocation facility in Zhejiang.

On the other hand, this P8-2 is known to sell the entire 200K-scale facility, and it is known that Samsung C&T is in charge of it, and the sale amount reaches 500 billion won.

Samsung is known to preferentially convert existing LCD facilities in line with the investment of QD Display, but due to the announcement of the sale of all volumes, it is expected that most of the investment facilities will be newly purchased in the future.

In view of this information, it is possible to carefully predict the possibility of a delay in the investment schedule of an additional 90K scale after the current QD display 30K investment or a change in the investment direction associated with QNED development status.

Jiangsu LEMENG (江苏乐萌) invests 200 million yuan for OLED metal mask project

On June 18, 2020, Jiangsu Lemeng Precision Science and Technology Co., Ltd. (江苏乐萌精密科技有限公司, hereinafter Jiangsu Lemeng) invested 200 million yuan to sign a project contract to confirm the OLED metal mask. It was held in the state-of-the-art new district of Changzhou, Changzhou, Jiangsu Province.

Jiangsu Lemeng (江苏乐萌) secured 77,000 m2 new plant site for expand the OLED metal mask production line. Based on the existing G6 and G5.5 Mask Frame production lines, it will expand production capacity and secure large-scale production capacity of CMM. After the project is completed, Jiangsu Lemeng (江苏乐萌) can produce 8000 Mask Frames and 1000 CMMs annually, and the production sales are expected to reach 500 million yuan. Metal masks are core consumable parts required for OLED production, and have been exclusively supplied by Japanese and Korean companies for a long time.

Jiangsu Lemeng(江苏乐萌) is a subsidiary of Lemeng, Changzhou City, invested 120 million yuan from OLED business unit of Lemeng, Changzhou City, the predecessor, and related to OLED metal mask industrialization from 2017 Technology has been developed. Started mass production of Mask Frame from October 2019 and has a production capacity of about 1000 pieces per year. Jiangsu Lemeng is known to have already secured CMM industrialization technology, and is expected to secure 1,000 CMM production capacity annually from June 2021, when the new facility is completed.

Source: OLED Industry June 19

Investment of 43.75 billion yuan, investment of new Micro OLED factory in China

According to China’s Fujian Daily, a large-scale investment agreement has been recently signed in Quanzhou, China. According to the contents of the agreement, the contents of various agreements including the Micro OLED project, high-purity electronic materials, lithium hexafluorophosphate project, China Datang 5G Southeast Industrial Base project, and integrated circuit start-up investment fund business are included. It consists of high-tech IT industries such as manufacturing, digital economy, and financial services.

It is known that Quanzhou City’s Micro OLED project is planned to divide the total of 4.33 billion yuan into two stages. The first phase of the project is to invest 667 million yuan and build one micro OLED module test production line on a 5000 square meter site. The monthly production capacity is 1 million units (basic size 8 inches), and the production of 100,000 modules is completed on an annual basis. It is estimated that the annual output of the resulting production will reach 350 million yuan. The second phase, which is in progress, is 3.7 billion yuan. One Micro OLED plant is built and the monthly production capacity is 15,000 sheets (12 inches of substrate size), and one Micro OLED plant will be produced to produce 20 million consumer electronics modules.

According to the breaking news reported earlier, the Micro OLED project was also announced at the concentrating cloud contract of Qianzhou City’s major project in 2020, held by the City Hall of Quanzhou on March 19th. At the time, the event was conducted in the form of’meeting site + online linkage of investment destinations’. Vice Minister Wang Yafu of County, Quanzhou City, signed the Huidong Industrial Park Micro OLED business, investing a total of 4.35 billion won with Chairman Wu Wen Tian of 福建恒煦实业有限公司 on behalf of the current government.

Source: Fujian Daily June 5

Samsung Display A3 line replaced with Y-OCTA manufacturing line

The touch panel technology installed on a mobile phone is an important element technology that performs a user interface function. Touch technology is changed from an add-on type to an on-cell type in flexible OLED displays.

The built-in method in which a touch sensor is formed on a thin film encapsulation (TFE) is called by various names such as Y-OCTA(YOUM on-cell touch AMOLED), ToE(touch on encapsulation) or FMLOC(flexible multi-layer on cell touch) for each panel maker. Unlike the add-on type, the on-cell type touch sensor is formed directly on the top of the encapsulation layer without a separate base film. Due to this, the on-cell type has a higher process difficulty than the add-on type, but it is advantageous to manufacture a thin OLED panel thickness, and there is an effect of reducing the process cost.

Recently, in order to apply this on-cell type touch technology to mobile phones using OLEDs, each display manufacturer is undergoing a step-by-step line modification work. Four mask steps are added to apply the on-cell type touch technology. There are two ways to cope with this process step increase: to install and respond to new equipment as much as the process to increase, and to proceed with the process at existing facilities.

Samsung Display decided to use an existing exposure machine to use the on-cell type touch technology in the existing A3 line (Tangjeong), and is in the process of remodeling the 105K capacity TFT production line. In the existing process flow, a back plane process is performed with mother glass of 1500×1800 mm2 and 1500×900 mm2 glass with half-cutting of this mother glass is processed in the OLED process. Therefore, in order to process the half-cut glass again in the back plane equipment, the jig manufacturing method of connecting and processing two cut sheets is applied. After this modification, the production capacity of the A3 line will be reduced. The amount of 105K of the A3 line that is currently being renovated is changed from LTPS process to LTPO process, and it is combined with Y-OCTA process. In this case, 3 mask steps increase as LTPS is changed to LTPO, and 4 additional mask steps increase for Y-OCTA. As a result of the total increase of 7 mask steps, the A3 line is expected to reduce the existing 105K production capacity to approximately 75K level after remodeling.

China’s BOE is also constructing built-in touch processes in B7 and B11. BOE is in the process of adding and processing exposure equipment, etc. as a way to add a built-in touch process. In this case, there will be no significant change in production capa.

<Production capacity comparing with before/after modifying at SDC A3 line>

Deuterium substitution blue, will be next generation blue materials?

Fluorescent blue emitting material is the only fluorescent material used in small and medium-sized OLEDs and large-area OLEDs.

Development of next generation emitting materials such as TADF and hyper-fluorescence is also in progress, but deuterium substitution technology has got attention since it is adopted to Samsung Galaxy S20.

Deuterium substitution technology is to replace hydrogen with deuterium in a compound combined with existing hydrogen, and each company has a difference in substituting the compound before or after synthesis or substituting the whole. Representative development companies for deuterium substitution include Idemitsu Kosan, DuPont, SFC, and JNC.

As related patents, compounds substituted with deuterium with an atomic mass of deuterium that is twice as high as hydrogen have lower zero-energy and lower vibrational energy than those combined with hydrogen, resulting in lower ground-state energy and weaker intermolecular interactions, resulting in a thin film in an amorphous state. It is effective in improving the life of OLED.

It is expected that the OLED device to which the deuterium-substituted compound is applied can improve the lifetime by more than 20% compared to the previous one.

Samsung’s QNED, will make a sensation in the TV and display markets?

QNED (Quantum dot nanorod LED), which is known to be under development by Samsung, is becoming a hot issue in the display industry in 2020.

With the emergence of micro LEDs, followed by CRTs, PDPs, LCDs, and OLEDs as TV displays, the industry is interested in whether QNED could be another new technology.

Samsung Display is known to stop the LCD business and invest 13.1 trillion won as an alternative to do the QD-OLED business. In this situation, attention is being focused because the development of QNED can act as another variable in the future of Samsung Display’s large display business.

QNED uses oxide TFT and QD (quantum dot) -CF (color filter) technologies used in QD-OLED manufacturing. On the other hand, the pixel material that emits light is characterized by being changed to a nano-sized bar-type LED (nanorod LED), unlike OLED emitting materials. The pixel manufacturing technology, which is the core technology of QNED manufacturing, is a method of spraying nanorod LEDs dispersed in a solution into a pixel area by an ink jet method and arranging them in a self-align method by an electric signal.

UBI Research published a report that analyzed the structure and manufacturing technology of QNED based on the patented technology filed by Samsung Display. This report is structured to quantitatively analyze QNED-related patents filed by Samsung Display, so that QNED’s technology completeness and mass productivity can be known.

QNED structure and manufacturing technology analysis report published

UBI Research (www.ubiresearch.com) published “QNED Structure and Manufacturing Technology Analysis Report”, which analyzed 41 cases of Samsung Display’s QNED (quantum dot nanorod LED) published patents.

The contents described in this report were selected from the 41 patents published, which are considered to be used for QNED manufacturing, and are constructed by qualitative analysis.

As a result of analyzing the published patent, the QNED structure was formed of TFT, pixel, and QD (quantum dot) -CF (color filter). In the published patent, all TFT structures are depicted as 2Tr (transistor), but it is estimated that a 3Tr1C structure will be used because at least three TFTs for current driving are required. The pixels consisted of nanorod LEDs, electrodes, and optical structures to increase light efficiency.

Until now, the electrode structure of the pixel was known to be rectangular, but as a result of analyzing published patents, the electrode structure is estimated to be circular. In a specific patent, when the asymmetric waveform was applied to the circular electrode, the alignment direction and alignment characteristics of the nanorod LED were improved. It is judged that the nanorod LED alignment electrode and the drive use the same electrode.

The nanorod LED used for QNED manufacturing is made of GaN and emits blue light, and the size is <1um x 10um. In order to increase the alignment effect of the nanorod LEDs and reduce process defects, the nanorod LED surface appears to be treated with an insulating film and an orientation radical.

What is the difference between the touch types of each model of iPhone 12?

All of Apple’s iPhone 12 models, OLED panels will be used and consisted of four models. There are three sizes, 5.4 inches, 6.1 inches, and 6.7 inches, respectively, and 6.1 inches are divided into two models.

Samsung Display and LG Display have begun preparing to mass-produce, with recent orders from Apple. Samsung Display plans to supply OLED panels of all sizes, LG Display plans to supply 6.1-inch OLED panels, and there are differences in touch type by size.

First, on-cell touch which a touch electrode is formed on a thin film encapsulation (TFE) is applied to 5.4 inch and 6.7 inch models. Each panel maker is called Y-OCTA (YOUM on-cell touch AMOLED), ToE (touch on encapsulation), FMLOC (flexible multi-layer on-cell touch), and unlike add-on touch, a touch electrode is formed directly on the upper layer without base films. Due to this, the on-cell touch has a higher process difficulty than the add-on touch, but it is advantageous to fabricate a thin OLED panel thickness, and the process cost is also reduced.

Add-on method is applied to 6.1 inches. A touch electrode is formed on the base film, and is attached on the TFE by adhesive. It has the advantage that the process is simpler than on-cell touch.

<Flexible OLED touch type, Source: AMOLED Manufacturing Process Report>

Recently, rumors that BOE is supplying 5.4 inch and 6.1 inch OLED panels to Apple have turned around, but 5.4 inch is on-cell touch type and it is still difficult to supply for iPhone 12 due to technical difficulty. BOE is developing a 6.1-inch OLED panel and has not received calls yet.

<iPhone 12’s touch types and panel suppliers>

Who is the supplier of OLED panels for iPhone 12?

<Image of iPhone 12 Pro Max, Source: EveryApplePro>

Apple’s new iPhone 12 will be consisted of 4 models, and all 4 models are expected to adopt OLED. The general lineup of the iPhone 12 is the 5.4 inch iPhone 12 and the 6.1 inch iPhone 12 Max, and the pro lineup is the 6.1 inch iPhone Pro and the 6.7 inch iPhone Pro Max.

Recently, rumors are floating that BOE will supply OLED of 5.4 inch and 6.1 inch general models, and Samsung Display will supply OLED of 6.1 inch and 6.7 inch pro models. Due to the news that Chinese OLED panel manufacturer BOE is supplying OLEDs to Apple, the interest of OLED-related companies such as light-emitting material companies and component companies is growing day by day.

According to UBI Research, BOE is developing 5.4 inch and 6.1 inch OLEDs, but has not received any calls from Apple. In the current situation, Samsung Display plans to supply 5.4 inch, 6.1 inch, and 6.7 inch OLEDs, and LG Display and BOE are developing 6.1 inch OLEDs.

The BOE hasn’t gotten a clear call yet, but there’s plenty of time left for the mass production of the iPhone 12, so there’s plenty of room for the BOE to get a call from Apple. While the production of the iPhone 12 is likely to be delayed by about a month due to the corona incident, it usually takes 4 ~ 5 months from the OLED panel test to the mass production of the set, so there is enough time.

Related information can also be found in the recent report of ‘change in OLED market by coronavirus’, published by UBI Research.

78.6 tons of OLED emitting material demand increased by 5.6% in 2020

According to the 2020 OLED emitting material report published by UBI Research, the demand for emitting materials in 2020 is 78.6 tons, which is 4.2 tons higher than last year’s 74.4 tons. The material used for OLEDs for smartphones and mobile devices is 62.9 tons, and the OLED emitting material for TVs is expected to be 15.7 tons.

In 2019, the total emitting material market was totaled at $ 1.28 billion, and 43% of the total amount was purchased from Samsung Display. It was found that the amount purchased by LG Display was 19.4% and the BOE was 11.6%. LG Display’s purchase of emitting materials accounted for 60.8% of TV use. The order of purchase of emitting materials for mobile devices is in order of Samsung Display, BOE, and LG Display. This is because BOE has a large amount of OLED production for mobiles after Samsung Display.

The OLED panel for TV only produces LG Display, but Samsung Display is pursuing QD-OLED commercialization using blue light emitting material and QD. In addition, although BOE is a white OLED structure similar to LG Display, it is developing a top-emission structure that transmits light in the opposite direction of TFT, and it is expected that three companies will produce OLED panels for TV within a few years, and the emitting material market is expected to increase as well.

The market for emitting materials in 2020 is expected to increase by 7% from 2019 to $ 1.37 billion. Among the emitting materials, green and red hosts are expected to be $ 19.2 billion and $ 19 billion, respectively, and green dopants and P + are expected to be $ 1.37 billion and $ 1.35 billion, respectively.

[UBI Research China Trend Report] Will BOE Provide UPC Panel with Transparent PI Substrate to Oppo?

According to UBI Research’s report on changes in the OLED market caused by coronavirus, the forecast for the 2020 OLED modification market is $ 36.7 billion in sales and 612 million units. This is a decrease of 4.8% and 7.6%, respectively, from the expected sales of $ 38.5 billion and shipments of 6.6 million units at the beginning of the year.

As a result of UBI Research’s analysis of the effect of coronavirus on the OLED market for two months, the global smartphone market is expected to drop by 20% and the TV market is expected to decrease by 15%. However, the impact on the overall OLED industry was judged to be only 5-8%. OLED panels for smartphones, TVs and watches are expected to decrease, but the market for OLEDs for monitors is expected to increase.

The expected OLED shipment for smartphones was 527 million units at the beginning of the year, but the forecast for correction is 486 million units, a decrease of only 7.8%. Although the market for Galaxy and iPhone is analyzed to be higher than the average decrease rate, Chinese smartphone makers are expected to reduce LCD smartphones and increase production of OLED smartphones significantly.

Chinese smartphone makers’ use of OLED seems to follow Apple’s business direction. Flagship models of Chinese smartphone makers have used Pro and Pro Plus. Pro is the model grade name used by Apple and Plus is the model grade name used by Samsung. However, flagship models of Chinese smartphone makers that are launching this year are using both Pro and Pro Max as well as Apple. All of these models, like Apple, plan to use flexible OLEDs.

The OLED TV market was found to be greatly affected by coronavirus. Estimated shipments at the beginning of the year were 4.9 million units, but the forecast for correction was 3.6 million units, down by 1.3 million units. A 26.5% reduction is expected. This is 300,000 units more than 2019 shipments. This is because the production schedule of the Guangzhou factory has been postponed since the third quarter due to the coronavirus, and TV sales are plunging due to the spread of coronavirus in Japan and Europe, the main markets for OLED TV. In fact, Japan’s TV performance in the second quarter was below 50% in 2019.

However, the demand for the OLED panel business for monitors that Samsung Display has been promoting since the second half of last year is expected to increase due to the game industry, telecommuting, telemedicine, and remote classes due to the aftermath of the coronavirus.

