cost for an lcd panel brands
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Prices for all TV panel sizes fluctuated and are forecast to fluctuate between 2020 and 2022. The period from March 2020 to July 2021 saw the biggest price increases, when a 65" UHD panel cost between 171 and 288 U.S. dollars. In the fourth quarter of 2021, such prices fell and are expected to drop to an even lower amount by March 2022.Read moreLCD TV panel prices worldwide from January 2020 to March 2022, by size(in U.S. dollars)Characteristic32" HD43" FHD49"/50" UHD55" UHD65" UHD------
DSCC. (January 10, 2022). LCD TV panel prices worldwide from January 2020 to March 2022, by size (in U.S. dollars) [Graph]. In Statista. Retrieved October 20, 2022, from https://www.statista.com/statistics/1288400/lcd-tv-panel-price-by-size/
DSCC. "LCD TV panel prices worldwide from January 2020 to March 2022, by size (in U.S. dollars)." Chart. January 10, 2022. Statista. Accessed October 20, 2022. https://www.statista.com/statistics/1288400/lcd-tv-panel-price-by-size/
DSCC. (2022). LCD TV panel prices worldwide from January 2020 to March 2022, by size (in U.S. dollars). Statista. Statista Inc.. Accessed: October 20, 2022. https://www.statista.com/statistics/1288400/lcd-tv-panel-price-by-size/
DSCC. "Lcd Tv Panel Prices Worldwide from January 2020 to March 2022, by Size (in U.S. Dollars)." Statista, Statista Inc., 10 Jan 2022, https://www.statista.com/statistics/1288400/lcd-tv-panel-price-by-size/
DSCC, LCD TV panel prices worldwide from January 2020 to March 2022, by size (in U.S. dollars) Statista, https://www.statista.com/statistics/1288400/lcd-tv-panel-price-by-size/ (last visited October 20, 2022)
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Once it’s recognized that a custom display will be a better design and lead to a lower overall system-level cost it’s time to dive into the actual tooling costs.
There are many factors that go into determining the upfront tooling. There’s also due diligence to be performed prior to making this commitment to ensure that this new custom display supplier will effectively support you over the long term.
Customization can either be semi-custom or fully custom. Semi-custom is where some attributes of a standard product are modified to fit the application. In contrast, fully custom is where the design is started from scratch and each component is designed from the ground up.
Semi-custom is typically the preferred option to start with. And in the case of color TFT, it’s typically the only option, as the TFT panel comes with a significant tooling and minimum order quantity (MOQ) such that the customization costs outweigh the drawbacks of using the closest standard TFT glass platform available.
b) Custom color TFT displays— the bulk of this cost comes from the TFT glass cell at $70K–$200K depending on the type of TFT cell used (standard TN or IPS). The balance of the module is an additional $5,000 – $15,000.
f) Touch panels— resistive touch panels cost approximately $2,500, while capacitive touch panels can range between $4,000 and $10,000. If a standard capacitive touch sensor can be used, and only a custom top surface is customized, the tooling can be reduced to only $1,500.
g) Backlights— monochrome display backlights are less complex and cheaper to tool at $2,000 – $4,000. The color counterpart, due to its high brightness requirement, will run between $4,000 and $10,000.
i) Overlays— this can vary significantly depending on the complexity of the screen printing, as well as any additional features, such as button or LED indicators. The overlay will typically range from $1,500 - $4,500.
Now that we’ve reviewed some of the costs associated with custom displays, here are some tips you can use to make sure that you move forward with the right partner that will then support this custom display for the long term.
Many LCD display manufacturers try to accommodate all order volumes they receive. While this allows them to serve a wider range of customers, it makes them less specialized for serving certain types of customers. As a result, your specific production volumes may be prohibitively expensive.
Seek out a display manufacturer who is optimized to handle your specific production needs for LCD displays. This is necessary to get the display for the right cost and the appropriate level of support.
Always start with a semi-custom approach. Use the available standard products to base the new design on, and then keep modifying as needed. This results in the lowest tooling costs and an easier design process. And in the case of color TFT, unless you are developing the next iPhone, design your display based on one of the standard glass platforms readily available. Then from there, redesign the backlight and the mechanical and electrical interface for your specific application.
Behind every great company are happy customers. Find out whether your supplier has them. Make sure that when this experience is handed off from your supplier’s sales and design team, the production team is just as good and accommodating. This can be accomplished through references and audits.
Initiating a successful relationship for a new custom display is all about having an open and transparent relationship with the right partner. And by designing the ideal custom or semi-custom display with this partner, you can ensure you’re getting the best possible solution for your company.
According to the report, after SYTECH, the world"s second-largest copper clad laminate manufacturer announced an increase in the price of copper clad laminate (CCL), one of the main raw materials for printed circuit boards (PCB), domestic copper clad laminate manufacturers also followed suit. Copper clad laminate is the main raw material for circuit board (and there is no substitute material at present), which makes the cost and price of "printed circuit board (PCB)" increase, which leads to the price change of LCD panel which is highly dependent on PCB.
