are we moving towards tft lcd in stock

The global TFT LCD Displays market size is projected to reach multi million by 2028, in comparision to 2021, at unexpected CAGR during 2022-2028 (Ask for Sample Report).

The market is additionally countermined into a variety of classes supported by the applications, as well as Standard Type,Customized Type and Consumer Electronics,Automotive,Aerospace & Defense,Medical,Others. The market and its trends could also be divided into a variety of classes, as well as North America: United States, Canada, Europe: GermanyFrance, U.K., Italy, Russia,Asia-Pacific: China, Japan, South, India, Australia, China, Indonesia, Thailand, Malaysia, Latin America:Mexico, Brazil, Argentina, Colombia, Middle East & Africa:Turkey, Saudi, Arabia, UAE, Korea. The analysis report examines the key market players, like Panasonic,LG Display,Sharp,Mitsubishi Electric,AMOLED Corporation,AMPIRE,AU Optronics,Data Display Group,Innolux (formerly Chimei Innolux CMI),Kyocera Display (formerly Optrex),ORTUSTECH,Samsung TFT,Solomon Goldentek Display Corp. (SGD),Tianma.

Key Advantages For Investors and Market Players:The primary goal of this study is to make the theoretical and analytical foundation for potential future growth within the TFT LCD Displays trade.

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Sections In TFT LCD Displays Market Research Report:Section 1 presents the research report that provides a summary of the TFT LCD Displays trade in important regions likeNorth America: United States, Canada, Europe: GermanyFrance, U.K., Italy, Russia,Asia-Pacific: China, Japan, South, India, Australia, China, Indonesia, Thailand, Malaysia, Latin America:Mexico, Brazil, Argentina, Colombia, Middle East & Africa:Turkey, Saudi, Arabia, UAE, Korea.

Section 2 and 3of the report offers information on the rapidly- rising trends within the world within the previous couple of years. This impactful aftereffect was fueled by the continued growth of rising market economies. The competitive tract is endlessly revamping. many revelatory contenders square measure fleetly growing authority during this market.

Section 4lists the various styles of info that will be used to provide request reports. information sorts that square measure oftentimes used include- request size- consumer base position, and purposeful effectiveness.

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Section 8offers the defense for purchasing the request report, which can offer you a summary of how the request is doing straight away and what trends square measure operative.

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The TFT LCD Displays trade is considerably compact by COVID-19 because of the massive happening the TFT LCD Displays trade has two-faced, sales square measure decreasing. however as shortly as the pandemic was in check and therefore the scenario improved, demand for the TFT LCD Displays trade began, suggesting a growth within the market"s size. notice Covid-19 Impact Analysis to try and do a research study on TFT LCD Displays market.

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The adoption of LCD technology in vehicular displays has happened quite quickly and smart displays have by now pretty much replaced the mechanical dashboards of yesteryears in cars. In an interview with our team, Rei Tjoeng from Sharp Devices revealed some interesting information regarding automotive-grade LCDs, the recent trends, and specific characteristics that make some LCD displays different from the others available in the market.

A. Adoption of TFT in 2-wheeler cluster applications has increased in a big way. The global automotive industry is widely believed to be on the cusp of tremendous change in terms of manufacturing, sales, and the overall business model, owing to the rapid advances in new-age technologies such as autonomous driving, augmented reality, and big data.

Visualisation technologies are the most vital components of in-vehicle interactions, with overall automotive navigation and connectivity characterising the cars of this generation.

Advanced driver-assistance systems (ADAS)—such as parking assistance, forward collision, lane-departure warnings, and blind-spot monitoring—are frequently hailed as the technologies that will usher us into an age of autonomous transportation, but drivers are still either untrusting or too trusting of these features. This has led to an evolution of sorts in the in-car user experience interfaces, and more so with the way automotive display makers are developing new products.

The future for ergonomic conformal displays, display-based dash, central console, in-door wing mirrors, and transparent displays that offer unobtrusive visual information during journeys is bright. Head-up displays are fast gaining popularity as an ideal interface for disseminating crucial information such as navigation messages, vehicle speed, and warnings.

A. Yes, reflective LCDs, which use ambient light to reflect in order to read. In 2W cluster applications, where TFT is exposed to direct sunlight, readability is a major issue. Sharp Reflective LCD is a solution as visibility is crystal clear without any glare and is available in colour too. Equipped with a backlight, it can be used at night also.

Normal TFT has to pump more power through the backlight, which results in more power consumption and backlight life also gets affected to a large extent. This reflective LCD consumes very little power and could be the best fit-in product for the EV segment.

Q. One of the first fears that come to one’s mind when we see a large tablet-like display in cars is of its breaking. But what is the actual risk of these screens breaking?

A. The market is now shifting to large-size TFT displays in the automotive segment. These displays are automotive-grade LCDs and are tested for shock, vibration, high and low temperature, etc. For more protection and safety, glass bonding is done over TFT. Glass bonding with a cover glass on the LCD protects it from shock, as the hardened adhesive behind the glass acts as a shock absorber. Shakes and shocks are less likely to damage the display and glass, making this an important benefit for transportation applications. In the unlikely event that the glass is damaged, shards of broken glass will remain stuck to the optical adhesive.