Merck acquires OLED patents for display applications from Konica Minolta

Merck announced that it acquired the OLED patent portfolio for display applications from Konica Minolta Inc., a global technology company that provides innovative solutions to businesses and society on 24th April. The acquired portfolio comprises over 700 patent families.

“Adding Konica Minolta’s patents to our already strong portfolio will further boost our OLED development pipeline”, said Kai Beckmann, Member of the Executive Board of Merck and CEO Performance Materials. “With this step we will further strengthen our power to drive innovations in the fast-growing market of OLED displays.”

For more than 15 years, Merck has conducted research and development in the OLED technology field, and, as a result, became one of the leading OLED material suppliers.

The acquisition of Konica Minolta’s OLED patents for display applications is effective immediately. Financial terms were not disclosed.

Apple’s last LCD phone, iPhone SE

The iPhone SE, the last product of the LCD smartphone that Apple has opened to the smartphone market, has been released.

Apple’s 2019 model iPhone 11 had three models, the base model iPhone 11 used a 6.06inch LCD, and the advanced specifications iPhone 11 Pro and Pro Max used 5.85 inch and 6.46inch flexible OLED, respectively.

Samsung Display supplies both 5.85inch and 6.46inch flexible OLEDs, and LG Display has supplied only 6.46inch flexible OLEDs from the fourth quarter of 2019.

This year, Apple releases a four-model iPhone. There are three types of iPhone, SE2 which started selling this month, and 3 iPhone 12 which starts selling in September. Strictly speaking, since there are 2 models of the iPhone 12 Pro, 4 types of iPhones using OLED will be released in the second half of this year.

Apple’s current LCD phones are the iPhone 11 and the newly released SE2. Of the iPhone models released by Apple this year, only the LCD will use the SE2, and the SE2 is expected to be Apple’s last LCD smartphone.

Apple already mentioned that in 2019, all future iPhone displays will be replaced by OLEDs. Therefore, in fact, this is the reason that the SE2 released this time is expected to be the last LCD phone.

Most of the latest smartphones are more than 6 inches, but the iPhone SE2 released this time is a small 4.7-inch model using IPS LCD.

The reason Apple used a small display is believed to be a strategic product to target the mid-priced market of around $ 500. It’s currently $ 549.99 on eBay, but it’s on Amazon for $ 399.

Apple’s expected iPhone strategy is two tracks. First of all, in order to maintain the second largest market share in shipments, it is necessary to match shipments with products with a wide market of $ 500. And the operating profit creation is to fit the expensive iPhone 12 series using flexible OLED.

However, shipments of LCD phones are expected to gradually disappear after 2021, depending on the sales of 5.42 inches, the basic model of iPhone 12, which will be released in the second half of this year.

Huawei’s OLED TV launch, LG Electronics, and Sony’s 48-inch OLED TV Launch Will Further Increase the Influence of OLED TV to Oppo?

Huawei launch its first OLED TV and LG Electronics and Sony will launch a new lineup, a 48-inch OLED TV. As a result, the OLED TV camp and lineup are expected to become more diverse.

First, Huawei will launch its first OLED TV X65 soon. X65 is used a 24-megapixel camera to control the TV with a ‘gesture tracking’ function that recognizes the user’s face, motion, and posture, and is equipped with 14 under-screen speakers to automatically To correct the sound. The X65 used LG Display’s OLED will be released on April 8.

China’s OLED TV camp has increased to five camps from Skyworth, Konka, Changhong, and Xiaomi to Huawei. In addition, Huawei’s OLED TV launch, which is leading the Chinese smartphone market, can have a great influence on the premium TV market in the future.

Meanwhile, LG Electronics and Sony, which are leading the OLED TV market, will launch a new 48-inch OLED TV to make the lineup more diverse. Currently, OLED TVs have only 55-inch, 65-inch, and 77-inch lineups, and are evaluated to have a relatively short lineup compared to LCD TVs. LG Electronics and Sony are planning to target the Japanese or European market with high preference for small TVs through the launch of this 48-inch OLED TV.

LG Electronics and Sony’s 48-inch OLED TVs are scheduled to be released in May and July, respectively.

It is noteworthy whether OLED TV will exert great influence once again in the premium TV market in 2020, such as Huawei joining the OLED TV camp and LG Electronics and Sony launching the first 48-inch OLED TV.

Samsung Display QD-OLED Investment Timing Forecast to Oppo?

Samsung’s LCD business, which began in 1991, will be suspended in 2021. Samsung’s LCD business is completely closed after a 30-year lifespan. Samsung foresaw the limitations of the LCD business 10 years ago and stopped investing in the 10G. Instead, Samsung Electronics has separated the LCD business to create a Samsung Display combined with Samsung SDI’s OLED and has been preparing for a new display era.

Samsung’s loss of LCD business can be estimated for two reasons. The first is the deterioration of profitability from China’s LCD over-investment, and the second is the transition to a new business with high added value.

Since the display is an essential product in the modern information society, demand is gradually increasing worldwide as the usage is increased. In addition, as the amount of information increases, the data to be expressed increases, so the display size must also increase. By these two factors, the display industry has the power to continue to develop. However, China’s LCD investments have continued to invest in large quantities over many years. In the wake of this, only two LCD companies in Japan, Sharp and JDI, remained, and the Korean LCD business also reached a point where it was necessary to organize the business due to deficits.

Samsung Display and LG Display have expanded the OLED business to respond to the low-priced panel of Chinese LCD companies, and have focused on producing OLEDs with the best image quality preferred by set makers with high brand power. Samsung Display already secured a market of $ 25.3 billion in the smartphone display business in 2019, and LG Display secured $ 2.2 billion in sales in the OLED market for TV last year.

Samsung Display has enjoyed tremendous sales and operating profit in the OLED business, but the LCD business has been in the red for several years. Samsung Display sells LCDs for monitors, mainly for LCDs for TVs, but has secured the optimal solution to replace them all as QD-OLEDs.

QD-OLED production, which Samsung Display started investing from this year, uses 8.5G equipment. This is because Samsung Display’s factory in Tangjeong is an 8.5G LCD line, which can reduce the cost of building an OLED production line. Samsung Display will produce 8K 65-inch QD-OLED panels at this plant starting next year. It also produces QD-OLEDs for 32-inch 4K monitors. Maintaining the TV and monitor panel business previously held by Samsung Display, profitability can be secured by selling expensive products.

Samsung Display started investing in QD-OLED 30K in the existing 8.5G LCD factory, but the total investment is 120K. The remaining investment is 90K. Samsung Display’s additional investment is expected to change in size and timing depending on the QD-OLED production situation starting next year. If a yield of over 60% is secured from the beginning of production, the remaining 90K can be invested in next year. This is the most desirable timing. It can be used without leaving the LCD engineer. To prepare for this situation, all LCD lines must be removed by the first half of 2021. The next scenario is when the QD-OLED yield is less than 60%. In general, when the yield is low, the plant cannot be fully operated, so it does not require much manpower. Since additional investment is appropriate after securing the yield, it is a method of separating the investment, investing 30 ~ 60K, and then investing the remaining size later.

Nobody know what will happen next year, but Samsung Display is steadily taking a step forward to secure the future business.

JDI decided to sell LCD production equipment to a foreign client for 200 million dollars

JDI announced that it has agreed to sell production equipment at its plant in Hakusan, Ishikawa Prefecture, to a foreign client for 200 million dollars.

The Hakusan plant was JDI’s mainstay factory, producing LCD panels for Apple. The plant was halted in July last year due to sluggish demand. JDI plans to clean up excess facilities that have caused poor performance.

JDI decided to sell LCD production equipment to Apple first and real estate to Sharp later, but negotiations have been delayed due to the effect of the corona virus.

The Hakusan plant was built with Apple’s $ 1.5 billion funds and operated at the end of 2016. But because Apple’s utilization of OLED panels on iPhones has increased in recent years, utilization rate of Hakusan plant has decreased. Moreover, it was a burden for JDI to repay the advances to Apple at the end of February 2020. It is a policy that the funds obtained through the sale of the equipment will be used to repay advances.

Foldable OLED UTG market expected to grow rapidly

As Samsung Electronics’ Galaxy Z Flip continues to be sold out in the market, Samsung Display’s foldable OLED cover window UTG (ultra thin glass) market is expected to grow rapidly.

According to UBI Research’s first quarter 2020 parts and materials market track, the UTG market is expected to grow to $ 160 million this year and to $ 640 million in 2023.

In Samsung Electronics’ first-generation foldable phone, the Galaxy folder, a transparent PI made of plastic was used as the cover window, but in the second-generation foldable phone, the Galaxy Z Flip, the cover window was replaced with UTG. The reason Samsung Display changed the transparent PI to UTG is that the glare of the glass cover when the screen is off gives a much more luxurious feeling than the transparent PI.

Samsung Display used transparent PI produced by Dongwoo Fine-Chem for the first-generation foldable OLED, but changed it to UTG produced by Dowooinsys technology. Glass for UTG is provided by Shott. To strengthen the foldable OLED ecosystem, Samsung Display secured a 27.7% stake in Dowooinsys and secured its position as the largest shareholder. Foldable OLED latecomers are now only developing out-folding type foldable OLEDs as transparent PI, but Samsung Display has changed materials to prevent latecomers from following the foldable OLED market at all.

3F starts construction of 1,100 tons of PI production plant annually

China has entered the localization of PI. Although it has grown to the world’s highest level of LCD production, it is still only a few percent in the OLED panel market. In the OLED field, the Chinese government continues to invest heavily in panel makers, mainly BOE, to help China become the best production base. However, the supply chain of parts and materials that are essential for producing OLED is very poor.

The Chinese government has invested in a PI plant to make flexible substrates, which is the first step in flexible OLED manufacturing.

3F New Material, located in Changshu, started a project capable of producing 1,100 tons of PI per year. The project involved construction of a three-story production plant on a site of 2408 square meters with a total investment of 216 million yuan. The total building area is 7224 square meters, and after completion of the factory, it will have the capacity to produce 1,000 tons of PI for the substrate and 100 tons of transparent PI for the cover window.

Samsung Display, LG Display, and OLED sales depend on the operation of the Vietnamese module factory

Samsung Display and LG Display, whose business trip to Vietnam was blocked by the Corona virus, are trying to prevent delays in OLED production by launching charter.

Samsung Display, which produces OLED for mobile devices, operates a line of OLED modules for smartphones in Bac Ninh, Vietnam, and Samsung Electronics also has smartphone manufacturing plants in Bac Ninh and Tai Nguyen. Samsung Display installed the foldable OLED module line 30K in December 2019. In this module factory, Samsung Display is producing foldable OLED modules for Galaxy Z flips, which Samsung Electronics has begun selling this year. LG Display invested a total of KRW 1 trillion in Haiphong, Vietnam in May 2016 to produce the OLED module, built a module factory and started operation in September of that year.

The Vietnamese government is blocking entry from Korea to prevent the spread of coronavirus. This has made it difficult for Korean companies with factories in Vietnam to travel to Vietnam. However, Samsung Display and LG Display are preparing a charter for the normal operation of their OLED module factory and are on a business trip to Vietnam.

If Samsung Display is unable to manage the Vietnamese module factory, Samsung Electronics will disrupt the production of the Galaxy Z Flip, which is the biggest game this year, and may cause huge losses and may be affected by the leading position in the foldable smartphone market. LG Display is also in an urgent situation. From the fourth quarter of last year, LG Display began to supply pOLED to Apple following Samsung Display, and pOLED shipments to Apple are increasing this year. As LG Display supplied pOLED to Apple, sales increased significantly last year. This year, LG Display’s Apple supply is expected to reach 15 million units.

Therefore, these two companies are desperate to manage the module factory in Vietnam to maintain the OLED business.

Molecular Glasses Receives U.S. Patent 10,593,886 For Improved OLED Device Lifetime

The U.S. Patent Office has awarded patent number U.S. 10,593,886 to Molecular Glasses, Inc. for “OLED Devices with Improved Lifetime Using Non-Crystallizable Molecular Glass Mixture Hosts”

<Improved OLED device lifetime using OLEDIQ™, Source: molecularglasses.com>

The present invention provides an OLED multilayer electroluminescent device that includes a cathode, an anode, a light-emitting layer (LEL) disposed there between, and charge-transporting layers disposed between (A) the cathode and the light-emitting layer, (B) the anode and the light-emitting layer, or (C) both (A) and (B). The light-emitting layer (LEL) includes a host material and an emitter. The host material includes a high-entropy non-crystallizable molecular glass mixture, which includes hole-transporting capabilities, electron-transporting capabilities, or ambipolar capabilities. The ambipolar capabilities include hole-transporting capabilities and electron-transporting capabilities.

According to Mike Molaire, Molecular Glasses’ CEO and Founder, “OLEDIQ™ materials are amorphous, soluble small molecules that are non-crystallizable, which prevents aggregation of dopant emitters. This means OLEDIQ™ produces significant improvements in OLED lifetime and high reliability. This is an ideal platform for high-efficiency, long-lasting blue OLED. OLEDIQ™ materials can be used for both the vacuum-thermal deposition production process, as well as inkjet printing without any modification”.

 

The OLED emitting material market will grow to $ 1.9 billion by 2020

UBI Research(www.ubiresearch.com), a company specializing in OLED market research, predicted that the market for OLED emitting materials for 2020 will rapidly grow to $ 1.9 billion.

According to the OLED emitting material market track published by UBI Research every quarter, the emitting material market in 2019 was $ 1.304 billion, up 39.2% from 2018’s $ 0.937 billion market.

The reason for the growth of the emitting market in 2019 is proportional to the growth of the OLED panel market for smartphones. This is because OLED shipments for smartphones in 2018 were 407 million units, but growth was 16% in 2019 at 474 million units. (Source: UBI Research 2020 OLED Display Market Track).

The reason why the emitting material market growth is greater than that of the panel market is that 6G flexible OLED factories of Chinese panel makers have started operation. The production amount is still small, but the yield is low, so the input of the substrate is twice the amount of production, so the consumption of emitting materials is very high. In addition, it is one of the reasons that the market for emitting materials has grown due to the small purchase volume compared to Samsung Display.

As a result of counting sales by emitting materials companies in 2019, UDC accounted for $ 233 million, accounting for 17.9% of total sales, and Samsung SDI accounted for $ 212 million (including Novaled sales), accounting for 16.2%.

In 2020, both panel makers’ capacity and utilization rate are expected to increase, and consumption of emitting materials is also expected to increase.

The total consumption of emitting materials in 2019 was 73 tons, but it is expected to increase to 102 tons in 2020.

Expected consumption for each material is 16.9 tons for HITL materials and 4.15 tons for blue host materials. Blue host and dopant materials are expected to increase rapidly from 2021 when Samsung Display starts mass production of QD-OLED.

Wuhan Tianma 6G OLED line installation delay

The Tianma T4 plant in Wuhan has continued to produce even during the corona period, and the core equipment of the ph2 6G OLED line has already been brought in, but the equipment set-up is delayed due to the inability of overseas equipment companies to enter Wuhan.

In recent, as the number of corona virus spreaders in China, including Wuhan, has declined, equipment set-up is expected to resume from the second quarter, and mass production is expected to start after the third quarter.

The ph2 of Tianma T4 was signed on June 1, 2018, and a total of RMB 14.5 billion was invested. When the Ph2 setup is complete, the Tianma T4 plant will have a total of 35K Capa in 6G.

2020 OLED Manufacturing Equipment Market Forecast

According to UBI Research’s annual equipment market track for 2020, the OLED manufacturing equipment market is expected to reach $ 9.51 billion in 2020. This is an increase of $ 1.2 billion compared to $ 8.31 billion in 2019.

Chinese panel makers have aggressively invested the 6G Flexible OLED line, but due to the high panel price, the adoption of flexible OLED produced in China in the smartphone market has not increased, leading to an oversupply of over 30% worldwide. For this reason, Korea has stopped investing in 6G flexible OLED, and Chinese panel makers are also delaying their investment time slightly.

However, by 2020, Samsung Display’s investment in the 8.5G QD-OLED 30K line began, and the equipment market will remain at the 2019 level.

