benefits of tft display pricelist

The tried and trusted TFT is the display of choice for most industrial designs, but it does have its limitations in viewability and colour vibrancy. But what about the relatively new technology, IPS (in plane switching) which has turned the TFT into a super-TFT? What are the benefits and drawbacks of each?

IPS derives its name from the fact that the liquid-crystal molecules are aligned in parallel with the glass plates, whereas the TN principle adopted in conventional TFT displays is based on perpendicular alignment of the molecules. In an IPS display, the crystals remain oriented in parallel whether the pixel is turned on or off.

Electrodes are placed on the same sheet of glass, instead of on opposing sides, so that when the signal is applied, the crystals rotate horizontally in the same plane.

A TFT display is a form of Liquid Crystal Displaywith thin film transistors for controlling the image formation. The TFT technology works by controlling brightness in red, green and blue sub-pixels through transistors for each pixel on the screen. The pixels themselves do not produce light; instead, the screen uses a backlight for illumination. Discover our TFT Products

Because the pixels block light when in the off state (the opposite situation to conventional TFT), IPS TFT exhibits high contrast and the background is true black when the display is powered down.

Display choice really does depend on your application, end user and environment. It may be a higher-grade IPS is needed to satisfy outdoor requirements, or a lower cost standard TFT display is sufficient. Before you make your choice, why speak with us and we will be happy to talk you through your options.

A monitor is a device that displays information in pictorial or other form. It could be data, text, graphics etc. Most people use it to display video games and movies on their computer screens. This article will tell you things like what is TFT monitor? What are the advantages of using one? Is there any disadvantage of using one? And so on.

A TFT monitor is a type of LCD display that is found in monitors like TVs, computer screens, and other devices. It stands for Thin Film Transistor which means that each pixel has its own transistor. This design allows the pixels to be brighter and last longer than other types of displays.

LCD monitors, also called flat panel displays are replacing the old-style cathode ray tubes (CRTs) in both televisions and computer screens. LCDs use thin film transistor technology which makes them more energy efficient than CRT video input devices while delivering equivalent image quality to previous generations of these display types – all at lower prices!

The video game industry was the fastest growing ICT industry in 2013. The monitors are also used in TVs, computers, and other devices. The biggest advantage is that they’re brighter and more durable than other types of displays so you won’t need to replace them as often!

The Padarsey 7 Inch LED Backlight TFT LCD Monitor is the perfect device for anyone who wants to do more with their car. It’s packed with features that make everyday life easier, more entertaining and more productive. You won’t find another device like it on the market today. It’s not just an amazing product but also an incredible experience you can have every day of your life.

With 2 AV input, you can connect this monitor to your backup camera or any other video equipment in your car so everything feels fluid and natural on this larger display. Screen rotatable, screen ratio 16:9/4:3 adjustable, brightness, contrast and color adjustable – all these features will help you get the most out of this monitor!

TFT monitors are packed with state-of-the art technology that provides superior imaging and display. In addition to the many benefits you’ll get from the overall video image quality, there is also a wide range of features that can be used to enhance your viewing pleasure! Some of the advantages include:

TFT monitors have sophisticated video processing technology that makes images better looking, helps eliminate jittery text, provides advanced auto-adjust features for optimal image characteristics.

Nothing is perfect, but using TFT monitors at home or work will give you an overall superior video performance and world-class viewing pleasure. However if you set up multiple screens together to create a big display it might cause some problems:

If all your monitors are TFT and they’re not calibrated correctly, the colors and brightness will be off and your image quality won’t be as good as it could be.

If you used a smaller TFT screen as the primary display and others are larger than they won’t fill the whole space so part of each monitor will be cut off.

Using TFT monitors in your home or office is one of the best ways to maximize your viewing pleasure. There are many benefits including great picture quality, wide viewing angles, great energy efficiency, faster refresh rates which makes them more durable than old monitors types like CRTs.

