types of lcd display brands

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

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

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

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

Sony produces and sells commercial MicroLED displays called CLEDIS (Crystal-LED Integrated Displays, also called Canvas-LED) in small quantities.video walls.

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

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STONE Technologies is a proud manufacturer of superior quality TFT LCD modules and LCD screens. The company also provides intelligent HMI solutions that perfectly fit in with its excellent hardware offerings.

There is also a downloadable design software called STONE Designer. This is a completely free GUI design software you can use to create responsive digital module-ready user interfaces.

STONE TFT LCD modules come with a microcontroller unit that has a 1GHz Cortex-A8 CPU. Such a module can easily be transformed into an HMI screen. Simple hexadecimal instructions can be used to control the module through the UART port. Furthermore, you can seamlessly develop STONE TFT LCD color user interface modules and add touch control, features to them.

You can also use a peripheral MCU to serially connect STONE’s HMI display via TTL. This way, your HMI display can supply event notifications and the peripheral MCU can then execute them. Moreover, this TTL-connected HMI display can further be linked to microcontrollers such as:

Becoming a reputable TFT LCD manufacturer is no piece of cake. It requires a company to pay attention to detail, have excellent manufacturing processes, the right TFT display technology, and have a consumer mindset.

Now, we list down 10 of the best famous LCD manufacturers globally. We’ll also explore why they became among the top 10 LCD display Manufacturers in the world.

BOE Technology Group Co., Ltd., founded in April 1993, is an IoT company providing intelligent interface products and professional services for information interaction and human health. BOE’s three core businesses are Interface Devices, Smart IoT Systems, and Smart Medicine & Engineering Integration.

Interface Devises Business includes Display and Senor, Sensor, and Application Solutions. As a leading company in the global semiconductor display industry, BOE has made the Chinese display industry develop from scratch to maturity and prosperity. Now, more than one-quarter of the global display panels are made by BOE, with its UHD, flexible display, microdisplay, and other solutions broadly applied to well-known worldwide brands.

Smart IoT Systems Business includes Intelligent Manufacturing Services, IoT Solution, and Digital Art IoT Platform. BOE provides integrated IoT solutions in smart retail, smart finance, digital art, business office, smart home, smart transportation, smart education, smart energy, and other fields. In the field of digital art, BOE has launched its digital art IoT solution – BOE iGallery, realizing the perfect combination of technology and art. For smart retail, BOE provides IoT solutions in price management, shelf management, and customer behavior analysis to achieve seamless online and offline convergence.

In 2019, BOE’s yearly new-patent applications amounted to 9657, of which over 90% are invention patents, amounting to over 70,000 usable patents in total. Data from IFI Claims also shows that BOE has ranked 13th among the Top 50 USPTO (The United States Patent and Trademark Office), Patent Assignees, in 2019. According to the 2019 International PCT Applications of WIPO, BOE ranked No.6 with 1,864 applications.

LG Display is a leading manufacturer of thin-film transistor liquid crystal displays (TFT-LCD) panels, OLED, and flexible displays.LG Display began developing TFT-LCD in 1987 and currently offers Display panels in a variety of sizes and specifications using different cutting-edge technologies (IPS, OLED, and flexible technology).

LG Display now operates back-end assembly plants in South Korea, China, and Vietnam. In addition, LG Display operates a sales subsidiary with a global network to effectively serve overseas markets.

Samsung Electronics is South Korea’s largest electronics industry and the largest subsidiary of the Samsung Group. In the late 1990s, Samsung Electronics’ independent technology development and independent product innovation capabilities were further enhanced. Its product development strategy not only emphasizes “leading the technology but also using the most advanced technology to develop new products to meet the high-end market demand at the introduction stage”.In addition to the matching principle, it also emphasizes the principle of “leading technology, developing new products with the most advanced technology, creating new demand and new high-end market”.

With innovative and differentiated technologies, QINNOOptoelectronics provides advanced display integration solutions, including 4K2K ultra-high resolution, 3D naked eye, IGZO, LTPS, AMOLED, OLED, and touch solutions. Qinnooptoelectronics sets specifications and leads the market. A wide range of product line is across all kinds of TFT LCD panel modules, touch modules, for example, TV panel, desktop and laptop computer monitor with panels, small and medium scale “panels, medical, automotive, etc., the supply of cutting-edge information and consumer electronics customers around the world, for the world TFT – LCD (thin-film transistor liquid crystal display) leading manufacturers.

AU Optronics Co., LTD., formerly AU Optronics Corporation, was founded in August 1996. It changed its name to AU Optronics after its merger with UNIOPtronics in 2001. Through two mergers, AU has been able to have a full range of generations of production lines for panels of all sizes.Au Optronics is a TFT-LCD design, manufacturing, and r&d company. Since 2008, au Optronics has entered the green energy industry, providing customers with high-efficiency solar energy solutions.

Sharp has been called the “father of LCD panels”.Since its founding in 1912, Sharp developed the world’s first calculator and LIQUID crystal display, represented by the living pencil, which was invented as the company name. At the same time, Sharp is actively expanding into new areas to improve people’s living standards and social progress. Made a contribution.

