best lcd panel technology price

Liquid-crystal display (LCD) monitors are the most common today. They generally consist of a liquid crystal panel and a fluorescent backlight system located at the back of the screen. The images are shown when the light from the feedback system hits the screen.

LCD monitors are characterized by their flat, thin, and durable screens. Besides, they have had integrated LED feedback for some years now, which is why manufacturers often talk about LED LCDs. These monitors generally have low energy consumption and are affordable.

LCD monitors have many benefits to offer. As we just mentioned, they have extremely low energy consumption, and you can find very affordable models. They also allow you to enjoy very vivid colors and high definition levels.

You will have to evaluate a series of key criteria before you can choose the LCD monitor that best fits your needs. Since we want to make your life easier, we have selected the most important aspects to consider and have detailed them in the following section. This will help you sort through the wide array of options on the market, and you will know how to pick a monitor that offers the performance and value for the money you’re looking for.

You won’t want the same type of monitor if you often play video games on your computer or if you only use it for browsing the internet and office tasks. This is why the very first aspect you should think about is how exactly you plan on using your LCD monitor.

Even if you are looking for a gaming monitor, you will have to choose a model suitable for the type of game you play. If you are into competitive games, you should choose one with a low response time. For graphic design or to view content in high definition, on the other hand, your best bet will be a VA panel.

The screen size of a monitor is generally expressed as a function of the length of its diagonal in inches. The size of the screen you choose should, in part, be determined by the area of your home or office where you want to fit the monitor. That being said, the vast majority of LCD monitors currently vary between 24 and 27 inches in size.

Did you know that LCD, called liquid-crystal display, means that electrical pulses form the basis for the alignment of the crystals, which produce different colors due to their uneven light transmission?

As we briefly mentioned earlier, there are three main types of panels for monitors and TVs: TN, IPS, and VA. Each one has its own features and is more tailored to a specific type of use.

If this is your case, you should start your search by looking at monitors with 4K resolution. Do keep in mind that a high-quality LCD monitor isn’t enough; you still need to have a powerful enough computer. Since more and more 4K content is being released, you may also be interested in these monitors if you are a cinephile.

High dynamic range (HDR) technology has become increasingly common in monitors and televisions in the last few years. It makes it possible to offer colors that are much closer to those we can see in reality. Another fantastic benefit of HDR is that it can independently illuminate different areas of the monitor.

This high-dynamic range means that you can enjoy a higher contrast in the image. The main advantages of this technology are, therefore, the illumination of the different scenes and the incredibly vivid colors it offers. Remember that there are currently different HDR standards: HDR10, Dolby Vision, HDR10+, and HLG.

The greatest advantage of the HDMI port is that it also allows you to transmit audio. DVI ports, on the other hand, support higher refresh rates. You may also think about the DisplayPort connection as it offers the best bandwidth. As you can imagine, it’s never a bad idea to have an LCD monitor with a couple of USB ports as well.

First of all, there is often a direct relationship between the size of the screen and the price of the monitor. However, we’re sure you will have guessed that it isn’t the only influencing factor in the final cost of the product. The type of panel is another element that plays a significant role in this, the three main ones being TN, VA, and IPS.

The most expensive panels are currently the IPS models, although their price has dramatically decreased in recent years. Also, the image resolution and HDR technology are factors to consider in the final cost of an LCD monitor. If you are looking for a gaming model, keep in mind that they often integrate specific technologies to offer better in-game performance and are, therefore, more expensive.

So, why would anyone ever buy a TN panel? For starters, they’re cheap. They don’t cost a lot to produce, so they’re often used in the most budget-friendly options. If you don’t value color reproduction or need excellent viewing angles, a TN panel might be fine for your office or study.

TN panels also have the lowest input lag—typically around one millisecond. They can also handle high refresh rates of up to 240 Hz. This makes them an attractive option for competitive multiplayer games—especially eSports, where every split-second counts.

IPS technology was developed to improve upon the limitations of TN panels—most notably, the poor color reproduction and limited viewing angles. As a result, IPS panels are much better than TNs in both of these areas.

In particular, IPS panels have vastly superior viewing angles than TNs. This means you can view IPS panels from extreme angles and still get accurate color reproduction. Unlike TNs, you’ll notice very little shift in color when you view one from a less-than-ideal perspective.

IPS panels are also known for their relatively good black reproduction, which helps eliminate the “washed out” look you get with TN panels. However, IPS panels fall short of the excellent contrast ratios you’ll find on VAs.

