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Samsung, announced the availability and pricing for New SUHD TVs

April 14, 2016/0 Comments/in /by OLEDNET

Samsung Electronics America, announced the availability and pricing for its 2016 line up, including SUHD TVs.(Source=Samsung Elec.)

Samsung Electronics America, the leader in home entertainment for over 10 years, announced the availability and pricing for its 2016 line up, including an entirely new Flagship model series – the KS9800, bringing a new meaning to Smart TV.

“Samsung has always been about the ultimate experience in Picture Quality. This year is no different. Our new SUHD models provide the brightest, most realistic color and clarity for every viewing environment,” said Dave Das, Senior Vice President, Samsung Electronics America. “What is new this year is our redefined Smart TV experience. We listened to our customers and made enjoying content the easiest it’s ever been”

Whether it’s SUHD, UHD or LED, Samsung delivers the brightest, most stunning picture quality, with richer colors and more dynamic audio than ever before.

Samsung’s SUHD TVs feature the world’s only cadmium-free 10 bit Quantum Dot Display, setting the quality standard of 1,000-nit HDR with the best and most vibrant color and contrast available for true-to-life picture and experience. The Ultra Black feature reduces reflections by absorbing light to help provide for deeper, richer blacks. This year’s Samsung SUHD line up meets the UHD-A’s Premium UHD certification program, which ensures consumers are getting the most premium experience from their UHD TV.

From curved and slim to the new boundless design edge, Samsung offers stunning design with optimum viewing. The new KS9500 features an immersive ‘360’ design that is elegant and looks beautiful from every angle.

Samsung’s 2016 Smart Hub Interface takes simplicity to the next level. The new Smart Hub Interface eliminates a lengthy setup process by automatically integrating set top boxes from cable providers like Time Warner, Comcast (coming soon), and satellite services such as DIRECTV (coming in June), as well as game consoles. Users can simply plug the STB into any HDMI port, and the TV will recognize the box and provider, as well as automatically set up the remote control to access and control the STB features – not just channel up and down, but DVR controls and other commonly used controls – without the user ever having to program or “teach” the remote. It’s the ultimate in simplicity.

The UBD-K8500 supports backward compatibility, upscaling existing 3D Blu Ray, Blu Ray to near-UHD quality. The player can also handle the next generation of home audio formats, including immersive, object-based sound formats like Dolby Atmos and multi-channel systems.

For 2016, Samsung offers breathtaking design and unparalleled excellence with its new line of TVs, including a series of five Curved SUHD TVs and a series of five UHD TVs that vary in display size from 49” to 88”. Ranging from the popular curved form to the traditional flat-panel, Samsung provides consumers with sleek appeal, the most exceptional picture quality and smartest TVs.

The Samsung KS9800 SUHD TV will be available in early June in a 65” model for $4,499, and an 88” model for $19,999. A 78” model will be available in early May for $9,999.

The Samsung KS9500 Curved SUHD TV is available now in a 55” model for $2,499 and a 65” model for $3,699. A 78” model will be available in early June for $7,999.

Samsung’s KS9000 4K SUHD TV is available now in a 55” model for $2,299, and a 65” model for $3,499. A 75” model will be available in early June for $6,499.

Samsung’s KS8500 4K SUHD Curved TV is now available now in a 55” model for $1,999 and 65” model for $2,999. A 49” model will be available in May for $1,699.

The Samsung KS8000 is now available in a 55” model for $1, 799, and in a 65” model for $2,799. Starting in May, it will be available in a 49” model for $1,499, and a 60” model for $2,299.

LCD or OLED…JDI CTO “Will Seize Mobile Market though LTPS”

April 12, 2016/0 Comments/in /by OLEDNET

JDI’s CTO Emphasizing LTPS Technology(Tokyo=OLEDNET)

Hyunjoo Kang / Reporter / jjoo@olednet.com

As a response strategy for the future smartphone display market, Japan Display (JDI) nominated LTPS evolution. This is to continue the position that JDI achieved within the LCD market through LTPS technology in the OLED market using Advanced backplane technology.

JDI’s CTO, Hiroyuki Ohshima gave a keynote speech titled Future Perspective for Small to Medium-sized Displays in FineTech Japan 2016 (April 6-8), and emphasized that they will continue developing backplane technology prowess.

Furthermore, Ohshima stressed that whether the mobile display’s frontplane is IPS LCD or OLED, the key backplane technology is LTPS. he explained that unlike LCD’s stabilized technology, OLED still has issues that need to be solved such as high uniformity and stability. However, he added that OLED is the best technology to achieve flexible display comparing the merits of LCD and OLED.

Ohshima told the attendees that LTPS is a widely used technology applied to both LCD and OLED, has high electron mobility compared to other TFT technology, and high resolution, low power, etc. are possible. From 2015, JDI has been using 60 Hz Gen1 LTPS technology, and expected to use 30 Hz Gen2 Advanced LTPS from 2016, and Gen3 with 15 – 5 Hz from 2017. The evolved technology can greatly reduce energy consumption compared to the previous versions of the technology.

Furthermore, Ohshima is planning to respond to the small to medium-sized display market by developing in-cell touch, low power technology, etc. He added that small to medium-sized display, represented by smartphone, requires the integration of developed technology

FineTech Japan 2016 (April 6-8) is a display technology related exhibition held in Tokyo Big Sight. The 26th annual event is participated by approximately 260 companies including Samsung Display, BOE, and Japan Display.

LG Elec.`s operating profit is 505.2 billion KRW 1Q 2016…65.5%↑

April 12, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / jjoo@olednet.com

LG Electronics Inc. (LG) today announced its preliminary earnings results for the first quarter of 2016.

Tentative consolidated revenues for the first quarter of 2016 is 13.36 trillion KRW and operating profit is 505.2 billion KRW. Revenues are expected to be 4.5 percent lower than the same period the year prior while operating profit will be 65.5 percent higher year-over-year.

These figures are the tentative consolidated earnings based on K-IFRS. This tentative earnings is provided as a service to investors prior to LG Electronics’ final earnings results including net profit and details regarding each division which will be announced officially later this month.

Zhaohong Zhang, BOE’s CEO, “Will Become 8K TV Market Pioneer”

April 12, 2016/0 Comments/in /by OLEDNET

BOE’s CEO Emphasized They Will Lead 8K TV Market(Tokyo=OLEDNET)

Hyunjoo Kang / Reporter / jjoo@olednet.com

China’s TFT-LCD company, BOE, revealed ambition that it will lead the 8K market within the TV sector.

At the Technical Conference of FineTech Japan 2016 (April 6-8), BOE’s CEO Zhaohong Zhang gave a keynote speech titled Strategy of Adaptation and Innovation, and emphasized that the large size TV will notably grow, and BOE will lead the large size 8K TV market.

Zhang explained that he believes the enlargement will become the growth engine for the global display market. Accordingly, he estimates that the enlargement of monitor and TV among others will spread. He added that the display market will find it difficult to grow rapidly, and the display will become larger and mobile products of FHD 400 ppi or higher and TV products of UHD 4K or higher will expand.

Zhang emphasized that BOE became the victor by earning market opportunity through scale and value innovation, affirming the determination to lead the large size TV market. In terms of BOE’s innovation directions, Zhang suggested several keywords including ▲Picture ▲Power ▲Health ▲Price ▲Panel and ▲Pilot.

In particular, BOE’s policy is to make a winning move in large size display sector. Within the smartphone and tablet sectors, Zhang plans to place UHD 4K display at the front, and lead the 8K era within TV sector. He further emphasized that with the forecast of rapid growth of large size 8K TV market from 2018, BOE will become the pioneer in 8K technology and product. In future, BOE is planning to apply 8K to all panel series for TV.

Additionally, Zhang’s strategy includes low energy consumption actualization through backplane TFT semiconductor and high aperture ratio technology. Furthermore, he stressed that by developing display that lowers eye fatigue and corrects color, BOE is considering viewer’s health too. He revealed that in order to enter the new application sectors such as automotive, medical, AR, and VR, BOE will carry out development on high resolution, touch module, flexible panel, etc.

FineTech Japan 2016 (April 6-8) is a display technology related exhibition held in Tokyo Big Sight. The 26th annual event is participated by approximately 260 companies including Samsung Display, BOE, and Japan Display.

Samsung Curved Monitor Surpasses One Million Sales Mark

April 11, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / jjoo@olednet.com

Samsung Electronics announced today that it has sold more than one million curved monitor products worldwide. The global display provider introduced its first curved LED monitor – the 27-inch, 4000R (curvature radius of 4,000 mm) SD590C model – in September 2014, and since has expanded its line-up to include several additional curved monitors. As a result, Samsung currently accounts for more than 85 percent of all global curved monitor sales (Source: International Data Corporation (IDC), 2015 Q4 worldwide sales results for 15”~34” curved monitors).

Designed to match the natural shape of the human eye, Samsung’s curved monitors feature uniform center-to-edge viewing distances to create a more comfortable and immersive viewing experience conducive to long-term use. Combined with extra-wide viewing angles and enhanced contrast ratios, these curved displays are ideal for gamers and at-home entertainment users seeking realistic, distraction-free picture quality. As a result, Samsung has capitalized on growing demand from these audiences (many of whom employ several monitors during game play or content viewing).

“Since the launch of our first curved monitor in 2014, we’ve seen this technology evolve to become an industry standard that gaming and entertainment viewers expect,” said Seog-gi Kim, Senior Vice President, Visual Display Business, Samsung Electronics. “As curved monitors continue to grow in popularity, we welcome the challenge of further advancing our displays’ design and capabilities to drive new levels of viewer engagement and comfort. We are happy to have reached one million sales for our curved monitors so far, and we look forward to delivering new curved technology innovation in the coming years.”

Samsung’s curved monitor design refinement includes the introduction of a sharper curve with each new model while maintaining a consistently sleek and stylish presentation. In January 2015, Samsung released its second curved monitor, the 34-inch SE790C, featuring 3000R curvature. The company’s latest curved offerings – the CF591 (27-inch model) and CF390 (23.5- and 27-inch models) – further expand visual possibilities with an industry-leading 1800R composition.

JOLED Propels Printing OLED…“19.3` Development Complete, Mass Production in 2018”

April 11, 2016/0 Comments/in /by OLEDNET

Tomoaki Tsuboka, Corporate Officer in JOLED(Tokyo=OLEDNET)

Hyunjoo Kang / Reporter /jjoo@olednet.com

JOLED has completed development of 19.3 inch and 12.2 inch OLED panel through printing technology, with plans of mass production in 2018.

During the FineTech Japan (April 6-8) Special Session, Tomoaki Tsuboka, Corporate Officer and Head of Business Development in JOLED, gave a talk titled The Strategy of JOLED to Challenge Innovation and revealed this information.

According to Tsuboka, JOLED recently completed printing technology based 12.2 inch FHD flexible OLED panel, and 19.3 inch 4K OLED panel prototype development. The 12.2 inch product has pixel density of 180 ppi, and 19.3 inch is 230 ppi.

It is planning to start prototype’s mass production related verification process from this August, and begin formal mass production from 2018. In order to achieve this, JOLED is preparing Gen4.5 mass production line (730 x 920 mm).

Until now, JOLED’s main products were mass produced OLED panel for smartphone. Its strategy is to enter the large size market through the printing technology and using it as the growth engine. During this session, Tsuboka explained the characteristics of printing OLED mass production technology and emphasized the superiority of JOLED’s printing technology.

Tsuboka explained that the RGB printing technology can actualize large size OLED panel in atmosphere, and has short processes. However, further improvements are required regarding mura, material characteristics, etc. In the case of JOLED, he added that this was much improved through independent technology, as well as algorithm improvement, and materials and device structure optimization.

He told the attendees that JOLED is attempting to enter the large size panel market with printing technology. He also emphasized that as OLED can actualize high quality flexible, freeform, and transparent panels, it will bring innovation to spaces such as station, airport, and gallery.

FineTech Japan 2016 (April 6-8) is a display technology related exhibition held in Tokyo Big Sight. The 26th annual event is participated by approximately 260 companies including Samsung Display, BOE, and Japan Display.

Samsung Electronics Announces Earnings Guidance for 1Q 2016

April 8, 2016/0 Comments/in /by OLEDNET

Samsung Electronics announced its earnings guidance for the first quarter of 2016(Source=Samsung Electronic)

Hyunjoo Kang / jjoo@olednet.com

Samsung Electronics announced its earnings guidance for the first quarter of 2016.

Consolidated Sales: Approximately 49.0 trillion Korean won
Consolidated Operating Profit: Approximately 6.6 trillion Korean won

The above figures are estimates of consolidated earnings based on K-IFRS. Korean disclosure regulations do not allow earnings estimates to be provided as a range. Therefore, the above figures are based on the median of the earnings estimate range, as given below.

Sales: 48.0 ~ 50.0 trillion Korean won
Operating Profit: 6.5 ~ 6.7 trillion Korean won

LGD’s Head of OLED TV Development Group, “65·55 inch, Growth Engine”

April 8, 2016/0 Comments/in /by OLEDNET

LGD’s ChangHo Oh, “65, 55 inch TV are OLED TV’s Growth Engine”(Tokyo=OLEDNET)

Hyunjoo Kang / Reporter / jjoo@olednet.com

LG Display has once again reaffirmed its determination to lead the TV market with OLED as the growth engine. In particular, the company is planning to actively respond to the increase of demand for 65 inch and 55 inch OLED TV.

On April 7, during the FineTech Japan Special Session, ChangHo Oh, LG Display’s OLED TV Development Group, gave a talk titled ‘Technology for Large Size OLED Display’ and emphasized the superiority of large area OLED panel.

As a display for a large size TV, LCD has light leakage issue, but Oh explained that OLED can solve this and actualize natural colors without distortion. Oh added that through self-emitting characteristic of OLED, the demands for large size TV picture quality can be solved, and through freedom in forms such as foldability, the design can be improved to less than 1 mm thickness. Furthermore, he added large size OLED panel’s advantages including superior light actualization in same color sector

a-Si, poly Si, and oxide substrates are mainly used for LCD, and for OLED it is oxide, and poly Si. Oh explained that as a part of responding to the panel enlargement, changing the a-Si of the existing mass production line to oxide could improve enlargement and safety.

Oh reported that as the demand for 65 inch and 55 inch TV is increasing, this will become the growth engine of the OLED market, and that P10 factory establishment in Paju is being carried out.

FineTech Japan 2016 (April 6-8) is a display technology related exhibition held in Tokyo Big Sight. The 26th annual event is participated by approximately 260 companies including Samsung Display, BOE, and Japan Display.

A Window that Turns into a Billboard…Samsung Display’s CTO “AMOLED, to Open New Era?”

April 7, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / Reporter / jjoo@olednet.com

SDC’s CTO Sungchul Kim During Keynote Speech at FineTech Japan 2016

Samsung Display’s CTO, Sungchul Kim, displayed infinite potential of AMOLED’s new market creation ability, and emphasized that panel, manufacturing equipment, materials, and communication sectors need to grow together. He also suggested new life through AMOLED and technologies required for this.

On April 6, during the Technical Conference of FineTech Japan (April 6-8), Kim gave a keynote speech on the new market creating AMOLED’s next generation application and key technology.

As the market that AMOLED will newly open, Kim suggested mobile device, TV, VR and AR (virtual reality and augmented reality), automotive, PID (public information display), etc. According to Kim, these applications will be actualized through various forms of AMOLED such as foldable, rollable, stretchable, mirror, and transparent.

Explaining the utilization of mirror and transparent AMOLED, Kim emphasized that what is normally a wall or window can be turned into a PID that shows required information when needed. Kim explained that AMOLED is suitable for VR or AR that allows the user to realistically experience a particular environment or situation by combining the imaginary and reality. He added that when foldable and rollable displays are applied to mobile device, IT device, TV, etc., large screens can be produced while the device is small, and space utilization and mobility can be increased. Regarding automotive AMOLED, Kim explained that it will provide required information without disrupting driving, as well as improving the design of the vehicle.

Additionally, Kim suggested key technology required for actualization of each application. In the case of a window display, a technology that can simultaneously produce flexibility and hardness is required, and for automotive AMOLED, the technology for blue materials of phosphorescent materials needs to be improved. For transparent display that actualizes PID, transparency of each layer, substrate heat resistance, etc. have to be achieved.

Kim explained that in future, new life which is smart and connected through AMOLED will open. He further emphasized that for this to happen panel, manufacturing equipment, materials, and communication sectors need to grow together.

FineTech Japan 2016 (April 6-8) is a display technology related exhibition held in Tokyo Big Sight. The 26^th annual event is participated by approximately 260 companies including Samsung Display, BOE, and Japan Display.

Foxconn to Actively Mass Produce phone OLED in 2018…7.2mn for TV in 2025

April 6, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang /Reporter / jjoo@olednet.com

Foxconn Headquarters, Source: Foxconn

With the forecast of gradually bolstered investment in OLED by Foxconn that recently bought Sharp for $ 3.5 billion, there is a possibility that this company could actively mass produce OLED panel for smartphone from 2018.

DigiTimes recently reported their research indicates that Foxconn will actively mass produce OLED panels for smartphone from 2018 and increase the OLED panel mass production in stages.

According to DigiTimes, Foxconn is planning to first mass produce small size OLED panel for smartphone and then begin medium size OLED for tablet, notebook, and TV. In 2021, It is expected to release 3 million units of OLED panel for tablet and notebook, and increase it to 10.4 million units in 2025. Hence, Foxconn is expected to occupy a quite significant amount of market share in future OLED panel market.

IT is estimated to begin releasing OLED panel for TV in 2021. It’s OLED shipment for TV in 2021 is expected to be 252,000 units, but it is estimated to gradually increase to record 7.2 million units per year in 2025.

◆ “IGZO Technology to be Applied to OLED”

In a recent press conference regarding the Sharp takeover, Hon Hai’s Chairman Terry Gou said that IGZO, which is LCD (liquid crystal display) technology of Japan’s Sharp, is better than OLED, Korea’s newest display technology. He further revealed that future Sharp display will utilize IGZO technology for approximately 60% of the panel and OLED for 40%.

IGZO (indium gallium zinc oxide) display is Sharp’s LCD. IGZO is known to have superior picture quality in comparison to the general LCD, with less power consumption. It is used in the majority of smartphone and tablet PC such as iPad.

As Foxconn’s Sharp is IGZO technology’s leading company, DigiTimes estimates that IT will apply the IGZO backplane technology on OLED panel.

UBI Research, an OLED specializing market research company, explained that as Sharp’s small size LCD process is LTPS based, and can be transformed to OLED line, it will be easier for Foxconn to achieve OLED mass production ability through Sharp. He added that this added Foxconn to the lineup of Samsung Display, LG Display, and Japan Display as the likely supplier for iPhone OLED panel for Apple. Furthermore, he analyzed that although Foxconn and Japan Display are both latecomers in OLED sector, Foxconn is in a more favorable position due to its solid relationship with Apple.

2015 OLED Emitting Materials Market, Dow Chem and LG Chem in Slump…Why?

April 5, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / Reporter /jjoo@olednet.com

In the midst of UDC`s domination of 2015 global materials market, with Japanese Idemitsu Kosan`s rapid growth and slump of emitting materials companied, there has been changes to the enviroment.

According to [2016 OLED Emitting Materials Annual Report] to be published by UBI Research in mid-April, the 2015 global emitting materials market recorded approximately a 17% growth compared to 2014

UDC’s revenue decreased from previous year, but remained at the top, the same as 2014. UDC was closely followed by Idemitsu Kosan despite its fourth place in 2014.

Such growth of Idemitsu Kosan is mainly due to its supply expansion in regards to Korean companies such as Samsung Display and LG Display. In 2015, Idemitsu Kosan began actively supplying Samsung Display with blue materials. Together with the increase in Idemitsu Kosan’s client LG Display’s OLED panel for TV mass production line’s operation rate, Idemitsu Kosan’s supply increased.

2015 Global OLED Emitting Materials Market Ranking
Source: UBI Research, 2016 OLED Emitting Materials Annual Report

◆ Samsung Display to Determine Up and Down of Companies

On the other hand, some OLED emitting materials companies that ranked high until 2014 showed poor performance. Dow Chem., that reached the second place in 2014 after UDC in revenue, fell to the fourth place in 2015 due to a big sales decrease. The third and fifth companies in 2014, LG Chem and Duksan Neolux respectively, fell below fifth place in 2015 due to the same reason.

Dow Chem. and Duksan Neolux are analyzed have recorded sales decrease in comparison to 2014 due to the supply chain changes of Samsung Display. In the case of LG Chem, the sales fell as the Samsung Display’s supply volume decreased.

However, Samsung SDI recorded sales increase, and entered within the top 5 in 2015. This company’s performance improved as it supplied Samsung Display with green host.

The company that recorded greatest growth is a Germany company Novaled that Samsung SDI, then Cheil Industries, took over. This company recorded approximately 150% revenue increase compared to previous year, and reached the third place in 2015 following UDC and Idemitsu Kosan. With the increase in OLED panel for TV mass production line’s operation rate, Novaled’s revenue greatly increased.

UBI Research estimated that in 2016, LG Display’s OLED TV mass production line operation rate and Galaxy Note series’ material structure, to be mass produced in the second half, will greatly affect revenue of OLED emitting materials companies.

Foxconn’s Takeover of Sharp, Who is the Biggest Casualty?

Hyunjoo Kang / Reporter / jjoo@olednet.com

Sharp_Head_Office(Source : Wikipedia)

Following Foxconn’s takeover of Sharp, which company will end up suffering the most?

On March 30, Taiwan’s Hon Hai’s Foxconn agreed to buy Sharp for about $ 3.5 billion. With this decision, there is much focus on how it will affect the global display market.

Korean companies leading the global display market such as Samsung Display and LG Display as well as key display companies in Japan, China, and Taiwan are keenly interested in this takeover.

Some experts analyze that, out of these companies, the one being most threatened by this takeover will be Japan Display.

◆ Japan Display, May Not be Able to Retain OLED Supply for iPhone

As it became known that iPhone will replace the LCD panel with OLED for future iPhone, it is expected to create a great business within the OLED market. 3 companies, Samsung Display, LG Display, and Japan Display, have been considered as the most likely supplier for iPhone’s OLED panel.

Some media have reported that Samsung Display and Apple have already signed OLED supply agreement, and LG Display and Japan Display are known to be having a heated competition to become the secondary supplier.

However, this Foxconn’s takeover of Sharp could break the big 3. Of these, experts estimate that Japan Display is most likely to be pushed out.

iPhone’s largest LCD panel supplier is LG Display, with over 50%. Following this, Samsung Display and Japan’s Sharp are the second and third LCD panel supplier for iPhone but the order has not been confirmed.

As it became known that Apple will utilize OLED, Japan Display with investment plans for OLED mass production line rose as the possible panel supplier for Apple. Rather than Sharp, Japan Display became a strong candidate for OLED supplier for iPhone along with Samsung Display and LG Display.

However, it all changed when Foxconn bought Sharp. Sharp does not have OLED line for mobile device at the moment, but its small device LCD line is LTPS based that could be transformed to OLED. Foxconn, expected to invest in OLED sector, is likely to turn Sharp’s small device LCD line into OLED line.

Furthermore, Foxconn is Apple’s key production collaborator. Worse, even Foxconn’s newly bought Sharp is one of Apple’s panel suppliers. Excluding Samsung Display and LG Display with verified OLED technology prowess, Apple could choose Foxconn with closer connections rather than Japan Display as an OLED supplier.

One display industry expert explained that Foxconn could push out Japan Display regarding iPhone OLED supplier issue, and even if that does not happen, it will have very narrow standing. He added that although compared to Samsung Display and LG Display, Foxconn and Japan Display are both latecomers in OLED sector, Foxconn is in a more favorable position due to its solid relationship with Apple.