In November, the price of LCD panel still did not stop rising, but this has brought a lot of impact on the industry and its subsidiary industries. Samsung, LG, and other Korean manufacturers suspended the LCD production plan, and domestic LCD panel manufacturers headed by BOE had a sharp increase in shipment; the TV industry mainly consumed by the LCD panel, such as Hisense, TCL, Skyworth, Konka, Xiaomi and other domestic well-known TV manufacturers have successively increased the export price of products.
We can see that the price of LCD panels has been rising all the way, and the prices of TV, monitor, commercial computer, tablet, and other products have increased to a certain extent. And with the commercial computer corresponding, the industrial panel PC also inevitably has a certain price change.
In the panel composition of the industrial panel PCS, the LCD screen as an important part is also an important factor to determine the choice of product touch mode. According to the resistance, capacitance, non-touch, infrared touch, and other touch screens technologies, the LCD panel of industrial tablet computer also has a certain distinction. Users can choose the LCD panel according to the actual scene demand.
Generally speaking, the industrial panel PC manufacturers will use different brands of the LCD screen. Taking Touch Think as an example, its LCD suppliers are mainly BOE, Qimei, Qunchuang, sharp, AUO, Mitsubishi, LG, and other well-known brands from domestic and abroad. They all adopt an A + level quality LCD screen. According to the purchase cycle, the LCD panel brands used in each stage of products will be different.
As for the choice of touch screens, just as the BOE will divide LCD display types such as mobile phone, tablet, notebook, monitor, TV, medical treatment, etc., Touch Think industrial tablet PC screen support customized high-resolution screen, full viewing angle screen, explosion-proof screen, anti-glare screen, wide temperature screen, anti-peeping screen and other featured screens, which used to meet the special use applications such as laser machine, ATM, self-service machine, etc.
By the way, when it comes to the screen of industrial tablet PCs, some users may pay attention to the parameters such as resolution, image display contrast, display color, screen brightness, etc. Among them, the resolution is related to the size of the monitor. Touch Think products including a variety of display sizes, such as 7 ", 8", 10.1 ", 10.4", 11.6 ", 12", 12.1", 15", 15.6 ", 17", 17.3 ", 19", 19.1" and 21.5". The standard resolution of each size is different.
In general, the price rise of the LCD panel will lead to the price rise of many products due to the pressure of increasing cost, and the industrial panel PC can not be avoided. What manufacturers should do is to continue to maintain quality and provide users with high-quality products, so as to minimize and eliminate the negative impact of price increases on users.
New Vision Display is a custom LCD display manufacturer serving OEMs across diverse markets. One of the things that sets us apart from other LCD screen manufacturers is the diversity of products and customizations we offer. Our LCD portfolio ranges from low-cost monochrome LCDs to high-resolution, high-brightness color TFT LCDs – and pretty much everything in between. We also have extensive experience integrating LCD screen displays into complete assemblies with touch and cover lens.
Sunlight readable, ultra-low power, bistable (“paper-like”) LCDs. Automotive grade, wide operating/storage temperatures, and wide viewing angles. Low tooling costs.
Among the many advantages of working with NVD as your LCD screen manufacturer is the extensive technical expertise of our engineering team. From concept to product, our sales and technical staff provide expert recommendations and attentive support to ensure the right solution for your project.
In addition, our extensive technology portfolio and manufacturing capabilities enable us to deliver high-quality products that meet the unique specifications of any application. To learn more about what makes us the display manufacturer for your needs, get in touch with us today.
As a leading LCD panel manufacturer, NVD manufactures custom LCD display solutions for a variety of end-user applications: Medical devices, industrial equipment, household appliances, consumer electronics, and many others. Our state-of-the-art LCD factories are equipped to build custom LCDs for optimal performance in even the most challenging environments. Whether your product will be used in the great outdoors or a hospital operating room, we can build the right custom LCD solution for your needs. Learn more about the markets we serve below.
Ready to get started or learn more about how we can help your business? Call us at +1-855-848-1332 or fill out the form below and a company representative will be in touch within 1 business day.
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LCD panel prices have risen for 4 months in a row because of your home gaming? Since this year, the whole LCD panel market has smoked. Whether after the outbreak of the epidemic, LCD panel market prices rose for four months, or the panel giants in Japan and South Korea successively sold production lines, or the Chinese mainland listed companies frequently integrated acquisition, investment, and plant construction, all make the industry full of interesting.
LCD panel prices are already a fact. Since May this year, LCD panel prices have risen for four months in a row, making the whole industry chain dynamic. Why are LCD panels going up in price in a volatile 2020? The key factor lies in the imbalance between supply and demand.
The 43 inches and 55 inches rose more than double digits in August, reaching 13.7% each, and rose another $7 and $13, respectively, to $91 and $149, respectively, in September.
For larger sizes, overseas stocks remained strong, with prices for 65 inches and 75 inches rising $10 on average to $200 and $305 respectively in September.
The price of LCDS for large-size TVs of 70 inches or more hasn’t budged much. In addition, LTPS screens and AMOLED screens used in high-end phones have seen little or no increase in price.
As for October, LCD panel price increases are expected to moderate. The data shows that in October 32 inches or 2 dollars; Gains of 39.5 to 43 inches will shrink to $3;55 inches will fall back below $10; The 65-inch gain will narrow to $5.
