largest lcd screen size free sample

The MPC2500XLCD Large ( 240 x 128 ) LCD screen doubles the screen size of the MPC2500. The XLCD screen utilizes the mounting points of the original factory LCD. This new LCD screen comes mounted in the plastic holder surround and easily drops in the place of the old one. With a simple install of the included operating system update, you upgrade to a much larger LCD screen. The LCD screen is available in two colors (White and Blue), which can also be inverted (see pictures) using a function in the JJ OS128 operating system included for free. The operating system allows this larger LCD screen to utilize the full capabilities of the MPC2500 with a larger overall LCD screen footprint.

LCD Screen with complete tilt housing, and plug and play design wire harness. These screens DO NOT need an external contrast POT like you may have seen in the early release of the screens and in the install video. You will need to use the brass grommets from your old LCD screen when installing the XLCD.

The LCD screen is very easily installed as you can see from our instructional video linked below. Typical install takes about 20-30 minutes and only requires a Phillips screwdriver. (Please note: MPCstuff is not responsible for any issues that may arise when you are installing screen).

ABOUT THE OPERATING SYSTEM: To learn more about the operating system, click here. There are a several operational videos below. If you are interested in a more full-featured version of the OS, the paid version of the JJ OS made specifically for this LCD screen is available from JJ OS click here.

PLEASE NOTE: Akai is a registered trademark of Akai Pro. These LCD screens are not made or endorsed by Akai Pro. The OS is made by JJ OS. They are aftermarket products and should be installed at your own risk. Without installing the new OS the LCD screen will only show on half of the screen, just as it did with the smaller LCD screen.

The MPC 1000 XLCD Large ( 240 x 128 ) LCD screen doubles the screen size of the MPC1000. The XLCD screen utilizes the mounting points of the original factory LCD. This new screen comes mounted in the plastic holder surround and easily drops in the place of the old one. With a simple install of the included operating system update, you upgrade to a much larger LCD screen.

The LCD screen is available in two colors (White and Blue), which can also be inverted using a function in the JJ OS128 operating system included for free. The operating system allows this larger LCD screen to utilize the full capabilities of the MPC1000 with a larger overall LCD screen footprint.

- LCD Screen with complete snap in housing, and plug and play design wire harness foreasy install and uninstall.Please Note: The housings are B Stock and have a small line on the top of them. If you have any questions about this please email us at sales@mpcstuff.com Its small but slightlynoticeable. It does not hinder usage of the LCD screen.

The LCD screen is very easily installed as you can see from our instructional video linked below. Typical install takes about 10-15 minutes and only requires a Phillips screwdriver and flat head screwdriver. (Please note: MPCstuff is not responsible for any issues that may arise when you are installing screen).

To learn more about the operating system, click here. There are several operational videos below. If you are interested in a more full-featured version of the OS, the paid version of the JJ OS made specifically for this LCD screen is available from JJ OS click here.

PLEASE NOTE: Akai is a registered trademark of Akai Pro. These LCD screens are not made or endorsed by Akai Pro. The OS is made by JJ OS. They are aftermarket products and should be installed at your own risk.

The reason many phones use big lcd screen rather than LED or AMOLED screens is because of their relatively cheaper cost. Additionally, smartphone lcd screens also use less power than LED or AMOLED screens and therefore help conserve battery power. With today"s powerful apps, this can be a real advantage for those who do not like to or do not have the ability to charge their phone frequently.

Explore the extensive selection of wholesale big lcd screen LCD displays, TFT, and HMI that can be used across a range of industries, including domestic, medical, industrial, automotive, and many others. You can choose from a number of standard industry sizes and find the big l display screen that are applicable to your required use. If you would like options that allow a smaller environmental footprint due to low power consumption, you can browse the Chip-on-Glass (COG) LCDs. COGs are designed without PCBs so have a slimmer profile.