Foxconn Takes Over Sharp…what will happen to Samsung·LG?

March 31, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / Reporter / jjoo@olednet.com

Foxconn Decided to Buy Sharp for Approx. $ 3.5 billion, Source: Foxconn

On March 30, 2016, Taiwan’s Hon Hai’s Foxconn agreed to buy Sharp for about $ 3.5 billion. With this decision, there is much focus on how it will affect Korean display and set companies including Samsung and LG.

Foxconn, primarily an electronics contractor manufacturer, became responsible for Apple’s iPhone production and continued its growth. The fact that through this takeover Foxconn now possesses display mass production ability can greatly affect Korean companies that are currently leading the display and set market.

◆ Competition with Samsung·LG for iPhone Panel Supply Intensifies

A possible scenario for future includes Foxconn becoming a strong competitor for Samsung Display and LG Display in smartphone OLED sector for Apple’s iPhone.

Although Sharp is a company that produces LCD, it is estimated that Foxconn will invest in Sharp to mass produce OLED.

Apple is expected to release OLED equipped iPhone from 2017, and it is known that Samsung Display, strong in OLED, have agreed to supply the initial volume. As Apple has been close with LG in supply and demand of display, some believe that LG Display will become the biggest supplier in future.

However, if Apple’s key collaborator Foxconn begins to produce OLED, it could become a strong rival for Samsung and LG.

Sharp Headquarters, Source: Wikipedia

◆ Suggestion of Foxconn’s Own Brand Set Production Prospect

Foxconn, despite being a contract manufacturer, became widely known with great growth. As such, the company could branch out into producing sets under their own brand name. Furthermore, with the display mass production now possible with the Sharp takeover, this scenario is gaining traction. According to market experts, Foxconn is now able to expand its smartphone and TV set business. As Chinese set companies are rapidly growing to threaten Korean companies, the prospect of Foxconn’s set business cannot be ignored.

One display expert explained that as a key collaborator of Apple, Foxconn can successfully enter the smartphone panel market. He further analyzed that with Foxconn’s expertise in set production, their own brand set release is not too much to expect, and that this will be easier with the takeover of Sharp.

Blossoming April… Hurt by LCD, Heal with OLED

March 30, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / Reporter / jjoo@olednet.com

Flexible OLED from LGD(CES 2016)

From April, the display industry is estimated to start mending the damage carried out by LCD with OLED.

In Q1 2016, Korean display industry suffered due to oversupply of Chinese LCD panels. Market experts believe that Samsung Display and LG Display will announce large Q1 deficit in April due to LCD.

However, the display market is expected to actively improve its performance from April.

Dong-won Kim, analyst with Hyundai Securities, estimated that great increase in profit is expected from Q2 2016 due to the increase in OLED operation rate and yield improvement. Also because of profitability improvement effect following LCD panel’s price rebound, the deficit will decrease.

LG Display’s performance in OLED sector is expected to noticeably improve. Over 90% of LG Display’s total mass production line is LCD at present. Hence, the fall of LCD price in Q1 is expected to have hit hard and OLED business is also showing deficit.

OLED TV from LG(CES 2016)

◆ After Harsh Q1, Warm Breeze of OLED… Spring for Equipment Industry Too

However, this will change from Q2. Analyst Hyeoncheol So of Shinhan Investment forecast that LG Display’s OLED TV sales volume and revenue in Q2 2016 will increase by 144% and 106% respectively. He added that the business deficit of OLED TV sector will greatly decrease.

LG Display is anticipating that the deficit will turn to profit in H2 2017, with the business profit of up to 1 trillion KRW in 2017, an increase of 115%.

Samsung Display, whose LCD and OLED ratio is 50:50, is expected to show 900,000 million KRW in deficit in LCD sector this first quarter. However, this is estimated to be compensated to some degree by the profit in OLED.

Samsung Display and LG Display are actively carrying out investment in OLED panel mass production line in Q1. As well as the investment in turning the existing LCD line to OLED, investment in new OLED line establishment is actively being carried out.

As such, with the optimistic outlook on OLED within the display market, flexible OLED manufacturing equipment companies such as Tera Semicon, Viatron Technologies, and Dong A Eltek had been discussed as the favorites of securities companies. In fact, Samsung Display’s flexible OLED manufacturing equipment related key collaborator AP Systems showed remarkable growth recording 12,100 million KRW in business profit last year.

UBI Research forecast that Korean companies will strengthen their dominance with their 2016 AMOLED shipment’s 95% occupancy of the global market. As OLED is becoming stronger in the TV, smartphone, and VR market, this will become a huge growth engine for global panel companies such as Samsung and LG.

LG G5 to Begin Shipping Worldwide

March 30, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / Reporter /jjoo@olednet.com

Starting this week, LG Electronics (LG) will begin reaching global markets with its highly anticipated LG G5 modular smartphone. The LG G5 will debut in South Korea on March 31 and the United States on April 1 to be followed by countries in Europe, Asia and the Middle East, among others. Approximately 200 carriers and operators worldwide have committed to offer the G5 in their local markets.

As demonstrated at its unveiling at Mobile World Congress last month in Barcelona, LG G5 is a showcase of cutting-edge technologies and rich features thoughtfully designed deliver a more playful user experience. MWC attendees seemed to agree with the philosophy behind the G5 as the device walked away with a record 33 awards including Best New Smartphone at MWC 2016 from the GSMA’s Glomo Awards, the mobile industry’s longest established awards platform for innovation, excellence and achievement.

“Since MWC, LG G5 and Friends have captured the imagination of consumers everywhere with its engaging take on mobile technology,” said Juno Cho, president and CEO of LG Electronics Mobile Communications Company. “Modularity has been talked about for years but no one was able to consumerize it until now and we’re happy to take on the mantle.”

Engagement comes in the form of dual 78- and 135-degree camera lenses for ultra wide angle shots, an Always-on Display that requires no button-pressing to get the latest information and Dolby Digital Plus and 7.1 channel audio for cinema-style sound that delivers dialogue and nuanced effects clearly even in loud environments. LG G5 also supports IFTTT (If This Then That), a smart solution that allows users to create a series of action programs called recipes to boost productivity and efficiency.

LG simplified the graphical user interface with a simple, flat look while applying a bright color combination and a semi-transparent blur effect to the GUI. In addition, animation and feedback effects are choreographed at the right moments to deliver a playful and enjoyable experience (https://youtu.be/WqJvMtkmyZI).

The following companion devices, or Friends, will be available in select markets at the time of the G5 rollout or soon after: CAM Plus, LG Hi-Fi Plus with B&O PLAY (with pouch), 360 VR, 360 CAM (with case), Rolling Bot, TONE Platinum, H3 by B&O PLAY

Prices and exact date of availability will be announced separately in each local market.

“Can’t Cope Because of LCD”… Samsung·LG, in Despair over Large Deficit

March 29, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / OLEDNET / jjoo@olednet.com

Due to the oversupply of LCD panel in global display market, the opinion that Samsung Display and LG Display will also not be able to avoid large amount of deficit is becoming stronger.

As of March 28, according to market experts including securities industry, Samsung Display and LG display will both face sizable deficit in LCD sector this quarter.

For Samsung Display, Q1 LCD sector is expected to record up to 900,000 million KRW. The company is estimated to reduce the overall display industry deficit with the OLED profit of approximately 400,000 million – 500,000 million KRW. Consequently, Samsung Display is to record approximately 400,000 million – 500,000 million KRW of deficit in Q1 2016.

LG Display, whose over 90% of the current production line is for LCD, is estimated to be hit more directly. LG Display has been showing profit in LCD until 2015, but is expected to turn to deficit in Q1 2016. LG Display has been showing deficit in OLED, and market experts are also expecting more deficit in Q1 2016.

◆ Unlike Samsung and LG’s High Quality, China Floods Cheaper LCD

The main reasons that display industry is having difficulty include oversupply of Chinese LCD, and overall market depression. Chinese companies’ affordable LCD supply, backed by active support of Chinese government, is damaging Korean companies.

Particularly, companies such as BOE, which greatly improved productivity with much assistance from Chinese government including corporate tax exemption, have been pressuring Samsung, LG, and others in the global LCD market. As the Chinese companies are still aggressively investing in LCD facilities, the LCD oversupply is analyzed to continue until 2018.

Accordingly, the majority of the industry believe that both Samsung Display and LG Display will carry out LCD production line restructuring. In a recent conference hosted by information company IHS, senior analyst Jeong Du Kang revealed that LG Display could restructure Gumi’s P2, 3, 4 production lines, and added that some thinks L6 production could stop following the same of L5 production line last year.

As expected, both companies do not officially comment on these forecast. However, most of the industry players believe that the production line changes of the 2 companies are inevitable.

One display expert explained that “unlike Samsung and LG which do not accept even small faults, Chinese companies are pouring out products with slightly lesser quality armed with lower price, and will dominate the mainstream market”.

He also estimated that as Samsung and LG are nearing the situation where they have to give up LCD, the speed of which OLED will settle as the main player within the global display market will increase.

Samsung, Even if OLED TV is Released, Different from LG

March 28, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / Reporter / jjoo@olednet.com

Within the TV market, there is an opinion that even Samsung Electronics which believes it is not yet the time for OLED panel cannot continue to insist on LCD. Experts estimate that even if it is the same OLED TV, Samsung Elec. will differentiate the actualization method from competitors’ including LG Electronics. One of the possibilities suggested is Samsung’s selection of ink-jet printed OLED TV panel.

Hyun-Suk Kim, Samsung Elec. Visual Display department’s vice president, who recently announced new LCD based SUHD TV mentioned that OLED TV is premature and also needs technological improvements.

However, it looks to be difficult for Samsung to insist on LCD TV only in the long term. China is threatening Korean companies in LCD panel market with superior price competitiveness; there is too much risk for Korean display companies such as Samsung Display to invest further in LCD production line. Although Samsung Elec. is not receiving panel supply exclusively from Samsung Display, Samsung Display is the biggest supplier. Therefore, Samsung Display’s LCD investment reduction is also expected to affect Samsung Elec.’s TV business.

Furthermore, Samsung Elec. is in the position of having to emphasize OLED’s superior picture quality over LCD in smartphone business, but highlight the opposite in TV. This is also an issue that needs to be tackled.

Despite these issues, Samsung cannot easily start on OLED TV as several problems such as price competitiveness have not been solved.

◆ Ink-jet Printing, Can it Solve OLED for TV Price Issue?

According to Dong-won Kim, analyst with Hyundai Securities, Samsung Display, with Samsung Elec. as the biggest client, has unfavorable structure for reducing production cost as 65 inch OLED TV panel production efficiency is low in Gen8 line.

Kim estimated that Samsung Display will apply solution process ink-jet printing technology to OLED TV with 2018 mass production target in order to solve this problem.

When producing OLED TV panel, WRGB OLED method, which uses evaporation method, can only reduce production cost by certain amount as the material usage efficiency is low. On the other hand, ink-jet printing RGB technology finely deposits ink in liquid form and can reduce materials cost. Additionally, RGB OLED has fewer organic layers compared to WRGB OLED and processes can be decreased.

For these reasons, some believe that Samsung will select ink-jet printing method rather than evaporation for OLED TV in future. There is also a view that LG Display, which is currently using evaporation method, will also actively consider producing ink-jet printed OLED TV panel in the long term.

A display expert explained that although ink-jet printing processes are simpler than evaporation method, that does not necessarily mean materials cost is always cheaper. The ink-jet printing technology is not yet perfect, and particularly for blue the efficiency issue has not yet been solved.

He added that Samsung Elec. has strong tendency to differentiate itself from competitors such as LG, and even if Samsung Elec. releases OLED TV, it is likely that ink-jet printing, which is different from LG, will be the preferred method.

Why is ‘Cadmium-free’ Significant? Samsung’s Quantum Dot SUHD TV

March 24, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang / jjoo@olednet.com

On the subject of Samsung Electronics’ 2^nd generation quantum dot display equipped SUHD TV product, recently released in Korea, display experts consider the actualization of 1,000 nit without cadmium as the key strength.

In 2015, Samsung Elec. first launched quantum dot SUHD TV under the name nanocrystal technology. Each quantum dot of nanosize, 10,000 times narrower than a human hair, actualizes accurate color.

According to Samsung Elec., the 2^nd generation quantum dot technology to produce this new product, an improvement over last year’s. The company emphasized that compared to the previous product, the price was reduced and brightness was improved. HDR (high dynamic range) with 1,000 nit maximum was applied to the new product.

The 1,000 nit brightness is the standard figure of premium image produced in Hollywood, US. If this figure is high, screen’s bright and dark areas can be experienced fully even in bright environment such as a living room area.

Although not applied to all models of Samsung’s 1^st generation quantum dot SUHD TV, 1,000 nit brightness was applied to the majority of the models; that 1,000 nit brightness was applied to the new product is not worth much attention by itself.

◆Hazardous Heavy Metal Cadmium, Why Difficult to Remove?

Quantum dot film includes cadmium. As cadmium is a hazardous heavy metal, cadmium including quantum dot film cannot be environmentally friendly. Cadmium use in Europe is limited.

However, without cadmium, the quantum dot film’s optical efficiency is reduced. In order to make up for this, LED chips have to be applied which increases the price as well as the energy consumption. An alternative method to avoid this is development of additional quantum dot materials that increase efficiency.

For these reasons, some Chinese companies that produce quantum dot display equipped products select to use cadmium, overlooking the environmental issues. Samsung Elec. also emphasized that it is the only company that utilizes environmentally friendly cadmium-free quantum dot materials.

Through quantum dot materials’ efficiency and color mapping algorithm improvement, Samsung actualized 1,000 nit brightness without resorting to cadmium and without increase in power consumption. Color accuracy, which is a quantum dot display trait, was also improved by 25%.

Samsung Elec. is planning to release 14 models of SUHD TV, from 49 inch to 88 inch, in Korea. This is over 30% increase compared to last year. The price also was reduced by 900,000 KRW compared to the previous version. The new products, depending on the specifications, cost around 6 million KRW for 65 inch, and 4 million KRW for 55 inch.

A comment from a display expert is, “the new product has 1,000 nit brightness is not significant by itself, and color accuracy improvement also is not of much attention as it is an existing quantum dot trait”. However, he also put another comment from his analysis, “1,000 nit brightness was actualized without using cadmium and without decreasing energy efficiency is worth noting”.

LG Electronics Launches 58:9 Signage…Transforms Columns and Corners to Billboards

March 24, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang, Reporter, OLEDNET

On March 23, LG Electronics launched world’s first 86 inch 58:9 commercial display Ultra Stretch.

Ultra Stretch signage allows places which have been difficult to install signage, such as columns and corners, to be used as billboards.

LG Elec.’s Ultra Stretch has the widest screen ratio of the signage released. The display is 2,158 mm wide and 349 mm long, and can be installed horizontally or vertically.

Ultra Stretch can be used on media pole, which is integrated into columns within buildings such as airports or hotels, and billboards above building entrances. Total of 16 units of Ultra Stretch, maximum 4 units lined horizontally and vertically, can be tiled. When installed on a separate stand, Ultra Stretch can be moved to where needed.

This product uses LG IPS panel, and with ultra HD resolution (3840 x 600), small writing as well as customary images are clearly shown. The IPS panel has wide viewing angle of 178°, and clean images can be viewed from any directions.

With consideration for commercial use of signage, it was designed to for easy editing of contents as well as other amenities. The display can be divided into 4 screens maximum and provide diverse information simultaneously.

For example, if installed in an airport, the display can be divided into 4 sections and each can show information such as weather, traffic information, news, advertisement, and others. This will allow foreign visitors to easily receive information.

SuperSign W media editor is equipped for easy transformation of existing contents to 58:9 ratio. Ultra Stretch also includes around 30 sample styles specific to the product.

LG Elec.’s Korean B2B Marketing representative explained that Ultra Stretch is a signage never been experienced and will lead the new commercial display market.

[Light + Building 2016] OLEDWorks Presents Diverse Lineup to Open OLED Lighting Market

March 23, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang, Reporter, OLEDNET

<OLEDWorks’ Keuka Module, Light + Building 2016>

OLEDWorks, an OLED panel lighting production company, is carefully opening the future lighting market with diverse future product lineup.

At the Light + Building 2016 (March 13-18), OLEDNET could observe OLEDWorks’ 6 types of Brite FL300 series, Brite Amber, Keuka module and others. The products showed 10,000-50,000 hours of lifetime, average efficiency of approx. 50 lm/W, CRI of 80-90, and with diverse color temperatures.

The OLEDWorks representative at the exhibition told OLEDNET that the company is aiming for general lighting market and the OLED lighting market will be actively open after 2-3 years earliest. OLED lighting has advantages of thickness and design freedom, and they estimated finding the killer application that can utilize these OLED merits is the key for the OLED lighting’s success.

[Light + Building 2016] OSRAM to Release Automotive OLED Lighting within 2-3 Months

March 23, 2016/0 Comments/in /by OLEDNET

Hyunjoo Kang, Reporter, OLEDNET

<OSRAM’s O-ring, OLED Product Applied Automotive Rear Lamp>

During the Lighting + Building 2016 exhibition (March 13-18) held in Frankfurt, Germany, OSRAM revealed that OLED rear lamp equipped cars will be on the road within 2-3 months.

OSRAM exhibited O-ring, OLED product applied to automotive rear lamp at this exhibition, and OLEDNET could see the fruit of OSRAM’s steady automotive lighting product development.

<General OLED Lighting Concept Suggested by OSRAM>

The OSRAM representative at the exhibition explained that OSRAM will continue their focus on automotive lighting and develop products but at the right moment, will enter the general lighting market. The representative added that although only the basic concept of the general lighting is present for now, further development will be carried out in future.

[Light + Building 2016] “OLED is Organic Food of Lighting”… LGD Presents Diverse Lighting

March 21, 2016/0 Comments/in /by OLEDNET

Hyunjoo-Kang, Reporter, OLEDNET

<LGD’s Flexible OLED Lighting>

OLEDNET visited Light + Building 2016 (March 13-18) held in Frankfurt where LG Display unveiled product line up that can be used to diverse applications such as flexible solution, luminaires, mirror solution, module solution, OLED panel products, and transparent connection solution.

During this exhibition, LGD demonstrated their well-deserved reputation as the world leading OLED lighting panel producer.

LGD presented diverse applications for OLED lighting that many people wanted to know. Although they were not directly displayed in the exhibition, the company showed photographs of OLED applied Korean traditional house hanok, as well as more commonly imagined uses such as cosmetic shop, office, show room, café, and restaurant.

<LGD’s Flexible OLED Lighting>

Speaking to the foreign press who attended the exhibition, Joon Park, LGD’s Head of OLED Lighting Sales & Marketing Division, explained that if world’s first Gen5 OLED lighting (1,000 mm x 1,200 mm) investment is carried out and mass production is carried out in H1 2017, additional cost reduction is possible in comparison to before the investment. Park added that the current OLED lighting places more importance to the user experience rather than profit. As organic food is receiving positive response within the market as premium products, OLED lighting will play the role of organic food within the lighting market.

LGD to Build 5G OLED Light Panel Plant…15,000 sheet monthly

March 17, 2016/0 Comments/in /by OLEDNET

Hyun Joo Kang, Reporter, OLEDNET

LGD is Showcasing it`s OLED Light products at Light+Building 2016(Source :LG Display)

LG Display announced today that it will invest in a new OLED light panel manufacturing facility.

The planned facility will be the first 5th generation (1000 x 1200mm) OLED light panel manufacturing plant in the world. It is to be located in the South Korean city of Gumi, where it will produce a range of OLED light panels. The initial input capacity at the plant will be 15,000 glass substrates per month.

The monthly input capacity could be gradually ramped up depending on the market situation. LG Display expects the increased production with the new facility to give the company economies-of-scale.

This will help the company obtain significant price competitiveness. In addition, the accumulated OLED display technical know-how will allow LG Display to considerably enhance OLED light product quality.

The 5th generation facility will give the company panel size flexibility. With the larger glass substrate, LG Display will be able to produce a wide range of different size light panels, including giant ones. Further, this ability to make giant panels will better enable the company to penetrate the general lighting market.

The investment decision follows the acquisition by LG Display of the OLED light business of its sister company, LG Chem in December, 2015. The plan for the new facility is in keeping with LG Display’s vision of bringing the exciting new OLED technology to customers around the world in the broadest array of applications.

The company will firstly focus on task lighting and decorative lighting in high-end retail stores and in luxury hospitality; and expand to the general lighting market going forward.

Also, the company will focus on automotive and convergence applications such as OLED light panels merged with furniture, architectural materials, electronic devices and more.

Mr. Young Kwon Song, Senior Vice President and Head of Strategy & Marketing Group at LG Display, said, “Our OLED light business will further strengthen LG Display’s commitment to nurture OLED as the future growth engine. Based on LG Display’s strong track-record and know-how in OLED display business, we will create synergy with the OLED light business and maintain our strong position in the overall OLED industry going forward.”

LG’s OLED light experience began in 2000 with R&D into OLED materials at the Group’s chemicals affiliate, LG Chem, with production of OLED light panels beginning in 2012.

The acquisition last year of the OLED light panel manufacturing business by LG Display has been creating synergies with its production infrastructure and technology in OLED displays.

It allows the company to save costs through integrated purchasing and shared investments, increase productivity by drawing on the accumulated knowledge of the display business, and help improve production infrastructure and use of technology patents.

OLED light is made up of layers of organic materials which is self-illuminating and consumes less power and also emits lower heat than conventional lighting.

It is environmentally friendly and is closest to natural light. Due to its ability to be thin and flexible, it is suitable for different applications and venues and could create new markets for lighting.

According to UBI Research, a market research firm, the OLED light market is expected to grow rapidly from US$ 135 million in 2016 to US$ 1.6 billion in 2020.

2016, Korea Seizes AMOLED Market…95% of Global Market

March 16, 2016/0 Comments/in /by OLEDNET

2016-2020 Global AMOLED Panel Market Shipment [1 Million] (source : UBI Research)

This year, Korea is expected to secure overwhelming leadership position within the global AMOLED panel market with 95% market share.

According to 2016 OLED Display Annual Report, recently published by UBI Research, approximately 270 million units of AMOLED panel are to be produced from Korea in 2016, approximately 95% of the global shipment.

For AMOLED panel market revenue, Korea is estimated to occupy 96% of the total market in 2016 with US$ 14,218 million. Korea is expected to maintain approximately over 70% of the market share until 2020, and lead the global market for several more years.

This is analyzed to be due to active response by Korean display companies against AMOLED application expansion by influential global smartphone companies.

Samsung Electronics is forecast to sell over 47 million units of AMOLED panel equipped Galaxy series in 2016. The projection that Apple will also apply AMOLED panel to future iPhone series for product differentiation is gaining traction.

Several companies, including LG Display and Samsung Display, are carrying out active investment for AMOLED panel mass production line from H1 2016.

Other than Korea, China is showing rapid movement within the global AMOLED market. China is estimated to produce approximately 11 million units of AMOLED panel in 2016, and occupy approximately 4% of the global shipment, marking the second place after Korea’s 95%. China is estimated to increase the market share each year and reduce the gap with Korea; in 2020, China is expected to hold 24% of global AMOLED panel shipment in 2020.

China’s AMOLED panel market revenue is also forecast to show significant growth with approximately US$ 500 million in 2016 to US$ 13,700 million in 2020, a 20% of the total market.

2016 OLED Display Annual Report forecasts that the global AMOLED market is to record approximately US$ 15,000 million in 2016, and grow to approximately US$ 70,000 million in 2020.