While high refresh rates were typically reserved for TNs, more manufacturers are producing IPS panels with refresh rates of 240 Hz. For example, the 27-inch 1080p ASUS VG279QM uses an IPS panel and supports 280 Hz.

Previously, TNs exhibited less input lag than any other panel, but IPS technology has finally caught up. In June 2019, LG announced its new Nano IPS UltraGear monitors with a response time of one millisecond.

Despite the gap being closed, you’ll still pay more for an IPS panel with such a low response time than you would for a TN with similar specs. If you’re on a budget, expect a response time of around four milliseconds for a good IPS monitor.

One last thing to be aware of with IPS panels is a phenomenon called “IPS glow.” It’s when you see the display’s backlight shining through it at more extreme viewing angles. It’s not a huge problem unless you view the panel from the side, but it’s something to keep in mind.

VA panels are something of a compromise between TN and IPS. They offer the best contrast ratios, which is why TV manufacturers use them extensively. While an IPS monitor typically has a contrast ratio of 1000:1, it’s not unusual to see 3000:1 or 6000:1 in a comparable VA panel.

In terms of viewing angles, VAs can’t quite match the performance of IPS panels. Screen brightness, in particular, can vary based on the angle from which you’re viewing, but you won’t get the “IPS glow.”

VAs have slower response times than TNs and the newer Nano IPS panels with their one-millisecond response rates. You can find VA monitors with high refresh rates (240 Hz), but the latency can result in more ghosting and motion blur. For this reason, competitive gamers should avoid VA.

Compared to TNs, VA panels do offer much better color reproduction and typically hit the full sRGB spectrum, even on lower-end models. If you’re willing to spend a bit more, Samsung’s Quantum Dot SVA panels can hit 125 percent sRGB coverage.

For these reasons, VA panels are seen as the jack of all trades. They’re ideal for general use, but they either match or fall short in most other areas except contrast ratio. VAs are good for gamers who enjoy single-player or casual experiences.

When compared to CRT monitors, all LCD panels suffer from some form of latency issue. This was a real problem when TN panels first appeared, and it’s plagued IPS and VA monitors for years. But technology has moved on, and while many of these issues have been improved, they haven’t been eliminated entirely.

Uneven backlighting is another issue you’ll find on all panel types. Often this comes down to overall build quality—cheaper models slack on quality control to save on production costs. So, if you’re looking for a cheap monitor, be prepared for some uneven backlighting. However, you’ll mostly only notice it on solid or very dark backgrounds.

LCD panels are also susceptible to dead or stuck pixels. Different manufacturers and jurisdictions have different policies and consumer laws covering dead pixels. If you’re a perfectionist, check the manufacturer’s dead-pixel policy before you buy. Some will replace a monitor with a single dead pixel for free, while others require a minimum number.

Office or study use: Your budget should be your primary concern here. VA is the do-it-all panel, with superior viewing angles to TN, but either would do the trick. You can save some money because you don’t need high refresh rates or ultra-low latency. They’re still nice, though. You’ll see a noticeable difference in smoothness just when moving the Windows cursor on a monitor with a 144 versus 60 Hz refresh rate.

Photo and video editors/Digital artists: IPS panels are still generally favored for their ability to display a wide gamut of colors. It’s not unusual to find VA panels that also cover a wide gamut (125 percent sRGB, and over 90 percent DCI-P3), but they tend to exhibit more motion blur during fast-paced action than IPS panels. If you’re serious about color accuracy, you’ll need to properly calibrate your monitor.

Programmers who mount monitors vertically: You might think TN panels are great for programmers, but that’s not necessarily the case. TN panels have particularly bad viewing angles on the vertical axis. If you mount your monitor in portrait mode (as many programmers and mobile developers do), you’ll get the worst possible viewing angles from a TN panel. For the best possible viewing angles in this scenario, invest in an IPS display.

Competitive online gamers: There’s no question TN panels are still favored in the eSports world. Even the cheapest models have fast response times and support for high refresh rates. For 1080p gaming, a 24-inch will do just fine, or you could opt for a 1440p, 27-inch model without breaking the bank. You might want to go for an IPS panel as more low-latency models hit the market, but expect to pay more.

Non-competitive, high-end PC gamers: For a rich, immersive image that pops, a VA panel will provide a higher contrast ratio than IPS or TN. For deep blacks and a sharp, contrasting image, VA is the winner. If you’re okay with sacrificing some contrast, you can go the IPS route. However, we’d recommend avoiding TN altogether unless you play competitively.

Best all-rounder: VA is the winner here, but IPS is better in all areas except contrast ratio. If you can sacrifice contrast, an IPS panel will provide fairly low latency, decent blacks, and satisfactory color coverage.

