lcd panel generations in stock

Flat-panel displays are thin panels of glass or plastic used for electronically displaying text, images, or video. Liquid crystal displays (LCD), OLED (organic light emitting diode) and microLED displays are not quite the same; since LCD uses a liquid crystal that reacts to an electric current blocking light or allowing it to pass through the panel, whereas OLED/microLED displays consist of electroluminescent organic/inorganic materials that generate light when a current is passed through the material. LCD, OLED and microLED displays are driven using LTPS, IGZO, LTPO, and A-Si TFT transistor technologies as their backplane using ITO to supply current to the transistors and in turn to the liquid crystal or electroluminescent material. Segment and passive OLED and LCD displays do not use a backplane but use indium tin oxide (ITO), a transparent conductive material, to pass current to the electroluminescent material or liquid crystal. In LCDs, there is an even layer of liquid crystal throughout the panel whereas an OLED display has the electroluminescent material only where it is meant to light up. OLEDs, LCDs and microLEDs can be made flexible and transparent, but LCDs require a backlight because they cannot emit light on their own like OLEDs and microLEDs.

Liquid-crystal display (or LCD) is a thin, flat panel used for electronically displaying information such as text, images, and moving pictures. They are usually made of glass but they can also be made out of plastic. Some manufacturers make transparent LCD panels and special sequential color segment LCDs that have higher than usual refresh rates and an RGB backlight. The backlight is synchronized with the display so that the colors will show up as needed. The list of LCD manufacturers:

Organic light emitting diode (or OLED displays) is a thin, flat panel made of glass or plastic used for electronically displaying information such as text, images, and moving pictures. OLED panels can also take the shape of a light panel, where red, green and blue light emitting materials are stacked to create a white light panel. OLED displays can also be made transparent and/or flexible and these transparent panels are available on the market and are widely used in smartphones with under-display optical fingerprint sensors. LCD and OLED displays are available in different shapes, the most prominent of which is a circular display, which is used in smartwatches. The list of OLED display manufacturers:

MicroLED displays is an emerging flat-panel display technology consisting of arrays of microscopic LEDs forming the individual pixel elements. Like OLED, microLED offers infinite contrast ratio, but unlike OLED, microLED is immune to screen burn-in, and consumes less power while having higher light output, as it uses LEDs instead of organic electroluminescent materials, The list of MicroLED display manufacturers:

LCDs are made in a glass substrate. For OLED, the substrate can also be plastic. The size of the substrates are specified in generations, with each generation using a larger substrate. For example, a 4th generation substrate is larger in size than a 3rd generation substrate. A larger substrate allows for more panels to be cut from a single substrate, or for larger panels to be made, akin to increasing wafer sizes in the semiconductor industry.

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[Introduction]: This paper analyzes the competitive pattern of the panel display industry from both supply and demand sides. On the supply side, the optimization of the industry competition pattern by accelerating the withdrawal of Samsung’s production capacity is deeply discussed. Demand-side focuses on tracking global sales data and industry inventory changes.

Since April 2020, the display device sector rose 4.81%, ranking 11th in the electronic subsectors, 3.39 percentage points behind the SW electronic sector, 0.65 percentage points ahead of the Shanghai and Shenzhen 300 Index. Of the top two domestic panel display companies, TCL Technology is up 11.35 percent in April and BOE is up 4.85 percent.

Specific to the panel display plate, we still do the analysis from both ends of supply and demand: supply-side: February operating rate is insufficient, especially panel display module segment grain rate is not good, limited capacity to boost the panel display price. Since March, effective progress has been made in the prevention and control of the epidemic in China. Except for some production lines in Wuhan that have been delayed, other domestic panels show that the production lines have returned to normal. In South Korea, Samsung announced recently that it would accelerate its withdrawal from all LCD production lines. This round of output withdrawal exceeded market expectations both in terms of pace and amplitude. We will make a detailed analysis of it in Chapter 2.

Demand-side: We believe that people spend more time at home under the epidemic situation, and TV, as an important facility for family entertainment, has strong demand resilience. In our preliminary report, we have interpreted the pick-up trend of domestic TV market demand in February, which also showed a good performance in March. At present, the online market in China maintains a year-on-year growth of about 30% every week, while the offline market is still weak, but its proportion has been greatly reduced. At present, people are more concerned about the impact of the epidemic overseas. According to the research of Cinda Electronics Industry Chain, in the first week, after Italy was closed down, local TV sales dropped by about 45% from the previous week. In addition, Media Markt, Europe’s largest offline consumer electronics chain, also closed in mid-March, which will affect terminal sales to some extent, and panel display prices will continue to be under pressure in April and May. However, we believe that as the epidemic is brought under control, overseas market demand is expected to return to the pace of China’s recovery.

From a price perspective, the panel shows that prices have risen every month through March since the bottom of December 19 reversed. However, according to AVC’s price bulletin of TV panel display in early April, the price of TV panel display in April will decrease slightly, and the price of 32 “, 39.5 “, 43 “, 50 “and 55” panels will all decrease by 1 USD.65 “panel shows price down $2; The 75 “panel shows the price down by $3.The specific reasons have been described above, along with the domestic panel display production line stalling rate recovery, supply-side capacity release; The epidemic spread rapidly in Europe and the United States, sports events were postponed, local blockades were gradually rolled out, and the demand side declined to a certain extent.

Looking ahead to Q2, we think prices will remain under pressure in May, but prices are expected to pick up in June as Samsung’s capacity is being taken out and the outbreak is under control overseas. At the same time, from the perspective of channel inventory, the current all-channel inventory, including the inventory of all panel display factories, has fallen to a historical low. The industry as a whole has more flexibility to cope with market uncertainties. At the same time, low inventory is also the next epidemic warming panel show price foreshadowing.

In terms of valuation level, due to the low concentration and fierce competition in the panel display industry in the past ten years, the performance of sector companies is cyclical to a certain extent. Therefore, PE, PB, and other methods should be comprehensively adopted for valuation. On the other hand, the domestic panel shows that the leading companies in the past years have sustained large-scale capital investment, high depreciation, and a long period of poor profitability, leading to the inflated TTM PE in the first half of 2014 to 2017. Therefore, we will display the valuation level of the sector mainly through the PB-band analysis panel in this paper.