Although it’s easy to set up multiple screens together there might be some problems if all of the screens aren’t calibrated properly and if you’re using non-standard resolutions or smaller displays on any part of your configuration. The bottom line though is that using TFT monitors give you an excellent video experience so you can enjoy your videos, TV shows, movies and the web!

Whether outdoor or indoor, more and more TFT displays are now presented to us. The display screen is the most critical interface connecting humans and machines. It was originally based on picture tubes. With the improvement of the overall level of display technology, people"s requirements for the display screen are getting higher and higher. Various display technologies are also changing day by day. The longest and most influential one is the LCD screen. Its advantages such as thin and light appearance, no radiation, low energy consumption, and good display effect have occupied the mainstream position of the display screen. People want to know the tft monitor advantages and disadvantages. Next, I will introduce the main advantages of TFT display.

Because every point of the TFT display screen keeps the color and brightness after receiving the signal, and emits constant light, unlike the cathode ray tube display (CRT) that needs to constantly refresh the bright spot. Therefore, the LCD panel TFT has high image quality and will never flicker, minimizing eye fatigue.

The traditional display screen is composed of many circuits. When these circuits drive the cathode-ray picture tube to work, they need to consume a lot of power, and as the volume increases, the power consumed by the internal circuit will definitely increase. In contrast, the power consumption of the TFT liquid crystal display screen is mainly consumed on its internal electrodes and driver IC, so the power consumption is much smaller than that of traditional displays.

Compared with traditional display screens, the LCD panel TFT uses a purely flat glass plate from the beginning, and the display effect is flat and right-angled, giving people a refreshing feeling. Moreover, LCD monitors are easier to achieve high resolution on small screens. For example, a 17-inch LCD monitor can achieve a resolution of 1280×1024, while a 18-inch CRT color display usually uses a resolution of 1280×1024 or more which is not completely satisfactory.

Thanks for the display technology development, we have a lot of display choices for our smartphones, media players, TVs, laptops, tablets, digital cameras, and other such gadgets. The most display technologies we hear are LCD, TFT, OLED, LED, QLED, QNED, MicroLED, Mini LED etc. The following, we will focus on two of the most popular display technologies in the market: TFT Displays and Super AMOLED Displays.

TFT means Thin-Film Transistor. TFT is the variant of Liquid Crystal Displays (LCDs). There are several types of TFT displays: TN (Twisted Nematic) based TFT display, IPS (In-Plane Switching) displays. As the former can’t compete with Super AMOLED in display quality, we will mainly focus on using IPS TFT displays.

OLED means Organic Light-Emitting Diode. There are also several types of OLED, PMOLED (Passive Matrix Organic Light-Emitting Diode) and AMOLED (Active Matrix Organic Light-Emitting Diode). It is the same reason that PMOLED can’t compete with IPS TFT displays. We pick the best in OLED displays: Super AMOLED to compete with the LCD best: IPS TFT Display.

If you have any questions about Orient Display displays and touch panels. Please feel free to contact: Sales Inquiries, Customer Service or Technical Support.

Orient Display sunlight readable TFT displays can be categorized into high brightness TFT displays, high contrast IPS displays, transflective TFT displays, Blanview TFT displays etc.

The brightness of our standard high brightness TFT displays can be from 700 to 1000 nits. With proper adding brightness enhancement film (BEF) and double brightness enhancement film (DBEF) and adjustment of the LED chips, Orient Display high brightness TFT products can achieve 1,500 to 2,000 nits or even higher luminance. Orient Display have special thermal management design to reduce the heat release and largely extend LED life time and reduce energy consumption.

Our high contrast and wide viewing angle IPS displays can achieve contrast ratio higher than 1000:1 which can make readability under strong sunlight with lower backlight luminance. High brightness IPS displays have been widely accepted by our customers with its superb display quality and it has become one of the best sellers in all our display category.Transflective display is an old monochrome display technology but it has been utilized in our color TFT line for sunlight readable application. Orient Display has 2.4” and 3.5” to choose from.