Alibaba.com features a broad collection of smart and advanced big lcd screen equipped with bright, capacitive screens for the most affordable prices. These big lcd screen are made implying the latest technologies for a better, enhanced, and smart viewing experience. These products are of optimal quality and are sustainable so that they can last for a long time. Buy these big lcd screen from the leading wholesalers and suppliers at discounted prices and fabulous deals. The smart and capacitive big lcd screen offered on the site are applicable for all types of ads displaying, mobile screens, LCD monitors, and many more. You can use them both for commercial as well as residential purposes. These marvellous big lcd screen are provided with bright and strong backlights available in distinct colors for a wonderful screen viewing experience. These big lcd screen are not just used for LCD screens but also are used for TFT, LED, and other.

a line of extreme and ultra-narrow bezel LCD displays that provides a video wall solution for demanding requirements of 24x7 mission-critical applications and high ambient light environments

The screen size calculator can help you determine the screen dimensions. Have you ever wondered what the statement, the diagonal of the screen is equal to 40" means? How much space does it take up on the wall? What are its height and width? Here you can determine the monitor size or phone screen dimensions. If you"re curious enough, you can even determine how to measure a curved TV screen size!

If you want to find the ideal size of your TV or its distance from your eyes, check out this TV size calculator. Another useful tool is this great projector calculator, which can help in fulfilling your dreams about a home cinema.

The aspect ratio is the relationship between the height and width of a rectangular display. Every device with a screen uses that value – your laptop, smartphone, tablet, monitor, or projector. However, it doesn"t tell you how big a screen is. It only explains the proportion between the height and the width.

The value 5.8-inch stands for the diagonal of the screen. To check whether that smartphone will fit in your pocket, you will need to know one more parameter - the aspect ratio, the width, or the screen"s height. In our example, let"s assume we know the aspect ratio, and it is equal to 16:9:

Let"s say we want to compare two smartphones: The Apple iPhone X with a 5.85-inch display and the iPhone 8 Plus, which has a 5.5-inch screen. We could expect that the former would have a bigger screen, but we can"t forget about aspect ratios! iPhone X has a narrower screen with a 2.17:1 ratio, and iPhone 8 Plus has a standard 16:9.

Repeat the steps for iPhone 8 Plus, choosing a 16:9 aspect ratio and 5.5-inch diagonal. And what do you get? 4.8" for screen width, 2.7" height, and 12.93 in² screen size. So even though the first iPhone has a longer diagonal, the screen size is smaller than in iPhone 8 plus. (iPhone X also has the big cutout and the curved edges, but we are not taking them into account - even with that simplification, the screen area is smaller).

Our screen size calculator offers the possibility to estimate both a flat and curved screen size. As we"ve already learned how to proceed with a flat monitor, let"s see the differences for a curved one.

How do I measure a curved TV screen size, then? - you may ask. To evaluate the screen"s length, height, and area, we can follow the same equations as for a flat one:

The crucial geometric difference between the curved and flat monitor is that the curved one occupies more space perpendicular to the screen from a user"s point of view while being a little narrower. We call these dimensions depth and width, respectively. To avoid confusion, we can depict all essential measures in a single picture.

Assuming the screen"s length is the arc length of a circle, we can find the base depth and width by using the following formulas which we use in the screen size calculator:

If you"re after the size of the screen"s diagonal, you can either measure it or use Pythagoras" theorem where a & b are the screen"s length and width.

The size of a 16:9 screen depends on how long the screen"s diagonal is, as 16:9 is merely the ratio of the screen"s width to its height. If you have the screens diagonal, you can multiply that measurement by 0.872 to get the screen"s width. You can also multiply the diagonal by 0.49 to get the screen"s height. Then, if you wish to find the screen area, multiply the width by the height.

The U.S. large screen display market size was valued at $2.91 billion in 2020, and is projected to reach $8.45 billion by 2030, registering a CAGR of 11.0% from 2021 to 2030. Large screen displays are a class of large display screen formats, which improve the visual experience with its professional-grade image quality and are mostly used for endorsing and advertising. These displays have replaced the traditional small and micro-display screens with large wall-sized LED and LCD displays, used across various industries. They are designed for applications that require the vendors to engage their customers/audiences with its wider viewing angle and to extract maximum effectiveness from the marketing messages. In addition, these displays ensure higher durability and enhanced performance as against traditional display screens. Large screen displays are mostly suited for retail store, lobby, control room, or other professional application.