In 2017, due to the combined impact of panel display price rise and OLED production, the valuation of the plate continued to expand, with the highest PB reaching 2.8 times. Then, with the price falling, the panel shows that PB bottomed out at the end of January 2019 at only 1.11 times. From the end of 2019 to February, the panel shows that rising prices have driven PB all the way up, the peak PB reached 2.23 times. Since entering March, affected by the epidemic, in the short term panel prices under pressure, the valuation of the plate once again fell back to 1.62 times. In April, the epidemic situation in the epidemic country was gradually under control, and the valuation of the sector rebounded to 1.68 times.

We believe the sector is still at the bottom of the stage as Samsung accelerates its exit from LCD capacity and industry inventories remain low. Therefore, once the overseas epidemic is under control and the domestic demand picks up, the panel shows that prices will rise sharply. In addition, the plate will also benefit from Ultra HD drive in the long term. Panel display plate medium – and long-term growth logic is still clear. Coupled with the optimization of the competitive pattern, industry volatility will be greatly weakened. The current plate PB compared to the historical high has sufficient space, optimistic about the plate leading company’s investment value.

Revenue at Innolux and AU Optronics has been sluggish for several months and improved in March. Since the third quarter of 2017, Innolux’s monthly revenue growth has been negative, while AU Optronics has only experienced revenue growth in a very few months.AU Optronics recorded a record low revenue in January and increased in February and March. Innolux’s revenue returned to growth in March after falling to its lowest in recent years in February. However, because the panel display manufacturers in Taiwan have not put in new production capacity for many years, the production process of the existing production line is relatively backward, and the competitiveness is not strong.

On March 31, Samsung Display China officially sent a notice to customers, deciding to terminate the supply of all LCD products by the end of 2020.LGD had earlier announced that it would close its local LCDTV panel display production by the end of this year. In the following, we will analyze the impact of the accelerated introduction of the Korean factory on the supply pattern of the panel display industry from the perspective of the supply side.

The early market on the panel display plate is controversial, mainly worried about the exit of Korean manufacturers, such as LCD display panel price rise, or will slow down the pace of capacity exit as in 17 years. And we believe that this round of LCD panel prices and 2017 prices are essentially different, the LCD production capacity of South Korean manufacturers exit is an established strategy, will not be transferred because of price warming. Investigating the reasons, we believe that there are mainly the following three factors driving:

(1) Under the localization, scale effect, and aggregation effect, the Chinese panel leader has lower cost and stronger profitability than the Japanese and Korean manufacturers. In terms of cost structure, according to IHS data, material cost accounts for 70% of the cost displayed by the LCD panel, while depreciation accounts for 17%, so the material cost has a significant impact on it. At present, the upstream LCD, polarizer, PCB, mold, and key target material line of the mainland panel display manufacturers are fully imported into the domestic, effectively reducing the material cost. In addition, at the beginning of the factory, manufacturers not only consider the upstream glass and polarizer factory but also consider the synergy between the downstream complete machine factory, so as to reduce the labor cost, transportation cost, etc., forming a certain industrial clustering effect. The growing volume of shipments also makes the economies of scale increasingly obvious. In the long run, the profit gap between the South Korean plant and the mainland plant will become even wider.

(2) The 7 and 8 generation production lines of the Korean plant cannot adapt to the increasing demand for TV in average size. Traditionally, the 8 generation line can only cut the 32 “, 46 “, and 60” panel displays. In order to cut the other size panel displays economically and effectively, the panel display factory has made small adjustments to the 8 generation line size, so there are the 8.5, 8.6, 8.6+, and 8.7 generation lines. But from the cutting scheme, 55 inches and above the size of the panel display only part of the generation can support, and the production efficiency is low, hindering the development of large size TV. Driven by the strong demand for large-size TV, the panel display generation line is also constantly breaking through. In 2018, BOE put into operation the world’s first 10.5 generation line, the Hefei B9 plant, with a designed capacity of 120K/ month. The birth of the 10.5 generation line is epoch-making. It solves the cutting problem of large-size panel displays and lays the foundation for the outbreak of large-size TV. From the cutting method, one 10.5 generation line panel display can effectively cut 18 43 inches, 8 65 inches, 6 75 inches panel display, and can be more efficient in hybrid mode cutting, with half of the panel display 65 inches, the other half of the panel display 75 inches, the yield is also guaranteed. Currently, there are a total of five 10.5 generation lines in the world, including two for domestic panel display companies BOE and Huaxing Optoelectronics. Sharp has a 10.5 generation line in Guangzhou, which is mainly used to produce its own TV. Korean manufacturers do not have the 10.5 generation line. In the context of the increasing size of the TV, Korean manufacturers are obviously at a disadvantage in competitiveness.

(3) As the large-size OLED panel display technology has become increasingly mature, Samsung and LGD hope to transfer production to large-size OLED with better profit prospects as soon as possible. Apart from the price factor, the reason why South Korean manufacturers are exiting LCD production is more because the large-size OLED panel display technology is becoming mature, and Samsung and LGD hope to switch to large-size OLED production as soon as possible, which has better profit prospects. At present, there are three major large-scale OLED solutions including WOLED, QD OLED, and printed OLED, while there is only WOLED with a mass production line at present.

According to statistics, shipments of OLED TVs totaled 2.8 million in 2018 and increased to 3.5 million in 2019, up 25 percent year on year. But it accounted for only 1.58% of global shipments. The capacity gap has greatly limited the volume of OLED TV.LG alone consumes about 47% of the world’s OLED TV panel display capacity, thanks to its own capacity. Other manufacturers can only purchase at a high price. According to the industry chain survey, the current price of a 65-inch OLED panel is around $800-900, while the price of the same size LCD panel is currently only $171.There is a significant price difference between the two.

Samsung and LGD began to shut down LCD production lines in Q3 last year, leading to the recovery of the panel display sector. Entering 2020, the two major South Korean plants have announced further capacity withdrawal planning. In the following section, we will focus on its capacity exit plan and compare it with the original plan. It can be seen that the pace and magnitude of Samsung’s exit this round is much higher than the market expectation:

(1) LGD: LGD currently has three large LCD production lines of P7, P8, and P9 in China, with a designed capacity of 230K, 240K, and 90K respectively. At the CES exhibition at the beginning of this year, the company announced that IT would shut down all TV panel display production capacity in South Korea in 2020, mainly P7 and P8 lines, while P9 is not included in the exit plan because IT supplies IT panel display for Apple.