During the epidemic, people stayed at home and had no way to go out for entertainment. They relied on TV sets, PCS, and game consoles for entertainment. After the resumption of economic work and production, the market of traditional home appliances picked up rapidly, and LCD production capacity was quickly digested.
However, due to the shutdown of most factories lasting 1-2 months during the epidemic period, LCD panel production capacity was limited, leading to insufficient production capacity in the face of the market outbreak, which eventually led to the market shortage and price increase for 4 consecutive months.
In fact, the last round of price rise of LCD panels was from 2016 to 2017, and its overall market price has continued to fall since 2018. Even in 2019, individual types have fallen below the material cost, and the whole industry has experienced a general operating loss. As a result, LCD makers have been looking for ways to improve margins since last year.
A return to a reasonable price range is the most talked about topic among panel makers in 2019, according to one practitioner. Some manufacturers for the serious loss of the product made the decision to reduce production or even stop production; Some manufacturers planned to raise the price, but due to the epidemic in 2020, the downstream demand was temporarily suppressed and the price increase was postponed. After the outbreak was contained in April, LCD prices began to rise in mid-to-late May.
This kind of price correction is in line with the law of industrial development. Only with reasonable profit space can the whole industry be stimulated to move forward.
In fact, the market price of LCD panels continued to decline in 2018-2019 because of the accelerated rise of China’s LCD industry and the influx of a large number of local manufacturers, which doubled the global LCD panel production capacity within a few years, but there was no suitable application market to absorb it. The result of excess capacity is oversupply, ultimately making LCD panel prices remain depressed.
Against this background, combined with the impact of the epidemic in 2020, the operating burden of LCD companies in Japan and South Korea has been further aggravated, and it is difficult to make profits in the production of LCD panels, so they have to announce the withdrawal of LCD business.
business in June 2022. In August, Sharp bought JDI Baishan, a plant in Ishikawa prefecture that makes liquid crystal display panels for smartphones. In early September, Samsung Display sold a majority stake in its SUZHOU LCD production plant to Starlight Electronics Technology, a unit of TCL Technology Group. LGD has not only pulled out of some of its production capacity but has announced that it will close its local production line in 2020. According to DSCC, a consultancy, the share of LCD production capacity in South Korea alone will fall from 19% to 7% between 2020 and 2021.
It is worth mentioning that in industry analysis, in view of the fact that Korean companies are good at using “dig through old bonus – selling high price – the development of new technology” the cycle of development mode, another 2020 out of the LCD production capacity, the main reason may be: taking the advantage of China’s expanding aggressively LCD manufacturers, Korean companies will own LCD panel production line hot sell, eliminating capacity liquid to extract its final value, and turning to the more profitable advantage of a new generation of display technologies, such as thinner, color display better OLED, etc. Samsung, for example, has captured more than 80% of the OLED market with its first-mover advantage.
From the perspective of production capacity, the launch of LCD tracks by major manufacturers in Japan and South Korea must reduce some production capacity in the short term, which to some extent induces market price fluctuations. In the long run, some of the Japanese and Korean LCD production capacity has been bought by Chinese manufacturers, coupled with frequent investment in recent years, the overall capacity is sure to recover as before, or even more than before. But now it will take time to expand the production layout, which more or less will cause supply imbalance, the industry needs to be cautious.
The LCD panel industry started in the United States and then gradually moved to Japan, South Korea, China, and Taiwan. At present, the proportion of production capacity in The Chinese mainland has reached 52% in 2020, and there are leading LCD panel products in China represented by BOE, Huxing Optoelectronics. Meanwhile, the production capacity layout of BOE, Huike, Huxing Optoelectronics, and other manufacturers has been basically completed, making industrial integration a necessity.
On the one hand, South Korean enterprises out of the LCD track, the domestic factory horse enclosure, plant expansion action. While LCDs may not sell as well as “upstart” flexible screens, respondents believe they are still strong enough in the traditional home appliance market to warrant continued investment. Zhao Bin, general manager of TCL Huaxing Development Center, has said publicly that the next-generation display technology will be mature in four to five years, but the commercialization of products may not take place until a decade later. “LCD will still be the mainstream in this decade,” he said.
On the other hand, there is no risk of neck jam in China’s LCD panel industry, which is generally controllable. In mainland China, there will be 21 production lines capable of producing 32-inch or larger LCD panels by 2021, accounting for about two-thirds of the global total. In terms of the proportion of production capacity, the Chinese mainland accounted for 42% of the global LCD panel in 2019, 51% this year, and will continue to climb to 63% next year.
Of course, building factories and expanding production cannot be accomplished overnight. In the process of production capacity recovery, it is predicted that there will be several price fluctuations, and the cost may be passed on to the downstream LCD panel manufacturers or consumers when the price rises greatly, which requires continuous attention.
About products and suppliers:Alibaba.com offers 1909 low cost lcd display products. About 8% % of these are lcd modules, 1%% are mobile phone lcds, and 1%% are digital signage and displays.
A wide variety of low cost lcd display options are available to you, You can also choose from original manufacturer, odm and retailer low cost lcd display,As well as from tft, ips, and tn.
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In another ominous sign for global TV industry supply, both demand and prices for TV-sized LCD panels continue to fall at the same time, recent reports from two display market analysts revealed.