[Light+Building 2016]LG Display to Showcase Cutting-edge OLED Light Products and Solutions

March 15, 2016/0 Comments/in /by OLEDNET

Hyun Joo Kang, Editor, OLEDNET

LG Display announced today that it is showcasing its latest advanced OLED light products and solutions at Light+Building 2016, one of the leading global trade fairs for lighting and building services technology, in Frankfurt, Germany, from March 13th to 18th.

Eleven OLED light panels are being exhibited along with four solutions using the panels. LG Display is highlighting the key advantages of OLED light, including the design flexibility that makes it suitable for different applications and venues, as well as its supreme light quality which is closest to natural light, thereby making people feel comfortable and reducing eye fatigue.

The company is exhibiting four solutions using OLED light panels:

Flexible Solution Section

The flexible OLEDs can be used to create unique and creative decorative lighting fixtures. The creativity in design increases along with the length of the panels. The flexible OLED light panels are light-weight and unshatterable. There are applications using 200x50mm flexible panels and 406x50mm flexible panels. The main highlight in this section is an application using many 320x320mm flexible panels.

Transparent Connection Solution Section

The LG Display OLED light panel generates a floating light effect by attaching the panel to glass and providing power through metal mesh transparent conductive film. It can be applied to display cabinets, shelves, and furniture. Especially when it is applied to shelves at stores, the lack of heat preserves product quality while the lack of shadow makes them more visually appealing to customers. The simplicity of OLEDs opens up the possibilities of various designs and applications.

Mirror Solution Section

By embedding the OLEDs into mirrors, LG Display has created a solution that can have a variety of uses. It can be used as a mirror in upscale hospitality settings or as a unique display box in high-end retail stores. When other light sources are used in a mirror solution, they tend to make the mirror too thick whereas OLED keeps the mirror thin and also minimizes glare.

Module Solution Section

OLED light panels allow for easy installation in diverse settings. LG Display is introducing super-slim OLED light modules at the fair with a simple aluminum housing that connects multiple panels into each module, generating unique and sleek designs. The company is showcasing the module solutions in order to demonstrate how well OLED light can be applied to interior design and architecture. It is committed to develop other solutions in order to encourage more and more people to easily use OLED lights.

[Light+Building 2016] Sumitomo Chemical to Exhibit Polymer OLED Lighting

March 14, 2016/0 Comments/in /by OLEDNET

Sumitomo Chemical will exhibit its polymer OLED lighting at “Light+Building 2016,” one of the world’s largest trade fairs for lighting and building technology, to be held in Frankfurt, Germany, from March 13 to March 18, 2016.

This is the third time for Sumitomo Chemical to exhibit its products at the trade fair, following its previous participation in 2014. Sumitomo Chemical will run a booth at the trade fair, inviting the world-renowned Japanese lighting designer Motoko Ishii as the art director for the exhibit.

Sumitomo Chemical’s exhibit, named “OLED JARDIN,” symbolises a “Garden in the Sky” as formed from polymer OLED lighting panels, creating an approachable space of a vast expanse with a taste of Japanese grace added.

In addition to “OLED JARDIN,” Sumitomo Chemical will exhibit its newly-designed OLED panels, improved for brightness and luminance efficiency from those displayed in the previous trade fair. The new polymer OLED panels, available in a range of colors, shapes and sizes, provide a greater degree of flexibility in the design for various spaces and applications.

Following the exhibit at “Light+Building 2016,” Sumitomo Chemical will start the sales of its new product line-up consisting of polymer OLED lighting panels in April this year, aiming to further expand its OLED lighting business.

CYNORA focuses on blue TADF-materials

March 9, 2016/0 Comments/in /by OLEDNET

During the 2nd OLED Korea Conference, the Germany-based CYNORA has presented its current status in blue TADF-based OLED-emitter development.

CYNORA focuses on materials that are able to convert triplet excitons into light via Thermally Activated Delayed Fluorescence (TADF). While efficient emitters for red and green are already commercially available from other suppliers, there is still no blue OLED material available to match the strong demand for the industry. TADF technology is a promising candidate for highly efficient and stable blue emitter systems. TADF-based emitters offer up to four times better efficiency than currently used materials, which are based on fluorescence.

CYNORA has shown its current TADF-materials for sampling with good color points in blue (CIE 0.16, 0.17) and sky-blue (CIE 0.19, 0.36). The presented materials confirm that blue emission and high efficiency can be combined. CYNORA is focusing its current material development on vacuum-processing following the customer request, as represented in large investments into this deposition technology by the major AMOLED displays makers.

In order to provide more sample materials to customers, while reducing the cycle times for material improvements, CYNORA is growing its infrastructure. The company is extending the device testing capacity by setting up a new cluster tool and hiring continuous experts for the synthesis and device department. Due these actions CYNORA’s emitter throughput will increase significantly.

The strong interest from the OLED industry in TADF-based blue emitters systems has been once more confirmed at this UBI event and allowed CYNORA to further extend its network with the Korean OLED community. The present expansion of CYNORA management operations, consistently sampling and improvement of blue OLED materials are further strengthening the position of CYNORA as a technology leader in the field of TADF emitter systems.

[The 2nd OLED KOREA Conference] AIXTRON Pioneers New Sector of the Evaporation Technology

March 7, 2016/0 Comments/in /by OLEDNET

At the 2^nd OLED KOREA Conference (Feb 24 – 25), Juergen Kreis, Director of Business Development of AIXTRON, gave a presentation titled ‘Cost-efficient OLED’ and discussed AIXTRON’s evaporation process technology.

AIXTRON, an evaporation manufacturing equipment production company, bought Plasma Si situated in Silicon Valley in April 2015 to develop encapsulation technology. During the presentation, Kreis focused on organic layer evaporation technology OVPD, OPTACAP, and PVPD, a polymer thin film evaporation technology.

OVPD technology deposits the materials above the substrate using the shower head corresponding to the substrate area. Kreis revealed that OVPD technology allows for the optimized evaporation and can increase the material usage efficiency and productivity.

Regarding OPTACAP, Kreis emphasized that this is an encapsulation technology that forms multilayer thin film of high flexibility with low stress and cost. AIXTRON had previously announced that they are expecting to supply to a key Asian panel company in Q1 2016.

Kreis reported that PVPD is a technology that allows for the advantages of polymer materials and CVD process. He also added AIXTRON is currently continuing to research similar process technology with low process cost and high efficiency.

[2nd OLED KOREA Conference] Visionox Reveals Core Keyword for Flexible OLED Surge

March 4, 2016/0 Comments/in /by OLEDNET

On February 24, Dr. Xiuqi Huang, Visionox’s general manager, gave a keynote speech at the 2^nd OLED KOREA Conference (Feb 24-25). With the presentation title of Development of AMOLED Display: From Rigid to Flexible, Dr. Huang discussed how the flexible display was introduced and its future.

Flexible display is expected to solve CRT’s heavy weight, and FPD’s design limitation. Key issues include thin film formation process, structure that can withstand bending, and materials with high tensile strength. Dr. Huang emphasized that OLED is a display that can solve all 3 issues.

In order for flexible OLED to make the leap, Dr. Huang announced that 7 technological developments need to be carried out: encapsulation, TFT backplane, array design, flexible technology, flexible substrate, stress management, and module integration.

Visionox first developed flexible OLED in 2001, and revealed 5.2 inch flexible AMOLED of rollable type with 3 mm curvature radius and 20 um thickness in July 2015. They are aiming for mass production within 2 years.

Regarding OLED mass production, Dr. Huang revealed that the Gen 5.5 AMOLED mass production line phase1 4K will be increased to 15K until 2016, and Gen 6 AMOLED mass production line is expected to be in operation in 30K volume in 2017.

[2nd OLED KOREA Conference] LG Display, OLED is the Next Generation Display that Satisfies Both Performance and Design

March 2, 2016/0 Comments/in /by OLEDNET

In the 2^nd OLED KOREA Conference (Feb 24-25), Won-Gyun Youn, LG Display’s head of OLED TV Product Planning Team, gave a keynote speech. Through the presentation, he emphasized the importance of display’s design and performance and discussed why OLED will become important in next generation display.

Youn told the attendees that in the last few years, display performance issues, such as 3D, UHD, and HDR, and design issues, such as curved and super slim, arose together. Emphasizing these issues, Youn revealed that OLED is the display that can solve both. He added that in terms of performance, OLED can actualize perfect black and colors, cleanly express movement, and has wide viewing angle. In terms of design, OLED is thin and flexible, and can produce diverse shapes and be transparent.

LG Electronics and LG Display recently installed ultra large OLED signage OLED Moment in 2 places inside Incheon International Airport. They also presented OLED sculptures in various shapes such as tunnel, waves, cylinder, and others using 250 units of 55 inch OLED panels at N Seoul Tower. The 2 companies are carrying out aggressive marketing promoting OLED. Regarding OLED’s future, in short term, form factor changes are expected to occur following design change, and in mid-to-long term, the paradigm will shift with the introduction of rollable and transparent display.

Youn revealed that at present OLED has to resolve the expansion of the market and infrastructure, and improvement of productivity and technology. In order to solve this, research in improving the TFT mobility by more than 50%, and increasing the efficiency and lifetime is being carried out. He also added that they are researching ink-jet process, manufacturing equipment, and materials to develop soluble process.

[2nd OLED KOREA Conference] Samsung Display, Future Display’s Virtue is Design Freedom

March 2, 2016/0 Comments/in /by OLEDNET

Insun Hwang, Samsung Display’s principal engineer of the Frontier Technology Team, announced that as the display market is expanding, the key factor for positive outlook for future display is ‘design freedom’.

At the 2^nd OLED KOREA Conference (Feb 24-25) hosted by UBI Research, Hwang gave a keynote presentation.

During the presentation, Hwang announced that the mobile overtook TV as the medium that people use to access daily media. According to the presentation materials, the mobile usage is increasing each year, while the TV usage is decreasing. Also as the mobile usage of people under 50 is higher than that of TV, Hwang forecast that the number of people using mobile to access information will increase. He added that if the display panel price falls down, the number of the display panels will become higher than the number of users and forecast positive future for the display market.

Hwang particularly mentioned that AMOLED applied products will increase as it emits less harmful blue light and is human friendly, giving smartwatch and VR as the current examples. He estimated that the smartwatch market can expand through differentiated strategy with new functions and designs. Additionally, as an issue that needs to be solved, he mentioned that the resolution of VR falls as the distance between the user and display is short. High resolution is the key in VR, and Hwang explained that approximately 2,000 ppi is required for suitable realism. He also forecast that the automotive display will lead the display field and the future market. He further explained that as OLED can actualize the curvature and transparency, it is appropriate for automotive display.

However, Hwang also mentioned OLED’s lack in technology. Pointing out that technology for plastic window, flexible touch, encapsulation, and backplane falls short of what the market requires for flexible display and design freedom, Hwang described the need for OLED technology development.

Hwang estimated many flexible display equipped smart products in future, and concluded that display’s design freedom will be the most important issue.

[2nd OLED KOREA Conference] Looking at the Future Through Display Trend

March 2, 2016/0 Comments/in /by OLEDNET

Choong Hoon Yi, the president of UBI Research, discussed the trend change of CES 2016 and the effects on future OLED display and market forecast.

During the 2^nd OLED KOREA Conference (Feb 24 – 25), Yi gave a key note presentation titled ‘Dynamic Change in OLED Industry’.

Discussing CES 2016, Yi first gave VR and drones as display related hot issues. However, he defined the 2 products as items that bring enjoyment to the users rather than products that are necessary in everyday life. Yi estimated that the market is expected to grow but with some limitation.

The second issue Yi gave was automotive display which he forecast significant growth as dashboard attachment from the exhibitions by automotive and related companies that became more prominent since the last CES. Volkswagen particularly drew attention with IoT function attached dashboard display that can control electronic appliances at home. Additionally, Hyundai Mobis and Denso embedded display for side mirror use on the dashboard.

Yi reported that in CES, for TV section which is the most important home appliances, LG Electronics’ OLED TV decidedly stood out. At CES 2016, LG Electronics impressed the viewers by actualizing the blackness of the space and fiery sun filmed by NASA. Samsung Electronics exhibited existing SUHD TV with quantum dot display. Japanese companies such as Panasonic and Sony presented LCD panel applied TV.

Additionally, Yi told the attendees that Samsung’s transparent OLED using Galaxy Gear promotion and LG’s dual-view curved tiling OLED promotion of various home appliances were impressive. He added that these exhibitions were only possible by companies currently producing OLED. Forecasting that OLED market will exceed 1,000 million units of shipment in 2020 and mentioning investment forecast following this, Yi concluded his presentation.

[MWC 2016] Surge of AMOLED in China

February 26, 2016/0 Comments/in /by OLEDNET

A surge of AMOLED panels by Chinese set companies is starting. Chinese set companies exhibited many AMOLED panel applied products in MWC 2016 (Feb 22 – 25), forecasting that the demand for AMOLED panel could greatly increase.

6 companies, including Huawei, ZTE, LENOVO, and Gionee, exhibited AMOLED panel applied smartphones. Particularly, Hisense and KONKA, well known as TV set companies, presented AMOLED panel smartphones and the Chinese set companies’ increased interest in AMOLED panel could be confirmed.

The majority of the AMOLED panel smartphones exhibited by Chinese set companies had 5 inch level panel with HD and FHD level resolution, and analyzed to have been supplied by Samsung Display.

Samsung Display is known to have significant amount of mainstream AMOLED panels to Chinese set companies in 2015. Following this trend, over 100 million units of AMOLED panels are expected to head toward China in 2016.

The key points are Samsung Display’s rigid AMOLED panel production capa. and whether the Chinese AMOLED panel companies can carry out mass production. The current Samsung Display’s rigid AMOLED panel mass production capa. is estimated to be insufficient to meet the demands for Samsung Electronics’ mainstream Galaxy model and Chinese set companies. Chinese panel companies have also announced active mass production from the first half of this year.

From the significant occupation of Chinese set companies that applied AMOLED panel within the Chinese smartphone market, panel companies’ supply ability of AMOLED panel for Chinese set companies is expected to be one of the issues in 2016.

Huawei’s Nexus 6P

LENOVO’s Moto X Force

[MWC 2016] Tianma Reveals Their First Flexible AMOLED Panel

February 26, 2016/0 Comments/in /by OLEDNET

In MWC 2016 (Feb 27 – Mar 2), Tianma, a Chinese AMOLED panel company, revealed 5.46 inch flexible AMOLED panel for the first time. This panel has HD resolution (720 x 1280) with the curvature radius of 20 mm. Additionally, Tinama also exhibited 5.5 inch and 5 inch FHD AMOLED panel, and 5 inch HD AMOLED panel.

Tianma added that the 5 inch HD AMOLED panel is expected to be actively mass produced in the first half of this year and it is being produced in smaller quantity and that additional investment will soon be carried out for Gen5.5.

Tianma is currently carrying out small volume of mass production using Ulvac Gen4.5 manufacturing equipment. Although Tianma continued presenting their products in display related exhibitions, it is their first time in a set exhibition such as MWC. This activity is analyzed to be a part of Tianma’s effort to further their client base before active AMOLED panel mass production.

Tianma’s5.46 inch Flexible AMOLED Panel

Samsung Electronics Unveils Galaxy S7 and S7 Edge

February 23, 2016/0 Comments/in /by OLEDNET

On February 21 (local time), Samsung Electronics held Samsung Galaxy Unpack 2016 event at the Barcelona International Convention Center (CCIB), Spain, and unveiled smartphone Galaxy S7, Galaxy S7 Edge, and Gear 360, a camera that can film in 360°.

Koh Dongjin, Samsung Electronics Mobile Communications Business president, announced that at this important time of change in the mobile industry, Samsung Electronics will provide not only smartphone but also the comprehensive experience and value for the consumers through diverse products, contents, and service surrounding the smartphone. He added that the company will pay even more attention to the consumers in future and lead the mobile market through ceaseless challenges in new technology and areas.

4 items were much emphasized in Galaxy S7 and S7 Edge. Firstly, for the camera, the latest technology used in the top DSLR, dual pixel image sensor was applied to smartphone for the first time in the world. Particularly, the demonstration of Galaxy S7 and S7 Edge camera’s superiority through the comparison with iPhone 6S is analyzed to be a move to come ahead in the future competition with iPhone.

The second is the battery capacity. Despite that the embedded battery of S6 and S6 Edge was considered a great drawback, the same was applied to the most recent S7 and S7 Edge. However, the battery capacity increased by 38%, in the case of S7 Edge, with 3,600 mAh, and improved on the disadvantage of embedded battery.

The third is the low energy consumption environment. AOD (always-on display) was applied, and also to meet the trend of heavy gaming use, the next generation graphic Vulkan API (application programming interface) is supported that can be also used on consoles, minimizing the energy consumption.

Fourthly, the new smartphone has the waterproof and dustproof function. The highest standard in waterproof/dustproof IP68 grade was applied to Galaxy S7 and S7 Edge, and provides highest protection. With this function applied to the entire smartphone including components such as USB terminal and earphone jack, waterproofing is possible without a USB cover.

Additionally, Samsung Electronics expanded the Galaxy ecosystem and revealed Gear 360, a camera that can take pictures and videos in 360° at the Samsung Galaxy Unpack 2016.

Gear 360 has two 195° fish-eye lenses that can take 180° wide angle pictures and videos. These can be put together and generate contents that can be viewed in 360° horizontally and vertically. This can be viewed in virtual reality through Gear VR.

Gear 360 can be connected to Galaxy S7, S7 Edge, S6, S6 Edge+, Note5, S6 Edge, and S6, and can film through smartphone application, preview and upload the contents to social network and Google Street View.

Galaxy S7 and S7 Edge will be available in 4 colors (white pearl, silver titanium, gold platinum, and black onyx) with luxurious and glass quality. Gear 360 is expected to be released in white in the first half of 2016.

2016 AMOLED Market, Estimated to Record US$ 15,000 Million, an Increase of Approx. 40% from 2015

February 19, 2016/0 Comments/in /by OLEDNET

According to 2016 OLED Display Annual Report, published by UBI Research, 2016 AMOLED panel market is estimated to show US$ 15,000 million, which is a growth of approximately 40% from 2015. The report also expects the shipment to record 16% increase compared to 2015 with 270 million units, and 2016 to be the year for the AMOLED industry could take off again.

UBI Research revealed that “Samsung Electronics is actively selecting AMOLED panel for mainstream models of Galaxy and the demand for AMOLED panel by Chinse set companies is also increasing. Additionally, Apple’s application of flexible AMOLED panel for iPhone is becoming more concrete, and OLED TV sales is gradually increasing. As such LCD will be slowly replaced”. Particularly, regarding AMOLED for mobile device market, UBI Research explained that “the flexible AMOLED panel equipped set market analysis shows approximately 500K (Gen 6) per month will be required until 2020, and it is anticipated that active flexible AMOLED investment will be continually carried out”.

The AMOLED market growth staggered momentarily in 2015, but due to the increase of demand for mainstream AMOLED panel and flexible AMOLED panel, it grew with a large margin in 2015. Accordingly, investment for flexible AMOLED panel application for Apple’s iPhone, which is leading the total smartphone market with Samsung Electronics, is in consideration. The panel companies in China, Japan, and Taiwan are also anticipated to invest in flexible AMOLED panel, and bring energy into stagnated OLED related display industry.

According to the 2016 OLED Display Annual Report, the AMOLED panel market exceeded US$ 10,000 million with approximately 230 million units in 2015, an increase of approximately 25% from the previous year. It is expected to record US$ 67,000 million until 2020 with CAGR of approximately 46%.

AMOLED Panel Market Forecast (2016-2020)

JDI Announces OLED Mass Production in 2018

February 11, 2016/0 Comments/in /by OLEDNET

Japan Display (JDI) officially announced OLED mass production. The press, including the Sankei Shimbun and the Nikkei, reported that on January 22 JDI revealed their plans to begin mass production of OLED panel to be used in smartphone from 2018.

JDI continued development with the aim of LTPS TFT and WRGB OLED technology applied high resolution AMOLED panel mass production for mobile device, and revealed the results through exhibitions in recent years.

In Display Innovation 2014 (FPD International) and SID 2015, JDI have presented 5.2 inch FHD flexible AMOLED panel. Particularly, in SID 2015, JDI showed a notepad equipped with flexible OLED panel.

JDI is likely to mass produce flexible AMOLED following the current mobile device market trend. Although the mass production technology was not mentioned, due to the client demands, it is estimated that either the RGB method, which is being used by LG Display and Samsung Display, or WRGB method, which is being developed by JDI, will be selected.

At present, only Samsung Display and LG Display can mass produce flexible AMOLED panel, but Chinese companies are fast in pursuit. There is much interest in how this JDI’s mass production announcement will affect the future OLED market.

D-21 to the 2nd OLED KOREA Conference

February 3, 2016/0 Comments/in Equipment /by OLEDNET

The 2^nd OLED KOREA Conference, which is receiving much attention as the world’s largest OLED international business conference, is only 21 days away. At this conference, the OLED industry leading panel companies, Samsung Display and LG Display are scheduled to give keynote sessions. Through this, future OLED industry direction forecast is anticipated. UBI Research is to discuss the rapidly changing the OLED industry’s current status and future, and China’s Visionox is expected to examine the flexible AMOLED’s potential and future market.

Furthermore, sessions with diverse topics are prepared. These include next generation backplane technology, AMOLED mass production technology, issues facing OLED industry, QLED which is receiving interest as the display after OLED, various applications for OELD, etc. Therefore, this event is expected to be useful for materials and manufacturing companies, as well as display panel companies, university, research lab, and display industry related professionals, providing assistance in responding to the next generation display industry and a place of sharing information and thoughts.

Particularly, away from formal discussions, the OLED Reception will prove to be a valuable time through conversations on future of OLED in a comfortable setting.

The 2^nd OLED KOREA Conference will be held for 2 days on February 24-25 at The-K Hotel Seoul in South Korea. 9 sessions in total will be held with 30 speakers, including Samsung Display and LG Display, and approximately over 200 display related industry/academy players will be in attendance.

Advance registration is open until February 23 with approximately 10% discount. As the places are limited, early registration is recommended. Conference registration can be accessed through the 2^nd OLED KOREA Conference homepage (www.oledkoreaconference.com). Enquiries can be made to Hana Oh (hanaoh@ubiresearch.co.kr).

OLED Frontier Forum’s 3rd Section Panel Discussion Summary

February 2, 2016/0 Comments/in /by OLEDNET

The 3^rd section of the 1^st OLED Frontier Forum (Jan 28), OLED’s Future, held a panel discussion with government, industry, and academia experts discussing OLED industry development strategy, such as next generation technology development, convergent areas, and personnel training, and future forecast. OLEDNET summarized the answers that each expert gave to the questions of the panel chair (Professor Changhee Lee, Seoul National University).

Jun-hyung Souk (Professor, Sungkyunkwan University)

For SDC mobile, as the OLED depreciation is ending the OLED production cost is becoming almost the same as LCD. If OLED related experts stay within Korean industry as well as the technology, Korea can continue to lead for 4-5 years. In order to achieve the continued leadership, differentiation through flexible R2R has to be carried out, as well as the materials and encapsulation technology development.

Sung-Chul Kim (CTO, SDC)

As a-Si is an existing technology, there is no room for further advancement. Sharp’s difficulty in panel business is due to lack of technology research on the panel. Because one technology can only be used for approximately 7 months, diverse technology development is required.

In-byeong Kang (CTO, LGD)

Fast organizations cannot but win. Therefore, rapid change to OLED from LCD is needed. As difficult is the technology, cooperation between academia and industry is needed. Now is the time when this cooperation for next generation technology development is more in demand. LGD is putting in much effort for OLED profitability.

Sung-Jin Kim (Vice President, Toray Advanced Materials Korea)

Cooperation between materials and manufacturing equipment companies is important in solution process materials development. Particularly, how to control dry process is an important issue. Also, Kim expects the current solution process materials development to show tangible results in 3-5 years.