Canon enters OLED materials business

Canon is considering the OLED materials business as the adoption of OLED panels such as smartphones and TVs is spreading. OLED panels are used in electronic finders in Canon’s mirrorless cameras.

Although no specific production date has been announced, the company will focus on research and development, group companies in Fukui Prefecture, and Fukui Canon.

Canon Tokki, the No. 1 OLED evaporator market share, is a subsidiary.

Canon is developing TADF luminescent materials as Cu-complex compounds. (Japanese Patent JP2011213643A)

OPPO Launches All-round 5G Flagship Find X2 Series with Industry-leading Screen

OPPO unveiled its Find X2 series March 6, 2020 – a flagship lineup of 5G devices that delivers a powerful camera experience and battery life, with one of the most advanced screens in the industry.

In the 5G era, with the improvement of the network, users are now consuming content at a much faster rate and simultaneously have higher requirements for the content quality. Catering to these needs, Find X2 is equipped with a 120Hz QHD+ AMOLED screen, an all-round ultra-vision-camera system, the industry’s fastest 65W SuperVOOC 2.0 flash charging technology and the most advanced 5G mobile platform—Snapdragon 865. The Find X2 Pro is also the first mobile phone to support all-pixel omnidirectional focus and up to 12bit photo capturing.

Both Find X2 and Find X2 Pro are equipped with an OPPO customized 120Hz 6.7inch QHD+ Ultra Vision Screen with more than one billion variations of color display capabilities, bringing a visual revolution in resolution, color, refresh rate and brightness. With a resolution of 3168×1440, 513 ppi, ultra-low screen reflectivity and a maximum screen brightness of up to 1200nit, it creates a clear and comfortable display in any environment.

The Find X2 series adopts a front and back sleek double-curve body design. The front of Find X2 series is covered with Corning Gorilla’s sixth-generation glass panel. The advanced COP packaging technology and the 67.8° curved surface design create a visually borderless effect, making the phone round and smooth to touch.

AP System supplies ELA equipment to Chongqing BOE B12

AP System was selected as the final bidder for BOE’s B12 line ELA (eximer laser annealing) equipment.

ELA is an essential equipment to make low temperature polysilicon (LTPS) TFT for OLED. Eximer laser crystallizes a-Si into polysilicon. It is called LTPS because it makes polysilicon without applying high heat.

In this bid, BOE presented not only equipment quality but also technical competitiveness, easy operation, and maintenance as a supply condition. The AP system met all these requirements and became a final equipment supplier. The official PO has not come out yet.

BOE B12 plans to install eight ELA units. AP System also supplied ELA equipment to BOE’s B7 and B11.

The impact of the corona virus on the OLED market in 2020

Dark clouds are approaching Korean industry by the corona virus that has been blown since the beginning of the year. Wuhan, the birthplace of the corona virus, is badly affecting the Chinese display industry because it is a key place where Chinese display makers are building large production bases.

Wuhan and other plant set-ups are experiencing difficulties due to the lack of manpower needed to build the line. At the same time, the utilization rate of the entire supply chain in China is falling sharply, as the labor force of parts and materials manufacturers in China is delayed to return to the factory. In the smartphone industry, the center of the OLED industry, iPhone production is affected in the first quarter. Foxconn’s factories, which produce iPhones in Zhangzhou and Shenzhen, China, are operating at 50% at end-February. This is because manufacturing workers are returning to the factory late. Companies such as Huawei, Xiaomi, Oppo, and Vivo are also hampering smartphone production due to delays in parts procurement.

Nevertheless, the production of OLED smartphones is not much affected yet. First, Samsung Display’s panel production plant, which accounts for 86.3% (2019) of OLED shipments for smartphones, is located in Korea, while the module plant in Vietnam is not affected by China. In addition, the supply chain has no effect as most of the material production bases that make up OLED panels (including modules) are also in Korea.

Samsung Display’s OLED production for smartphones in January and February totaled 48 million units, less than 2 million units compared to 50 million units shipped in the same period in 2019. Of these, 14 million and 17 million units were supplied to Chinese smartphone makers in 2019 and 2020, respectively. This year, more than 3 million units are shipped. So far, Samsung Display’s OLED business is not affected by the corona virus.

The total market share of Chinese OLED panel makers in 2019 is 11.7%. By February, the panel utilization rate of Chinese OLED panel makers was maintained at 80%. The impact of factory operation due to lack of manpower is about 20% because most of the display manufacturing industry is driven by automated facilities. Chinese OLED makers import most of the major materials, including light emitting materials, from Korea and Japan, so they are hardly affected by the corona virus.

The parts procurement status of smartphone makers in China affects the market. If Chinese suppliers, including Huawei, fail to procure parts in China, smartphone production will be hampered. However, as Samsung Display’s OLED production for China is progressing smoothly, Chinese smartphone makers have a strategy of maintaining OLED smartphones, which are expensive brands.

In addition, the first quarter is the off-season with the lowest shipment season, so even if it is difficult to operate a smartphone manufacturing plant until March, the impact on the overall market is about 10%. After the second quarter, if the corona virus subsides, demand can resume.

The problem is from March. China’s corona virus has slowed down, but South Korea has been expanding since the last week of February. There is someone has a virus at Samsung’s Gumi smartphone manufacturing plant. In addition, the Vietnamese authorities, concerned about the influx of South Korea’s virus, refused to visit Koreans, which may make it difficult for the headquarters to properly deal with problems with Samsung Display’s module plant management in Vietnam.

Most important of all, the corona virus is spreading all over the world, and economic activity is severely reduced. In China, the entrance of the apartment is blocked, so it is difficult to bring TV. The Chinese TV market is shrinking. Many people are refusing to go out because they are concerned about a corona virus infection, so fewer people visit a store and buy a smartphone. Consumer sentiment is falling significantly.

Assuming that the corona virus crisis will end in March in Korea and China, the impact of the smartphone OLED industry on 2020 is estimated to be about 5%, but if it is prolonged, it may be adversely affected by more than 10%. Assuming that the corona virus crisis will end in March, the impact of the smartphone OLED industry on 2020 is estimated to be around 5%, but if it continues until the first half of the year, it could be adversely affected by 10%.

The OLED business for TV is slightly different. LG Display’s factories that produce exclusive OLED panels for TVs are located in Paju, Korea, and Guangzhou, China. The Paju plant is not disrupted at all. Like OLEDs for smartphones, parts and components are mostly supplied by Korean and Japanese companies, so Paju factory is not affected by China.

The problem is the Guangzhou plant. LG Display has been expected to produce panels since September 2019, but its supply has been delayed due to poor panel lifetime. LG Display has begun production of panels again this year and is undergoing product tests from customers. Recently, however, the corona virus has begun to spread in Korea, making it difficult for Korean engineers to go to Guangzhou. Even if the corona virus disappears in the first quarter in China and the factories operate normally, it may take some time before the panel is supplied from the Guangzhou plant.

According to Ubi Research’s OLED market track, the 2020 forecast is 4.95 million units without considering the corona virus situation, of which 750,000 OLED panels for TV can be produced by LG Display in the first quarter. If the 55-inch production volume is large, up to 800,000 units can be produced. Since the data were prepared in anticipation that panels produced at the GuangZhou plant will be available from the second quarter, LG Display’s panel supply is expected to be 1.4 million units in the second quarter.

However, it is possible that production will be delayed after May if the customer’s quality certification of panels produced at Guangzhou plant is delayed due to the Korean coronavirus rather than the Chinese coronavirus. In that case, the annual TV panel production could be reduced by about 200,000 units, which is expected to decrease by 4% from the estimated total. However, if the corona virus is prolonged by June, it can cause up to 10% of adverse effects. The market should consider 500,000 fewer than expected.

Galaxy S20 series, Korea’s first day of opening about 70,000 units

The opening volume of Samsung’s new smartphone Galaxy S20 series on the first day in Korea is half that of last year’s Galaxy S10.

According to the Korean telecommunications industry on February 28, the opening volume of the Galaxy S20 series is estimated at about 70,800 units. This figure is about 50% lower than the 140,000 units of the Galaxy S10, which was released in March last year.

In the industry, the Galaxy S20 Ultra is equipped with an 108 million pixel camera, so it was expected that the S20 series, which greatly enhanced the camera function, will be in high demand.

The decrease in the opening volume of the Galaxy S20 is estimated to have reduced demand for the Galaxy S20 due to the decrease in offline visitors due to the spread of the new corona virus.

LG Display named Huawei flexible OLED supplier for new smartphone P40 Pro

LG Display is the top OLED company with a monopoly market in the production of OLED panels for TVs, but the performance was low in the flexible OLED market for smartphones until the first half of 2019.

LG Display built a flexible OLED line after Samsung Display and focused on panel sales, but failed to supply flexible OLED by pushing BOE to Huawei’s P30 Pro model in 2019. However, in the second half of 2019, it succeeded in supplying panels to Huawei for Mate30 Pro, and began supplying flexible OLED for iPhone to Apple.

Huawei’s P40 Pro shipment target is 12 million units, and LG Display is expected to supply 50%. The variable is a new coronavirus. It could change Huawei’s smartphone launch schedule and volume.

Huawei is highly dependent on domestic demand, and coronaviruses can reduce shipments by more than 10%.

Compal develops 13-inch foldable PC FlexBook

Compal, an ODM for notebook and mobile devices, has developed a prototype foldable hybrid tablet that can be equipped with a keyboard. Similar to Lenovo’s ThinkPad X1 Fold, Compal’s FlexBook is a 13.1 tablet with two speakers at the bottom, two USB-C ports, and a volume button on the side.

The tablet can be folded in half with a foldable OLED and a zero gap lay flat hinge. Fold in half to use it like a notebook. Attach a keyboard to make it easier to use. This product can use stylus.

IPhone shipments may drop sharply in 1Q

The impact of China’s corona virus is expected to reduce iPhone production by 50% year-on-year.

Foxconn’s iPhone plants are located in Zhangzhou and Shenzhen, China, where 90% of the iPhone is manufactured.

Foxconn’s Zhangzhou’s workforce is about 160,000, but only about 10% have returned since the spring holiday, and the Shenzhen plant has not resumed production.

Foxonn plans to increase overall utilization by 80% in March. For the time being, iPhone production is expected to decline.

Foxconn pays 3000 yuan (about $ 400) per person if it returns before March 7th to increase plant utilization.

Estimated OLED shipments by 2020 will be 662 million units

According to UBI Research’s “2020 OLED Annual Report”, OLED sales in 2020 are expected to be $ 38.5 billion, an increase of 17.5% from the sales of $ 32.8 billion in 2019.

In terms of shipments in 2020, smartphone OLEDs are expected to reach 527 million units, TV OLED units at 4.9 million units, and watch OLED units at 118 million units. The estimated 2020 shipments of OLED for foldable phones are 6 million units.

The bad news for the OLED market for smartphones in 2020 is a decline in demand due to the ongoing Corona virus COVID-19. But in 2H, demand for flexible OLED will increase as Apple adopts more OLEDs. In particular, OCTA will be applied to the flexible OLED for iPhone, which will be produced in 2H, and the price of flexible OLED is expected to fall by 15-20%. The high price of US $ 1,000 or more could lead to a surge in replacement demand for iPhones, which could not be replaced, leading to increased flexible OLED shipments.

The product to be noted in the OLED TV market is the newly launched 48-inch product. 48-inch OLED TV, introduced as a gaming TV at CES2020, is expected to be in high demand in Japan. Sony’s OLED TV sales are expected to increase.

Chinese panel makers are very active in producing OLEDs for watches. The watch uses a small display of 1 to 1.5 inches, but the rigid OLED price is very expensive, at about $ 10 to 15 dollars. Chinese panel makers account for 43.3% of the 70 million OLED panel shipments in 2019. However, Korean companies that supply expensive flexible OLEDs to Samsung Electronics and Apple account for 65.3% of sales.

 

Foldable Phone Cover Window Material Competition To Heat up.

Ahead of Samsung Electronics’ unpacking event, interest in the foldable phone cover window material is hot. There was a concerned surprise that the Galaxy Fold, which was scheduled to be released in the first half of last year, was delayed for several months due to the tearing issue of the protective film. This year’s concern is whether Ultrathin Glass (UTG), which has emerged as a substitute for Colorless Polyimide (CPI), can be mass-produced without major issues.

Samsung Electronics will release the Galaxy Z flip known as “Clamshell” in the first half of this year and the Galaxy Fold 2 known as “Winner 2” in the second half of this year. The Clamshell is known to adopt UTG. This material is advantageous in terms of the hardness required for the use of the S Pen, the luxurious visibility and the soft touch unique to the glass. Moreover, the major reason for adopting UTG is known to remove wrinkle at the center of the screen, which has been pointed out as a disadvantage of CPI.

Prior to adopting UTG, Samsung Display invested $ 40.8M in Dowooinsys, UTG maker, and became the largest shareholder with 27.7% stake. The intention is to secure the stable supply of UTG and reduce its dependence on Japan for major materials.

<Ultrathin Glass (UTG) (Source : Dowooinsys homepage)>

However, there are also concerns about the adoption of UTG. Schott, AGC and Corning are also developing the product and they can produce substrates with a thickness of about 100 mm by the floating method or the slit nozzle method. To make it even thinner, Dowooinsys uses hot drawing or HF etching. The thickness of UTG to secure durability is believed to be 100 mm or more and with this thickness, the radius of curvature is about 2 ~ 3mm (~1mm for CPI), which reduces design freedom of the foldable phones. To improve durability, the UTG surface is coated with a polymer resin, which also prevents glass fragments from scattering when broken. The current problems of UTG are that mass production and yield are not yet secured due to the difficulty of the process, and that there exist traumatic worries on unexpected durability issues when released to the market.

Meanwhile, CPI material companies, which have been threatened by the news that UTG will be adopted for Clamshell, are also preparing to fight back. In order to remove the changeable window film (protective film) of PET material applied to Galaxy Fold, they are increasing the hardness of the hard coating on the CPI and developing a functional coating to give a glassy gloss. In particular, Dongwoo Fine-Chem, which did hard-coating on the CPI for Galaxy Fold, is known to simplify the process by developing hard coating materials including antifouling function. With all efforts added up , the CPI cover window structure is changed from the first generation foldable phone (PET + COA + CPI + COA) to the second generation foldable phone (CPI + COA), enabling the thickness to be reduced from about 200 mm to half, and the material cost and the process to be reduced.

<2019 Released Samsung Galaxy Fold Structure (Source: UBI Research Report)>

<Structure Prediction of the Samsung Galaxy Fold Follow-up Models: When Using UTG (Left) and CPI (Right) (Source: UBI Research)>

In addition to Sumitomo Chemical, which supplied to Galaxy Fold, Kolon Industries and SKC are also preparing for mass production of CPI. While UTG adoption seems to benefit to Clamshell with small screens, CPI is advantageous for larger screen sizes. UTG must make up for durability at the thickness retaining design freedom, and secure mass production system and price competitiveness through process improvement. CPI should strive to improve the hardness and appearance close to glass, and also increase price competitiveness. The material selection criteria will vary with the foldable phone models and customer response. Therefore the customer response for the Clamshell will be an important step in the future direction of the foldable phone cover window material. The market for the material is expected to grow rapidly, reaching $ 429.6M by 2023. The competition between UTG and CPI to take the market first has now begun.

JDI at Japan signed a $1 billion investment contract and focused on automobile LCDs and finger sensors rather than OLEDs.

Japan Display (JDI) announced on the Jan. 31st that they have signed a final contract to receive investment of up to 108 billion yen (980 million dollar) from Ichigo Asset Management. Therefore, the company is expected to release its debts and invest in new fields such as fingerprint sensors. However, it has yet to be determined whether JDI will invest in OLED for Smartphones.

It will take over preferred shares at 50.4 billion yen and secure 44 percent of voting rights to become the largest shareholder. The remaining 50.4 billion yen will take over preferred shares that do not have voting rights, but after one year, it will be possible to convert ordinary shares, which will result in more than a majority of Ichigo’s voting rights. Scott Caron, the CEO of Ichigo, will be Chairman of JDI after approval. JDI plans to hold an extraordinary shareholders’ meeting on March 25 to get the official approval and receive the funds on March 26 the same day.