A. Reflective LCD and Progressive Super View are the two technologies which are effective under high ambient light. In progressive super view technology, internal and external reflection is cut down, which results in a clear view without glare. And the beauty of this technology is that it happens without pumping more power from the backlight. This helps in more lifetime of the backlight and less power consumption.

Reflective LCD is another technology that uses ambient light to reflect in order to read, hence there is more clarity under sunlight and very less power is needed. It is more beneficial for EV applications.

A. Automotive-grade LCDs have strict requirements. The LCD must remain working during the extreme environment, for example, Indian summertime. For example, our LCDs are tested for storage temperature of -40 to 95°C and operating temperature of -30 to 85°C.

From a design engineer’s perspective, what are the top factors—besides the obvious ones like price, size, brand, after-support, etc—that should be borne in mind while selecting the right LCD panel?

There are a few LCD specs the design engineers need to consider at high priority when they select the LCD. The first specification will be the screen size and aspect ratio. The aspect ratio is the ratio between the length and width of the LCD. Some common ratios are 4:3, 5:4, 16:9, and so on. Of course, sometimes marketing people will also consider these specs as they will affect the whole outlook and design of the product.

Then the engineer may need to consider the LCD’s resolution and interface, whether they are matching with the motherboard. If the product is a semi-outdoor or outdoor application, then the engineer needs to also check the LCD’s brightness and operating temperature range, because these are very important specs if the product is located in the sunshine.

A. The smartphone has become very popular in recent years and it is influencing the engineers’ design. We saw some EV companies use the smartphone LCD as the cluster or GPS display for their first-generation products. The smartphone LCD is nice but, unfortunately, it is not designed for automotive applications, especially not for 2-wheeler outdoor usage. When the 2-wheeler is under the sunshine, the driver can barely see anything from the smartphone LCD. And, also, the smartphone LCD’s lifetime becomes much shorter under the automotive application scenario.

A. Sharp Singapore has been in this region for many years. We understand our customers. First, our team will get the customer’s requirements from both the marketing and engineering sides. We will check the customer’s motherboard’s graphics capability, display interface, and other necessary technical details. We will propose the best suitable LCDs to the customer and explain the reason. We will explain what we observe from the market trend and help the customer to know the best options.

LCD samples and demo kits are available for the engineers to see the actual performance. There is also technical support available to help the design engineers to evaluate the LCD and design-in the LCD.

Q. Do you have some form of sampling programme for them to receive samples during their prototyping stages? Do you have development or evaluation kits for your LCD displays?

A. Sharp Singapore understands that samples and evaluation kits are important in the project’s early stage. Evaluation kits are available for the engineer to evaluate the LCD performance during the proof of concept stage. Then we will provide sample LCDs for the customer’s prototype builds.

A. We have salespersons stationed in India at New Delhi and Bangalore. They are working closely with the customers’ design engineers. There are technical support persons in Singapore and Japan. Our Indian team can support the customer onsite and bridge as technical person effectively between India and Singapore.

The new report by Expert Market Research titled, ‘Global TFT-LCD Display Panel Market Size, Share, Price, Trends, Growth, Report and Forecast 2021-2026’, gives an in-depth analysis of the globalTFT-LCD display panel market share, assessing the market based on its segments like size, application and major regions like North America, Europe, Asia Pacific, Latin America, Middle East and Africa. The report tracks the latest trends in the industry and studies their impact on the overall market. It also assesses the market dynamics, covering the key demand and price indicators, along with analysing the market based on the SWOT and Porter’s Five Forces models.

The current worldwide TFT-LCD display panel market is being driven by rising demand for flat panel TVs, high-quality smartphones, tablets, and car monitoring systems, as well as the expanding gaming industry. The flat panel display dominates the global display industry, with TFT-LCD display panels being the most popular flat panel type and is being driven by significant demand from growing nations, particularly those in Asia Pacific such as India, China, Korea, and Taiwan, among others. The increased demand for consumer electronics such as LCD TVs, PCs, laptops, SLR cameras, navigation devices, and others has aided the industry’s growth.

TFT-LCD displays are a type of liquid crystal display in which each pixel is connected to a thin film transistor. TFT has been used in all LCD computer screens since the early 2000s because it has a faster response time and greater colour fidelity. They are in high demand in practically all sectors where displays are required due to their advantageous qualities like as light weight, slimness, high resolution, and low power consumption. TFT-LCD display panels, despite their bigger dimensions, are more practical since they can be viewed from a broader angle, are not prone to reflection, and are lighter in weight than classic CRT TVs.

The global TFT-LCD display panel market is being pushed by rising household demand for average and large-sized flat-screen televisions, as well as rising desire for small, high-resolution smart phones with large screens. The growing demand for portable and small-sized tablets in the educational and commercial sectors has also contributed to the growth of the TFT-LCD display panel market. Expanding demand for vehicle displays, a thriving gaming industry, and the growing popularity of 3D movies are all important market drivers. Despite concerns about market oversupply, shipments of large TFT-LCD display panels increased again in 2020.

