pls lcd panel technology brands

First, to be clear, there is no “best” panel type out of these, as all have their respective advantages and disadvantages over the others. The information here pertains to general characteristics, as even panels of the same panel type will have some variance in characteristics (power consumption, backlight bleed, etc.) depending on the luck of the draw. Manufacturer tuning can also impact display output, affording some differentiating leverage to manufacturers sourcing from panel suppliers (which is effectively all of them).

Nostalgia or riddance aside, there are still some valid reasons to use a CRT monitor. When compared to LCD panels, CRT monitors can have higher contrast ratio, very low response time (which leads to non-blurred pictures even with fast movement on screen), and very little input lag, although LCD input lag can be largely negated. The downsides of CRTs are apparent, though: they’re large, heavy, consume more power, produce flicker, can produce audible, high frequency noise (although age plays into whether one can hear them or not), produce slightly distorted images, and produce harmful electromagnetic waves (in the form of x-rays), which requires that toxic materials such as lead and barium must be used as shielding to prevent detrimental health effects. CRT monitors are also notoriously hazardous to repair, given their large, active electrical coils that can measure upwards of 50,000 volts of electricity.

CRT displays are sometimes still used in medical, simulation, military, and government fields that have embedded the displays into control panels and machinery.

CRT monitors have largely gone out of production, and are rarely sold new (finding a used CRT is fairly easy), but their advantages temporarily lent themselves to some special uses. In regards to gaming, CRT monitors have historically been advantageous to use when gaming competitively due to very little motion blur and very little input lag. That being said, these advantages have faded with the progressive march of TN panels.

TN panels now have low motion blur (especially with lightboost or a similar technology), offer high refresh rates, low response times (1ms GTG in many cases), and are more than adequate even in the world’s most competitive games.

Ultimately, for the vast majority of users, the disadvantages of CRTs aren’t worth their limited gains, especially when TN panels meant for gaming more than adequately satisfy the needs of even competitive gamers.

TN panels have many benefits over the previously popular CRT monitors: lower weight, lower cost to produce, lower power consumption, they’re much thinner, offer clearer pictures, have no realistically achievable resolution limits, offer flexibility in size and shape, and the ability to eliminate flicker.

That being said, TN panels weren"t and still aren’t perfect, and compared to the previously popular CRT monitors, they’ve suffered from limited viewing angles, uneven backlighting, worse motion blur, higher input lag, dead/stuck pixels, and poor display in sunlight.

To be clear, many of these issues have been improved upon, but due to the underlying science of LCD TN panels, cannot be completely resolved. In fact, many of these issues -- like uneven backlighting, motion blur, input lag, and dead/stuck pixels -- are inherent issues across all LCD panel types. Poor viewing angles become a more pressing issue with larger displays, since the viewing angle when viewed straight on increases towards the outside of the monitor, thus causing more color distortion. TN panels do have the advantages of lower response times and higher refresh rates than other panel types/CRTs. TN panels are generally from 60Hz to 144Hz, offering substantially greater fluidity of gameplay with higher frequencies.

TN panels provide a good compromise between CRTs and other LCD panels as their traditionally low response rates, input lag, and high refresh rate make them comparable to CRTs for accuracy; TN panels also have the advantages of offering sharper pictures, widescreen output, lower weight, smaller physical dimensions, and higher resolutions compared to CRTs.

Still, compared to other LCD panels, TN panels suffer from poor viewing angles and worse color reproduction. Ultimately, for most gamers playing somewhat competitively to very competitively, TN panels are a good choice, but for those looking for a prettier and improved color experience, another panel type may be worth considering.

IPS (In-Plane Switching) was created to address the shortcomings of TN panels. IPS panels seek to solve TN panels’ issues of poor color reproduction and viewing angles. In this regard, IPS panels have largely succeed. Not only do they offer a higher contrast ratio (superior blacks), high color accuracy (which leads to IPS panels also generally looking less “washed out”), but IPS panels also have very little color shift when changing the viewing angles.

The tradeoff to this is that IPS panels have slower response times, higher production costs, higher power consumption, and lower possible refresh rates. IPS panels have traditionally been 60Hz, although, as with all monitors, they can be overclocked (results will vary). There have been improvements to IPS panels over the years, and slightly different revisions in the form of E-IPS and H-IPS, but ultimately the differences between these versions are inconsequential to gamers and those not involved in graphic design as a job.

