high quality 8k tft lcd free sample

TFT (Thin Film Transistor) LCD (Liquid Crystal Display) dominates the world flat panel display market now. Thanks for its low cost, sharp colors, acceptable view angles, low power consumption, manufacturing friendly design, slim physical structure etc., it has driven CRT(Cathode-Ray Tube) VFD ( Vacuum Fluorescent Display) out of market, squeezed LED (Light Emitting Diode) displays only to large size display area. TFT LCD displays find wide applications in TV, computer monitors, medical, appliance, automotive, kiosk, POS terminals, low end mobile phones, marine, aerospace, industrial meters, smart homes, handheld devices, video game systems, projectors, consumer electronic products, advertisement etc. For more information about TFT displays, please visit our knowledge base.

There a lot of considerations for how to choose a most suitable TFT LCD display module for your application. Please find the check list below to see if you can find a right fit.

Resolution will decide the clearance. Nobody likes to see a display showing pixel clearly. That is the reason for better resolution, going from QVGA, VGA to HD, FHD, 4K, 8K. But higher resolution means higher cost, power consumption, memory size, data transfer speed etc. Orient Display offers low resolution of 128×128 to HD, FHD, we are working on providing 4K for our customers. For full list of resolution available, please see Introduction: LCD Resolution

TFT screen brightness selection is very important. You don’t want to be frustrated by LCD image washout under bright light or you drain the battery too fast by selecting a super brightness LCD but will be used indoor only. There are general guidance listed in the table below.

Orient Display offers standard brightness, medium brightness , high brightness, and high end sunlight readable IPS TFT LCD display products for our customers to choose from.

If the budget is tight, TN type TFT LCD can be chosen but there is viewing angle selection of either 6 o’clock or 12 o’clock. Gray scale inversion needs to be taken of carefully. If a high-end product is designed, you can pay premium to select IPS TFT LCD which doesn’t have the viewing angle issue.

It is similar to viewing angle selection, TN type TFT LCD has lower contrast but lower cost, while IPS TFT LCD has much high contrast but normally with higher cost. Orient Display provides both selections.

Normal TFT LCD displays provide wide enoughtemperature range for most of the applications. -20 to 70oC. But there are some (always) outdoor applications like -30 to 80oC or even wider, special liquid crystal fluid has to be used. Heater is needed for operating temperature requirement of -40oC. Normally, storage temperature is not an issue, many of Orient Display standard TFT display can handle -40 to 85oC, if you have any questions, feel free to contact our engineers for details.

Power consideration can be critical in some hand-held devices. For a TFT LCD display module, backlight normally consumes more power than other part of the display. Dimming or totally shutdown backlight technology has to be used when not in use. For some extreme power sensitive application, sleep mode or even using memory on controller consideration has to be in design. Feel free to contact our engineers for details.

High Level Interfaces: Orient Display has technologies to make more advanced interfaces which are more convenient to non-display engineers, such as RS232, RS485, USB, VGA, HDMI etc. more information can be found in our serious products. TFT modules, Arduino TFT display, Raspberry Pi TFT display, Control Board.

Considering different strength requirements, Orient Display can provide low cost chemical tampered soda-lime glass, Asahi (AGC) Dragontrail glass and Corning high end Gorilla glass. With different thickness requirement, Orient Display can provide the thinnest 0.5mm OGS touch panel, to thickness more than 10mm tempered glass to prevent vandalizing, or different kinds of plastic touch panel to provide glass piece free (fear) or flexible substrates need.

If you can’t find a very suitable TFT LCD Display in our product line, don’t be discouraged. The products listed on our website is only small part of standard products. We have thousands of standard products in our database, feel free to contact our engineers for details.

If you like to have a special display, Orient Display is always flexible to do partial custom solution. For example, to modify the FPC to different length or shape, or use as fewer pinouts as possible, or design an ultra-bright LCD display, or a cover lens with your company logo on it, or design an extreme low power or low cost TFT display etc. our engineers will help you to achieve the goals. The NER cost can start from hundreds of dollars to Thousands. In rare case, it can be tens of thousands of dollars.