The benefits of using LED TVs are minimal energy consumption, a long-lasting backlight with pictures being bright. IPS displays offer more image accuracy and have better color reproduction in small viewing angles. In short, LEDs are cheaper, though the advantage of an IPS screen is better picture quality. Having said that, Samsung"s Quantum Dot technology could boast of dramatically enhanced color compared to IPS panels.

Before we look at the detailed comparisons of these panel technologies, which of the two is better for gamers? And this earlier post will take care of your business side of things!

Although LED panels are excellent in competitive gaming, IPS gaming monitors have various tricks, like better image colors than other technologies, including TN and VA panels. If you want to play while getting the most accurate color depiction, choose IPS and make sure to go over our review of top-shelf 32"" gaming monitors, this affordable option from Dell, or these ones best suited for your Xbox One X.

LED and IPS monitors (see also QLED) have excellent attributes with disadvantages as well. Before looking at the differences of screens featuring the two technologies, here is a look at the LCD (Liquid Crystal Display) technologies and also a LED vs LCD comparison.

LED (Light Emitting Diode) is a type of backlight technology in which the pixels light up. Many people confuse the difference between LED and LCD displays.

An LED monitor is a type of LCD monitor, and while both utilize liquid crystals for picture formation, the difference lies in LEDs featuring a backlight.

Notably, some IPS displays incorporate LED technology. Some reasons why some brands produce IPS displays infused with LEDs are the resultant sleekness and compactness.

The benefit of using LED panel technology is how bright the displays are while still maintaining an efficient energy consumption lower than other screen technologies.

On the other hand, an LED monitor shows less reliability and accuracy in color contrast. You also get a limited viewing angle meaning that you"ll only get the best quality when sitting directly in front of the display.

If you need LCD monitors with a quick response time, consider an LED display panel using either VA or TN technology. Such an LCD screen typically offers a 1ms response time. However, remember that these monitors tend to have smaller viewing angles and inferior image quality than an IPS monitor. Regardless, you can still get a considerably good performance when planning quick-action games provided you sit directly in front of the screen. In that case, vertical monitors from this article may prove a viable option.

Below are some combinations of these two technologies:LCD monitors incorporating IPS panels and LED backlightLED-backlit with IPS panel or TN panel featuresIPS display featuring LCD or LED backlight technology

Although LED monitors provide brighter screens, their power consumption is much less than IPS panel technology. That explains why they are a favorite Liquid Crystals Display technology amongst those looking for affordable electronics.

Because IPS monitors take up much power, they release more heat than their LED alternatives. Despite LED display monitors providing bright pictures, they produce relatively less heat than monitors with IPS display technology.

The cost of a monitor using IPS screen technology is approximately $100 or more, depending on whether the panel infuses other technologies like a TN panel or another type of LCD.

While both offer superb monitor selections, the differences between IPS and LEDs make one a better option for you than the other. Apart from these two, there are other display types to choose from so it can be hard to decide which suits you best. Nonetheless, here are vital questions to answer before deciding.

When picking a monitor, it is essential to get one that aligns with your application. If you want a monitor for creative visual applications, go for an IPS monitor. This LCD panel allows you to sit at more diverse angles, get elaborate graphics, and features color accuracy.

If you want gaming monitors for fast-paced shooting games, LED monitors might be the ideal option to consider. Ideally, the type of LED monitor you pick should feature a TN panel to cater to the limited viewing angle and lower display quality. Other excellent options to consider are Organic Light-Emitting Diodes (OLED monitors), given their improved display quality over pure LED monitors.

When purchasing monitors, it"s wise to work with a realistic price range depending on the attributes expected. The more specs and panel combinations, the steeper the cost, irrespective of whether they are LED or IPS monitors. For example, monitors that include other Liquid Crystal Display panel types like VA and TN are typically pricier than pure IPS panels.

If you want value for your bucks" worth, consider getting LED monitors. Besides the availability of numerous LED monitors at budget prices like this S2318HN monitor by Dell, you are likely to have more attribute compatibility with them than with IPS technology.

Yes, they are less likely to cause eye strain than LEDs. With them, you get decent color representation and excellent contrast ratios. For these reasons, they minimize the effort your eyes take to decipher things. Some of these panels operate even at a refresh rate of 280Hz to reduce input lag and combat unpleasant screen effects like tearing that may lead to straining - click here for the best monitors for eye strain.

Both IPS and LEDs have critical upsides that might be key to your application. Irrespective of the technology you prefer, the trick is identifying which coincides best with what you envision for your monitor.