Blanview TFT displays are the new technology developed by Ortustech in Japan. It can provide around 40% of energy consumption for TFT panels which can use smaller rechargeable or disposable batteries and generate less heat. The price is also lower than traditional transflective TFT displays. Orient Display is partnering with the technology inventor to provide 4.3” and 5.0”.

Orient Display can also provide full customized or part customized solutions for our customers to enhance the viewing experience. Orient Display can provide all the different kinds of surface treatments, such as AR (Anti-reflection); AG (Anti-glare), AF (Anti-finger print or Anti-smudge); AS (Anti-smashing); AM (Anti-microbial) etc. Orient Display can also provide both dry bonding (OCA, Optical Clear Adhesive), or wet bonding (OCR, Optical Clear Resin and OCG, Optical Clear Glue) to get rid of light reflective in air bonding products to make the products much more readable under sunlight and be more robust.

Touch panels have been a much better human machine interface which become widely popular. Orient Display has been investing heavy for capacitive touch screen sensor manufacturing capacity. Now, Orient Display factory is No.1 in the world for automotive capacitive touch screen which took around 18% market share in the world automotive market.

Based on the above three types of touch panel technology, Orient Display can also add different kinds of features like different material glove touch, water environment touch, salt water environment touch, hover touch, 3D (force) touch, haptic touch etc. Orient Display can also provide from very low cost fixed area button touch, single (one) finger touch, double finger (one finger+ one gesture) touch, 5 finger touch, 10 points touch or even 16 points touch.

Considering the different shapes of the touch surface requirements, Orient Display can produce different shapes of 2D touch panel (rectangle, round, octagon etc.), or 2.5D touch screen (round edge and flat surface) or 3D (totally curved surface) touch panel.

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.

Of course, Orient Display can also offer traditional RTP (Resistive Touch Panel) of 4-wire, 5-wire, 8-wire through our partners, which Orient Display can do integration to resistive touch screen displays.

Engineers are always looking for lower cost, faster, more convenient interfaces to transmit signals and to accept data and commands. The numbers of available interfaces available in the market can be dazzling. Orient Display follows market trends to produce various kind of interfaces for our customers to choose.

Genetic Interfaces: Those are the interfaces which display or touch controller manufacturers provide, including parallel, MCU, SPI(,Serial Peripheral Interface), I2C, RGB (Red Green Blue), MIPI (Mobile Industry Processor Interface), LVDS (Low-Voltage Differential Signaling), eDP ( Embedded DisplayPort) etc. Orient Display has technologies to make the above interface exchangeable.

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.

At present, TFT LCD touch panel prices rebounded, after six months of continuous decline, TFT LCD touch panel prices began to rebound at the end of July. Global TFT LCD panel prices have rebounded since August, according to Displaysearch, an international market-research firm. The price of a 17-inch LCD touch panel rose 6.6% to $112 in August, up from $105 in July, and fell from $140 in March to $105 in July. At the same time, 15 – inch, 19 – inch LCD touch panel prices also showed a different range of recovery. The price of a 17-inch LCD touch panel rose 5.8 percent, to $110, from $104 in late July, according to early August quotes from consulting firm with a view. Analysts believe the rebound will continue through the third quarter; LCDS will see seasonal growth in the third quarter, driven by back-to-school sales in us and the completion of inventory liquidation in the first half of the year. Dell and Hewlett-Packard (HPQ) started placing orders for monitors in the third quarter, and display makers Samsungelectronics (SXG) and TPV (TPV) are expected to increase production by 25% and 18% respectively.

It seems that due to the increasing demand in the market, the production capacity of the display panel production line has been released. Domestic TFT-LCD touch panel makers boe and Shanghai guardian said their production schedules have been set for September, and their production capacity may reach full capacity by the end of the year. Jd will produce 85,000 glass substrates per month (with a designed capacity of 90,000), according to boe and Shanghai guardian. Previously, panel makers have been hit by falling prices, with boe, SFT, and even international panel giant LG Philips all reporting losses. If the rebound continues into the fourth quarter, boe, Shanghai radio and television and other panel makers will use the rebound to reverse the decline, according to industry analysts.