A fully custom TFT LCD panel can have very high NRE cost. Depending on the size of the display, quantity and which generation production line to be used. The tooling cost can start from $100,000 to over $1M.

You can get 8k lcd display with an operation range that suits your specific application, choosing from a wide selection of suppliers. Source wholesale 8k lcd display on Alibaba.com for your business and enjoy a wide variety and great deals.

8k lcd display (Liquid crystal display) are made of liquid crystals that form digital images made visible through ambient light or through LED backlight. LCDs are used in the place of other displays that are less efficient such as cathode ray tubes (CRTs) and have become the most popular display type on the market.

Explore the extensive selection of wholesale 8k lcd display LCD displays, TFT, and HMI that can be used across a range of industries, including domestic, medical, industrial, automotive, and many others. You can choose from a number of standard industry sizes and find the 8k Lcd display that are applicable to your required use. If you would like options that allow a smaller environmental footprint due to low power consumption, you can browse the Chip-on-Glass (COG) LCDs. COGs are designed without PCBs so have a slimmer profile.

Please submit your award nomination to the category that seems most appropriate. From time to time, the awards committee may, at its discretion, move your nomination to a different category. The committee respectfully requests that submission files be kept reasonable in size and number. Be sure to include as much information as possible in the Excel nomination form (links below), and do not submit more than three separate documents. If at all possible, links to videos and high-resolution imagery are preferred to actual attachments.

The Apple Liquid Retina XDR Display on the 12.9-inch iPad Pro and 14-inch and 16-inch MacBook Pro features extreme dynamic range with 1,000-nit full-screen-sustaining capa¬bility and 1,600-nit peak high luminance, with a 1,000,000:1 contrast ratio. A DCI-P3 wide color gamut with 1 billion colors delivers rich and vibrant colors. ProMotion display technology, with variable refresh rates within 24–120 Hz, delivers a responsive viewing experience. Ultralow reflectivity helps users stay focused on the content, even in high ambient lighting conditions. Each display is carefully calibrated in the factory, and when combined with color man¬agement that’s built into iPadOS and macOS, the Liquid Retina XDR Display delivers an optimal view¬ing experience.

The curved large MBUX Hyperscreen is the first automotive series pillar-to-pillar unit and is the highlight in the new electric architecture Gen.2 interior program. A smart combina­tion and integration of three innovative displays behind one curved cover glass merge almost seam­lessly to create a customer experience of more than 141 centimeters appearing as one visual unit.

compared with traditional leds, minileds have smaller particle size and higher brightness, which can bring better display effects to the lcd with a miniled back­light unit. meanwhile, it is more energy-efficient and supports accurate local dim­ming to avoid the uniformity problem that occurs with led backlight units. the active-matrix (am) driving glass substrate technology adopted by the chip-on-glass (cog) miniled backlight unit from boe is based on semiconductor technology and uses a glass substrate through boe’s lateral processing technology. glass is more suitable for making led backlight arrays with dense arrange­ment and heat concentration. the miniled unit is directly bonded to the glass substrate to realize the high-speed transfer of the led chips and can realize precise, independent dimming control of the back­light unit.

The xQDEF Diffuser Plate brings together the color and brightness performance of QDEF quantum-dot (QD) technology with the precise light diffusion necessary for perfect contrast levels in miniLED and full-array local-dimming LCDs. As a direct replacement for diffuser plate components in direct-lit LCDs, the xQDEF Diffuser Plate simplifies the display assembly process, allowing display makers to design and build the most cost-effective displays with the widest color gamut. Compared with other wide color gamut solutions, the xQDEF Diffuser Plate implementation results in close to no additional material costs. By the end of 2021, more than a million TVs with xQDEF Diffuser Plates inside shipped into the market.

With its 32‐inch LCD panel, 6K Retina resolution, and over 20 million pixels, Apple Pro Display XDR (Fig . 1) sets a new bar for the capabilities of a professional display. Designed for pro users who rely on color accuracy and true‐to‐life image reproduction, such as photographers, video editors, 3D animators, and colorists, Pro Display XDR delivers the most comprehensive set of features ever offered on a display in its price range.