In the current business scenario, it is crucial to employ efficient systems for advertising, owing to the development of numerous user engagement devices and applications. Large screen displays are a cost-effective medium of promoting and branding any product or service; this advantage drives the U.S. large screen display market growth.

In addition, these displays provide high wavelength uniformity for fine pixel pitch displays. Further, they consume less power and deliver increased brightness, ultrahigh definition picture quality, improved color saturation, and faster response rate as compared to small OLEDs and LCDs, and thus, are suited for both indoor and outdoor displays.

Rise in demand for bright and power-efficient display panels and rapid digitalization and decline in demand for traditional billboards are the factors that drive the growth of theU.S. large screen display market.However, deployment of widescreen alternatives such as projectors and screenless displays, hampers the market growth to a certain extent. Furthermore, emerging display technology such as MicroLED and quantum dots and increase in preference of electronic giants toward large-screen displays offer lucrative opportunities for the U.S. large screen display market.

The U.S. large screen display market is segmented on the basis of screen size, application, product, location, end user, and region. By screen size, the market is classified into 80 Inch to 99 Inch, 100 inch to 149-inch, 150 inch to 199-inch, 200 inch to 300 inch, and above 300-inch segments. In 2020, the 80 Inch to 99 Inch segment secured highest revenue share and is expected to follow same trend during forecast period. Based on application, the market is divided into B to B and B to C applications, among which B to B segment is expected to dominate the U.S. large screen display market share.

By product, the U.S. large screen display market is categorized into single screen, video wall and projector. Based on location, it is segregated into indoor and outdoor.  By end user, it is categorized into retail, education, healthcare, corporate, stadiums, media & entertainment, government, and others. On the basis of region, it is analyzed across North America, Europe, Asia-Pacific, and LAMEA. The corporate segment was the highest contributor to the market in 2020, owing to increase in adoption of large screen displays in conference rooms, cafeterias, and work floors help engage their employees, visitors, and create good environment.

The notable factors positively affecting the U.S. Large Screen Display Market include rise in demand for bright and power-efficient display panels, rapid digitalization, and decline in demand for traditional billboards. However, deployment of widescreen alternatives such as projectors and screenless displays, is expected to hinder the market growth. Moreover, emerging display technologies such as MicroLED & quantum dots and increase in preference of electronic giants toward large screen displays are expected to offer huge market opportunities in the coming years. Each of these factors is anticipated to have a definite impact on the U.S. large screen display market during the forecast period.

The key players profiled in the U.S. large screen display market report include iSEMC, Koninklijke Philips N.V., LG Electronics Inc., NEC Corporation, Panasonic Corporation, Planar Systems, Samsung Electronics Co. Ltd., Sony Corporation, ViewSonic Corporation, and Volanti Displays. These key players have adopted strategies, such as product portfolio expansion, mergers & acquisitions, agreements, geographical expansion, and collaborations to enhance their position in the U.S. large screen display industry. In 2019, Planer Systems launched 100-inch 4K LCD display with Ultra HD resolution (3840 x 2160), which offers high brightness of 700 nits and wide color gamut for stunning image quality and deep, rich color reproduction.

The global outbreak of COVID-19 has significantly affected the growth of the U.S. large screen display market in 2020, and the market is estimated to witness relatively slow growth till the end of 2021. Further, the global selling market was primarily hit by several obstacles due to COVID-19 in the manufacturing and selling industries such as lack of availability of raw material and skill workforce, contractual obligations, and project delays or cancellations. Furthermore, the negative impact on outdoor advertisement solution in 2020 decreased the demand for large screen displays from commercial sector. However, rise in demand for VR gaming solutions is expected to witness relatively high growth by the end of 2021.