Due to their worse response rates and lower possible refresh rates, IPS panels are generally considered to be worse for competitive gameplay and used more often when color is important, such as graphic design. For gamers who don’t play competitively and prefer breathtaking strolls in Skyrim instead of sweeping scrubs in CS:GO, an IPS panel should be a consideration for the next monitor.

PLS (Plane to Line Switching) are quite similar to IPS panels, so much so that they have the same advantages and disadvantages, with a couple extra minor advantages. PLS is produced by Samsung, who claims that compared to IPS panels, PLS panels have better viewing angles, a 10% increase in brightness, 15% decrease in production costs, increased image quality, and allow for flexible panels. Samsung’s PLS panels have been known to overclock well in monitors such as the QNIX 2710 in particular. Overall, PLS is basically Samsung’s version of IPS, as it is very similar in functionality (and even name). AHVA is also very similar to IPS and PLS, and differentiation between them is rare, although it should not be confused with the next panel type.

VA (Vertical Alignment) panels offer a solid medium between TN and IPS panels. VA was created to combine the advantages of IPS and TN panels, and largely did, although they did so with some compromise. That seems to be a theme in the world of monitors.

Compared to IPS panels, VA panels have the advantage of higher possible refresh rates. Although most are currently 60Hz, there are a few that are above 60Hz. VA has more advantages over TN panels than IPS, with better color reproduction, higher maximum brightness, and better viewing angles. VA panels do have the best contrast ratios of all panel types mentioned, but they also have the worst response times of the monitor technologies covered here. This causes blurring in fast-moving pictures and is disadvantageous to gaming.

For the use of gaming, VA is not the greatest option due to generally higher response time in comparison to other panel types; this slower response causes more motion blur, effectively eliminating its deployment for fast-moving titles. For a general work monitor, VA panels provide high contrast ratios, brightness, refresh rates, good color reproduction, and good viewing angles.

TN panels are another good choice for competitive gamers, as they support higher refresh rates, low response times, decent input lag, and high resolutions. Their bad viewing angles, color reproduction, and slight blurring compared to CRT monitors (due to higher response times) are all disadvantages, ones which cannot be easily fixed.

IPS panels solve the issues of TN panels, with better color reproduction and viewing angles, but do so at the cost of refresh rate and response time. IPS panels are especially useful for those not wanting to play too competitively, but want a beautiful/immersive visual experience. PLS and AHVA are similar enough to IPS to usually not be differentiated.

VA panels provide a good middle ground with better-than-IPS refresh rates and contrast levels, but have worse viewing angles and color production, although generally still better than TN. Response times are VA’s largest downfall, though, being slower than IPS and its variants and TN.

What’s best for you will depend on all of these items. For those wanting to play at a competitive level and who favor FPS or racing games, TN panels are best. Those wanting a more impressive and immersive experience may want an IPS (or similar variant, such as PLS), especially if working on artistic endeavors. Finally, those wanting a general monitor for work might consider a VA panel, although due to their higher response times, they won’t be good for gaming.

When it comes to choosing the right panel type of your LCD monitor, the options are seemingly endless. We’ve discussed the differences between AMOLED and LCD displays as well as the different types of touchscreen monitors that are commonly used for various devices and their benefits. Now it’s time to learn about the different features and specifications of PLS and IPS panels so you can decide which one is the most suitable choice for your specific personal or professional applications.

PLS stands for plane to line switching. Also referred to as Super PLS Panel, this technology boasts superior technological advancements such as a multitude of brightness setting options, crystal-clear image quality, and adjustable viewing angles without breaking the bank.

IPS stands for in-plane switching. It’s one of the most commonly used monitors for LCD displays and it consists of two glass panels that hold a layer of liquid crystals in between them. The liquid crystals become animated and perform predetermined actions such as moving in a specific direction or displaying certain colours when they’re charged with an electric current. These actions result in the high-quality images that appear on your television, laptop, or smartphone screen.

Both LCD monitor panel types have their advantages and disadvantages for various types of applications. Finding out how they work will help you determine which one is the best choice for your needs.