Featuring P3 wide color and 10‐bit color depth, Pro Display XDR is expertly calibrated at the factory to ensure billions of colors can be reproduced with exceptional accuracy. And features such as built‐in reference modes make it easy to match the viewing requirements of content creation workflows. With 1000 nits of full‐screen sustained brightness and 1600 nits peak, a 1,000,000:1 contrast ratio, and an Apple‐designed backlight system for optimized light shaping, Pro Display XDR sets a new industry standard for reference‐quality imaging at a fraction of the size, weight, and cost of traditional reference monitors.

Here"s how Pro Display XDR is engineered to produce industry‐leading imagery: Traditional LCD displays use edge‐lit backlight technology to diffuse light evenly across the display at the same brightness level. Instead, Pro Display XDR uses a locally dimmed backlight with 576 individual LEDs, controlled by an advanced algorithm in the timing controller chip. As a result, the display can exhibit incredibly bright, color‐accurate image areas and deep blacks simultaneously, delivering its 1,000,000:1 contrast ratio and up to 1600 nits peak brightness. An advanced thermal management system supports the display to maintain peak brightness indefinitely in environments up to 25° C. With these features, Pro Display XDR introduces Extreme Dynamic Range (XDR), far outperforming typical HDR brightness specifications for desktop displays and enabling pros to work with true‐to‐life content.

Pro Display XDR also incorporates several innovations to optimize image quality compared to traditional LCD displays. First, to minimize “blooming,” a halo effect surrounding bright objects on dark backgrounds, an Apple‐designed cavity reflector is layered on top of the LEDs and optimized geometrically. Along with several additional custom lenses and reflective layers, it directs the light upward while reducing halo effects and preserving light uniformity.

With its incredible color and advanced calibration, Extreme Dynamic Range with industry‐leading brightness and contrast, and innovative display technologies, Pro Display XDR provides image quality and performance previously reserved for high‐end reference monitors.

The display industry has experimented with various technologies to better reflect natural images and a wide range of colors on screens, and with the emergence of LED local dimming and HDR, display performance has substantially improved. However, traditional LCD screens’ brightness has long been considered relatively high in low grayscale. In other words, it isn"t black enough, and it"s difficult to use local image technology to differentiate the sense of depth with a high‐contrast ratio.

As a breakthrough in thin‐film transistor (TFT)‐LCD technology, BOE"s dual‐cell panel (Fig . 2) — referred to as “BD Cell” for short—offers several important technical advancements that conventional LCD screens don"t. The display uses pixel‐level ultra‐fine backlight control technology and a brand‐new integrated circuit (IC) driving technology to make the million‐level contrast ratio rate and 12 bits’ color depth come true, accurately displaying more natural and true‐to‐life colors.

The contrast ratio of a conventional LCD screen is 3,000:1 with 0.2 nits as the lowest brightness. The BD Cell"s screen is capable of raising the contrast ratio up to 150,000:1 and decreasing brightness to 0.003 nit. In terms of combining LED local dimming with BD Cell technology, the contrast ratio can be as high as 2,000,000:1. Moreover, while a conventional LCD screen"s color depth is 8 bit, BD Cell is capable of boosting the color depth as high as 12 bit with an enhanced IC driving algorithm. On the other hand, BD Cell incorporates advantages of an LCD screen"s stableness and technological maturity, with no image sticking.

In the end, “the successful development of BD Cell substantially increases the lifespan and the competitiveness of LCD technology, bringing a better visual experience to consumers and more possibilities for the entire display industrial chain,” says Feng Yuan, vice president of BOE Technology Group.

Samsung"s first‐of‐its‐kind device bridges a smartphone and tablet with the help of two AMOLED displays: a 4.6‐inch external screen and an internal screen that expands to 7.3 inches when unfolded. That interior display"s size gives way to a powerful multitasking feature by operating three applications simultaneously. It also has a picture quality of up to Quad Extended Graphics Array (QXGA+) resolution and a pure color gamut and peak luminance of up to 600 cd/m2, letting users fully immerse themselves in various types of content such as gaming and video streaming. Indeed, according to the company, wide screen but compact size is no longer something users expect to see only in a sci‐fi film.