(2) Samsung: At present, Samsung has L8-1, L8-2, and L7-2 large-size LCD production lines in South Korea, with designed production capacities of 200K, 150K, and 160K respectively. At the same time in Suzhou has a 70K capacity of 8 generation line.

Global shipments of TV panel displays totaled 281 million in 2019, down 1.06 percent year on year, according to Insight. In fact, TV panel display shipments have been stable since 2015 at between 250 and 300 million units. At the same time, from the perspective of the structure of sales volume, the period from 2005 to 2010 was the period when the size of China’s TV market grew substantially. Third-world sales also leveled off in 2014. We believe that the sales volume of the TV market has stabilized and there is no big fluctuation. The impact of the epidemic on the overall demand may be more optimistic than the market expectation.

In contrast to the change in volume, we believe that the core driver of the growth in TV panel display demand is actually the increase in TV size. According to the data statistics of Group Intelligence Consulting, the average size of TV panel display in 2014 was 0.47 square meters, equivalent to the size of 41 inches screen. In 2019, the average TV panel size is 0.58 square meters, which is about the size of a 46-inch screen. From 2014 to 2019, the average CAGR of TV panel display size is 4.18%. Meanwhile, the shipment of TV in 2019 also increased compared with that in 2014. Therefore, from 2014 to 2019, the compound growth rate of the total area demand for TV panel displays is 6.37%.

It is assumed that 4K screen and 8K screen will accelerate the penetration and gradually become mainstream products in the next 2-3 years. The pace of screen size increase will accelerate. We have learned through industry chain research that the average size growth rate of TV will increase to 6-8% in 2020. Driven by the growth of the average size, the demand area of global TV panel displays is expected to grow even if TV sales decline, and the upward trend of industry demand remains unchanged.

Meanwhile, the global LCDTV panel display demand will increase significantly in 2021, driven by the recovery of terminal demand and the continued growth of the average TV size. In 2021, the whole year panel display will be in a short supply situation, the mainland panel shows that both males will enjoy the price elasticity.

This paper analyzes the competition pattern of the panel display industry from both supply and demand sides. On the supply side, the optimization of the industry competition pattern by accelerating the withdrawal of Samsung’s production capacity is deeply discussed. Demand-side focuses on tracking global sales data and industry inventory changes. Overall, we believe that the current epidemic has a certain impact on demand, and the panel shows that prices may be under short-term pressure in April or May. But as Samsung’s exit from LCD capacity accelerates, industry inventories remain low. So once the overseas epidemic is contained and domestic demand picks up, the panel suggests prices will surge. We are firmly optimistic about the A-share panel display plate investment value, maintain the industry “optimistic” rating. Suggested attention: BOE A, TCL Technology.

The upstream materials or components of the LCD panel industry mainly include liquid crystal materials, glass substrates, polarizing lenses, and backlight LEDs (or CCFL, which accounts for less than 5% of the market).

The middle reaches is the main panel factory processing and manufacturing, through the glass substrate TFT arrays and CF substrate, CF as upper and TFT self-built perfusion liquid crystal and the lower joint, and then put a polaroid, connection driver IC and control circuit board, and a backlight module assembling, eventually forming the whole piece of LCD module. The downstream is a variety of fields of application terminal-based brand, assembly manufacturers. At present, the United States, Japan, and Germany mainly focus on upstream raw materials, while South Korea, Taiwan, and the mainland mainly seek development in mid-stream panel manufacturing.

With the successive production of the high generation line in mainland China, the panel production capacity and technology level have been steadily improved, and the industrial competitiveness has been gradually enhanced. Nowadays, the panel industry is divided into three parts: South Korea, mainland China, and Taiwan, and mainland China is expected to become the no.1 in the world in 2019.

In the past decade, China’s panel display industryhas achieved leapfrog development, and the overall size of the industry has ranked among the top three in the world. Chinese mainland panel production capacity is expanding rapidly, although Japanese panel manufacturers master a large number of key technologies, gradually lose the price competitive advantage, compression panel production capacity. Panel production is concentrated in South Korea, Taiwan, and China, which is poised to become the world’s largest producer of LCD panels.

Up to 2016, BOE‘s global market share continued to increase: smartphone LCD, tablet PC display, and laptop display accounted for the world’s first market share, and display screen increased to the world’s second, while TV LCD remained the world’s third. In LCD TV panels, Chinese panel makers have accounted for 30 percent of global shipments to 77 million units, surpassing Taiwan’s 25.5 percent market share for the first time and ranking second only to South Korea.

In terms of the area of shipment, the area of board shipment of JD accounted for only 8.3% in 2015, which has been greatly increased to 13.6% in the first half of 2016, while the area of shipment of hu xing optoelectronics in the first half of 2015 was only 5.1%, which has reached 7.8% in the first half of 2016. The panel factories in mainland China are expanding their capacity at an average rate of double-digit growth and transforming it into actual shipments and areas of shipment. On the other hand, although the market share of South Korea, Japan, and Taiwan is gradually decreasing, some South Korean and Japanese manufacturers have been inclined to the large-size HD panel and AMOLED market, and the production capacity of the high-end LCD panel is further concentrated in mainland China.

Domestic LCD panel production line capacity gradually released, overlay the decline in global economic growth, lead to panel makers from 15 in the second half began, in a low profit or loss, especially small and medium-sized production line, the South Korean manufacturers take the lead in transformation strategy, closed in medium and small size panel production line, South Korea’s 19-panel production line has shut down nine, and part of the production line is to research and development purposes. Some production lines are converted to LTPS production lines through process conversion. Korean manufacturers are turning to OLED panels in a comprehensive way, while Japanese manufacturers are basically giving up the LCD panel manufacturing business and turning to the core equipment and materials side. In addition to the technical direction of the research and judgment, more is the LCD panel business orders and profits have been severely compressed, Korean and Japanese manufacturers have no desire to fight. Since many OLED technologies are still in their infancy in mainland China, it is a priority to move to high-end panels such as OLED as soon as possible. Taiwanese manufacturers have not shut down factories on a large scale, but their advantages in LCD technology and OLED technology have been slowly eroded by the mainland.