An LED monitor might be your go-to alternative if you want to spend less. Besides, you can pick from multiple options featuring LCD and TN panels to circumvent some shortcomings synonymous with LED displays. What"s more, their performance is more reliable.

Again, IPS is the clear winner here. The vertical viewing angles are very similar to the horizontal ones on both IPS and VA panels. Unfortunately, this is one area where TN panels are usually much, much worse. TN monitors degrade rapidly from below, and colors actually inverse - resulting in a negative image that can be distracting. For this reason, if you decide to buy a TN monitor, look for one with an excellent height adjustment, or consider buying a VESA mounting arm, as you should mount TN monitors at eye level. Even when mounted properly, larger TN displays can appear non-uniform at the edges.

There"s usually not much difference between VA and IPS panels in terms of gray uniformity. It"s rare for monitors to have uniformity issues, and even on monitors that perform worse than average, it"s usually not noticeable with regular content. TN monitors tend to perform a bit worse than usual, though, and the top half of the screen is almost always darker than the rest, but that"s an artifact of the bad vertical viewing angles.

Black uniformity tends to vary significantly, even between individual units of the same model, and there"s no single panel type that performs the best. It"s rare for monitors to have good black uniformity, and almost every monitor we"ve tested has some noticeable cloudiness or backlight bleed. IPS and TN panels can look slightly worse due to their low contrast ratios, as the screen can take on more of a bluish tint when displaying dark scenes. Like with contrast, black uniformity issues usually aren"t very noticeable unless you"re looking at dark content and you"re in a dark room. If you only use your monitor in a bright environment, generally speaking, you don"t need to worry about black uniformity.

Historically, TN panels used to have the worst colors, as many of them were cheaper models that only supported 6-bit colors or used techniques like dithering (FRC) to approximate 8-bit colors. Most displays today, including TN models, are at least 8 bit, and many of them are even able to approximate 10-bit colors through dithering. New technologies, like LG"s Nano IPS and Samsung"s Quantum Dot, add an extra layer to the LCD stack and have significantly improved the color gamut of modern IPS and VA displays, leaving TN a bit behind. Between them, NANO IPS is slightly better, as it tends to offer better coverage of the Adobe RGB color space. Although the difference is minor, IPS panels still have a slight edge over VA and TN displays.

Although TN panels have caught up a bit in the SDR color space, they"re far behind when it comes to HDR, so if you"re looking for a good HDR color gamut, avoid TN panels. Between VA and IPS panels, the difference isn"t as significant; however, IPS panels still have a slight edge. The best VA panels top out at around 90% coverage of the DCI P3 color space used by most current HDR content. IPS panels go as high as 98% coverage of DCI P3, rivaling even some of the best TVs on the market. Due to the very high coverage of DCI P3 on both VA and IPS, the difference isn"t that noticeable, though, as most content won"t use the entire color space anyway.

Although not necessarily as noticeable to everyone as the differences in picture quality, there can also be a difference in motion handling between IPS, VA, and TN displays. TN panels historically offered the best gaming performance, as they had the highest refresh rates and extremely fast response times. Manufacturers have found ways to drastically improve the motion handling of VA and IPS panels, though, and the difference isn"t as pronounced.

LCD panel technology has changed drastically over the last few years, and the historical expectations for response time performance don"t necessarily hold anymore. For years, TN monitors had the fastest response times by far, but that"s started to change. New high refresh-rate IPS monitors can be just as fast.

VA panels are a bit of a strange situation. They typically have slightly slower response times overall compared to similar TN or IPS models. It"s especially noticeable in near-black scenes, where they tend to be significantly slower, resulting in dark trails behind fast-moving objects in dark scenes, commonly known as black smear. Some recent VA panels, such as the Samsung Odyssey G7 LC32G75T, get around it by overdriving the pixels. It results in much better dark scene performance but a more noticeable overshoot in brighter areas.

Within each of the three types of LCD we mentioned, other related panel types use the same basic idea but with slight differences. For example, two popular variants of IPS panels include ADS (technically known as ADSDS, or Advanced Super Dimension Switch) and PLS (Plane to Line Switching). It can be hard to tell these panels apart simply based on the subpixel structure, so we"ll usually group them all as IPS, and in the text, we"ll usually refer to them as IPS-like or IPS family. There are slight differences in colors, viewing angles, and contrast, but generally speaking, they"re all very similar.

There"s another display technology that"s growing in popularity: OLED. OLED, or organic light-emitting diode, is very different from the conventional LCD technology we"ve explored above. OLED panels are electro-emissive, which means each pixel emits its own light when it receives an electric signal, eliminating the need for a backlight. Since OLED panels can turn off individual pixels, they have deep, inky blacks with no blooming around bright objects. They also have excellent wide viewing angles, a near-instantaneous response time, and excellent gray uniformity.