With more than one-third of the global share, North America is the largest market for TFT-LCD display panels. It is closely followed by the Asia-Pacific area, which includes nations such as India, China, Korea, and Taiwan, which are key rising markets for TFT-LCD display panels. China and India are two of the region’s fastest developing economies. The expansion of demand in these regions has been aided by the expansion of their economies, an increase in disposable incomes, and an increase in desire for consumer electronics.

The major players in the market are Samsung, LG Electronics Inc, Sharp Electronics Corporation, BOE Technology Group Co Ltd, AU Optronics Corp, among others. The report covers the market shares, capacities, plant turnarounds, expansions, investments, mergers and acquisitions, among other latest developments of these market players.

Expert Market Research is a leading business intelligence firm, providing custom and syndicated market reports along with consultancy services for our clients. We serve a wide client base ranging from Fortune 1000 companies to small and medium enterprises. Our reports cover over 100 industries across established and emerging markets researched by our skilled analysts who track the latest economic, demographic, trade and market data globally.

At Expert Market Research, we tailor our approach according to our clients’ needs and preferences, providing them with valuable, actionable and up-to-date insights into the market, thus, helping them realize their optimum growth potential. We offer market intelligence across a range of industry verticals which include Pharmaceuticals, Food and Beverage, Technology, Retail, Chemical and Materials, Energy and Mining, Packaging and Agriculture.

TFT-LCD Automobile Display Market size is growing at a moderate pace with substantial growth rates over the last few years, and is estimated that the market will grow significantly in the forecasted period i.e. 2023 to 2030.

The rising consumer preferences for infotainment systems that are integrated into automotive displays due to the rising demand for autonomous and semi-autonomous vehicles driving the global TFT-LCD Automobile Display Market. The growth of the Global TFT-LCD Automobile Display Market can be credited to the rising awareness and interest of the infotainment systems among the population, benefits of a wide variety of fascinating services provided by display, including music, films, car health monitoring, other linked services and the rise in disposable income among the populations across economies.

TFT screens can be defined as an intersection of liquid crystal displays (LCDs) and semiconductor manufacturing, created on a glass or plastic substrate. The material is deposited onto the surface with high-tech machinery long used to produce semiconductor devices like computer chips. Thin Film Transistor displays are the next wave of in-vehicle infotainment progress. These new information displays replaced the gauges and screens drivers now view to get needed information on a screen. crisper, brighter, and more visible from angles, the screens enables easier viewing.

Automotive Display is a vehicle-integrated display system that provides vital information to the chauffeur of the vehicle. Automotive display systems are usually attached to the vehicle’s dashboard and reduce the complexity faced by the vehicle driver while driving which provides information such as navigation direction, speed, distance traveled, and time. Automobile OEMs are continuously improving the designs and including more features in order to enhance the driver/passenger experience.

TFT LCDs are utilized in numerous automotive applications, including the instrument cluster, dashboard displays, driver information displays, and auxiliary navigation equipment. A center stack aids with rearward video parking, shows alerts and other general vehicle information like the car’s equipment and more. TFT displays and video is also being integrated into side and rear mirrors. With time the screens in the backseats of vehicles are getting bigger and bigger and now include Blu-ray, email, and Internet access. With TFT display technologies, less energy consumption is a big deal, especially when dealing with bigger screens, and less electricity means lower cost, overall.

Increasing demand for connected vehicles, rising demand for augmented reality-based HUDs, and increasing adoption of digital instrument clusters are driving the growth of the Automotive Display System Market. With the growing demand for advanced automotive display systems, driving has become safe, as these systems assist the vehicle driver with crucial vehicle information including real-time vehicle diagnostics such as tire pressure and engine heat.

Moreover, increasing sales of passenger cars, increasing R&D activities, and growing demand for vehicle entertainment are providing growth opportunities to the market. The sales volume of passenger cars has increased 50 million units to 71 million units from 2009 to 2017. Technological advancements such as ADAS is offering vehicles with more updated systems that are integrated with AI and new sensor technologies.

However, the high cost of a head-up display and growing concerns regarding the mobility functions can hamper the growth of the market. The head-up display is designed with safety features for keeping the eyes on the road and offer various advanced technologies such sensor, AI, etc which are usually of higher prices and that can adversely affect the growth of the market.

The configuration of smartphones and infotainment systems including Spotify, Apple CarPlay, and Android Auto is anticipated to raise the demand for smart displays in automobiles. Such systems integrate advanced functions, such as cockpit electronics and accessibility to music, and also allow navigation without distracting the driver. These operating systems also incorporate voice assistance like Google Assistant and Apple Siri to supply a hands-free experience. Therefore, a growing number of manufacturers are adopting this technology in their vehicles by allowing supporting features as standard or a minimum of as an option for their infotainment systems. This is boosting the Global Automotive Smart Display Market.

The image of market attractiveness provided would further help to get information about the region that is majorly leading in the global TFT-LCD Automobile Display Market. We cover the major impacting factors that are responsible for driving the industry growth in the given region.

