tft lcd ips tn pricelist

TFT LCD display is the general category that includes TFT display panels, MCU TFT displays, Arduino TFT displays, Raspberry Pi TFT displays, HDMI TFT displays, IPS TFT displays, VGA TFT displays, and embedded TFT displays.

TFT LCD panel means TFT LCD glass with LCD controller or LCD driver and backlight, with or without touch panel. Orient Display provides broad range products with the most competitive TFT LCD Panel Price by working with the most renowned TFT panel glass manufacturers, like AUO, Innolux, BOE, LG, Sharp etc.

Orient Display offers a range of small to mid to large size TFT LCDs. Our standard products for TFT screens start at 1” in diagonal size and up to 7 inches and to 32 inches. Orient Display TFT displays meet the needs for applications such as automotive, white goods, smart homes, telecommunications industrial, medical, and consumer devices.

Orient Display not only provides many standard small size OLEDs, TN or IPS Arduino TFT displays, but also custom made solutions with larger size displays or even with capacitive touch panels.

If you have any questions about Orient Display TFT LCD displays or if you can’t find a suitable product on our website. Please feel free to contact our engineers for details.

Take your design to the next level with our range of TFT Displays including latest IPS TFT, circular and bar shape as well as large size TFT. With or without touch, these are fully customisable to your system requirements.

TFT-LCD technology is now fairly mature. As a result, manufacturing processes are efficient and production yields are high, leading to very competitive unit prices. Upgrading from a monochrome display to a TFT is now an affordable way to give your product an uplift.

Users of industrial display devices are wanting the same experience they have come to expect from a consumer device with all-round viewing angles. Switching to a superior IPS TFT display has become very cost effective as production increases and unit prices decrease.

Choosing a circular display for your next product design could really set you apart from your competition. Models are available from 1" to 4.2"in TFT, PMOLED and AMOLED, we have something to suit every application.

Large TFT display systems are increasingly being used for transportation information, retail signage and vending machines and kiosks. We can supply a large range of TFT solutions up to 65" diameter and in bar-style, square or rectangular configurations.

Anders have partnered with world leading brand Kastus®to offer a globally patentedantimicrobial & antiviralsurface coating which has a proven kill rate of up to 99.99% against harmful bacteria, fungi and antibiotic-resistant superbugs, which makes it particularly useful for products including glass and ceramics. This year, an independent testing report found Kastus to be effective against human Coronavirus on screens.

We are now offering increasing cover lens customisation options and processes to make your TFT LCD user interface truly stand out! Anders’ experienced marketers and engineers work with our manufacturing partners around the world to keep informed of the latest innovations, including mirrored glass,tinted glass, spot-facing, three dimension glass, and many more!

See below our range of TFT Displayswith sizes ranging from0.96" to 64.5" and including circular and bar type shape. All our displays can be tailored to suit your application antimicrobial coating technology,

A TFT display is a form of Liquid Crystal Display with 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.

Compare IPS vs TFT displays - the TFT display is the display of choice for industrial designs, but it can have its limitations. A newer technology called IPS (in plane switching) offers better viewing angles and colours, but is it really the best choice - we discuss benefits and negatives of both types of TFT display.

A TN-TFT display is a type 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.

TFT-LCD technology is now fairly mature. As a result, manufacturing processes are efficient and production yields are high, leading to very competitive unit prices. Upgrading from a monochrome display to a TFT is now an affordable way to give your product an uplift.

With ever increasing pressure in all of our lives, having easy to use and reliable home appliances plays a key role in easing those stresses. A cost effective colour TFT display is ideal for demanding user expectations, available in a variety of shapes and sizes..

Residential and commercial metering solutions are changing from monochrome to colour with a TN-TFT display offering an ideal cost effective solution to give your product the uplift it deserves. We can optimise these to suit your application including mechanical integration, coverlens design and backlight enhancements.

TN-TFT Displays are ideal for medical and personal healthcare devices. Both low power consumption and low cost solutions, they are available with wide viewing angles for challenging medical situations where the user may be at an acute angle to the device.

By far the most common types of display panels used on PC monitors are TN, IPS and VA. We"re sure you"ve heard these terms before if you"ve researched monitors to purchase, and to be clear, the type of panel is a key piece of information that reveals a lot about how the monitor will behave and perform.

TN is the oldest of the LCD technologies and it stands for twisted nematic. This refers to the twisted nematic effect, which is an effect that allows liquid crystal molecules to be controlled with voltage. While the actual workings of a TN-effect LCD are a little more complicated, essentially the TN-effect is used to change the alignment of liquid crystals when a voltage is applied. When there is no voltage, so the crystal is "off," the liquid crystal molecules are twisted 90 degrees and in combination with polarization layers, allow light to pass through. Then when a voltage is applied, these crystals are essentially untwisted, blocking light.

VA, stands for vertical alignment. As the name suggests, this technology uses vertically aligned liquid crystals which tilt when a voltage is applied to let light pass through. This is the key difference between IPS and VA: with VA, the crystals are perpendicular to the substrates, while with IPS they are parallel. There are several VA variants, including Samsung"s SVA and AU Optronics AMVA.