Display industry market analysts TrendForce and Omdia each issued potentially troubling LCD TV display panel business updates this week as the global economic outlook continues to impact discretionary spending for non-essential items like TV sets.
The compounding effects of inflation, mounting signs of recessionary conditions ahead and on-going issues with shipping and logistics paint a gloomy picture for those looking to buy or sell a television set in the peak second half of 2022.
According to TrendForce, the outlook for purchases by TV makers of LCD TV display panels — the major component part for LCD-based TVs that represent the vast majority of the TV sets — continues to decline even as prices for most panel sizes have fallen to record lows.
Recently, it was announced that the 32-inch and 43-inch panels fell by approximately $5-$6 in early June, 55-inch panels fell approximately $7, and prices for 65-inch and 75-inch panels, which face mounting overcapacity pressure, were down $12 to $14, TrendForce said.
“In order to alleviate pressure caused by price decline and inventory, panel makers are successively planning to initiate more significant production control in [the third quarter of 2022],” TrendForce said. “..Overall LCD TV panel production capacity in [the third quarter] will be reduced by 12% compared with original planning.”
According Omdia prices for TV-sized LCD display panels have been falling for the first year since Covid-19 appeared, while the increase in display demand area is expected to be up just 3%, half of the previous year.
Similarly, Omdia’s forecast released Thursday showed global display sales this year would decrease by 15% from last year to $133.18 billion. That compares to the global display sales increases of 14% in 2020 and 26% in 2021 due to the surge in demand for LCD panels and TVs generated by lockdowns forced by the pandemic.
LCD TV panel sales this year are expected to drop by 32% from last year ($38.3 billion) to $25.8 billion, according to Omdia’s predictions. The LCD TV panel demand area is expected to increase by 2% this year from last year, but the panel price decline is large.
“When there is an imbalance in supply and demand, a focus on strategic direction is prioritized,” TrendForce said. “TV panel production capacity of the three aforementioned companies in [Q3 2022] is expected to decrease by 15.8% compared with their original planning, and 2% compared with [the second quarter.]
TrendForce said Taiwanese manufacturers account for nearly 20% of TV panel shipments, and allocation of production capacity among those factories is now subject to “dynamic adjustment.”
The firm said TV sizes 55 inches and below have “fallen below their cash cost in May (which is seen as the last line of defense for panel makers) and is even flirting with the cost of materials, coupled with production capacity reduction from panel makers, the price of TV panels has a chance to bottom out at the end of June and be flat in July.”
As for TV sizes 65 inches and larger, which come largely from the Korean brands, TrendForce said declining demand has forced TV brands to revise downward their shipment targets for this year, with purchase volume for the third quarter of 2022 significantly reduced.
However, the firm said, optimistically, “this price decline may begin to dissipate month by month starting in June but supply has yet to reach equilibrium, so the price of large sizes [65 inches and above] will continue to decline in [the third quarter].”
TrendForce said that as panel makers continue to significant reduce production, the price of TV panels 55 inches and under is expected to remain flat in through the third quarter.
“Panel manufacturers cutting production in the traditional peak season also means that a disappointing [second half 2022] peak season is a foregone conclusion and it will not be easy for panel prices to reverse,” according to TrendForce.
It is possible that if the supply/pricing pressures continue, the number, scale and duration of manufacturers cutting panel production output will grow in an effort to generate momentum for a rebound in TV panel quotations, TrendForce said.
As reported by S. Korean technology trade news site The Elec, Omdia said the LCD TV panel shipment targets for BOE were lowered to 60 million units this year from the original 65.5 million units. HKC decreased its targets from 49.5 million to 42 million, CSOT from 45 to 44.8 million, and LG Display from 23.5 million to 18 million. Innolux’s shipment target increased slightly from 34.5 million units to 34.6 million units.
On the other hand, organic light emitting diode (OLED) TV panel sales this year are expected to reach $5.4 billion, up 12% from last year ($4.8 billion), according to Omdia.
OLED TV panels are being mass-produced by LG Display and Samsung Display, as both manufacturers reduce their exposure in LCDs. Samsung Display will end LCD TV panel production entirly this summer. However, LG Display’s OLED panel production forecast is 10 times that of Samsung Display.
Meanwhile, Samsung Display hiked yield rates for its new large-size QD-OLED panels from 30% of capacity initially, 50% in 2021, 75% in April-May 2022 to 80% now, according to South Korea-based publication The Bell.
Recently, it was announced that the 32-inch and 43-inch panels fell by approximately USD 5 ~ USD 6 in early June, 55-inch panels fell by approximately USD 7, and 65-inch and 75-inch panels are also facing overcapacity pressure, down from USD 12 to USD 14. In order to alleviate pressure caused by price decline and inventory, panel makers are successively planning to initiate more significant production control in 3Q22. According to TrendForce’s latest research, overall LCD TV panel production capacity in 3Q22 will be reduced by 12% compared with the original planning.
As Chinese panel makers account for nearly 66% of TV panel shipments, BOE, CSOT, and HKC are industry leaders. When there is an imbalance in supply and demand, a focus on strategic direction is prioritised. According to TrendForce, TV panel production capacity of the three aforementioned companies in 3Q22 is expected to decrease by 15.8% compared with their original planning, and 2% compared with 2Q22. Taiwanese manufacturers account for nearly 20% of TV panel shipments so, under pressure from falling prices, allocation of production capacity is subject to dynamic adjustment. On the other hand, Korean factories have gradually shifted their focus to high-end products such as OLED, QDOLED, and QLED, and are backed by their own brands. However, in the face of continuing price drops, they too must maintain operations amenable to flexible production capacity adjustments.