JDI is supplying liquid crystal panels for the iPhone to Apple, but JDI needs a new revenue source as Apple is set to hire more OLED panels in the mid- and long-term. JDI plans to use funds from Ichiro to invest in facilities such as LCDs for automobile and fingerprint sensors. In an interview in September 19, JDI’s CEO Kikuoka said, “We will decide whether or not to mass-produce OLED panels for smartphones in 2020,” but this investment is not expected to be easy.

<JDI president Kikuoka (left) and Ichigo CEO Scott Caron (Nikkei.com)>

Motorola unveils clamshell-type foldable OLED smartphone

Reporter : Daejeong Yoon

Motorola unveiled “ Moto RAZR 2019 ”, a clamshell type foldable OLED smartphone at a presentation to be held in Los Angeles, USA on November 13th. The Motorola RAZR is characterized by the folding in the horizontal direction rather than the vertical folding like a book, and is like the new foldable phone type that Samsung Electronics unveiled at SDC 2019 last October.

<Moto RAZR 2019, Source: gsmarena.com>

Moto RAZR 2019 will be equipped with a 6.2-inch OLED and the vendor will be BOE. OLEDs are notched, with an aspect ratio of 22: 9 and a resolution of 2142 x 876. In addition, the external LCD is equipped with a 2.7-inch, 600 x 800 resolution secondary LCD to provide simple information such as reminders and time.

Moto RAZR 2019 will be equipped with three cameras, with 4GB / 6GB RAM, 128GB of storage, 2730mAh and an operating system of Android.

Moto RAZR 2019 is expected to cost USD 1,500 and is expected to be officially released in December.

Rigid OLEDs dominate shipments of the OLED market for smartphones

Reporter : Daejeong Yoon

According to UBI Research’s 4th quarter OLED display market track, rigid OLED is still the main product in the OLED market for smartphones, with 79.2% of the total OLED market in 2019. As a result of counting and analyzing shipments up to the third quarter of 2019, rigid OLED accounted for 237 million units of the total shipment of 338 million units.

<Source: UBI Research Q4 OLED Market Track>

Display companies all over the world have invested heavily in the flexible OLED line, but rigid OLED is still the main OLED used in smartphones. This reflects that the display companies have invested without forecasting the market situation properly.

Rigid OLEDs for smartphones are mostly supplied by Samsung Display. Rigid OLEDs are also produced in China’s Visionox and EDO, but are not yet available to brand companies. As the A1 and A2 lines, which produce rigid OLEDs at Samsung Display, are both in full operation, Samsung Display can no longer supply products in the growing rigid OLED market.

Flexible OLED lines will continue to be invested by 2023, and the annual production area will increase to 20 million square meters per year, but the line capa for rigid OLEDs has been frozen since 7 million square meters per year.

<Source: UBI Research Q4 OLED Market Track>

Therefore, in order to cope with the growing rigid OLED market, it is necessary to convert flexible lines to rigid OLED lines or to further invest in rigid OLED lines.

In order for Samsung Display to dominate and have a differentiated market in the display industry, it is time for latecomers to consider converting flexible OLED lines to rigid OLED lines.

The next full-screen display trend is the under-display camera

Reporter : Daejeong Yoon

Since Samsung’s Galaxy S8 and Apple’s iPhone X launch, smartphones with the Home button removed have become a trend in the smartphone market.

Due to the nature of smartphones that cannot grow indefinitely, display sizes with a large proportion within limited smartphone sizes are directly related to the competitiveness of smartphone set makers.

Samsung’s Galaxy S10, which was recently released, attracted great attention with its flexible OLED with HIAA (hole in active area) technology. Notch or HIAA designs, however, can still interfere with video viewing and gaming because camera lenses occupy a small portion of the display.

That is why a number of panel makers are developing under display camera technology for a full-screen display.

Under display camera technology allows the front camera to be placed behind the display for a full-screen display. Oppo unveiled the first smartphone with the technology at MWC China 2019, and BOE and Visionox also anticipated that under-display cameras will become the next trend in smartphones at CIOC 2019.

It is expected that screen, camera module, and algorithmic technologies will all be specially designed to implement under display camera technology. Specifically, the technology to make the pixel near the camera at low resolution to secure transmittance, to mount a CMOS image sensor of a larger pixel size than the existing, and to apply algorithm technology to improve the picture quality.

The trend of full-screen smartphones, which began in 2017, is paying attention to whether full-screen smartphones will bloom with the technology of under-display cameras since 2020.

OLED flagship size for smartphones ranges from 5.5 inches to 6.5 inches

Reporter : Daejeong Yoon

According to UBI Research’s 3rd quarter OLED display market track, the size of OLED for smartphones is gradually shifting from 5.5~5.99 inches to 6~6.49 inches.

Among the OLED shipments for smartphones of 430 million units in 2017, 5.5-5.99 inches accounted for 52.5%, but in the shipment performance until the third quarter of 2019, 5.5-5.99 inches decreased to 49.6% and 6-6.49 inches increased to 42.3%.

In 2017, more than 5.5 inches of OLED smartphones were 78.5%, but now more than 5.5 inches are 91.9%. This reflects that consumers are demanding larger OLED smartphones.

When analyzed by detailed size, 5.5-inch OLED shipments were the most at 39.5%, and second, 6.4-inch OLEDs were the highest at 20.1%. Most of the 5.5-inch are rigid OLEDs and are mainly used by Galaxy J series, Chinese companies such as Huawei, Xiaomi, Oppo and Vivo. In the 6.4 inch, the main application is the rigid OLED for the Galaxy A series.

<Source: UBI Research Q3 OLED Market Track>

Because the Galaxy S series, which adopts flexible OLED, and Apple’s iPhone X are very expensive in the global OLED smartphone market, the market growth is very slow. In comparison, the Galaxy A series and J series are growing fast because they are intended for the mid-priced smartphone market.

While Samsung’s Galaxy has lost market share in the Chinese market, Chinese smartphone makers Huawei, Xiaomi, Oppo and Vivo are expanding the Chinese market as smartphones using rigid OLEDs from Samsung Display.

This means that Samsung Electronics lost the Chinese market, but Samsung Display’s OLED business is gradually expanding its influence in the Chinese market. The growing market share of OLED smartphones in the Chinese smartphone market indicates that Samsung Display can overwhelm the OLED market in the future, and that revenues will be updated every year.

 

 

[UBI Research China Trend Report] Will BOE Provide UPC Panel with Transparent PI Substrate to Oppo?

Reporter : Daejeong Yoon

As foldable smartphones begin to be sold by Samsung Electronics, the flexible OLED industry (including foldable OLED) is expected to continue to grow.

Yi Choonghoon, CEO of UBI Research, predicts that the flexible OLED panel market will grow to $ 18.92 billion this year and expand to $ 32.65 billion by 2023.

<Source: Flexible & Foldable OLED Report, UBI Research>

According to Yi, there are four types of flexible OLED products, including smartphones, foldable phones, watches and automobiles, and flexible OLEDs will be used in the monitor market next year. LG Electronics began to sell rollable OLED TVs, but the sales volume is so small that it will take much time to form the market. The foldable smartphones that Samsung started to sell are expected to be supplied to the market by 800,000 by the end of this year.

In addition, Yi predicted that Chinese panel companies’ flexible line production will expand very rapidly in line with the expansion of the flexible OLED market.

As of 2019, Korean display companies have an annual substrate area of 7.3 million square meters and China’s 4.6 million square meters, but by 2023, China’s production capacity will expand to 11 million square meters, accounting for 57% of the total production capacity.

China is expected to have the world’s largest facility for flexible OLED production following LCD.

<Source: Flexible & Foldable OLED Report, UBI Research>

 

OLED TV camp threw a pitch in the 65-inch TV market for Black Friday.

On Black Friday, the day of the biggest sale season in the US, LG Electronics and Sony have lowered the price of 65-inch OLED TVs from the previous month, further increasing price competition in the premium TV market. On the other hand, 55-inch and 77-inch OLED TV prices are the same except for Sony’s XBR77A9G.

In November, LG Electronics’ OLED 65C9, a 65-inch OLED TV, was priced at US $ 2,100, down 12.5% from October’s US $ 2,400. Sony’s XBR65A8G’s November price was US $ 2,000, down 13% from the October price of US $ 2,300. Both models ship the same price at US $ 3,500.

Samsung’s QN65Q90, a 2019 QLED TV, is priced at US $ 2,200 in November, down 15.4% from the October price of US $ 2,600. The QN65Q90 also ships at US $ 3,500.

<LG Electronics’ OLED65C9, Sony’s XBR65A8G, and Samsung’s QN65Q90 price trend, Source: UBI Research DB, Bestbuy.com>

In the TV market, which is growing in size, 65-inch TVs are becoming mainstream along with 55-inch TVs. Since 55-inch OLED TVs have already formed a premium TV standard of US $ 1,500 since October, LG Electronics and Sony have continued to reduce the price of 65-inch OLED TVs, another mainstream, to compete with QLED TVs.

Since August, LG Electronics’ OLED65C9 and Sony’s XBR65A8G have formed a lower price range than Samsung’s QN65Q90, and Black Friday is also trying to get a price advantage with a price lower than QN65Q90.

LG Electronics and Sony, which are striving to popularize OLED TVs, are paying attention to whether OLED TV’s position in the premium TV market can be further expanded.

Samsung Display starts to expand OLED notebook market in Taiwan

Samsung Display attended the Taipei Grand Maple Hotel on November 7, attended by 350 global customers including HP, Dell, Lenovo, Asus and other major ODMs such as Compal, Quanta and Wistron. ‘Samsung OLED Forum 2019 Taipei’ was held.

<Samsung Display’s OLED Forum, Source: news.samsungdisplay.com>

Samsung Display presented OLED notebooks as a new growth engine in the stagnant IT market for global IT companies and introduced differentiated strengths that only OLED can provide.

Under the theme of ‘New Era of Laptop with OLED’, Samsung Display is a premium notebook with OLED’s thin and light design flexibility, infinite contrast ratio, DCI-P3 100% wide color gamut and color accuracy, and excellent outdoor visibility. Emphasis is placed on the essential image quality characteristics.

In addition, the company also unveiled a roadmap for fusion technology of OLED’s unique display sensors such as Fingerprint Display and Sound Display.

Samsung Display has already developed OLED for 13.3-inch and 15.6-inch notebooks in the first half of this year and has cooperated with HP, Dell, Lenovo, and Asus to supply panels to 13 kinds of notebooks. The company plans to expand its product lineup to mid-end and respond to market demand.

<15.6-inch multi-screen OLED notebook exhibited by Samsung display at IMID 2019>

Samsung Display decided to invest 13 trillion won in QD-OLED by 2025

Samsung Display chose QD-OLED as the next generation premium TV. It will also have a big impact on the premium TV market, which is divided between white OLED technology and QLED technology.

Samsung Display announced a new investment and win-win cooperation agreement ceremony at Asan Campus on October 10 and will invest a total of KRW 13 trillion in QD-OLED production facilities and R & D by 2025.

The basic structure of QD-OLED is composed of blue OLED and red and green quantum dot color filters (QD-CF). Blue OLEDs emit blue light, and the red and green QD-CFs convert them to red and green, respectively. QD is also applied to QLEDs because it has the effect of further improving color purity.

Samsung Display will invest 13 trillion won by 2025 to build the world’s first QD display mass production line ‘Q1 Line’ at Asan Campus. The new line will start production in full scale in 2021 with an initial 30,000 sheets (8.5 generations) and will produce a 65-inch or larger ultra-large QD display. To this end, the company plans to convert existing 8G LCD lines into QD OLED lines step by step and gradually expand production capacity by 2025.

In addition, in order to accelerate the commercialization of new QD technology, the company plans to shift the existing LCD workforce to QD and hire new QD materials and process development experts. Samsung Display predicted that if investments start in earnest, approximately 81,000 jobs will be created over the next five years.

Lee Dong-hoon, president of Samsung Display, emphasized that “QD, a semiconductor particle that emits light close to natural colors, is the future growth vision of the large display industry.” “We will lead the premium display market with this investment.”

LG Display Announces Q3 2019 Results, Revenue 5,817.2 Billion won, Operating Loss 436.7 Billion won

LG Display announced on the 23rd that it recorded sales of 5,827.1 billion won and operating loss of 436.7 billion won in the third quarter of 2019 according to K-IFRS.

Revenue increased 9% QoQ (5.35 trillion won) due to the full-fledged sales of plastic OLED business and the expansion of mobile panel sales.

On the other hand, 3Q operating loss fell last quarter due to a sharp drop in LCD TV panel prices that exceeded market expectations, reduced utilization of related fabs, and increased depreciation expenses associated with the operation of new plastic OLED plants. The operating loss recorded 436.7 billion won.

Net loss was 442.2 billion won and EBITDA was 611.8 billion won (EBITDA margin of 10.5%).

Revenue breakdown in the third quarter of 2019 recorded 32%, a 9% QoQ decline for TV panels due to a decline in shipments due to adjustments in LCD TV fab utilization. Mobile panels recorded 28%, up 9% p QoQ, due to full-scale production of plastic OLED panels. Notebook and tablet panels accounted for 21 percent and monitor panels 18 percent.

Dong-hee Seo, Executive Vice President of LG Display CFO, said, “LG Display is innovating its business structure to reinforce its fundamental competitiveness and have a differentiated competitive edge.” In addition, the company plans to find ways to secure competitiveness from a more fundamental and long-term perspective, while at the same time strengthening its IT, commercial (auto) and auto (business) business capabilities that can differentiate in the existing LCD sector. Large OLEDs will accelerate the market trend utilizing the inherent value of products and continue to stabilize the business of plastic OLEDs for smartphones. ”

In addition, “We will communicate with the market by establishing a long-term vision centering on technologies and product lines that can quickly complete the ongoing LCD structure improvement activities and provide differentiated value.”

[SID Vehicle Display 2019] OLED is optimal for side mirror replacement display

In October 2018, Samsung Display received a lot of attention by supplying OLED for side mirror replacement to e-Tron of Audi, a global automaker. e-Tron has a camera installed in the side of the existing side mirror, and the driver can check the surroundings through the OLED installed in the vehicle.

Mirrorless cars were discussed at the SID Vehicle Display 2019 panel discussion in September 2019.

Drew Harbach pointed out that “existing side mirrors may have the effect of glare in tunnel-like spaces.” “The cameras and displays can be reduced to provide a better night view.”

He mentioned that the resolution of the display is important, of course, but the contrast and FOV are also very important factors. He also emphasized that the contrast ratio should be very high so that objects can be seen under any environmental conditions.

The high contrast ratio is a very helpful factor in recognizing objects not only in dark nights but also under the strong sunlight of the day.

Panelists mentioned the various displays such as LCD, OLED, micro LED, etc., but OLED is the only display with high contrast ratio and wide viewing angle in the environment where mass production is possible. In addition, OLED has a very fast response time, which is widely used in VR devices and professional monitors where image quality is very important.

OLEDs are mentioned as potential candidates for side-mirror displays and are expected to be used in internal displays, such as clusters and CIDs (center information displays). Korean and Chinese panel makers are actively developing automotive OLEDs, and Samsung Display has forecast that automotive OLED panels will increase to about 3 million by 2022.

Second quarter OLED emitting materials market grew 41.1% compared to the same quarter last year

According to the OLED emitting material market track published by UBI Research (www.ubiresearch.com), the second quarter earnings was $ 329 million, an increase of 16.6% compared with the previous quarter’s $ 228 million, and 41.1% higher than the second quarter’s $ 233 million.

<Source: 3Q2019 UBI Research OLED Emitting Material Market Track>

As a light emitting materials company with high sales in the second quarter, UDC accounted for 22.7% of the total market with US $ 72.7 million, with Idemitsu Kosan 12%, Merck, Dow Chemical, and Novaled more than 10%. None of the Korean emitting material companies exceeded 10% market share.

UDC’s strongest sales were due to the 6-month-long purchase of dopant material from the BOE, which anticipates it will be difficult to purchase phosphorescent dopant materials in the US-China trade dispute. The phosphorescent red host, phosphorescent green host, and p + materials all exceeded $ 30 million.

According to the analysis of the material usage, the total material usage of the second quarter was 21.3 tons, 21% more than the previous quarter, and 49% higher than the same quarter last year. The high usage of materials compared to the amount is interpreted as a result of a slight decrease in prices as Chinese panel makers use more materials.