OLED panels aren"t perfect, though. There"s a risk of permanent burn-in, especially when there are lots of static elements on screen, like the UI elements of a PC. There aren"t many OLED monitors available, either, but they"ve started to gain popularity as laptop screens and for high-end monitors, but they"re very expensive and hard to find. They"re also not very bright in some cases, especially when large bright areas are visible on screen. The technology is still maturing, and advances in OLED technology, like Samsung"s highly-anticipated QD-OLED technology, are promising.

As you can probably tell by now, no one panel type works best for everyone; it all depends on your exact usage. Although there used to be some significant differences between panel types, as technology has improved, these differences aren"t as noticeable. The two exceptions to this are viewing angles and contrast. If you"re in a dark room, a VA panel that can display deep blacks is probably the best choice. If you"re not in a dark room, you should focus on the other features of the monitor and choose based on the features that appeal to your exact usage. IPS panels are generally preferred for office use, and TN typically offers the best gaming experience, but recent advancements in VA and IPS technology are starting to change those generalizations. For the most part, the differences between each panel type are so minor now that it doesn"t need to be directly factored into your buying decision.

The best gaming monitor we"ve tested is the Samsung Odyssey Neo G8 S32BG85. It"s a fantastic gaming monitor thanks to its fast 240Hz refresh rate, delivering crystal-clear motion with almost no noticeable ghosting behind fast-moving objects. It also has incredibly low input lag, ensuring your actions are in-sync with the action on-screen. It has a great selection of gaming features, including HDMI 2.1 bandwidth for PS5 or Xbox Series S|X gaming, and it supports FreeSync and G-SYNC variable refresh rate technology, ensuring a smooth, nearly tear-free gaming experience from almost any source.

So, why is this important? A monitor’s panel technology is important because it affects what the monitor can do and for which uses it is best suited. Each of the monitor panel types listed above offer their own distinctive benefits and drawbacks.

Choosing which type of monitor panel type to buy will depend largely on your intended usage and personal preference. After all, gamers, graphic designers, and office workers all have different requirements. Specific types of displays are best suited for different usage scenarios.

The reason for this is because none of the different monitor panel types as they are today can be classified as “outstanding” for all of the attributes mentioned above.

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

MVA and other recent VA technologies offer the highest static contrast ratios of any panel technology. This allows for an outstanding visual experience for movie enthusiasts and other users seeking depth of detail. Higher-end, feature-rich MVA displays offer the consistent, authentic color representation needed by graphic designers and other pro users.

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

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

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

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

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

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

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

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

Ultimately, budget and feature preferences will determine the best fit for each user. Among the available monitors of each panel type there will also be a range of price points and feature sets. Additionally, overall quality may vary among manufacturers due to factors related to a display’s components, manufacturing, and design.

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

When choosing a new computer monitor, the type of panel used by the display is a key piece of information that reveals a lot about how the monitor will behave and perform. By far the most common types of display panels are TN, IPS and VA.

Monitor LCD panels are made up of many layers, including a backlight, polarizing filters and the liquid crystal layer. It"s this liquid crystal layer that determines the intensity of light let through from the backlight, and in what colors, whether red, green or blue. To control this intensity, a voltage is applied to the liquid crystals, which physically moves the crystals from one position to another. How these crystals are arranged and how they move when voltage is applied, is the fundamental difference between TN, VA and IPS.

Our original explainer about display technology and the difference between TN vs. VA vs. IPS was published almost three years ago, and while most of that information remains accurate to this day, we"ve seen the introduction of much faster IPS displays as well as a revolutionary updates to VA panels, particularly from Samsung Odyssey gaming monitors. We"ve also since tested over 100 monitors, so we have a lot more insights to share about performance.

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

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

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

There are various subvariants to these technologies which can tweak things further, and you"ll also see different brand names depending on the panel manufacturer. For example, AU Optronics use "AHVA" to refer to an IPS-type panel, not a VA panel. Samsung use PLS, while brands like LG simply use "IPS". Then on the VA side we have AU Optronics "AMVA" and Samsung"s "SVA" among others.

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

The most immediately obvious difference when viewing a TN, IPS or VA panel for the first time is in viewing angles. This is one area that hasn"t significantly changed since the introduction of these technologies.