Key Benefits For StakeholdersThis study comprises analytical depiction of the U.S. large screen display market opportunities along with the current trends and future estimations to depict the imminent investment pockets.

For screen sizes (typically in inches, measured on the diagonal), see Display size. For a list of particular display resolutions, see Graphics display resolution.

One use of the term display resolution applies to fixed-pixel-array displays such as plasma display panels (PDP), liquid-crystal displays (LCD), Digital Light Processing (DLP) projectors, OLED displays, and similar technologies, and is simply the physical number of columns and rows of pixels creating the display (e.g. 1920 × 1080). A consequence of having a fixed-grid display is that, for multi-format video inputs, all displays need a "scaling engine" (a digital video processor that includes a memory array) to match the incoming picture format to the display.

For device displays such as phones, tablets, monitors and televisions, the use of the term display resolution as defined above is a misnomer, though common. The term display resolution is usually used to mean pixel dimensions, the maximum number of pixels in each dimension (e.g. 1920 × 1080), which does not tell anything about the pixel density of the display on which the image is actually formed: resolution properly refers to the pixel density, the number of pixels per unit distance or area, not the total number of pixels. In digital measurement, the display resolution would be given in pixels per inch (PPI). In analog measurement, if the screen is 10 inches high, then the horizontal resolution is measured across a square 10 inches wide.NTSC TVs can typically display about 340 lines of "per picture height" horizontal resolution from over-the-air sources, which is equivalent to about 440 total lines of actual picture information from left edge to right edge.

Some commentators also use display resolution to indicate a range of input formats that the display"s input electronics will accept and often include formats greater than the screen"s native grid size even though they have to be down-scaled to match the screen"s parameters (e.g. accepting a 1920 × 1080 input on a display with a native 1366 × 768 pixel array). In the case of television inputs, many manufacturers will take the input and zoom it out to "overscan" the display by as much as 5% so input resolution is not necessarily display resolution.

The eye"s perception of display resolution can be affected by a number of factors – see image resolution and optical resolution. One factor is the display screen"s rectangular shape, which is expressed as the ratio of the physical picture width to the physical picture height. This is known as the aspect ratio. A screen"s physical aspect ratio and the individual pixels" aspect ratio may not necessarily be the same. An array of 1280 × 720 on a 16:9 display has square pixels, but an array of 1024 × 768 on a 16:9 display has oblong pixels.

An example of pixel shape affecting "resolution" or perceived sharpness: displaying more information in a smaller area using a higher resolution makes the image much clearer or "sharper". However, most recent screen technologies are fixed at a certain resolution; making the resolution lower on these kinds of screens will greatly decrease sharpness, as an interpolation process is used to "fix" the non-native resolution input into the display"s native resolution output.

While some CRT-based displays may use digital video processing that involves image scaling using memory arrays, ultimately "display resolution" in CRT-type displays is affected by different parameters such as spot size and focus, astigmatic effects in the display corners, the color phosphor pitch shadow mask (such as Trinitron) in color displays, and the video bandwidth.

Most television display manufacturers "overscan" the pictures on their displays (CRTs and PDPs, LCDs etc.), so that the effective on-screen picture may be reduced from 720 × 576 (480) to 680 × 550 (450), for example. The size of the invisible area somewhat depends on the display device. Some HD televisions do this as well, to a similar extent.

Many personal computers introduced in the late 1970s and the 1980s were designed to use television receivers as their display devices, making the resolutions dependent on the television standards in use, including PAL and NTSC. Picture sizes were usually limited to ensure the visibility of all the pixels in the major television standards and the broad range of television sets with varying amounts of over scan. The actual drawable picture area was, therefore, somewhat smaller than the whole screen, and was usually surrounded by a static-colored border (see image below). Also, the interlace scanning was usually omitted in order to provide more stability to the picture, effectively halving the vertical resolution in progress. 160 × 200, 320 × 200 and 640 × 200 on NTSC were relatively common resolutions in the era (224, 240 or 256 scanlines were also common). In the IBM PC world, these resolutions came to be used by 16-color EGA video cards.