Sharp is committed to creating a unique company, creating life in the 21st century through unparalleled “originality” and “sophistication”, and is a sales company, operating video, home appliances, mobile phones, and information products throughout the major cities of the country. Establish a business point, establish a perfect after-sale service network, satisfy consumer demand.

BYD IT products and businesses mainly include rechargeable batteries, plastic mechanism parts, metal parts, hardware electronic products, cell phone keys, microelectronics products, LCD modules, optoelectronics products, flexible circuit boards, chargers, connectors, uninterruptible power supplies, DC power supplies, solar products, cell phone decoration, cell phone ODM, cell phone testing, cell phone assembly business, notebook computer ODM, testing and manufacturing and assembly business, etc.

Toshiba is a famous multinational company with a history of 130 years. It covers a wide range of businesses, including social infrastructure construction, home appliances, digital products, and electronic components. It covers almost every aspect of production and life. Toshiba has the largest research and development institution in Japan. Through unremitting innovation and development, Toshiba has been at the forefront of science and technology in the world.

From the introduction of Japan’s original washing machines, refrigerators, and other household appliances, to the world’s first laptop, the first 16MB flash memory, the world’s smallest 0.85-inch HDDs; Create advanced HDDVD technology; Toshiba created many “world firsts” in the research and manufacture of new SED displays and contributed to changing people’s lives through constant technological innovation.

Kyocera was founded in 1959 as a manufacturer of technical ceramics. Industrial ceramics is a series of advanced materials with unique physical, chemical, and electronic properties. Today, most of Kyocera’s products are related to telecommunications, including semiconductor components, RF and microwave packaging, passive electronic components, wireless mobile phones and network equipment, crystal oscillators and connectors, and optoelectronic products for optoelectronic communication networks.

Tianma microelectronics co., LTD., founded in 1983, the company focus on smartphones, tablets, represented by high order laptop display market of consumer goods and automotive, medical, POS, HMI, etc., represented by professional display market, and actively layout smart home, intelligent wear, AR/VR, unmanned aerial vehicles (UAVs) and other emerging markets, to provide customers with the best product experience.IN terms of technology, the company has independently mastered leading technologies such as LTPS-TFT, AMOLED, flexible display, Oxide-TFT, 3D display, transparent display, and in-cell/on-cell integrated touch control. TFT-LCD key Materials and Technologies National Engineering Laboratory, national enterprise Technology Center, post-doctoral mobile workstation, and undertake national Development and Reform Commission, The Ministry of Science and Technology, the Ministry of Industry and Information Technology, and other major national thematic projects. The company’s long-term accumulation and continuous investment in advanced technology lay the foundation for innovation and development in the field of application.

There are many LCD display types to choose from. Some are new cutting edge technology and other are older legacy types of displays. Although even some of the legacy type of LCD displays make use of cutting edge technology. The goal of this article is to provide the reader with a brief overview of the uses, advantages and disadvantages of each type of display.

Segment LCD’s, also called static or direct drive are an older technology but are still in heavy use today. These displays are reliable and have been in use for many years. They show no signs of going away anytime soon.

The goal of this display is simplicity. Their only job is to display letters, numbers and icons. There is no 3-D effect or range of brilliant colors and most do not contain a touch screen or any other type of human interface. They normally are not equipped wit a controller/driver chip.

In fact, you could reduce the static/direct drive LCD down to the simple formula of one pin equals one segment. If you need a display that contains a 7 segment number, you need 7 pins. The exception to this is if you increase the number of backplanes and convert this to a multiplex display.

The formula for a multiplex display is a little more complicated. One pin equals 2 or 4 segments. The advantage of multiplexing is that you reduce the number of pins which, in turn, reduces the cost of the display and the amount of time required to mount the display to a PCB.

One disadvantage of multiplex display over direct drive displays is that the refresh rate is slower and this may allow the segments that are ON to ‘fade’ or not look as sharp. Some times this is referred to as ‘ghosting’. This is not a very common occurrence as the technology has improved since the days of pagers and low cost calculators.

LCD display type to use we have a general rule: If the total number of segments is 20 or less, we advise a static (direct drive) displaysince a display with 20 pins is low cost to build and to install on the PCB.

graphics type of LCD display that makes use of the controller driver chip. The controller driver chip allow the number of connections for multiple segments to be reduced to 14 or 16 pins. This LCD technology is covered later in the article.

While monochrome displays are simple and can come across as somewhat boring, there are some key advantages to consider when choosing which of the LCD display types to go with.

advantage of the monochrome LCD display is that they are not power hungry. They operate with very little current draw. This becomes an ideal choice when the only power you have is a battery. These displays are built to operate at 3.0V, 3.3V (in some case they can operate as low as 1.7V) and 5V. The current draw for a display with no backlight can run as low as 6uA per cm^2. (Note: The lower the operating temperature of the LCD, the greater the power required).

If all you need to display is what time it is, the current temperature, or the number of gallons, and your customer does not wish to pay for vibrant, flashy power-hungry color, then this display will work perfectly for you.

The majority of the static or multiplex displays we offer have been customized to meet the customer’s requirements. This is a great advantage to consider when choosing one of the LCD display types you will use in your product.