Junyeob Lee (Professor, Sungkyunkwan University)

Solution process is favorable for materials optimization. From the initial concentration on polymer materials, recently small molecule materials focused soluble materials development is being carried out, and how to implement common layer is an issue. Emitting layer is using the small molecule materials that are being used as evaporation materials. The difference is the higher cost as the solvent is used. Also, as there is an issue (formulation problem) when used in large area, solution is required.

Kyoung-Soo Kim (Vice President, Korea Display Industry Association)

Expert acquirement is a key issue. Through upgraded cooperation between industry and academia, and industries, cooperation between panel, manufacturing equipment, and materials has to progress into a positive cycle. Also the open platform regarding new OLED application is needed.

Young-Ho Park (PD, Korea Evaluation Institute of Industrial Technology)

Flexible display competitiveness acquirement is a big concern. Programs for challenging R&D, and high added value product/technology development, and R&D infra establishment (highly cost-effective R&D) have to be considered.

Sung-Chul Kim, Samsung Display’s CTO, What is Needed for OLED To Enter New Areas?

February 2, 2016/0 Comments/in /by OLEDNET

Sung-Chul Kim, Samsung Display’s CTO, at the 1st OLED Frontier Forum (Jan 28) gave a presentation ‘AMOLED Technical Issue and Future’ and discussed OLED technological issues of the past and present.

Kim pointed out the fact that glass substrate is not always necessary for OLED as the most different factor compared to LCD, and emphasized flexible OLED where plastic substrate is used. Kim reported that flexible OLED issues include window’s durability and coating, touch panel’s electrode materials and flexibility, reduction of number of encapsulation layers and flexibility, and backplane’s low stress structure and OTFT application. He revealed that developing spherical stretchable display, which the user can zoom in, is also included in the product roadmap.

Regarding transparent/mirror display, Kim announced that this is the direction that OLED should head toward and added that layout design development suitable for different application areas is needed. Specifically, the transparent display should be developed to increase the transmittance area and decrease the TFT area, and the mirror display to optimize the ratio between the total reflection and half-reflection areas.

Additionally, in order to produce high resolution OLED, Kim mentioned that innovation in terms of pixel operation and backplane structure is needed. He emphasized compensation circuit and that whether high resolution display can be manufactured cheaply and using simple structure is the key.

Kim discussed wall display, IoT, educational display, etc. as the new applications which will become important in future. Particularly, mentioning the automotive display area, Kim explained that for OLED to enter these new areas, plastic materials suitable for each applications and technology that can correctly process this are required. In order for this type of research development to be carried out smoothly, Kim added that cooperation between the academia and industry is necessary.

In-byeong Kang, CTO of LG Display, Discusses the Past, Present, and Future of Large Area OLED Panel

February 2, 2016/0 Comments/in /by OLEDNET

On January 28, Korea Display Industry Association organized the 1^st OLED Frontier Forum in JW Marriott Hotel Seoul.

Under the title ‘OLED, Yesterday, Today, and Tomorrow’, the forum attendees could review Korean OLED research results of the past 20 odd years, and discussed regarding future OLED industry growth strategy.

LG Display’s CTO In-byeong Kang gave a presentation on Large Area OLED Status and Future and talked about the current status and forecast of large area OLED which is expected to become the key area of future display.

Since the mass production of first 55 inch OLED panel that utilized WRGB method and oxide TFT, 3 years went past. During those 3 years, Kang revealed that many innovations were carried out in terms of TFT device, compensation algorithm, OLED device, OLED materials, and processes.

First, the oxide TFT structure changed to coplanar method from etch stopper method, and for compensation wiring, the internal compensation was changed to external compensation. Also, he revealed that through much effort, the existing OLED device and materials were changed to new structure and high efficiency and high color gamut OLED emitting materials. Kang added that the uniformity, which becomes the most crucial point in large area OLED panel mass production, was greatly improved in Gen8 manufacturing equipment.

In 2013, there was only 1 LG Electronics’ OLED TV, 55 inch FHD, but recently 77 inch and 65 inch were added, and the resolution increased to UHD. Kang emphasized that although the 2013 product was priced at 11 million KRW with 100/400 nit of brightness but recent products have brightness of 150/450 nit at the reduced price of 4.2 million KRW.

LG Display is going through many changes recently. OLED business department began operation from last year. Large area OLED panel, which started with 8K monthly mass production at Gen8, is now being produced at 26K in full operation. Also, additional investment of 10 trillion KRW to large area panel has been decided, and new factory is being built in Paju. Kang told the audience that he heard many positive views on large area OLED at CES, and that there was a huge response regarding the 77 inch HDR video. Kang revealed confidence in the technology reporting that rather than replacing LCD, OLED could succeed as a totally different display.

Regarding the next 20 years, Kang forecast that the flat will move toward transparent and flexible, and OLED is the most suitable for this. He explained that the Korean government estimated this and is carrying out national project titled ‘≥60 inch UHD level transparent flexible display and applicable IT fused infotainment system development’ for the past 4 years. LG Display is responsible for this project’s overall consortium, and is planning to reveal UHD level 60 inch transparent flexible OLED panel in 2017 summer when the project is complete.

At the end of the presentation, Kang summarized 3 innovation factors for large area OLED. First, the substrate materials at Gen8 has to change to PI and transparent PI. Second, even for flexible substrate, the structure has to change to top emission from bottom emission, and lastly, Kang added that much more diverse applications have to be considered for flexible panel.

Leaders Who Created Korean OLED Industry

January 29, 2016/0 Comments/in /by OLEDNET

On January 28, OLED Frontier Forum, ‘OLED, Yesterday, Today, and Tomorrow’ was held in Seoul, Korea. With approximately 250 attendees from the industry, academia, and government organizations, experts discussed scenes from the early days of OLED development, the current market and technology competition status, and future industry development issues.

President of UBI Research, Choong Hoon Yi, was the first speaker of the first section, and gave a presentation titled ‘Korean OLED Industry Creating Something from Nothing’, introducing figures from the initial stages of OLED development and now. In 1996, Yi, in charge of Strategy Technology Planning of Samsung Display Devices (now Samsung SDI), calculated OLED to be the most powerful display inheriting from LCD. Asserting the need for development, Yi led the OLED research development investment.

Discussing the most influential people within the 20 years of OLED industry, Yi first mentioned Samsung SDI’s vice chairman Soon-taek Kim, explaining that despite the IMF crisis Kim decided on AMOLED investment and laid the foundation for Samsung’s main role within the OLED industry. On top of this baiss, Ho Kyoon Chung (then Samsung SDI’s vice president) began active development of small size AMOLED, and Samsung Display’s vice president Sung-Chul Kim is responsible for Samsung’s OLED for mobile device of now. Yi also introduced Miwon Commercial’s CEO Kyu-Ha Chung (then Samsung Electronics executive director) as the key player who suggested vision for large area OLED through world’s first development of 40 inch WRGB OLED. Within LG Display, vice chairman Sang-beom Han was mentioned as the person responsible for OLED TV’s market release through difficulty decision of large area OLED investment, and CTO In-byeong Kang for technological advances as the person in charge of OLED development. For academia, Yi discussed Seoul National University’s Professor Changhee Lee as the first person in Korea who began white OLED development and contributed to OLED standardization. Professor Jin Jang of Kyung Hee University suggested oxide TFT’s commercialization prospect and mentored many people who contributed to Korean OLED industry. Yi, together with Sung-Chul Kim and Dr. Nam-Yang Lee (then LG Philips LCD director) established OLED sector within Korea Display Industry Association. During the talk, he introduced how this formed the inter cooperative structure with OLED industry companies and contributed to Korean OLED industry success on the basis of governmental support.

In the second section of the event, LG and Samsung’s CTOs presented on OLED industry’s key issues, and future innovative technology. The 2 companies both discussed current technology, products and projects that need to be solved in order to increase the competitiveness of OLED.

During the last section, the speakers panel discussion handled how to respond to China’s rapid growth. The speakers all agreed on the need for acquisition and hold on experts, corporation between industry and academy, and between companies, and new application areas.

LG Display to Focus on OLED Investment in 2016

January 29, 2016/0 Comments/in /by OLEDNET

On January 27, LG Display held Q4 2015 earnings announcement, stating that the business profit recorded a surplus for 15 consecutive quarters, and annual profit of over 1 trillion KRW for 3 years.

LG Display’s Q4 2014 sales recorded 7,495,700 million KRW, a 5% increase from the previous quarter’s 7,158,200 million KRW and 10% decrease from 8,341,900 million KRW of the same period from the previous year. The business profit of 60,600 million KRW in Q4 is a significant decrease from previous quarter’s 332,900 million KRW and previous year’s 625,800 million KRW, a decrease of 82% and 90% respectively.

Sang-don Kim, LG Display’s CFO, mentioned that the business condition has been difficult due to weak demand and reduced panel prices as a result of China’s additional capa. establishment. Stating that it is hard to expect demand recovery as the economy continues to be uncertain in 2016, they suggested that the poor performances could continue.

Kim, in order to overcome the current situation, put up the keywords ‘choice and focus’. He reported that the investment could be flexible at times, but 50-60% of this year’s investment will be focused on OLED. He emphasized that choice and focus will be on areas with technological merits such as large area, M+, and AIT.

During the LG Electronics performance announcement (January 26), CFO Do Hyun Jung asserted world’s top premium image mentioning the OLED TV. LG Display also showed confidence in large area OLED technology. Sang-don Kim stated that OLED is a technology that exceeds existing LCD, and not only will it replace LCD TV but it is expanding the market and cemented its place as a premium product, jumping ahead of quantum dot TV. He added that whether in large size or small to mid-size, the technology difference of LCD with Chinese companies is 2-3 years, OLED is 5-6 years.

Samsung Electronics’ Smooth Foldable AMOLED Panel Development

January 28, 2016/0 Comments/in /by OLEDNET

On January 28, Samsung Electronics, through conference call, analyzed Q4 2015 and announced overall results of 2015. Q4 2015 sales of Samsung Electronics recorded 53,320,000 million KRW, a 3% increase from previous quarter, and 6,140,000 million KRW of business profit, an increase of 1,250,000 million KRW from previous quarter.

CE (consumer electronics) department showed highest increase of sales compared to previous quarter. Samsung Electronics revealed that LCD TV is receiving great response in advanced market, and that the sales in North America increased by 94% from previous quarter. They also estimate that the demand will increase in 2016 due to Rio 2016 Olympics

However, Samsung Electronics’ IM (IT and Mobile) department mentioned that as the smartphone market growth is expected to remain in single digit and competition between companies will become fierce, estimating that future is not simply bright. As a response to this, Lee emphasized that through strengthening of product and efficient lineup they will maintain the margin of double digits. Additionally, Samsung Electronics’ foldable OLED is rising as the new form factor for product build up. In regards to this, Samsung Electronics revealed that foldable display development is smoothly being carried out and they will deal with mass production and market release timing after discussions with customer companies.

With the recent news regarding Samsung Display’s second stage investment for A3 line, there is much interest. Samsung Electronics explained that although A3 related investment is estimated for small to mid-size OLED additional investment, detailed plans have not been confirmed. However, through proactive additional capa. increase, they are planning to strengthen Samsung Display’s competitiveness.

Regarding large area display, Samsung Electronics reported that they are the only company that is mass producing by using environmentally friendly quantum dot technology. While revealing pride in SUHD TV’s technology prowess, they also suggested new form factor stating they are looking for the best cost competitive mass production method considering large size OLED marketability through diverse research development.

LG Electronics to Actively Induce OLED TV Demands in 2016

January 27, 2016/0 Comments/in Focus on /by OLEDNET

LG Electronics CFO, Do Hyun Jung announced that they expect this year’s OLED TV’s demand to be approximately 4 times higher than last year’s.

With this statement during the LG Electronics earnings announcement (January 26), Jung demonstrated determination in popularization of OLED TV. Regarding the forecast of Q1, he estimated that despite the slow season, profit structure will improve through product mix improvement and production cost structure among others.

It was also revealed that the UHD OLED TV and UHD premium TV sales increased in Q4 2015. Particularly, OLED TV products recorded double the amount of previous quarter’s shipment, occupying 10% of the total TV sales.

Regarding the total TV market, Jung forecast that the 2016 demand stagnation will continue. Revealing that LG Electronics’ TV market share fell slightly, demand for premium products such as OLED TV and UHD TV is anticipated. He added that LG Electronics will cement the image of world leading premium products through OLED TV and compete through quality and performance.

In Q4 2015, LG Electronics Home Entertainment business increased shipment in key markets such as Europe, Russia, and North America, and recorded revenue of 4,740,000 million KRW, a 11% growth compared to previous quarter, and business profit also increased to 2.3% from 0.9%.

LG Electronics Earnings Announcement

OLED Encapsulation Transparent Gas Barrier Film Market, How High Can It Grow?

January 27, 2016/0 Comments/in /by OLEDNET

At present for flexible AMOLED encapsulation, thin film encapsulation, where organic and inorganic thin films are laminated, and hybrid encapsulation, where minimum passivation and gas barrier film are laminated, are used in mass production. As large area AMOLED panel is being mass produced through bottom emission structure where the light is emitted toward substrate, metal foil utilizing hybrid encapsulation is used.

However, TFE method which is used in flexible AMOLED panel for mobile device employs expensive manufacturing equipment and increases the investment cost. It also increases the number of processes involved and reduces mass production efficiency. For these reasons, this method is not suitable for cost reduction. As large area requires high resolution and high brightness, top emission structured AMOLED panel is being developed. When top emission structure is used, transparent encapsulation is essential.

Following this trend, the necessity for next encapsulation is rising, and in particular, transparent gas barrier film encapsulation is receiving increasing amount of attention. The transparent gas barrier film that is used for the hybrid structure currently being applied in mass production has WVTR of 10^-4g/m²day, which is less than encapsulation requirement of 10^-6g/m²day. However, in R&D stage, the WVTR level reached to 10^-6g/m²day, and encapsulation could be possible only with transparent gas barrier film. Research development regarding this is being actively carried out.

According to 2016 OLED Encapsulation Report, published by UBI Research, transparent gas barrier film encapsulation can reduce investment cost compared to TFE. As it can also be applied to large area top emission structure, high market growth can be anticipated with this encapsulation.

UBI Research analyzed that if transparent gas barrier film encapsulation is applied to the new large area line and mobile added from 2017, the transparent gas barrier film market could grow to record up to approximately US$ 700 million in 2020.

Will 2016 be the Year of Glasses-Free 3D Display Commercialization?

January 22, 2016/0 Comments/in /by OLEDNET

During the Pioneer Technology Seminar to Overcome Display Industry Crisis (January 14) held in South Korea, Dr. Sung-Kyu Kim of Korea Institute of Science and Technology (KIST) discussed the current issues of glasses-free 3D display and technology development for commercialization. He also revealed related KIST research results.

At present, the 3D display applied to TV can be divided into FPR (film patterned retarder) method and SG (shutter glass) method. Both of these methods require 3D glasses. Regarding this, Kim revealed that the glasses using method could be the biggest factor in hindering the 3D display’s accessibility. Kim announced that glasses-free 3D display development is essential particularly for outdoor advertisement applications.

To increase the accessibility of 3D display, glasses-free 3D display related research, such as holographic and multiview 3D display technology, has long been carried out. Kim revealed that at present the multiview 3D technology is closest to glasses-free 3D display commercialization. He added that the key issue is how much the 4 problems (crosstalk development, quantization effects between viewpoints, reduced resolution, human factor) can be controlled.

In order to solve these problems, Kim applied technology that forms visual field of 4 or more views between eyes and provide same image information in the adjacent area. He emphasized that this was fused with technology that tracks the location of the observer and developed improved glasses-free 3D display. He added that prototype was shown in PyeongChang 2018 Olympics PR venue and Sangwolgok Station in South Korea.

Kim explained problems such as human factor occur for TV and monitor where observers watch for a long period of time and future of 3D display is not bright. However, in advertisement area where people can freely watch, it could be effectively applied. He revealed that he will focus on commercialization this year and expedite development.

Quantum Dot, Will it Rise to Become the Answer for Future Display Materials?

January 21, 2016/0 Comments/in /by OLEDNET

The interest in quantum dot materials is increasing daily. In July 2015, Professor Changhee Lee of Seoul National University received Science Technology Person of the Month prize with technology that greatly improves QLED performance and lifetime. In CES 2016, with cadmium-less quantum dot applied SUHD TV, Samsung Electronics achieved UHD TV’s color standard BT.2020 and received much attention.

Regarding this interest, during the Pioneer Technology Seminar to Overcome Display Industry Crisis (January 14) held in South Korea, University of Seoul’s Professor Jeong Hoon Kwak reported that quantum dot technology is a material with plenty of potential from the long-term perspective.

Quantum dot materials can be used with blue LED to improve LCD color gamut. Two techniques are generally used; the edge type has quantum dot placed on the sides and for surface type the quantum dot film is attached in front of BLU. Most of TV makers, excluding Sony, are using surface type. Professor Kwak explained that quantum dot can achieve desired color by adjusting the size of the particles without changing the materials. Through this, he estimated that it could replace color filter.

As well as increasing the LCD color gamut, as quantum dot materials emit light when connected to electricity, much like organic light emitting materials, it is anticipated that they could be used to replace the emitting materials in OLED panel. Within the industry, this technology is called QLED or QD-LED (Quantum Dot Light Emitting Diode) technology. Professor Kwak emphasized that QLED has better color gamut than OLED and has a merit of good actualization of deep blue. As QLED is basically formed through solution process, he added that solution process pixel patterning technology has to be development and device lifetime also has to increase.

Professor Kwak explained that as there are not many places mass producing QLED materials at present, the cost is high. However, he emphasized that because the quantum dot materials have an advantage of being easy to synthesize, from long term perspective, they can be used at lower price than OLED.

[Lighting Japan 2016] What is the Key Issue of Solution OLED Materials?

January 15, 2016/0 Comments/in Material, Material, Material, Material, Material, Material, Material /by OLEDNET

In Lighting Japan 2016 (January 13-16) conference, Sumitomo Chemical and Merck revealed recently developed soluble OLED materials performance results.

The soluble OLED materials efficiency published in this conference reached ≥ 65% of UDC’s evaporation materials; particularly, Sumitomo Chemical’s red achieved ≥ 85%, and green reached ≥ 88% of UDC’s evaporation materials efficiency. Lifetime (LT 95) results were not as good as efficiency with red’s 25% and green’s approximately 40% (average).

Sumitomo Chemical and Merck both revealed that although in terms of efficiency the soluble materials almost caught up to evaporation materials, but lifetime requires further development.

Solution process is a method that allows for large area OLED panel production in RGB method using ≥ Gen8 manufacturing equipment. Key panel companies are actively carrying out research development, and the performance of soluble OLED material is considered the biggest issue. According to Solution Process OLED Report 2015, published by UBI Research, when solution process is applied the material cost can be approximately 40% reduced compared to the current evaporation process using large area OLED panel. The timing for the solution process application to mass production is expected to be decided depending on the development speed of soluble OLED materials.

OLED Materials Performance Comparison

[Lighting Japan 2016] Yamagata University Develops Low Cost Flexible OLED Encapsulation

January 15, 2016/0 Comments/in /by OLEDNET

Innovation Center for Organic Electronics in Yamagata University in Japan discussed low cost flexible OLED encapsulation in Lighting Japan 2016 conference. Existing flexible OLED encapsulation mainly used hybrid encapsulation structure that forms multi-layer thin film passivation layers on top of OLED, and then applying adhesive organic material and laminating gas barrier film. The encapsulation structure presented by Yamagata University forms, of the hybrid encapsulation structure, thermoset resin and barrier film above OLED without multi-layer thin film passivation, and laminate at approximately 130 °C. Yamagata University announced that they were successful in transparent flexible OLED panel development on January 13 using encapsulation, and that this panel will be presented in Printable Electronics 2016 in Tokyo from January 27.

The OLED panel to be exhibited is a leaf shaped of 45 mm width, 110 mm length, weighs less than 1.2g, and 250 um thick transparent film substrate that can be folded.

According to Yamagata University, if the newly developed encapsulation is applied, the OLED lighting panel price can be reduced as passivation layer is not used. Also, Yamagata University revealed as it can satisfy both transparent and flexible categories simultaneously, it is estimated that it will become a key technology in future transparent flexible OLED lighting development.

Low Cost Flexible OLED Encapsulation, Yamagata University

Sumitomo Chem. Aims for General Lighting Market with P-LED

January 15, 2016/0 Comments/in /by OLEDNET

Sumitomo Chemical’s Decorative P-LED Lighting Panel, Lighting Japan 2016

Sumitomo Chemical revealed that they are planning to enter the general lighting market with solution process applied P-LED (polymer OLED).

Sumitomo Chemical is a company developing polymer and solution process applied OLED lighting panel. The company began actively selling decorative OLED lighting panel from H2 2015.

In Lighting Japan 2016 exhibition, Sumitomo Chemical announced that through their polymer materials and process technology, 80-90% of evaporation materials efficiency, and lifetime of approximately 20,000 hours at white 60-80 lm/w have been achieved. From 2017, they are planning to commercialize solution process OLED lighting panel as general lighting, as well as for decorative use, and revealed that the biggest issues are cost and improvement of consumers’ OLED awareness.

According to these issues, Sumitomo Chemical explained that although the cost of emitting area formed through solution process, cost down of evaporation formed emitting area and electrode part is required further. Although the 20,000 hours of lifetime is satisfactory, as consumers are aware that LED lighting’s lifetime is 40,000 hours or longer, Sumitomo Chemical pointed out it is important to change consumer’s OLED lighting awareness and understanding of lighting products.

by Moojong Lim, reporter@olednet.com

[Lighting Japan 2016] LED Lighting Industry Crisis. Solution?

January 14, 2016/0 Comments/in /by OLEDNET

Osram Bussiness Unit Digital Systems’s CEO, Geert van der Meer, Lighting Japan 2016

In Lighting Japan 2016 Keynote Session, Geer van der Meer, CEO of Osram Business Unit Digital Systems, suggested directions for future lighting industry.

Geert van der Meer explained that the current lighting market is rapidly adopting LED, but the large volume of Chinese products is decreasing the price of LED source and device quickly. He emphasized that with the trend of disappearance of lighting companies’ profit, new business format is required to create profit.

The new businesses suggested by Osram are embedded lighting, and connected and smart lighting. He suggested lighting industry should move toward where the lighting can be used as part of building materials through internal installations and utilization as indirect illumination, and adopt smart system and form smart building and furthermore, smart city.

The current lighting market’s players are being joined by IT related companies, BMS (business management system) companies, and electronic appliances companies, and its megatrend is changing rapidly. Accordingly, Osram is expanding from the existing lighting to lighting electronics such as module and control gears, lighting solution system, and specialty lighting such as OLED and automotive. Osram also revealed that they took over a wireless energy management system company called ENCELIUM and intensifying focus on smart lighting system business.

Smart system provides many different functions such as energy reporting, remote and preventative maintenance, personal lighting control, and zone analysis among others and can optimize energy reduction, maintenance cost reduction, and workspace environment. Van der Meer emphasized that new function can be created through lighting used area’s data analysis and become the focus of future lighting analysis.

[Analyst Column] CES 2016 Press Conference Comparison Analysis, Samsung Elec. TV vs. LG Elec. TV

January 14, 2016/0 Comments/in /by OLEDNET

Choong Hoon Yi, Chief Analyst, UBI Research

When Samsung Electronics, CES’ most important company, holds a press conference, members of the media wait longer than an hour anticipating the new world the firm will show. For LG Electronics’ press conference, the waiting period is relatively shorter.