As mentioned, IPS LCD monitors contain hundreds of liquid crystals that are situated between two glass sheets in a parallel formation. As electric currents run through the liquid crystals when the screen is turned on, they become animated and move in different directions and backlighting passes through them. This is what produces the crystal-clear and instantaneous images you see on the screen. The excellent viewing angles are the result of the horizontal movements of the liquid crystals inside the panel.

PLS panels for LCD monitors have been on the market for over a decade and have proven to be a worthy adversary for their IPS predecessors. Although the technology is the same for the most part, IPS does offer some minor improvements. The main difference is that IPS panels offer more optimized liquid molecular alignment, which makes for a slightly better viewing experience. Hence, PLS screens offer 15% more brightness than IPS panel types.

From an aesthetic and logistical standpoint, PLS panel types are also thinner than IPS due to the fact that the glass sheets that hold the liquid crystals in place are positioned much lower in the screen configuration.

When it comes to comparing and contrasting the differences between IPS and PLS LCD monitor panel types, the competition is pretty stiff. Both monitors are fairly similar with the exception that PLS is meant to be an improvement on the previous technology. Here are the key factors that should be considered when deciding which one is the best monitor panel for LCD industrial displays.

PLS monitors offer superior viewing angles when compared to IPS displays. Unlike IPS displays, PLS monitors don’t have any noticeable colour distortions and they have significantly lower production costs.

Unfortunately, PLS and IPS monitors both have a fairly slow response time (the amount of time it takes for liquid crystals to shift from one colour or shade to another). For this reason, neither one is the ideal choice for gaming purposes, but they’re both suitable for graphic design projects that focus more on colour distribution and accuracy than response time.

PLS panel types have been proven to have superior colour distribution and accuracy compared to IPS panel types. PLS displays have a far more expansive colour gamut that’s ideal for users who require the most natural-looking images and colour options.

Backlight bleed occurs when the lights from the back of the screen leak through the edges, which results in uneven lighting or glow. This is a fairly common shortcoming of IPS screens when the brightness is adjusted to a particularly high level and can make for a poor viewing experience. PLS panel types don’t have this problem and offer even lighting regardless of the brightness settings.

The answer is inconclusive. Both IPS and PLS monitor types certainly have their advantages. Although PLS is slightly better in terms of backlighting and faster response times, the margins for improvement are fairly tight. It really just depends on what your preferences are as well as the applications that the monitors are being used for.

Nauticomp Inc.is one of the leading manufacturers and distributors of sophisticated state-of-the-art LCD displays and monitors in North America. Contact us to learn about our various products or to place an order.

Are you looking to buy a perfect monitor for your new setup or want to upgrade to a new display device? Well, you have a lot of options to choose from. But, in this article, we are going to compare two very popular types of displays i.e. IPS vs PLS panels. If you want to pick the right one and are not able to make a decision, you will find helpful information through this article.

We are going to uncover all the important aspects of both these types of display panels so that you are left with no queries. The PLC and IPS display panels are pretty popular in the field of monitors. If you are trying to buy a good monitor, it is possible that you end up finding any of these monitors.

The PLS panels are developed by Samsung whereas the IPS panels are a sub-type of LCD panels. If you are buying high-end LCD panels, you will get to buy an IPS panel most probably.

Whereas, the PLS panels will offer their own benefits to the users. Samsung claims that this panel is cheap to manufacture and comes with numerous advantages for the users such as high brightness levels, better sharpness, and contrast values as well.

But, because Samsung is manufacturing it by itself, there is no proof of whether it is cheap or expensive. But, you can see it being used in various popular Samsung LCD displays.

When it comes to making the right decision, the IPS can be our main choice because it is much more popular than the PLS. But, you should understand your requirements first of all before making the decision. So, we are going to tell you the main things you will get with both these types.

Because each technology comes up with its own pros and cons, it is good to reveal everything before you go into the market for purchase. So, without any delays, let’s get started.

As we discussed earlier, the PLS (Plane to Line Switching) display panels are developed by Samsung. It’s their own innovation with which they are offering numerous advantages to the users as compared to other traditional devices.

If we talk about the company’s claim, Samsung says that the PLS panels are capable of delivering 10% better results in terms of sharpness and brightness.

Along with that, the company claims that better image quality is the primary benefit you will get along with any PLS display. Let’s talk about the main pros and cons of the PLS panels.

There could be numerous other advantages and disadvantages you may see with the PLS panels of a specific brand and model. So, make sure to research properly before you go for any product available in the market.