The availability of inexpensive LCD monitors made the 5∶4 aspect ratio resolution of 1280 × 1024 more popular for desktop usage during the first decade of the 21st century. Many computer users including CAD users, graphic artists and video game players ran their computers at 1600 × 1200 resolution (UXGA) or higher such as 2048 × 1536 QXGA if they had the necessary equipment. Other available resolutions included oversize aspects like 1400 × 1050 SXGA+ and wide aspects like 1280 × 800 WXGA, 1440 × 900 WXGA+, 1680 × 1050 WSXGA+, and 1920 × 1200 WUXGA; monitors built to the 720p and 1080p standard were also not unusual among home media and video game players, due to the perfect screen compatibility with movie and video game releases. A new more-than-HD resolution of 2560 × 1600 WQXGA was released in 30-inch LCD monitors in 2007.

In 2010, 27-inch LCD monitors with the 2560 × 1440 resolution were released by multiple manufacturers, and in 2012, Apple introduced a 2880 × 1800 display on the MacBook Pro. Panels for professional environments, such as medical use and air traffic control, support resolutions up to 4096 × 21602048 × 2048 pixels).

In this image of a Commodore 64 startup screen, the overscan region (the lighter-coloured border) would have been barely visible when shown on a normal television.

When a computer display resolution is set higher than the physical screen resolution (native resolution), some video drivers make the virtual screen scrollable over the physical screen thus realizing a two dimensional virtual desktop with its viewport. Most LCD manufacturers do make note of the panel"s native resolution as working in a non-native resolution on LCDs will result in a poorer image, due to dropping of pixels to make the image fit (when using DVI) or insufficient sampling of the analog signal (when using VGA connector). Few CRT manufacturers will quote the true native resolution, because CRTs are analog in nature and can vary their display from as low as 320 × 200 (emulation of older computers or game consoles) to as high as the internal board will allow, or the image becomes too detailed for the vacuum tube to recreate (i.e., analog blur). Thus, CRTs provide a variability in resolution that fixed resolution LCDs cannot provide.

As far as digital cinematography is concerned, video resolution standards depend first on the frames" aspect ratio in the film stock (which is usually scanned for digital intermediate post-production) and then on the actual points" count. Although there is not a unique set of standardized sizes, it is commonplace within the motion picture industry to refer to "nK" image "quality", where n is a (small, usually even) integer number which translates into a set of actual resolutions, depending on the film format. As a reference consider that, for a 4:3 (around 1.33:1) aspect ratio which a film frame (no matter what is its format) is expected to horizontally fit in, n is the multiplier of 1024 such that the horizontal resolution is exactly 1024•n points.2048 × 1536 pixels, whereas 4K reference resolution is 4096 × 3072 pixels. Nevertheless, 2K may also refer to resolutions like 2048 × 1556 (full-aperture), 2048 × 1152 (HDTV, 16:9 aspect ratio) or 2048 × 872 pixels (Cinemascope, 2.35:1 aspect ratio). It is also worth noting that while a frame resolution may be, for example, 3:2 (720 × 480 NTSC), that is not what you will see on-screen (i.e. 4:3 or 16:9 depending on the intended aspect ratio of the original material).

On 2D displays, such as computer monitors and TVs, the display size or viewable image size (VIS) is the physical size of the area where pictures and videos are displayed. The size of a screen is usually described by the length of its diagonal, which is the distance between opposite corners, usually in inches. It is also sometimes called the physical image size to distinguish it from the "logical image size", which describes a screen"s display resolution and is measured in pixels.

The size of a screen is usually described by the length of its diagonal, which is the distance between opposite corners, usually in inches. It is also sometimes called the physical image size to distinguish it from the "logical image size," which describes a screen"s display resolution and is measured in pixels.

