pls tft display vs ips pricelist

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.

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.

Colour contrast and brightness is a central concern when purchasing a new commercial or industrial display. Whether you’re a gamer or graphic designer, your best option in this regard is to stick to IPS displays. They offer far more consistent image quality, colour contrast, and brightness that’s perfect for applications that rely heavily on high-quality image production.

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.

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

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

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

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

If you want to buy a new monitor, you might wonder what kind of display technologies I should choose. In today’s market, there are two main types of computer monitors: TFT LCD monitors & IPS monitors.

The word TFT means Thin Film Transistor. It is the technology that is used in LCD displays.  We have additional resources if you would like to learn more about what is a TFT Display. This type of LCDs is also categorically referred to as an active-matrix LCD.

These LCDs can hold back some pixels while using other pixels so the LCD screen will be using a very minimum amount of energy to function (to modify the liquid crystal molecules between two electrodes). TFT LCDs have capacitors and transistors. These two elements play a key part in ensuring that the TFT display monitor functions by using a very small amount of energy while still generating vibrant, consistent images.

Industry nomenclature: TFT LCD panels or TFT screens can also be referred to as TN (Twisted Nematic) Type TFT displays or TN panels, or TN screen technology.

IPS (in-plane-switching) technology is like an improvement on the traditional TFT LCD display module in the sense that it has the same basic structure, but has more enhanced features and more widespread usability.

Both TFT display and IPS display are active-matrix displays, neither can’t emit light on their own like OLED displays and have to be used with a back-light of white bright light to generate the picture. Newer panels utilize LED backlight (light-emitting diodes) to generate their light hence utilizing less power and requiring less depth by design. Neither TFT display nor IPS display can produce color, there is a layer of RGB (red, green, blue) color filter in each LCD pixels to produce the color consumers see. If you use a magnifier to inspect your monitor, you will see RGB color in each pixel. With an on/off switch and different level of brightness RGB, we can get many colors.

Winner. IPS TFT screens have around 0.3 milliseconds response time while TN TFT screens responds around 10 milliseconds which makes the latter unsuitable for gaming

Winner. the images that IPS displays create are much more pristine and original than that of the TFT screen. IPS displays do this by making the pixels function in a parallel way. Because of such placing, the pixels can reflect light in a better way, and because of that, you get a better image within the display.

As the display screen made with IPS technology is mostly wide-set, it ensures that the aspect ratio of the screen would be wider. This ensures better visibility and a more realistic viewing experience with a stable effect.

Winner. While the TFT LCD has around 15% more power consumption vs IPS LCD, IPS has a lower transmittance which forces IPS displays to consume more power via backlights. TFT LCD helps battery life.

Normally, high-end products, such as Apple Mac computer monitors and Samsung mobile phones, generally use IPS panels. Some high-end TV and mobile phones even use AMOLED (Active Matrix Organic Light Emitting Diodes) displays. This cutting edge technology provides even better color reproduction, clear image quality, better color gamut, less power consumption when compared to LCD technology.

This kind of touch technology was first introduced by Steve Jobs in the first-generation iPhone. Of course, a TFT LCD display can always meet the basic needs at the most efficient price. An IPS display can make your monitor standing out.

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

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

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

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

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

The world of smartphones has been busy for the past few months. There have been numerous revolutionary launches with groundbreaking innovations that have the capacity to change the course of the smartphone industry. But the most important attribute of a smartphone is the display, which has been the focus for all prominent players in the mobile phone industry this year.

Samsung came up with its unique 18:5:9 AMOLED display for the Galaxy S8. LG picked up its old trusted IPS LCD unit for the G6’s display. These display units have been familiar to the usual Indian smartphone buyer. Honor, on the other hand, has just unveiled the new Honor 8 Pro for the Indian market that ships with an LTPS LCD display. This has led to wonder how exactly is this technology different from the existing ones and what benefits does it give Honor to craft its flagship smartphone with. Well, let’s find out.

The LCD technology brought in the era of thin displays to screens, making the smartphone possible in the current world. LCD displays are power efficient and work on the principle of blocking light. The liquid crystal in the display unit uses some kind of a backlight, generally a LED backlight or a reflector, to make the picture visible to the viewer. There are two kinds of LCD units – passive matrix LCD that requires more power and the superior active matrix LCD unit, known to people as Thin Film Transistor (TFT) that draws less power.