The IPS panels (In-Plane Switching) are perhaps the most popular panel technology used in LCD displays. However, this technology has become a little bit older now. But, still, you can easily find an IPS display anywhere and at any time.

If we look at the features, the IPS technology is considered as the upgraded version of VA panel technology. The IPS panels are known for their immersive display quality and accurate color correction.

For gaming, PLS can be considered as a good option because they are more slim devices with good color reproduction. Also, problems like ghosting and LCD glow are not very common. But, these kinds of monitors are not easy to find.

If you find some Samsung monitors using the PLS display panel technology and they are surely a good option to choose from. But, the IPS panel has a wide market and the products are easily available.

Some high-end IPS panels are just impressive because you get no issues like ghosting in them. So, if you are ready to spend a little bit more, an IPS Display can be a perfect option for your gaming tasks.

But, if you love using Samsung devices and looking to buy a Samsung monitor for your setup, you should surely try finding a monitor with the PLS technology. If you are going for a Samsung monitor with IPS technology, you actually have various other impressive and affordable options available in the market from companies like HP, Asus, etc.

Here, we are going to know the main aspects which you will have to keep in mind while choosing between the best IPS and PLS panels. Let’s discuss them one by one.

However, for gaming, below 5ms is a good number. So, whether you are picking the PLS or the IPS panel, make sure to take care of the response time properly.

IPS panels are known for their immersive color reproduction and enhanced sharpness. However, the PLS panels are not behind. So, you can easily decide whether you want to pick the first one or the other one.

The high-end PLS panels tend to offer a great color experience as compared to most of the IPS displays. But, it will depend totally on the brand and type of your monitor.

As you are aware now that the PLS is a display panel technology offered and manufactured by Samsung, you will see most of the monitors developed by Samsung itself. In other words, you do not have a lot of options when you want to choose a good PLS display. You will just have to go for the Samsung monitors.

The IPS display panels and hence the monitors are available at cheaper rates because it is now old technology. But, Samsung also promises that all these PLC display monitors are going to be cheap in price.

But, if you do a direct comparison of most of the available products, you will find that the PLC panels are much more expensive as compared to the IPS panels.

If you look inside the monitor market, you will find that the PLS monitors are very rare to find. Some models like Samsung LS27F354FHNXZA are available on Amazon but you can’t see many monitors like this one.

Whereas, if you go and search about the IPS monitors, you can see hundreds of options available for you. This happens because the IPS panels are now well versed and they are popular among companies.

Perhaps Samsung hasn’t decided to enhance the PLS’s reach to other manufacturers and that’s the reason why it’s not easy to find lots of good monitors in this category. But, whether you want to buy PLS or IPS, you always have an option to make a wise decision.

We hope that this article will help you choose the best PLS and IPS display in a proper manner now. If you have any other ideas or suggestions regarding this article, just let us know in the comment section. We would love to hear from your side now.

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.

While an average person thinks that all monitors are the same, besides the resolution and size, there are so many other intricate details that make up a monitor. In the modern models, details like the color reproduction, response time, viewing angles and input lag are the differentiating factors for monitors. The PLS monitor is made by Samsung and claim to offer better viewing angles than the IPS monitors. Ideally, the PLS or Plane to Line Switching monitor is similar to the IPS technology.

The two panels have the same advantages and disadvantages, with a few additions on the PLS monitors. The overall production cost of the PLS monitors, by Samsung is about 15% less than the IPS counterpart, which makes the monitors relatively cheaper.

Essentially, the PLS monitor promises more functionality like better image quality, more brightness, and all these will be at a lower price than the IPS models. With this in mind, there are a number of people who are out there looking for the best PLS monitor and tend to be confused due to the various models in the market, and not to mention the competition from the IPS panel monitors.

Surprisingly, there is very little difference between these panels, which may make it quite difficult for someone to choose the right monitor. With this article, we will try and demystify the few aspects that set the PLS monitors apart, and hopefully make it easier for you to pick the right monitor that will serve your needs, in the best way possible.

As mentioned earlier, the PLS monitors share the same advantages with the IPS display panels. However, there are some additional benefits that PLS monitors promise to offer. Here are some of the main benefits:

Whether you need better viewing angles, more brightness, more flexibility or a consistent color reproduction, the PLS monitor will be a perfect choice. While there are some people who may not really tell the difference, gamers, photographers, graphic designers and video editors will appreciate the amazing features that the PLS panel has.