STONE provides a full range of 3.5 inches to 15.1 inches of small and medium-size standard quasi TFT LCD module, LCD display, TFT display module, display industry, industrial LCD screen, under the sunlight visually highlight TFT LCD display, industrial custom TFT screen, TFT LCD screen-wide temperature, industrial TFT LCD screen, touch screen industry. The TFT LCD module is very suitable for industrial control equipment, medical instruments, POS system, electronic consumer products, vehicles, and other products.STONE provides a full range of 3.5 inches to 15.1 inches of small and medium-size standard quasi TFT LCD module, LCD display, TFT display module, display industry, industrial LCD screen, under the sunlight visually highlight TFT LCD display, industrial custom TFT screen, TFT LCD screen-wide temperature, industrial TFT LCD screen, touch screen industry. The TFT LCD module is very suitable for industrial control equipment, medical instruments, POS system, electronic consumer products, vehicles, and other products.

In both LCD and OLED displays, producing these cells – which are highly complex – is by far the most difficult element of the production process. Indeed, the complexity of these cells, combined with the levels of investment needed to achieve expertise in their production, explains why there are less than 30 companies in the whole world that can produce them. China, for instance, has invested more than 300 billion yuan (approximately $45 billion USD) in just one of these companies – BOE – over the past 14 years.

Panox Display has been involved in the display industry for many years and has built strong and long-term partner relationships with many of the biggest OLED and LCD panel manufacturers. As a result, we are able to offer our clients guaranteed access to display products from the biggest manufacturers.

LG Display was, until 2021, the No. 1 display panel manufacturer in the world. Owned by LG Group and headquartered in Seoul, South Korea, it has R&D, production, and trade institutions in China, Japan, South Korea, the United States, and Europe.

Founded in 2001, AUO – or AU Optronics – is the world’s leading TFT-LCD panel manufacturer (with a 16% market share) that designs, develops, and manufactures the world’s top three liquid crystal displays. With panels ranging from as small as 1.5 inches to 46 inches, it boasts one of the world"s few large-, medium -and small-sized product lines.

AUO offers advanced display integration solutions with innovative technologies, including 4K2K ultra-high resolution, 3D, ultra-thin, narrow bezel, transparent display, LTPS, OLED, and touch solutions. AOU has the most complete generation production line, ranging from 3.5G to 8.5G, offering panel products for a variety of LCD applications in a range of sizes, from as small as 1.2 inches to 71 inches.

Now Sharp is still top 10 TV brands all over the world. Just like BOE, Sharp produce LCDs in all kinds of size. Including small LCD (3.5 inch~9.1 inch), medium LCD (10.1 ~27 inch), large LCD (31.5~110 inch). Sharp LCD has been used on Iphone series for a long time.

Beside those current LCDs, the industrial LCD of Sharp is also excellent and widely used in public facilities, factories, and vehicles. The Sharp industrial LCD, just means solid, high brightness, super long working time, highest stability.

Since its establishment, Truly Semiconductors has focused on researching, developing, and manufacturing liquid crystal flat panel displays. Now, after twenty years of development, it is the biggest small- and medium-sized flat panel display manufacturer in China.

Truly’s factory in Shanwei City is enormous, covering an area of 1 million square meters, with a net housing area of more than 100,000 square meters. It includes five LCD production lines, one OLED production line, three touch screen production lines, and several COG, LCM, MDS, CCM, TAB, and SMT production lines.

Its world-class production lines produce LCD displays, liquid crystal display modules (LCMs), OLED displays, resistive and capacitive touch screens (touch panels), micro camera modules (CCMs), and GPS receiving modules, with such products widely used in the smartphone, automobile, and medical industries. The LCD products it offers include TFT, TN, Color TN with Black Mark (TN type LCD display for onboard machines), STN, FSTN, 65K color, and 262K color or above CSTN, COG, COF, and TAB modules.

In its early days, Innolux attached great importance to researching and developing new products. Mobile phones, portable and mounted DVD players, digital cameras, games consoles, PDA LCDs, and other star products were put into mass production and quickly captured the market, winning the company considerable market share.

Looking forward to the future, the group of photoelectric will continue to deep LCD display field, is committed to the development of plane display core technology, make good use of global operations mechanism and depth of division of labor, promise customers high-quality products and services, become the world"s top display system suppliers, in 2006 in the global mobile phone color display market leader, become "Foxconn technology" future sustained rapid growth of the engine.

Founded in June 1998, Hannstar specializes in producing thin-film transistor liquid crystal display panels, mainly for use in monitors, notebook displays and televisions. It was the first company in Taiwan to adopt the world’s top ultra-wide perspective technology (AS-IPS).

The company has three LCD factories and one LCM factory. It has acquired state-of-the-art TFT-LCD manufacturing technology, which enables it to achieve the highest efficiency in the mass production of thin-film transistor liquid crystal display production technology. Its customers include many of the biggest and most well-known electronics companies and computer manufacturers in Taiwan and overseas.

TCL CSOT – short for TCL China Star Optoelectronics Technology (TCL CSOT) – was founded in 2009 and is an innovative technology enterprise that focuses on the production of semiconductor displays. As one of the global leaders in semiconductor display market, it has bases in Shenzhen, Wuhan, Huizhou, Suzhou, Guangzhou, and India, with nine panel production lines and five large modules bases.

TCL CSOT actively produces Mini LED, Micro LED, flexible OLED, printing OLED, and other new display technologies. Its product range is vast – including large, medium, and small panels and touch modules, electronic whiteboards, splicing walls, automotive displays, gaming monitors, and other high-end display application fields – which has enabled it to become a leading player in the global panel industry.

In the first quarter of 2022, TCL CSOT’s TV panels ranked second in the market, 55 inches, 65 " and 75 inches second, 8K, 120Hz first, the first, interactive whiteboard and digital sign plate; LTPS flat panel, the second, LTPS and flexible OLED fourth.

EDO (also known as EverDisplay Optonics) was founded in October 2012 and focuses on the production of small- and medium-sized high-resolution AMOLED semiconductor display panels.