TrendForce indicates, that in order to reflect real demand, Chinese panel makers have successively reduced production capacity. However, facing a situation in which terminal demand has not improved, it may be difficult to reverse the decline of panel pricing in June. However, as TV sizes below 55 inches (inclusive) have fallen below their cash cost in May (which is seen as the last line of defense for panel makers) and are even flirting with the cost of materials, coupled with production capacity reduction from panel makers, the price of TV panels has a chance to bottom out at the end of June and be flat in July. However, demand for large sizes above 65 inches (inclusive) originates primarily from Korean brands. Due to weak terminal demand, TV brands revising their shipment targets for this year downward, and purchase volume in 3Q22 being significantly cut down, it is difficult to see a bottom for large-size panel pricing. TrendForce expects that, optimistically, this price decline may begin to dissipate month by month starting in June but supply has yet to reach equilibrium, so the price of large sizes above 65 inches (inclusive) will continue to decline in 3Q22.
TrendForce states, as panel makers plan to reduce production significantly, the price of TV panels below 55 inches (inclusive) is expected to remain flat in 3Q22. However, panel manufacturers cutting production in the traditional peak season also means that a disappointing 2H22 peak season is a foregone conclusion and it will not be easy for panel prices to reverse. However, it cannot be ruled out, as operating pressure grows, the number and scale of manufacturers participating in production reduction will expand further and its timeframe extended, enacting more effective suppression on the supply side, so as to accumulate greater momentum for a rebound in TV panel quotations.
The best mid-range TV we"ve tested with an LED panel is the Hisense U8H. It"s an excellent TV overall, with fantastic contrast and an impressive Mini LED local dimming feature, delivering deep blacks in a dark room with very little distracting blooming around bright objects. It has exceptional peak brightness and reflection handling, ensuring it can easily overcome glare in a bright room. It has worse processing overall than the Samsung QN90A QLED, though, so it"s a bit of a step down. There"s more noticeable banding in areas of similar color, and it has slightly worse motion processing as well.
It"s a great TV for gaming, with many of the same great features found on the Samsung, including 4k @ 120Hz support from the Xbox Series X and PS5 consoles. It has a fast response time and incredibly low input lag, ensuring a smooth and responsive gaming experience, which is great for competitive gamers. It also has one advantage over the Samsung model, as all of its HDMI ports support HDMI 2.1 bandwidth, while the other TV only supports it on one port.
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From cinema content to motion-based digital art, Planar® Luxe Displays offer a way to enrich distinctive spaces. These professional-grade displays provide vibrant, high-resolution canvases for creative expression and entertainment. Leading-edge technology, design adaptability and the slimmest profiles ensure they seamlessly integrate with architectural elements and complement interior decor.
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Advanced LED video wall with MicroLED models in 0.6, 0.7 and 0.9mm pixel pitches, and 1.2mm pixel pitch standard LED; with powerful processing, proprietary alignment technology and off-board electronics.
From cinema content to motion-based digital art, Planar® Luxe MicroLED Displays offer a way to enrich distinctive spaces. HDR support and superior dynamic range create vibrant, high-resolution canvases for creative expression and entertainment. Leading-edge MicroLED technology, design adaptability and the slimmest profiles ensure they seamlessly integrate with architectural elements and complement interior décor.
Advanced LED video wall with MicroLED models in 0.6, 0.7 and 0.9mm pixel pitches, and 1.2mm pixel pitch standard LED; with powerful processing, proprietary alignment technology and off-board electronics.
LED video wall solution with advanced video wall processing, off-board electronics, front serviceable cabinets and outstanding image quality available in 0.9mm pixel pitch
Planar® CarbonLight™ VX Series is comprised of carbon fiber-framed indoor LED video wall and floor displays with exceptional on-camera visual properties and deployment versatility, available in 1.9 and 2.6mm pixel pitch (wall) and 2.6mm (floor).
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A plasma display panel (PDP) is a type of flat panel display that uses small cells containing plasma: ionized gas that responds to electric fields. Plasma televisions were the first large (over 32 inches diagonal) flat panel displays to be released to the public.
Until about 2007, plasma displays were commonly used in large televisions (30 inches (76 cm) and larger). By 2013, they had lost nearly all market share due to competition from low-cost LCDs and more expensive but high-contrast OLED flat-panel displays. Manufacturing of plasma displays for the United States retail market ended in 2014,
Plasma displays are bright (1,000 lux or higher for the display module), have a wide color gamut, and can be produced in fairly large sizes—up to 3.8 metres (150 in) diagonally. They had a very low luminance "dark-room" black level compared with the lighter grey of the unilluminated parts of an LCD screen. (As plasma panels are locally lit and do not require a back light, blacks are blacker on plasma and grayer on LCD"s.)LED-backlit LCD televisions have been developed to reduce this distinction. The display panel itself is about 6 cm (2.4 in) thick, generally allowing the device"s total thickness (including electronics) to be less than 10 cm (3.9 in). Power consumption varies greatly with picture content, with bright scenes drawing significantly more power than darker ones – this is also true for CRTs as well as modern LCDs where LED backlight brightness is adjusted dynamically. The plasma that illuminates the screen can reach a temperature of at least 1200 °C (2200 °F). Typical power consumption is 400 watts for a 127 cm (50 in) screen. Most screens are set to "vivid" mode by default in the factory (which maximizes the brightness and raises the contrast so the image on the screen looks good under the extremely bright lights that are common in big box stores), which draws at least twice the power (around 500–700 watts) of a "home" setting of less extreme brightness.