If your profession involves multi-monitor setup, then you should also consider the PLS technology. While the PLS monitors seem to be more costly than the ordinary screens, you will find that the features that they have to offer are worth the price.

As such, the PLS monitors can be used for entertainment or for professional use. They have been made in such a manner that they will offer the best features. It is worth noting that there a number of brands on the market and each may have distinctive features.

There are so many people who really love the PLS monitor and this is the main reason for the growing popularity and demand. However, there are some disadvantages that are associated with these PLS panels.

In as much as the PLS monitors are cheaper than the IPS monitors, they are still somewhat expensive for most people. As a result, the average consumer cannot enjoy the great functionality of the PLS monitors.

Ideally, the advantages of the PLS monitors outweigh the disadvantages. It is also important to note that these drawbacks do not cut across the board; you may find some setbacks with a particular model, but this does not necessarily mean that it affects all PLS monitors. This is why it is imperative to consider all factors before settling for a particular model.

Having established that there are some pros and cons of the PLS monitors, there are some basic features that you should pay attention to when buying these monitors. Some of the main features to look out for include:

Size: You should consider the size of the monitor that you wish to buy. This is mainly influenced by the purpose that you intend to use the monitor for. In most cases, a good PLS monitor size is from 21 inches, upwards.

Connectivity: Your PLS monitor will be used with various devices and as such you need to look at the connection options available. Some of the best inputs to look out for include HDMI, VGA, Display Port, DVI and USB.

Resolution: The resolution of the monitor will determine the image quality and color that is displayed. Your PLS monitor should be at least Full HD so that you can get the best from it.

With all the information provided above, you now have a clear idea about the PLS monitors. You can easily one that suits your needs, based on the details that we have discussed above. In order to help you make an informed decision, we have reviewed some of the top models that use the PLS technology below.

The screen uses the PLS panel technology and this provides a wider viewing angle deeper colors and more brightness. With the Full HD resolution, and a 178 degree wide viewing angle, you will get the best quality images and a comfortable viewing angle. The monitor has AMD FreeSync and has a response time of 4ms.

This is a 32” curved screen that has a PLS display. With this combination, you will be able to enjoy great viewing from different angles, without the color reproduction being compromised. The screen has a response time of 5ms and 2ms G to G. This will make it easier to enjoy gaming and running other applications on this screen.

The flicker free technology will keep your eyes free from strain, even when you have to work for longer periods. The monitor has a flexible aluminum stand that allows you to adjust the monitor to your comfortable view. It has a dynamic contrast ratio of 5 million: 1, which enhances the quality of the images displayed.

This is a professional monitor that has a PLS Quad HD display technology. The resolution of 2560 x 1440 will ensure that all the images are crystal clear and rich in color. The technology ensures that you get 8 bit color,and 109ppiimages. You can enhance your productivity using the multitier feature.

This Qnix screen is made in Korea and uses PLS technology to offer exceptional performance. The 27” screen is known to have an exceptional performance with the option to overclock to higher refresh rates, depending on your needs. The screen used AU Optronics AHVA panel, which supports the 10-bit color.

Yamakasi M320PFH is a 32” screen with a curved Full HD PLS panel and has a white bezel, which makes it fit into any space perfectly. This ergonomically curved screen has the option of Aim Point Assist, which will make it easier to use all the features that are available.

This 24-inch screen has a PLS panel display technology and a LED backlight to enhance the display quality. The monitor has a 16:10 WUXGA resolution of 1920 x 1200, which is slightly higher than the standard Full HD resolution. It also has a standard refresh rate of 60 Hz, which is quite impressive.

The flicker free technology is aimed at ensuring that your eyes are well-protected from fatigue when you have to use the monitor for longer periods. The PLS panel technology supports an 8 bit color depth with 16.7 million colors and offers a wide viewing angle of 178/178.

If you have any experience with IPS monitors, then you will love the PLS monitors. Although most of the features are similar to what the IPS technology offers, there are other benefits that you will enjoy with this display technology by Samsung.

As you may have realized, most of the monitors seem to share the same features, however, a thorough review will reveal the distinguishing features in each model. We do hope that this can serve as an excellent guide in your quest to find the best PLS monitor.