To achieve those specifications, Samsung has developed highly effective electroluminescent material and highly durable components. To make an inward foldable display with a bending radius of 1.5 millimeters (mm), all the layers within the panel should be folded without causing any cracks. As a result, the foldable display employs a cover window made of flexible, hardened plastic. Samsung says that it successfully reduced the thickness by more than 50 percent by taking advantage of materials that enable ultra‐thin layers. Furthermore, the stress of various layers (including the TFT, light‐emitting layers, polarizing plate, and cover window) is appropriately dispersed, allowing the product to pass a strict bending test more than 200,000 cycles.

Though volumes for the foldable market are expected to be small for several years, Samsung considers its foldable display as a stepping stone in revolutionizing display form factors. Going forward, Samsung says the form‐factor revolution will be highly significant for enhancing mobile devices.

As displays move beyond simple infotainment purposes and become tools vital for assessing critical driving information, the need for high‐tech glass is clear, says Corning. AutoGrade™ Gorilla Glass can help enable automotive displays that are larger, longer, and shaped to bring next‐generation capabilities on the road and, ultimately, help the industry differentiate with curved console designs.

Although quantum dot (QD) technology realizes a high color gamut for LCD, most QD materials are cadmium (Cd)‐based, raising concerns about their potential toxicity: Exposure to cadmium has been connected to cancer and other serious health issues, as well as environmental harms. As a result, Cd‐based QD materials are not widely accepted in the display market, and the industry has shifted its focus to finding nontoxic alternatives. Still, Cd‐free QD materials can bring their own challenges, including issues with low luminance and color purity.

Because one of Toray"s core offerings is organic emitting materials with high color purity for organic EL devices, the company wondered if they might be useful for a high color gamut LCD and began developing the SCO sheet (Fig . 6). In the beginning, the biggest issue with the organic emitting materials was their lifetime. However, Toray ultimately achieved a lifetime 1,400 times longer compared to the initial development stage.

According to the company, their SCO sheet is especially innovative for a few reasons. First, the high color purity of Toray"s organic emitting material is based on a full width at half maximum (FWHM) parameter that"s much narrower than any other organic emitting materials so far developed. So by using the SCO sheet, a high color gamut LCD can be realized. In particular, the sheet can cover both Digital Cinema Initiatives (DCI)‐P3 and Adobe specifications.

Second, Toray says its original organic emitting material has a higher quantum efficiency than that of non‐Cd QDs. Therefore, an approximately 10 percent higher luminance can be realized with the sheet than with non‐Cd QDs. For that reason, the SCO sheet can contribute to lower power consumption of the LCD panel.

Because Toray"s SCO sheet is free of toxic elements, it"s not restricted by various environmental regulations, including the European Unions’ Restriction of Hazardous Substances (RoHS) Directive. Finally, with the sheet, more than 99 percent of DCI and more than 99 percent of Adobe coverage can be achieved in one LCD panel. (According to the company, non‐Cd QDs can"t say the same.) Recently, in the PC monitor market, there has been a strong demand for compatibility of DCI and Adobe in one PC monitor. Toray believes that with the SCO sheet, it will be able to develop a new PC monitor market.

Although OLED is a well‐known way to apply organic electronics materials to the display industry, this is the first instance of applying organic emitting materials to the LCD industry, an achievement that expands the possibilities of organic electronics materials.

Last year, Audi"s plans to shift to the production of fully electric cars came into clearer focus: Not only were models of the Audi e‐tron, the company"s first high‐volume all‐electric car, delivered to consumers, but Audi said that it intends to debut more than 30 electrified cars—20 of them fully electric—by 2025.