The early LCD technology couldn’t maintain the colour for wide angle viewing, which led to the development of the In-Plane Switching (IPS) LCD panel. IPS panel arranges and switches the orientation of the liquid crystal molecules of standard LCD display between the glass substrates. This helps it to enhance viewing angles and improve colour reproduction as well. IPS LCD technology is responsible for accelerating the growth of the smartphone market and is the go-to display technology for prominent manufacturers.

The standard LCD display uses amorphous Silicon as the liquid for the display unit as it can be assembled into complex high-current driver circuits. This though restricts the display resolution and adds to overall device temperatures. Therefore, development of the technology led to replacing the amorphous Silicon with Polycrystalline Silicon, which boosted the screen resolution and maintains low temperatures. The larger and more uniform grains of polysilicon allow faster electron movement, resulting in higher resolution and higher refresh rates. It also was found to be cheaper to manufacture due to lower cost of certain key substrates. Therefore, the Low-Temperature PolySilicon (LTPS) LCD screen helps provide larger pixel densities, lower power consumption that standard LCD and controlled temperature ranges.

The AMOLED display technology is in a completely different league. It doesn’t bother with any liquid mechanism or complex grid structures. The panel uses an array of tiny LEDs placed on TFT modules. These LEDs have an organic construction that directly emits light and minimises its loss by eradicating certain filters. Since LEDs are physically different units, they can be asked to switch on and off as per the requirement of the display to form a picture. This is known as the Active Matrix system. Hence, an Active Matrix Organic Light Emitting Diode (AMOLED) display can produce deeper blacks by switching off individual LED pixels, resulting in high contrast pictures.

The honest answer is that it depends on the requirement of the user. If you want accurate colours from your display while wanting it to retain its vibrancy for a longer period of time, then any of the two LCD screens are the ideal choice. LTPS LCD display can provide higher picture resolution but deteriorates faster than standard IPS LCD display over time.

An AMOLED display will provide high contrast pictures any time but it too has the tendency to deteriorate faster than LCD panels. Therefore, if you are after greater picture quality, choose LTPS LCD or else settle for AMOLED for a vivid contrast picture experience.

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.

Rgb(Red,Green,Blue) - the number of color gradations and varieties visible to the human eye, which can be composed of basic colors (red, green, blue). Also, these are all the basic colors that a person can see. Monitor pixels consist of red, green, and blue pixels, which at a certain intensity intensity can make more complex colors. Therefore - the more advanced the monitor"s matrix is, the more it can display color gradations, and the more possible gradations it has for each of the red, green, and blue pixels. The quality of the color and the level of static contrast depend on the quality and type of the matrix.

The main goal was to get rid of shortcomings. TN  matrices. Later, this technology was replaced by S —IPS(Super —IPS). Monitors with this technology produce Dell, LG, Philips, Nec, ViewSonic, ASUS  and Samsung(Pls). The main purpose of these monitors is to work with graphics, photo processing and other tasks that require accurate color reproduction, contrast and standards compliance. sRGB  and Adobe RGB. They are mainly used in professional work with 2D / 3D graphics, photo editors, and pre-print masters, but are also popular with those who simply want to please their eyes with a high-quality picture.

Matrix data (most), can reproduce chromaticity in 24 bita (by 8 bit  for each Rgb  channel) without ASCR. Of course not 32 bits  like u CRT  monitors, but pretty close to the ideal. In addition, many IPS  matrices ( P-IPSsome S-ips), already able to transmit color 30 bitsHowever, they are much more expensive and are not intended for computer games.

- even more significantly improved the contrast and removed the violet light when looking at the monitor from the side. With her release in 2006  year, now almost replaced monitors with S —IPS  by the matrix. May have like 6  bit so 8  and 10  bits per channel. From 16.7  million to 1 billion flowers.

- variety H-IPSbut cheaper in the production matrix, which provides a standard for IPS  color gamut in 24 bits  (by 8  on the RGB channel). The matrix is ​​specially highlighted, which makes it possible to use LED  backlights and less powerful CCFL. Aims at the middle and budget sector of the market. Suitable for almost any purpose.

- the most advanced IPS  matrix to 2011  years, continued development H-IPS  (but in essence, a marketing name from ASUS). It has a color gamut 30 bits(10  bit per channel Rgb  and is most likely achieved through 8 bits + FRC), better response speed compared to S-ips, an enhanced level of contrast and the best viewing angles in its class. Not recommended for use in low frame rate games. Slowdowns become more pronounced by superimposing on the speed of response, which causes blinking and blurring.