A customized static or multiplex display allows you to have the display built to the dimensions you require. You can select the following options:Temperature range to operate in

The tooling or NRE (non-recurring engineering cost) of this type of display is much lower than newer technologies and the MOQ (minimum order quantities) are also lower than other types of displays.

The display industry has come a long way in recent years. With so many competing standards on the market today, it’s often hard to tell if an emerging technology is worth paying extra for. OLED and QLED, for instance, sound similar enough on the surface but are, in fact, completely different display types.

All of this is great from a technological standpoint — progress and competition generally equal better value for the end-user. In the short term, however, it has certainly made shopping for a new display somewhat complicated.

To help with that decision, we’ve summarized all mainstream display types in this article, along with the pros and cons of each. Consider bookmarking this page and returning to it the next time you’re in the market for a new television, monitor, or smartphone.

LCDs, or liquid crystal displays, are the oldest of all display types on this list. They are made up of two primary components: a backlight and a liquid crystal layer.

Put simply, liquid crystals are tiny rod-shaped molecules that change their orientation in the presence of an electric current. In a display, we manipulate this property to allow or block light from passing through. This process is also aided by color filters to produce different subpixels. These are essentially shades of red, green, and blue primary colors that combine to form the desired color, as shown in the above image. At a reasonable viewing distance, individual pixels are (usually) invisible to our eyes.

Since liquid crystals don’t produce any light by themselves, LCDs rely on a white (or sometimes blue) backlight. The liquid crystal layer then simply has to let this light pass through, depending on the image that needs to be displayed.

You may have noticed that the term LCD has started to disappear of late, especially in the television industry. Instead, many manufacturers now prefer branding their televisions as LED models instead of LCD. Don’t be fooled, though — this is just a marketing ploy.

These so-called LED displays still use a liquid crystal layer. The only difference is that the backlights used to illuminate the display now use LEDs instead of cathode fluorescent lamps, or CFLs. LEDs are a better light source than CFLs in almost every way. They are smaller, consume lesser power, and last longer. However, the displays are still fundamentally LCDs.

Twisted nematic, or TN, was the very first LCD technology. Developed in the late 20th century, it paved the way for the display industry to transition away from CRT.

TN displays have liquid crystals laid out in a twisted, helical structure. Their default “off” state allows light to pass through two polarizing filters. However, when a voltage is applied, they untwist themselves to block light from passing through.

TN panels have been around for decades in devices like handheld calculators and digital watches. In these applications, you only need to power sections of the display where you don’t want light. In other words, it is an incredibly energy-efficient technology. Twisted nematic panels are also cheap to manufacture.

However, TN displays have some major downsides, including narrow viewing angles and poor color accuracy. This is because most of them use sub-pixels that can only output 6 bits of brightness. That limits the color output to just 26 (or 64) shades of red, green, and blue. That’s a lot less than 8 and 10-bit displays, which can reproduce 256 and 1,024 shades of each primary color respectively.

Instead of a twisted orientation, liquid crystals in an IPS display are oriented parallel to the panel. In this default state, light is blocked — the exact opposite of what happens in a TN display. Then, when a voltage is applied, the crystals simply rotate in the same plane and let light through. As a side note, this is why the technology is called in-plane switching.

IPS displays were originally developed to deliver wider viewing angles than TN. However, they also offer a myriad of other benefits, including higher color accuracy and bit-depth. While most TN panels are limited to the sRGB color space, IPS can support more expansive gamuts. These parameters are important for playing back HDR content and are downright necessary for creative professionals.

Having said that, IPS displays do come with a few minor compromises. The technology isn’t nearly as energy-efficient as TN, nor is it as cheap to manufacture at scale. Still, if you care about color accuracy and viewing angles, IPS is likely your only option.

In a VA panel, liquid crystals are oriented vertically instead of horizontally. In other words, they are perpendicular to the panel, and not parallel like in IPS.

This default vertical arrangement blocks a lot more of the backlight from coming through to the front of the display. Consequently, VA panels are known for producing deeper blacks and offering better contrast compared to other LCD display types. As for bit-depth and color gamut coverage, VA is capable of doing just as well as IPS.

On the downside, the technology is still relatively immature. Early VA implementations suffered from extremely slow response times. This led to ghosting, or shadows behind fast-moving objects. The reason for this is simple — it takes longer for VA’s perpendicular arrangement of crystals to change orientation.

However, VA displays also have narrower viewing angles than IPS panels. Still, most VAs come out on top when compared to even the best TN implementations.

From this description alone, it’s easy to see how OLED differs from LCD and prior display types. Since the compounds used in OLEDs emit their own light, they are an emissive technology. In other words, you don’t need a backlight for OLEDs. This is why OLEDs are universally thinner and lighter than LCD panels.

Since each organic molecule in an OLED panel is emissive, you can control whether a particular pixel is lit up or not. Take away the current and the pixel turns off. This simple principle allows OLEDs to achieve remarkable black levels, outperforming LCDs that are forced to use an always-on backlight. Besides delivering a high contrast ratio, turning off pixels also reduces power consumption.