The image provided would further help to get information about Porter’s five forces framework providing a blueprint for understanding the behavior of competitors and a player’s strategic positioning in the respective industry. The porter’s five forces model can be used to assess the competitive landscape in global TFT-LCD Automobile Display Market, gauge the attractiveness of a certain sector, and assess investment possibilities.

On the basis of Screen Size, The Global TFT-LCD Automobile Display Market is segmented into 8.x-Inch, 10.x-Inch, 12.x-Inch, and More than 12.x-Inch The increasing combination of electronic systems with safety and security features and increasing use of in-vehicle smart display applications is leading to the adoption of autonomous and semiautonomous vehicles accelerating the segment’s demand.

On the basis of Application, The Global TFT-LCD Automobile Display Market is segmented into passenger car and commercial vehicle. The passenger vehicles segment accounted for the largest market share due to increasing demand for passenger cars, increasing disposable income and increasing demand for comfort as well as for safety systems. The rising demand for the luxury, safety, and security in passenger vehicle including infotainment systems, head-up displays, telematics, central controllers, and others.

The Global TFT-LCD Automobile Display Market is segmented on the basis of geography into North America, Europe, Asia Pacific, Latin America, Middle East and Africa. Asia-Pacific holds the largest market share. the Asia Pacific region is referred to as the hub of automobile production. The increase in the number of road accident cases and the requirement of implementing road safety measures, strong governmental initiatives, and ongoing projects is likely to boost the growth of the market in the APAC region.

The “Global TFT-LCD Automobile Display Market” study report will provide a valuable insight with an emphasis on the global market. The major players in the market areJDI, AUO, Innolux Corporation, Sharp, Chunghwa Picture Tubes, LG, TRULY, Tianma Microelectronics and others.

The Ace Matrix provided in the report would help to understand how the major key players involved in this industry are performing as we provide a ranking for these companies based on various factors such as service features & innovations, scalability, innovation of services, industry coverage, industry reach, and growth roadmap. Based on these factors, we rank the companies into four categories as Active, Cutting Edge, Emerging, and Innovators.

• Analysis by geography highlighting the consumption of the product/service in the region as well as indicating the factors that are affecting the market within each region

• The current as well as the future market outlook of the industry with respect to recent developments which involve growth opportunities and drivers as well as challenges and restraints of both emerging as well as developed regions

The rising consumer preferences for infotainment systems that are integrated into automotive displays due to the rising demand for autonomous and semi-autonomous vehicles driving the global TFT-LCD Automobile Display Market.

The report sample of TFT-LCD Automobile Display Market report can be obtained on demand from the website. Also, the 24*7 chat support & direct call services are provided to procure the sample report.

Global TFT LCD Display Modules Market is expected to grow at a significant CAGR of 10.6% by 2023 as the scope and its applications are rising enormously across the globe. Thin-Film Transistor is abbreviated as TFT. TFT LCD Display Modules are liquid-crystal display modules with thin-film transistor technology. They are suitable for several applications like point of sale devices, smartphones, game consoles, navigation systems, and others. TFT LCD Display Modules Market is segmented based on product size, application, and region. 10.1" TFT LCD, 9" TFT, 8 " TFT, 7 " TFT LCD, 5.7 inch Display, 5.6 TFT LCD, 5 TFT LCD, 4.3 inch TFT LCD, 3.5" TFT Display, 3.2" TFT LCD, 2.8" TFT LCD, 2.4" TFT LCD, and other product sizes could be explored in TFT LCD Display Modules in the forecast period. The market may be categorized based on applications like industrial, automotive, medical, consumer electronics, appliance, and others that could be explored in the forecast period. TFT LCD Display Modules Market is segmented geographically into Americas (North America, and Latin America), Europe (Eastern Europe, Western Europe), Asia Pacific (India, China, Japan, New Zealand, and Australia), Latin America (Mexico, Argentina, and Brazil), Middle East (UAE, Saudi, and Qatar) and Africa (South Africa).

Globally, North America may account for the substantial market share of TFT LCD Display Modules and is estimated to lead the overall market in the coming years. The reason behind the overall market growth could be presence of key manufacturers in the region and rising use of enhanced technology. The United States is a major consumer of TFT LCD Display Modules in this region. Europe and the Asia Pacific are also estimated to have a positive influence on the future growth. Europe is the second largest region with significant market share. However, Asia Pacific is estimated to grow at the fastest pace in the foremost period. The developing countries like India and China are the major consumers of TFT LCD Display Modules in this region. The key players of TFT LCD Display Modules Market are Displaytech, Panasonic Corporation, Mitsubishi Electric Corporation, Schneider Electric, SHARP CORPORATION, Siemens AG, SAMSUNG Display, LG Display, Chi Mei Corporation, HannStar Display Corporation, and AU Optronics Corp. These players are concentrating on inorganic growth to sustain themselves amidst fierce competition.