Tianma Microelectronics was founded in 1983 and listed on the Shenzhen Stock Exchange in 1995. It is a high-tech enterprise specializing in the production of liquid crystal displays (LCD) and liquid crystal display modules (LCM).

After more than 30 years of development, it has grown into a large publicly listed company integrating LCD research and development, design, production, sales, and servicing. Over the years, it has expanded by investing in the construction of STN-LCD, CSTN-LCD, TFT-LCD and CF production lines and module factories across China (with locations in Shenzhen, Shanghai, Chengdu, Wuhan and Xiamen), as well R&D centers and offices in Europe, Japan, South Korea and the United States.

JDI (Japan Display Inc.) was established on November 15, 2011, as a joint venture between the Industrial Innovation Corporation, Sony, Hitachi, and Toshiba. It is dedicated to the production and development of small-sized displays. It mainly produces small- and medium-sized LCD display panels for use in the automotive, medical, and industrial fields, as well as personal devices including smartphones, tablets, and wearables.

Although Sony’s TVs use display panels from TCL CSOT (VA panel), Samsung. Sony still produces the world’s best micro-OLED display panels. Sony has many micro OLED model such as 0.23 inch, 0.39 inch, 0.5 inch, 0.64 inch, 0.68 inch, 0.71 inch. Panox Display used to test and sell many of them, compare to other micro OLED manufacuturers, Sony`s micro OLEDs are with the best image quality and highest brightness (3000 nits max).

One of today’s modern technological wonders is the flat-panel liquid crystal display (LCD) screen, which is the key component we find inside televisions, computer monitors, smartphones, and an ever-proliferating range of gadgets that display information electronically.What most people don’t realize is how complex and sophisticated the manufacturing process is. The entire world’s supply is made within two time zones in East Asia. Unless, of course, the factory proposed by Foxconn for Wisconsin actually gets built.

Liquid crystal display (LCD) screens are manufactured by assembling a sandwich of two thin sheets of glass.On one of the sheets are transistor “cells” formed by first depositing a layer of indium tin oxide (ITO), an unusual metal alloy that you can actually see through.That’s how you can get electrical signals to the middle of a screen.Then you deposit a layer of silicon, followed by a process that builds millions of precisely shaped transistor parts.This patterning step is repeated to build up tiny little cells, one for each dot (known as a pixel) on the screen.Each step has to be precisely aligned to the previous one within a few microns.Remember, the average human hair is 40 microns in diameter.

On the other sheet of glass, you make an array of millions of red, green, and blue dots in a black matrix, called a color filter array (CFA).This is how you produce the colors when you shine light through it.Then you drop tiny amounts of liquid crystal material into the cells on the first sheet and glue the two sheets together.You have to align the two sheets so the colored dots sit right on top of the cells, and you can’t be off by more than a few microns in each direction anywhere on the sheet.The sandwich is next covered with special sheets of polarizing film, and the sheets are cut into individual “panels” – a term that is used to describe the subassembly that actually goes into a TV.

For the sake of efficiency, you would like to make as many panels on a sheet as possible, within the practical limitations of how big a sheet you can handle at a time.The first modern LCD Fabs built in the early 1990s made sheets the size of a single notebook computer screen, and the size grew over time. A Gen 5 sheet, from around 2003, is 1100 x 1300 mm, while a Gen 10.5 sheet is 2940 x 3370 mm (9.6 x 11 ft).The sheets of glass are only 0.5 - 0.7 mm thick or sometimes even thinner, so as you can imagine they are extremely fragile and can really only be handled by robots.The Hefei Gen 10.5 fab is designed to produce the panels for either eight 65 inch or six 75 inch TVs on a single mother glass.If you wanted to make 110 inch TVs, you could make two of them at a time.

The fab is enormous, 1.3 km from one end to the other, divided into three large buildings connected by bridges.LCD fabs are multi-story affairs.The main equipment floor is sandwiched between a ground floor that is filled with chemical pipelines, power distribution, and air handling equipment, and a third floor that also has a lot of air handling and other mechanical equipment.The main equipment floor has to provide a very stable environment with no vibrations, so an LCD fab typically uses far more structural steel in its construction than a typical skyscraper.I visited a Gen 5 fab in Taiwan in 2003, and the plant manager there told me they used three times as much structural steel as Taipei 101, which was the world’s tallest building from 2004- 2010.Since the equipment floor is usually one or two stories up, there are large loading docks on the outside of the building.When they bring the manufacturing equipment in, they load it onto a platform and hoist it with a crane on the outside of the building.That’s one way to recognize an LCD fab from the outside – loading docks on high floors that just open to the outdoors.

LCD fabs have to maintain strict standards of cleanliness inside.Any dust particles in the air could cause defects in the finished displays – tiny dark spots or uneven intensities on your screen.That means the air is passed through elaborate filtration systems and pushed downwards from the ceiling constantly.Workers have to wear special clean room protective clothing and scrub before entering to minimize dust particles or other contamination.People are the largest source of particles, from shedding dead skin cells, dust from cosmetic powders, or smoke particles exhaled from the lungs of workers who smoke.Clean rooms are rated by the number of particles per cubic meter of air.A class 100 cleanroom has less than 100 particles less than 0.3 microns in diameter per cubic meter of air, Class 10 has less than 10 particles, and so on. Fab 9 has hundeds of thousands of square meters of Class 100 cleanroom, and many critical areas like photolithography are Class 10.In comparison, the air in Harvard Square in Cambridge, MA is roughly Class 8,000,000, and probably gets substantially worse when an MBTA bus passes through.

The Hefei Gen 10.5 is one of the most sophisticated manufacturing plants in the world.On opening day for the fab, BOE shipped panels to Sony, Samsung Electronics, LG Electronics, Vizio, and Haier.So if you have a new 65 or 75-inch TV, there is some chance the LCD panel came from here.