The AM bit in AMOLED refers to the use of an active matrix circuit for supplying current, as opposed to the more primitive passive matrix (PM) approach. The P in POLED, meanwhile, indicates the use of a plastic substrate at the base. Plastic is thinner, lighter, and more flexible than glass. There’s also Super AMOLED, which is just fancy branding for a display that has an integrated touch screen digitizer.

Even though Samsung uses the Super AMOLED branding, many of its displays use a plastic substrate too. Smartphones with curved screens would not be possible without the flexibility of plastic. Similarly, almost every POLED display uses an active matrix. The distinction between AMOLED vs POLED has diminished greatly in recent times.

In summary, OLED subtypes aren’t nearly as varied as LCDs. Furthermore, only a handful of companies manufacture OLEDs so there’s even less quality variance than you’d expect. Samsung manufactures the majority of OLEDs in the smartphone industry. Meanwhile, LG Display has a near-monopoly on the large-sized OLED market. It supplies panels to Sony, Vizio, and other giants in the television industry.

In the section on LCDs, we saw how the technology can vary based on differences in the liquid crystal layer. Mini-LED, however, attempts to improve contrast and image quality at the backlight level instead.

The backlights in conventional LCDs have only two modes of operation — on and off. This means that the display has to rely on the liquid crystal layer to adequately block light in darker scenes. Failing to do that results in the display producing grays instead of true black.

Some displays, however, have adopted a better approach recently: they divide the backlight into zones of LEDs. These can then be individually controlled — either dimmed or turned off completely. Consequently, these displays deliver much deeper black levels and higher contrast. The difference is immediately apparent in darker scenes.

This technique, known as full array local dimming, has become ubiquitous in higher-end LCD televisions. Until recently, though, it wasn’t viable for smaller displays like those found in laptops or smartphones. And even in larger devices like monitors and TVs, you run the risk of not having enough dimming zones.

Mini-LEDs allow display manufacturers to increase the number of local dimming zones from a few hundred to several thousand. As you’d expect, more zones equals granular control over the backlight. Their smaller footprint also makes them perfect for smaller devices like smartphones, tablets, and laptops. Finally, the abundance of LEDs also helps to boost the overall brightness of the display.

Tiny, bright objects against a black background look much better on a mini-LED display as compared to one with conventional LED backlighting. However, the contrast ratio still isn’t in the same ballpark as OLED.

Still, it’s not hard to see how mini-LEDs can eventually deliver better contrast than conventional local dimming implementations. Furthermore, since mini-LED displays still rely on traditional LCD technologies, they aren’t prone to burn-in like OLEDs.

Quantum dot technology has become increasingly common — usually positioned as a key selling point for many mid-range televisions. You may also know it by Samsung’s marketing shorthand: QLED. Similar to mini-LED, however, it isn’t some radically new panel technology. Instead, quantum dot displays are basically conventional LCDs with an additional layer sandwiched in between.

Many older display types are capable of fully covering the decades-old standard RGB (sRGB) color gamut. However, the same cannot be said for wider gamuts like DCI-P3. Coverage of the latter is important because that’s the color gamut predominantly used in HDR content.

So how do quantum dots help? Well, they are essentially tiny crystals that emit color when you shine blue or ultraviolet light on them. This is why quantum dot displays use a blue backlight instead of white.

A quantum dot display contains billions of these nanocrystals spread across a thin film. Then, when the backlight is turned on, these crystals are capable of producing extremely specific shades of green and red. The exact shade depends on the size of the crystal itself.

When combined with traditional LCD color filters, quantum dot displays can cover a greater percentage of the visible light spectrum. Put simply, you get richer and ore accurate colors — enough to deliver a satisfactory HDR experience. And since the crystals emit their own light, you also get a tangible bump in brightness compared to traditional LCDs.

However, quantum dot technology does not improve other pain points of LCDs such as contrast and viewing angles. For that, you’d have to combine quantum dots with local dimming or mini-LED technologies. Samsung’s high-end Neo QLED TVs, for example, combine QLED with Mini-LED tech to match OLED’s deep blacks.

Quantum-dot OLED, or QD-OLED, is an amalgamation of two existing technologies — quantum dots and OLED. More specifically, it aims to eliminate the drawbacks of both traditional OLEDs and LCD-based quantum dot displays.

In a traditional OLED panel, each pixel is composed of four white sub-pixels. The idea is rather simple: since white contains the entire color spectrum, you can use red, green, and blue color filters to obtain an image. However, this process is rather inefficient. As you’d expect, blocking large portions of the original light source leads to significant brightness loss by the time the image reaches your eyes.

Modern OLED implementations combat this by leaving the fourth sub-pixel white (without any color filters) to improve the perception of brightness. However, they still usually fall short in terms of brightness, especially against high-end LCDs with larger backlights.

QD-OLED, on the other hand, uses a completely different subpixel arrangement — these displays start with blue emitters instead of white. And instead of color filters, they use quantum dots. In the previous section on QLED, we discussed how quantum dots are capable of producing extremely specific shades of green and red. The same property comes into play here as well. Put simply, quantum dots convert the original blue light into various colors instead of destructively filtering it, preserving the display’s overall brightness.