TN panels have the weakest viewing angles, with significant shift to color and contrast in both the horizontal and especially vertical directions. Typically viewing angles are rated as 170/160 but realistically you"ll get pretty bad shifts when viewing anywhere except for dead center. Higher-end TNs tend to be somewhat better but overall this is a big weakness for TNs and can impact the experience for productivity where any shifts to color impact accuracy for things like photo editing.

VA and IPS panels are significantly better for viewing angles, with IPS panels generally giving the best overall experience. Here you"ll commonly see 178/178 ratings for viewing angles, and while there can still be some shift to colors and brightness viewing at off-center angles, this will be far less noticeable than on a TN panel. Of all the IPS panels we"ve reviewed over the years, I"d describe the majority of them as having excellent viewing angles, a non-issue for modern IPS displays.

Because the liquid crystal layer is separate to the backlight layer, there is no technical reason why TN, IPS or VA monitors should differ in terms of brightness. Across the 100 displays we"ve tested using our latest test suite, the average SDR brightness for IPS panels was 385 nits, versus 367 nits for TN and 346 nits for VA - so really there"s not much of a difference.

Contrast ratio, on the other hand, is where another major difference occurs. TN panels have the worst contrast ratios, with the twisting technique not particularly great at producing deep blacks. In the best cases you"ll see contrast ratios around 1000:1, but typically after calibration these numbers are lower, in the 700:1 to 900:1 range. Of the monitors we"ve tested, the average TN has a contrast ratio of 872:1, which is poor so if you want rich, beautiful blacks - well maybe just buy an OLED but if you"re buying LCD, don"t get a TN.

IPS is the next step up, though generally IPS contrast ratios aren"t that different from TN. In the worst cases - in particular LG"s current line-up of Nano IPS panels - you won"t see contrast performance any different from a typical TN, with a ratio below 1000:1. However outside of those worst cases, it"s much more common to see contrast at or above 1000:1, with some best case examples pushing up to 1500:1 which is about the ceiling I"ve seen for IPS. Of the IPS panels we"ve tested, an average contrast ratio of 1037:1 was recorded, 19% higher than the average contrast of a TN.

If you really want an LCD to produce deep blacks though, you"ll have to go with a VA panel. The design of these panels is much more conducive to great contrast ratios, which typically start at 2000:1, higher than even the best IPS alternatives.

It"s also worth mentioning that while IPS panels tend to be a middle ground for contrast they do suffer from a phenomenon called "IPS glow," which is an apparent white glow when viewing dark imagery at an angle. The best panels exhibit minimal glow but it"s still an issue across all displays of this type, and can vary between individual units.

Before when discussing TN vs. VA vs. IPS, we spent some time talking about the differences between TNs, VAs and IPS in terms of bit depth -- or the difference between 6-bit, 8-bit and 10-bit panels. But we feel this is less relevant these days when the vast majority of displays are native 8-bit panels, with the exception of a few low-end panels that are 6-bit, and a few professional grade high-end panels that are 10-bit.

It remains the case that most displays advertised as "10-bit" or having "1 billion colors" are not true 10-bit panels, instead achieving this through FRC or dithering, and the type of LCD panel technology makes little difference.

There also isn"t a significant difference these days between LCD types when it comes to coverage of "standard" color spaces like sRGB or Rec. 709, which is used by default in Windows and is widely used for video content.

Even TN panels, which historically have had the "worst" color quality, these days will cover over 95% of the sRGB color space at a minimum for any monitor worth buying. The exceptions to this are entry-level junk some OEMs like to punish their low-end laptop buyers with; it"s rare for a desktop monitor to go below 90% sRGB coverage and certainly you shouldn"t buy it if it does.

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

As far as gaming monitors are concerned, which is the majority of monitors we test, it"s uncommon for TN panels to exceed the sRGB color space and produce a wide color gamut. We"ve seen it on occasion, with DCI-P3 coverage topping out around 92% in the best cases, but the majority of TN displays are standard gamut which is fine for SDR content.

The next best panel type for color gamut is VA. Some entry-level VAs will start at only sRGB coverage, but today"s wide gamut VA monitors typically cover between 85 and 90% DCI-P3, or up to around 66% of Rec. 2020. They don"t generally have adequate Adobe RGB coverage (below 85%), making them most suited to a basic wide gamut experience for videos or games. We"ve also yet to test a VA monitor with a really wide color gamut, like 98% DCI-P3, despite the highest end models of today using Quantum Dot enhancement films. Still, VA is decently mid-range for gamut coverage.

If you want the widest color gamut, you"ll need to get an IPS monitor. While basic IPS panels will be limited to sRGB only, the best wide gamut IPS displays offered these days can achieve much higher gamuts than TN or IPS.