The report segments the market and forecasts its size, by volume and value, on the basis of application (automotive, consumer electronics, appliance, medical, industrial, etc.), and by geography (North America, Europe, Asia-Pacific, MEA and South America). The report covers forecast and analysis for the TFT LCD Display Modules market on a global and regional level. The study provides historic data of 2013-2017 along with a forecast from 2018 to 2023 based on both output/volume and revenue. The study then describes the drivers and restraints for the TFT LCD Display Modules market along with the impact they have on the demand over the forecast period. Additionally, the report includes the study of opportunities available in the TFT LCD Display Modules market on a global level.

Access 118 page research report with TOC on"TFT LCD Display Modules Market"available with Radiant Insights, Inc. @https://www.radiantinsights.com/research/global-tft-lcd-display-modules-market-outlook-2018-2023

The report has been prepared based on the synthesis, analysis, and interpretation of information about the global TFT LCD Display Modules market collected from specialized sources. The competitive landscape section of the report provides a clear insight into the market share analysis of key industry players. Company overview, financial overview, product portfolio, new project launched, recent development analysis are the parameters included in the profile. The research report provides analysis and information according to market segments such as geographies, types and applications. All the segments have been analyzed based on present and future trends and the market is estimated from 2018 to 2023. Relevantly, the report and company profiles specify the key drivers that are impacting the demand in global TFT LCD Display Modules market.Key Applications: Automotive

At Radiant Insights, we work with the aim to reach the highest levels of customer satisfaction. Our representatives strive to understand diverse client requirements and cater to the same with the most innovative and functional solutions.

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We develop, design, manufacture, and sell displays where it is necessary for the interface that deliver a lot of information at an instant and deliver it to the global market. We create interactive spaces that go beyond the expected, elevate everyday lives, and move people"s hearts. From bases in major cities in Asia, Europe, and North America, we build strong customer relationships by developing products that respond to market needs.

Samsung Display, one of the leading amorphous silicon (a-Si) TFT LCD manufacturers for the past 20 years, is shutting down its first G7 line, Line 7-1, from as early as the end of July and there are rumors of a few more fab closures to come. Its a-Si TFT LCD footprint is expected to shrink dramatically over the next few years with potentially just one a-Si fab in operation in 2018 to serve its market-leading TV business.

Panasonic LCD is also rumored to be shutting down most or all of its G8.5 line. Based on the near term decline in a-Si TFT LCD capacity, Credit Suisse upgraded AUO and Innolux on this news and their shares surged.

Samsung’s Line 7-1, which began operation in October 2004 and production in May 2005, is rumored to be shutting down from the 30th July through the end of the year. It has a unique glass size (1,870 x 2,200mm), which was the largest in the world at the time of its introduction and is optimized for both 40” and 46” LCD TV panel production. It was also the site of the Samsung-Sony joint venture, S-LCD, established in April 2004. This line enabled Samsung and Sony to rapidly take share from smaller G6 fabs optimized for 32” and 37” panels. During that time, the two companies competed aggressively in retail while establishing 40” and 46” as mainstream sizes. The JV with Sony ended in 2011. S-LCD also built an 8th gen fab that began production in Q3’07, and Samsung built a second G7 line (L7-2) on its own, with even more capacity at over 170,000 substrates per month. L7-2 began production in Q3’08.

Displays are already a weak spot in Samsung’s financial performance. The category caused the device solutions division to be the only one to suffer a loss among all major divisions within Samsung in Q1’16, and its revenues of KRW6 trillion ($5.2 billion) were the lowest in two years. The display division alone posted an operating loss of KRW270 billion ($233 million) in Q1’16 resulting in an operating margin of -4.4%. While Samsung has a number of technology and capacity advantages in OLEDs for mobile displays, its a-Si TFT LCD business has matured and is increasingly becoming commoditized, as new entrants from China with government support are taking share. In addition, most of the a-Si TFT LCD market segments have become stagnant or are in decline, which points to more losses given the growing Chinese competition. On the other hand, OLEDs and flexible OLEDs are poised for rapid growth as they take share. As a result, it makes good business sense for Samsung to exit much of the a-Si TFT LCD market.

Line 7-2, newer and larger than 7-1, is also rumored to be for sale and is expected to be shut down in 2017, but probably depends on profitability. Line 7-2 has been producing 3-4 million 40” panels and 300,000 75” panels annually, as well as monitor panels. Twinstar is also a potential customer for the manufacturing equipment and this line may also be utilized for OLED production in the future.

Samsung is expected to begin shipping for the first OLED iPhone in volume from Q3’17, with input capacity from the modified Line 7 ramping up to between 90,000 and 120,000 substrates per month. Apple is expected to purchase 70 million OLED panels in 2017, according to sources.

That is not all, however. Line 6, Samsung"s last 5th gen line with 1,100 x 1,300mm substrates and around 190,000 substrate per month capacity, is also expected to be shut down, according to industry insiders. That line, which features a-Si and oxide TFT LCD production, has been producing tablet, notebook PC and LCD monitor panels. Those markets have also been hit by stagnant demand, growing competition from China, commoditization and declining margins. This line is expected to be shut down between the end of 2016 and 2017. Line 6 is predicted to be converted to a semiconductor facility, making application processors for smartphones and tablets.