According to Samsung Display, another advantage QD-OLED brings to the table comes in the form of better color accuracy. Since these displays don’t have a fourth white sub-pixel, color information is rendered correctly even at higher brightness levels. Finally, quantum dots allow displays to achieve higher color gamut coverage and offer wider viewing angles than color filters.

However, it’s still early days for the technology as a whole. Traditional OLEDs have enjoyed a nearly decade-long head start yet remain relatively unaffordable. It remains to be seen if QD-OLED televisions and monitors can compete in terms of price and durability, especially considering the risks of image retention or burn-in with organic compounds.

MicroLED is the newest display type on this list and, as you’d expect, also the most exciting. Put simply, microLED displays use LEDs that are even smaller than those used in mini-LED backlights. While most mini-LEDs are around 200 microns in size, microLEDs are as small as 50 microns. For context, human hair is thicker than that at 75 microns.

Their small size means that you can build an entire display out of microLEDs alone. The result is an emissive display — much like OLED, but without the drawbacks of that technology’s organic component. There’s no backlight either, so each pixel can be turned off completely to represent black. All in all, the technology delivers an exceptionally high contrast ratio and wide viewing angles.

Brightness is another aspect in which microLED displays manage to surpass existing technologies. Even the highest-end OLED displays on the market today, for instance, top out at 2,000 nits. On the other hand, manufacturers claim that microLED can eventually deliver a peak brightness output of 10,000 nits.

Finally, MicroLED displays can also be modular. Even some of the earliest demonstrations of the technology had manufacturers creating giant video walls using a grid of smaller microLED panels.

Samsung offers its flagship The Wall microLED display (pictured above) in configurations ranging from 72 inches all the way to 300 inches and beyond. With a million-dollar price tag, though, it is clearly not a consumer product. Still, it offers a glimpse into the future of televisions and display technology in general.

It’s almost certain that microLED displays will become more accessible and cheaper in the coming years. After all, OLED is only a decade old at this point and has already become ubiquitous.

And with that, you’re now up to speed on every display technology on the market today! Display types can vary significantly and the best option depends on the characteristics you deem important or require the most.

The general consumer typically has very limited knowledge about the different types of LCD panels on the market and they take all of the information, specifications, and features printed on the packaging to heart. The reality is that advertisers tend to take advantage of the fact that most people conduct very minimal research before making big technological purchases—in fact, they depend on this to sell higher quantities of commercial monitors. With that in mind, how exactly do you know if you’re actually getting a good quality product that’ll suit your needs? Reading up on all of the different types of industrial LCD monitors is a good place to start!

LCD stands for liquid-crystal display. Over the years, LCD technology has become ubiquitous with various commercial and industrial screen manufacturing. LCDs are constructed of flat panels that contain liquid crystals with light modulating properties. This means that these liquid crystals use a backlight or reflector to emit light and produce either monochromatic or coloured images. LCDs are used to construct all sorts of displays from cellphones to computer screens to flat-screen TVs. Keep reading to learn everything you need to know about the different types of LCD displays on the market.

Twisted Nematic LCDs are the most commonly manufactured and used types of monitors across a wide range of industries. They’re most commonly used by gamers because they’re inexpensive and boast faster response times than most of the other display types on this list. The only real downside to these monitors is that they possess low quality and limited contrast ratios, colour reproduction, and viewing angles. However, they suffice for everyday operations.

In Plane Switching displays are considered to be among the best of the best when it comes to LCD technology as they offer superior viewing angles, excellent image quality, and vibrant colour accuracy and contrast. They’re most commonly used by graphic designers and in other applications that require the highest possible standards for image and colour reproduction.

AFFS LCDs offers far superior performance and a wider range of colour reproduction than even IPS panel technology. The applications involved in this type of LCD display are so advanced that they can minimize colour distortion without compromising on the extremely wide viewing angle. This screen is typically used in highly advanced and professional environments such as in the cockpits of commercial airplanes.

Nauticomp Inc. is the leading designer and manufacturer of high-quality LCD panels and displays. All of our touchscreen displays are made to order and customized according to your specific needs and applications. To learn more about our products, please contact us today.

In order to choose the best monitor for your needs, it is very important to distinguish what kind of LCD panel interface type is in the monitor you’re looking at. The most common panels used nowadays are;

One of the types of panels that you will find in a computer monitor is a TN Panel. This stands for Twisted Nematic, and this particular type of LCD panel is generally the cheapest. They are the cheapest to manufacture among all LCD technologies, so they are the most commonly used in budget monitors.

If you are looking to game online, you will need a monitor with a higher refresh rate like that offered by a TN panel. Refresh rates are measured in Hertz (Hz), which defines how many times per second your screen can display new images.

The typical response time for a TN panel is less than 5 ms which is much faster than the 6 or 8 ms response time that other LCD displays have, such as vertical alignment or VA.

The biggest downside with these panels is often their viewing angles. On a TN panel, the viewing angles aren"t very good, and depending on how far off-center you are, the picture can begin to lose color and contrast.

TN panels also don"t support as wide a range of resolutions as IPS. This LCD monitor panel type has a poor contrast ratio when compared with other technologies such as IPS and VA. This results in an inability to display deep blacks and bright whites at the same time.