Beyond that, Senner says, they also offer practical benefits in terms of comfort and safety. With their sophisticated image processing, the displays provide a much better image than a conventional mirror can in certain situations, such as driving in direct sunlight. The mirrors also adjust automatically to three driving situations: highway, turning, and parking. On the highway, the field of vision is reduced so that the driver can better estimate speeds when driving fast, and Senner says if the driver signals an intention to turn or change lanes by indicating, the indicator view extends the relevant side"s image detail to reduce the blind spot. The field of vision is extended downward when maneuvering and parking, and the display visualizes the turn signal as a green contour on its outer frame and displays notifications from the Audi side‐assist lane‐change assistant and exit warning.

A 7‐inch OLED was selected for the virtual exterior mirror. In early test drives, Senner notes, Audi realized that the limited contrast of an LCD and especially the slow response time in low temperatures was a significant issue. “So it became clear very early, that we have to use an OLED display for this application, because with the dark black and the temperature, independent fast switching‐time OLED is the best solution,” he says.

The camera is integrated into the hexagonal end of the virtual mirror"s flat supports and its images are digitally processed and displayed on high‐contrast, 1,280 × 800‐pixel OLED displays in the transition between the instrument panel and door.

8K resolution TVs are to contain double the number of pixels per inch as compared to 4K models. As an example, a 8K TV display with a screen size of 55 inches packs in 160 pixels per inch while the 4K resolution offers just 80 pixels per inch.Read moreNumber of pixels per inch in 4K and 8K resolution TVs worldwide, by screen size(in inches)Characteristic4K8K---

Deloitte. (December 8, 2020). Number of pixels per inch in 4K and 8K resolution TVs worldwide, by screen size (in inches) [Graph]. In Statista. Retrieved December 28, 2022, from https://www.statista.com/statistics/1196348/pixels-per-inch-4k-8k-tv-by-screen-size/

Deloitte. "Number of pixels per inch in 4K and 8K resolution TVs worldwide, by screen size (in inches)." Chart. December 8, 2020. Statista. Accessed December 28, 2022. https://www.statista.com/statistics/1196348/pixels-per-inch-4k-8k-tv-by-screen-size/

Deloitte. (2020). Number of pixels per inch in 4K and 8K resolution TVs worldwide, by screen size (in inches). Statista. Statista Inc.. Accessed: December 28, 2022. https://www.statista.com/statistics/1196348/pixels-per-inch-4k-8k-tv-by-screen-size/

Deloitte. "Number of Pixels per Inch in 4k and 8k Resolution Tvs Worldwide, by Screen Size (in Inches)." Statista, Statista Inc., 8 Dec 2020, https://www.statista.com/statistics/1196348/pixels-per-inch-4k-8k-tv-by-screen-size/

Deloitte, Number of pixels per inch in 4K and 8K resolution TVs worldwide, by screen size (in inches) Statista, https://www.statista.com/statistics/1196348/pixels-per-inch-4k-8k-tv-by-screen-size/ (last visited December 28, 2022)

Display panel and component suppliers showcased next generation product innovations for MicroLED, MiniLED, OLED, Quantum Dot and LTPS LCD at DisplayWeek 2019 at San Jose in May. As application market growth-rates are slowing down suppliers are rushing to find the "next big thing" that will drive demand growth. Generally, technology prototypes take years to be commercialized and reach mass production.

PlayNitride showcased 7.5-inch RGB full color, transparent MicroLED display with LTPS TFT backplane, 720x 480 resolution, 114 PPI pixel density, >600 nits brightness, >60% transparency and <0.7mm border width (developed in collaboration with Tianma). Both Tianma and PlayNitride received SID award for this very impressive product. This product is geared for applications such as automotive, industrial control and home furnishing. PlayNitride also showed an extremely thin (28um) flexible MicroLED display and a 1.25-inch 458dpi MicroLED wearable display. PlayNitride expects mass production at the end of 2019. Glo demonstrated their InGaN based 1.8-inch LTPS based color RGB MicroLED display in partnership with Kyocera. Company is focusing on smart watch products and expects mass production in 2020.

Plessey showed GaN-on-Silicon monolithic MicroLED technology (DisplayWeek award) that can enable brighter, smaller, and higher performing solutions for AR/MR headsets, smart glass, pico-projectors and HUDs. Plessey has been working with Jasper Display Corp’s silicon backplane and Aixtron"s MOCVD reactor as well as Nanoco’s QD technology.