China is the leader in producing LCD display panels, with a forecast capacity share of 56 percent in 2020. China"s share is expected to increase in the coming years, stabilizing at 69 percent from 2023 onwards.Read moreLCD panel production capacity share from 2016 to 2025, by countryCharacteristicChinaJapanSouth KoreaTaiwan-----

DSCC. (June 8, 2020). LCD panel production capacity share from 2016 to 2025, by country [Graph]. In Statista. Retrieved January 28, 2023, from https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

DSCC. "LCD panel production capacity share from 2016 to 2025, by country." Chart. June 8, 2020. Statista. Accessed January 28, 2023. https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

DSCC. (2020). LCD panel production capacity share from 2016 to 2025, by country. Statista. Statista Inc.. Accessed: January 28, 2023. https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

DSCC. "Lcd Panel Production Capacity Share from 2016 to 2025, by Country." Statista, Statista Inc., 8 Jun 2020, https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

DSCC, LCD panel production capacity share from 2016 to 2025, by country Statista, https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/ (last visited January 28, 2023)

LCD panel production capacity share from 2016 to 2025, by country [Graph], DSCC, June 8, 2020. [Online]. Available: https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

They filed a Swiss patent for the idea on Dec. 4, 1970. Though it attracted scant attention at the time, the milestone now stands as the birthdate of the liquid crystal display (LCD) – the technological platform which has transformed consumer electronics and presented a brilliant new way to view the world.

Early LCD developers took a few years to figure out that specialty glass, not plastic, was the best stable substrate for the delicate LCD circuitry and the color backplane component. Once they did, they turned increasingly to Corning to supply them with extraordinarily stable, flat, fusion-formed glass, able to preserve the critical properties of the liquid crystal and withstand high processing temperatures.

And LCDs rapidly transformed from “passive matrix” models, mostly used in pocket calculators and digital watches, to “active matrix” LCDs in which each sub-pixel was controlled with an isolated thin-film transistor. AMLCDs enabled wide viewing angles; brilliant, fast-moving images; and high-resolution images that had never been possible before.

Corning Incorporated was a critical player in this development, and eventually became the world’s leading supplier of LCD glass substrates. And Corning® EAGLE XG® Glass, the world’s first LCD substrate with no arsenic or other heavy metals, went on to exceed sales of 25 billion square feet, making it one of the most successful products in Corning’s history.

Before microLED technology becomes mature for commercial use, miniLED-backlit LCD panels will compete with OLED panels for application to high-end automotive displays.

Display panel makers" production utilization rates are expected to remain at low levels while panel prices will stay stable in the first quarter of 2023, according to industry sources.

TFT-LCD panel maker Innolux has undertaken zero-waste and zero-pollution automation of its liquid crystal extraction process, according to the company.

Although LCD panel makers have recently seen a short-term surge of their capacity utilization rate to 60-70%, up from 60% in September 2022, most makers in the line believe demand for their products will remain weak in 2023.

As it will take time for the sagging global economy to recover, panel demand from the primary application sectors, such as LCD TVs, monitors, notebooks, tablets and smartphones, will likely continue declining instead of picking up in 2023, according to industry sources.

Samsung has struck LTAs for the supply of TV panels with AU Optronics (AUO), China Star Optoelectronics Technology (CSOT) and HKC, according to industry sources.

LG Display (LGD) may continue to scale down its LCD TV panel production, having closed its 7.5G fab in Paju, South Korea, at the end of 2022, according to industry sources.

Price for handset panels have dropped further in the first quarter of 2023, while quotes for TV and IT display products hold steady, according to industry sources.

Despiting the rising popularity of OLED panels among notebook brands, miniLED-based displays have also been expanding their presence in the notebook market.

While LCD panels have been dominantly used in automotive displays, demand for higher-quality in-vehicle displays will lead to competition between OLED and LCD panels, according to Taiwan-based LCD DDI (display driver IC) and TDDI (touch & display driver integrated IC) design houses.

More panel makers, including BOE Technology and Sharp, have begun churning out OLED displays for notebook applications as notebook brands have added more OLED-based models to their offerings.

China-based BOE Technology has reportedly obtained a large order for flexible OLED panels for iPhone 15 series, to be launched by Apple in 2023, according to industry sources.

Panel makers Innolux and Giantplus have reported mixed results for 2022. Innolux experienced an over 30% revenue decline, while Giantplus, specializing in small- and medium-size panels, generated slight revenue growth.

Taiwan Surface Mounting Technology (TSMT), an LCD surface-mount technology (SMT) solutions provider, has disclosed plans to initiate its capacity expansion projects overseas in 2023.

Samsung Electronics plans to launch 89-inch microLED TVs with microLED panels based on LTPS (low-temperature polysilicon) TFT glass backplanes in the third or fourth quarter of 2023, according to South Korea-based media The Elec.

► When the leading Korean players Samsung Display and LG Display exit LCD production, BOE will be the most significant player in the LCD market. Though OLED can replace the LCD, it will take years for it to be fully replaced.

► As foreign companies control evaporation material and machines, panel manufacturers seek a cheaper way to mass-produce OLED panels – inkjet printing.

When mainstream consumer electronics brands choose their device panels, the top three choices are Samsung Display, LG Display (LGD) and BOE (000725:SZ) – the first two from Korea and the third from China. From liquid-crystal displays (LCD) to active-matrix organic light-emitting diode (AMOLED), display panel technology has been upgrading with bigger screen products.

From the early 1990s, LCDs appeared and replaced cathode-ray tube (CRT) screens, which enabled lighter and thinner display devices. Japanese electronics companies like JDI pioneered the panel technology upgrade while Samsung Display and LGD were nobodies in the field. Every technology upgrade or revolution is a chance for new players to disrupt the old paradigm.

The landscape was changed in 2001 when Korean players firstly made a breakthrough in the Gen 5 panel technology – the later the generation, the bigger the panel size. A large panel size allows display manufacturers to cut more display screens from one panel and create bigger-screen products. "The bigger the better" is a motto for panel makers as the cost can be controlled better and they can offer bigger-size products to satisfy the burgeoning middle-class" needs.

LCD panel makers have been striving to realize bigger-size products in the past four decades. The technology breakthrough of Gen 5 in 2002 made big-screen LCD TV available and it sent Samsung Display and LGD to the front row, squeezing the market share of Japanese panel makers.

The throne chair of LCD passed from Japanese companies to Korean enterprises – and now Chinese players are clinching it, replacing the Koreans. After twenty years of development, Chinese panel makers have mastered LCD panel technology and actively engage in large panel R&D projects. Mass production created a supply surplus that led to drops in LCD price. In May 2020, Samsung Display announced that it would shut down all LCD fabs in China and Korea but concentrate on quantum dot LCD (Samsung calls it QLED) production; LGD stated that it would close LCD TV panel fabs in Korea and focus on organic LED (OLED). Their retreats left BOE and China Stars to digest the LCD market share.