TN panels are manufactured by Samsung, LG, AUO, Chi-Mei, Chunghwa Picture Tubes, Hannstar Display Corporation, Sharp Corporation, CMI, Innolux, J-Tech Digital Imaging Co. Ltd, AU Optronics Corporation, etc.

A TN panel is a type of liquid crystal display (LCD) used in most LCD monitors and laptops. TN panels were the workhorse of the 1990s and early 2000s, but they were eventually replaced by their more-expensive cousins, the in-plane switching (IPS) and vertical alignment (VA) panels.

TN computer panels work by using two polarized filters, vertical and horizontal, to control the light that passes through them. The filters are arranged so that when the electrical current is off, light cannot pass through. When it"s on, it hits the twisted crystals to produce colors. The active layer is twisted to allow the light to pass through it, and this twist is controlled by electrical fields applied to the liquid crystal material.

It is worth noting that A TN panel is made up of millions of pixels, each pixel being red, green, or blue in color. The light from each pixel can be either on or off, so black is created when all the pixels are off and white when all are on. When all three colors are combined, any color can be produced. This arrangement is called RGB (red-green-blue).

A TN panel uses twisted nematic liquid crystals to form images. While not as desirable as other technologies, it does have several benefits worth considering when making a purchasing decision.They are mostly found in budget LCDs, as they are cheaper to manufacture and therefore sell for less.

TN is the oldest and most common type of LCD panel, and it"s also the cheapest to produce. TN panels were the first panels to be introduced to the market, but they"re no longer as popular as they used to be. This is because TN panels have several downsides:The main disadvantage of TN panels is limited viewing angles, which can be extremely limiting in some cases. If you"re sitting straight in front of the monitor, everything is fine, but if you move to the side, then all colors shift and get distorted. That can be extremely annoying for graphic designers or architectswho work with color palettes, photographers who need exact color matching, etc. (see also

TN panels typically have lower contrast ratios than IPS displays do, so they don"t look as rich in color or dark black. So TN panels are usually not suitable for professional applications such as color-critical photo editingand graphic design.

Many gamers prefer TN panels because they provide a very fast response time and higher refresh rates. You can also find some with a refresh rate of 240Hz, which is even better.The Asus VG248QE is a 24-inch LCD display with a 1920 x 1080 resolution and a 1ms response time. It uses a TN panel, so don"t expect much in terms of viewing angle or color reproduction accuracy compared to an IPS display. But if you"re looking for a good 144Hz monitor, choose this one.

The Samsung S27B970D is also known as the professional gaming monitor because it has features that gamers love: it"s got a fast 1ms response time and 144Hz refresh rate. In addition, as far as features go, take a look at gaming monitors with speakers.

ViewSonic VX2458-MHD. It has a TN panel. The refresh rate of this monitor is 72Hz, which is standard. The response time of this monitor is 1ms. It also comes with 4 USB 3.0 ports, which is great if you plan on hooking up multiple devices, which is frequently used when trading. If you have a setup like that, you will also want to look at bezel less monitors, or frameless monitors, for your needs.

Another common type of panel is a VA panel. This stands for Vertical Alignment and is a step above a TN panel in terms of quality. Its name comes from the fact that light emitted from the screen"s backlight (see also LED monitors) is aligned vertically rather than being scattered horizontally and vertically as it is with a TN display.

VA panels provide high-quality images, wide viewing angles along with excellent contrast ratio and high refresh rates. These factors make VA panel monitors preferred for graphic design, photographers, video editors, and others who often work on their PCs.

VA panels are also better when displaying fast-moving images because they offer high refresh rates hence have less motion blur. Additionally, some panels have support for even 120 Hz refresh rates for ultra-smooth movement in games and movies.

Unlike a TN display, a VA display has excellent viewing angles. You can view them from any direction, and you won"t see any distortion in the display. They make them a good choice for home theater systems as it allows users to be seated off-center without affecting the image quality or contrast ratio.

Traditional LCD displays use two polarizing filters and liquid crystals (LCs) to create all the colors and patterns that we see on computer monitors and flat-panel televisions.

What are the Benefits of VA Panels?Image quality of VA technology is considered better than TN technology; text appears crisper, and images appear sharper and richer in contrast and color.

One of the other key benefits of VA technology is its high contrast ratio; VA displays can deliver a true black when displaying dark images or video content

VA displays also offer an ultra-wide viewing angle, which means that you can view them from a wide range of angles without experiencing color distortion.

The big downside of TN panels is their response time. Most TN panels have a response time of 5-8 MS, which is fine for most people. However, if you"re mostly into competitive gaming or fast-paced action games like me that require quick reflexes, then this could be a problem.

We did some research and came up with a list of the best monitors with VA panels, and they are;ViewSonic VX2457-MHD. It is a24-inch monitor with a 1920 x 1080 resolution and covers 100% of the sRGB spectrum. It also has plenty of picture-enhancing features, including adjustable color settings and support for AMD"s FreeSync technology (see also affordable G Sync monitors).

This is the best LCD panel type. IPS stands for In-Plane Switching, and the biggest advantage over the other panels listed above is its wide viewing angles.