MicroLED technology has the advantage of a simple structure, very low power, higher resolutions, high brightness, high stability, longer life, high transparency and narrow borders. This technology still has many challenges especially manufacturing yield issues. Even though many industry observers are concerned about the long path from prototypes to commercial mass production, suppliers are still optimistic and expect many products to come to market in the next few years.

Tianma received best new display component award for LTPS miniLED HDR LCD smartphone display, that features local dimming (with up to 4600 partitions), >1,00,000:1 contrast ratio, >1,000nit brightness, high color gamut, (DCI-P3) and wide viewing angles. CSOT showed a 5.99inch LTPS display (1080x2160), 500nits, >1,00,000:1 contrast ratio with miniLED backlight. For smartphones, MiniLED backlight can empower LTPS LCD by offering higher contrast, higher brightness, faster response time and increase in color gamut. In spite of display performance advantages, MiniLED based products still face cost challenges to make them competitive in the smartphone market. In the near term, suppliers are focusing more on value-based applications such as gaming, automotive and VR.

CSOT showcased ultra slim MiniLED 15.6-inch notebook based on LTPS TFT, 3840x2160 resolution, 1000 nits brightness, 20000:1 contrast ratio and NTSC 100% color gamut. AUO showed a 17.3-inch UHD 4K HDR LTPS LCD with MiniLED backlight, >1000nits brightness, >1,000,000:1 contrast ratio, for gaming and professional notebook PCs. BOE exhibited HDR notebook featuring 15.6-inch oxide display and MiniLED backlight with very high refresh rate of 240Hz.

CSOT also showed 12.3-inch automotive narrow border MiniLED display based on LTPS TFT, 2880x1080 resolutions, 650nits brightness, and >200,00:1 contrast ratio. AUO showed 12.3-inch curved cluster auto display with MiniLED backlights. The company also showcased 2.9-inch LTPS TFT LCD, ultra high resolution (3456x3456), 1688PPI, >1,000,000:1 contrast ratio with MiniLED backlights (2304 zones) for virtual reality application. TCL/CSOT showed a 65-inch RGB AM MiniLED BLU TV with 3840x2160 resolutions, 2000 nits brightness, 1,000,000:1 contrast ratio, BT2020: 90%, DCI-P3 100% color gamut, with >5000 backlight zones.

MiniLED backlight can enhance luminance and HDR in a LCD TV by increasing the number of LEDs and improving the picture performance. A higher number of MiniLED chips can enable better picture quality but may lead to higher costs. MiniLED TV is expected to come in 2019, but it may be 2020 or even later before significant cost reductions can be achieved. If customers can see a substantial difference in picture quality, MiniLED can drive replacement demand.

Factors that can enable the success of foldable phones are durability/reliability, mechanical performance, adhesion, sensitivity, thickness, quality, visibility of creases, and the user’s experience. Foldable display creates new challenges in reliability, manufacturing and yield. The cover window needs both hardness and flexibility, a tricky combination. There have been discussions about plastic vs. glass for foldable applications. Schott, Corning and AGC are all working on developing ultrathin high strength bendable cover glass for foldable phones that can improve durability, optical clarity and scratch resistance compared to plastic. But plastic can provide a better bending radius and higher flexibility.

LG Display showed its 65-inch rollable OLED TV and a very impressive 88-inch 8K OLED TV (People Choice award), which offers fine details, an immersive experience and depth due to the deep black color. LGD also showed a 6-inch, light field OLED display which creates a volume image by using light fields, high angular resolutions, and a perfect black creating floating effect.

FlexEnable showed a larger than 8-inch flexible organic TFT LCD plastic display that is conformable, free form, lightweight and enables new product designs in smart home, automotive, signage and other applications.

E Ink showcased full color reflective (e-paper) display in 26-inch and 13.3-inch with less than 3 second update time for new color image. Both displays are in production. It also showed a 32-inch foldable display targeted for architecture and construction, featuring a-Si TFT on PI.