IPS stands for in-plane switching and, like all LCDs, it too uses voltage to control the alignment of liquid crystals. However unlike with TN, IPS LCDs use a different crystal orientation, one where the crystals are parallel to the glass substrates, hence the term "in plane". Rather than "twisting" the crystals to modify the amount of light let through, IPS crystals are essentially rotated, which has a range of benefits.

There are many IPS variants on the market, with each of the three big LCD manufacturers using a different term to describe their IPS-type technology. LG simply calls their tech "IPS" which is easy for everyone. Samsung uses the term PLS or plane-to-line switching, while AU Optronics uses the term AHVA or advanced hyper viewing angle. AHVA shouldn"t be confused with regular VA displays, it"s an annoying and confusing name in my opinion, but AHVA is an IPS-like technology. Each of LG"s IPS, Samsung"s PLS and AUO"s AHVA are slightly different but the fundamentals are rooted in IPS.

So in summary, TN panels twist, IPS panels use a parallel alignment and rotate, while VA panels use a vertical alignment and tilt. Now let"s get into some of the performance characteristics and explore how each of the technologies differ and in general, which technology is better in any given category.

By far the biggest difference between the three technologies is in viewing angles. TN panels have the weakest viewing angles, with significant shift to color and contrast in both the horizontal and especially vertical directions. Typically viewing angles are rated as 170/160 but realistically you"ll get pretty bad shifts when viewing anywhere except for dead center. Higher-end TNs tend to be somewhat better but overall this is a big weakness for TNs.

VA and IPS panels are both significantly better, with IPS being the best overall for viewing angles. 178/178 viewing angle ratings are a realistic reflection of what you can expect with an IPS, you won"t get much shift in colors or contrast from any angle. VAs are good in this regard but not as good as IPS, mostly due to contrast shifts at off-center angles. With VAs and especially TNs having some color and contrast shifts when viewing at angles, they"re not as well suited to color-critical professional work as IPS panels, which is why you see most pro-grade monitors sticking to IPS.

In terms of brightness there"s no inherent differences between the technologies because the backlight, which determines brightness, is separate to the liquid crystal panel. However there are significant differences to contrast ratios, and this an area most people look at when determining which panel type they want.

Both TN and IPS panels tend to have a contrast ratio around 1000:1, although in my testing I have noted some differences. TN panels tend to have the lowest contrast ratios when calibrated, with an entry-level panel sitting between 700:1 and 900:1 and good panels pushing up to that 1000:1 mark. IPS has a larger range, I"ve seen some as low as 700:1 like TNs, however the very best tend to push up higher than TN, with 1200:1 as the upper range for desktop monitors and some laptop-grade displays reaching as high as 1500:1.

Neither TN nor IPS get to the range of VA though. Entry-level VA panels start with a contrast ratio of 2000:1 from those that we"ve tested, with the best easily exceeding 4500:1, although 3000:1 is a typical figure for most monitors.

While IPS panels tend to be a middle ground for contrast they do suffer from a phenomenon called "IPS glow," which is an apparent white glow when viewing dark imagery at an angle. The best panels exhibit minimal glow but it"s still an issue across all displays of this type.

Color quality is another difference many people cite between TN displays and other display panels in particular. And this can be split into two categories: color depth or bit depth, and color gamut.

In both of these regards, TN panels tend to fall on the weaker end of the scale. Many TN displays, in particular entry-level models, are only natively 6-bit and use frame rate control, otherwise called FRC or dithering, to achieve standard 8-bit output. 6-bit panels are prone to color banding, while native 8-bit panels have smoother color gradients and therefore better color output.

Not all TN panels are 6-bit. The top-end TNs are native 8-bit, but it"s safe to say most TNs will only be native 6-bit, even today. If you are after a native 8-bit display, you"ll need to go with either IPS or VA, where many more panels come native 8-bit.

As for native true 10-bit, typically you"ll need to look for an IPS panel, which make up the majority of native 10-bit panels. Some VA panels can do it, but they are rare. Most displays you purchase that claim to be 10-bit, are actually 8-bit+FRC, with only high-end professional-grade monitors offering a native 10-bit experience.

This is another area where VA and IPS provide a superior experience. The best TN panels tend to be limited to sRGB, or in the case of the worst entry-level panels, don"t even cover the entirety of the sRGB gamut. Wide-gamut TN panels do exist, but they are rare.

With IPS panels, there is the largest variance. Entry-level IPS displays tend to offer 95% sRGB coverage or less, while the majority stick to full sRGB coverage. Then with high-end displays, usually for professionals, it"s not unusual to see full DCI-P3 and Adobe RGB coverage. Of all the wide gamut IPS displays I"ve tested, the lowest DCI-P3 coverage I"ve seen has been 93%, with over 95% a typical figure. This makes IPS the best technology for wide gamut work.

Throughout most of this discussion we"ve been talking about TN as the worst of the three technologies. So far, it has the worst color reproduction, contrast ratios and viewing angles. But it does have one key advantage, and that comes in the form of speed. TN panels have historically been the best for both refresh rates and response times, however that trend is slowly changing for the better.