It is understood that the first quarter of the boe financial results show that the company’s main business income of 2.44 billion yuan, a loss of 490 million yuan.Jd.com attributed the loss to a drop in the price of 17-inch TFT-LCD displays made by its Beijing TFT-LCD fifth-generation production line of Beijing boe photoelectric technology co., LTD., a subsidiary. Boe has issued the announcement of pre-loss in the first half of the year in April. Due to the influence of the off-season of TFT-LCD business operation in the first quarter of 2006, the company has suffered a large operating loss, and the low price in the TFT-LCD market has continued till now. Therefore, it is expected that the operating loss will still occur in the first half of 2006.LG Philips, the world’s largest TFT LCD maker, reported a won322bn ($340m) loss in July, compared with a won41.1bn profit a year earlier.LG Philips attributed the loss to fierce price competition and market demand did not meet expectations.

Reports suggest that Apple is getting closer to implementing MicroLED in its future product releases, including the Apple Watch, with the display technology potentially offering a number of benefits compared to other methods. AppleInsider explains how the current TFT and OLED display technologies work, and how MicroLED differs.

MicroLED shows promise as a display technology, potentially offering power savings and a reduced screen thickness when put beside current-generation display panels. Apple has recognized the potential, and has invested heavily into developing the technology over the last few years, with a view to using it in the company"s future products.

To understand fully how MicroLED can benefit Apple, it is worth understanding how the commonly-used display technologies work in the first place, before examining how different MicroLED really is in a comparison.

The most common display technology used by consumer products today, and the oldest of the technologies examined in this article, TFT"s full name of TFT LCD stands for Thin-film-transistor liquid-crystal display. This technology is extensively used by Apple in its products, found in iPads, iPhones, MacBooks, and iMac lines.

The LCD part relates to the concept of defining small translucent or transparent areas in a thin and flexible liquid crystal-filled panel, like the displays used in calculators. Passing current through the segment changes the molecular properties of the defined segment area, allowing it to switch between being see-through or opaque.

TFT takes this a stage further, by effectively covering an entire panel with a grid of isolated liquid crystal segments, which again can vary between opaque and transparent based on the level of electrical current. In this case, there are far more segments needed to make up the display than with a normal calculator.

Three neighboring segments can be used to create a single pixel, with color filters used to change the light passing through to red, blue, or green. By varying the charge applied to each liquid crystal segment, the three combined can be used to generate a wide variety of colors and at different brightnesses.

Polarizing filters on either side of the TFT display sandwich are used to prevent light from passing through directly, with the liquid crystal reaction of each segment affecting polarized light passing through the first filter to go through the second.

Sometimes these types of display are known as "LED," but this somewhat of a misnomer, as this actually refers to the use of Light Emitting Diodes as a light source. The LED backlight shines light through the various layers making up the TFT LCD.

Displays that use collections of LEDs as individual pixels do exist, but it isn"t usually found in consumer products. LED screens are commonly used for billboards, in attractions, and as a large-scale display for events.

TFT LCD screens continue to be widely used in production for a number of reasons. Manufacturers have spent a long time perfecting the production of the display panels to make it as cheap as possible, while its high usage allows it to benefit from economies of scale.

Used in consumer devices in a similar way to TFT LCD, OLED (Organic Light-Emitting Diode) is a display technology that is similar in the basic concept, but differs considerably in its execution. Again, the idea is for a thin panel to be divided up into segments, with charge applied to each section to alter its molecular properties, but that"s where the techniques diverge.

As the name implies, OLED uses an organic compound film that is put between two electrodes, which are used to provide charge. Instead of the charge changing how light passes through, the current instead causes the emissive electroluminescent layer to emit light, without the need for a rear light source.