Consumer preference has been changing during the Korean fab"s recession: Bigger-or-not is fine but better image quality ranks first. While LCD needs the backlight to show colors and substrates for the liquid crystal layer, OLED enables lighter and flexible screens (curvy or foldable), higher resolution and improved color display. It itself can emit lights – no backlight or liquid layer is needed. With the above advantages, OLED has been replacing the less-profitable LCD screens.

Samsung Display has been the major screen supplier for high-end consumer electronics, like its own flagship cell phone products and Apple"s iPhone series. LGD dominated the large OLED TV market as it is the one that handles large-size OLED mass production. To further understand Korean panel makers" monopolizing position, it is worth mentioning fine metal mask (FMM), a critical part of the OLED RGB evaporation process – a process in OLED mass production that significantly affects the yield rate.

Prior to 2018, Samsung Display and DNP"s monopolistic supply contract prevented other panel fabs from acquiring quality FMM products as DNP bonded with Hitachi Metal, the "only" FMM material provider choice for OLED makers. After the contract expired, panel makers like BOE could purchase FFM from DNP for their OLED R&D and mass production. Except for FFM materials, vacuum evaporation equipment is dominated by Canon Tokki, a Japanese company. Its role in the OLED industry resembles that of ASML in the integrated circuit space. Canon Tokki"s annual production of vacuum evaporation equipment is fewer than ten and thereby limits the total production of OLED panels that rely on evaporation technology.

The shortage of equipment and scarcity of materials inspired panel fabs to explore substitute technology; they discovered that inkjet printing has the potential to be the thing to replace evaporation. Plus, evaporation could be applied to QLED panels as quantum dots are difficult to be vaporized. Inkjet printing prints materials (liquefied organic gas or quantum dots) to substrates, saving materials and breaking free from FMM"s size restriction. With the new tech, large-size OLED panels can theoretically be recognized with improved yield rate and cost-efficiency. However, the tech is at an early stage when inkjet printing precision could not meet panel manufacturers" requirements.

Display and LGD are using evaporation on their OLED products. To summarize, OLED currently adopts evaporation and QLED must go with inkjet printing, but evaporation is a more mature tech. Technology adoption will determine a different track for the company to pursue. With inkjet printing technology, players are at a similar starting point, which is a chance for all to run to the front – so it is for Chinese panel fabs. Certainly, panel production involves more technologies (like flexible panels) than evaporation or inkjet printing and only mastering all required technologies can help a company to compete at the same level.

Presently, Chinese panel fabs are investing heavily in OLED production while betting on QLED. BOE has four Gen 6 OLED product lines, four Gen 8.5 and one Gen 10.5 LCD lines; China Star, controlled by the major appliance titan TCL, has invested two Gen 6 OLED fabs and four large-size LCD product lines.

Remembering the last "regime change" that occurred in 2005 when Korean fabs overtook Japanese" place in the LCD market, the new phase of panel technology changed the outlook of the industry. Now, OLED or QLED could mark the perfect time for us to expect landscape change.

After Samsung Display and LGD ceding from LCD TV productions, the vacant market share will be digested by BOE, China Star and other LCD makers. Indeed, OLED and QLED have the potential to take over the LCD market in the future, but the process may take more than a decade. Korean companies took ten years from panel fab"s research on OLED to mass production of small- and medium-size OLED electronics. Yet, LCD screen cell phones are still available in the market.

LCD will not disappear until OLED/QLED"s cost control can compete with it. The low- to middle-end panel market still prefers cheap LCD devices and consumers are satisfied with LCD products – thicker but cheaper. BOE has been the largest TV panel maker since 2019. As estimated by Informa, BOE and China Star will hold a duopoly on the flat panel display market.

BOE"s performance seems to have ridden on a roller coaster ride in the past several years. Large-size panel mass production like Gen 8.5 and Gen 10.5 fabs helped BOE recognize the first place in production volume. On the other side, expanded large-size panel factories and expenses of OLED product lines are costly: BOE planned to spend CNY 176.24 billion (USD 25.92 billion) – more than Tibet"s 2019 GDP CNY 169.78 billion – on Chengdu and Mianyang"s Gen 6 AMOLED lines and Hefei and Wuhan"s Gen 10.5 LCD lines.

Except for making large-size TVs, bigger panels can cut out more display screens for smaller devices like laptops and cell phones, which are more profitable than TV products. On its first-half earnings concall, BOE said that it is shifting its production focus to cell phone and laptop products as they are more profitable than TV products. TV, IT and cell phone products counted for 30%, 44% and 33% of its productions respectively and the recent rising TV price may lead to an increased portion of TV products in the short term.

Except for outdoor large screens, TV is another driver that pushes panel makers to research on how to make bigger and bigger screens. A research done by CHEARI showed that Chinese TV sales dropped by 10.6% to CNY 128.2 billion from 2018 to 2019. Large-size TV sales increased as a total but the unit price decreased; high-end products like laser TV and OLED TV saw a strong growth of 131.2% and 34.1%, respectively.

The demand for different products may vary as lifestyles change and panel fabs need to make on-time judgments and respond to the change. For instance, the coming Olympics is a new driving factor to boost TV sales; "smart city" projects around the world will need more screens for data visualization; people will own more screens and better screens when life quality improves. Flexible screens, cost-efficient production process, accessible materials, changing market and all these problems are indeed the next opportunity for the industry.

Rapid technological advancements in the electronics industry and rising preference for more slim and lightweight display systems and devices are some key factors propelling growth of the next-generation display market currently. Initially, Cathode Ray Tube (CRT) technology was used in display devices. Constant technological developments and advancements, easy availability of more affordable smartphones and tablet devices, and rising demand for better picture quality led to further developments in Liquid Crystal Display (LCD) technology, Organic Light-Emitting Diode (OLED,) and In-Plane Switching (IPS). LED technology uses light-emitting diodes as a light source behind a flat-screen; whereas LCD technology uses fluorescent tubes to display pictures. LED technology offers more clear and high-resolution images in comparison to LCD technology, which in turn is driving demand for LED technology in smartphones, televisions, and computer monitors.