Not long ago, we argued that only with a TN panel it was possible to hit 240 Hz, doing so at 1080p and later up to 1440p. Most recently, however we"ve seen IPS monitors hit the highest mark ever for a consumer-grade gaming monitor at 360Hz, and do so very convincingly. We"re sure other monitors will follow but as of writing, the Asus ROG Swift PG259QN can deliver both the fastest response times and an accurate color experience using an IPS panel.

More mainstream monitors using IPS panels tend to range from the regular 60Hz for productivity, up to 165 Hz and 240 Hz depending on the market they"re aimed at. VA panels top out at around 240 Hz at the moment.

Most IPS displays, especially high-grade options for professionals, as well as entry-level office monitors, are either 60 or 75 Hz. Meanwhile, a significantly larger number of VA panels across a wider range of sizes and resolutions are high-refresh, while the big selling point of TN is its super high refresh capabilities.

Another major consideration is response times, which govern the level of ghosting, smearing and overall clarity of a panel. Early IPS and VA panels were very slow, however this has improved a lot with modern panels, so the differences between the three technologies aren"t as pronounced as they once were. TN still holds an advantage here.

Most TN panels have a rated transition time of 1ms, or even lower with some recent releases. Actual grey to grey averages we"ve measured for TN panels tend to be in the 2-3 ms range when overdrive is factored in, which makes TN the fastest technology.

IPS panels are next in terms of speed, though as tends to be the case with IPS, there is a wide variance between the best and worst of this type. High-end IPS monitors, typically those with high refresh rates, can have a transition time as fast as 3ms. Compared to the best TN panels, this still makes IPS slower. However entry-level IPS panels or those without overdrive sit closer to the 10ms range, while mid-tier options tend to occupy the 5 to 7 ms bracket.

VA panels are consistently the slowest of the three types, but again, high-end gaming monitors have been pushing this further on every generation. The absolute fastest VA panel we"ve measured so far has a 4ms response time which is very impressive, though more typical numbers are between 8 and 10 ms for gaming monitors. VA panels also tend to be less consistent with their transitions; some individual transitions can be fast, while others very slow, whereas IPS panels tend to hover more around their overall grey to grey average.

While a lot of people are unlikely to spot the difference between an 8ms VA panel and a 5ms IPS, TN panels overall tend to be noticeably clearer in motion, but that gap is closing with every generation. The slowness of VA panels also limits their real world refresh rate: a 144 Hz panel that only manages a 9ms response time, is actually delivering an image most equivalent to a 110 Hz panel. Whereas most 144 Hz IPS panels can transition faster than the 6.94ms refresh window, leading to a true 144 Hz experience. So that"s something to consider.

As a quick summary, TN panels are the fastest and have the highest refresh rates, however they have the worst viewing angles by far, as well as weak color performance and typically the lowest contrast ratios. TNs are typically used for ultra-fast gaming displays, as well as budget class displays, for both desktop monitors and laptops.

IPS is a middle-ground technology. They typically have the best color performance and viewing angles, mid-tier response times and refresh rates, along with mid-tier black levels and contrast ratios. Due to its top-end color output, IPS panels are the go-to choice for professionals, but you"ll also find them in entry-level displays, office monitors, most laptops and a handful of gaming monitors.

VA panels are the slowest of the three, but have the best contrast ratio and black levels by far. Color performance isn"t quite at the level of IPS, but they still offer a significantly better experience than TN in this regard.

With response times for the best modern VAs approaching the level of a typical IPS, along with broad support for high refresh rates, VA monitors are commonly used for gaming monitors. Entry-level VAs also tend to be superior to entry-level TN and IPS panels, though you won"t find VA used in laptops.

There"s no right answer to which monitor technology is best, because all have their strengths and weaknesses which is why all three coexist on the market today. However if you want our recommendation, we tend to gravitate towards VA panels for most buyers, especially gamers and those after something entry-level. Creative professionals should be looking exclusively at IPS monitors, while those after something dirt cheap or ultra high refresh for competitive gaming should opt for TN, although superior latest-gen IPS and VA offerings are finally matching or even beating the best of TN in some regards.

With so many companies in the market churning out newer and newer gaming monitors, shopping for LCD monitors can be confusing. Not only is there a lot of marketing noise out there today, but there are also debates on what panel/monitor type is the best?

When it comes to buying either a TV for home or a monitor for your office or a display for that gaming setup in your basement, things can be distilled down to usage and based on that; you can compare what different panels have to offer and how they will suit you. In this article, we will be having a quick look at the three most commonly used panels – TN, IPS and VA and helping you understand what they have to offer, and what they can be best used for. But first, a basic run on what an LCD is.

The major drawback of the CRT (cathode ray tube) technology was that it occupied quite a significant amount of space. The CRT displays worked on the principle of ‘light emission’ and they consumed a lot of power, which just added up to the size issue. The solution to these problems came in technological research on developing a screen that consumes less power (hence, increasing productivity), and which was smaller. Lit using fluorescent tubes, LCDs (liquid crystal displays) consume less power, are way thinner than the CRTs, and work on the principle of ‘blocking light’ rather than emitting it.

LCDs are made from a passive/active matrix grid made of conductors, the latter called as thin film display (or a TFT). Pixels are mounted on this grid at each intersection (and an active matrix has a transistor located at each pixel intersection). This network structure controls a pixel’s luminance and consuming a little amount of current. This ability leaves us with a choice to switch the current on and off more often on the grid, and this leads to a high ‘refresh rate.’ And a high refresh rate means a ‘smoother’ operation.