If Samsung closes down Line 6 and Lines 7-1 and 7-2, its a-Si production will be down to just two G8.5 fabs: one in Suzhou, China and one in Tangjong, Korea. The Suzhou fab, ramping to over 100,000 substrates per month, is also rumored to be a candidate for sale with Chinese and Indian TFT LCD suppliers as potential customers. If Samsung licenses its latest a-Si TFT LCD or oxide TFT LCD technology, that would certainly make the sale more attractive. This means Samsung would have just one a-Si TFT LCD fab: Line 8.

I believe Line 8 will be sufficient for Samsung to support its internal TV brand with leading edge panels for the TV market as it has a monthly capacity of 400,000 2,200 x 2,500mm (G8.5) substrates. Samsung’s TV business would likely continue to outsource its low-end panels for its TVs to other LCD manufacturers and focus this fab on higher margin products such as 8k, HDR, QD WCG, etc. I cannot see Samsung abandoning LCD TV panel production until it believes OLEDs are cost effective enough to takeover the mid-range high end of the TV market. This likely means not until OLED materials can be inkjet printed, Samsung is still likely to focus all of its TV panel production on LCDs.

If this occurs as described, Samsung Display"s output of 42" and larger panels would be LCD, and sub-42" would be OLED, although it may not have much production between 15" and 40". This would be an amazing, but expected, transformation given the supply/demand and profitability outlook for the a-Si market.

Panasonic is also following Samsung’s lead. It is expected to reduce the glass input of its G8.5 line from around 50,000 per month to just 10,000 per month by September. Given the limited scale and cost effectiveness of this Japanese factory and the loss of share of Panasonic"s TV brand in many regional TV markets, the company is better off purchasing panels from LG and lower cost Chinese suppliers. Otherwise it would be trying to run a high cost fab in Japan, in a market where commoditization is becoming increasingly common and a large wave of new, lower cost capacity from China is on its way. The company may keep 10,000 of capacity for some period for Panasonic-branded products, but it is hard to imagine operating a fab at just 10,000 per month for long, as the lack of volume will further increase costs relative to other higher volume players.

Interestingly, with both Samsung and Panasonic reducing their a-Si capacity in the near term, Credit Suisse has upgraded its outlook for AUO and Innolux to outperform, and both companies have seen significant share price increases as a result. Credit Suisse indicated that the closure of L7-1 will reduce supply by 12 million 40” panels - or 1/3 of the 40” market - which will tighten supply in the 40”-43” market and produce a better pricing environment. AUO’s earnings per share (EPS) was raised from NT$10.20 to NT$13 ($0.32 - $0.40), while Innolux’s EPS was raised from NT$10.10 to NT$14 ($0.31 - $0.43). Both companies" stock prices have taken off, with AUO’s stock price rising by 22% in the US in three days.

As Japanese and Korean players take more a-Si capacity offline, it will create a better environment for the Taiwanese and Chinese suppliers, enabling the market to better digest all the new capacity being brought online in China. However, there is a tremendous amount of capacity coming and much of this older capacity from Samsung and Panasonic may get sold and reintroduced. As pointed out at SID 2016, by 2019 China is expected to have:

2016 and 2017 are expected to be back-to-back years of over $12 billion in LCD/OLED equipment spending. Unless these fabs struggle with their ramp and their yields, the a-Si market will continue to be oversupplied although conditions should improve in the 40”-43” market in the second half of 2016.

Rather than battle it out with government-subsidized Chinese players, Samsung appears to be accelerating its exit of the increasingly commoditized a-Si TFT LCD market. This should please its shareholders, especially if it can sell all its old equipment and license its a-Si technology for a royalty, but will be harmful to some of its suppliers. It is also likely to protect its TV business by holding onto its most competitive fab, but will increasingly become an OLED company. Interesting questions as a result of these moves include:

A couple of days after this article was originally posted, it was claimed - and later denied by a company official - that Samsung will move its a-Si TFT LCD operations out of Samsung Display and into Samsung Electronics. Such a move aligns perfectly with its intention, indicated above, to close its a-Si fabs as in a couple of years its a-Si TFT LCD operations may be limited to providing panels to its TV business. - Ross Young

Ross Young is the CEO and Founder of Display Supply Chain Consultants. He also serves on the Board of Directors of publicly traded touch sensor manufacturer UniPixel and diamond semiconductor developer Akhan Technologies. He previously founded DisplaySearch and served as its CEO from 1996 - 2007 where he launched most of their categories of coverage. He has also held executive positions at Samsung LCD and IMS Research.

The global TFT-LCD display panel market attained a value of USD 181.67 billion in 2022. It is expected to grow further in the forecast period of 2023-2028 with a CAGR of 5.2% and is projected to reach a value of USD 246.25 billion by 2028.

The current global TFT-LCD display panel market is driven by the increasing demand for flat panel TVs, good quality smartphones, tablets, and vehicle monitoring systems along with the growing gaming industry. The global display market is dominated by the flat panel display with TFT-LCD display panel being the most popular flat panel type and is being driven by strong demand from emerging economies, especially those in Asia Pacific like India, China, Korea, and Taiwan, among others. The rising demand for consumer electronics like LCD TVs, PCs, laptops, SLR cameras, navigation equipment and others have been aiding the growth of the industry.