Next-generation displays consist of various components, with the substrate being the most critical and essential component. Glass or plastic materials are used as substrate in advanced displays. Plastic material is widely accepted due to lightweight and flexibility properties. LCD technology requires more materials or components as compared to that for OLED screens. Components used in LCD screens are two substrate layers, polarizers, liquid crystals, color filter layer, and backlighting units. In contrast, an OLED screen requires one layer of substrate, encapsulation technology, polarizer, electrode, emitter, and organic layer components. Liquid crystals, color filter layer, and backlighting units are not required in OLED systems.

By technology type, the market is segmented into OLED, IPS-LCD, and others. The OLED segment accounted for largest revenue share in 2020 and expected to register a robust growth rate throughout forecast period. Advanced features such as high resolution, thin structure, and lightweight materials are boosting demand for OLED screens.

Televisions and monitors accounted for larger revenue share contribution as compared to other application segments in the global market. This can be attributed to increasing consumption of large panel displays. The laptop and tablet segment accounted a sizable revenue share and is expected to register a steady CAGR throughout forecast period.

Based on its annual report, the company supplies phosphorescent emitters and host materials to its display panel customers including Samsung and LG. It relies on PPG (PPG) as an exclusive manufacturer for its PHOLED emitter materials. In the chart below, we provided an overview of the company’s supply chain. We characterized it as a chemicals company instead of a semiconductor company as it competes in the OLED materials market against competitors in the chemicals industry. At the start of the chain, PPG manufactures the OLED materials which is then sold to UDC. UDC develops the OLED materials, which is then supplied to semiconductor customers producing the OLED display panels with its materials such as Samsung (OTC:SSNLF) and LG Display (LPL), which are in turn supplied to the tech hardware industry such as smartphone and TV makers. As both Samsung and LG are also some of the key manufacturers of smartphones and TVs, we believe that their bargaining power is very high.

Furthermore, there are three generations of OLED emitter materials. The first generation is based on fluorescence, the second-generation uses PHOLED, and the third generation is TADF. In terms of TADF development, there are many other companies besides UDC pursuing TADF, which include Kyulux, Cynora, Idemitsu Kosan (OTCPK:IDKOY).

In comparison, MicroLEDs could have the same contrast as OLED but with higher brightness. However, MicroLED is highly costly with Samsung’s MicroLED TV costing $156,000 when it launched in South Korea. Furthermore, the cost of OLED panels has declined and the price gap between OLED display panels and LCD has reduced in 2021 at $510 compared to $555 in the prior year while LCD displays were $200 compared to $115 in the year before.

On the whole, we believe that the company stands to benefit as a company focused on the OLED market with the expected growth of the market with increasing penetration rates in smartphones and TVs. We believe that the advantages of OLED in terms of better image quality than LCD and the reducing price gap between OLED and LCD to be the drivers of the market growth.

To conclude, we analysed the OLED market growth and identified the rising penetration of OLED displays in TVs and smartphones and highlighted the advantages of OLED to LCD with better image quality and the reducing price gap between OLED and LCD displays. Furthermore, we analysed the company’s competition in the fragmented OLED market where we believe its competition with its key customers Samsung and LG could present a risk if they pursue aggressive OLED material development. Lastly, we highlighted the licensing agreement extension risk of Samsung set to expire in 2022. We believe that if Samsung decides to instead develop OLED materials, the company’s revenue growth could be significantly impacted. Taking into account of its high EV/EBITDA compared to competitors and a high discount rate, we obtained a DCF valuation with -1.55% upside, as we anticipate its revenue growth to slow to a forward 5-year average of 21.3% compared to its past 10-year average growth of 35.6%. Overall, we rate the company as a Hold with a target price of $162.18.

The market for equipment to manufacture LCD and OLED displays for smartphones and TVs grew 28% in 2018 following a growth of 33% in 2017. Applied Materials" (NASDAQ:AMAT) revenues grew 36%. A key driver for AMAT"s strong performance was the sale of equipment to Chinese LCD manufacturers BOE Technology and China Star Optoelectronics Technology to manufacture 10.5G panels for the production of 75-inch LCD TVs.

Providing more granularity, market share growth ofAMAT and Nikon is primarily attributed to the investments by BOE in its 10.5G LCD. Both equipment companies are the only suppliers of equipment (AMAT for deposition and Nikon for lithography) that can fabricate the large 10.5G panels. So even though AMAT is a deposition company, its tool, acquired about 20 years ago from theacquisition of AKT, is the only one on the market big enough to accommodate 10.5G panels.

The display market can be segmented into three general segments – (1) LCD panels for TVs, (2) OLED panels for smartphones, and (3) LCD panels for Smartphones. Each of these has its own headwinds and tailwinds, which are impacting capital equipment expenditures. These issues I detail below. There are numerous ways to segment this industry, but I am detailing this segmentation for this article.

A driving force for 10.5G plant construction is that a 10.5G mother glass is 1.8 times larger than an 8.5G one in area and can be cut into six 75-inch panels. In comparison, a 7.5G glass substrate can be cut into only two 75-inch TV panels. Thus, there is a significant cost benefit of moving to the larger substrates.

AMAT’s deposition tools are used to form the backplane for LCD displays. The company’s deposition tools are the only ones capable of uniform coating of panels this size, which measure 3370mm x 2940mm. AMAT’s equipment can deposit various materials for the backplane.

Shown in Table 1 are the number of 10.5G panels being manufactured through 2018, with forecasts for panel production in 2019 and 2020, according to The Information Network’s report “OLED and LCD Markets: Technology, Directions and Market Analysis.”

For 2019, BOE’s second 10.5G line, to be located in Wuhan, is slated for volume production in 2020, with equipment installation in mid-2019. Sharp (OTCPK:SHCAY) will start equipment install at its new 10.5G LCD plant in Guangzhou in early 2019, with plans to kick off the first phase of the facility in Aug 2019 and to begin volume production in October 2019. LG Display (LPL) is building its 10.5G OLED P10 fab in Paju, Korea, but volume production is now scheduled at the beginning of 2021. Originally, the company planned to install equipment in 3Q 2018, but it may be pushed back to the beginning of 2020. With an oversupply of 10.5G panels as a result of BOE and C