- variation IPS  from Samsung. Unlike IPSIt is possible to place the pixels more densely, but the contrast suffers (not very successful design of pixels). Contrast no higher 600:1  - the lowest among LCD  matrices. Even u TN  matrices this figure is higher. Matrices Pls  can use any kind of backlight. According to characteristics, more preferable than MVAPVA  matrices.

(since 2011) — most preferred IPS technology. The maximum color coverage of AH-IPS for 2014 does not exceed 8 bit + FRCThat in total gives 1.07 billion colors in the most advanced matrices. Apply technology that allows the production of matrices with high resolutions. The best color reproduction in the class (strongly depends on the manufacturer and purpose of the matrix). A small breakthrough was also achieved in the viewing angles, due to which, the AH-IPS matrices were almost on a par with the plasma panels. Improved light-transmittance IPS matrix, and hence the maximum brightness, coupled with the reduced need for powerful backlighting, which has a beneficial effect on the power consumption of the screen as a whole. Contrast is improved compared to S-IPS. For gamers, and in the general piggy bank, you can add a significantly improved response time, which is now almost comparable to.

Or you can look away e-IPS  matrix, which is very similar in characteristics to MVA/PVA. Although e-IPS  still preferable because it has the best time  response and has no problems with loss of contrast with a direct look.

This is convenient, because movies can be viewed almost full screen. The strips still remain, as modern films have a standard 21.5/9. Also, on such a monitor it is very convenient to work with documents in several windows or programs with complex interfaces.

High contrast  needed to better display the black color, shades and halftones. This is important when working with the monitor during daylight hours, since low contrast has a detrimental effect on the image when there is any light source besides the monitor (although brightness is more influential here). A good indicator is static contrast - 1000:1  and higher. Calculated by the ratio of maximum brightness (white color) to minimum (black color).

LCD Monitor Screens  (Liquid Crystal Display, liquid crystal monitors) are made of a substance (cyanophenyl), which is in a liquid state, but at the same time has some properties inherent in crystalline bodies. In fact, these are liquids that have anisotropic properties (in particular, optical) that are associated with orderliness in the orientation of molecules.

The first working LCD display was created by Fergason in 1970. Prior to this, liquid crystal devices consumed too much energy, their lifespan was limited, and the image contrast was depressing. The new LCD was presented to the public in 1971, and then it received hot approval. Liquid crystals (Liquid Crystal) are organic substances that are capable of changing the amount of transmitted light under voltage. The liquid crystal monitor consists of two glass or plastic plates, between which there is a suspension. The crystals in this suspension are arranged in parallel with respect to each other, thereby allowing light to penetrate through the panel. When an electric current is applied, the arrangement of the crystals changes, and they begin to prevent the passage of light. LCD technology is widely used in computers and projection equipment. The first liquid crystals were notable for their instability and were hardly suitable for mass production. The real development of LCD technology began with the invention of British scientists a stable liquid crystal - biphenyl (Biphenyl). The first-generation liquid crystal displays can be observed in calculators, electronic games and watches. Modern LCD monitors are also called flat panels, active dual-scan arrays, thin-film transistors. The idea of ​​LCD monitors has been in the air for more than 30 years, but the studies that were carried out did not lead to an acceptable result, so LCD monitors have not won the reputation of devices that provide good image quality. Now they are becoming popular - everyone likes their elegant look, thin camp, compactness, economy (15-30 watts), moreover, it is believed that only wealthy and serious people can afford such luxury

There are two types of LCD monitors: DSTN (dual-scan twisted nematic - dual-scan crystal screens) and TFT (thin film transistor - on thin-film transistors), also called passive and active matrices, respectively. Such monitors consist of the following layers: a polarizing filter, a glass layer, an electrode, a control layer, liquid crystals, another control layer, an electrode, a glass layer and a polarizing filter. The first computers used eight-inch (diagonal) passive black and white matrix. With the transition to active matrix technology, the screen size has grown. Almost all modern LCD monitors use panels on thin-film transistors, providing a bright, clear image of a much larger size.