TFT-LCD display panel is a type of liquid crystal display where each pixel is attached to a thin film transistor. Since the early 2000s, all LCD computer screens are TFT as they have a better response time and improved colour quality. With favourable properties like being light weight, slim, high in resolution and low in power consumption, they are in high demand in almost all sectors where displays are needed. Even with their larger dimensions, TFT-LCD display panel are more feasible as they can be viewed from a wider angle, are not susceptible to reflection and are lighter weight than traditional CRT TVs.

The global TFT-LCD display panel market is being driven by the growing household demand for average and large-sized flat panel TVs as well as a growing demand for slim, high-resolution smart phones with large screens. The rising demand for portable and small-sized tablets in the educational and commercial sectors has also been aiding the TFT-LCD display panel market growth. Increasing demand for automotive displays, a growing gaming industry and the emerging popularity of 3D cinema, are all major drivers for the market. Despite the concerns about an over-supply in the market, the shipments of large TFT-LCD display panel again rose in 2020.

North America is the largest market for TFT-LCD display panel, with over one-third of the global share. It is followed closely by the Asia-Pacific region, where countries like India, China, Korea, and Taiwan are significant emerging market for TFT-LCD display panels. China and India are among the fastest growing markets in the region. The growth of the demand in these regions have been assisted by the growth in their economy, a rise in disposable incomes and an increasing demand for consumer electronics.

The report gives a detailed analysis of the following key players in the global TFT-LCD display panel Market, covering their competitive landscape, capacity, and latest developments like mergers, acquisitions, and investments, expansions of capacity, and plant turnarounds:

*At Expert Market Research, we strive to always give you current and accurate information. The numbers depicted in the description are indicative and may differ from the actual numbers in the final EMR report.

I needed a small monitor for security cameras on my desk. The picture is extremely dark even after you adjust the brightness and other settings. A bright sunny day at noon looks like the sun is going down on the monitor. It"s not my cameras because the picture is significantly brighter on the tv in the office. The screen it"s self is insanely reflective on top of the picture being very dim so you have to be looking at it just right to even see. It"s has no way of standing on its own without mounting it to a desk or wall. The mount is extremely cheap and does not hold position very well. But it functions and you get what you pay for.

In this Arduino touch screen tutorial we will learn how to use TFT LCD Touch Screen with Arduino. You can watch the following video or read the written tutorial below.

For this tutorial I composed three examples. The first example is distance measurement using ultrasonic sensor. The output from the sensor, or the distance is printed on the screen and using the touch screen we can select the units, either centimeters or inches.

The next example is controlling an RGB LED using these three RGB sliders. For example if we start to slide the blue slider, the LED will light up in blue and increase the light as we would go to the maximum value. So the sliders can move from 0 to 255 and with their combination we can set any color to the RGB LED,  but just keep in mind that the LED cannot represent the colors that much accurate.

The third example is a game. Actually it’s a replica of the popular Flappy Bird game for smartphones. We can play the game using the push button or even using the touch screen itself.

As an example I am using a 3.2” TFT Touch Screen in a combination with a TFT LCD Arduino Mega Shield. We need a shield because the TFT Touch screen works at 3.3V and the Arduino Mega outputs are 5 V. For the first example I have the HC-SR04 ultrasonic sensor, then for the second example an RGB LED with three resistors and a push button for the game example. Also I had to make a custom made pin header like this, by soldering pin headers and bend on of them so I could insert them in between the Arduino Board and the TFT Shield.

Here’s the circuit schematic. We will use the GND pin, the digital pins from 8 to 13, as well as the pin number 14. As the 5V pins are already used by the TFT Screen I will use the pin number 13 as VCC, by setting it right away high in the setup section of code.

I will use the UTFT and URTouch libraries made by Henning Karlsen. Here I would like to say thanks to him for the incredible work he has done. The libraries enable really easy use of the TFT Screens, and they work with many different TFT screens sizes, shields and controllers. You can download these libraries from his website, RinkyDinkElectronics.com and also find a lot of demo examples and detailed documentation of how to use them.

After we include the libraries we need to create UTFT and URTouch objects. The parameters of these objects depends on the model of the TFT Screen and Shield and these details can be also found in the documentation of the libraries.

Next we need to define the fonts that are coming with the libraries and also define some variables needed for the program. In the setup section we need to initiate the screen and the touch, define the pin modes for the connected sensor, the led and the button, and initially call the drawHomeSreen() custom function, which will draw the home screen of the program.

So now I will explain how we can make the home screen of the program. With the setBackColor() function we need to set the background color of the text, black one in our case. Then we need to set the color to white, set the big font and using the print() function, we will print the string “Arduino TFT Tutorial” at the center of the screen and 10 pixels  down the Y – Axis of the screen. Next we will set the color to red and draw the red line below the text. After that we need to set the color back to white, and print the two other strings, “by HowToMechatronics.com” using the small font and “Select Example” using the big font.