OLED sales increased to $ 6.9 billion in the second quarter

According to the OLED market track published by UBI Research in the third quarter, OLED sales increased to $ 6.9 billion in the second quarter. This is an increase of 9.5% compared to last quarter, an increase of 18.5% from the same quarter last year.

The biggest reason for the increase in sales is the increase in OLED sales to China by Samsung Display, which leads the OLED industry. Huawei, Oppo, Vivo, and Xiomi’s OLED usage increased more than 1.5 times compared to last year, and Samsung Display’s sales in the second quarter were $ 5.5 billion. In addition, LG Display’s WRGB OLED sales growth and BOE’s flexible OLED sales boosted the market to $ 6.9 billion.

Samsung Display’s sales share accounted for 79.9% and BOE’s market share increased to 6%.

<Source: 3Q2019 UBI Research OLED Market Track>

In 3Q, sales are expected to increase further. Samsung Display’s flexible OLED shipments will increase further for Apple’s new models and Huawei’s Mate. LG Display will also begin supplying flexible OLEDs to Apple, and BOE has decided to supply flexible OLEDs to LG Electronics.

Samsung and LG fight for 8K TV picture quality

In response to 8K LCD TV quality disputes that LG Electronics compared and exhibited at IFA2019, Samsung Electronics raised the problem of burning of OLED TVs.

At the exhibition hall, LG Electronics displayed the same screen on its NanoCell 8K LCD TV and other companies’ 8K LCD TVs, and magnified images taken by precision cameras on the same screen area, allowing 90% reproduction of CM (contrast modulation) of NanoCell TV. However, it emphasized that other companies’ 8K LCD TV is only 12%. The company did not say what kind of company it was, but LG was recently emphasized that LG Electronics disassembled Samsung’s QLED TV after IFA and talked that QD-LCD using QD sheet does not produce good image quality. Thus the other 8K can be estimated as SEC’s QLED TV.

In response, Samsung Electronics publicly reported to the press that 8K OLED TVs disappear due to image sticking.

There is a very confusing dispute for consumers who do not have expertise in picture quality. Putting the two companies together, Samsung’s 8K QLED TV and OLED TV are both less qualified products.

In reality, however, the two products seen by the IFA were among the best of all existing TVs. OLED TVs have very high contrast ratios, so even in two-dimensional flat screens, the perspective is displayed as well as three-dimensional TVs. QLED TVs have very high HDR, which are delicately expressed from bright to dark screens. Also, the two products must be TVs with the highest precision at 8K resolution.

Korean media have expressed a lot of negative views about noise marketing of Samsung and LG, but it seems that the two companies’ TVs have been developed.

In fact, when Apple criticized the Galaxy for its low resolution, Samsung Electronics has grown to the world’s best product by raising the resolution of OLED to QHD level. In addition, Samsung Electronics made a negative offensive by pointing to the burning of OLED TVs, but OLED TVs expanded the market to nearly 50% of the premium TV market of more than $ 2,000. Of course, most of the burning has been eliminated.

Therefore, Samsung Electronics is also expected to be an opportunity to grow 8K QLED TV’s image quality into the world’s best LCD TV.

The two companies have a negative fight because of their own grievances. If OLED TV market share continues to rise in the premium TV market, Samsung Electronics expressed a sense of crisis as the QLED TV market shrank by that much. If 8K QLED TVs lower prices and target the premium TV market, LG Electronics should prevent the expansion of the QLED TV market in order to accelerate the growth of the OLED TV market.

In a strategy battle in which the spear and shield alternate, the TV fight of the two companies will be a good opportunity for Korean TV to maintain the world’s best level.

Fraunhofer FEP shows modular OLED light strips

Almost everyone is familiar with light strips for interior design. LED strips are available by the metre in DIY stores around the corner and are just as often found as under-cabinet luminaires or in decorative articles. But also in the automotive industry the demand for light strips is enormous. Customized strips with additional functionalities play an increasingly important role, especially in the area of innovative car designs.

Scientists at the Fraunhofer FEP have now succeeded in producing light strips from individual organic light-emitting diodes (OLEDs). What is special about this innovation is that the OLED light strips act like a single luminous surface without interruption.

Claudia Keibler-Willner, head of the “Sheet-to-sheet OLED Technologies” department at Fraunhofer FEP, explains this effect in more detail: “We manufacture flexible OLEDs with appropriate control electronics in such a way that any number of OLED modules can be connected without creating visible interruptions to the active surface. This makes it possible to produce infinitely long OLED light strips. An additional highlight is the individual control of the segments. This allows additional lighting effects such as different dimmings or dynamic warnings to be realized.”

But why actually use OLEDs for car interiors or luminous clothing instead of using existing LED technology? The enormous advantage of OLEDs lies in their properties as area light sources. In contrast to LEDs as point light sources, OLEDs illuminate surfaces and are therefore homogeneous. As a result, OLED strips require no reflectors, light guides or additional optics. They also impress with their extremely low installation depth and light weight. This filigree quality of flexible OLEDs, which are manufactured on plastic substrates, for example, can hardly be achieved with conventional LED technology. In addition, the reduction of glare effects contributes to increased road safety, for example in safety clothing with lighting.

The OLED can make particularly good use of these advantages in the developed modular light strips of any length: OLED strips can be flexibly applied to curved surfaces such as car bodies or furniture. They can be transparent when switched off so that the underlying surface remains visible. Thus the OLEDs almost melt into their surroundings. Dynamic control or dimming opens up additional possibilities, such as for welcoming scenarios at the car. Designer dreams for interior design are thus within reach.

The scientists are now looking forward to concrete industry inquiries to develop prototypes or small series of these light strips for innovative designs and applications.

[China OLED Trends] Will US-China Trade Dispute Accelerate Chinese Large-Size OLED Market?

Recently, due to the trade dispute between the US and China, a large portion of the budget planned by the Chinese government is flowing into the display industry while the semiconductor industry, which is one of intensive investment promotion industries, foreshadows difficulties. In the display industry, the focus is on OLED, which is a cutting-edge technology, and most of the investment is in the 6G line, a mobile product production line. This year has already been made at Visionox and Tianma on the 6G line, and BOE and CSOT will be invested further this year.

The Chinese government is actively investing in the display sector, which is relatively uncontained due to trade disputes between the United States and China, and it is reported that the mobile OLED production line as well as the large OLED line, 8.5G and 10.5G lines, are being reviewed ahead of time.

Large OLED lines are currently being mass-produced only by LG Display, and are being produced using oxide TFT and white OLED deposition. Samsung Display is also considering mass production by adding QD structures to oxide TFT and blue-based OLED deposition.

Samsung and LG are preparing to mass-produce or mass-produce by applying heat deposition method to organic materials, but Chinese OLED panel makers are oriented to mass production line of RGB Inkjet method (Solution Process OLED). However, as the investment has accelerated recently, experts are concerned about the investment of RGB inkjet method which has not been mass-proven.

This is because LG Display’s white OLED deposition method has already been mass-proven and Samsung Display is also planning to invest in the same deposition method with only the different structure. Indeed, it is necessary to see whether Chinese OLED panel makers will move beyond the second-place strategy to adopt the RGB Inkjet method or change their direction to the deposition method, a proven technology.

[IFA2019] Sony’s OLED TV Evolving from Year to Year

Sony, which is driving the OLED TV market with LG Electronics, is exhibiting OLED TVs with new features at CES and IFA after the first display of OLED TVs.

The OLED TV displayed at Sony’s booth, which was first opened on Media Day of IFA2019, did not show a woofer. Using surface acoustic technology to produce sound from the screen, Sony showcased the CES2019’s model with four actuators on the back of the OLED panel and a woofer speaker as the rear stand. However, the woofers disappeared in IFA2019.

According to exhibition officials, the secret is that the panel is arranged with six actuators, three rows of two behind the panel, so that sound can be displayed on the screen from low to high.

2019 Solution Process OLED Annual Report

Solution process using inkjet OLED (sol OLED) has been developed mainly as a large OLED panel for TV, but recently began to attract attention in the monitor display market.

The evaporation method with FMM that produces OLED for smartphones has a bending phenomenon of FMM. Thus, the substrate is used by dividing into two or four. Since smartphone-sized FMMs are used by attaching 10 to 15 sheets to the mask frame, the profitability is very low due to the small number of cells in the production of 20-inch or larger monitors.

In comparison, sol OLED is a highly productive method because OLED can be manufactured from the original substrate regardless of substrate size and display size.

If the 27-inch and 32-inch OLED panels, which are mainly used as gaming monitors, are produced by the FMM method, four can be produced. But sol OLEDs do not divide the substrate, so the 27-inch can make eight, and the 32-inch can make six.

Therefore, in the future, OLED manufacturing technology is expected to be used in combination of three technologies depending on the application and size. Smartphone OLEDs are expected to be divided into FMM and evaporation methods, large OLED panel manufacturing for TVs with open mask and evaporation technology, and sol OLED technology for monitors larger than 25 inches.

There are three types of premium monitor market, LCD, RGB OLED, and sol OLED, but the premium OLED monitor market will be replaced by sol OLED. If 6G-class inkjet lines are invested in large quantities, sol OLED will become the flagship product in the mid-priced monitor market.

The solution process OLED annual report, published by UBI Research (www.ubiresearch.com), expects to create a market of $ 579 million by 2023. This amount represents 85.3% of the OLED monitor market by 2023.

[Press Release] Opening Ceremony of new Novaled Headquarters(Dresden, Germany, June 2019)

Investment of 30 million Euros in Novaled Headquarters with state-of-the-art R & D center for OLED cutting-edge technology in Dresden, Germany

After 2 years of construction Novaled GmbH opened its new headquarters in Dresden on June, 12th together with long-standing business partners and supporters. Besides representatives of Samsung SDI, the Prime Minister of Saxony, Michael Kretschmer, and the First Mayor of the city of Dresden, Dirk Hilbert, participated in the event.

Core of the 10,200 m² premises in the northern part of the city is a 110 m long R & D center with chemistry laboratories as well as cleanrooms of class ISO5 and ISO7 equipped at highest standards. The new location is an improvement all along the line. Additional space in cleanrooms allowed for investments in cluster tools. This increased the OLED processing capacity by around 40%. The generously planned chemistry laboratories with state-of-the-art equipment and proprietary analytics are a true quantum leap in the development of new materials for high-performance OLEDs.

Novaled is currently the only supplier of organic dopants for OLED display mass production in the industry. Know-how and materials from Dresden enhance therefore most high end smartphones, TVs and smart watches, equipped with OLED displays.

“State-of-the-art cleanrooms, three times more lab space and entirely new facilities offer the best conditions for innovation,” said Novaled CEO Gerd Günther. The company started back in 2003 with five key patents concerning organic electronics. Meanwhile there are nearly 1,000 Novaled patents granted or pending. “Our technologies and materials are established as an industry standard in the OLED display field,” said Gerd Günther. “Novaleds revenues clearly show that we are growing even stronger than the market.”

In addition to the construction of a new technical center, the former mill of the army bakery was extensively renovated and Novaled employees get to work there in loft-like, bright offices. A green outdoor area offers an attractive environment for meetings and relaxation. During the opening ceremony, a birch tree was planted by Novaled CEO Gerd Günther, Samsung SDI Executive Vice President Dr. Hyuk Chang , the Prime Minister of Saxony, Michael Kretschmer and the First Mayor of Dresden, Dirk Hilbert and. “The birch is a known symbol for light and a new beginning, representing what we do in our new premises,” explained Gerd Günther.

About Novaled

Novaled GmbH is a leader in the research, development and commercialization of technologies and materials that enhance the performance of OLEDs (organic light-emitting diodes) and other organic electronics. Novaled offers OLED product manufacturers a unique combination of proprietary technology, materials and expertise, and is currently the only company in the OLED industry licensing and selling organic conductivity doping technology and materials for use in the commercial mass production of display products. Novaled has developed strategic partnerships with key OLED innovators and producers throughout the world and, with a broad portfolio of more than 980 patents granted or pending, has a strong IP position in OLED technologies, structures and materials. Novaled is headquartered in Dresden with some 135 staff and offices in Asia. Since end of 2013 Novaled belongs to Samsung. www.novaled.com

 

About OLEDs

OLEDs (organic light-emitting diodes) are solid-state devices composed of multiple thin layers of organic materials often only a few nanometers thick that emit diffuse light when electricity is applied to them. Because they are an area light source, OLEDs are a key part of fulfilling the dream of the rapidly growing flat panel display market: paper-thin, highly-efficient displays with brilliant colors and excellent design flexibility. OLEDs may also lead to innovative decorative lighting applications and personalized environments. www.novaled.com/oleds/

 

[Press Release] OLED production capacity will increase to double in 2023.

UBI Research has published [2019 OLED Equipment Report] that forecasts the OLED equipment market. According to the report, the total substrate area of display companies in 2019 will be 34.9 million square meters, which will be 68.5 million square meters in 2023 and double after four years.

OLED substrate area growth is attributable to investments made by OLED lines for TVs driven by Samsung Display and LG Display. Currently, OLED manufacturing lines for TVs are 8G lines optimized for 55-inch panel production. However, the demand for premium TVs is shifting from 55-inch OLED TVs to 65-inch TVs. By 2021, the 65-inch OLED TV market will account for more than 40%. In response to these market conditions, LG Display is preparing to invest 10.5G lines in the most efficient production of 65-inch panels. In 2023, the substrate area of a large OLED line is expected to occupy 42% of the total substrate area.

<OLED production capacity by generation>

The substrate area of the 6G line is expected to grow to 13 million square meters this year and to 19.3 million square meters in 2023. Most of this is due to investment by Chinese panel makers. In China, the smartphone market accounts for about 40% of the global market, so Chinese smartphone makers have a very high market share based on the domestic market. Huawei has recently become the world’s second-largest shipper based on its domestic market. Chinese panel makers are boldly adding a 6G flexible OLED line to Chinese smartphone makers, with the Chinese government’s huge support.

<OLED production capacity by country>

In 2019, Korea’s OLED production capacity (substrate area) will total 27.9 million square meters, accounting for 80% of its total production capacity and expanding to 54.8 million square meters by 2023. The market share will remain at 80% and lead the OLED industry.

Chinese panel makers are expected to stay at around 20% as they are investing only in OLED production lines for mobile device.

The OLED manufacturing equipment market (excluding logistics equipment) is estimated at $ 28.4 billion for four years from 2019 to 2022 due to investment by Korean and Chinese panel makers. Among them, the sixth-generation equipment market is expected to account for 61% of the total equipment market, at $ 17.2 billion.

<Equipment Market Forecast by Generation (2019 ~ 2022)>

[SID2019] What material is better for cover windows of foldable OLED? colorless PI or UTG?

Since Royole introduced ‘FlexPai’, a foldable OLED phone, Samsung Electronics and Huawei have also launched Foldable OLED phones, attracting great interest from the industry and the public.

The biggest change of the foldable OLED phone currently being commercialized or under preparation is that the cover window of the glass material used in the existing flexible OLED has been changed to colorless PI material.

Colorless PI is thinner than conventional cover window glass, which is advantageous in reducing the radius of curvature and has the advantage of not breaking. UTG (ultra-thin glass), which has good surface touch-feel and scratch-resistant glass as thin as possible, is also attracting attention as a cover window material for foldable OLEDs.

At the SID Display Week exhibition in San Jose, KOLON exhibited colorless PI with hard coating. KOLON, which has been ready for mass production of colorless PI since 2018, is currently supplying colorless PI for foldable OLED cover windows to AUO, BOE, LG Display, and Royole.

Hard coating company DNP and TOYOCHEM also exhibited colorless PI with hard coating. DNP’s company official said that the film is under development and its main business area is hard coating, and TOYOCHEM’s company official said that it supplied hard coating samples to KOLON and SKC.

Meanwhile, SCHOTT, a UTG development company, also attracted the attention of the audience by displaying UTG for foldable OLED cover windows. An official of SCHOTT said that the UTG currently being developed is a cover window product for out-folding, not in-folding, and that the thickness is currently in development from 0.7 mm to 2.5 mm in accordance with customer requirements.