The size of the monitor depends on the working space occupied by it, and, importantly, its price. Despite the well-established classification of LCD monitors depending on the screen size diagonally (15, 17, 19-inch), the classification according to the working resolution is more correct. The fact is that, unlike CRT-based monitors, whose resolution can be changed quite flexibly, LCD displays have a fixed set of physical pixels. That is why they are designed to work with only one resolution, called a worker. Indirectly, this resolution determines the size of the matrix diagonal, however, monitors with the same working resolution may have a different matrix size. For example, monitors with a diagonal of 15 to 16 inches basically have a working resolution of 1024Ѕ768, which means that this monitor actually has a physical 1024 pixels horizontally and 768 pixels vertically. The working resolution of the monitor determines the size of the icons and fonts that will be displayed on the screen. For example, a 15-inch monitor can have a working resolution of 1024Ѕ768 and 1400Ѕ1050 pixels. In the latter case, the physical dimensions of the pixels themselves will be smaller, and since the same number of pixels are used in both cases when forming the standard icon, then at a resolution of 1400Ѕ1050 pixels the icon will be smaller in physical dimensions. For some users, too small icons at high resolution of the monitor may be unacceptable, so when you buy a monitor, you should immediately pay attention to the working resolution. Of course, the monitor is able to display the image in another, different from the working resolution. This mode of operation of the monitor is called interpolation. In the case of interpolation, the image quality is poor. Interpolation mode significantly affects the display quality of screen fonts.

The main technologies in the manufacture of LCD displays: TN + film, IPS (SFT) and MVA. These technologies differ in the geometry of surfaces, polymer, control plate and front electrode. Of great importance are the purity and type of polymer with the properties of liquid crystals, applied in specific developments.

IPS-matrix monitors are also called Super TFT-monitors. A distinctive feature of IPS-matrices is that the control electrodes are located in them in the same plane on the lower side of the LCD cell. In the absence of voltage between the electrodes, the LC molecules are parallel to each other, the electrodes and the polarization direction of the lower polarizing filter. In this state, they do not affect the polarization angle of the transmitted light, and the light is completely absorbed by the output polarizing filter, since the polarization directions of the filters are perpendicular to each other. When voltage is applied to the control electrodes, the generated electric field rotates the LC molecules by 90 ° so that they are oriented along the field lines. If a light is passed through such a cell, then due to the rotation of the polarization plane, the upper polarizing filter will let the light through without interference, that is, the cell will be in the open state (Fig. 4). By varying the voltage between the electrodes, it is possible to force the LC molecules to rotate at any angle, thereby changing the transparency of the cell. In all other respects, IPS cells are similar to TN matrices: a color image is also formed by using three color filters. IPS-matrices have both advantages and disadvantages compared with TN-matrices. The advantage is the fact that in this case it turns out perfectly black, and not gray, as in TN-matrices. Another indisputable advantage of this technology is large viewing angles. The disadvantages of IPS-matrices should be attributed to a pixel response time longer than for TN-matrices. However, we will return to the question of the pixel response time. In conclusion, we note that there are various modifications of IPS-matrices (Super IPS, Dual Domain IPS), allowing to improve their characteristics.

MVA is a development of VA technology, that is, technology with vertical alignment of molecules. In contrast to the TN and IPS matrices, in this case, liquid crystals with negative dielectric anisotropy are used, which are oriented perpendicular to the direction of the electric field lines. In the absence of voltage between the plates of the LCD cell, all liquid crystal molecules are oriented vertically and have no effect on the polarization plane of the transmitted light. Since the light passes through two crossed polarizers, it is completely absorbed by the second polarizer and the cell is in the closed state, while, in contrast to the TN matrix, it is possible to obtain an ideally black color. If a voltage is applied to the electrodes located above and below, the molecules rotate 90 °, orienting themselves perpendicularly to the lines of the electric field. With the passage of plane-polarized light through such a structure, the polarization plane rotates by 90 ° and the light freely moves through the output polarizer, that is, the LCD cell is in the open state. The advantages of the systems with the vertical ordering of molecules are the possibility of obtaining ideally black color (which, in turn, affects the possibility of obtaining high-contrast images) and the short response time of the pixel. In order to increase the viewing angles in systems with vertical molecular ordering, a multi-domain structure is used, which leads to the creation of matrices of the MVA type. The meaning of this technology is that each subpixel is divided into several zones (domains) using special protrusions, which somewhat change the orientation of the molecules, causing them to align with the surface of the protrusion. This leads to the fact that each such domain shines in its direction (within a certain solid angle), and the combination of all directions expands the viewing angle of the monitor. The advantages of MVA-matrices include high contrast (due to the possibility of obtaining perfectly black color) and large viewing angles (up to 170 °). Currently, there are several varieties of MVA technology, such as Samsung"s PVA (Patterned Vertical Alignment), MVA-Premium, and others, which further enhance the performance of MVA matrices.