However, the press conferences at CES 2016 were not as anticipated. In CES and IFA, the representative of electronic appliances companies is TV. However, the TV in Samsung Electronics’ event was merely the same SUHD TV as shown before. Instead, ICT area, such as VR, USB adaptor, and Samsung Pay, was emphasized. During the last year’s CES, Samsung Electronics received much acclaim with curved design added SUHD TV. The only difference for this year’s TV from CES 2015’s was the text ‘Quantum Dot Display’ underneath the SUHD.

Samsung Electronics is considered the rule maker of the market with new designs and aggressive marketing. The fact that Samsung Electronics only added the words quantum dot to the already applied SUHD TV LCD panel is analyzed to be a desperate measure demonstrating the LCD TV’s development limitation.

On the other hand, during their press conference, LG Electronics provided a vision where the TV market can have another growth spurt through the introduction of the improved OLED TV with 800 nit peak brightness. Particularly, NASA’s video of vivid deep black of the space and dynamic fiery red of the sun on the OLED TV brought the audiences to cheer and applause. What could only have been seen by astronauts can now be seen by everyone through OLED TV. This was an event where everyone could feel what a true display really is.

Of course, as the largest market of the consumer market is smartphone, it would be illogical to discuss Samsung Electronics and LG Electronics with only TV. However, Samsung Electronics’ smartphone business also remained stationery last year and all businesses, excluding semiconductor, is falling downward. As such, for Samsung fans who have high expectations it is of much concern.

The reason that the companies that led electronic appliance industry for the past half century such as Sony, Panasonic, and Toshiba are falling is because they did not have paradigm changing technology and product when the market was stalling. The same unfortunate sign is coming from Samsung Electronics.

Chinese set companies including TCL also brought quantum dot technology applied LCD TV to CES 2016. 8K TV was also exhibited. Although the picture quality control technology of the Chinese TV companies still falls short compared to companies such as Samsung Electronics, LC Electronics, and Sony, the set exterior reached similar standards and the price is less than 70% of the early starters’. The difference in the picture quality is difficult to distinguish for those who are not TV or display experts. The quality of Chinese products does not reflect the cheaper price, and cheap and good products are pouring in from China.

For Samsung Electronics that cannot produce OLED TV, in order to repeat the last year’s popularity in international events such as IFA in later this year, a big issue and product that can represent the company are urgently needed.

[CES 2016] OLED Smartphone Territory Slowly Expands

January 11, 2016/0 Comments/in /by OLEDNET

OLED panel, mostly used for Samsung Electronics, is expanding its market and slowly entering China. In CES and IFA until now, Samsung Electronics and LG Electronics only exhibited OLED panel equipped smartphone. However, this time, China’s dark horse Huawei exhibited Samsung Display’s OLED onto new smartphone model Nexus 6P.

The panel used is 5.7 inch 518 ppi FHD OLED.

According to Huawei, although until now LCD has been used as OLED can produce profound black it is estimated OLED will be highly popular in Chinese market.

Huawei is already using OLED on smartwatch. Huawei Watch Active that began to be exhibited starting with CES 2015 uses 1.4 inch 286 ppi OLED panel with 400 x 400 resolution supplied by AUO. The thickness of the watch is 4.2 mm and rather thick, but the external design is highly detailed and beautiful much like luxury analog watch.

As Huawei, which has the highest market share out of Chinese set companies, started to actively push for OLED panel use in smartphone following smartwatch, other Chinese companies, including Xiaomi, are expected to rapidly join the OLED sector.

[CES 2016] Skyworth’s 2016 OLED TV Sales Target is 200,000 Units

January 8, 2016/0 Comments/in /by OLEDNET

Skyworth, the most enthusiastic Chinses TV company, placed OLED TV on the front of the CES 2016 booth, the largest space.

The exhibition concept, same as IFA 2015, was promotion of OLED TV’s superiority over LCD in terms of picture quality and fast response time through car racing game.

Furthermore, all OLED TVs exhibited this year are UHD resolution aiming for the premium TV market.

According to Skyworth, 2015 OLED TV sales performance is 45,000 units, with the target of 200,000 units in 2016. In 2015, the performance was weak as the OLED panel supply from LG Display was not smooth. However, compared to last year, in 2016 the panel supply from LG Display increased, and as OLED TV is a very popular product in Chinese market due to its superior picture quality compared to LCD the sales target of 2016 became much higher.

What is different about this exhibition is the fact that the video clip used in the Skyworth OLED TV booth is the same as the NASA video produced by LG Electronics for promotion. Previously, each companies presenting OLED TV used different contents on the screen. However, in this exhibition, by showing the same video of the sun within the space, they emphasized OLED TV’s superiority in contrast ratio and picture quality of black.

This is considered LG’s ecosystem strategy to secure OLED TV territory by sharing the video contents and increasing the consumers and attendees’ OLED TV awareness.

[CES 2016] Big Changes in LG Display

January 7, 2016/0 Comments/in /by OLEDNET

On January 6 (local time), LG Display held a press conference with key board members in attendance including CEO Sang-Beom Han, CTO In-Byeong Kang, and head of marketing Young-Kwon Song.

At this conference, unlike previously, Han conveyed strong determination and announced LG Display will invest in future large area display with OLED. This was a conviction never seen before.

The evidence of the confidence could be read at the exclusive exhibition. OLED TV achieved 800 nit, 150% higher than UHD Alliance’s standard of 540 nit.

With transparent OLED, LG Display reached leading specs. The WRGB OLED structured transparent OLED has 40% transmittance and 600 nit of brightness through the application of the 800 nit OLED technology.

Flexible OLED also was significantly different from last year. In 2015, the comparison between LG’s OLED and LCD for automotive dashboard display showed OLED to be lacking in brightness. However, this year’s exhibition showed OLED panel to have similar level of brightness as LCD and exceeding LCD’s spec with deeper black.

The exhibition showed rapid development of LG Display’s OLED technology.

OLED Takes Over Monitor and Notebook Markets Too

January 6, 2016/0 Comments/in /by OLEDNET

Following the mobile and large area panel markets, OLED is now actively entering the monitor market.

Until now, the monitor and notebook markets were mostly occupied by LCD. Burn-in effects and power consumption were the biggest reasons that prevented OLED panels from being applied to monitor and notebook. Generally, monitor and notebook are for office use. Within the office environment, window’s task bars and icons on the main screen are fixed. Also, as the average hours of use is much higher than TV or mobile, burn-in effects is an issue. Also as Office programs or internet browsers, which usually have white background, are used heavily, power consumption is high as OLED panel of RGB method has to drive all subpixels in order to actualize white.

Starting with the black and white OLED monitor in 2012, Sony steadily developed/mass produced OLED monitor. However, it is analyzed the application was possible as this OLED monitor was mostly used for medical and broadcasting uses and in different settings from the office monitor environment.

However, with Lenovo and HP’s announcements of OLED Notebook release, the status is changing.

In January 2016, Lenovo announced world’s first OLED notebook ‘X1 Yoga’ with 14 inch AMOLED panel with 2550×1440 resolution. Following this, HP also announced the release of 13.3 inch OLED hybrid laptop/tablet ‘Specter X360’ with 2560×1600 resolution.

These OLED panel equipped notebook releases break the existing perception that OLED panel is not suitable for monitor and notebook, and can be considered that OLED panel’s lifetime and power consumption have been achieved to be suitable for monitor and notebook. As such, much attention is on whether the OLED market will be able to greatly expand in the monitor and notebook markets following their success in mobile and TV markets.

Lenovo’s ‘X1 Yoga’ (left), HP’s ‘Specter X360 hybrid laptop/tablet’ (right), Source : Lenovo, HP

[CES 2016] OLED TV Passes UHD Alliance Standards

January 6, 2016/0 Comments/in /by OLEDNET

As a press event of CES 2016 (January 6-9), UHD Alliance, which was created by TV manufacturing companies, contents companies such as film studios, and picture and sound quality related companies to energize the declining TV market, gave a presentation on future UHD TV market and UHD Alliance activities.

The TV market recorded approximately 230 million units in 2015. However, this is 20 million units fewer than 2014’s 250 million, and CES reported that 2016 performance will be similar to 2015. 2016’s estimated UHD TV market, which is the premium market of 55 inch or larger, is 21% of the total TV market with approximately 48 million units.

The 4 key factors that UHD Alliance is pursuing in UHD TV are image resolution, color bit depth, color palate, and high dynamic range.

LCD TV and OLED TV that satisfy these factors are to be available from this year. In order to respond to OLED’s vivid color realization, LCD TV companies developed quantum technology. Also to draw near OLED’s contrast ratio of 1,000,000:1 they are continuing technology development, but the LCD contrast ratio remains around 3,000:1.

It is worth noting that UHD Alliance provided 2 HDR specs: more than 1,000 nits peak brightness at less than 0.05 nits black level, or 540 nits brightness with 0.0005 black level.

LG Electronics already achieved UHD Alliance’s HDR spec of 540 nit peak brightness last year, and this is analyzed to provide foundation for more invigorated future OLED TV market. Based on this, OLED TV is expected to be the main force within the UHD TV market.

Additionally, UBI Research estimated that 2016 OLED TV market will record 1,200,000 units.

Can Transparent OLED Be OLED Industry’s New Growth Engine?

January 6, 2016/0 Comments/in /by OLEDNET

According to Transparent OLED Display Report 2016, published by UBI Research, large area transparent AMOLED market is expected to record approximately US$ 5,300 million by 2020.

UBI Research revealed that “transparent OLED, with its high transmittance, is likely to be applied to transparent advertisement display such as showcases that has to properly actualize what is behind the display. Also, as the viewing angle is wide and color gamut and visibility are high, it will be widely used as transportation display such as automotive”. Furthermore, UBI Research added that as it is easy to produce flexible product and can be utilized in diverse applications that will be newly designed, market potential is very high.

Transparent display is a display that can recognize/process/communicate information via optically transparent display using transparent electronic device. This is a device that is ordinarily transparent as glass and functions as monitor or TV as needed. As the area where the information is shown is transparent and objects behind the display can be seen, spatial/visual limitation can be overcome and diverse application and expansion of existing display market can be anticipated. Particularly, transparent OLED’s transmittance is approximately twice as high as transparent LCD (using the recently release panel), and simple to bend. As such, key panel companies are inclined to actively develop transparent OLED.

In 2015, Samsung Display revealed world’s first 55 inch FHD transparent OLED with 45% transmittance and plan to mass produce from 2016. LG Display is also developing transparent OLED through project titled “60 inch or larger UD level transparent flexible display with transmittance of 40% or higher” that began in 2012. China’s BOE presented 9.55 inch transparent flexible OLED panel with 30% transmittance in SID 2015 and is actively carrying out research.

From these companies’ transparent OLED development, transparent OLED is anticipated to play a big role in future display market expansion.

Large Area AMOLED Market Forecast

[CES 2016] What is This Year’s Trend?

January 5, 2016/0 Comments/in /by OLEDNET

At the press event of CES 2016 (January 6-9), CEA revealed that this year’s CES trends are as follows:

Ambient sensing
Aggregated learning
A maturing of nascent ecosystems.

Ambient sensing includes products with motion/touch sensors, calorie analyzing sensor, and products that automatically adjust water volume after checking the weight of the laundry. Aggregated learning’s representative technology and products are driverless vehicles. Lastly, the maturing of nascent ecosystems includes VR (virtual reality), UHD, wearable device with health and fitness function, drone, 3D printer, and smart home.

Compared to last year’s trends, what has been most changed was the part where the automotive related technology was introduced as adaptive customization within permeation of logic in CES 2015.

However, this year the aggregated learning was changed to autonomous vehicle (i.e. driverless car) and demonstrated CES’ high expectations for future automotive industry.

UBI Research to Host the 2nd OLED KOREA Conference

UBI Research (president: Choong Hoon Yi), an OLED specializing company, announced that they will host the 2^nd OLED KOREA Conference (February 24-25, 2016) at The K Hotel in Seoul, South Korea. Following the hugely successful 1^st OLED KOREA Conference in April this year, the 2^nd OLED KOREA Conference is expected to be an opportunity to discuss even wider range of issues from diverse perspectives.

OLED is continually widening its application scope and usage through TV, automotive, lighting, smartphone industries among others. This event is organized to review each sector’s response strategy and current limitations, and find solutions through in-depth discussion.

President of UBI Research, Choong Hoon Yi stated that “UBI Research is holding an event in Korea, a leading country in display industry, to highlight global future industries, including display sector, that can be developed and evolved and discuss current issues”.

OLED KOREA Conference is one of the largest conferences in OLED industry where the attendees can discuss issues on key technology development, investment, and market in one place. Its focus is on the exchange of information and thoughts to respond to rapidly changing OLED industry through the OLED experts’ in-depth understanding of the market and technology.

Accordingly, for the key conference speakers, UBI Research is actively inviting world renowned experts in OLED related industry including Korean and Chinese panel, manufacturing equipment, materials, and lighting companies, and leaders in academia and industry. Following the 1^st OLED KOREA Conference which had approximately 130 attendees, over 200 key players in the OLED industry are anticipated to attend the 2^nd event.

UBI Research is also hosting a separate VIP dinner event during the conference period. The dinner is expected to be a great networking opportunity where OLED industry, academia, and research board members and experts can freely discuss OLED industry. Inquiries can be made through UBI Research website.

The conference registration is available through the 2^nd OLED KOREA Conference homepage (www.oledkoreaconference.com).

Looking Ahead to 2016 OLED Industry through Keywords

January 5, 2016/0 Comments/in /by OLEDNET

Flexible AMOLED Investment

In 2016, flexible AMOLED mass production line investment is expected to be actively carried out by Samsung Display, LG Display, BOE, and Japan Display. For Samsung Display to apply flexible AMOLED panel to the new Galaxy model, the mass production line investment is necessary. If they supply flexible AMOLED panel to Apple, volume of the flexible AMOLED mass production to be invested in 2016 is estimated to be grow significantly. LG Display also is expected to actively carry out flexible AMOLED line manufacturing equipment order for Gumi’s P6 line, as well as additional flexible AMOLED mass production line investment following Apple’s demand. BOE is estimated to seriously begin orders for Chengdu’s Gen6 45K flexible AMOLED mass production line.

P10

With the announcement of new factory establishment and 1.84 billion KRW investment for part of facilities in Q4 2015, as the first step of the investment, LG Display began site construction for P10 line factory that can produce large area panel. However, the investment direction has not yet been decided. P10 could be directed to only producing large area LCD panel, large area OLED panel, small-to-medium size OLED panel, or large area and small-to-medium size OLED panel simultaneously. China’s Gen8 LCD facilities investment is quite advanced and BOE’s Gen10.5 LCD line investment has also been confirmed. As such how much LG Display’s large area LCD can bring profit has to be carefully considered. Additionally, with the increase of OLED TV consumption and the supply of OLED panel to Apple practically confirmed, OLED investment is essential. P10, Gen11 line, is the world’s largest factory site, and depending on the investment direction in 2016, it is estimated to affect OLED market’s opening time.

Chinese OLED

Everdisplay is supplying AMOLED panel to some several Chinese set companies, and Visionox is also expected to actively supply AMOLED panel from 2016. As such, most of Chinese OLED panel companies’ OLED mass production preparation is anticipated to conclude in 2016. Accordingly, second investment by companies including Everdisplay, Visionox, and Tianma is analyzed to be possible and serious movement by China’s OLED industry could occur.

Evaporation Equipment

Flexible AMOLED mass production line investment by Samsung Display, LG Display, Japan Display, and BOE, and other Chinese OLED panel companies’ additional installation are expected to be actively carried out from 2016. Amidst this, order of evaporation equipment, OLED production’s essential component, is expected to be an issue.

Evaporation equipment currently being used in mass production is mostly Japanese Canon Tokki’s. As this evaporation equipment has been verified in mass production, it is estimated that most companies, including Samsung Display, LG Display, BOE, and JDI, will want to order Canon Tokki’s evaporation equipment. However, as the production capa. of Canon Tokki’s evaporation equipment is limited, the issue is expected to be which panel company will be able to order early. At the same time, this could be a new opportunity for Korean evaporation equipment companies.

Samsung OLED TV

At present, the TV industry trend is moving to OLED from LCD. Accordingly, Samsung Display is continuing research to resume their large area OLED for TV panel business. It is analyzed that Samsung Display possesses RGB OLED technology that uses SMS evaporation method, white OLED, and solution process OLED technology. However, as each technology has its drawbacks, they are carefully considering future directions. First, RGB OLED technology is estimated to lack Gen8 mother glass substrate evaporation equipment at present. Solution process OLED method has low material performance. For white OLED, as the key patents are owned by LG Display, technology that avoids these has to be first developed. Therefore, much attention is focused on which technology Samsung Display will use and invest in production line to enter the TV market.

Reviewing 2015 OLED Industry through Keywords

December 31, 2015/0 Comments/in /by OLEDNET

OLED TV

OLED TV, first released in Q4 2013, recorded approximately 50,000 units of shipment each in Q1 and 2 this year. The shipment increased to 100,000 units in Q3, more than twice the amount of each quarter in H1 2015. As it is estimated that close to 200,000 units were released in Q4, over 90% of LG Display’s 2015 target is expected to be achieved. This is considered to be showing price competitiveness against other TV as the price of OLED TV fell to 1/2 of the initial price and effectiveness of aggressive marketing emphasizing the advantages of OLED TV compared to newly released LCD TV. In Q3 earnings results announcement, LG Display revealed their plan of 1,000,000 units of OLED TV panel shipment in 2016 and forecast OLED TV’s growth. For the industry, 2015 has been the year that secured foothold for OLED TV’s market expansion.

Galaxy S6 Edge

At the time of Galaxy S6 and Galaxy S6 Edge’s release, Samsung Electronics estimated the initial supply to be 50:50. However, Galaxy S6 Edge showed 70% in actual demand and this led to shortage in supply. Samsung Display met the demand by starting flexible AMOLED line operation earlier than scheduled. 2015 proved future market growth potential by opening consumers’ wallets through designs possible only with flexible AMOLED panel.

Samsung Display Supply Diversification

During the Q3 earnings announcement, Samsung Display revealed their plan to expand non-Samsung clients by 30%. Accordingly, in Q3, when smartphone market’s growth was expected to slow down, the sales performance improved by 13% compared to its previous quarter through key client’s new product release and expansion of client base. Particularly, the market occupation of AMOLED panel shipped toward China is analyzed to have increased within the global mobile market as Chinese set companies released AMOLED panel equipped smartphones.

Apple’s OLED Application

Apple, which has been using LCD panel for all products, first applied flexible AMOLED panel, produced by LG Display, to 2015 smartwatch Apple Watch and drew much attention. In H2, Apple diversified suppliers by using Samsung Display’s flexible AMOLED panel. This move is analyzed to be groundwork for flexible OLED application to smartphone following smartwatch. 2015 has been a year with much interest in when flexible AMOLED panel equipped iPhone will be released.

OLED Lighting

Global OLED lighting industry went through a great transformation in 2015. OLEDWorks announced they will acquire key parts of Philips’ OLED lighting business, relevant production facilities, and intellectual property. With this take over, OLEDWorks greatly expanded business through widened product portfolio and simultaneous lighting panel mass production in the US and Germany. LG Chem. transferred OLED lighting business to LG Display. The value of transfer is 1.6 billion KRW, and it is seen to be a strategy to increase competiveness by transferring the business to LG Display with their OLED panel mass production knowledge and to focus on existing materials business. The take over and business transfer of the main players in OLED lighting industry, OLEDWorks and LG Chem., are following their own business strategy. However, following these moves, related investment is expected to be delayed for some time and eyes are on how these will affect the OLED lighting business overall.

Korea’s Last PMOLED Company to Fade into History?

December 30, 2015/0 Comments/in /by OLEDNET

NeoView Kolon, a subsidiary merged by Kolon Group in order to foster electronics business in 2001, is known within the industry to close down the PMOLED sector on December 31.

NeoView Kolon established factory in Hongseong, South Chungcheong Province of South Korea in 2003 and began PMOLED mass production. At this point, Samsung SMD (the current Samsung Display) and LG Electronics were also mass producing PMOLED. Other PMOLED producing companies included Korea’s Orion, Japan’s Futaba, and Tohoku Pioneer, and China’s Visionox. However, Samsung SMD stopped PMOLED business and sold manufacturing equipment to China’s Truly, and Samsung Display began AMOLED business from 2007. Subsequently, LG Electronics also closed down PMOLED sector and merged OLED related personnel to LG Display and launched AMOLED business. Orion was sold to China’s Changhong.

With the active application of AMOLED to Samsung Electronics’ Galaxy series, global PMOLED business began to rapidly shrink, and in order to maintain business, PMOLED companies pushed ahead with OLED lighting panel business.

NeoView Kolon entered into the automotive instrument panel business with PMOLED transparent display, but this business was also not easy. Furthermore, as the factory location is Hongseong, deep in the countryside, there was high turnover of employees and difficulty in technology development and recruitment. Despite the investment of over 100,000 million KRW, the company showed continued deficit.

NeoView Kolon turned into a financial sinkhole for Kolon Group and worsened the Group’s financial structure, leading to persistent discussion of selling or withdrawal of the business. Recently, Samsung Display is actively pushing forward the transparent AMOLED panel business. As such, transparent display business value for Kolon decreased, and it is estimated that this led to the decision of closing down the business.

New Products to be Released Using Visionox’s AMOLED Display

December 30, 2015/0 Comments/in /by OLEDNET

On Dec. 25th, Visionox announced that two products using its display panels will soon be released, including a 5.5 inch AMOLED display applied to high-end smartphone, and a 1.45 inch AMOLED display applied to smartwatch.

5.5 inch AMOLED Display Panel, Source : Visionox

It is noted that the 1.45 inch AMOLED display has a display resolution of 272X340 and pixel resolution of 300 ppi, which reaches the highest pixel resolution in the domestic similar products. The thickness is less than 1 mm and the frame is only 1.5 mm. Furthermore, this display also offers MIPI and SPI interface functionality.

1.45 inch AMOLED Display Panel, Source : Visionox

The smartwatch using 1.45 AMOLED display will be on sale in mainland China during the Spring Festival 2016 and the smartphone using 5.5 AMOLED display will be released to overseas market in Mar. 2016

NTHU is reshaping the lighting world via Candlelight OLED

December 29, 2015/0 Comments/in /by OLEDNET

Numerous researches have been sounding alarm with increasing frequency on the health hazards of blue light. They report that blue light possesses potential hazard to the retina of human eyes, circadian rhythm, melatonin secretion, and cancer risk.

To devise a human-friendly light source and to also trigger a “Lighting Renaissance”, the Prof. Jou’s OLED research group from National Tsing Hua University (NTHU), Taiwan, demonstrates a high light quality and blue-hazard free candlelight OLED, that serves as a good measure and a wisely choice for general lighting. Just before Christmas, the candlelight OLED has won the International Dark-Sky Association Lighting Design Award and Domestic golden lighting medal. Moreover, Taiwan’s government highlights and entirely promotes NTHU and WiseChip Semiconductor Inc. to further investigate candlelight OLED technology via the highest Ministry of Economic Affairs support in following two years. It’s surely confirmed that the health-friendly candlelight OLED can be commercialized, accessible and affordable for human mankind by the end of 2017.

Additionally, the IDA website announced that “Since 2006, Prof. Jou has worked with students on organic LED (OLED) lighting technologies in an effort to create lighting that minimizes negative impacts to human health. In this work, he and his research team has made numerous breakthroughs, such as the creation of very low color temperature OLED, sunlight-style OLED, pseudo-natural light OLED, and candlelight-style OLED devices. Their candlelight-style OLED has attracted a considerable attention from both academia and industries. Most importantly, the candle-like OLED has also been praised by medical experts and is considered one of the safest electricity-driven lighting sources. This lighting can be used in both indoor and outdoor applications.”