Plasma screens are made out of glass, which may result in glare on the screen from nearby light sources. Plasma display panels cannot be economically manufactured in screen sizes smaller than 82 centimetres (32 in).enhanced-definition televisions (EDTV) this small, even fewer have made 32 inch plasma HDTVs. With the trend toward large-screen television technology, the 32 inch screen size is rapidly disappearing. Though considered bulky and thick compared with their LCD counterparts, some sets such as Panasonic"s Z1 and Samsung"s B860 series are as slim as 2.5 cm (1 in) thick making them comparable to LCDs in this respect.
Wider viewing angles than those of LCD; images do not suffer from degradation at less than straight ahead angles like LCDs. LCDs using IPS technology have the widest angles, but they do not equal the range of plasma primarily due to "IPS glow", a generally whitish haze that appears due to the nature of the IPS pixel design.
Less visible motion blur, thanks in large part to very high refresh rates and a faster response time, contributing to superior performance when displaying content with significant amounts of rapid motion such as auto racing, hockey, baseball, etc.
Superior uniformity. LCD panel backlights nearly always produce uneven brightness levels, although this is not always noticeable. High-end computer monitors have technologies to try to compensate for the uniformity problem.
Unaffected by clouding from the polishing process. Some LCD panel types, like IPS, require a polishing process that can introduce a haze usually referred to as "clouding".
Earlier generation displays were more susceptible to screen burn-in and image retention. Recent models have a pixel orbiter that moves the entire picture slower than is noticeable to the human eye, which reduces the effect of burn-in but does not prevent it.
Due to the bistable nature of the color and intensity generating method, some people will notice that plasma displays have a shimmering or flickering effect with a number of hues, intensities and dither patterns.
Earlier generation displays (circa 2006 and prior) had phosphors that lost luminosity over time, resulting in gradual decline of absolute image brightness. Newer models have advertised lifespans exceeding 100,000 hours (11 years), far longer than older CRTs.
Uses more electrical power, on average, than an LCD TV using a LED backlight. Older CCFL backlights for LCD panels used quite a bit more power, and older plasma TVs used quite a bit more power than recent models.
For those who wish to listen to AM radio, or are amateur radio operators (hams) or shortwave listeners (SWL), the radio frequency interference (RFI) from these devices can be irritating or disabling.
Fixed-pixel displays such as plasma TVs scale the video image of each incoming signal to the native resolution of the display panel. The most common native resolutions for plasma display panels are 852×480 (EDTV), 1,366×768 and 1920×1080 (HDTV). As a result, picture quality varies depending on the performance of the video scaling processor and the upscaling and downscaling algorithms used by each display manufacturer.
Early plasma televisions were enhanced-definition (ED) with a native resolution of 840×480 (discontinued) or 852×480 and down-scaled their incoming high-definition video signals to match their native display resolutions.
The following ED resolutions were common prior to the introduction of HD displays, but have long been phased out in favor of HD displays, as well as because the overall pixel count in ED displays is lower than the pixel count on SD PAL displays (852×480 vs 720×576, respectively).
Early high-definition (HD) plasma displays had a resolution of 1024x1024 and were alternate lighting of surfaces (ALiS) panels made by Fujitsu and Hitachi.
Modern HDTV plasma televisions usually have a resolution of 1,024×768 found on many 42 inch plasma screens, 1280×768 and 1,366×768 found on 50 in, 60 in, and 65 in plasma screens, or 1920×1080 found on plasma screen sizes from 42 inch to 103 inch. These displays are usually progressive displays, with non-square pixels, and will up-scale and de-interlace their incoming standard-definition signals to match their native display resolutions. 1024×768 resolution requires that 720p content be downscaled in one direction and upscaled in the other.
Ionized gases such as the ones shown here are confined to millions of tiny individual compartments across the face of a plasma display, to collectively form a visual image.
A panel of a plasma display typically comprises millions of tiny compartments in between two panels of glass. These compartments, or "bulbs" or "cells", hold a mixture of noble gases and a minuscule amount of another gas (e.g., mercury vapor). Just as in the fluorescent lamps over an office desk, when a high voltage is applied across the cell, the gas in the cells forms a plasma. With flow of electricity (electrons), some of the electrons strike mercury particles as the electrons move through the plasma, momentarily increasing the energy level of the atom until the excess energy is shed. Mercury sheds the energy as ultraviolet (UV) photons. The UV photons then strike phosphor that is painted on the inside of the cell. When the UV photon strikes a phosphor molecule, it momentarily raises the energy level of an outer orbit electron in the phosphor molecule, moving the electron from a stable to an unstable state; the electron then sheds the excess energy as a photon at a lower energy level than UV light; the lower energy photons are mostly in the infrared range but about 40% are in the visible light range. Thus the input energy is converted to mostly infrared but also as visible light. The screen heats up to between 30 and 41 °C (86 and 106 °F) during operation. Depending on the phosphors used, different colors of visible light can be achieved. Each pixel in a plasma display is made up of three cells comprising the primary colors of visible light. Varying the voltage of the signals to the cells thus allows different perceived colors.