Color display accuracy(~) True Color is supported and the desired color temperature is simulated.(+) True Color is supported and at the same time there is a mass of color calibration devices on the market, which is an undoubted advantage

Technology does not stand still, and the production of LCD screens is no exception. However, due to the constant development and release of new technologies in the manufacture of screens, as well as due to the special marketing approaches to advertising, many customers may be asked to choose a monitor or TV. better ips  or TFT screen?

To answer the question you need to understand what IPS technology is and what a TFT screen is. Only by knowing this, you can understand what the difference between these technologies. This in turn will help you make right choice  screen that will fully meet your requirements.

As you may have guessed, TFT is the abbreviated name of the technology. Fully it looks like this - Thin Film Transistor, which in Russian means thin film transistor. In essence, a TFT display is a type of liquid crystal screen that is based on an active matrix. In other words, this is a normal liquid crystal screen with an active matrix. That is, the management of liquid crystal molecules occurs with the help of special thin-film transistors.

IPS - this is also short for In-Plane Switching. This is a kind of active matrix LCD display. This means that the question which is better than TFT or IPS is erroneous, since it is essentially the same thing. More specifically, IPS is a type of FTF display matrix.

IPS technology has received its name due to the unique arrangement of electrodes, which are on the same plane with liquid crystal molecules. In turn, the liquid crystals are arranged parallel to the screen plane. This solution allowed to significantly increase the viewing angles, as well as to increase the brightness and contrast of the image.

Thus, it becomes obvious that tFT difference  from IPS is only that TFT is a type of LCD screen with an active matrix, and IPS is the same active matrix in a TFT display, or rather one of the types of matrices. It is worth noting that this matrix is ​​the most common among users worldwide.

The general misconception is that there is some difference between TFT and IPS, it is due to the marketing tricks of sales managers. In an attempt to attract new customers, marketers do not disseminate complete information about technologies, which allows creating the illusion that a completely new development is entering the world. Of course, IPS is a newer development than TN, but choose which better display  TFT or IPS is not possible for the above reasons.

The fact that there is no difference between TFT and IPS, you already know, however, there is quite a logical question, TN + Film and TFT IPS, what"s the difference? To answer this question, it is worth considering the advantages of IPS matrices, which are as follows:

These are the three main advantages of IPS-displays, which allow them to create a worthy competition to plasma panels. No wonder more and more manufacturers prefer IPS matrices. In addition, such displays have great promise.

Modern electronic devices are almost universal. For example, a smartphone perfectly copes not only with calls (their reception and performance), but also with the ability to surf the Internet, listen to music, watch videos or read books. For the same tasks fit tablet. The screen is one of the most important parts of electronics, especially if it is a touchscreen and serves not only to display files, but also to control. Let"s get acquainted with the characteristics of displays and technologies for which they are created. We pay special attention to what kind of technology, what are its advantages.

First of all, let"s look at how the liquid crystal display, which is equipped with modern technology, is arranged. First, it is the active matrix. It consists of microfilm transistors. Thanks to them, the image is formed. Secondly, it is a layer. They are equipped with light filters and create R-, G-, B-subpixels. Thirdly, it is a screen backlight system that allows you to make an image visible. It can be fluorescent or LED.

Strictly speaking, the IPS matrix is ​​a type of TFT technology, which is used to create LCD screens. TFT is often understood to mean monitors produced by the TN-TFT method. Based on this, you can make a comparison. To get acquainted with the subtleties of the choice of electronics, let us examine the IPS screen, what this concept means. The main thing that distinguishes these displays from the TN-TFT, is the location of the liquid crystal pixels. In the second case, they are arranged in a spiral, are at an angle of ninety degrees horizontally between the two plates. In the first (which interests us most of all) the matrix consists of thin-film transistors. Moreover, the crystals are arranged along the screen plane parallel to each other. Without voltage on them, they do not rotate. In TFTs, each transistor controls one point of the screen.

Let"s take a closer look at the type of screen. The monitors created by this technology have a lot of advantages. First of all, this is a great color rendering. The whole range of shades is bright, realistic. Due to the wide viewing angle, the image does not fade, no matter where you look at it. The monitors have a higher, clear contrast due to the fact that the black color is transmitted just perfectly. It may be noted the following disadvantages possessed by the type of IPS screen. What is, above all, a large energy consumption, a significant drawback. In addition, devices equipped with such screens are expensive, since their production is very expensive. Accordingly, TN-TFTs have diametrically opposed characteristics. They have a smaller viewing angle, the image is distorted when you change the viewpoint It is not very convenient to use them in the sun. The picture darkens, the glare interferes. However, such displays have a fast response, consume less energy and are affordable. Therefore, these monitors are installed in budget models of electronics. Thus, we can conclude in what cases the IPS-screen is suitable, that this is a great thing for fans of movies, photos and videos. However, due to their lower responsiveness, they are not recommended to fans of dynamic computer games.