Developments in these screen types lead to LED TVs. The main difference between these and the LCDs is that they are lit using Light Emitting Diodes instead of fluorescent tubes. So technically, a LED display is a ‘LED backlit LCD screen.’

This LED backlighting helps in enhancing the color contrast and it consumes less power as compared to fluorescent tube lit panels. It significantly improves the overall picture quality by tapping into a wider RGB color range, and there is a better brightness achieved which allows you to see the images clearly, even in well-lit environments. On top of these things, LED backlit displays to consume less power and are lightweight too. So there are no drawbacks of this technology as such, resulting in backlighting being used in more and more panels every day. Today, we have three types of backlighting: White Edge, Full LED array, and Local Dimming LEDs.

This information, however not essential for everyone to know, is a good bit for panel enthusiasts and pro gamers, as having a high refresh rate depends on the panel’s build and it’s resolution. Now, let’s go ahead and have a look at the three most commonly used panels on these LCD monitors – TN, IPS, and VA.

The most common LCDs are based on TN (Twisted Nematic) panel designs. Manufactured on a vast scale and pretty cheap, TN displays can be found in most homes. Primarily made for supporting low response times, TN panels remain to this day, a cheaper option for gamers who want a massive resolution with a low response time and a high refresh rate. Not to say that the IPS panels don’t have these features, but an IPS panel with the same features as a TN (1ms response time, QHD resolution and a 144Hz refresh rate for example) will always be more expensive. However, while the price is good with the TN, the color quality and viewing angles take a toll. They are the drawbacks of a TN panel when compared to other panels out there.

TN displays, (TFT-LCDs for example), work by passing light through two polarized screens, a color filter and liquid crystals that tend to twist and block light in correspondence of the current applied to them. This type of an arrangement leaves a lot in your hands as you can change the amount of current applied to adjust the crystal twists. Hence, you can achieve virtually any color or shade reproduced on the screen. But while precise adjustments are possible with a TN display, there are some drawbacks to this structure.

Every LCD’s pixel is constructed using some red, green and blue sub-pixels. Colors and shades are produced by mixing different brightness levels for these pixels that result in the perception of a particular solid color by the user’s eyes. The problem with TN panels comes from its adoption of a 6-bit per channel model, which outputs 64 shades per color, instead of the 8-bit per channel, 256 shades implementation. Needless to say, color accuracy takes a toll here. And while the TN compensates for this issue with ‘dithering,’ (using alternating colors to produce a certain perceived shade) it is still a poor substitute for 24-bit color reproduction. On top of that, narrow viewing angles don’t help the case, as there is a ‘washout’ produced that puts TN panels at a low level concerning color accuracy.

But if your main concern is not the aesthetics of the performance, but the performance itself, TN LCD screens reign supreme over other panel types because of providing us low response times and high refresh rates on a budget.

TN panel displays have very fast GTG pixel response times that are usually well under the typical 5ms TFT-LCD average. This makes these displays a good choice for competitive gamers who are willing to sacrifice some color accuracy and viewing angles for great performance at a good price.

In-Plane-Switching, or IPS, was designed to overcome the shortcomings of a Twisted Nematic panel and they are replacing TN panels. These panels also use polarized filters, liquid crystals, and transmitters. However, in this case, the arrangement is different. The liquid crystals in an IPS panel design are aligned in a way that allows less light to distort and achieves better color visibility. Additionally, IPS panels use 8-bits of depth per color unlike TN’s 6-bit, which results in a wider 256 shades spectrum. This takes care of the color accuracy problem.

The second thing that is improved in IPS panels is the range of viewing angles. While Twisted Nematic panel displays ‘washed out’ at shallow angles, IPS displays have rich colors that don’t shift/fade when viewed from side angles. One other significant improvement of the IPS screen was that there were no trailing distortions when you touched them. This made them ideal for Touch-screen applications.

While marketed as the best of the best, IPS screens have some drawbacks of their own. The major one happens to be the cost. The construction of IPS panels requires a greater number of transmitters and lighting for each pixel. Now, the higher the resolution of the constructed panel will be, the greater number of pixels will be mounted on the panel. This results in a complex architecture, and they cost more than their TN counterparts. However, with the rising competition in the market, the prices of IPS panels have come down from expensive to reasonable, and you can get a decent IPS display for a few hundred dollars. However, the more you want from your monitor as a consumer, the more pricey it will become. This leaves high-end IPS monitors most commonly found at the desks of editing professionals and competitive gamers – people who want a lot of color accuracy and detailing along with decent speed and longevity.

IPS’s complex technology introduced some additional overhead that reduced the responsiveness of these panels. For quite some time, these panels clocked in around 8ms grey-to-grey. However, due to the popularity of these panels, response times, as well as refresh rates, have been improved quite a lot (the majority averaging at 60Hz)- at the cost of bigger price tags, of course.