These screens are more expensive than TN panels but offer a greater contrast ratio, higher resolutions than their TN counterparts. They also support higher refresh rates, lower response time which makes them ideal for monitors larger than 24 inches.

These panels offer much more consistent colors, which makes them ideal for graphic designers or anyone who does any kind of color-critical work on their monitor.

IPS panels offer wider viewing angles than VA panels do, making them better suited for use in public spaces such as retail stores or airports where you can expect people will be walking by your TV from both sides.

They also have a high refresh rate. Newer models are now available with 120Hz or even 240Hz refresh rates. These are found chiefly on gaming monitors but will likely become more common in other types of monitors in the future.

The contrast ratio of an IPS panel is higher than that of TN panels. The contrast ratio of a display refers to the difference between the darkest black and the brightest white that the display is capable of producing. This can be an important factor in overall display quality, depending on how you use your laptop or desktop monitor.

Some manufacturers that specialize in IPS panel interphases include Samsung, LG, and even Mac Apple. Also, almost all Dell monitors use IPS panels. However, there are plenty of other high-quality manufacturers that also offer IPS panels for you to choose from.

In a liquid crystal display (LCD), light passes through a pair of polarizers. Each polarizer is made of a long chain of molecules, each oriented in a different direction; one vertical, the other horizontal.

When an electric current is applied to the liquid crystals, their long chains align with the directions of the polarizers. If both polarizers are vertical, no light will pass through. But if one polarizer is vertical and the other is horizontal, light can pass through.

In an IPS LCD panel, liquid crystals are aligned so that both polarizers face the same way—horizontal. Light from behind the panel passes through one polarizer and then bounces off onto a second polarizer before reaching your eyes. This design makes IPS LCDs nearly as bright as VA panels and much brighter than TN panels without sacrificing contrast ratio or color accuracy.

If you"re looking for a new monitor, IPS panels may be the right ones for you. Here are some of their most important benefits:It allows for wider viewing angles. This is very useful for monitors used at work that involve customer service, where the monitor may be viewed from many different angles.

The IPS LCD displays are also characterized by their high degree of brightness and contrast, which makes them ideal for outdoor use, among many other features.

The typical lifespan of an IPS panel is around 100,000 hours, which is more than enough for even heavy users to get their money"s worth from their monitor.

They"re thin and lightweight which makes them ideal to serve as portable monitors. A major benefit of IPS monitors is that they"re easy to carry around because they"re so thin; they’re also easy to pack up in a bag when you"re traveling or moving from place to place.

They have great color reproduction. Many people who are serious about a photo or video editing are drawn to IPS panels because they offer superior color reproduction possibilities when compared with TN panels.

The main disadvantage of IPS panels is that they are more expensive than TN panels. The cost of an IPS panel will typically be $10-$20 higher than a comparable TN panel.

Today, the majority of flat-panel monitors use in-plane switching (IPS) technology. Best monitors that have IPS panels include;Samsung U28E590D 28-Inch 4K UHD Monitor. If you love gaming, then this is the product for you; it comes with AMD FreeSync, which proved successful in eliminating screen tearing since being introduced as VSync, as this post explained.

Also, bear in mind that if it is a flat panel display with a 1080p resolution or higher, you can refurbish it and resell it after using it. Older monitors with lower resolutions may not be worth much.

It offers a much higher resolution than conventional LCD and can be used to manufacture large panels. It"s an innovative display technology that has the potential to change the face of consumer electronics.

There are 3 main types of LCDs; VA (Vertical Alignment), TN (Twisted Nematic), and IPS (In-Plane Switching). All these technologies have been used for over 10 years and have their own pros and cons. However, they have reached their upper limits in terms of resolution and other features, and it"s nearly impossible to increase them any further. That"s where Super PLS-Plane to Line Switching comes in.

Super PLS-Plane to Line Switching offers resolutions as high as 8K, has wider viewing angles, and is brighter. The image quality presented by this technology is said to be much better than traditional LCDs, and it could potentially disrupt the current.

The Nano IPS panel technology adds a layer of nano-particles to the backlight in order to transmit the screen"s picture more efficiently and reduce the chances of image retention.

The nano-particles increase the amount of light that is transmitted through each pixel, improving the overall brightness and color accuracy of the display. This means that great image quality can be achieved at lower backlight levels.

Advanced Hyper-Viewing Angle (AHVA) computer display was developed by AU Optronics Corp. It is a type of LCD that can be seen clearly even from the most acute angles. Through the process of strengthening the polarizing plate, it can help minimize the reflection ratio to less than 1%. The viewing angle is about 178 degrees.

AHVA also provides a greater range of colors which makes images appear to pop off the screen. And it gives better performance outdoors, so you get a great view no matter whether it"s sunny or cloudy.

Computer monitors produce a lot of blue light, which isvery bad for your eyes. Why? Because blue light has the highest energy and the shortest wavelength in the visible light spectrum. If you stare at a computer screen for hours each day, you"re exposed to a lot of blue light, and that can be very harmful to your eyes. For programmers, for example, who spend a lot of time under artificial light, to have the best eye care technology is crucial to keep focus on the job.