Nanosys received a DisplayWeek People’s Choice award for showcasing varieties of QD displays including a Hisense ULED XD TV (using a dual cell LCD panel and Nanosys QD technology). The product is expected to be available in 2020. BOE and CSOT both also showed dual cell LCD panel technology where a monochrome LCD is placed directly behind a color LCD resulting in larger number of dimming zones and higher contrast. Nanosys showed a Vizio P series Quantum X, 3000 nits TV, Samsung 82-inch QLED 8K QD TV, BOE’s QD notebook and HP’s QD gaming monitors. The company is working with highly efficient InP QDs in collaboration with LG Display to develop emissive QD display and presented a paper at the conference.

CSOT showed an LCD display with a "QD polarizer" (although I struggled to find out exactly what that was - Man. Ed.), a 65-inch Q-cell and with a quantum dot display with high efficiency QD polarizer, which provides ultra wide viewing angle. NanoPhotonica presented its emissive EL-QLED technology at the investor conference.

While next generation technology such as MicroLED, OLED and QD are bringing new innovations, LTPS LCD is still pushing the technology for new features and capabilities. AUO showed a 6-inch full screen in-cell fingerprint LTPS LCD prototype at the conference. AUO and others also showed hole in-cell touch capability for LTPS LCD to compete with OLED in the smartphone market.

LTPS LCD is also expanding its presence in automotive, notebook and other medium size display market. The automotive market is moving towards electric, connected and autonomous vehicles where the display requirements are shifting towards high resolutions, low power, higher performance and design flexibility (example: ultra wide pillar-to-pillar display, reconfigurable dashboard). JDI has been designing and producing concave-curved 12.3 (R1500mm) 1920 x 720 and 15-inch (R3000mm) 1920 x 720, LTPS TFT LCD modules for which it has received the Display Application of the Year award from the SID.

The DisplayWeek 2019 conference covered an extensive array of new prototypes including many different products in 8K ranging in sizes from <5-inch to above 100-inch. BOE showcased series of 8K products (3.5-inch, 13.3-inch notebook, 27-inch monitor and 50-100-inch TVs. In recent years, application markets such as smartphones, notebook, monitor and TVs having seen growth rates slowing down considerably. Next generation technology innovations are essential to drive replacement demand and create new markets. (SD)

Best Flat Panel Display (Overall) - 2018for the 70" Class (diagonal) 8K Ultra-HD professional display at Infocomm 20189/4/2018 12:00:00 AM2018 InfoComm Best of Show - AV TechnologyReceived for the 8K Ultra-HD Monitor6/8/2018 12:00:00 AM2018 NAB Best of Show - Digital VideoReceived for the 8K Professional Camcorder and 8K UHD LCD Monitor4/27/2018 12:00:00 AM2018 InfoComm Best of Show - Sound & Video ContractorReceived for the PN-UH601 and PN-UH701 4K Ultra-HD commercial displays5/5/2018 12:00:00 AM2018 NAB Best of Show - TV TechnologyReceived for the 8K Professional Camcorder and the 8K UHD LCD Monitor4/16/2018 12:00:00 AM2018 NAB Red Sharp AwardsFor the Sharp 8K technology on display at the 2018 National Association of Broadcasting show and the work it does to promote the benefits of the 8K space.4/13/2018 12:00:00 AMInnovative Product Award - Sound & Video ContractorReceived for the 8M-B70AU 8K Ultra HD LCD display11/6/2018 12:00:00 AM

Firmware 3.0 is here with new features and enhancements for video, high-speed still capture, autofocus, operability and more. Learn Moreabout firmware 3.0.Best.World’s best AF scene detection system1.

Expeed 7. The most powerful Nikon processing engine ever. 10x faster than previous generations. Handles complex AF and AE calculations at 120 cycles per second. Separately processes dual-streamed data from the stacked image sensor. Enables next-generation features like 120 fps still shooting, 8K video recording, a blackout-free viewing experience and more.Blazing fast 120 fps stills.

With a seemingly bottomless buffer, the Z 9 shoots continuously for more than 1,000 frames at 20 fps* as full resolution High-Efficiency RAW or JPEG (L) fine files.