These self-emitting pixels gives OLED a considerable advantage over LCD-based systems in a number of areas. Most obviously, by not needing a backlight, OLED panels can be made far thinner than an equivalent LCD-based display, allowing for the production of thinner devices or more internal area for other components, like a larger battery.

The power efficiency of OLED panels can be far greater, as while a TFT screen requires an always-on backlight, the brightness of OLED pixels themselves determine power usage, with a black pixel consuming no power at all. OLED screens are also faster to respond than LCD displays, making them more useful for VR displays, where response time needs to be as rapid as possible.

This also allows OLED to provide superior contrast ratios compared to TFT, as the lack of backlight bleed-through that occurs in TFT simply doesn"t happen in OLED.

OLED also can be produced on plastic substrates instead of glass, allowing it to be used to create flexible displays. While this is currently embodied in curved and other non-flat screens in some devices, it has the potential to be employed in foldable smartphones or rolled up for storage, an area Apple is also allegedly examining.

Despite the advantages, OLED is still lagging behind TFT in terms of adoption. The cost of production is far higher, in part due to the need for extremely clean environments, as a single speck of dust can potentially ruining a display during fabrication.

OLED panels are also affected by the presence of water, both in production and in use. Small amounts of water contacting the organic substrate can cause immediate damage to the display, rendering parts of the screen useless.

So far, Apple"s usage of OLED consists of the premium iPhone X and the Apple Watch. As the cost of production drops down, it is plausible for Apple to use OLED in more future products, providing a better screen for customers to use.

Thought to be the next big thing in display technology, MicroLED basically takes the idea of using LEDs for pixels in a large stadium-style screen and miniaturizes it all.

Using extremely small LEDs, three MicroLEDs are put together to create each pixel, with each subpixel emitting a different color from the usual red, blue, and green selection. As each LED emits light, there is no need for a backlight as used in TFT screens.

MicroLED doesn"t use an organic compound to produce light, making it less susceptible to failure compared to OLED. Just like OLED, it can be applied onto a flexible material, allowing it to be used for curved displays or non-stationary components, like a watch strap, and can result in an extremely thin display panel.

MicroLED offers the same lower power consumption and high contrast ratio benefits as OLED when compared to TFT. However, MicroLED is also capable of producing a far brighter image than OLED, up to 30 times brighter, and is in theory more efficient in converting electricity into light.

As a relatively new and in-development technology, the cost of MicroLED production is extremely high in comparison to the more established OLED and TFT mass production lines, in part due to lower than required yields. Manufacturing equipment vendors have produced hardware for MicroLED production that cuts defects in half and reduces deposition deviance from 3 nanometers down to 1 nanometer, but it is unclear if this is enough to help mass production move forward.

While MicroLED is an attractive proposition for Apple, it is not the only technology under development by the company"s engineers. Apple has previously filed patent applications for a technology described as "Quantum Dot LED and OLED Integration for High Efficiency Displays."

Quantum Dots are photoluminescent particles included in an LED-backed TFT display that can produce brighter and more vibrant colors, with the colors produced depending on their size. While available in current QLED televisions, the technology is only really being used to enhance the backlight, rather than being used to illuminate individual pixels.

Image: Lee, Changhee & BAE, Wanki & KWAK, Jeonghun. (2014). "Quantum Dot LED (QLED) Emerging as a Next-generation Display Technology" in Physics and High Technology

Under Apple"s implementation, thought to be a "true quantum dot" (QD) system, the dot will emit light on demand without needing a backlight. For true QD, the photoluminescent dots are instead replaced by electroluminescent nanoparticles which are capable of such emissions.

The technology in theory can create an even thinner display than OLED, along with a more streamlined manufacturing process. True QD displays are also capable of high pixel densities of up to 1,000ppi, multiple times the density required to be called a Retina-quality display, and based on Apple"s hybrid invention, will also boast the response times of OLED technology.

As is usually the case, Apple does produce a considerable number of patent applications every week that are filed with the US Patent and Trademark Office, and not everything it files will be fully commercialized.