Today, many variants of the IPS also exist, like Samsung’s popular PLS (plane line switching) panels. These variants are not entirely different from IPS, though there are subtle ‘generational improvements’ like enhancements in viewing angles, brightness and whatnot. LG also has a variation to the IPS, called as the eIPS, which is basically a IPS panel you can get on a budget. However, in real world use, the usage experience varies by a little factor.

VA (Vertical Alignment) panel technology sits between the high speeds of TN and the color richness of IPS panels. Constructed implementing IPS’s 8-bit color depth per channel approach (that has a crystal design capable of reproducing rich colors), VA (and its variants) also retain some of the low latency of TN panels. This results in a display that is ‘almost’ as fast as TN and as colorful as IPS.

Often reaching 5000:1, VN panels have a superior contrast as compared to both IPS and TN screens, and this remains the highlight among other features. These panels reproduce better black levels than TN or IPS. However, there are more issues with VA panels today than there are advantages, and some of these issues can’t be ignored.

First on the list of cons is the color (and contrast) shift that happens when we view media from a wide angle. And while the viewing angles of VA panels are wider than TN, the shift is similar to a TN panel and renders most VA panels ‘not ideal’ for tasks that require a great amount of color accuracy. When it comes to gaming, there’s another issue. VA panels offer rapid light-to-dark pixel transitions. However, darker color shifts aren’t as speedy, and it can lead to blurring during high-performance tasks.

Just like there are variants of IPS, VA panels also have their own. To put it simply, they progressed from 1998 to 2005 (and beyond) from MVA, AMVA to AMVA+. MVA or Multi-domain Vertical Alignment technology first came out in 1998 and provided a 25ms response time with 160-170 degree viewing angles. This was, of course, a lot of value at the time. Today, these panels can be found as AMVA (Advanced MVA) in many displays, and they offer a contrast ratio as high as 5000:1 (which is the best contrast ratio in LCD technology), and QHD (2560 x 1440p) resolution at a wide screen size like 32 inches. So again, a lot of value here as well. After that, we have the AMVA+ which had improved viewing angles on the standard AMVA.

So in a nutshell, while VA panels are much better than average TN panels regarding color reproduction, they are still not good enough if you were to switch to premium TN panels oriented for gaming purposes. And when it comes to IPS panels, they dominate the list but with one disadvantage – price. If we were to talk about performance, high-end IPS panels reign over all else, with response times as low as 1ms, 144Hz refresh rates and supporting resolutions all the way up to 4K and 5K. If, however, you want to talk ‘value for money,’ TN panels give you decent colors and speed at decent rates. And if you have some more money in your pocket after selecting a TN panel of certain specifications, you can look for a VA panel that will offer you some added color quality and viewing angles. It’s all about comparison here, and understanding the fundamentals of these panels is a good starting point.

If you"re in the market for a new gaming monitor, you"re going to brush up against three distinct types of displays that all come with their own pros and cons. We"re here to break down exactly what you need to know about TN, IPS, and VA panels and help you make the right choice for your exact gaming needs.

There are three display panel types that cover most gaming monitors (cutting-edge technology like mini-LED and OLED are coming, but we won"t cover that here). TN (twisted nematic), IPS (in-plane switching), and VA (vertical alignment) all use the same technology at their core--molecules that react according to different voltages to move and produce an image--but their differences and evolutions have made each one good for specific use cases.

TN panels have the worst viewing angles of the three, with colors able to drastically shift from even slight angles off the center of the display. TN also has the worst color coverage, with the inability to show a high color depth and producing noticeable banding due to interpolation. Contrast ratios are also poor, with the overall image looking washed out compared to IPS and VA.

So, if TN is this poor, why is it still on the market? For one, TN panels are incredibly cheap, which is why you"ll often find them in budget gaming monitors that can still deliver a good, if not great, image. TN is also still the fastest panel type on the market, with pixel response times (the time it takes for a pixel to change color) as fast as 1ms. While IPS and VA panels have managed to get there, they often make use of methods that lead to other issues (such as smearing or inverted ghosting), which keeps TN panels relevant for speed.

For that reason, TN panels are ideal for competitive gaming, especially in the realm of esports where response time is much more important than image quality. If you"re primarily playing Counter-Strike: Global Offensive, Fortnite, or Call of Duty: Warzone, you"ll probably benefit the most from a TN monitor if all you care about is securing those wins. Plus, you"ll save a bunch of money in the process.

On the other end of the spectrum is IPS, or in-plane switching. Although many manufacturers use IPS displays now, the term was initially coined by LG and used exclusively by the company. Nowadays, though, it"s not uncommon to see the likes of Dell, Asus, and AOC producing IPS displays.

In the past, one of the biggest compromises you had to make with IPS displays was pixel response time and refresh rate, but as the technology has evolved it has managed to shake these off. You can now find IPS displays with refresh rates well into the 240Hz range, with response times matching that of the 1ms on TN. You"ll pay a premium for that, with most high-end displays on the market featuring these specs, but it"s also possible to enjoy some of the benefits with cheaper IPS products. You might get a response time closer to 4ms and maybe a limited refresh rate ranging from 60-144Hz, but if you care about what your games look like then it"s a massive step up from TN.