Most LCDs (liquid crystal display) monitors are now manufactured with an anti-glare coating to reduce the effect of ambient light reflecting off the screen. Anti-glare coatings can reduce reflections by 25 to 70%.

VA panel is better thank IPS. Although IPS panels have a contrast ratio of 700:1 to 1500:1, they are still inferior to VA panels. The majority of VA monitor panels have contrast ratios above 2500:1, and some even reach 5000:1 or 6000:1. Even local dimming is used by more recent monitors to obtain even greater contrast ratios.

Yes, IPS is better than OLED. The main benefit of IPS panels is their increased brightness, particularly when combined with a tiny LED backlight. OLED displays are often limited to brightness levels of roughly 1,000 nits, while mini LED displays can reach peak brightness levels of around 2,000 nits.

While there are many different manufacturers of LCD monitors, the panels themselves are actually only manufactured by a relatively small selection of companies. The three main manufacturers tend to be Samsung, AU Optronics and LG.Display (previously LG.Philips), but there are also a range of other companies like Innolux and CPT which are used widely in the market. Below is a database of all the current panel modules manufactured in each size. These show the module number along with important information including panel technology and a detailed spec. This should provide a detailed list of panels used, and can give you some insight into what is used in any given LCD display.

Note:These are taken from manufacturer product documentation and panel resource websites. Specs are up to date to the best of our knowledge, and new panels will be added as and when they are produced. Where gaps are present, the detail is unknown or not listed in documentation. The colour depth specs are taken from the manufacturer, and so where they specify FRC and 8-bit etc, this is their listing. Absence of such in the table below does not necessarily mean they aren’t using FRC etc, just that this is how the manufacturer lists the spec on their site.

45LG.DisplayOLEDLW450CWQ-ARG13440 x 14400.03ms1.5 million:11000 peak178/1781.07b (10-bit)98.5% DCI-P3OLED240Hz21:9Bendable up to 800ROLED, bendableLate 2022

... glands. All versions have a smooth, seamless display surface for perfect cleanability. Its IP69K protection makes the new monitor also suited for washdown applications like high-pressure cleaning.

... and dusty conditions. Plus, the protective glass serves to protect the display against sharp foreign objects, meaning the screen is still operable even with scratches on the surface.

VisuNet FLX is, as its name suggests, a comprehensive range of highly flexible operator workstations and monitoring systems from Pepperl+Fuchs for ATEX/IECEx Zone 2/22 and Division 2, and non-hazardous areas. The new ...

The C6 AMM monitor offers customized designs for industrial applications. The configurable monitor system has up to eight freely-definable operating and/or signal elements in a completely sealed housing ...

... with a complete digital advertising solution. The wall-mounted outdoor display combines a high-bright screen with a weatherproof body. The 1,500 NITS screen captures attention, and auto-dimming keeps ...

... engaging digital signage in any weather. The high-brightness LCD screen keeps your content clear in direct sunlight, for maximum customer engagement. An IP54/NEMA 4 enclosure protects the screen ...

... turn-key system solutions in a stainless steel enclosure as wall, floor or ceiling mounting versions. The screen of the POLARIS Remote 15"" is a TFT display with an XGA resolution (1024 x 768 pixels) ...

... the main display for applications requiring a small screen. End-cap shelf displays in retail settings or as personal gaming screens as part of a larger interactive gaming table benefit from the features and design of ...

Series of professional range industrial touch monitors. Different measures 17” / 17.3” / 19.1” / 21.5”. Frontal with IP65 Dust and water proof with capacitive touch. Panel mounting system or VESA. 7mm aluminum alloy front ...

Series of professional range IP65 industrial touch monitors for outdoor use or direct sunlight. Different measures 17” / 17.3” / 19.1” / 21.5”. 7H hardness tempered glass, optical bonding and UV protection. 7mm aluminum ...

... 60601-1 medical certification standards and is used in consultation rooms in medical environments. The medical-grade touch monitor works with gloves and has IP65 dust- and waterproof front panel.

An LCD monitor is a flat screen using liquid crystal technology to create the display. It is used in place of CRT (cathode ray tube) monitors to display all types of verbal or graphic information.

These monitors are used wherever displays are necessary, including numerical control screens for machine tools, human-machine interfaces (HMI) or simply as industrial computer screens.

LCD monitors are among those that control the transmission or reflection of a separate light source rather than generating their own. The various technologies include twisted nematic (TN), super twisted nematic (STN), film compensated super twisted nematic (FSTN) and thin film transistor (TFT).

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

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

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

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

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

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

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

Truly Semiconductors is a wholly owned subsidiary of the Hong Kong-listed company Truly International Holdings. Founded in 1991, and headquartered in Hong Kong, the company’s production base is located in the beautiful coastal city of Shanwei City in Guangdong Province, China.

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

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

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

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

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

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

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

In 2002, it signed an IPS patent authorization contract with Hitachi of Japan and started to plan a 5th-generation plant to make the product line more complete and meet the needs of different customers.

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

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

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

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

The company opened its first production line – a 4.5-generation low-temperature polysilicon (LTPS) AMOLED mass production line – in 2014, which started mass producing AMOLED displays in November 2014.