We"ve measured up to 97% DCI-P3 and over 99% Adobe RGB in the same panel - usually a high-end model from AU Optronics - which leads to excellent Rec. 2020 coverage above 80%. This tends to make IPS the most, or at times only suitable technology for color critical wide gamut work like video or photo editing, and it"s the tech I"d choose for that task.

Time to talk about speed. Whereas before there was a pretty clear cut distinction between the technologies: TN was the fastest, IPS sat in the middle, and VA was the slowest. In 2021, that is no longer the case, and there"s a lot less separating each technology.

The highest refresh rate displays on the market today are capable of 1080p 360Hz speeds, and use an IPS panel from AU Optronics, not a TN. There is lower demand for TN panels than other panel types these days, so a lot of development effort on high refresh models has gone into IPS instead. This makes IPS the highest refresh technology for now, with all three technologies being available at 1440p 240Hz.

Response times have also improved substantially for IPS and VA monitors, especially for high-end panels. There is no longer a clear distinction between TN and the rest of today"s contenders, thanks to big speed gains headed by LG"s Nano IPS and Samsung"s new-gen VA.

The fastest TN panels that we"ve measured using our current, strict test methodology are able to hit the 4ms mark on average with a cumulative deviation of around 400. Cumulative deviation tells us how close a monitor"s response times get to the ideal instant response, and also show the balance between response times and overshoot. The HP Omen X 27 is definitely a fast monitor with its 1440p 240Hz spec. However, the Samsung Odyssey G7 and G9 are actually slightly faster, with response times between 3.4 and 4.0 ms and cumulative deviation below 400.

This puts the best VA monitors of today slightly ahead of the best TN monitors that we"ve tested, which we definitely couldn"t have said a few years ago. With these new panels, Samsung have also fixed the unsightly dark level smearing issue that plagued last-generation VA panels, giving the latest VA panels an overall experience similar to the best LCDs have to offer.

Meanwhile over at the IPS camp, the best IPS panels are slightly slower than VA and TN, but still highly competitive with the best of today. The fastest we"ve seen is a response time average of 4.5ms, with cumulative deviation around 460. That"s less than 20% off the best from other technologies, giving us a pretty small difference in 2021 between the three LCD panel types in a best vs best comparison.

With that said, this discussion of response times only applies to high end monitors. Currently in the mid-range and entry-level markets, the performance differences between TN, IPS and VA are more traditional. TN monitors can still be quite fast, with performance in the 4ms range even with basic 1080p 144Hz panels. Basically if you buy a TN in any market segment, you know it will be fast.

The next step down is IPS in lower price segments, with performance varying a bit depending on the exact model. The reason for this is that mid-range and entry-level IPS monitors tend to use more last-generation panels, which aren"t as fast as the best of today. Still, performance between 6 and 9ms on average is pretty common, and cumulative deviation is still quite competitive, especially in the value-oriented IPS market. Not as fast as TN, but still generally good for motion clarity.

Budget-oriented VA panels are, unfortunately, nowhere near as fast as the best panels of today used in Samsung"s Odyssey G7 and G9 series. It"s much more common to get a 9ms to 13ms average response time here, which puts the best budget VA panels behind an average budget IPS in performance. You"ll also get dark level smearing, which is seen as a dark trail following moving objects, which you don"t get with the other two LCD technologies.

Backlight strobing or black frame insertion is also a popular feature these days for some, particularly those after a high performance gaming monitor for esports. Generally speaking, the performance of backlight strobing is dictated by response time performance, so you can get good results with all three monitor types depending on the implementation, especially with high-end panels.

However these days the most focus tends to go into TN-based esports-oriented monitors when it comes to backlight strobing, so monitors like the BenQ XL2546K can be highly attractive offerings and preferred over the best IPS or VA monitors in this feature. We"ve also seen really good implementations with IPS and VA monitors, but TN is known to be the best.

Summarizing each of the three main LCD technologies is much harder today than in previous years, as there"s been a lot of focus on improving IPS and VA panels. This has led to much better gaming monitors for all, and many more displays to analyze and keep us busy which is always a good thing.

If we had to summarize the LCD ecosystem today... TN panels are a dying breed and their main strengths have been countered in recent years. TN panels are still very fast and great for competitive gaming, but aren"t as much of an outright speed leader anymore, especially at the high end. The main advantage to buying a TN is their affordability and consistency of speed even with entry-level panels, but this comes with weaknesses like viewing angles, contrast ratio and gamut coverage, which makes them unsuitable for a lot of stuff and probably not what you"d want to choose these days.