The long electrodes are stripes of electrically conducting material that also lies between the glass plates in front of and behind the cells. The "address electrodes" sit behind the cells, along the rear glass plate, and can be opaque. The transparent display electrodes are mounted in front of the cell, along the front glass plate. As can be seen in the illustration, the electrodes are covered by an insulating protective layer.
Control circuitry charges the electrodes that cross paths at a cell, creating a voltage difference between front and back. Some of the atoms in the gas of a cell then lose electrons and become ionized, which creates an electrically conducting plasma of atoms, free electrons, and ions. The collisions of the flowing electrons in the plasma with the inert gas atoms leads to light emission; such light-emitting plasmas are known as glow discharges.
Relative spectral power of red, green and blue phosphors of a common plasma display. The units of spectral power are simply raw sensor values (with a linear response at specific wavelengths).
In a monochrome plasma panel, the gas is mostly neon, and the color is the characteristic orange of a neon-filled lamp (or sign). Once a glow discharge has been initiated in a cell, it can be maintained by applying a low-level voltage between all the horizontal and vertical electrodes–even after the ionizing voltage is removed. To erase a cell all voltage is removed from a pair of electrodes. This type of panel has inherent memory. A small amount of nitrogen is added to the neon to increase hysteresis.phosphor. The ultraviolet photons emitted by the plasma excite these phosphors, which give off visible light with colors determined by the phosphor materials. This aspect is comparable to fluorescent lamps and to the neon signs that use colored phosphors.
Every pixel is made up of three separate subpixel cells, each with different colored phosphors. One subpixel has a red light phosphor, one subpixel has a green light phosphor and one subpixel has a blue light phosphor. These colors blend together to create the overall color of the pixel, the same as a triad of a shadow mask CRT or color LCD. Plasma panels use pulse-width modulation (PWM) to control brightness: by varying the pulses of current flowing through the different cells thousands of times per second, the control system can increase or decrease the intensity of each subpixel color to create billions of different combinations of red, green and blue. In this way, the control system can produce most of the visible colors. Plasma displays use the same phosphors as CRTs, which accounts for the extremely accurate color reproduction when viewing television or computer video images (which use an RGB color system designed for CRT displays).
Plasma displays are different from liquid crystal displays (LCDs), another lightweight flat-screen display using very different technology. LCDs may use one or two large fluorescent lamps as a backlight source, but the different colors are controlled by LCD units, which in effect behave as gates that allow or block light through red, green, or blue filters on the front of the LCD panel.
To produce light, the cells need to be driven at a relatively high voltage (~300 volts) and the pressure of the gases inside the cell needs to be low (~500 torr).
Contrast ratio is the difference between the brightest and darkest parts of an image, measured in discrete steps, at any given moment. Generally, the higher the contrast ratio, the more realistic the image is (though the "realism" of an image depends on many factors including color accuracy, luminance linearity, and spatial linearity). Contrast ratios for plasma displays are often advertised as high as 5,000,000:1.organic light-emitting diode. Although there are no industry-wide guidelines for reporting contrast ratio, most manufacturers follow either the ANSI standard or perform a full-on-full-off test. The ANSI standard uses a checkered test pattern whereby the darkest blacks and the lightest whites are simultaneously measured, yielding the most accurate "real-world" ratings. In contrast, a full-on-full-off test measures the ratio using a pure black screen and a pure white screen, which gives higher values but does not represent a typical viewing scenario. Some displays, using many different technologies, have some "leakage" of light, through either optical or electronic means, from lit pixels to adjacent pixels so that dark pixels that are near bright ones appear less dark than they do during a full-off display. Manufacturers can further artificially improve the reported contrast ratio by increasing the contrast and brightness settings to achieve the highest test values. However, a contrast ratio generated by this method is misleading, as content would be essentially unwatchable at such settings.
Each cell on a plasma display must be precharged before it is lit, otherwise the cell would not respond quickly enough. Precharging normally increases power consumption, so energy recovery mechanisms may be in place to avoid an increase in power consumption.LED illumination can automatically reduce the backlighting on darker scenes, though this method cannot be used in high-contrast scenes, leaving some light showing from black parts of an image with bright parts, such as (at the extreme) a solid black screen with one fine intense bright line. This is called a "halo" effect which has been minimized on newer LED-backlit LCDs with local dimming. Edgelit models cannot compete with this as the light is reflected via a light guide to distribute the light behind the panel.
Image burn-in occurs on CRTs and plasma panels when the same picture is displayed for long periods. This causes the phosphors to overheat, losing some of their luminosity and producing a "shadow" image that is visible with the power off. Burn-in is especially a problem on plasma panels because they run hotter than CRTs. Early plasma televisions were plagued by burn-in, making it impossible to use video games or anything else that displayed static images.