Next is the distance sensor button. First we need to set the color and then using the fillRoundRect() function we will draw the rounded rectangle. Then we will set the color back to white and using the drawRoundRect() function we will draw another rounded rectangle on top of the previous one, but this one will be without a fill so the overall appearance of the button looks like it has a frame. On top of the button we will print the text using the big font and the same background color as the fill of the button. The same procedure goes for the two other buttons.

Now we need to make the buttons functional so that when we press them they would send us to the appropriate example. In the setup section we set the character ‘0’ to the currentPage variable, which will indicate that we are at the home screen. So if that’s true, and if we press on the screen this if statement would become true and using these lines here we will get the X and Y coordinates where the screen has been pressed. If that’s the area that covers the first button we will call the drawDistanceSensor() custom function which will activate the distance sensor example. Also we will set the character ‘1’ to the variable currentPage which will indicate that we are at the first example. The drawFrame() custom function is used for highlighting the button when it’s pressed. The same procedure goes for the two other buttons.

getDistance(); // Gets distance from the sensor and this function is repeatedly called while we are at the first example in order to print the lasest results from the distance sensor

So the drawDistanceSensor() custom function needs to be called only once when the button is pressed in order to draw all the graphics of this example in similar way as we described for the home screen. However, the getDistance() custom function needs to be called repeatedly in order to print the latest results of the distance measured by the sensor.

Here’s that function which uses the ultrasonic sensor to calculate the distance and print the values with SevenSegNum font in green color, either in centimeters or inches. If you need more details how the ultrasonic sensor works you can check my particular tutorialfor that. Back in the loop section we can see what happens when we press the select unit buttons as well as the back button.

Ok next is the RGB LED Control example. If we press the second button, the drawLedControl() custom function will be called only once for drawing the graphic of that example and the setLedColor() custom function will be repeatedly called. In this function we use the touch screen to set the values of the 3 sliders from 0 to 255. With the if statements we confine the area of each slider and get the X value of the slider. So the values of the X coordinate of each slider are from 38 to 310 pixels and we need to map these values into values from 0 to 255 which will be used as a PWM signal for lighting up the LED. If you need more details how the RGB LED works you can check my particular tutorialfor that. The rest of the code in this custom function is for drawing the sliders. Back in the loop section we only have the back button which also turns off the LED when pressed.

getDistance(); // Gets distance from the sensor and this function is repeatedly called while we are at the first example in order to print the lasest results from the distance sensor

TFT stands for thin-film transistor, which means that each pixel in the device has a thin-film transistor attached to it. Transistors are activated by electrical currents that make contact with the pixels to produce impeccable image quality on the screen. Here are some important features of TFT displays.Excellent Colour Display.Top notch colour contrast, clarity, and brightness settings that can be adjusted to accommodate specific application requirements.Extended Half-Life.TFT displays boast a much higher half-life than their LED counterparts and they also come in a variety of size configurations that can impact the device’s half-life depending on usage and other factors.TFT displays can have either resistive or capacitive touch panels.Resistive is usually the standard because it comes at a lower price point, but you can also opt for capacitive which is compatible with most modern smartphones and other devices.TFT displays offer exceptional aspect ratio control.Aspect ratio control contributes to better image clarity and quality by mapping out the number of pixels that are in the source image compared to the resolution pixels on the screen.Monitor ghosting doesn’t occur on TFT displays.This is when a moving image or object has blurry pixels following it across the screen, resembling a ghost.

TFT displays are incredibly versatile.The offer a number of different interface options that are compatible with various devices and accommodate the technical capabilities of all users.

There are two main types of TFT LCD displays:· Twisted nematic TFT LCDs are an older model. They have limited colour options and use 6 bits per each blue, red, and green channel.

In-plane switching TFT LCDs are a newer model. Originally introduced in the 1990s by Hitachi, in-plane switching TFT LCDs consist of moving liquid pixels that move in contrast or opposite the plane of the display, rather than alongside it.

The type of TFT LCD monitor or industrial display you choose to purchase will depend on the specifications of your application or project. Here are a few important factors to consider when selecting an appropriate TFT LCD display technology:Life expectancy/battery life.Depending on the length of ongoing use and the duration of your project, you’re going to want to choose a device that can last a long time while maintaining quality usage.

Touch type and accuracy.What type of activities are you planning on using your device for? If it’s for extended outdoor use, then you should go with projected capacitive touch as this is more precise and accurate. Touch accuracy is important for industrial and commercial applications.

Image clarity.Some TFT displays feature infrared touchscreens, while others are layered. The former is preferable, especially in poor lighting conditions or for outdoor and industrial applications, because there’s no overlay and therefore no obstructions to light emittance.

The environmental conditions make a difference in operation and image clarity. When choosing a TFT for outdoor or industrial applications, be sure to choose one that can withstand various environmental elements like dust, wind, moisture, dirt, and even sunlight.

As a leading manufacturer and distributor of high-quality digital displays in North America, Nauticomp Inc. can provide custom TFT LCD monitor solutions that are suitable for a multitude of industrial and commercial indoor and outdoor applications. Contact us today to learn more.