VA panels are a real mixed bag. At the high end, VAs are very competitive with excellent motion performance, no dark level smearing, decent contrast ratios and good colors. They have to some degree replaced IPS as the middle-ground technology that offers a bit of everything. However in the lower-end of the market, VAs retain the great contrast ratios they are known for, but suffer in motion performance due to the use of last-generation panels and end up quite slow. That"s offset by affordable prices which makes them a decent budget buy in some monitors.

IPS panels have received the most attention and continue to improve each year. IPS monitors are typically the most balanced choice, with strengths in many areas including motion performance, gamut coverage and viewing angles. These strengths tend to apply consistently in all market segments, whether high-end or entry-level, and that can make IPS a great bang for buck option.

Due to the prevalence of flat panels with great uniformity and very wide gamuts, IPS is also the most suitable technology for gaming and content creation on the same display, though contrast ratios are still well behind what VA panels can achieve.

But really there"s no right answer to which monitor technology is best. You might want excellent black levels and great speed, in which case a high-end VA is best for you. Or you might want Adobe RGB coverage, in which case you"ll need to go IPS. There"s no overall winner in the LCD space right now, it"s all about which individual qualities matter most to you.

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

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

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

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

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

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

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

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

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

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

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

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

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

VA panels also give you a lot of range to stretch your budget, whether you"re just looking for a slightly-above-average display or one to really bring out the best in your hardware. From 1080p to 4K, it"s easy to find a great VA-equipped display that won"t break the bank or go ultra-premium with one of Samsung"s top-of-the-line products. The company"s latest G7 (or Odyssey G9, if you have the space and the money for it) feature outstanding HDR support, incredible contrast, and great color, if you"re willing to invest in their high price points.

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

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

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

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

Because OLED TVs are newer and generally more expensive, the average buyer is looking at LED/LCD TVs right now. And although there are several features and specifications to consider while shopping—the brand name, HDR compatibility, and refresh rate, just to name a few—there’s one important hardware spec that isn’t widely advertised: LCD panel type.

LED/LCD TVs are so called because of the two things that make up their displays: an LED (Light Emitting Diode) backlight and an LCD (Liquid Crystal Display) panel for that backlight to shine through. LED backlights vary between a variety of implementations, but modern LCDs generally come in one of two panel technologies: IPS (In-Plane Switching) and VA (Vertical Alignment).

Unlike other hardware specifications (which are usually listed on the side of a TV box or on the manufacturer’s website), information about a TV’s LCD panel type is a bit more inside baseball. But panel type has a far greater impact on a TV’s performance than you might expect—it affects contrast, color, and viewing angle as well.

Individual pixels in an LCD display are made up of liquid crystals activated by voltage. How the display arranges its crystals is part of what sets IPS panels apart from VA panels.

IPS (In-Plane Switching) panels are a common display type for both the best computer monitors and TVs. Without getting too far down the rabbit hole, let’s talk a little about how IPS panels distinguish themselves from other types.

Every non-OLED TV on the market today is an LCD TV powered by LED lighting. Individual pixels in an LCD display are made up of liquid crystals activated by voltage—this is what produces color. An IPS panel aligns its crystals horizontally, parallel to the glass substrate.

IPS technology was developed in part to improve the color and wide viewing angle performance of a display. There"s also a range of variations under the IPS umbrella, including ADS, S-IPS, H-IPS, e-IPS, P-IPS, and PLS (Plane-to-Line Switching). But, while they all differ marginally from one another in operation, their core functionality (as compared to VA panels) is the same.

VA (Vertical Alignment) panels represent another common display type, used for both computer monitors and TVs, but especially for the latter where they greatly outnumber their IPS counterparts. Most LED/LCD TVs you"ll find on the market use a VA panel. While IPS panels align their liquid crystals horizontally, VA panels align them—you guessed it—vertically. They run perpendicular to the glass substrate rather than parallel to it. When met with voltage, the crystals tilt, letting light through and producing color.

This positioning changes how the liquid crystals behave. Without any voltage, the liquid crystals in a VA panel do not tilt, which is a better outcome if your goal is to block light and create image depth. Like with IPS, VA panels also come in a few varieties: PVA, S-PVA, and MVA, though again, their core functionality (as compared to IPS panels) is the same.

TN (Twisted Nematic) is an older LCD display type. They"re still relatively common display types for computer monitors—thanks to their lightning fast response times and excellent handling of motion blur. TN panels aren"t typically used in TV production anymore, though.

The cornerstone of picture quality, contrast ratio refers to the range between a display’s darkest black levels and brightest highlights. Because VA