Upcoming lighting industrial trends should be psychological- and physiological- friendly lighting sources. Currently, the gross production value of OLED up to 4,000 billion US dollars.

Candlelight OLED, Source: NTHU

Professor Jou’s Research Team, Source: NTHU

IDA Received by Professor Jou’s Research Team, Source : NTHU

Transparent Electrode Needs Development for Next Generation Display to Surge

December 29, 2015/0 Comments/in /by OLEDNET

Recently, with various research results regarding transparent electrode, interest in next generation transparent electrode is increasing.

In early December, UNIST (Ulsan National Institute of Science and Technology) developed printing technology that can arrange the Ag nanowire in the direction chosen on top of substrate. Ag nanowire is transparent electrode that can be applied to large area flexible touch panel and display products. This technology allows the surface to be flat through the fusion of nanotechnology to the existing printing process and increases transmittance.

Around the same time, ETRI (Electronics and Telecommunications Research Institute) developed technology that replaces thin metal electrode on top of OLED substrate with graphene transparent electrode. The metal electrode that were being used in OLED was mostly silver (Ag) material, but due to the reflection of internal light, the viewing angle changed depending on the angle. The external light also affected picture quality due to reflection. The newly developed technology used graphene that mostly does not reflect internal/external light as transparent electrode and improved transmittance and picture quality.

At present, ITO (indium tin oxide) is most widely used as transparent electrode materials. However, the supply is limited and flexible electronic device application is narrow. As such, the demand for the development of new materials that can replace this is greatly increasing. Particularly, as ITO is not suitable for stretchable device, the next generation transparent electrode development is considered to be a key issue for future display.

At 2016 Production/Process Technology Development and Application Cases by Flexible Transparent Electrode and Film Materials Seminar (December 17) held in Seoul, South Korea, Dr. Won Mok Kim of KIST (Korea Institute of Science and Technology) discussed, of many flexible transparent electrodes, TCO (transparent conductive oxide) production and process technology through presentation titled ‘TCO based flexible transparent electrode production and process technology development trend and applications’.

Of the transparent conductive materials, oxides have been researched the longest, and they are most widely used transparent conductive materials. Oxide including conductive materials have optical band gap of ≥3.0 eV and therefore has high transmittance and can be flexible. Kim revealed that TCO needs further improvement in conductivity and transmittance for display application.

Regarding transparent body, when refractive indexes of components are different, the path of light through the transparent body is refracted. When this occurs, the object becomes hazy although transparent. Haze is quantified and used to assess the transparent body’s performance. Kim explained that for solar cell the haze is purposefully increased to transmit more light to the internal active materials. However, if the display is clouded the clarity of image is reduced and therefore haze has to be lowered. To achieve this, Kim reported that the TCO’s surface roughness has to be reduced.

Kim revealed that there are two issues, temperature and flexibility, when TCO is used as transparent electrode. ITO’s conductivity is highest at 300 ℃, and for ZnO it is around 200 ℃. Channel cracks could occur with TCO when higher than bending strain is applied, and the crack could snap when it is bent further, destroying the device performance. Kim explained that to increase the bending strain, the thickness has to be reduced. However, when doing so as the sheet tension increases, the process has to be designed carefully considering the tradeoff.

Transparent electrode could be applied to display, solar cell, touch panel, and lighting among others and therefore requires much development. Although oxides have been long researched as transparent electrode materials, Kim concluded that even more diverse value can be created through fusion with next generation materials.

OLED and Graphene Together Achieves Innovative Technology

December 24, 2015/0 Comments/in /by OLEDNET

By Choong Hoon Yi

Korean research team is expected to greatly improve display’s transmittance and picture quality through fusing graphene technology, focus of much attention as the new material to OLED technology.

On December 15, ETRI (Electronics and Telecommunications Research Institute) replaced the thin metal electrode that was used as transparent electrode on top of the OLED substrate with graphene transparent electrode, and succeeded in developing original technology that is conductive and transparent.

This research results were presented in Scientific Reports, a journal from the publishers of Nature on December 2.

The metal electrode used in OLED until now has been mostly silver material, but due to the reflection of internal light, the viewing angle changed depending on the angle. The external light also affected picture quality due to reflection.

In order to solve this problem, ETRI research team focused on graphene that mostly does not reflect internal/external light. By replacing the material, the team reported that the transmittance increased by approximately 40% and reflectance improved by approximately 60%.

OLED was successfully lighted by attaching graphene transparent electrode to the organic layer on top of the film form (23 x 23 mm, 30 ㎛ thickness) of substrate. The research team believes this will be able to contribute much when applied to transparent OLED display and white OLED-based large area OLED display in future.

Particularly, unlike the existing vacuum process OLED production method, this technology can be employed via lamination where film is attached to the organic layer and graphene. Therefore, OLED can be produced through simpler process. It is expected that this can be evolved into production technology using roll to roll process.

Additionally, ETRI, together with Hanwha Techwin, is working on applying graphene transparent electrode to OLED’s lower electrode through collaboration of high quality graphene thin film electrode materials. The related technology development results were published online by The IEEE (Institute of Electrical and Electronics Engineers) of Selected Topics in Quantum Electronics.

ETRI’s Dr. Jeong-Ik Lee (soft I/O interface research section) anticipated that “this technology will be able to play a role in widening the gap with latecomer countries in OLED industry where challenging latecomers are strong”.

This research was carried out through Korea’s Ministry of Science, ICT and Future Planning and Institute for Information & Communications Technology Promotion (IITP)’s “Energy reducing environment adapting I/O platform technology development for future advertisement service” project and Ministry of Trade, Industry and Energy and Korea Evaluation Institute of Industrial Technology’s “Substrate size 5.5 generation or larger graphene film and OLED device/panel foundation and application technology development for graphene materials OLED transparent electrode and thin film encapsulation application”.

ETRI is planning to additionally develop sheet tension reducing technology by manufacturing metal in thin, grid forms and enlargement technology to produce mobile display size within 2016.

Through this technology, the research team produced 6 international patent applications and 6 papers. ETRI is intending to transfer the technology to graphene film and display panel companies among others. Commercialization is estimated to begin after 3 years.

1. Graphene transparent electrode applied lit OLED

2. OLED with existing thin metal electrode and graphene electrode OLED comparison (Left: Graphene, Right: Thin Metal, Ag)

3.Film including graphene transparent electrode applied to lamination process using OLED production

3. Comparison graph of existing thin metal electrode OLED and graphene electrode OLED

4. Film including graphene transparent electrode applied to lamination process using OLED production

5. Graphene transparent electrode OLED Production Process

[Process Explanation]

After manufacturing laminated film, formed with bonding layer (BL) and PET film, using surface treated substrate, graphene transparent electrode is transferred on to the bonding layer. By laminating the laminated film that includes graphene transparent electrode on the substrate (lower electrode and organic layer), OLED where graphene transparent electrode is used as upper electrode is complete.

6. Graphene OLED of diverse colors

Heraeus Materials Reveals Innovative Conductive Polymer Transparent Electrode

December 22, 2015/0 Comments/in /by OLEDNET

Heraeus Materials Korea’s Jinwhan Kim

By Choong Hoon Yi

At 2016 Production/Process Technology Development and Application Cases by Flexible Transparent Electrode and Film Materials Seminar (December 17), Heraeus Materials Korea’s Jinwhan Kim revealed new product of Clevios, Heraeus’ main transparent electrode series, through a presentation titled Conductive Polymer-based Flexible Transparent Electrode Production and Process Technology Development Trend and Application Examples.

Transparent electrode possesses high transmittance of ≥ 80% and conductivity of ≤ 500 Ω/ㅁ, and is being used as electronic component for displays including OLED electrode. The transparent electrode can be mainly categorized into 3 types: thin metal film, carbon allotrope, and conductive polymer. Heraeus Materials is considered a major company producing conductive polymer together with SKC.

Although many people regard Heraeus as a company producing gold and silver bullion, Kim explained that Heraeus is focusing on display and semiconductor related chemicals. Particularly, Kim added that Clevios, Heraeus’ representative product, contains over 20 years of PEDOT materials know-how and experience.

Clevios™ P, the existing PEDOT:PSS product, is mostly produced in Leverkusen, Germany, and essentially uses thermal curing. Kim revealed that when Clevios™ P is coated, it shows bluish hue and the degree changes depending on the thickness. The conductivity is 1,000 S/cm and has the refractive index similar to glass.

While the existing Clevios product has sufficient flexibility to be applied to flexible products, Kim reported that future flexible display requires transparent electrode with higher specifications, emphasizing the importance of product development, and introduced new product Clevios™ HY.

High conductive transparent electrode, Ag nanowire was added to the existing Clevios PEDOT:PSS product to produce Clevios™ HY. AG nanowire typically has rough surface but Clevios PEDOT:PSS corrects this by making it flat. The highly flexible new product has relatively low sheet tension of less than 100 Ω/ㅁ. Kim emphasized that this new product can be turned to solvent base and used in printing process, revealing they are developing Clevios™ HYJET, a PEDOT:PSS transparent electrode for printing use.

Now is the Time to Invest for OLED to be the Next Generation Display

December 15, 2015/0 Comments/in /by OLEDNET

By Hyun Jun Jang

On December 10, a seminar specializing company bizocean held ‘2016 Next Generation Display’s Latest Trend and Cutting Edge Industry Application Issues and Business Creation Seminar’ in Korea Technology Center. Professor Changhee Lee of Seoul National University, the first speaker of the seminar, announced that as OLED will become the technology for future display, now is the time for investment by the companies.

Lee reported that the display follows camera’s resolution, and although resolution has been developed up to UHD, he forecast that it will advance further. He also added that higher the resolution, the display performance that consumers demand will increase.

Regarding the current display market status, Lee explained that as the LCD’s margin is falling the market has to turn to OLED, but it is still expensive and capacity is low. Additionally, from the way consumers are still using the term liquid crystal regarding Samsung’s AMOLED smartphone, Lee speculated that people have difficulty in distinguishing between LCD and OLED. He told the audience that the industry should inform the public of the OLED’s differences from LCD through transparent, flexible displays that show OLED’s superior traits, and open the market through product differentiation strategy.

For the future display, Lee pointed out printing OLED. He explained that although printing OLED’s lifetime, particularly blue’s, falls short compared to vacuum evaporation, it is estimated to reach commercialization stage after 2-3 years. Despite the flaws in terms of materials, Lee reported that the advantages such as reduced production cost, fast tact time, and material usage efficiency will lead to the opening of the market. For these reasons, Samsung and LG are carrying out development.

Lee forecast that LCD, in its maturity stage of the industry life cycle, will lead the market for a while, but OLED technology will rapidly evolve and become the focus of the next generation display market. Regarding OLED TV, Lee mentioned that large area OLED mass production through printing technology is urgent in order to achieve price competitiveness. At present, OLED’s capacity is less than 1/100 of LCD. As such, even if there is demand, supply may not be able to meet it and Lee suggested the need for investment to the companies. He added that if there is low supply when the number of customers is high, the opening of the market could be delayed.

Lee mentioned QLED as another future display technology. QLED has the same structure as OLED but uses quantum dot as the emitting materials, changing colors through different sizes. Lee reported that the color gamut is high as the wavelengths are shorter than OLED emitting materials. Also as the same material is used, QLED has an advantage of reduced material production cost and development of micro display with 2,000 ppi is complete. However, Lee added that as the lifetime is nowhere near sufficient, commercialization stage is still far away.

[Analyst Column] LCD Industry Administration to Worsen after 3 Years

December 11, 2015/0 Comments/in /by OLEDNET

Choong Hoon Yi, Chief Analyst, UBI Research

BOE is intending to carry out a large amount of investment in order to operate Gen10.5 LCD line from 2018. Meanwhile, key set makers including Apple, Samsung Electronics, LG Electronics, and Panasonic are devising strategy to move from LCD to OLED for smartphone and premium TV displays. As such, it is becoming more likely for the LCD industry to be in slump from 2018.

At present, the area where LCD industry can create profit is LTPS-LCD for smartphone. The forecast smartphone market for this year is approximately 15 billion units. Of this, Samsung Electronics and Apple are occupying 20% and 15% of the market respectively. OLED equipped units are less than 2 billion.

However, from 2018 the conditions change greatly. Firstly, Apple, which has been using LCD panel only, is estimated to change approximately 40% of the display to OLED from 2017 earliest and 2018 latest. Apple is testing flexible OLED panels of JDI, LG Display, and Samsung Display, and recommending them to invest so flexible OLED can be applied to iPhone from 2017. The total capa. Is 60K at Gen6. As new investments for Gen6 line of Samsung Display and LG Display are expected to be carried out from 2016, supply is theoretically possible from 2017.

Source: UBI Research Database

If 5inch flexible OLED is produced from Gen6 line, under the assumption of 50% yield at 60K capa. 65 million units can be produced annually, and approximately 1 billion units if the yield is 80%. If Apple’s iPhone shipment in 2017 is estimated to be around 2.7 billion units, within the 50-60% yield range approximately 25% of the display is changed to OLED from LCD, and if yield reaches 80% around 40% will change. The companies that are supplying Apple with LCD for smartphone, LG Display, JDI, and Sharp, are expected to show considerable fall in sales and business. These 3 companies could be reduced to deficit financial structure just from Apple’s display change

Furthermore, as Apple is not producing low-priced phones, under the assumption that future iPhone could all have OLED display, Apple could cause the mobile device LCD industry to stumble after 3 years.

Samsung Electronics also is gradually changing Galaxy series display to OLED from LCD. Of the forecast 2015 shipment of 3 billion units, 50%, 1.5 billion units, has OLED display, but Samsung Electronics is expected to increase flexible OLED and rigid OLED equipped products in future. Particularly, as Apple is pushing for flexible OLED application from 2017, Samsung Electronics, whose utilizing OLED as the main force, is estimated to increase flexible OLED usage more than Apple. It is estimated that all Galaxy series product displays will be changed to OLED from 2019.

Under these assumptions, of the estimated smartphone market in 2020 of approximately 20 billion units, Samsung Electronics and Apple’s forecast markets’ 7 billion could be considered to use OLED.

Samsung Display is strengthening supply chain of set companies using their OLED panels. Samsung Display is supplying OLED panels to diverse companies such as Motorola and Huawei as well as Samsung Electronics, and also expected to supply rapidly rising Xiaomi from 2016. If smartphone display is swiftly changed to OLED from LCD from 2017, Chinese display companies that are currently expanding TFT-LCD lines are to be adversely affected.

Additionally, in the premium TV market, LG Electronics mentioned that they will focus on OLED TV industry at this year’s IFA2015. As a part of this, LG Display is planning to expand the current Gen8 34K to 60K by the end of next year. Furthermore, in order to respond to the 65inch market, Gen9.5 line investment is in consideration. In the early 2015, Panasonic commented that they were to withdraw from TV business but changed strategy with new plans of placing OLED TV on the market in Japan and Europe from next year.

As Samsung can no longer be disconnected from the OLED TV business, there are reports of investment for Gen8 OLED for TV line in 2016. Although OLED TV market is estimated to be approximately 350 thousand units this year, in 2016, when Panasonic joins in, it is expected to expand to 1.2 million units. The OLED TV’s market share in ≥55inch TV market is estimated to be only 4% but in premium TV market it is estimated to be significant value of ≥10%.

If Samsung Display invests in Gen8 OLED for TV line in 2016, from H2 2017 supply to Samsung Electronics is possible. As OLED Gen8 line’s minimum investment has to be over 60K to break even, it can be estimated that Samsung Display will invest at least 60K continuously in future.

Under these conditions, LCD industry can only be in crisis. Firstly, it becomes difficult for Sharp to last. Sharp, which is supplying TFT-LCD for Apple’s iPhones and LCD for Samsung Electronics’ TV, will lose key customers. Secondly, BOE, AUO, and JDI, the companies selling LCD panels to these companies, are not ready to produce OLED and therefore damage is inevitable.

BOE is carrying out aggressive investment with plans to lead the display industry in future with operation of Gen10.5 LCD line. Therefore, from 2018, as the main cash cow items disappear, administration pressure could increase.

[2015 OLED Evaluation Seminar] Oxide TFT Technology that 2015 should Spotlight

December 10, 2015/0 Comments/in /by OLEDNET

By Hyun Jun Jang

During the 2015 OLED Evaluation Seminar (December 4) hosted by UBI Research, Professor Jin-Seong Park of Hanyang University gave a presentation titled OLED Oxide TFT Technology Trend, discussing oxide TFT, related industry, and technological issues as well as TFT technology that should receive the spotlight in 2016.

Oxide TFT has an advantage of high mobility and large area uniformity compared to a-Si TFT. As such, it is being more applied to large area OLED panel and used in LG Display’s OLED TV.

Park revealed that there are mainly 4 issues regarding oxide TFT and led with the reliability issue. Oxide TFT is essentially in amorphous state but when crystalized, the density and crystallizability increase; as oxygen does not move away and stay in place, defects occur less and reliability is high. Japan’s SEL and Sharp published CAAC (C-Axis Aligned Crystal) structure related oxide TFT paper, and Cornell University produced CAAC oxide TFT by increasing the substrate temperature and adjusting oxygen’s partial pressure.

The second issue is composition ratio. Park reported that composition ratio is the most closely related characteristic to TFT’s mobility. He revealed that recently research is being carried out centering around IGZO (indium gallium zinc oxide), but also oxide TFT research with different composition ratio is continually published. For example, ITZO (indium tin zinc oxide)’s mobility has been reported to reach 30cm/V_sec, and BOE is working on the related research. Research results, which showed increased mobility and reliability for IGZTO, which is IZTO with G added, was published, as well as ZnON (zinc oxide nitride) TFT’s 100cm/V_sec mobility. BOE demonstrated ZnO TFT applied 14.1inch AMOLED.

The third issue is the device structure. Park explained that efficiency can increase when top gate structure is used to oxide TFT as parasitic capacitor is not needed, but that the process is difficult. However, Park reported that JOLED revealed when self-alignment is used the number of masks used can be reduced and increases performance. This structure is applied to OLED TV by LG Display.

Lastly, Park gave the safety of device as the last issue. Oxide TFT can exhibit degradation effects from light, oxygen, hydrogen, and moisture. Park reported that hydrogen particularly has great effect on the safety. He explained that although the current prevailing OLED TFT is LTPS, as the panel becomes larger there will be technological competition between oxide and LTPS. Reporting that TFT which is cost efficient and shows high performance in diverse factors such as resolution will dominate the market, Park concluded his presentation.

[2015 OLED Evaluation Seminar] Professor Hong Mun-Pyo of Korea University Retraces Flexible OLED’s Key Issues

December 9, 2015/0 Comments/in /by OLEDNET

By Hyun Jun Jang

During the 2015 OLED Evaluation Seminar (December 4) hosted by UBI Research, Professor Hong Mun-Pyo of Korea University gave a talk titled Flexible AMOLED Gas Barrier Technology Development Status. Through this presentation, he discussed in detail flexible OLED’s outline, technological issues, and encapsulation among other key issues.

Flexible display signifies a display that was produced on top of flexible substrate, and not an existing glass substrate, which can bend, fold, or roll without breaking. Hong emphasized flexible display is the next generation display that can simultaneously satisfy consumers and panel makers, and an area that OLED can be more valuable compared to LCD.

There are 3 essential issues in flexible display, substrate, TFT array, and display processes, as well as ancillary issues such as application and cost. Hong reported key issues regarding substrate and display process.

Flexible display uses plastic substrate, instead of glass, that is strong against shock and can bend. Therefore, handling technology that manages plastic substrate is considered a key technology in flexible display production. Hong revealed that for handling technology, a film lamination method and vanish coating method are mainly used. A film lamination method is where plastic substrate is attached to carrier glass using adhesive before being processed and a vanish coating method is where the PI substrate is coated to the carrier glass before processing. He emphasized that no matter which method is used, the debonding technology used to detach the plastic substrate from the glass plays a crucial role in deciding yield.

Hong followed the substrate discussion with encapsulation technology. Encapsulation technology prevents moisture and oxygen that affect OLED panel’s performance from infiltrating in order to increase the display’s lifetime. As it is a core process that decides OLED panel’s yield, OLED panel production companies are focusing on optimum encapsulation technology development.

Key issues of encapsulation technology that is currently being applied to flexible OLED, barrier coating related issues are considered the most important. Barrier coating is the coating applied to the plastic substrate to overcome the limitations that occur as existing glass substrate is replaced by plastic. For flexible encapsulation, as can type or frit seal technologies that were used for glass encapsulation cannot be used, face seal or TFE technologies that can be applied to flexible are used. Also, as the permeability of oxygen and moisture has to be 10^-6g/m²day or less, high performing barrier coating technology is needed.

When barrier coating is used to flexible OLED, generally 3 problems occur. Firstly, physically cracks or particles can develop. Regarding this, Hong explained that this issue can be solved if process is properly maintained. The second problem is micro defects that can arise on the surface of plastic film, which can be solved through optimized process, according to Hong. Lastly, nano-sized pin holes can come up. Hong revealed that multi-layers of barrier coating can solve this problem.

Generally, when OLED panel is produced the thickness of encapsulation layer is not a big issue. However, Hong emphasized that the thickness becomes a core issue when producing flexible OLED panel. He reported that hybrid structure of encapsulation where gas barrier cover plate is attached to passivation layer placed via PECVD can be the solution.

Although the most suitable process technology for hybrid encapsulation production is R2R, as appropriate results are not obtained when CVD is applied to R2R, Hong reported that research is being carried out toward the sputtering using direction. He revealed that if reflection plate is added to the sputtering equipment and neutron beam release is induced, defects that occur during the sputtering process can be reduced as the target thin film stabilizes.

[2015 OLED Evaluation Seminar] Can LG Display and Samsung Display Become OLED Market’s Rule Maker?

December 8, 2015/0 Comments/in /by OLEDNET

By Hyun Jun Jang

At 2015 OLED Evaluation Seminar (December 4) hosted by UBI Research, UBI Research’s president Choong Hoon Yi gave a talk titled AMOLED Panel Industry Trend and Market Forecast discussing OLED industry until 2015 and forecasting 2016 OLED market.

Yi presented 2 issues related to flexible OLED. The first issues he discussed was regarding foldable types in foldable display. Yi explained that in-folding is where display is placed inside and out-folding has display on the outside, and revealed that in-folding type is mainly being developed. He also added that these technologies will be useful in FinTech (financial technology: new form of financial technology using mobile, social network, big data, etc.).

According to Yi, another issue for flexible display is film application. In order to increase the yield of flexible display, film has to replace cover glass. However, this could lead to unpleasant touch sensation and Yi emphasized technology such as polishing has to be applied to improve this to convince the consumers.

Regarding the market, Yi estimated that the total global smartphone market will grow to record approximately 2,000 million units until 2020, with Samsung Electronics’ 400 million units. He also estimated that the OLED display proportion of Samsung’s Galaxy series will continue to increase and that most of Galaxy products will have AMOLED panel in 2019. Of this, Yi announced that flexible OLED and rigid OLED are to record approximately 280 million units and 120 million units respectively. He also forecast that the OLED TV market will grow into approximately 11 million units and that materials and equipment companies will rapidly grow.

At present, the display market is entering low growth state, and companies are focusing on strengthening the market competitiveness through new technology development and production potential increase. Samsung Display is actively striving to increase OLED panel’s supply for external companies. LG Display announced 1.84 billion KRW investment for world’s largest OLED focused P10 factory and other areas.

Yi reported that as flexible OLED evolves, the mobile display resolution competition of the present will disappear, and he estimated that as LTPS-LCD market decreases, the sales of related panel companies, such as BOE, Sharp, JDI, and LGD, will diminish.