The QD patent application certainly shows Apple is thinking about display technology in multiple ways, and how it can be applied to future devices, but short of getting firm supply chain information or an official announcement from Apple directly, it is difficult to confirm which direction it will be heading.

Apple has been interested in using the technology for some time now, with the first notable sign being its acquisition of LuxVue in May 2014, alongside assorted related patents. A MicroLED specialist, LuxVue was rumored to have been the display producer for the ill-fated Google Glass headset, but was also the holder of assorted patents in the LED display field, including MicroLED.

At the time, the acquisition was thought to be an attempt by Apple to bring part of its display technology development in-house, with suggestions the MicroLED technology would be used in another rumored-at-the-time device, the Apple Watch. A more recent report suggests Apple is working with TSMC to make small panels for a future premium Apple Watch, potentially starting mass production by the end of the year.

The facility is also claimed to be sufficient in size to perform small scale manufacturing of display panels, allowing the company to keep development and testing in-house without involving third-parties. Considering Apple"s previous history in developing technologies before issuing information to manufacturing partners, it is possible that Apple is trying to work out the kinks in production before suppliers even attempt to make MicroLED panels.

The rumored small screen production may be for the Apple Watch now, but it may also benefit another often-rumored device, namely the VR or AR headset. This type of hardware relies on light components to keep the weight off the user"s head and neck, as well as displays with a high refresh rate and as close to perfect color reproduction as possible.

Apple is also apparently planning to use the technology in larger displays, said to be bigger in size than those in the MacBook Pro lines. This could be an iMac or iMac Pro, or even an external display, but ultimately there"s no real indication of Apple"s plans at this point, regardless of the scale of the screen.

Reports from last year also suggest Apple"s investment in MicroLED was a cause for concern for Samsung, LG, and other South Korean suppliers who provide display panels for the company"s products. Owning the process for MicroLED manufacturing could allow Apple to migrate away from its existing display suppliers in the coming years, reducing revenues and profits.

Aside from Apple"s development, there has been little in the way of announcements from other firms for products using the technology that could be bought by consumers in the coming months. The exception is Samsung, Apple"s main rival in the mobile marketplace and a major supplier of display panels, but its usage of MicroLED is not aimed at producing smaller screens.

Samsung claimed at the show it will be available to buy from August, but declined to advise how much it will cost. Given the technology"s allegedly expensive production using current methods, and the usual high cost associated with the company"s televisions headlining at the tradeshow, it will probably be prohibitive for the vast majority of potential buyers.

The impending use of the technology in a high-priced consumer product could be considered proof that MicroLED display technology is maturing enough for use in devices. If the reports claiming Apple is getting close to mass producing panels is true, the inclusion of MicroLED in the Apple Watch could end up being the first mainstream usage of the technology.

TFT stands for Thin-Film Transistor. TFT technology is a new standard these days for manufacturing displays, monitors, laptop screens, and other devices. TFT LCD displays can show crisp text, vivid colors, fast animations, and complex graphics.

TFT LCD monitors, also called flat panel displays, are replacing the old style cathode ray tubes (CRTs) as the displays of choice. Almost all LCD monitors today take advantage of the TFT technology.

Each pixel on a TFT display is backed by a tiny transistor. Transistors are so small these days, they need only a very minimal charge to control what they do. TFT displays are much more energy efficient than regular CRT screens that need a powerful light source.

TFT displays also allow for very fast re-drawing of the display, so the image has very little chance to flicker. This was not always the case with flat-panel monitors. Original passive matrix LCD displays were not able to refresh at very high rates and therefore could not keep up with fast moving images. A TFT monitor refresh rate is very high resulting in a display that can be used for video, gaming, and all forms of multimedia.

A TFT monitor delivers crisp text, vibrant colors, and an improved response time for multimedia applications. Today"s standard for response rate in TFT monitors is 16 ms or less.