As the smartphone set makers are expected to release foldable OLED phones in the near future, competition for related materials is also expected to be intense. Whether the Colorless PI will continue to dominate or whether UTG will be able to exercise its influence is highlighted.

2019 Chinese OLED panel maker equipment order status

As Korean OLED panel makers do not have a lot of investment, the OLED equipment industry is in a low-demand season. When Chinese OLED panel makers confirm the order status of equipment orders in 2019, orders are being made centering on equipment and module line equipment required for new technologies rather than new lines.

In China panel makers BOE and CSOT, some equipment was ordered in March of this year for the development of flexible on-cell touch technology, and Korean equipment makers seem to have received orders from Wonik IPS and Iruja. In addition, since last month, the BOE Chengdu line has begun full-scale mass production and ordering of modular products along with foldable product preparation. Korean equipment makers will also receive equipment orders from BOE and proceed with production.

Starting this month, Visionox Hebei Line, which is set to start full-fledged investment this year, has begun placing orders for long-term delivery equipment and automation equipment. In addition, Wuhan Tianma is making some complementary investments in flexible process equipment, and EDO, Royole, and Truly are expected to invest in the future depending on market conditions.

UBI Research AMOLED process equipment industry report, which is scheduled to be published in May 2019, will be covered in detail in investment situation and equipment supply chain in China panel makers.

[BOE Chengdu Module Line Order Status]

[Press Release] AMOLED components and materials market grew to $ 24.15 billion in 2023

Although Samsung Electronics and Apple’s OLED smartphone market are stalled, Chinese smartphone makers are gradually increasing their use of OLEDs based on the huge smartphone market in China. As a result, BOE and Chinese panel makers have aggressively established a Gen6n flexible OLED plant, which is driving the OLED industry.

As a result of UBI Research’s panel makers’ operation rate analysis due to OLED plant expansion and supply and demand, the market for various component materials (excluding light emitting materials) that make up OLEDs is expected to reach $13.9 billion in 2019 and expand to $ 24.15 billion in 2023.

Recently, as the production of foldable OLED has started, various kinds of films that are not applied to LCD are emerging as core materials.

In the [2019 OLED Components and Materials Report] published by UBI Research, we examined the foldable OLED structure of Samsung Display, LG Display, and BOE, and analyzed the thickness and characteristics of the films that make up the module.

In the OLED components and materials market, components for TV OLEDs will grow rapidly to reach $ 19.1 billion in 2023 and lead the OLED industry.

OLED Daily Issue, April 25, 2019

▶ LGD’s performance is in the doldrums. This year, it will compete with high-value OLEDs. (ZDNet Korea)

(Full text of article: http://www.zdnet.co.kr/view/?no=20190424130827)

While LG Display is recording poor performance in first quarter of this year, it is going to strengthen its competitive edge in OLED display, which is its main business. Because it is expected that Chinese LCD will continue to make inroads into supplies this year, Samsung Display is planning to bring about results through high-value OLEDs that are highly profitable.

“It seems that large OLED business will take up more than 30% of TV business in 2016 through changes in customer and high-end position.” said Seo Dong-hee, chief financial officer of LG Display, during a conference call on the first quarter of 2019.

“Although some fixed expenses are also expected in second half of this year due to preparation of (Guangzhou OLED fab) production infrastructure as planned, we will increase profit contribution starting from 2020.” said a representative for LG Display.

■ It is difficult to rebound in second quarter performance…compete with high-value OLED in second half.

LG Display also expects that its second-quarter earnings will continue to worsen market conditions due to oversupply of LCDs and lack of IT products. Consensus of second quarter’s performance that F& Guide is estimating is $5.58 trillion (5.8181 trillion KRW) in sales and $16 billion (16 billion KRW) in operating loss.

However, it is expecting that it will produce results starting from second half of this year due to operation of OLED production lines that are located in Guangzhou, China, and release effects of transparent and automatic OLEDs.

“We believe that Guangzhou fab will operate successfully during first half of this year. “We are also preparing to apply MMG (Multi Model Glass, which is a method that is produced by combining 55-inch and 65-inch panels) to Guangzhou and Paju fab.” said a representative for LG Display.

Furthermore, transparent OLED products will be released in second half of this year and will expand additional demands. “We are currently working with variety of customers in commercial business.” said a representative for OTO, “Auto is already making more than 1 trillion won in sales through LCD. During this year, you will be able to see vehicles with plastic OLEDs. Although it is difficult to mention exact numbers, South Korea has received a large number of orders for displays for vehicles that employ POLEDs. We believe that orders will also gain considerable momentum when cars with POLED are successfully released this year,” he stressed.

 

▶ FineTec Receives Intent for Purchase of OLED Bonding Equipment from Chinese Firms(NEWSPIM)

(Full text of article: http://www.newspim.com/news/view/20190424000218)

While demands for OLED panels are increasing rapidly due to the resumption of investments in Chinese OLEDs this year, FineTec is trying to expand its supply of bonding equipment to Chinese display-specialized companies.

FineTec made an announcement on the 24th that it recently received orders from Chinese display company BOE for OLED composite bonding equipment and received LOI (Lent of Purchase of OLED bonding equipment) from CSOT.

FineTec is planning to supply CSOT with equipment dedicated to chips on plastic and COP-COF (chip on film) and other composite equipment that can be produced simultaneously. It is predicted that it will sign a contract with CSOT to supply bonding equipment after discussing detailed timing of supply.

In addition, FineTec, which is currently seeking to diversify its suppliers to China, is planning to strengthen its competitive edge in operation such as OLED composite bonding equipment for CSOT starting with this contract.

“Chinese OLED panel manufacturers are increasing their market share thanks to government support and Chinese Smartphone manufacturers’ promotion.” said a representative for this company. “FineTec is planning to focus on improving performance by securing orders from Chinese suppliers as China is actively seeking to increase its market share in OLED.”

It is also expected that FinTec’s combined bonding equipment will expand its competitive edge in markets in China. Although FinTec had about 10% of orders for bonding equipment that was placed in China three years ago, percentage of orders from Chinese display companies such as BOE and Visionox increased to 26% last year due to increased demands for composite equipment.

“We are currently converting variety of display panels from facilities that are targeted at specific types of panels from China and around the world into multi-functional equipment that can be produced at the same time.” said a representative for Samsung Electronics.

OLED Daily Issue, April 24, 2019

▶ ‘Other in 6 months’…BOE, 4th time to invest in flexible OLEDs. (Electronic Times Internet)

(Full text of articles: http://www.etnews.com/20190423000190)

BOE is going to start construction of its fourth 6th generation flexible OLED plant soon. It is planning to invest a total of 46.5 billion yuan (approximately 7.9 trillion won) to have a monthly production capacity of 48,000 sheets. Although the display market is slumping and demand for flexible OLEDs for smartphones is falling short of expectations, it is speeding up aggressive investments and expanding production capacity.

According to Chinese media on the 23rd, BOE is going to start constructing its fourth flexible OLED plant called ‘B15’ that will be invested in Fuzhou. It is heard that it will hold an event soon and make official investments.

As BOE is going to carry out its investments in B15, it has become clear that it will have production capacity of world’s largest 6th generation flexible OLEDs by beating Samsung Display.

 

▶ ” LCD TV panel price rebound…accelerates large OLED conversion” (The Korea Economic Daily)

(Full text of articles: https://www.hankyung.com/finance/article/2019042322206)

“The price of LCD TV panels increased +0.7% in second half of April compared to first half.” said KB Securities on 23rd.

“The price of LCD TV panels in the second half of April, which was announced by Witzview, has increased +0.7 percent compared to the first half,” said Dong-won Kim researcher. “The prices of 32-inch and 55-inch LCD panels increased +1.3% compared to the first half of April, and prices of 65-inch and 75-inch panels recorded 0.5% and 1.1% respectively, showing good trend of prices.” said a slight decrease in prices of PC panels compared to the previous quarter.

While positive trend of LCD prices is continuing in second quarter, it is predicted that businesses can convert large OLED panels faster. “If Samsung Display’s QD-OLED conversion investment for 8th generation LCD lines starts in earnest in the second quarter, price of 32-inch TV panels will continue to rebound slightly due to psychological impact on reduction of supply.” said Kim. “For 65-inch, 75-inch TV panel prices, production of Chinese panel manufacturers will expand, operation of 8th generation LCD lines of Samsung Display will slow down.”

OLED Daily Issue, April 23, 2019

▶ China also produces war skills… unstable OLEDs(THE DONG-A ILBO)

(Full text of articles: http://news.donga.com/3/all/20190421/95157197/1)

The Chinese companies’ volume offensive raised concerns that the OLED industry, following liquid crystal displays, could face oversupply problems. Analysts say that while South Korean display manufacturers’ performance in the first quarter has deteriorated due to a sharp drop in prices of LCD panels, even OLEDs, which are seen as new growth engines, could be on the verge of oversupply in the near future.

According to a recent report released by Hana Financial Management Research Institute on Monday, the production capacity of OLED plants currently being built by Chinese companies such as BOE, CSOT and TCL is twice that of South Korea.

 

▶ Retirement of OLED business for general lighting… Accelerate selection and focus of ‘New LG’ (The Korea Economic Daily)

(Full text of articles: https://www.hankyung.com/economy/article/2019042211521)

LG Group is speeding up efforts to reorganize its business portfolio for future growth. LG Display’s decision to withdraw from its organic light-emitting diode (OLED) business for general lighting is part of its objection. The “choice and focus” strategy has become a keyword that penetrates LG Group Chairman Kwang-mo Koo “New LG,” who headed the group last year.

According to LG Group and others on the 22nd, LG Display has given up its OLED business for lighting that it has been pushing as a new growth engine. It has been about a year and six months since it started mass-producing products from new OLED production lines.

It is heard that LG Display has decided to withdraw from markets by gradually reducing mass production of OLEDs for lighting that are produced at 5th generation OLED lines (P5) in Gumi, North Gyeongsang Province. Instead, it has decided to focus on OLED markets for vehicles that have huge growth potential and can produce synergy with the group’s automotive electric field (electric and electronic devices) business. LG’s acquisition of ZKW, which is a global automotive headlamp manufacturer, also affected LG’s ability to provide lighting for vehicles.

LG Display entered the general lighting market by introducing a new brand called ‘Luplex’ at the end of 2017. However, it is rumored that it has decided to give up its business after losing out on price competition from current LED (light emitting diode) lighting companies.

OLED Daily Issue, April 22, 2019

▶ OLED is also worried about oversupply…” China factory size, twice that of Korea.” (YONHAP NEWS)

(Full text of articles: https://www.yna.co.kr/view/AKR20190419148900003?input=1195m)

Following LCD panels, there are predictions that oversupply can become a reality for OLED panels.

Concerns are growing as South Korean companies plan to grow OLEDs into new “cash cow” instead of LCDs that China has taken the lead.

According to a recent report released by Hana Financial Management Research Institute on 21th, the number of OLED panel factories currently under construction in China is 419,000 sheets per month, about twice the amount of 225,000 sheets per month, which is the size of South Korea’s expansion.

According to the report, China’s BOE, which ranks first in LCD panel market, is going to increase its size to 144,000 panels. In addition, Chinese panel manufacturers such as CSOT, Visionox, and TCL are also scrambling to expand their facilities on a large scale.

Among South Korean companies, LG Display is set to operate its 90,000-unit monthly plant in Guangzhou, China, and it is expected that there will be a total of 45,000 panels per month in Paju.

Industries predict that size of OLED plant that will be built by Samsung Display in Tangjeong, South Chungcheong Province, will reach 90,000 sheets per month.

“As speed of expansion of OLEDs in South Korea and China is much faster than rate of increase in demands, there is a high possibility that oversupply will worsen.” said Joo-wan Lee, a researcher.

 

▶ The screen shield that caused controversy over faulty Galaxy folds…Why do I need it? (Yonhap news)

(Full text of articles: https://www.yna.co.kr/view/AKR20190421010700017?input=1195m)

Samsung Electronics’ first foldable Smartphone was embroiled in controversy over its screen defects even before it was released. Samsung Electronics explains that this happened because early users removed “screen protection film,” which can be misunderstood as screen protection film.

<Samsung Electronics [Samsung Electronics Co., Ltd.]>

According to industries on the 21st, current Smartphones are going to protect displays by attaching cover windows with reinforced glass material on top of OLED display panels.

OLED panels themselves are very thin like vinyl and are weak against external shocks. Plastic OLED (Plastic OLED) that is used for foldable Smartphones is more vulnerable to scratch. However, it can’t put glass, which is a material that doesn’t fold, so it is finished by applying film of plastic material.

“Although screen protection films that we already know are additional products that prevent scratching, protective films that are used for flexible displays are very important for displays.” said Professor Hak-seon Kim of UNIST, who is a former vice president of Samsung Display. Ok-hyun Jeong, an electronic engineering professor at Sogang University, also said, “The fact that we took out a protective film from PLED is tantamount to ripping off the display parts themselves.”

OLEDs emit light as organic materials, and due to their characteristics, they are very susceptible to oxygen and moisture components. When a thin panel itself is subjected to strong pressure during a screen’s opening, it can cause the screen itself to become indigestion due to moisture in an empty space.

Plastic has a weaker hardness than glass, making it easier to scratch the surface.

In addition to screen glitches, the media that received Galaxy Folders for review such as Bloomberg and Derverge points out that the protective film is easily dented or scratched. One reviewer said, “I tapped the screen with my fingernails, but there are still permanent marks.”

Some point out that there is a gap between the protective film and the display, which makes it easier for dust and others to get rid of it. One reviewer suggested a photo showing the gap between the screen’s protective screen and bezel, suggesting that it could be misleading.

Due to this reason, Samsung Electronics explained that its screen shield is for ‘replacement’. Since there is a higher chance of damage such as scratch than conventional glass, they were made so that they could be replaced at that time. However, users should not replace them directly and go through a service center.

Experts point out that such precautions should be sufficiently notified to consumers before the launch, and that early users also need to follow basic precautions as they use first-generation products.

Jeong said, “Samsung Electronics seems to have lacked notice of screen protection. “We need to strengthen advance notice when it is officially released.” said a person who dropped it from the company, which is about 100 grams more than normal Smartphones, risks further damage when it is dropped from the same location. This part also requires the user to pay attention,” he pointed out.

“Since the film itself is a plastic material, even if it is attached with protective film, it can be pierced and torn if exposed to sharp needles, unlike glass,” Professor Kim said. “In fact, these precautions should be properly introduced when selling it.”

 

▶ SK is investing in OLED business? (etoday)

(Full text of articles: http://www.etoday.co.kr/news/section/newsview.php?idxno=1747027)

SK Corp. is considering investing into OLED material business. As OLED markets are rapidly growing, industries that are made of OLED materials are also increasing.

According to mid- and long-term management plan data that SK Corp. held a corporate briefing for analysts of securities companies on Wednesday, SK Corp. is also reportedly considering investing in OLED materials to expand its material business.

SK Corp. has set a mid- and long-term strategy for its material business to expand its high-growth area by utilizing its current material platform.

For OLED materials, LG Display is planning to develop its own technologies by linking current SK Trichem’s technologies such as precursors and others while also considering investing in them.

Industries predict that SK Corp. will be able to expand its business through investments as it is an investment-type holding company.

For battery materials, which are planning to enter markets with high-entry barrier materials through partner companies’ cooperation and investment in technology holding companies, it has quickly entered the market by investing 270 billion won into shares of related companies.

SK Corp. previously acquired the stake in Watson, China’s No. 1 company that manufactures the second-order essential part of the battery, in November last year.

A reason why SK is showing interest in OLED markets is because OLED markets are growing rapidly.

According to a market research company called Ubi Research, size of OLED display market was estimated to be $28.31 billion (31.9568 trillion KRW) last year, which is a 7.1% increase year-on-year and is expected to grow to $32.3 billion (36.457 trillion KRW) this year.

It is expected to grow to $59.5 billion by 2023.

As a result, many other companies are working on OLED materials. Earlier this month, LG Chem stepped up its related business by acquiring material technology for “Solid Organic Light Emitting Diodes,” a key platform for next-generation displays, from DuPont in the U.S.

Doosan also established a new company through division of its business sector to strengthen its material businesses such as OLED.