Yi also told the audience that he is expecting Samsung Electronics to put OLED TV on the market from 2018 and the sales of the companies, Sharp, AUO, and CSOT, that were supplying them with LCD panels will fall. Essentially, he explained that as the OLED market grows, LCD dealing companies’ position will weaken which will lead to the strengthening of OLED panel production and related companies’ position.

When asked about the future of Korean display panel companies, Yi replied that when LCD and OLED are competing, set companies decides the market. However, if OLED can unite the market, Yi emphasized that the display panel will be rebranded as Rule Maker and LG Display and Samsung Display will be in its center.

[2015 OLED Evaluation Seminar] How can OLED Emitting Materials, Components and Other Materials Markets Survive?

December 7, 2015/0 Comments/in Material /by OLEDNET

By Choong Hoon Yi

At 2015 OLED Evaluation Seminar (December 4) hosted by UBI Research, Sung-Kee Kang, DS Hi-Metal’s CSO, reported that OLED display market has to expand through OLED TV and new applications in order for OLED emitting materials companies to grow.

Presenting under the title of ‘OLED Organic Material Technology, Industry Trend’, Kang introduced the current OLED emitting material value chain. He explained that within OLED emitting materials market, there are too many players considering the current volume and overall OLED display market expansion is a necessity. However, he added that for OLED display to compete against LCD display, OLED TV market has to expand successfully, and new application that utilizes OLED’s characteristics is needed.

In order to expand the market, development of OLED emitting materials and other materials is urgently in demand that meet the required conditions. Kang emphasized that at present new technology seeds promotion for the next OLED is needed as well as development of OLED emitting materials, and other flexible/transparent related materials with new functions.

Considering LG’s active OLED TV marketing, Apple’s interest in OLED panel application, and possibility for Samsung to apply AMOLED to all models among others, OLED market is anticipated to rapidly grow. Together with this, the industries of OLED emitting material and component/other materials with new functions are also expected to considerably grow.

[2015 OLED Evaluation Seminar] Transparent Flexible Display’s Necessity Found in Worth

December 7, 2015/0 Comments/in /by OLEDNET

On December 4, UBI Research hosted 2015 OLED Evaluation Seminar in HJ Convention Center in Seoul, South Korea. The first speaker, LG Display TFD Biz Operation Group’s Chief Research Engineer Jeonghyun Kim spoke on transparent and flexible display’s worth.

Under the title of ‘Transparent/Flexible Display’s Future’, Kim discussed overall development trend of display and marketability. At present, the display market is changing to OLED, but as the growth rate is decreasing Kim added that new market creation is necessary. He explained that this is the time for a breakthrough of new market and transparent flexible display can play the lead. Kim also mentioned the marketability of transparent flexible display that can be actualized through OLED.

Transparent flexible OLED display possesses high technology level required by plastic substrate, low temperature process technology, and module among others. However, while introducing transparent and flexible OLED display’s worth, Kim emphasized the need for related technology development. The transparent display’s worth, mentioned by Kim, includes space expansion potential through home interior design, communication and safety increase within public facilities, AR information on existing transparent area, and sentimental and recreational experience at observatory and gallery. Regarding flexible display’s worth, he cited mobility in thinness and lightness, utilization through digital board, and space expansion through design freedom.

As a prime market for transparent flexible display application, Kim discussed automotive display market; considering the automotive market trend toward driverless/electric vehicles, display utilization inside the vehicle will increase and automotive industry will seek OLED display first.

With the LG Display’s video with diverse applications of transparent flexible display and future direction for display, Kim concluded his presentation.

Planar Aims for Transparent OLED Product Mass Production in Feb 2016

December 2, 2015/0 Comments/in /by OLEDNET

On November 30 (local time), a US based display production company Planar held an online presentation titled ‘Planar Look Thru OLED Transparent Display Webinar’, discussing transparent display traits and disclosing specifications for products which are estimated to be mass produced from February 2016.

Transparent display is defined as a display with see-through screen showing objects behind the display as well as the display contents. Recently, it is receiving much attention as a technology with high potential for diverse applications expanding existing display industry.

Planar explained that unlike the existing display, transparent display pixels are separated into transparent and emitting areas with RGB subpixels located in the emitting area. Planar clarified that what is black on general display becomes see-through and white becomes opaque.

Transparent display’s performance is decided by several factors such as transmittance, brightness, and color gamut. Regarding this, Planar revealed that the transmittance of transparent display is not fixed but can be affected by ambient light; brighter the surrounding environment, higher the transmittance. Additionally, viewers have tendency to perceive the display with higher color gamut as brighter than the actual brightness, and transparent display’s color gamut is therefore an important factor.

In early 2015, Planar revealed a 55inch transparent OLED display prototype. At present, Planar is receiving pre-order and aiming for mass production in February 2016. The company also reported basic specifications for the panel: 45% of transmittance, 100% color gamut, and Full HD (1,920×1,080) of resolution. The product also has 5 input sources: 4 HDMI terminals, and 1 display port.

During the webinar, Planar explained that 32 touch points using IR (infra-red) touch system installation is an option. Although this is less accurate than touch system using touch film, Planar explained that this was an unavoidable choice in order to increase the transmittance. They also added that they are continuing research for new touch system application.

The 55inch panel price starts from under USD 15,000 and Planar is currently receiving pre-order. Although there are many factors that affect transparent OLED’s lifetime, it was measured to be 20,000 hours at LT50. Answering the question on whether it is affected by UV light, Planar explained that it can be UV sensitive and the product was designed to be an indoor installation.

It is estimated that the transparent OLED panel used in the Planar’s product released is produced by Samsung Display as it has the same 45% transmittance, 1920×1080 resolution, and 400nit brightness.

Planar’s Transparent OLED Display to be Mass Produced Source: Planar

Professor Jang-Ung Park of UNIST Discusses Transparent Electrode’s Present and Future

December 1, 2015/0 Comments/in /by OLEDNET

During the International Advanced Materials & Application Technology Expo (November 25-27), Professor Jang-Ung Park of Ulsan National Institute of Science and Technology (UNIST) gave an in-depth lecture on transparent electrode’s new technology and research results under the presentation title of ‘Technology Trend and Development Direction of High Performance Transparent & Stretchable Electrodes Using Graphene and Ag Nanowire Complex’.

Transparent electrode is an electronic component with usually ≥80% transparency, and sheet tension of ≤500Ω/ㅁ of conductivity. This technology is widely used in electronics including LCD front electrode and OLED electrode in display, touchscreen, solar cell, and optoelectronic device.

Park explained that the main market for transparent electrode is display and touchscreen, and announced that the transparent electrode market is to grow into US$4,800 million in 2020 from 2015’s US$ 3,400 million.

The electrode materials that is mainly being used at present is ITO (indium tin oxide) film produced through evaporation or sputtering. ITO’s merits include good conductivity from the low sheet tension and suitable for mass production. However, China is the main producer of the rare main material, indium, and has a drawback of high processing temperature. As such, research for indium replacement is continuing.

Graphene, CNT (carbon nano tube), Ag nanowire, and metal mesh are some of the materials that are in the spotlight as ITO replacement. However, Park emphasized that transparent electrodes that are being developed at present have difficulty in surpassing ITO in terms of electronical and optical properties. Instead, he explained that as the display shape changes, the replacement material can be used for displays where ITO cannot be applied.

At present, ITO is being used as the main electrode material for flat display. However, its weakness against mechanical stress and limitation in flexibility led to some views that flexible display application will be difficult. Regarding this Park explained that thickness of substrate is more important than ITO’s traits for display’s curvature radius and therefore if substrate becomes thinner, ITO can be applied even to foldable display as well as flexible. He added that although folding the display is acceptable, stretchable display is impossible as the properties are destroyed when pulled.

Park emphasized that in order for the wearable display market, including the smartwatch market, to grow, the comfort of the user is important. He reported as a human body does not conform to a specific curvature radius, to improve the user comfort, stretchable panel that can bend in diverse directions is a necessity. For this to be possible, transparent electrode that can replace ITO is required.

For example, watch shaped application can be replaced with stretchable display up to the strap part that wraps around the wrist. Glasses shaped application can have stretchable display for curved areas such as lenses. Also, within textiles industry, research into smart textiles through electronic circuit application is continuing.

As the transparent electrode that can replace ITO, Park suggested graphene and Ag nanowire complex. Ag nanowire reduces high sheet tension of graphene, and graphene prevents Ag nanowire’s oxidization, complementing each other. Park revealed that ≥90% transmittance and ≤30Ω/ㅁ was achieved through research. He emphasized as stretchability increased to 100%, it is suitable for stretchable display.

According to Park, transparent electrode can be applied to transparent stretchable sensor and transparent TFT as well as display. With confirmation of continued research regarding this issue, Park concluded his presentation.

The Opening of OLED TV Market, Starts Now

November 27, 2015/0 Comments/in /by OLEDNET

On November 25, LG Electronics and LG Display announced that they are planning to reveal OLED sculptures in various shapes such as tunnel, waves, cylinder, and others using 250 units of 55inch OLED panels at N Seoul Tower in South Korea. The sculptures will screen diverse contents with artistic merit and provide extraordinary spectacle while advertising OLED’s astonishing picture quality.

This N Seoul Tower OLED sculpture installation is the second OLED signage that LG Electronics revealed to the public; on November 19, LG Electronics installed ‘OLED Moment’, a supersize OLED signage, in 2 locations in Incheon International Airport and held a completion ceremony.

LG Electronics is aiming to lead the OLED TV market through 2 track strategy of OLED TV price reduction and OLED promotion. At the Q2 performance announcement, they revealed their plan for aggressive marketing through OLED promotion. The successive OLED sculpture installation can be seen as a part of LG Electronics’ OLED promotion strategy.

This strategy is analyzed to be fairly effective. On November 3, LG electronics revealed that the October sales figure was 4,500 units which is more than twice the amount sold in the beginning of the year. At the same time, OLED TV is continually falling down. 55inch UHD OLED TV, which was priced around US$ 3,000 on amazon.com in September, fell to the current around US$ 2,000.

Japan’s Panasonic revealed their plan to actively sell UHD OLED TV from 2016. China’s companies including Skyworth, Changhong, Hisense, and Konka are intending to present or release OLED TV.

With LG’s aggressive OLED TV marketing and the increase of OLED TV selling companies, the industry’s attention is on the future OLED TV market’s growth. According to UBI Research, OLED TV market is estimated to grow and record approximately 17 million units in 2020.

LG’s OLED Tunnel to be Installed in N Seoul Tower, LG Electronics

Korea’s Survival Hangs on OLED; Government Support is Urgently Needed

November 24, 2015/0 Comments/in /by OLEDNET

The last 5 years of budget for Korean semiconductor, which is a key industry for the nation, and display related industry’s original technology development expenses was researched and analyzed.

Electronic information device sector’s expenses can be categorized into semiconductor, display, LED/lighting, and evaluation maintenance fee.

In 2011, 130,000 million KRW was provided as technology development expense, but since then the amount annually decreased. In 2015, the amount was 95,000 million KRW, but in 2016, it is estimated to decrease further 42% and only 55,000 million KRW is expected to be provided.

Semiconductor funding for 2015 occupies 58% of the total budget with 54,800 million KRW. Although that amount will be reduced to 35,600 million KRW in 2016, it is expected to occupy 65% of the total funding.

For display section, the 2015 funding is only 19,500 million KRW, a 21% of the total budge. In 2016, this is estimated to fall to 17%.

The government funding for display sector, which is the core of Korean electronic information industry, is around the same level as LED/Lighting sector.

The rapid reduction of government funding for display industry is expected to cause much difficulty in future display business.

The Korean display panel market that is being maintained by 2 companies, Samsung Display and LG Display, recorded 62 billion KRW in 2012. However, it fell to 52 billion KRW in 2014, and the market power is gradually weakening. As Chinese companies are becoming more active in LCD market, Korean companies’ price competitiveness is waning in low-priced panel market.

If BOE’s Gen10.5 line begins operation in 2018, Korean display companies’ market power is analyzed to rapidly fall in LCD market. In order for the Korean display business to take-off again, now is the time for the government to fund OLED panel which has high added value.

ETRI Reveals Graphene Applied OLED Lighting

November 23, 2015/0 Comments/in /by OLEDNET

At R&D Korea 2015 (November 19-21), ETRI (Electronics and Telecommunications Research Institute) revealed OLED lighting and graphene related research results.

Since 2013, ETRI has been participating in ‘Graphene Applied OLED Device/Panel Technology Development’ project as a supervising organization. This project is a part of ‘Graphene Device/Component Commercialization Technology Business’, which is a Korean national project. This project’s ultimate aims include development of graphene electrode material with ≥15Ω sheet resistance, ≥90% transmittance, 3nm thickness, ≤5% sheet resistance uniformity, ≤5nm surface profile, and ≥5.5 generation area, graphene based protection layer that can be used for 5.5 generation 55inch OLED panel with ≤10^-6 g/m²WVTR, graphene anode OLED with ≥90% external quantum efficiency compared to ITO anode OLED, and diagonally 1300mm OLED panel prototype.

In this exhibition, ETRI presented OLED lighting that used graphene as the electrode. ETRI’s Dr. Jeong-Ik Lee explained that recently interest in graphene electrode is increasing to replace ITO electrode and to apply graphene electrode, optical, electrical, and process issues have to be considered. When graphene is used as OLED electrode instead of ITO, thickness and refractive index change optically and electrically energy levels change, and these have to be considered when designing. He also emphasized that in terms of process, it has to be designed keeping in mind of before and after process of electrode procedure. Dr. Lee revealed that at present optical and electrical issues are solved while the process issues are in research stage, and they are planning to present the results of this research within this year.

Graphene, with its high resistivity, is known as next generation electrode material favorable to flexible and foldable. Dr. Lee pointed out that graphene has wider viewing angle than ITO when used as transparent electrode is another important advantage, and particularly as white light source’s spectrum cannot change according to the viewing angle, graphene is suitable for application.

Graphene is a key material with a wide arrange of applications, it is being developed in diverse areas such as OLED encapsulation as well as in electrode sector. The Ministry of Science, ICT and Future Planning of Korea estimated that domestic graphene market will record 19 billion KRW until 2025. Korea Evaluation Institute of Industrial Technology, the organization in charge of this national project, gave their target as developing 9 top technology through graphene and achieve 17 billion KRW sales. Regarding this, Dr. Lee emphasized compared to other countries, Korean investment in graphene is relatively low and that now is the time for the Korean corporations and government agencies to pay more attention higher value-added businesses.

AMOLED Smartphone to Exceed 200 Million Units This Year

November 20, 2015/0 Comments/in /by OLEDNET

It is anticipated that AMOLED display equipped smartphone will exceed 200 million units this year.

According to a market research company UBI Research, AMOLED equipped smartphone recorded 60 million units in Q3 2015, and estimated the total shipment of this year to be above 220 million units. This is approximately a 40% increase compared to last year’s result of 160 million units.

This increase of shipment for AMOLED applied smartphone in 2015 is analyzed to be due to AMOLED panel application to low-to-mid priced smartphone and increase in the number of models produced.

Q3 2015 performance of 60 million units is a 26% QoQ, and 80% YoY, and analyzed to be showing a rapid growth.

[Automotive Display Seminar] Automotive Display, Urgent Transparent Display Technology Development Needed

November 20, 2015/0 Comments/in /by OLEDNET

By Choong Hoon Yi

On November 13, Automotive Display Development Technology and Commercialization Planning seminar was hosted by Educational Center of Future Technology in Yeouido, South Korea.

KATECH (Korea Automotive Technology Institute)’s Dr. Sun-Hong Park explained that “as the automotive display market grows, display market’s domain is expanding” and announced “market for CID (Central Information Display) that mainly functions as navigation device and HUD (Head Up Display) that can show mileage and speed is steadily growing since 2008 and it is anticipated to grow considerably in future”. He added that particularly, 7inch or larger CID is increasing its market share in display market and that CID is becoming larger. He also mentioned that with the increase of traffic accidents from driver’s lack of attention to the road, HUD that can show information on the front window is necessary. However, legibility issues due to brightness and reflectiveness and technological issues such as integration with other display device need to be solved.

Dr. Sun-Hong Park of KATECH (Korea Automotive Technology Institute)

Dr. Chi-Sun Hwang of ETRI (Electronics and Telecommunications Research Institute) compared display technology that can actualize transparent display, and technological issues to be solved in order for it to be applied to automotive. Hwang explained that although display technology that can produce transparent display include LCD, OLED TFEL (thin film EL), HUD (projection) among others, AMOLED is the most suitable considering resolution and transmittance. Although LCD technology level is at commercialization stage, as the transmittance is not high it can interfere with the driver’s viewing field. He also added that “poly Si TFT technology performance is good, transmittance is limited. However, oxide TFT technology’s transmittance is high and performance is continuing to improve, it needs to be more actively developed”. To be used as an automotive display, it has to meet certain conditions such as temperature, production cost, and brightness to be an automotive component as well as being placed in the suitable location in the driver’s viewing field; compared to other general display, automotive display is facing higher number of technical issues.

Dr. Chi-Sun Hwang of ETRI (Electronics and Telecommunications Research Institute)

Source: Dr. Chi-Sun Hwang of ETRI (Electronics and Telecommunications Research Institute)

With the focus on the transparent display from automotive display industry, the interest in the technology needed for the application to automotive is also increasing. In order to lead the automotive display market, understanding of automotive components’ characteristics and effort to solve the diverse issues facing the optimized driving condition are required as well as knowledge of display itself.

[Expert Talk] Dr. Mauro Riva, SAES Group’s OLED/OLET Business Developer, on Encapsulation

November 20, 2015/0 Comments/in /by OLEDNET

Dr. Mauro Riva, SAES Group’s OLED/OLET business developer, discussed his views on OLED in general as well as SAES Group’s technology through his interview with the OLEDNET and presentation at the OLEDs World Summit (October 27-29) titled ‘The Encapsulation Question’.

Encapsulation is required to prevent the oxidation of emitting and electrode materials by blocking moisture and oxygen. It also protects the device from mechanical and physical shocks. The basic configurations of encapsulation can be divided into 3: glass-to-glass, barrier film lamination, and thin film encapsulation methods. Glass-to-glass configuration is applied to rigid AMOLED for mass produced mobile, barrier film lamination and thin film encapsulation methods are used for flexible AMOLED, and barrier film lamination is used for large area AMOLED panel for TV.

Source: SAES Group, OLEDs World Summit 2015

According to Dr. Riva OLED encapsulation is still facing the same issues it had since the beginning: OLED materials’ extreme sensitivity to oxidizing agents and moisture in particular. He added that OLED materials can also be very sensitive to heat or radiations, generating many process constraints. Encapsulation technology is directly related to the lifetime of the OLED device and Dr. Riva raised several questions regarding the current issues surrounding the technology including the appropriate target lifetime, best definition of “lifetime”, and reliability of the “accelerated tests”. He emphasized that while much progress have been made, a “single optimal, universal solution” does not exist yet to meet various encapsulation requirements depending on OLED architecture, materials, environment, applications, etc. As such, encapsulation materials have to be specifically engineered to meet different types of OLED devices while having “exceptionally high barrier properties, and active fillers or getters, capable of absorbing water on a single molecule basis”. Thus, perfecting this technology is a very challenging task, and, according to Dr. Riva, something that requires in depth collaboration between advance encapsulation materials providers and OLED makers.

For their part in this technology progression, Dr. Riva reported that SAES Group provides a very large portfolio of active edge sealants, active transparent fillers, and dispensable getters. He explained that the portfolio is the results of deep know-how in functional polymer composites (FPC), “specially tailored to address customers’ specific OLED designs and processes”. Discussing the FPC during his talk in OLEDs World Summit, Dr. Riva emphasized the versatility of this approach.

Source: SAES Group, OLEDs World Summit 2015

Regarding application methods for SAES Group’s FPC products, Dr. Riva explained that they can be dispensed via screen printing, blading, syringe, ink-jetting, ODF (one drop filling), and even be employed in thin film encapsulation structures, to make them simpler and more reliable. Furthermore, Dr. Riva reported that while SAES Group considers syringe dispensing as one of the main methods for applying their FPC, “ink-jetting is also becoming more and more widespread, together with ODF, especially for active fillers”.

Dr. Riva believes the FPC could play an important role in making the encapsulation more effective, and that SAES Group can “leverage on its advanced materials expertise” and in-depth getter/purification knowledge, to “perfect FPC based encapsulation solutions for OLEDs”. 11% of SAES Group’s net sales is allocated to Research and Innovation every year with strong cooperation with universities and R&D centers. The company is collaborating with many companies in diverse areas of interest such as OLED lighting, manufacturing equipment, specialized food packaging, and gas barrier films. This proactive and collaborating approach will enable the SAES Group to play a key role in developing more marketable OLED devices.

[Expert Talk] OLEDWorks’ Co-founder David DeJoy Talks New Lighting Experience

November 16, 2015/0 Comments/in /by OLEDNET

Through an interview with OLEDNET and his presentation during the OLEDs World Summit (October 27-29), OLEDWorks’ co-founder, chairman and CEO David DeJoy discussed OLEDWorks’ vision and OLED lighting.

OLEDWorks hit the headlines in April this year when it was announced they would acquire key OLED assets and relevant intellectual property from Royal Philips whose main OLED product is Lumiblade. This acquisition was finalized earlier this month, taking this relatively small but already dynamic player within the OLED lighting industry to another level with plans that include continuing production in both Germany and the US, and expanding the product portfolio.

As the world’s first area light source, OLED lighting is naturally diffusive. As the light is uniform without flickers, the glare and eye fatigue is minimized. Although it is similar to LED in that it is a solid-state lighting, OLED produces little heat and color temperature can be easily adjusted. With its thinness of the panel and no need for extra installation space, OLED lighting can bring forth new design perspectives and applications. During his talk, DeJoy commented that OLED will bring the light closer to the user and will deliver a better light experience in diverse settings including patient rooms, recovery rooms in hospitals, retail, and museums.

Although customer response to OLED light quality is extremely positive, DeJoy acknowledged that it is facing many challenges in entering the lighting market and divided the strategy to overcome this into “the four ‘A’s”: awareness, adaptability, availability, and affordability.

The ‘awareness’ includes education about the technology and benefits, as well as confidence in the OLED lighting technology reliability. The effort to build the OLED lighting awareness includes government partnerships such as DOE Funded Gateway Projects, and NYSERDA Demonstration Projects. Designers and architects are also increasingly turning to OLED for inspiration and source material. OLED lighting’s previously mentioned advantages are closely linked to the second ‘A’, ‘adaptability’. Its thinness, lack of heat, and no need for additional installation space mean that OLED lighting can easily be integrated into fixtures and used as a building material by being directly mounted on surfaces. On the subject of ‘availability’, DeJoy emphasized that more luminaire and final products should become more available to specifiers. He added that there are many in product development but they need to get into the hands of the end user. Discussing the ‘affordability’ of OLED lighting, DeJoy used OLED panel cost scenario published by the US Department of Energy which estimates that the panel price will continue to fall to reach US$10/klm, which corresponds to approximately US$100/m², in 2025. DeJoy added that when examining the affordability of OLED lighting, the total cost has to be considered. For example, OLED lighting does not require heat sink or extra installation cost. Also, many applications do not need very high lumen output with focused beams; “it is not all about $/klm”.

Source: US Department of Energy

DeJoy explained that OLEDWorks long term goal is making OLED lighting adaptable and available, making it easier to change the lighting when it is broken, and be user friendly. He reported that OLEDWorks will continue to expand the product portfolio, which now includes Lumiblade, for “increased performance, additional form factors, and additional CCT options, while reducing product costs”. DeJoy also added that this is “akin to the LED evolution and consistent with the U.S. Department of Energy forecast”. With their proactive and enthusiastic approach to the OLED lighting market, the industry is watching OLEDWorks with great interest. OLEDWorks’ effect on OLED lighting market is expected to be significant.