Using the information provided and the specific reviews, it is our sincere hope that you can be able to make an informed decision when purchasing a PLS monitor.

IPS (in-plane switching) is a screen technology for liquid-crystal displays (LCDs). In IPS, a layer of liquid crystals is sandwiched between two glass surfaces. The liquid crystal molecules are aligned parallel to those surfaces in predetermined directions (in-plane). The molecules are reoriented by an applied electric field, whilst remaining essentially parallel to the surfaces to produce an image. It was designed to solve the strong viewing angle dependence and low-quality color reproduction of the twisted nematic field effect (TN) matrix LCDs prevalent in the late 1980s.

The TN method was the only viable technology for active matrix TFT LCDs in the late 1980s and early 1990s. Early panels showed grayscale inversion from up to down,Vertical Alignment (VA)—that could resolve these weaknesses and were applied to large computer monitor panels.

Shortly thereafter, Hitachi of Japan filed patents to improve this technology. A leader in this field was Katsumi Kondo, who worked at the Hitachi Research Center.thin-film transistor array as a matrix and to avoid undesirable stray fields in between pixels.Super IPS). NEC and Hitachi became early manufacturers of active-matrix addressed LCDs based on the IPS technology. This is a milestone for implementing large-screen LCDs having acceptable visual performance for flat-panel computer monitors and television screens. In 1996, Samsung developed the optical patterning technique that enables multi-domain LCD. Multi-domain and in-plane switching subsequently remain the dominant LCD designs through 2006.

IPS technology is widely used in panels for TVs, tablet computers, and smartphones. In particular, most IBM products was marketed as CCFL backlighting, and all Apple Inc. products marketed with the label backlighting since 2010.

Most panels also support true 8-bit-per-channel colour. These improvements came at the cost of a lower response time, initially about 50 ms. IPS panels were also extremely expensive.

IPS has since been superseded by S-IPS (Super-IPS, Hitachi Ltd. in 1998), which has all the benefits of IPS technology with the addition of improved pixel refresh timing.

In this case, both linear polarizing filters P and A have their axes of transmission in the same direction. To obtain the 90 degree twisted nematic structure of the LC layer between the two glass plates without an applied electric field (OFF state), the inner surfaces of the glass plates are treated to align the bordering LC molecules at a right angle. This molecular structure is practically the same as in TN LCDs. However, the arrangement of the electrodes e1 and e2 is different. Because they are in the same plane and on a single glass plate, they generate an electric field essentially parallel to this plate. The diagram is not to scale: the LC layer is only a few micrometers thick and so is very small compared with the distance between the electrodes.

Unlike TN LCDs, IPS panels do not lighten or show tailing when touched. This is important for touch-screen devices, such as smartphones and tablet computers.

Toward the end of 2010 Samsung Electronics introduced Super PLS (Plane-to-Line Switching) with the intent of providing an alternative to the popular IPS technology which is primarily manufactured by LG Display. It is an "IPS-type" panel technology, and is very similar in performance features, specs and characteristics to LG Display"s offering. Samsung adopted PLS panels instead of AMOLED panels, because in the past AMOLED panels had difficulties in realizing full HD resolution on mobile devices. PLS technology was Samsung"s wide-viewing angle LCD technology, similar to LG Display"s IPS technology.

In 2012 AU Optronics began investment in their own IPS-type technology, dubbed AHVA. This should not be confused with their long standing AMVA technology (which is a VA-type technology). Performance and specs remained very similar to LG Display"s IPS and Samsung"s PLS offerings. The first 144 Hz compatible IPS-type panels were produced in late 2014 (used first in early 2015) by AUO, beating Samsung and LG Display to providing high refresh rate IPS-type panels.

"TFT Technology: Enhancing the viewing angle". Riverdi (TFT Module Manufacturer). Archived from the original on 23 April 2016. Retrieved 5 November 2016. However, [twisted nematic] suffers from the phenomenon called gray scale inversion. This means that the display has one viewing side in which the image colors suddenly change after exceeding the specified viewing angle. (see image Inversion Effect) External link in |quote= (help)

Baker, Simon (30 April 2011). "Panel Technologies: TN Film, MVA, PVA and IPS Explained". Tftcentral.co.uk. Archived from the original on 29 June 2017. Retrieved 13 January 2012.