The IPS technology itself was created by the Japanese company Hitachi in conjunction with NEC. New in it was the arrangement of liquid crystal crystals: not in a spiral (as in TN-TFT), but parallel to each other and along the screen. As a result, such a monitor conveys brighter and more saturated colors. The image is visible even in the open sun. The viewing angle of the IPS-matrix is ​​one hundred and seventy-eight degrees. You can watch the screen from any point: bottom, top, right, left. The picture remains clear. Popular tablets with an IPS screen are released by Apple, they are created on iPS matrix  Retina. One inch uses increased pixel density. As a result, the image on the display comes out without grain, the colors are transferred smoothly. According to the developers, the human eye does not notice microparticles, if the pixels are more than 300 ppi. Now devices with IPS-displays are becoming more affordable, they are beginning to supply budget models  electronics. Create new types of matrices. For example, MVA / PVA. They have a fast response, wide viewing angle and excellent color reproduction.

Recently, electronic devices with a touch control have become very popular. And it is not only smartphones. Release laptops, tablets, which have a touch iPS screen, serving to manage files, images. Such devices are indispensable for working with video, photos. Depending on the diagonal of the display, there are compact and full-size devices. multitouch is able to simultaneously recognize ten touches, that is, on such a monitor you can work with both hands at once. Small mobile devicesFor example, smartphones or tablets with a diagonal of seven inches, recognize five touches. This is quite enough if your smartphone has a small IPS-screen. That it is very convenient, many buyers of compact devices have estimated.

LCD TVs on the market appeared a long time ago and everyone had already got used to them. However, every year there are more and more new models, differing in appearance, screen diagonal, interface and not only. In addition, there are such models of liquid crystal displays, which are characterized by a special update rate, types of LEDs and backlighting. However, about everything in turn. For a start, I propose to deal with what it is - LCD monitors.

Probably many of you have heard such things as LCD panels. LCD is an abbreviation that stands for: Liquid Crystal Display. Translated into Russian, this means a liquid crystal display, which means that LCD and LCD panels are one and the same.

Technology display images based on the use of crystals in liquid form and their amazing properties. Such panels have a huge amount of positive qualities due to the use of this technology. So let"s see how this works.

IPS. Such matrices differ from other types in that they have the best color reproduction and a wide viewing angle. Contrast in such matrices is also not the best, and the refresh rate is less than even the TN matrix. This means that when moving quickly behind the picture, a noticeable train may appear that will interfere with watching TV. However, if a pixel burns on such a matrix, it will not glow, but, on the contrary, will remain black forever.

A-TW-IPS. It is essentially the same. S-IPS matrixTo which a real white color filter has been added. Most often, such a module was used in monitors intended for publishing houses or photo labs, since it made white color more realistic and increased the range of its shades. The minus of such a matrix was that the black color had a violet hue.

H-IPS. This module appeared in 2006 and was distinguished by the uniformity of the screen and improved contrast. He does not have such an unpleasant black light, but the angle of view has become smaller.

E-IPS. Appeared in 2009. This technology has helped improve the viewing angle, brightness and contrast of LCD monitors. In addition, the screen refresh time was reduced to 5 milliseconds and the amount of energy consumed was reduced.

P-IPS. This type of module appeared relatively recently, in 2010. This is the most advanced matrix. It has 1024 gradations for each sub-pixel, thanks to which a 30-bit color appears, which no other matrix could achieve.

VA. This is the very first kind of matrix for LCD displays, which is a compromise solution between the previous two types of modules. Such matrices best convey the contrast of the image and its colors, but at a certain angle of view some details may disappear and the color balance of white changes.

LED backlight or LED. Such TV appeared relatively recently. These displays have one or more LEDs. However, it is worth noting that this is only the type of illumination, and not the display itself, which consists of these miniature diodes.

For watching movies in 3D format, this refresh rate will be quite enough. At the same time in many TV set the backlight, which has a refresh rate of 480 Hz. It is achieved by using special TFT transistors.

The color rendition of such displays is not always pretty good quality. This again concerns mostly old screen models. But modern models are often inferior to other types of TV.