Visionox Reveals 604PPI High Resolution AMOLED

November 13, 2015/0 Comments/in /by OLEDNET

On November 12, Visionox announced that they recently developed 604ppi (approximately 4.85inch) high resolution full color OLED panel through FMM (fine metal mask) using evaporation technology.

Visionox Z-Type(Source : OLED-info)

In 2014, Visionox developed 570ppi RGB AMOLED panel with newly developed pixel structure, Z-Type. This Z-Type arrangement had larger blue sub-pixel with green and red sub-pixels beside it. The new panel has resolution of 604ppi which is a 35ppi increase from the 2014 panel. With this new reveal, Visionox displayed their high resolution OLED technology improvement.

The 604ppi panel combined the self-developed pixel layout under proprietary intellectual property rights and co-developed Chinese FMM. The resolution is 2,560 × 1,440, manufactured using real RGB method and not pentile.

Chinese companies are developing their high resolution AMOLED panel technology at a fast pace. In August, EverDisplay presented 734ppi 6inch panel, and the technology difference with Korean panel companies is rapidly decreasing.

Visionox revealed that this OLED panel shows Visionox’s research development for high resolution OLED is continuing and aptly demonstrated the current results.

604 PPI High Resolution Display Panel (real RGB) (Source: Visionox)

[IWFPE 2015] What Will Replace ITO?

November 11, 2015/0 Comments/in /by OLEDNET

2015 IWFPE (International Workshop on Flexible & Printable Electronics) was held at Le Win Hotel in Jeonju, South Korea (November 4-6). During the workshop, many OLED display related presentations commented on ITO’s replacement material.

Dr. Jennifer Colegrove, CEO of US research company Touch Display Research, discussed hot trends of 2015-2016. Dr. Colegrove included high resolution, transparent display, wearable device, and flexible display in the hot trends. Of these she pointed out ITO replacement material regarding touch panel. She mentioning metal mesh, silver nanowire, CNT, and graphene as materials that could replace ITO. Dr. Colegrove added that the material has to be flexible in order to be applicable to flexible display and needs to have high efficiency.

Hanwha Techwin’s Dr. Seungmin Cho announced that graphene, which has higher uniformity compared to ITO, will be the material of future. With lower resistance than ITO, graphene shows good characteristics, but Dr. Cho explained that high cost and particles produced are issues that need to be solved. He also commented that China selected graphene related national projects and is striving to develop the technology.

Dr. Hyunkoo Lee of ETRI (Electronics and Telecommunications Research Institute) presented that the multi-layered graphene that ETRI, Sungkyunkwan University, and KAIST (Korea Advanced Institute of Science and Technology) co-developed will become the material that can replace ITO. He also introduced the results that as the transmittance is particularly high, it is suitable for transparent display, and compared to silver nanowire material in high resolution top emission structure, the display’s brightness is higher.

ITO replacement development is an issue for the future of display industry’s progress. It is estimated that research development on graphene as one of the ITO replacement electrodes will be actively carried out.

[Merck Display Insight 2015] Merck Reveals Latest Performance Results for Red and Green Solution Process Materials

November 6, 2015/0 Comments/in /by OLEDNET

On November 5, during the 16^th Merck Display Insight 2015 seminar, Merck revealed the development results for solution process materials. The solution process materials presented were red and blue materials’ efficiency, lifetime, and CIE.

At present UDC’s evaporation materials are being used in OLED mass production. UDC’s evaporation material performance, published on the company website, were compared with Merck’s materials. Merck’s red material’s efficiency was 19.1cd/A, lifetime was 5,900 hours, and the CIE was (0.66, 0.34) which were approximately 66% of UDC material’s efficiency (29cd/A), 26% of UDC material’s lifetime (23,000 hours), and showed equal CIE.

For Merck’s green material, efficiency was 76.4cd/A, lifetime was 5,200 hours, and the CIE was (0.32, 0.63). These were approximately 89% of UDC’s green’s 85cd/A of efficiency, and 29% of 18,000 hours of lifetime. The CIE were similar with UDC’s (0.31, 0.63).

The comparison of the published materials’ performance, efficiency of solution process materials are developed to the similar levels as evaporation materials, but material lifetime require more research. Through this seminar, Merck revealed that the LT95’s solution process material’s lifetime will be solution process OLED’s most crucial challenge.

During the question and answer part of the poster session, Merck also revealed positive outlook that full stack solution process OLED product will be produced within the next 3-4 years.

Despite being one of the latecomers within the OLED material business, Merck is producing notable results in solution process material development and OLED material sales. This year’s sales results are anticipated to be higher than expected.

According to 2015 Solution Process OLED Annual Report, published by UBI Research, the key issue for solution process OLED is solution process emitting material performance. The solution process red and green’s efficiency reached to the similar levels as evaporation material. However, lifetime showed to be ≤approx. 30% of evaporation material in LT95. On the other hand, solution process blue is analyzed to be falling behind evaporation material in both lifetime and efficiency. As such, it is estimated that solution process OLED will be mass produced using the hybrid structure where red and green are formed through printing, and blue is formed through evaporation.

[IWFPE 2015] AUO’s Bendable AMOLED

November 6, 2015/0 Comments/in /by OLEDNET

During the IWFPE 2015 (November 4-6) held in Jeonju, South Korea, AUO gave a presentation on bendable AMOLED’s concept and technology first revealed in August.

AUO’s R&D manager Terence Lai reported that the bendable AMOELD can actualize new user interface through applying display’s bending characteristics and this can be the innovation that could change the existing touch interface.

AUO’s bendable AMOLED is 5inch with 295 PPI using the LTPS TFT and hybrid encapsulation with top emission structure. It has 02.mm thickness and through bending sensor of file type, it can process diverse functions by detecting different bending directions.

Current flexible AMOLED trend is moving from curved to foldable, jumping past bendable. Key panel companies and research laboratories are focusing on developing foldable.

It is anticipated that the AUO’s bendable AMOLED panel will provide new direction for the flexible AMOLED development that is heading toward foldable. Development of applications suitable to bendable and functions that utilizes bending characteristics are expected to be key issues.

AUO’s 5″ Bendable AMOLED Prototype

LG OLED TV Records Highest Monthly Sales Volume

November 5, 2015/0 Comments/in Display /by OLEDNET

LG Electronics’ strategy of OLED promotion and OLED TV price reduction appears to be working successfully.

On November 3, LG Electronics reported that the October sales exceeded 4,500 units, twice the volume of early 2015. Particularly, the sales volume of the first week of October exceeded 2,000 units and contributed to breaking the monthly sales volume record.

The OLED TV’s bigger price drops from the last week of September seem to have led the high sales volume in the first week of October. According to Amazon, 55inch FHD curved OLED TV fell to US$ 1,797 from October, approximately a 28% drop from August’s US$ 2,499. 55inch UHD curved OLED TV and UHD flat OLED TV also fell to the US$ 2,000 range, making the price difference with UHD LCD TV to be US$ 500. This price competitiveness is analyzed to contribute to the increased sales volume.

Aggressive marketing is also a factor for this sales volume growth. In September, LG Electronics installed OLED TV in 39 key airports in 23 countries including the US, Germany, and Russia, and revealed plan to install approximately 200 units of OLED TV until the end of October. Advertisement of OLED TV can also be easily seen in Korean subway stations. LG Electronics’ OLED promotion strategy, revealed during the Q2 performance announcement appears to be effective.

Recently, LG Electronics announced their aim to lead the OLED TV market through strengthening OLED=LG image and OLED TV and UHD TV product diversification.

LG 55inch OLED TV Price Changes

LG Electronics Strives to Establish OLED=LG Image

November 3, 2015/0 Comments/in /by OLEDNET

On October 29, during the performance announcement, LG Electronics revealed their plan to carry out aggressive marketing through establishment of OLED=LG image.

LG Electronics Home Entertainment business reported that the TV shipment doubled in this quarter compared its previous quarter due to OLED TV and UHD TV product mix. LG Electronics reported that OLED TV market expansion from Korea and North America into Europe and Russia among others contributed to the sales increase.

LG Electronics is anticipating sales increase in Q4 from peak TV market and general market promotion brought premium TV sales expansion. Accordingly, LG Electronics forecast their Q4 sales to be similar to 2014 and that business profit to increase slightly due to improvement in TV’s profit stabilization.

Regarding aggressive marketing from Chinse TV companies including Hisense, and TCL, Jinho Ha of LG Electronics Home Entertainment planning department, admitted the threat. However, through premium TV technology such as smart TV, design, and OLED, Ha explained that they will secure product superiority. He also added that Chinse companies’ North American TV market share is around 3% in terms of volume and remains minimal in revenue.

New premium OLED TV release brought better than expected response from consumers. It is also receiving positive reviews; several media have selected the product as this year’s TV. The company reported that they will strive to expand the market through extension from the premium TV.

LG Electronics’ total revenue was announced to be 13,000 million USD* with business profit of 270 million USD. Home Entertainment department reported 4,000 million USD, a 9% increase from previous quarter, with business profit of 33 million USD.

* 1 USD = 1,100 KRW

ETRI’s Doo-Hee Cho Receives IEC 1906 Award

November 3, 2015/0 Comments/in Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on, Focus on /by OLEDNET

On October 23, ETRI (Electronics and Telecommunications Research Institute) Information & Communications Core Technology Research Laboratory’s Dr. Doo-Hee Cho received IEC 1906 Award at World Standards Day ceremony. The IEC 1906 Award recognizes exceptional current achievements and it is presented by the International Electrotechnical Commission, one of the top 3 international standards organizations.

Dr. Cho has been active in IEC since his involvement in 2009. The activities include serving as the president of IEC·TC34 (lighting)’s OLED working group and establishment of IEC 62866: Organic Light Emitting Diode (OLED) panels for general lighting – Safety requirements.

Founded in 1906, IEC is one of the top 3 international standards organizations along with ISO (International Organization for Standardization) and ITU (International Telecommunication Union) with 83 member countries. IEC established IEC 1906 Award in 2004. Since then they have been selecting industry’s experts with outstanding contribution to electrotechnical standardization and IEC development and presenting the award annually. With this award for Dr. Cho, acceleration to OLED lighting’s international standardization and OLED lighting business growth are anticipated.

IEC 1906 Award Badge

IEC 1906 Award Certificate

Dr. Doo-Hee Cho

LG Display Reveals Confidence in OLED

November 3, 2015/0 Comments/in /by OLEDNET

On October 22, LG Display emphasized their conviction in large area OLED and plastic OLED once again when announcing the performance results held in LG Twin Towers. LG Display revealed that their future business will be OLED and will lead the market through OLED.

LG Display’s CFO Sang-don Kim announced that OLED is the top priority in terms of portfolio, and regarding display’s future direction, explained that there is new momentum through automotive, IoT, and commercial display. He also added that the sales did not quite meet what was estimated earlier this year but it is on proper track.

LG Display is estimating 400-500 thousand units of OLED TV panel shipment for TV and aiming for 1 million units next year. Regarding the poor sales, he gave trial errors in new technology development, which was the main focus, as the reason. LG Display will plan optimized investment after market trend consideration.

In 2015, 55inch or larger panel for TV occupied 8% of the shipment, but the target is gradually increasing it to 20% or higher. LG Display highlighted TVs are becoming larger at a fast pace; 65inch and 77inch OLED TV, rather than what was expected to be the main product 55inch, showed higher than expected sales. Kim explained that to maximize production cost reduction of OLED panel, they are internally adjusting material cost and yield. He also forecast that the demand will increase through production increasing projects.

LG Display recorded 7,000 million USD* of revenue in 2015 Q3. This 7% increase compared to its previous quarter is due to the increase of shipment area through TV’s panel size increase and success of product mix. Business profit fell by 32% compared to previous quarter with 300 million USD*. LG Display revealed they will push for profit improvement through inventory level management and operation rate adjustment. They also reported they will strengthen competitiveness through synergy with OLED lighting business and showed anticipation for future.

* 1 USD = 1,100 KRW

Absolute Requirements for the Automotive OLED Display’s Success

November 3, 2015/0 Comments/in /by OLEDNET

On October 15, in IMID Exhibition Business Forum held in Korea International Exhibition Center (October 14-16), KATECH (Korea Automotive Technology Institute)’s head of Intelligent Control System R&D Center Dr. Inbeom Yang presented ‘Future of Automotive Technology and the Role of Smart Display’ and forecast the future of automotive display.

Dr. Yang revealed that “if existing vehicles focused on technological factors, future vehicles will evolve entirely centering on the driver, and the automotive display also will develop following this trend”. He also added that the driver’s safety and convenience have to be the priority.

Dr. Yang gave 4 examples of future automotive display. Firstly, he discussed ADAS and their flaws. ADAS (Advanced Driver Assistance Systems) help the driver to operate the vehicle safely. If ADAS can be actualized through displays such as HUD (head-up display), the driver’s safety can be maintained with ease.

The second item mentioned was a function that notifies the driver status reports linked with time and location. Dr. Yang reported that a device needs to be developed that can function in specific situations with sensors and sounds as well as on display.

Dr. Yang forecast that if display, touch technology, and haptic technology are combined and applied to vehicles, operation and feedback will be simpler for the driver. He announced that multi-functional & configuration display will also be introduced which will allow driver to recognize and control.

Audi’s concept vehicle that was presented in IAA 2015 Audi e-tron quattro has full OLED interface and all functions required for the vehicle operation can be controlled via touch display without physical buttons.

As futuristic displays such as these are developed that increases driver’s convenience, the proportion of display within a vehicle is expected to increase, and developed focusing on the driver centered UI (user interface). OLED Display can maximize the driver’s accuracy with fast response rate and high contrast ratio. Along with safety, and design freedom that comes with flexibility, it is suitable for automotive display. However, the linkage with the UI system optimized for the driver is essential rather than performance of the display panel itself; collaboration between display panel companies, and automotive system and peripheral companies is expected to be a major point in early market occupancy between automotive display panel companies.

Audi Q7 3.0 TDI quattro ,Geneva International Motor Show

LG Electronics Bets on OLED TV

November 2, 2015/0 Comments/in /by OLEDNET

LG Electronics actively began aggressive marketing for OLED TV.

In IMID Exhibition (October 14-16), LG Electronics installed an OLED comparison experience zone to allow the visitors to see OLED TV and LCD TV at once. This direct comparison exhibition with OLED and LCD is the 2^nd one after one in WIS 2015. In this exhibition in IMID Exhibition 2015, LG Electronics presented their new 2015 release 55inch UHD LCD TV and 55inch UHD OLED TV. This is considered a reflection of LG Electronics’ determination to target the market through OLED TV rather than LCD TV.

LCD TV is illuminated through BLU and therefore difficult to achieve perfect black. Through IMID Exhibition 2015’s comparison experience zone, LG Electronics emphasized OLED TV’s merits such as perfect black, perfect viewing angle, and ultra slim design.

Since the release of OLED TV, LG Electronics continued presentations that emphasized OLED TV’s advantages in diverse exhibitions. However, recently they are pursuing aggressive promotion focusing on OLED even exhibiting comparison against their own latest LCD TV. On the other hand, their rival Samsung Electronics is maintaining their 2-track strategy of using OLED and LCD in different applications each. The industry is focused on how these development will affect the large area TV market.

OLED Comparison Experience Zone, LG Display, IMID 2015

Samsung to Increase External Transaction by More Than 30%

October 30, 2015/0 Comments/in /by OLEDNET

Samsung Electronics reported a third-quarter earnings through a conference call on October 29 local time. Samsung Display’s Chang Hoon Lee revealed that OLED panel’s production cost can now compete against LCD and the company has plans to increase the external transaction ratio by more than 30% of yield.

The display business department was expected to have a difficult time in Q3 2015 due to the smartphone market’s slowdown of growth and latecomers’ competitiveness increase. However, with the key customer base’s release of new products and increase of new clientele, and secured operation ratio, the performance results improved.

Lee also revealed 2016 strategy of increasing the low-to-medium priced products, expanding the new market, diversifying products, and procuring transaction base. Lee also added that Samsung will prepare to secure new growth power through transparent, mirror, HUD, and automotive display development via technology leadership in areas such as flexible OLED.

It was also announced that the additional installation of OLED line will be decided after examining the market status. A3 line has been in operation since April. Supply competitiveness will be strengthened through complementary investment for existing line.

Samsung Electronics recorded a 6% increase compared to the previous quarter with revenue of USD 47 billion. With the help of currency exchange rate, business profit showed approximately USD455 million compared to the previous quarter with USD 6.7 billion.

Samsung and LG’s Shared Vision for OLED

October 30, 2015/0 Comments/in /by OLEDNET

On the first day of OLEDs World Summit (October 27-29) held in Berkeley, USA, Samsung Display and LG Display gave their talks back to back. Samsung Display’s Vice President Chang Hoon Lee and LG Display’s Joo Soo Lim discussed their thoughts on OLED under the titles of ‘The Future of OLEDs’ and ‘A Future Game Changer’ respectively.

Samsung Display’s Lee, who gave his presentation first, reiterated Samsung Display’s leadership position in the mobile market and how Samsung Electronics’ recent mobile display reflects this. Comparing RGB pixel structure and their own diamond pixel structure, Lee drew comparison between human eyes and diamond pixels; due to cell distribution in eyes, humans are more sensitive to green colors and that diamond pixels reflect this by having twice as many green subpixels as blue and red ones. The diamond pixels also maximize the sub-pixel packing and increases the PPI.

Regarding the advantages of OLED display, Lee gave 2 examples using Samsung Electronics’ latest smartphone models. Utilizing the fact that selective control of each pixel is possible in AMOLED displays, Samsung provided Vision Aid to help people with color blindness. OLED’s ability to achieve total black is used in Super Dimming function where screen brightness can be reduced to 2nits to be used in the dark environment.

LG Display’s Lim revealed that an adult in the US spends 9 hours 40 minutes a day on average looking at one form of display or another. Highlighting the need and importance of quality display, Lim also discussed advantages of OLED display over LCD such as total black, 3D effects, and color gamut.

As the future OLED display, Both Lee and Lim placed slightly more emphasis on flexible (plastic) OLED than transparent or mirror display. Samsung Display discussed requirements necessary for a successful flexible display in more depth touching on the need for suitable cover window, flexible touch (sensor), flexible encapsulation, and flexible backplane. On the other hand, LG Display discussed flexible display’s design freedom and its influences on the wearable, mobile, and automotive markets. Lim also placed much importance on how flexible OLED can be used in virtual reality display market. The 2 speakers ended their talks affirming the need for new display market and innovation through OLED technology and new applications.

The presentations given by the 2 apparent leaders in the OLED display industry were remarkably similar with both speakers underlining major points of OLED in broad strokes. The need for solutions for future OLED, whether it be flexible, transparent, or mirror display, through innovation and technological advances is an absolute truth if not maybe too obvious. There also may be some comfort to be had in the shared vision within the OLED community. However, it is also a fact that numerous attendees of the conference commented on the similarities of the 2 presentations and the lack of any surprises.

What is Solution Process OLED’s Key Issue?

October 25, 2015/0 Comments/in /by OLEDNET

In the 2015 Display Printed Electronics Seminar held in The K Hotel in Seoul on October 7, Dankook University’s Professor Byung Doo Chin and Korea Research Institute of Chemical Technology’s Dr. Jaemin Lee gave presentations. They discussed key issues of solution process OLED; Professor Chin examined technological issues of print OLED/PLED device while Dr. Lee discussed technology trend of solution process OLED device.

Professor Chin reported that of the materials being used in current solution process, red, and green progressed greatly in terms of efficiency and lifetime. However, he explained that as blue’s efficiency and lifetime are lower than the other 2 colors, unless these issues improve, white actualization, as well as blue actualization, is difficult and panel cannot properly perform.

Material research development can occur for evaporation OLED only through material synthesis and purification. However, for solution process OLED, turning the materials to ink has to be additionally considered. Dr. Lee announced that diverse collaboration are happening between material and ink related companies for these reasons.

In the seminar, Professor Chin and Dr. Lee agreed that the key to the solution process OLED development is material characteristics development. According to the solution process material traits presented by Sumitomo Chem. and DuPont, while red and green traits are fast catching up to ones used for evaporation OLED, this is not true for blue. Despite these disadvantages, solution process OLED is a key technology that can produce large area RGB OLED panel using Gen8, or higher, manufacturing equipment; continued research development of solution process technology is expected in future.

Samsung Display Expands AMOLED Panel Supply. A Green Light for AMOLED Business?

October 23, 2015/0 Comments/in /by OLEDNET

On October 7, Samsung Electronics announced tentative Q3 performance results. The announced sales figure and operating profit are approximately US$ 46,000 million and US$ 7,000 million each. These figures are an increase of 5.07% from previous quarter’s sales (US$ 44 thousand million) and a 5.8% increase from previous quarter’s operating profit (US$ 6,000 million), much higher numbers than industry’s expectations.

Compared to the same period in 2014, operating profit increased by 79.80%, and since last year’s Q4, the rise is continuing for the 4^th quarter. The display business department’s much higher figures than expected is considered to be the main reason for this performance increase.

The major cause for this positive effects is increase in demand for general class AMOLED panel through Samsung Display’s aggressive procurement of customer base; AMOLED panel is applied to Samsung Electronics’ mid to low priced smartphones and there is great increase in AMOLED panel applied products by set companies of other countries such as China.

Due to the increased demand, Samsung Display’s operation rate rose, and it is estimated that this will also greatly affect material companies’ performance improvement.

Solution Process Panel, Cheaper To Produce than LCD

October 22, 2015/0 Comments/in /by OLEDNET

According to 2015 Solution Process OLED Report, published by UBI Research on October 14, solution process technology could produce 55inch OLED panel at approximately 43% cheaper cost compared to WRGB method.

The report added that this value is the result of analysis of 2015 Q2 55inch UHD OLED panel price and yield, which is slightly higher than current production price of 55inch UHD LCD panel. However, considering that the solution process OLED structure will become simplified and that yield of backplane and encapsulation can be improved, the OLED panels will be able to be produced at lower cost than LCD panel. The report also revealed that solution process OLED can be an alternative solution for large area OLED panel in achieving price competitiveness.

Solution process is a technology that can produce large area RGB pixel OLED panel using Gen8, or higher, equipment without cutting the mother glass. Key AMOLED panel companies are active in developing this technology.

However, as solvent is used in order to turn the existing evaporation material into ink, its purity is decreased leading to lower emitting efficiency and therefore lower lifetime. Despite these factors, key panel companies’ enthusiasm for solution process technology is due to the high emitting material usage efficiency without using color filter, and simple structure compared to WRGB OLED panel which leads to production cost decrease.

Panasonic has been most active in developing solution process applied OLED panel, and has presented several times in CES and IFA. BOE and AUO also have revealed solution process OLED panel produced via ink-jet manufacturing equipment, and CSOT is considering solution process development. Samsung Display and LG Display, leaders of AMOLED industry, are also actively developing the technology. LG Display has adopted Gen8 ink-jet manufacturing equipment, and Samsung Display has started solution process OLED panel development with a focus on ink-jet manufacturing equipment companies.

Material and manufacturing equipment companies as well as panel companies are leading the solution process technology development and commercialization. Kateeva agreed on technology collaboration with Sumitomo Chem. while Merck did the same with Seiko Epson. DuPont recently revealed that they enlarged solution process OLED material production facilities and began operation.

Following these participation by key panel, material, and manufacturing equipment companies in solution process technology development and commercialization, it is anticipated that the solution process OLED panel market will record rapid growth.

UBI Research’s 2015 Solution Process OLED Report forecast that solution process OLED panel market will actively begin mass production from 2018 and show approximately US$ 2,329 million in 2020.

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