Ivankov, Alex (1 September 2016). "Advantages and disadvantages of IPS screen technology". Version Daily. Archived from the original on 26 September 2017. Retrieved 25 September 2017.

"Samsung PLS improves on IPS displays like iPad"s, costs less". electronista.com. Archived from the original on 27 October 2012. Retrieved 30 October 2012.

Samsung, being the global leader in mobile displays that it is, was understandably a little unnerved by Apple"s IPS LCD-sporting iPhone 4, but now it"s back to the forefront with its brand spanking new Super PLS tech. PLS stands for Plane to Line Switching, which helps Samsung deliver some pretty spectacular viewing angles -- even better than the already stellar ones you"ll find on IPS panels -- while also improving screen brightness by a reported 10 percent. The target market for Super PLS displays will be smartphones and tablets, with a delicious WXGA resolution on offer for the top bidders. Mind you, Samsung also claims production costs are 15 percent lower than comparable IPS tech, meaning that the only thing standing between us and the next new hotness is time -- Sammy expects to begin mass production early next year. Oh, and it"s working on securing a set of 30 patents relating to Super PLS, so don"t go holding out hope for direct competitors from LG or anyone else anytime soon.

Enhance productivity with the Samsung PLS Panel Monitor that fits well in any professional work environment. This 24-inch monitor features a display resolution of 1920 x 1080 pixels for crisp and clear visuals. Its fully-adjustable stand delivers comfort at workplace.

Monitor Features :72% (CIE 1976) color gamut, Eco Saving Plus, Eye Saver Mode, Flicker Free technology, Game mode, Image Size, Mega Dynamic Contrast Ratio, Wide Viewing Angle

PLS (Plane to Line Switching) panel in an IPS-type panel made by Samsung; All IPS-type panels, such as Innolux’s AAS, AUO’s AHVA and LG’s AH-IPS and Nano IPS offer excellent color accuracy and wide viewing angles.

PLS stands for Plane to Line Switching and is produced by Samsung, who claims that a PLS panel offers 10% more brightness, better viewing angles, lower production costs (about 15%), better image quality and the possibility of having flexible panels.

There are several variations of IPS panels, such as AU Optronics‘ AHVA (Advanced Hyper-Viewing Angle) panels. New AHVA panels are usually faster than other IPS panels but don’t have as wide color gamut. However, they can be paired with custom backlights and deliver an exceptional color gamut, such as the Acer XB323UGP with full Adobe RGB color space coverage.

In reality, most people don’t differentiate between IPS, AHVA and PLS since they are pretty much alike, which is why they are categorized under a single entity and simply called ‘IPS.’

Overall, whether a monitor has an IPS, PLS, or AHVA panel shouldn’t be the deciding factor when searching for a new display. You should check each monitor’s color gamut, brightness, response time and other specs to determine which monitor’s panel is better.

In digital signage industry, LCD Panels are very important for the digital signage hardware as all the information is finally displayed via the LCD Screens. There are different technologies in the LCD Panel market, including TN, VA, IPS and PLS, and how to choose the right LCD Panels for digital signage networks? In order to make a right choice, we have to understand what those technologies are and what advantages and disadvantages they have.

TN (Twisted Nematic) panels were the first LCD panel type, which has been widely used in the market because of the low cost. But now they are going to be out of the market because TN LCD Panel worse color reproduction and poor viewing angle of TN panels, of course, advanced technology development including VA, IPS and PLS is also an important reason.

IPS (In-Plane Switching) is a technology from LGD, and it overcame the difficulties that TN panel facing, especially for poor viewing angle and the worse color reproduction. Basically, IPS panel has full viewing angle and no color distortion on wide viewing angle, but it also has disadvantages like slower response time and lower refresh rates. However, full viewing angle and color accuracy are very important in digital signage now, so more and more commercial displays are using IPS panels in the market. The other important is that dynamic contrast ratio of IPS panels is extremely good although static contrast ratio is not good.

PLS (Plane to Line Switching) from Samsung, which is quite similar to IPS panels, so that they have the same advantages and disadvantages. Compared with IPS panels, PLS panels is much brighter and energy saver, those are claimed by Samsung Display. Another similar technology is called AHVA from AUO, and FFS from BOE. Differentiations among them are really rare.