One big disadvantage across the board with IPS panels are their poor contrast ratios, making them worse options for dark rooms than VA. It can make dark areas in games look more milky grey than black, made worse by the uneven backlighting that can be viewed at different angles (also known as IPS glow). The color reproduction is still the best it can be on an IPS display, but if you mostly play games at night or in a dim room, you might want to consider a VA panel.

Speaking of VA (vertical alignment) panels, there"s a reason the majority of LCD TVs use this panel type. It"s the jack-of-all-trades panel, with better color reproduction than TN panels as well as a much better contrast ratio compared to IPS. VA panels, depending on the overall display specs, can also be cheaper than IPS panels in most cases, occupying a good middle ground between performance and price that is difficult to argue against.

One area where VA truly excels is contrast. It"s a night-and-day difference compared to IPS, with VA panels able to produce far inkier blacks and really accentuate dark areas in games, especially when you"re playing in a dim environment. This is one of the strongest reasons for owning a VA panel, especially if the "IPS glow" really bothers you. You do, however, lose out on the wider viewing angles that IPS offers.

One issue with VA is its response times, like IPS. It can reach 1ms in very specific cases, but this often leads to a lot of smearing or inverse ghosting (where ghost trails behind shifting pixels have colors inverted), which make the gains moot. On average, a VA panel will have worse smearing at the same pixel response times when compared to an IPS panel, primarily down to how the vertical alignment of the molecules in the display function. It"s something you might notice when playing at very high refresh rates and in fast-paced games, but it"s also something that a lot of people don"t have an issue with at all.

If getting the fastest response times and highest frame rates possible is crucial to your gaming, there"s no question that a TN panel is still your best option. Competitive gamers who benefit from the fractions of a second that a pixel can take to update will find no corners cut on any TN panel out there, and they"ll benefit from the high refresh rates most offer.

Similarly, if you"re on a very tight budget and you"re looking for the right monitor to accompany a machine built for games like League of Legends, Dota 2, or Fortnite, then choosing a TN panel could help you put more money toward the hardware that powers your games instead. You"ll be missing out on the better color reproduction that TN lacks, but if you"re just planning to play games casually and not take in their sights, then you can save yourself a lot of money.

If single-player games are mostly what you use your PC for and you"re strictly keeping it for recreational use, then it"s difficult to argue against a VA panel. It"s a considerable step up from TN and will let you enjoy your games with visuals as their designers intended. The deep blacks will let you immerse yourself in moody atmospheres, while the cheaper prices could afford you the ability to get a bigger monitor with a decently high refresh rate.

If you"re looking for a monitor that can do it all, there"s nothing beating out an IPS panel. Many new monitors feature the more advanced fast IPS panels, which remove many of the compromises you used to have to make with regards to pixel response times and high refresh rates.

The viewing angles, the color reproduction, and the overall experience of an IPS panel just can"t be beat right now, making it the perfect accompaniment to a high-powered gaming PC, console, or workstation. They"re accurate enough for some professional work, whether you"re color-correcting photos or videos, and fast enough to keep up with your favorite competitive games or engrossing single-player adventures.

IPS panels are also ideal for local multiplayer gaming with their wide viewing angles, but these come at the cost of good contrast ratios and potential backlight bleeding. If you"re only planning to play games in a dark environment, a VA might be better suited to your needs. But if you"re looking for a panel with the fewest compromises, it"s hard to argue against IPS.

We"ve highlighted some of our favorite monitors with each display panel type above, but if you"re looking for more options for well-priced displays, check out our guide to the best cheap gaming monitors on the market right now as well as the best monitors for PS5 and Xbox Series X. If monitors are just too small, we also have recommendations for the best 4K TVs for PS5 and Xbox Series X, some of which can also work well for PC gaming. If you’re looking for some more information on the types of monitors out there, we’ve got a list of the differences between LCD and LED Monitors. Let us know what your favorite displays are in the comments below.

If you’ve ever begun searching for a new computer screen, chances are you’ve probably come across the term IPS. It’s at this point that you may be asking yourself, what is an IPS monitor? And how do I know if an IPS monitor is right for me?

Below we’ll take a look at how IPS, TN, and VA monitors affect screen performance and do some handy summaries of strengths, weaknesses, and best-case uses for each type of panel technology.

IPS monitors or “In-Plane Switching” monitors, leverage liquid crystals aligned in parallel to produce rich colors. IPS panels are defined by the shifting patterns of their liquid crystals. These monitors were designed to overcome the limitations of TN panels. The liquid crystal’s ability to shift horizontally creates better viewing angles.

IPS monitors continue to be the display technology of choice for users that want color accuracy and consistency. IPS monitors are really great when it comes to color performance and super-wide viewing angles. The expansive viewing angles provided by IPS monitors help to deliver outstanding color when being viewed from different angles. One major differentiator between IPS monitors and TN monitors is that colors on an IPS monitor won’t shift when being viewed at an angle as drastically as they do on a TN monitor.

IPS monitor variations include S-IPS, H-IPS, e-IPS and P-IPS, and PLS (Plane-to-Line Switching), the latter being the latest iteration. Since these variations are all quite similar, they are all collectively referred to as “IPS-type” panels. They all claim to deliver the major benefits associated with IPS monitors – great color and ultra-wide viewing angles.