“We have no specific plan to invest in OLED materials yet.” said a representative for SK Corp.

OLED emitting materials market to grow to $ 1.71 billion in 2019

OLED light emitting materials market is gradually increasing as Chinese companies enter OLED panel market led by Samsung Display and LG Display.

The 2019 OLED emitting material report, published by UBI Research, predicts that the emitting material market in 2019 will reach $ 1.17 billion. 2021 and 2023 are expected to grow to $ 1.87 billion and $ 2.0 billion, respectively.

The size of light emitting materials consumed by Korean companies will account for 70.2% in 2019 ($ 0.82 billion), and its share will increase to 75.6% in 2023.

Korea’s emitting material market is growing because the consumption of OLED materials for TVs is soaring. In 2019, 21.1% of light emitting materials for TVs are expected to increase to 49.7% in 2023.

[Lighting Fair 2019] NEG, OLED lighting collaborated with other lighting companies

At the Lighting Fair 2019 held in Tokyo Big Sight from March 5 to 8, 2019, Nippon Electric Glass (NEG) attracted the attention of the audience by exhibiting a large number of OLED lighting produced in collaboration with Kaneka, OLEDWorks and Lumlight. NEG, which produces ultra-thin glass for OLED lighting, introduced ‘Internal Extraction Layer (IEL)’ and ‘HX-1’, which improve external luminous efficiency, and high refractive index glass.

And NEG presented two OLED lighting panels were made in collaboration with Kaneka, a rechargeable OLED lighting ‘LUCE T1’, and a rotatable wall lighting ‘LUCE W1’. OLED lighting panels consist of square panels and rectangular panels with 3000K and 4000K color lighting, while square panels are in volume production, while rectangular panels are in progress.

In addition, NEG presented OLEDWorks ‘Brite 3’ series. ‘Brite 3’ has started mass production in the third quarter of 2018, efficiency is over 80 lm / W, color rendering is over 90, and color temperature is 3000K and 4000K.

Lastly, NEG exhibited the ‘OLED EYECARE LAMP’ stand by Lumlight. A represent said “OLED lighting would be a very useful lighting for infants and young people because it is less glare and feels very weak.

[2019 OLED KOREA] LG Display “8K is not everything. OLED will prove worth it”

“8K is not everything. OLEDs will provide new value not only in high resolution, but also in rollable typed and transparent displays ”

said Ko Kyoung Young, senior director of global promotion for LG Display’s TV division.
He emphasized this at the 2019 OLED KOREA held, the Novotel Hotel in Gangnam from March 6 to 7, 2019.

“Currently, 8K TVs are not attractive due to not ready for content and proper pricing” said Goh. However, OLEDs can provide new value, such as rollable and transparent displays, “he said that OLEDs will be the game changers of the future display era.

“The premium TV market which has been downsizing since 2014, started grow again in 2017 due to entering a new market of OLED TVs. In addition, we see OLED TV is leading the market last three years through it has been ranked from top to the 8th in the consumer reports , increase of global growth opportunities”

He also mentioned the OLED approach would overcome the scalability limitations that could be the best communication tool available anywhere in the fourth industry market. In addition, it can be applied to gaming monitors and automotive displays that are becoming bigger and bigger. “Global automobile companies such as BMW and Audi are in discussions with understanding display companies to apply OLED to future vehicles.” Director Ko said, to lead the premium TV market, we will support to boost production for large-scaled OLEDs by 2021, the expansion of the 4K and 8K

OLED TV lineups, and the creation of new platforms such as rollable and transparent displays.  Notably he said, “8K OLED TV is planned to be 88, 77 and 65 inches, and 4Ks will be expanded to 77 inches, 65, 55 and 48 inches.”

Lastly, Ko announced that will continue to study OLED resolution and brightness lifetime through the development of oxide TFT and new materials along with transparent display and solar technology for the future.

[MWC 2019] The new form factor, foldable phone wars heat up

Reporter : Daejeong Yoon

Smartphone makers are promoting the new form factor, foldable phones at MWC 2019 started on February 27 and it runs until 29 in Barcelona Spain.

The show is buzzing with products from big-name tech companies, including Samsung Electronics and Huawei,TCL, LG Electronics being unveiled. That includes a variety of phones with foldable screens.

Samsung unveiled foldable phone ‘Galaxy Fold’ to customer, highly touted at the Samsung Galaxy unpacked event.

In folding ‘Galaxy Fold’ features a 7.3-inch QXGA + resolution OLED screen and it was built to be compact size with 4.6-inch HD + resolution OLED when folded.

And Huawei announced its own foldable phone “Mate X” uses roll out foldable technology, it is surrounded by a 6.6-inch main OLED on the front and a 6.38-inch on the back. It is 8.7 inches when it is opened, 1.4 inches bigger than Samsung Electronics’ Galaxy Fold.

Mate X’s front display has 2480 × 1148 resolution with a 19.5: 9 aspect ratio. The back OLED has a 2480 × 892 resolution with a 25: 9 aspect ratio. When you flip it open, the resolution is 2480 × 2200 with an aspect ratio of 8: 7.1. .

Also, TCL announced the prototype device uses the company’s proprietary “DragonHinge” mechanism to fold and unfold the screen, it has 7.2-inch screen.

According to TCL, this device will build a production version that is slated for release by 2021.

Lastly, LG showed off V50 which is similar to a folding phone, it does have an optional case with a whole second screen on it. With two near-identical phone displays next to each other, the functional split-screen allows multitasking and gaming easily.

What is the cost of OLED materials for the Galaxy F?

What will be the price of foldable phone Galaxy F, which is expected to be on the market this year, is a concern for people around the world. Samsung Display is the only company that can mass-produce Foldable OLEDs with in-folding type used by Galaxy F.

Galaxy F with 7.29-inch OLED is a digital convergence product that can simultaneously target the smartphone and tablet PC market. The initial sale price will be around $ 2,000, and the estimated sales volume is about 1 million units this year.

The OLED industry is interested in how much the Galaxy F’s foldable OLED panels (including modules) will cost.

According to UBI Research’s material cost analysis data, Samsung Display’s foldable OLED material cost is 2.04 times higher than the Galaxy S10 5.8 inch. This is because the display area has increased, and the yield has been reduced.

Galaxy F, Galaxy S10, and iPhone XS’s flexible OLED material cost analysis shows that the module cost of iPhone XS is the highest at 95.2%, Galaxy S10 at 92.2% and Galaxy F at 89.3%.

The largest OLED business conference, OLED KOREA 2019

The OLED Korea Conference 2019, organized by UBI Research, will be held on March 6 and 7 at Novotel Ambassador in Gangnam.

The OLED Korea for the fifth consecutive year, the event includes many high profile speakers by having representatives of the industry on board

The conference will feature future forecast of panel market with executives from leading panel makers Samsung and LG Display, another major developers JOLED and TCL, which are pioneering markets for OLED panels with inkjet technologies

In order for OLED industries to grow, not only panel manufacturers but also variety of parts materials, equipment, and technologies need to be developed.

The conference will also include presentations from leading industry analysts from a variety of part and equipment firms.

Particularly, scheduled the session by Nanosys, a company specialized in QD, which will provide an important opportunity to forecast the growth of the QD-OLED business that Samsung Display is discovering as its next-generation business.

The OLED KOREA conference had over 200 attendees at last year.

[Program]

Can the OLED market continue to grow?

OLED Industry and Market Forecast in 2019

                                                                                                                                                                                                                      Dr. Choong Hoon YI, UBI Research

How will Korean panel companies attract the OLED industry?

Future Key Technology of OLED

                                                                                                                                                                  Hyein Jeong, Samsung Display

   How to create new value in display industry, LCD or OLED?

                                                                                                                          KY(Stephen) Ko, LG Display

Soluble OLED technology for making large-sized TV market

The Latest Breakthrough of Printing Technology for Next Generation Premium TV Application

                                                                                                                                                                                                                                  Dr. Jueng-Gil (James) Lee, TCL

   Strategic Market Creation of Printed OLED Display

Dr. Toshiaki Arai, JOLED

   OLEDs state-of-the-art materials: Merck development and latest status

Dr. Remi Anemian, Merck

   Latest Development of Soluble OLED Materials and Application to Mid-to-Large Panel Fabrication

Takeshi Yamada, Sumitomo Chemical

   Inkjet Printing for Flexible and Large-size OLEDs Manufacturing

Kyung-Bin Bae, Kateeva

Next generation OLED application

OLED Micro-displays for VR/AR Applications

Dr. Amal Ghosh, eMagin

   Airborne System & Cabin Integration enhance flight experiences and operations

Dr. Julian Chang, Boeing

Development status of fluorescence and phosphorescent materials

Future Directions for Phosphorescent OLED Displays

Dr. Mike Hack, UDC

   Development history and recent development progress of Blue OLEDs in Idemitsu Kosan

Jisung So, Idemitus Kosan

What level of next generation emitting materials has been developed?

TADF – Recent progress in developing highly efficient blue emitter materials

Dr. Andreas Haldi, Cynora

   Hyperfluorescence™, a Game Changing Technology of OLED Display

Junji Adachi, Kyulux

Film materials essential for OLED module manufacturing

Colorless Polyimides (CPI®) for Flexible Electronics

Dr. Chung-Seock Kang, Kolon

   Optically Clear Adhesives for Future OLED Displays

Sun-Yong Park, 3M

New technology to prepare OLED future

Quantum Dots: Technology Platform for Future Displays

Dr. Nahyoung Kim, Nanosys

   OLED Technologies for AR/VR

 Dr. Hyunkoo Lee, ETRI

   TBD

Dr. Robert Jan Visser, AMAT

   Material Advances for Transparent OLEDs

Dr. Michael Helander, OTI

[Press Release] AMOLED sales to reach USD 32.2 billion in 2019, up 13.8% from 2018

UBI Research (CEO, Yi, Choonghoon) published the annual OLED report in 2019.

According to the report, the OLED market is expected to reach $ 32.2 billion in 2019 and 13.8% market growth. The market growth is due to the launch of a variety of applications in 2019. Foldable OLED will accelerate the growth of the flexible OLED market as a convergence product that fuses smartphones and tablet PCs, and 8K OLEDs and rollable OLEDs to be launched from 2H 2019 will further solidly support the premium OLED TV market. In addition, an increase in flexible OLED shipments due to improved yields by Chinese panel makers will support growth in the Chinese OLED market.

AMOLED revenue in the fourth quarter of 2018 was $ 7.9 billion, down 3.7% from $ 8.2 billion in the third quarter and down 10.4% from $ 8.8 billion in the fourth quarter of 2017. The quarterly OLED market was highly volatile due to sales fluctuations at Samsung Display.

Revenue in 2018 was $ 28.3 billion, up 7.1% from $ 26.4 billion in 2017. The growth slowed suddenly compared to growth of 58.7% in 2017. The sluggish growth is attributable to the sluggish OLED smartphone market, which drove the OLED market up until now. The OLED market for smartphones, which was worth $ 24.2 billion in 2017, was only $ 24.5 billion in 2018.

Flexible OLED panels are not being adopted in mid-end smartphones due to the high cost of manufacturing flexible OLED panels for smartphones. As a result, the oversupply will continue due to lack of demand compared to the 6G flexible OLED investment. In the fourth quarter of 2018, there was an oversupply of 31%. In the first quarter of 2019, oversupply will increase to 39% by overlapping seasonal demand decline.

 

LG Display “OLED TV will account for more than 20% in total TV sales revenue.”

LG Display OLED TV maintained sales revenue, it through conference call, stated it recorded annual sales revenue of 24.3 trillion won and 92.9 billion won operating profit in year of 2018.

LG Display despite of heightened global competition and downward panel price made an operating profit thanks to OLED TV, super large size TV and high resolution products.

Especially large size OLED TV maintained stable productivity and enlarged consumer bracket which enabled 2.9 million shipment on a yearly basis. It recorded gross profit within 5 years of product introduction which resulted in more than 20% in total sales revenue.

4th quarter 2018 revenue of LG display marked 6.95 trillion won TV panels accounts for 36%, mobile panels 28%, notebook and tablet panels 22% and 14% for monitor panels.

Operating profit recorded 279 billion won, 528% increase compared to the same quarter last year, 99% hike compared to last quarter thanks to high priced IT products, new introductions of small and medium size products and high added value products. LG Display aims to focus on OLED business reconstruction Seo Donghee CFO of the company said, “the ratio of OLED revenue was almost nothing 5years ago, now it is 30% this year and we estimate it is going to reach 50% of the total business.”

He also said “we will put in all assets to create new values focusing on OLED business.”

He replied to the question of large size QD-OLED of competitor, it will strengthen ecosystem and overall OLED industry. To the question of 8K and over 70inch large size OLED mass production, he replied that 8K technology is already secured as exhibited at CES2019 and said that large size OLED mass production will utilize the existing know-how of LCD production. In 2019, LG Display’s OLED demand outlook question suggests that demand for more than 14% of all flexible OLED smartphones is expected.

Regarding the large-area OLED and p OLED capacity in 2019, LGD said that the large-area OLED capacity will be completed at 70K per month in Paju and 60K in Q3 in Guangzhou, China and the pOLED capacity is expected to add 30K to the domestic 45K in 2020.

He announced that capex is estimated 8trillion won in 2019 and 4trillion won in 2020, a half of this year. 60% will be for large size OLED and 40% for pOLED. And he said pOLED mass production is currently concentrated on smart phone and cars. He expects good news from car pOLED by end of this year. He also targets over 3.8 million units large size OLED production this year.

[OLED KOREA 2019] Early Bird Registration D-4 (until January 31)

The year 2018 was the inflection point for new application that had never existed in the OLED industry. Newly introduced OLED applications in 2019 include foldable phone, 8K OLED TV, rollable OLED TV, monitors made of inkjet technology, and automotive side view display.

The speaker of OLED KOREA 2019 consists of companies related to these five applications and presents the market and technology direction in 2019.

[Speaker]

Samsung Display Hyein Jeong

LG Display KY(Stephen) Ko

TCL Dr. Jueng-Gil(James) Lee

JOLED Dr. Toshiaki Arai,

Boeing Dr. Julian Chang

eMagin Dr. Amal Ghosh

UBI Research Dr. Choong Hoon YI

Cynora Dr. Andreas Haldi

Merck Dr. Remi Anemian

Sumitomo Chemical Takeshi Yamada

UDC Dr. Mike Hack

Kyulux Dr. Junji Adachi

Kateeva Kyung-Bin Bae

Idemitus Kosan Jisung So

Kolon Dr. Chung-Seock Kang

3M Sun-Yong Park

Nanosys Dr. Nahyoung Kim

ETRI Dr. Hyunkoo Lee

AMAT Dr. Robert Jan Visser

OTI Dr. Michael Helander

55 inch and 65 inch OLED TV prices proximity to premium LCD TV

Recently, Sony’s 65 inch OLED TV, XBR65A1E, is price at US$ 300 more than Samsung’s QN65Q7 on the Best Buy basis. Prices of LED TV and LCD TV are becoming increasingly competitiveness in the premium TV market.

As of January 16, Best Buy compares the price of OLED TVs between LG’s C8 series, Sony’s A1E series and Samsung’s Q7F series.

<55 inch premium TV price comparison>

LG’s OLED 55C8 prices dropped 47% from March 2018 to US$ 1,700, which is only US$ 200 higher than Samsung’s QN55Q7.

<65 inch premium TV price comparison>

In the 65 inch TV market, LG’s OLED65C8 price dropped 30% from March 2018 to US$ 2,700, while Sony fell 40% to US$ 2,500, which is higher than Samsung’s QN65Q7 by US$ 500 and US$ 300. The prices gap has been greatly reduced.

In the premium TV market, OLED TVs are rapidly catching up with LCD TV prices because LG Display’s OLED production yield stabilization is the biggest factor.

LG Display is currently constructing Gen8 OLED lines in Guangzhou and Gen10.5 lines in Paju. As a result, the production of large size OLED will increase further, and the OLED TV market will become more prominent in the premium TV market.

CES2019, the Biggest Issue of TV is LG Electronics OLED TV R

Reporter : Daejeong Yoon

The CES, held in early January of each year, is the most important event to understand all of the consumer electronics trends of the year. This year, TV makers from all over the world exhibited a variety of products to attract spectators to the event.