Under a newly designed latching door are two matched slots optimized for high-performance CFexpress Type B cards. The slots are independent from each other, so you can load cards with different write speeds—including XQD cards.

With an innovative body design that efficiently dissipates heat, the Z 9 records lush 10-bit 8K UHD video at 24, 25 or 30 fps internally for over 2 hours straight*—with no risk of overheating. Need stills from your shoot? Save 33-megapixel frame grabs right from your footage.

The intelligence and processing power within Expeed 7 improves electronic VR for video recording, correcting trapezoid distortion from wide angle lenses and allowing you to create smooth handheld walking shots.Stunning 45.7-megapixel image quality.

Designed by Nikon specifically to bring ultra-high-resolution image quality to high-speed shooting applications. Achieves the world’s fastest scanning speed2, 12x faster data readout than the acclaimed Z 7II and absolutely spectacular image quality in stills and 8K videos.

New RAW format retains the same high image quality, dynamic range and flexibility as conventional RAW files with approximately 1/3 smaller file size. Speed up your workflow.Blackout-free Real-Live Viewfinder.

It goes up. It goes down. It goes left. It goes right. Shoot from nearly any angle—high, low or sideways—and maintain a clear, bright view of the frame. When you rotate the Z 9 for vertical shooting, the user interfaces within the monitor and the Real-Live Viewfinder also rotate to a vertical orientation*.

In venues where Wi-Fi access is spotty or in high-demand, get an edge over the competition by transferring images at high speed with a 4G or 5G smartphone. Automatically transfer shots in real-time, or add IPTC information, voice memos, crop and rotate with the smartphone before sending.Learn More

Recently, screen sizes of LCD TVs have become wider and larger. The glass substrates from AGC enable this trend of larger LCD TV sizes. Glass substrates also play a key role to reproduce clear and beautiful screen images as one of the core components of LCDs.

It is necessary for TFT-LCD glass to meet many strict quality requirements. Unlike window pane glass, glass for TFT-LCDs is not allowed to contain alkalis. This is because alkali-ions contaminate liquid crystal materials and even adversely affect the characteristics of the TFT. Additionally, the glass should not exhibit large sagging even though its thickness is just 0.3 to 0.7 mm and should have excellent heat resistance while assuring dimensional stability even after being heated at high temperature. The glass also should have properties that its composition does not dissolve during the fabrication process using chemicals. "AN100", non-alkali glass developed by us, is the one that has fulfilled those various requirements. Furthermore, since "AN100" does not contain hazardous materials such as arsenic or antimony, it has high reputation for being an environment-friendly glass. Our technologies are supporting the design of thin, large, and environmentally friendly LCD TVs.

An LCD has a layer of liquid crystal sandwiched between two sheets of glass. The most remarkable feature of liquid crystal is its optical characteristics of being both a liquid and a solid. Applying voltage to the layer of liquid crystal causes the orientation of the molecules in the liquid crystal to change relative to each other. This molecule rearrangement controls the light transmission from the backlight; the light passes through color filters of red, blue, and green, and eventually rich images appear on the screen.

Majority of LCDs in wide use now are TFT-LCDs. In a TFT-LCD, a layer of thin film that forms transistors is used as a device that applies voltage to the liquid crystal layer, and those transistors control the voltage supplied to each pixel. The advantages of a TFT-LCD are high resolution and quick response time that enables motion image to be fine and clear.

Recently, displays with higher resolution such as 4K and 8K are being developed one after another and have made it possible for viewers to enjoy vivid and fine picture even in very large screen sizes.

It is AGC’s display glass substrates, developed using its distinctive precision glass processing technologies, that support these higher resolution TVs.

Smartphones and tablets can now be considered life necessities, and the LCD screen is the most frequently used interface whenever such devices are used. Without the LCD display, it is not possible to send email or view pictures taken by the camera function.

Furthermore, LCDs play an important role in a variety of applications such as in-vehicle displays, e.g. navigation systems and center information displays, and digital signage.

Through production and supply of LCD glass substrates, which is a key material of LCDs, AGC helps create a more convenient and comfortable life through integrating various technologies within the Group.