VA (Vertical Alignment) panels offer a solid medium between TN and IPS panels. As compared with IPS Panels, VA panels has higher refresh rate, and a higher brightness, and best static contrast ratios on the basis of wide viewing angles and color accuracy. However, VA panel’s power consumption is higher, lower response time, and the panel color uniform is not good although VA panel’s black color is better. Samsung SAV (Super Vertical Alignment) and AUO AMVA (Advanced Multi-Domain Vertical) are most common in VA panel technologies.

Samsung S27F354FHU. Display diagonal: 68.6 cm (27´´), Display resolution: 1920 x 1080 pixels, HD type: Full HD, Display technology: LED, Display surface: Matt, Response time: 4 ms, Native aspect ratio: 16:9, Viewing angle, horizontal: 178°, Viewing angle, vertical: 178°. VESA mounting.

Buy your favorite Devices models and enjoy electronics and computers. You have the right to return within 30 days if you are not satisfied with your purchase of Samsung PLS LCD 27´´ Full HD LED 60Hz Monitor. If you have any doubt in buying Samsung PLS LCD 27´´ Full HD LED 60Hz Monitor, get in contact with our team of professionals in electronics and computers via telephone or email.

OLED vs. IPS LCD is a topic that comes up whenever consumers upgrade to a newer TV or a smartphone. Should you buy a TV that uses an IPS LCD display or should you pick up a TV with an OLED screen? Well, the answer isn’t so straightforward because they both have their advantages and disadvantages. In this article, we will explain how these screen technologies work and which one you should opt for while buying a TV.

IPS LCD (In-Plane Switching Liquid Crystal Display) and OLED (Organic Light-Emitting Diode) are the two most commonly used screen technologies. Older technologies, such as TN (Twisted Nematic) and PLS (Plane-to-Line Switching) displays, have almost disappeared (except in the world of PC monitors and budget laptops) because IPS LCD and OLED are clearly better in almost all aspects. Other technologies such as Mini-LED, MicroLED, and QNED technologies are extremely new and they won’t become mainstream for a few years.

So, when you are finally deciding which TV to buy, the real battle is between OLED and IPS LCD. So where do these stand? Which is better for you? Which one should you pick for your new home theatre? Read on for more information on the OLED vs IPS LCD battle.

IPS LCD displays are perhaps the most common display type days, especially in TVs and laptops. Laptops, entry-level and mid-range smartphones, and most TVs use LCD displays. So, how do IPS displays work? IPS displays use an array of LCD pixels that shift colour as required. However, they don’t emit light on their own. That’s the reason they need a backlight made up of LEDs (Light-Emitting Diodes). The backlight can be arranged in various layouts: towards the edges, spread across the whole display, or separated into different sections.

IPS screens display the black colour by changing the alignment of LCDs so that pixels block the transmission of light, but some light still gets through. That’s the reason IPS LCD displays can’t display true deep black colour. Instead, they display dark grey and there is some ‘backlight bleed’.

OLED displays have traditionally been restricted to high-end devices. Even today, only high-end TVs and laptops feature OLED displays. In the world of smartphones, though, OLED technology has been democratised and even mid-range smartphones these days use OLED displays with high brightness and high refresh rates.

In a nutshell, OLED displays don’t use separate backlight sources. Instead, every pixel can reproduce its own light (also known as self-emissive displays). So, there’s no need for an additional backlight and each pixel can be turned on or off as needed. Since there is no need for a separate backlight plane, OLED displays are much thinner than LCD displays. They also offer a much better contrast ratio and viewing angles. However, the organic material used in OLED pixels tends to “burn” over the years that results in ghosting. Moreover, they can’t be as bright as LCD, Mini-LED, or Micro-LED displays.

IPS LCD TVs offer higher brightness: IPS LCD TVs use a powerful backlight which also lets them get much brighter than their OLED counterparts. This can make for better HDR and even offer a better viewing experience if your TV room gets a lot of sunlight.

IPS TVs are much cheaper: OLED is a relatively newer technology and is more expensive to manufacture. Currently, very few companies make OLED display panels. LG Display makes most of the OLED panels found on OLED TVs, while Samsung Display, CSOT, LG Display, and BOE make OLED screens for smartphones and smaller products. Most manufacturers also tend to restrict OLED tech to their largest, most feature-packed range, fueling the perception of OLED being expensive.