When OLED TV occupied more than 50% of the premium TV market with more than $ 2,000, the LCD TV industry sought to prevent the OLED TV market from expanding by exhibiting 8K LCD TVs to CES. However, the attention and admiration of the spectators were poured into OLED TV R.

The 8K TV market began to open slightly from last year, in preparation for the 8K broadcast starting from the Tokyo Olympics in 2020. LCD TV companies displayed 8K LCD TVs of various sizes to preoccupy the market with the keyword of 8K. LCD TV, however, has not been recognized by viewers as a new TV product since Sharp has already exhibited steadily.

Another reason is OLED TV R displayed by LG Electronics. In the main body with built-in speaker, OLED TV rises up and goes down again. A lot of people came to see OLED TV R to shoot.

 <LG Electronics, OLED TV R>

Last year, micro LED TVs became more prominent. In addition to Samsung Electronics, Sony, TCL and Hisense exhibited micro LED TVs this year. It seems that the gap of micro LED TV technology between Korean companies and Chinese companies is only about one year. In the micro LED TV market based on assembly technology that does not require special manufacturing technology, China, which is the world’s best LED industry and infrastructure, is expected to dominate the market soon.

However, as LG Display has a unique OLED TV manufacturing technology, which has a very complicated panel structure and manufacturing process, the technological gap between Korea and China is expected to be more than five years difference. In this situation, OLED TV R, released by LG Electronics, once again realizes that Korea’s OLED technology is the best in the world.

On the other hand, TV companies’ display of OLED TVs, except for LG Electronics, has stagnated. These companies are not yet receiving 8K OLED panels and rollable OLED panels from LG Display. Even Sony does not have any special features, only OLED TVs that are well known so far.

As a result, the CES TV show was notable only for LG Electronics.

It is judged that LCD TV using mini LED that TCL has released can compete with OLED TV in this exhibition. The contrast ratio is displayed as 1,000,000: 1 similar to OLED TV. Black is a very good product that has a vibrant color and contrast ratio similar to OLED TV. However, a holo-effect was found around the bright screen displayed on the black desktop. It is a phenomenon that the surroundings appear to spread brightly. As it is invisible to non-specialists, it is competitive in price and is a product that can compete well with OLED TVs.

< TCL, 8K QLED TV with mini LED>

LG Display Vice Chairman Han Sang-Bum, “50% of sales of OLED and upbringing business in 2020”

Growing into the mainstream of OLED growth by expanding large OLED, differentiated products and supply

■ Small and Medium-sized POLED, strengthening fundamental business capacity and preparing future products such as Foldable

■ Develop commercial and automotive products, new technologies / new markets and develop into first-class business

LG Display is one of the world’s largest electronics exhibitors, and will hold a press conference at the Las Vegas Convention Center (LVCC) in Las Vegas on June 7, the day before the opening of the Consumer Electronics Show (CES) with Han vice chairman, executive vice president Kang In-Byoung, Strategy and Marketing Group Director Song Young-kwon, and other executives.

At the meeting, Han Sang-bum said, “Although there were many difficulties due to excessive supply and enormous investment due to intensified global competition last year, large-sized OLED business turned to surplus and stable profit was generated mainly in high value-added products. “This year, LG Display will focus on OLED investments, accelerating OLED growth, and focus on commercial and automotive businesses. By 2020, LGD will account for more than 50% of total OLED and growth businesses. “He said.

To this end, LG Display plans to expand its large-size OLED market, strengthen its fundamental business capabilities in small- and mid-sized P-OLED (plastic OLED) businesses, and develop new markets with differentiated commercial and automotive products.

■ Large OLED, differentiated products and supply expansion

Since LG Display first supplied OLED TV panels in 2013, LG Display has continued to develop its technology. And last year, it sold nearly 3 million units and developed into a strong player in the premium TV market. This year, the company plans to expand its TV product lineup from the existing 4K resolution to 8K, and to further enhance its competitiveness by further enhancing performance such as luminance and response time. In addition, the company will expand its market by expanding differentiated products such as wall paper, CSO (Crystal Sound OLED), rollable and transparent display. LG Display will complete the G8.5 OLED panel factory in Guangzhou, China in the first half of this year, and mass-produce OLED from the third quarter. Through this, the company plans to expand its sales volume from 2.9 million units in 2018 to 4 million units this year, and to achieve more than 10 million units in 2021.

In addition, LGD will expand sales areas for existing customers, strengthen collaboration with strategic customers, and increase sales of premium products such as ultra-large size panel.

■ Small and mid-sized P-OLED, strengthening fundamental business capacity and preparing future products.

LG Display is targeting the small- and mid-sized OLED market through P-OLED.

This year, it is a great challenge to develop core technologies and products for strategic customers in a timely to raise market share of small- and medium-sized panel.

In addition, LGD plans to increase the production capacity of the Gen 6 Gumi factory, which has a capacity of 15,000 sheets per month, and to expand the P-OLED production capacity by early stabilizing the Gen 6 factory in Paju.

In addition, LGD plans to steadily prepare related technologies and infrastructure so that future products such as Foldable can be released on time.

■ Commercial and automotive displays, Fostering first-class business

LG Display nurtures the rapidly growing commercial and automotive businesses to first-class business.

In the commercial market, LGD plans to pursue differentiated products such as 98 and 86 inches, ultra-slim products such as in-touch, bezel of 0.44 mm, transparent and gaming.

For automobiles, LTPS-based high-resolution LCDs and P-OLEDs are expected to focus on 8-inch and larger screens and high-resolution products. In addition, LGD will prepare its production infrastructure to expand its business in a timely manner and further strengthen its cost competitiveness, thereby achieving the first place in the fast growing auto market.

This year LGD plans to complete investment in preparation for the future, which began in 2017. LGD Han Sang-Bum, vice chairman of LG Display, said, “LG Display will be able to lead the global display market once again with OLED.

What is the Biggest Issue in the Display Industry in 2019?

In 2019, 8K OLED TVs and foldable smartphone will be on sale, bring new vitality to the OLED industry. OLED makers are leading the market with high-value-added products in order to maintain the display industry, which is collapsing due to low-cost LCDs pouring from the Gen10.5 line of Chinese panel makers.

Samsung Display is developing QD-OLED panels for the rapidly growing OLED TV market, and LG Display is spurring the development of foldable OLEDs for high-end smartphone market.

TCL and JOLED, which are relatively slower than Samsung and LG, are pioneering the soluble OLED market in response to the large-size OLED TV market.

The 2019 OLED KOREA will be held at the Novotel Hotel in Seoul from March 6 to 7 to enable you to understand the evolving OLED industry and technological development. The 2019 OLED KOREA, which includes Samsung and LG as well as the OLED industry, will provide insights into how and where the OLED industry will go in 2019.

[28TH FINETECH JAPAN] Denso, Automotive displays that are directly connected to safety are OLED

At the 28th FINETECH JAPAN held in Makuhari Messe, Japan during December 5-7, 2018, Hiroyuki Hara, manager of Denso said that OLED will be used as future automotive displays due to their various advantages.

Hara refers to the large screen including the touch panel as the latest trend of automobile display, and now LCD is mainly used. However, OLED is expected to be used more and more in automobiles as the automotive electronics makers and drivers demand high-quality displays.

Saying that key elements in automotive displays are high contrast ratio, wide viewing angle, design autonomy, light weight, low reflection and reliability, Hara emphasized that the display that can satisfy all of these key elements is OLED. In addition, the factors related to image quality such as contrast ratio and viewing angle are directly related to safety for the driver. Thus, OLED is to be adopted more. Referring to the requirements of automotive OLED, he finally commented that improving reliability, such as lowering the luminance drop due to temperature changes and preventing damage to OLED due to high humidity, will be key to OLED for its entry into the automotive display market.

The automotive display is likely to lead the market for next-generation displays following mobile devices and TVs. Various OLED panel makers such as BOE and Visionox, as well as LG Display and Samsung Display, are showing automotive displays at domestic and international exhibitions. Denso also invested Japanese yen 30 billion in JOLED early 2018 to compete with Korean panel makers. Meanwhile, the market for OLED displays for automobiles led by Samsung Display and LG Display is expected to grow to US$ 540 million in 2023 according to UBI Research’s recently published “Automotive OLED Display Report”.

[28TH FINETECH JAPAN] JDI and JOLED, announced Strengthening Cooperation for Mid-sized OLED Market

At the 28th FINETECH JAPAN held in Tokyo, Japan from December 5 to 7, 2018, JDI and JOLED announced that they would intensify their cooperation in order to target the middle-sized OLED market.

JDI announced that it will actively promote JOLED’s solution process OLED to medium-sized OLED markets such as industrial display markets or automotive display markets through its own design know-how, production infrastructure, and sales channels,.

In particular, JDI announced that it will provide new value to next-generation automotive fields along with JOLED such as support for safety such as electronic mirrors and displays for A/B pillars, new interface functions, movie appreciation using 4-8K displays, and the displays that are harmonized with interior design such as curved surfaces and big screens.

JDI and JOLED also shared booths for exhibition. JOLED introduced 21.6-inch FHD OLED monitors for e-sports and medical applications. In addition, it introduced a number of medium-sized OLEDs such as 12.3-inch HD OLED for automobiles, 12.2-inch FHD flexible OLED, 27-inch 4K OLED for home interior, and 21.6-inch 4K flexible OLED with cylindrical form. It also showcased large OLEDs such as 54.6 inch 4K OLED.

On the other hand, JOLED announced in July, 2018 that it would open its Nomi office for mass production of solution process OLED. Based on 5.5 generation glass substrates, Nomi has production capacity of 20,000 glass substrates per month and plans to mass-produce in 2020.

[Press Release] Foldable OLED Market Grows Fast to US$ 24.6 Billion by 2023

eporter & Analyst : Daejeong Yoon

5G communication technology introduced from next year can process higher image quality and large-capacity contents such as VR more rapidly, besides real-time streaming service. As the communication speed increases, the relevant contents, are expected to be released, which require high resolution and large screen with graphics detailed.

The current smart phone is getting bigger up to 6 inches, but it is not enough for 4K resolution of 5G communication age. Since 4K resolution is to be possible at 7-inch and larger displays, they might be the most suitable product for the 5G communication era. Foldable smart phones are digital convergence products that can function as smart phones and tablet PCs as the next generation mobile devices that use 7 inch or more displays but maximize portability.

Owing to foldable OLED, foldable smart phones are likely to be available. Several companies have rushed to produce various prototype foldable OLED displays at exhibitions and conferences. A few panel makers even pledged to mass-produce foldable OLED displays competitively. OLED display companies worldwide including Samsung Display have invested enormous development costs in order to preempt the next generation product market, and now foldable OLEDs are starting to appear.

Samsung Electronics, which is leading the OLED smart phone market, is planned to launch the in-folding type foldable phone for the first time in the world next year. Accordingly, Samsung Display has prepared 1.5R foldable OLED. For Samsung Electronics, which has suffered sluggish sales of the Galaxy S series, Foldable Phone is a super premium product that needs to be succeeded.

<Expected structure of Samsung Electronics’ in-folding type foldable phone>

Source: Foldable OLED Report, UBI research

UBI Research (CEO: Yi, Choong-hoon), an OLED research institute, has published Foldable OLED Report. According to the report, the market for foldable OLED in 2019 is only US$ 480 million, but it is expected to grow to US $ 24.6 billion in 2023.

Yi said, “The rapid growth of the foldable OLED market is due to the fact that 7-inch and larger smartphones, which can support 4K resolution, become required products in the 5G communication era. Accordingly, the value of OLED panel makers will be determined by the success of foldable OLED production.”

<Foldable OLED Market Forecast>
Source: Foldable OLED Report, UBI Research

However, foldable OLED is not a product that anyone can produce. Since foldable OLED has a more complex module structure than conventional flexible OLED, it is necessary to overcome the changes in various panel characteristics caused by folding. Especially in in-folding type foldable OLED, compensation circuit technology to overcome TFT resistance change and resilience required when folding and unfolding screen are typical technical difficulties. In order to realize this technology, the key challenges of reducing stress at the area of folding, selecting a proper substrate, determining the ideal stack structure, and optimizing the liftoff process, need to be overcome. Even when folding over 200,000 times, it is required to have reliability that there will be no abnormality on display image quality and surface.

“Foldable OLED Report” published by UBI Research analyzes the development trends of panel makers together with the development issues of major films that determine the reliability of foldable OLED.

JOLED, Introduced Many Inkjet OLED Technologies

This was the first time for JOLED to demonstrate its products and technologies at FINETECH Japan 2018.

JOLED, which received the inkjet OLED technology from Panasonic and is doing OLED panel business, has been selling medical monitors since early this year. Next year, Asus is also scheduled to sell inkjet OLED TVs made by JOLED.

Its exhibited products include medical OLED monitor, OLED monitor for games, automotive OLED and 3 kinds of OLED TVs.

JOLED’s Inkjet OLEDs have a peak intensity of 350 nit. In case of full white, it is 140 nits, but has sufficient brightness for monitor applications.

JOLED will build mass production lines next year to produce OLEDs for 20-inch monitors and TVs as a full-scale. It also plans to start OLED business for automobiles after 2020.

JOLED is the only company producing OLED panels manufactured by inkjet technology. JOLED is also promoting the license business by providing this technology to Chinese, Japanese and Taiwanese panel makers.

[28TH FINETECH JAPAN] Sharp, announced Future Strategy Combining IGZO and OLED

Mr. Atsushi Ban, Vice President of Sharp presented a future strategy that combines IGZO and OLED through a keynote session at the 28th FINETECH JAPAN, held in Makuhari Messe, Japan from December 5, 2018.

Ban emphasized “The proportion of OLED in the entire display market is expected to grow even higher, and the new value of OLED is no different than flexibility.”

He said, “Sharp is also planning a variety of applications using the thin, light-weight and flexible characteristics of OLED. From the third quarter of 2018, its Taki plant has produced 4.5G backplanes and the Sakai plant is under injecting glass for OLED and module processing for 4.5G 15K quantity.”

Ban also pointed out the possibility of expanding the OLED industry through flexible OLED, commenting that Sharp’s next goal is to develop foldable OLED that combines IGZO. Sharp has pioneered a new display technology, called IGZO, which has been known for its semiconductor properties for years, but Sharp has developed a crystalline form that maximizes its benefits for greater display performance, and IGZO improves the performance of display panels in three significant ways: lower power consumption, higher resolution and special benefits for touch-sensitive displays. Ban expected that it could create new value if IGZO is combined with medium to large sized foldable OLED or rollable OLED.

Finally, Ban introduced Sharp’s IGZO development roadmap and announced that it will develop much improved IGZO.

Fingerprint Full-Screen Smart Phones Begin to Compete

<Vivo’s full screen smart phone with in-display fingerprint scanner, Android authority>

The competition for front fingerprint recognition of smart phones is expected to become hot.

In the smart phone with the existing home button, the front fingerprint sensor was installed on the home button. Fingerprint security enhances security, but recently, full screen Smartphone without home button has been released and fingerprint sensor has been moved to the back of Smartphone. This has caused disadvantages such as an uncomfortable hand shape when touching a finger to the fingerprint sensor and fingerprints on the camera lens.

In order to improve these points and to implement a complete full-screen Smartphone, the development of integrating full-screen fingerprint recognition with display is continuing.

The method of full-screen fingerprint recognition is largely examined by both optical and ultrasonic methods. The optics are inexpensive and easy to mass-produce, but the OLED substrate must be transparent because the sensor is to be located below the OLED panel. Therefore, it is applicable to rigid OLED using glass as a substrate, but it is difficult to apply to flexible OLED using colored PI as a substrate. The ultrasonic method is most stable in accuracy and durability, but it has a disadvantage of high manufacturing cost.

Currently, Chinese set makers have begun to launch smart phones with optical front fingerprint recognition. The Galaxy S10, which will be released next year by Samsung Electronics, is being watched for the adoption of ultrasonic full-screen fingerprint recognition. LG Display is also developing a display with front fingerprint recognition.

As such, the sales for full-screen smart phones with front fingerprint recognition are expected to be started in earnest. Competition in the smartphone market is expected to become more intense in the second half.