The method of measuring screen size by its diagonal was inherited from the method used for the first generation of CRT television, when picture tubes with circular faces were in common use. Being circular, the external diameter of the bulb was used to describe their size. Since these circular tubes were used to display rectangular images, the diagonal measurement of the visible rectangle was smaller than the diameter of the tube due to the thickness of the glass surrounding the phosphor screen (which was hidden from the viewer by the casing and bezel). This method continued even when cathode ray tubes were manufactured as rounded rectangles; it had the advantage of being a single number specifying the size, and was not confusing when the aspect ratio was universally 4:3. In the US, when virtually all TV tubes were 4:3, the size of the screen was given as the true screen diagonal with a V following it (this was a requirement in the US market but not elsewhere). In virtually all other markets, the size of the outer diameter of the tube was given. What was a 27V in the US could be a 28" elsewhere. However the V terminology was frequently dropped in US advertising referring to a 27V as a 27". This was not misleading for the consumer as the seller had to give the actual screen size by law. Flat panel displays by contrast use the actual diagonal of their visible display size, thus the size is the actual size presented to the viewer in all markets. This means that a similarly specified size of display will be larger as a flat panel display compared with a cathode ray tube display.

When the common aspect ratio went from 4:3 to 16:9, the new widescreens were labeled with a W in the US. A screen that is approximately the same height as a 27V would be a 32W. Vizio and other US TV manufacturers have introduced even wider screens with a 21:9 aspect ratio in order to match aspect ratios used in cinemas. In order to gauge the relative sizes of these new screens, the screen aspect must be considered. In a commercial market where multiple aspect ratios are being sold, it will always take two numbers to describe the screen size, some combination of diagonal, aspect ratio, height or width.

Set sizes are frequently given as a "class" as screens from different manufacturers will have slight differences in size. However the "class" should be within 1/2" of the actual size. The reasons for the different sizes within a class stem from differences in the manufacturers" equipment. As manufacturers move from one size to another, newer larger sizes must fit on the same size glass, though with fewer displays being cut from it. Some sizes fit well and maximize glass utilization, other sizes fit more poorly and waste glass. As an example, in some cases, increasing the screen size by even 0.1" can cause an LCD manufacturer to go from 12 screens fitting on their glass sheet to 9. This would make them uncompetitive with other screen makers.

The resolution of the human eye (with 20/20 vision) is about one minute of arc. For full HDTV resolution, this one minute of arc implies that the TV watcher should sit 4 times the height of the screen away. At this distance the individual pixels can not be resolved while simultaneously maximising the viewing area. So the ideal set size can be determined from the chart below by measuring the distance from where the watcher would sit to the screen in centimeters (or inches), dividing that by 4, and comparing with the screen heights below. At this distance, viewers with better than 20/20 vision will still be able to see the individual pixels.

The TV image is composed of many lines of pixels. Ideally, the TV watcher sits far enough away from the screen that the individual lines merge into one solid image. The watcher may sit even farther away and still see a good picture, but it will be a smaller portion of their visual field.

Common screen dimensions are listed in the table below (the most common diagonal dimensions in inches as of 2020 are bolded). If the display is not listed, then the following equations can be used. Note that D is the diagonal (in centimeters or inches), W is the width (in pixels), and H is the height (in pixels).

The first iPhone, released way back in 2007, featured a 3.5 inch screen with a resolution of 320x480 pixels and 163 DPI. Smartphone screens have come a long way since then, with the latest iPhones offering up to 1242x2688 pixels and 485 DPI (the iPhone XS Max).

We"re not a million miles from the maximum resolution discernible by the human eye. According to FluidUI, that limit is around 2190 DPI for a screen held at 4 inches for an average adult.

DeviceAtlas allows you to detect the viewport, resolution, screensize and DPI of almost 53,000 devices in real-time, giving your content optimization efforts the edge over your competitors.

How big is big enough? When it comes to computer monitors, you want something that can fit comfortably on your desk while giving you plenty of screen real estate. While in the past sub-20-inch monitors were commonplace, today, unless you’re really constrained for space, there’s no real need to buy anything under 22 inches. For most, 24 inches is going to be a baseline, as you can pick up a number of screens at that size for around $100, and they look fantastic at 1080p.