Plasma displays also exhibit another image retention issue which is sometimes confused with screen burn-in damage. In this mode, when a group of pixels are run at high brightness (when displaying white, for example) for an extended period, a charge build-up in the pixel structure occurs and a ghost image can be seen. However, unlike burn-in, this charge build-up is transient and self-corrects after the image condition that caused the effect has been removed and a long enough period has passed (with the display either off or on).
Plasma manufacturers have tried various ways of reducing burn-in such as using gray pillarboxes, pixel orbiters and image washing routines, but none to date have eliminated the problem and all plasma manufacturers continue to exclude burn-in from their warranties.
The first practical plasma video display was co-invented in 1964 at the University of Illinois at Urbana–Champaign by Donald Bitzer, H. Gene Slottow, and graduate student Robert Willson for the PLATO computer system.Owens-Illinois were very popular in the early 1970s because they were rugged and needed neither memory nor circuitry to refresh the images.CRT displays cheaper than the $2500 USD 512 × 512 PLATO plasma displays.
Burroughs Corporation, a maker of adding machines and computers, developed the Panaplex display in the early 1970s. The Panaplex display, generically referred to as a gas-discharge or gas-plasma display,seven-segment display for use in adding machines. They became popular for their bright orange luminous look and found nearly ubiquitous use throughout the late 1970s and into the 1990s in cash registers, calculators, pinball machines, aircraft avionics such as radios, navigational instruments, and stormscopes; test equipment such as frequency counters and multimeters; and generally anything that previously used nixie tube or numitron displays with a high digit-count. These displays were eventually replaced by LEDs because of their low current-draw and module-flexibility, but are still found in some applications where their high brightness is desired, such as pinball machines and avionics.
In 1983, IBM introduced a 19-inch (48 cm) orange-on-black monochrome display (Model 3290 Information Panel) which was able to show up to four simultaneous IBM 3270 terminal sessions. By the end of the decade, orange monochrome plasma displays were used in a number of high-end AC-powered portable computers, such as the Compaq Portable 386 (1987) and the IBM P75 (1990). Plasma displays had a better contrast ratio, viewability angle, and less motion blur than the LCDs that were available at the time, and were used until the introduction of active-matrix color LCD displays in 1992.
Due to heavy competition from monochrome LCDs used in laptops and the high costs of plasma display technology, in 1987 IBM planned to shut down its factory in Kingston, New York, the largest plasma plant in the world, in favor of manufacturing mainframe computers, which would have left development to Japanese companies.Larry F. Weber, a University of Illinois ECE PhD (in plasma display research) and staff scientist working at CERL (home of the PLATO System), co-founded Plasmaco with Stephen Globus and IBM plant manager James Kehoe, and bought the plant from IBM for US$50,000. Weber stayed in Urbana as CTO until 1990, then moved to upstate New York to work at Plasmaco.
In 1992, Fujitsu introduced the world"s first 21-inch (53 cm) full-color display. It was based on technology created at the University of Illinois at Urbana–Champaign and NHK Science & Technology Research Laboratories.
In 1994, Weber demonstrated a color plasma display at an industry convention in San Jose. Panasonic Corporation began a joint development project with Plasmaco, which led in 1996 to the purchase of Plasmaco, its color AC technology, and its American factory for US$26 million.
In 1995, Fujitsu introduced the first 42-inch (107 cm) plasma display panel;Philips introduced the first large commercially available flat-panel TV, using the Fujitsu panels. It was available at four Sears locations in the US for $14,999, including in-home installation. Pioneer also began selling plasma televisions that year, and other manufacturers followed. By the year 2000 prices had dropped to $10,000.
In the year 2000, the first 60-inch plasma display was developed by Plasmaco. Panasonic was also reported to have developed a process to make plasma displays using ordinary window glass instead of the much more expensive "high strain point" glass.
In late 2006, analysts noted that LCDs had overtaken plasmas, particularly in the 40-inch (100 cm) and above segment where plasma had previously gained market share.
Until the early 2000s, plasma displays were the most popular choice for HDTV flat panel display as they had many benefits over LCDs. Beyond plasma"s deeper blacks, increased contrast, faster response time, greater color spectrum, and wider viewing angle; they were also much bigger than LCDs, and it was believed that LCDs were suited only to smaller sized televisions. However, improvements in VLSI fabrication narrowed the technological gap. The increased size, lower weight, falling prices, and often lower electrical power consumption of LCDs made them competitive with plasma television sets.
Screen sizes have increased since the introduction of plasma displays. The largest plasma video display in the world at the 2008 Consumer Electronics Show in Las Vegas, Nevada, was a 150-inch (380 cm) unit manufactured by Matsushita Electric Industrial (Panasonic) standing 6 ft (180 cm) tall by 11 ft (330 cm) wide.
At the 2010 Consumer Electronics Show in Las Vegas, Panasonic introduced their 152" 2160p 3D plasma. In 2010, Panasonic shipped 19.1 million plasma TV panels.
Panasonic was the biggest plasma display manufacturer until 2013, when it decided to discontinue plasma production. In the following months, Samsung and LG also ceased production of plasma sets. Panasonic, Samsung and LG were the last plasma manufacturers for the U.S. retail market.