In general, a LCD display comprises of a layer of LCD material and one or more polarizing layers made of plastic, glass, or some other material. A LCD display has a sandwich-like structure with liquid crystals filled between two glass (or plastic or polycarbonate) plates.

These liquid crystals when stimulated by an external electrical charge can change the properties of light passing through them. When you align two polarizing materials with each other, light passes through. When you align one polarizing agent at a 90° angle to the other, light is blocked. Change the voltage, and the amount of light passing through the display is changed.

Liquid crystals in LCD monitor act as a dynamic polarizing agent. They change their orientation when you place a voltage across an LCD cell. The orientation of the polarizing agent under the LCD layer either blocks or passes light.

A TFT display is an advanced LCD display. A TFT monitor uses so-called thin-film transistor technology to project a picture on the screen. Transistors in a TFT display are used to change the orientation of the polarizing agent.A typical 17-inch TFT monitor has about 1.3 million pixels and 1.3 million transistors. The following text explains TFT in a greater detail...

When you look at a passive-LCD technology, the cells act as capacitors. When you charge a cell, the liquid crystal flips to one position. When you stop supplying charge to the cell, it voluntarily bleeds off its voltage and the liquid crystal slowly twists back to its original position.

Passive LCD panels cannot quickly change the orientation of the crystal. Well, it is quick, but not quick enough to display fast-moving graphics. To overcome this slowness, engineers came up with active-LCD technology. Active-LCD displays use transistors to actively change the orientation of crystals. That is where TFT comes from. T in TFT for transistor. This method allows for faster control of the LCD cell but is also more complex.

While passive-LCD displays start to blur with images moving faster than 8 to 15 frames/sec, TFT displays can display full-motion video and graphics because they use fast switching transistors.

Now that we know how a LCD works and what it behind TFT, we can start talking about color. Each pixel in a color TFT LCD is subdivided into three subpixels. One of the subpixels is capable of producing red, the other one green, and the last one blue color. Red, green, and blue are the basic colors. Any other color can be produced by mixing up these three. One set of RGB subpixels is equal to one pixel.

Because the subpixels are super tiny for the human eye to see them individually, the three RGB elements appear to the human eye as a mixture of the three colors. Any color can be produced by mixing these three primary colors.

Old TFT displays and the small ones in simple applications such as calculators are reflective TFT. A reflective TFT display has no backlight. The polarizing agent at the rear of the TFT display is simply a mirror layer behind the TFT panel. The agent merely reflects incoming light from the front of the display. You need to be in a well-lit room to be able to read this type of display.

The next step in a TFT LCD design was to add a light source to it. More advanced TFT displays have added sidelights or front lights to these displays. Sidelights and front lights are virtually the same as backlights. The difference is just the position of the light. Front lights sit on the side or slightly in front of the TFT layers. They are designed so that the light they produce shines through the TFT panel and bounces off the reflective polarizing agent back through the display.

A transmissive TFT uses a backlight. Most TFT LCD panels today are designed with a backlight. The source of the light is mounted at the rear side of the LCD panel and shines light towards your eyes through the TFT panel"s polarizing medium (liquid crystal). Small displays, such as cell phones or calculators, use light source that is placed along the sides of the display.

The common TFT-display backlight is the CCFL (cold-cathode fluorescent lamp). CCFLs are similar to fluorescent light tubes that you commonly find in offices and homes. Their advantage is that they are small, inexpensive, replaceable, and cheap.

The polarizing medium in a TFT that transmits or blocks the backlight is clear, so any light shining on the display from the front competes with the backlight. If the light source shining on the front of the TFT display is strong enough, such as sun on a sunny day, it simply overpowers your laptop TFT display"s backlight and the display image is washed out. A reflective TFT display is usually a better choice for applications with high ambient light.

LED technology has only recently achieved the white light necessary to illuminate these panels. LEDs are the choice these days because they are stable over temperature ranges, durable, and very energy efficient. That is why if you buy a laptop with a TFT LED back-lighted display, it is possible that it will go for as much as 8 hours with your battery.

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.