Thus, since there is the "TFT" part in the M20, it should be slightly better. Although, it should make sense that the RN7 also has TFT because it"s very, very common. In theory, it"s so common that the guys at Redmi/Xiaomi didn"t even know that they"re using it *chuckle*

This is just a summary of what I"ve been researching around for half an hour. Research done by googling and wiki-ing LCD, TFT, IPS and LPS. I also learned a bit about CRT, LED, TFD, TN and some other stuff

LK, 10 Feb 2019PHEWW, I was about to buy the M20 but then I saw this advertisement and realized I really need... moreHaha, screens on Redmi series is not that good (the best IPS out there) dont worry.

But if you wanna be on safe side and wanna fell nostalgic, forget M20, just take M10, it"s still great old TFT, but with HD+ resolution streched above 6". It"s a great plasticy phone, with 17 months old Android version out of box, like i said, great gor nostalgic people :D

Anonymous, 06 Feb 2019But isn"t LCD is better than TFT though? I mean yeah IPS and PLS is almost the same thing, but... moreTFT just means thin-film transistor. All displays have TFTs in some form.

TheWanderer, 06 Feb 2019Stop using drugs. The exynos 7904 chipset in the m20 is slower than sd 636 yet it costs the sa... moreBetter late than never. Samsung has been lazy for a long time now. They should have countered xiaomi a long time back. Of course this phone is not upto xiaomi level, yet. But it is a step in the right direction. They are lowering prices. The brand value of samsung is high and it would have been a shame if samsung did nothing to fight back xiaomi. But many will be buying this phone because this phone do give great value for money for a brand like samsung, which is a first for samsung. And it is clear that xiaomi feels threatened mainly due to the long standing brand value of samsung and also due to their new pricing strategy. Also it can be seen that samsung is innovating, which is a good thing. Now as big companies like samsung enter the fray, the competition will be getting way tougher. This is a very good thing for us consumers. Hope samsung follows this trend.

TheWanderer, 06 Feb 2019Stop using drugs. The exynos 7904 chipset in the m20 is slower than sd 636 yet it costs the sa... moreLook, we"re both Xiaomi fans. As I said, I have 7 Xiaomi devices (the most recent one is a 2018 model Mi Pad 4 plus LTE with snapdragon 660) and I only had 1 Samsung device which is very old and which I sold 2 years ago. I simply give credit where credit is due and Samsung clearly deserves credit.

Anonymous, 06 Feb 2019I"m not joking and yes, I love Xiaomi"s phones for having good specs and build quality at a ve... moreStop using drugs. The exynos 7904 chipset in the m20 is slower than sd 636 yet it costs the same as a sd 660 device. Samsung hasn"t done anything significant.

Anonymous, 05 Feb 2019For those who said that pls tft is new and it"s better than ips just check samsung j2 prime it... moreNobody said it"s new. It"s been around for ages like IPS.

IPS Display N Amoled Always Best..... IPS gave tough fight to Amoled for many years N Still IPS using by Xiaomi, Sony, Huwei Etc...... In Displays there r 4 or 5 Categories where PLS come in below category.... Personally i don"t like PLS because it can"t compare with IPS or Amoled.

Anonymous, 05 Feb 2019For those who said that pls tft is new and it"s better than ips just check samsung j2 prime it... moreI 2nd that with the Samsung Galaxy Ace 2 from 2012. xD

TFT and LCD are two different types of electronic displays used in computers, TVs, and smartphones. However, they are not as different as you might think. Let’s start with what those abbreviations mean.

A key weakness of TFT panels is that they do not have wide viewing angles, so they are better suited to displays that require you to view head-on. This can be a good or a bad thing, depending on your needs. For example, the narrower viewing angles mean people sitting or standing around you are less likely to be able to snoop on what you are doing on your mobile phone.

TFT panels are cheaper to manufacture, but they also consume much more power than regular LCD panels. Lastly, they have poorer sunlight visibility. You will find TFT displays on feature phones, smart feature phones, and low-end Android phones.

LCD: This is an abbreviation for “liquid crystal display”. It is a flat panel display with wider viewing angles compared to TFT. They also have lower power consumption and so deliver much better battery life than their TFT counterparts.

In summary, while TFT panels have some distinct advantages, they fall short in other areas and so their use have been limited to low end phones, from feature phones to entry-level Android phones. Plastic feels inferior to touch than glass, which means that TFT screens don’t get to feature much on mid-range and premium devices.