For those who want more than that, though, there are plenty of sizes to choose from. Monitors that stretch 27 inches diagonally are increasingly popular, and there are plenty of options beyond 30 inches that are affordable. If you want to go extreme, we’ve even tried some great computer monitors that get close to 50 inches, like Samsung’s CHG90.

While you’ll need to sit well back from those, there’s no denying that they look amazing. They give you the same screen as multiple smaller monitors without a bezel dividing them down the middle. They tend to be rather expensive, though, and if you go really wide, you’ll struggle to find media that can display at close to its native resolution, leaving the picture to either look stretched or surrounded by black.

Anywhere between 24 and 30 inches is going to be perfectly fine for most users. They let you make the most of modern resolutions and color clarity, and they also fit a couple of different web pages open at the same time without needing to use two monitors, which is handy for many professionals. They don’t tend to be too expensive at that size, either, unless you opt for the top-end models.

Today, all the best screens are still LCD monitors that use LED technology for a slim product that saves energy while providing ideal backlighting. We’ve been waiting years for OLED technology to make the transition to PC monitors, it isfinally beginning thanks to brands like LG, but the technology is still relatively rare.

One aspect of PC monitors that you do need to consider, though, is resolution. While 1080p was once the gold standard, today, it’s just the baseline. If you’re happy to spend a little more, there are a few other options worth considering, especially if you want to improve screen space or gaming visuals. Resolution isn’t the be-all and end-all of monitor features, though. In fact, too much resolution on too small of a screen can often be annoying because it shrinks all images down and forces you to enlarge everything to easily read it.

Aspect ratio: The aspect the screen shows images in (length compared to height). A common standard, and your best bet, is 16:9. It works with plenty of content, and it’s great for movies or games. Some fancy monitors like to stretch things out with ratios like 21:9, but that is more suitable for unusual work situations or hardcore gaming. Another common format, 16:10, provides slightly more vertical space for viewing multiple open documents or images. 3:2 is becoming more commonplace in laptops for better web viewing, but that’s rare on stand-alone displays.

Contrast ratio: Contrast ratios tell you the difference between how white and how black a monitor screen can get. Higher contrast ratios are a good sign because that means colors will be more differentiated. However, multiple measurements for contrast ratios exist, and stated specs aren’t very reliable, so take it all with a grain of salt.

Refresh rate: Rated in hertz (Hz), a monitor’s refresh rate is how often it updates the image on your screen. While most support up to 60Hz, some displays now offer much higher refresh rates. That can result in smoother movements on your desktop and support for higher frame rates in games, which can make a big difference in high-paced titles by reducing your input lag. 120Hz to 144Hz is a great range to target, but you could opt for the fastest screens out there with up to 240Hz support. Just make sure you have a high-powered graphics card to back it up.

Response time: Response time indicates how quickly the monitor shows image transitions. A low response time is good for fast-paced action video, twitchy gameplay, and similar activities. Response times are measured in milliseconds, with the best screens able to switch pixels at only a couple of milliseconds, but not everyone needs such fast reactions.

Viewing angle: Viewing angle isn’t as important for a monitor as it is for a TV screen, but if you like to watch shows on your computer with groups of friends, aim for a larger viewing angle so people at the sides can see easily. Anything above 170 degrees is good news here.

There are also curved monitors to consider. They don’t have different resolutions than their flat counterparts, but present a concave curved screen, which can make a difference to the experience and tasks they’re best suited for.

A curved screen can provide a more immersive experience, especially when it comes to certain games (racing games are a favorite for curved ultrawides). This largely benefits single-player games where a user will be comfortable sitting at the center of the screen.