When it comes to color accuracy, IPS monitors surpass the performance of TN and VA monitors with ease. While latest-gen VA technologies offer comparative performance specs, pro users still claim that IPS monitors reign supreme in this regard.

Another important characteristic of IPS monitors is that they are able to support professional color space technologies, such as Adobe RGB. This is due to the fact that IPS monitors are able to offer more displayable colors, which help improve color accuracy.

In the past, response time and contrast were the initial weakness of IPS technology. Nowadays, however, IPS monitor response times have advanced to the point where they are even capable of satisfying gamers, thus resulting in a rising popularity in IPS monitors for gaming.

With regard to gaming, some criticisms IPS monitors include more visible motion blur coming as a result of slower response times, however the impact of motion blur will vary from user to user. In fact, mixed opinions about the “drawbacks” of IPS monitor for gaming can be found all across the web. Take this excerpt from one gaming technology writer for example: “As for pixel response, opinions vary. I personally think IPS panels are quick enough for almost all gaming. If your gaming life is absolutely and exclusively about hair-trigger shooters, OK, you’ll want the fastest response, lowest latency LCD monitor. And that means TN. For the rest of us, and certainly for those who place even a modicum of importance on the visual spectacle of games, I reckon IPS is clearly the best panel technology.” Read the full article here.

IPS monitors deliver ultra-wide 178-degree vertical and horizontal viewing angles. Graphic designers, CAD engineers, pro photographers, and video editors will benefit from using an IPS monitor. Many value the color benefits of IPS monitors and tech advances have improved IPS panel speed, contrast, and resolution. IPS monitors are more attractive than ever for general desktop work as well as many types of gaming. They’re even versatile enough to be used in different monitor styles, so if you’ve ever compared an ultrawide vs. dual monitor setup or considered the benefits of curved vs. flat monitors, chances are you’ve already come into contact with an IPS panel.

TN monitors, or “Twisted Nematic” monitors, are the oldest LCD panel types around. TN panels cost less than their IPS and VA counterparts and are a popular mainstream display technology for desktop and laptop displays.

Despite their lower perceived value, TN-based displays are the panel type preferred by competitive gamers. The reason for this is because TN panels can achieve a rapid response time and the fastest refresh rates on the market (like this 240Hz eSports monitor). To this effect, TN monitors are able to reduce blurring and screen tearing in fast-paced games when compared to an IPS or VA panel.

On the flip side, however, TN panel technology tends to be ill-suited for applications that benefit from wider viewing angles, higher contrast ratios, and better color accuracy. That being said, LED technology has helped shift the perspective and today’s LED-backlit TN models offer higher brightness along with better blacks and higher contrast ratios.

The greatest constraint of TN panel technology, however, is a narrower viewing angle as TN monitors experience more color shifting than other types of panels when being viewed at an angle.

Today’s maximum possible viewing angles are 178 degrees both horizontally and vertically (178º/178º), yet TN panels are limited to viewing angles of approximately 170 degrees horizontal and 160 degrees vertical (170º /160º).

In fact, TN monitor can sometimes be easily identified by the color distortion and contrast shifting that’s visible at the edges of the screen. As screen sizes increase, this issue becomes even more apparent as reduced color performance can even begin to be seen when viewing the screen from a dead-center position.

For general-purpose use, these shifts in color and contrast are often irrelevant and fade from conscious perception. However, this color variability makes TN monitors a poor choice for color-critical work like graphic design and photo editing. Graphic designers and other color-conscious users should also avoid TN displays due to their more limited range of color display compared to the other technologies.

TN monitors are the least expensive panel technology, making them ideal for cost-conscious businesses and consumers. In addition, TN monitors enjoy unmatched popularity with competitive gamers and other users who seek rapid graphics display.

Vertical alignment (VA) panel technology was developed to improve upon the drawbacks of TN. Current VA-based monitors offer muchhigher contrast, better color reproduction, and wider viewing angles than TN panels. Variations you may see include P-MVA, S-MVA, and AMVA (Advanced MVA).

These high-end VA-type monitors rival IPS monitors as the best panel technology for professional-level color-critical applications. One of the standout features of VA technology is that it is particularly good at blocking light from the backlight when it’s not needed. This enables VA panels to display deeper blacks and static contrast ratios of up to several times higher than the other LCD technologies. The benefit of this is that VA monitors with high contrast ratios can deliver intense blacks and richer colors.

There is another type of panel technology that differs from the monitor types discussed above and that is OLED or “Organic Light Emitting Diode” technology. OLEDs differ from LCDs because they use positively/negatively charged ions to light up every pixel individually, while LCDs use a backlight, which can create an unwanted glow. OLEDs avoid screen glow (and create darker blacks) by not using a backlight. One of the drawbacks of OLED technology is that it is usually pricier than any of the other types of technology explained.

When it comes to choosing the right LCD panel technology, there is no single right answer. Each of the three primary technologies offers distinct strengths and weaknesses. Looking at different features and specs helps you identify which monitor best fits your needs.

With the lowest cost and fastest response times, TN monitors are great for general use and gaming. VA monitor offers a step up for general use. Maxed-out viewing angles and high contrast ratios make VA monitors great for watching movies and image-intensive gaming.