As we see improvements to TFT technology, we will see them deployed on higher end devices over time. In 2022, Samsung used TFT displays in its mid-range Galaxy A13 and Galaxy A23. Perhaps those improvements are happening already.

For now, LCD is the most widely used display type in modern smartphones. At the very top end, we have premium flagships using OLED and AMOLED displays.

TFT displays are higher quality components than regular LCD displays. TFT displays are sharper, brighter, and refresh better than LCD panels. However, they have weaknesses that make them unsuitable for higher end phones.

When we purchase a new smartphone we go through a list of specifications that includes the processor, software, cameras, display type, battery, etc. The display of the smartphone is something which has always been a concern for people. And smartphone technology has advanced so much in the past decade that you get several display technology options to choose from.

Today, a smartphone is not just a means to send and receive calls and texts. It has become a general necessity, so choosing the right technology should be your main priority. Coming back to displays, as we said there are plenty of display types available right now.

Two of the main contenders for display technologies that are widely available are AMOLED and LCD. Here in this article, we will be comprising AMOLED vs LCD and find out which one is better for you.

Starting with the AMOLED first, it is a part of the OLED display technology but with some more advanced features. To completely know about it must understand its all three components. The first one is LED, “Light Emitting Diode”. Then we have “O” which stands for organic and makes the OLED.

The AMOLED display is similar to the OLED in various factors like high brightness and sharpness, better battery life, colour reproduction, etc. AMOLED display also has a thin film transistor, “TFT” that is attached to each LED with a capacitor.

TFT helps to operate all the pixels in an AMOLED display. This display might have a lot of positives but there are a few negatives too let’s point both of them out.

A major issue with these displays is of burning of pixels. After showing a specific image or colour for a longer period of time, the pixel can get burned. And if there is a problem with a single pixel it will affect the entire display.

Low outdoor visibility, usually the AMOLED Displays are quote not bright in direct sunlight and outdoor readability could be a problem for some devices but average screen brightness.

The LCD stands for “Liquid Crystal Display”, and this display produces colours a lot differently than AMOLED. LCD display uses a dedicated backlight for the light source rather than using individual LED components.

The LCD displays function pretty simply, a series of thin films, transparent mirrors, and some white LED lights that distributes lights across the back of the display.

As we have mentioned, an LCD display always requires a backlight and also a colour filter. The backlight must have to pass through a thin film transistor matrix and a polarizer. So, when you see it, the whole screen will be lit and only a fraction of light gets through. This is the key difference comparing AMOLED vs LCD and this is what differentiates these two display technologies.

The LCD displays are cheaper compared to the AMOLED as there is only one source of light which makes it easier to produce. Most budget smartphones also use LCD displays.

LCD displays have bright whites, the backlight emits lots of light through pixels which makes it easy to read in outdoors. It also shows the “Accurate True to Life” colours, which means it has the colours that reflect the objects of the real world more accurately than others.

LCDs also offer the best viewing angle. Although it may depend on the smartphone you have. But most high-quality LCD displays support great viewing angles without any colour distortion or colour shifting.

The LCD displays can never show the deep blacks like AMOLED. Due to the single backlight, it always has to illuminate the screen making it impossible to show the deep blacks.

The LCDs are also thicker than other displays because of the backlight as it needs more volume. So, LCD smartphones are mostly thicker than AMOLED ones.

Both of these display technologies have their own Pros and Cons. Taking them aside everything ends up with the user preferences as people might have different preferences among different colours and contrast profiles. However, a few factors might help you to decide which one fits perfectly for you.

Let’s start with the pricing. Most AMOLED display smartphones always cost more than an LCD smartphone. Although the trend is changing a bit. But still, if you want to get a good quality AMOLED display you have to go for the flagship devices.

The colors are also very sharp and vibrant with the AMOLED displays. And they look much better than any LCD display. The brightness is something where LCDs stood ahead of the AMOLED display. So using an LCD display outdoors gives much better results.

The last thing is battery consumption, and there is no one near the AMOLED displays in terms of battery. As of now, all smartphones feature a Dark Mode and most of the apps and UI are dark black with a black background. This dark UI on smartphones doesn’t require any other light, it gives the AMOLED displays a boost in battery performance.

Looking at all these factors and comparing AMOLED vs LCD displays, the AMOLED displays are certainly better than the LCDs. Also, the big display OEMs, like Samsung and LG are focusing more the OLED technologies for their future projects. So, it makes sense to look out for AMOLED displays. That being said, if we see further enhancements in the LCD technology in terms of battery efficiency and more, there is no point to cancel them at this moment.