Buying a new TV is often an exciting experience for the entire household (unless it’s because your remote went flying through the screen of your old set). Best of all, thanks to major strides in resolution, upscaling, and backlighting, we can sit closer to our TVs than ever before — withoutthat dreaded pixelation. Do keep in mind though that regardless of the brand you choose, it’s still important to buy an appropriately sized TV for the room you’ll be watching it in. Yes, you’ll notice fewer defects in bigger-sized screens these days, but a large screen in a small room can still become overbearing, especially for your eyes.

Before you decide whether you’re looking for an LCD TV, OLED TV, or Ultra HD TV, you’ll need to decide where you want your television to reside. Once you’ve chosen the location, measure the height, width, and depth of that spot (there may be limitations due to the size of an entertainment center or the amount of space on a wall). Later, when shopping, you can match this up with the measurements of the television itself, not its screen size, to make sure it will fit. You’ll find that some TVs have footprints that are physically larger than others of the same screen size, so always look at the dimensions to see whether it will slot into the space available.

The second size-related consideration is the television’s attached stand. If you aren’t going to mount your new TV on a wall, this will play a big part in how much space it takes up on your console table, and many newer TVs have feet at the far edges. You need to ensure that wherever you plan on placing the television is wide enough to accommodate the stand. You’ll want to be strict here, too. Often, people think it’s safe to let the corners overhang, forgetting that it’s been designed to rest on a flat surface. Fail to do so, and the faintest breath of wind could send the whole thing tumbling over.

Next, think about where you’ll be sitting in relation to the TV. There are TV viewing distance calculators (here is another calculator) that recommend a TV screen size based on your seating distance. If you don’t want to bother with an online calculator, there’s a simplified calculation that you can do to work it out yourself: Measure the distance from your seat to the television in inches and multiply by 0.84. This should give you the ideal screen size and the right size for your space.

This method isn’t perfect, of course. For example, if you are sitting 8 feet from the TV, the calculation calls for an 80-inch screen, and that’s just not realistic for most of us. Most living rooms will do best with at least a 50-inch screen size and, of course, taste and style are going to factor in heavily, as will the viewing angle.You can technically go as big as you like and purchase a larger screen size — just make sure you’re sitting more than 4 feet from the TV itself, and you should be fine.

Experts generally recommend a field of view around 30 to 36 degrees. For a 50-inch TV, that would mean sitting around 5.6 feet away. If you have limited space, you can always use field of view in reverse to pick the size of your TV based on where people will be sitting.

Don’t confuse field of view with viewing angle, which shows how easy it is to see the TV from the side. Viewing angle depends on the panel type, but size can also help.

Remember, when gaming it’s common to sit a bit closer to the TV than when watching a movie. If your TV is going to be used for a gaming hub, it may not have to be as large. Recommendations are still around 40 to 55 inches, but if you know that you’ll be sitting closer to the screen, it’s alright to adjust those numbers down. Remember, the most popular PC monitors for gaming are around 24 to 27 inches because PC gamers are so close to the screen.

If you’re trying to maximize screen real estate on a tight budget, you’re going to have to sacrifice picture quality. As such, we recommend — as per our comprehensive TV buying guide — striking a balance between the two factors for longtime enjoyment. So instead of going for that massive 65-inch 4K TV from an up-and-coming brand that’s on the shelves for just $500, consider opting for the smaller 55-inch, big-name model next to it for $550. Chances are, it has a far better screen and better resolution, and that’ll result in a much more immersive viewing experience, even more so when using HDR. Plus, 55 inches is still not considered a small TV!

You’ll also want to keep in mind the types of content you’ll be viewing. If you’re a Blu-ray enthusiast or 4K streaming connoisseur, your HDTV is constantly displaying the most high-fidelity image your set can deliver. If your larger TV screen size of choice is closer to 80 inches or you’ve opted for a 55-inch but you’re sitting closer to the screen, you won’t notice much distortion in the image. The other side of that coin is that if you’re a big watcher of older DVDs, VHS, and home video formats but your living room is rocking a TV with the same TV dimensions as above, you’ll notice more distortion and imperfections. Know what you like to watch, and how much you like to watch what you like.