IPS monitors offer the greatest range of color-related features and remain the gold standard for photo editing and color-critical pro uses. Greater availability and lower prices make IPS monitors a great fit for anyone who values outstanding image quality.

LCD or “Liquid Crystal Display” is a type of monitor panel that embraces thin layers of liquid crystals sandwiched between two layers of filters and electrodes.

While CRT monitors used to fire electrons against glass surfaces, LCD monitors operate using backlights and liquid crystals. The LCD panel is a flat sheet of material that contains layers of filters, glass, electrodes, liquid crystals, and a backlight. Polarized light (meaning only half of it shines through) is directed towards a rectangular grid of liquid crystals and beamed through.

Note: When searching for monitors you can be sure to come across the term “LED Panel” at some point or another. An LED panel is an LCD screen with an LED – (Light Emitting Diode) – backlight. LEDs provide a brighter light source while using much less energy. They also have the ability to produce white color, in addition to traditional RGB color, and are the panel type used in HDR monitors.

Early LCD panels used passive-matrix technology and were criticized for blurry imagery. The reason for this is because quick image changes require liquid crystals to change phase quickly and passive matrix technology was limited in terms of how quickly liquid crystals could change phase.

As a result, active-matrix technology was invented and transistors (TFTs) began being used to help liquid crystals retain their charge and change phase more quickly.

Thanks to active-matrix technology, LCD monitor panels were able to change images very quickly and the technology began being used by newer LCD panels.

If you’re interested in learning more about IPS monitors, you can take a look at some of these professional monitors to see if they would be the right fit for you.

Alternatively, if you’re into gaming and are in the market for TN panel these gaming monitor options may be along the lines of what you’re looking for.

While OLED panels produce true blacks and have an instantaneous pixel response time speed, you have to look out for image burn-in and retention. Moreover, OLED displays can’t get as bright as some high-end LED-backlit LCDs with IPS or VA panels.

IPS panels have a slower response time and lower contrast, which when combined with IPS glow and backlight bleed results in grayish blacks in comparison to that of OLED displays and an overall inferior viewing experience, but there’s no risk of burn-in.

With OLED prices steadily going down, you are probably wondering whether you should finally get one or stick with the old and trusted IPS technology. Here’s what you need to keep in mind when choosing between these panel types.

So, gamers who want a 27″ – 32″ 4K high refresh rate monitor, a 34″+ ultrawide, or a smaller ~24″ sized model with an OLED panel will have to wait until they (hopefully) become available at some point or opt for an IPS, TN or VA monitor instead.

The main advantage of IPS panels is that they can get much brighter, especially if they’re enhanced with a mini LED backlight. Some mini LED displays can reach over 2,000-nits of peak brightness for both small <10% window sizes and full-screen white windows, while OLED displays are usually limited to around 1,000-nits for small <5% window sizes and 150 to 250-nits for full-screen white windows.

1,000-nits is still enough to create punchy highlights under normal lighting conditions, but if you’re watching the screen in a particularly bright room, HDR content can appear underwhelming on OLED displays in comparison to mini LED LCDs.

Keep in mind that mini LED and FALD backlights aren’t exclusive to IPS technology. You can also find them paired with VA panels, which have a higher native contrast ratio for deeper blacks with less blooming, but not as wide viewing angles or as consistent colors as IPS.

Color gamut coverage of IPS and VA monitors varies from the standard 100% sRGB up to ~86% of Rec. 2020 coverage (172% relative sRGB gamut size) depending on the backlight.

With IPS displays, the response time performance varies from panel to panel. However, even the fastest IPS panel isn’t as quick as OLED, but as long as its pixels transitions can keep up with the refresh rate, gaming performance will be smooth.

However, because high refresh rates bring lower input lag, competitive and professional gamers will always aim for the fastest panel and there are IPS monitors with up to 390Hz! In 2023, we’ll also see the first 540Hz TN and 500Hz IPS panels!

Another advantage of OLED technology is that they look better when displaying a non-native resolution. So, if 4K is too demanding for your system, running a 4K OLED at 2560×1440 will look better than running the same resolution on a 4K IPS display.

Unlike LG’s W-OLED panels with a WBGR subpixel layout, QD-OLED doesn’t require white subpixels but relies on a blue self-luminescent layer that basically allows it to achieve higher brightness, wider color gamut and better burn-in resistance.

Both OLED and mini LED displays are finally becoming more affordable. The cheapest OLED can be found for ~$850 on sale, while mini LED IPS monitors start at $500 with the Cooler Master Tempest GP27Q.

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TN stands for twisted nematic. This is a type of LED (a form of LCD) panel display technology. TN panels are characterized as being the fastest and cheapest among the other main types of display panels, VA (vertical alignment)and IPS (in-plane switching). As such, they work great for gaming monitors and gaming laptops. However, TN panels also offer the worst viewing angles and color when compared to VA and IPS panels.

PerformanceFastest: low response times, highest refresh rates, minimal motion blur; Low input lagLongest response times typically; Higher refresh rates possibleSlower response times than TN, faster response times than VA; Gaming-quality refresh rates are rare

DisplayWorst viewing angles;Worst colorViewing angles typically better than TN, worse than IPS; Good color; Best contrast;Best image depthBest viewing angles; Best color