do all lcd monitors have hdmi ports quotation

As the coronavirus spreads, you may have been asked to work from home. Instead of leaning over your laptop computer and trying to do everything on its tiny screen, I"ve recommended adding a full-size monitor to your desk.

Depending on where you live, you may not be able to go out to a store to buy a monitor in person. So, I"m going to do my best to tell you what you need to look for. And I"ll keep it inexpensive, since we"re going to assume you"re using a monitor for work instead of gaming or watching 4K videos.

Your laptop probably has a screen size between 12 and 17 inches, measured diagonally. Desktop monitors range in sizes but, most of the time, you"re going to want to go between 19 and 27 inches. You want enough room to spread out your documents and apps, but you also don"t want a big screen taking over your entire desk.

If you"re considering adding two monitors, I think 22 inches is the perfect sweet spot between "too big" and "too small." They"ll go nicely side by side without taking over your entire desk. If you"re just getting a single monitor, consider moving up to 24 or 27 inches.

The most expensive monitors cost hundreds of dollars. But you don"t need to spend that much. I bought a pair of HP 22er 21.5-inch monitors over the weekend for $110 each (on sale.) They"re currently going for about $150 each on HP"s website.

In terms of specs, a 1080p resolution is fine for most people who are just doing work. If you"re going to use it as a gaming monitor, too, then you need to think about all sorts of things that will add to the price, such as a sharper resolution, better refresh rates and more.

You don"t need a curved monitor. They look cool but really don"t add much to the experience. And make sure you get other basics such as an IPS screen for better viewing angles, which most have, and a good contrast ratio, at least 1,000:1, so that you get a good balance between black and white pixels. More expensive monitors will have much better contrast ratios.

Consider other things: Some monitors have built-in speakers, but most don"t, which means the audio will still just come out of your laptop. Does it have an adjustable stand? You may want this if you want to adjust how high or low the monitor sits on your desk. Does it tilt forward and backward? Can it flip 180 degrees? These are other features I don"t need but that you may want.

There are several different ways to connect a laptop to an external display, and the technologies have moved in and out of favor over time. You want to make sure that whatever monitor you buy will connect to your laptop. I"ll walk you through the different types of ports here, including DisplayPort, Mini DisplayPort, HDMI, DVI, VGA and USB-C.

If your laptop has an HDMI port that looks like this, you"ll only need a regular HDMI cable. Note: new monitors often don"t come with HDMI cables. So buy one.

If you have an older laptop you may see a blue or black VGA port, which connects to the left side of the adapter in the picture below. That won"t support a full 1080p resolution on its own, so you"ll need an adapter like this VGA to HDMI cable for your monitor:

Some laptops — particularly gaming rigs — have a DisplayPort input, which is marked with a little rectangle with two lines on each side of it, and connects to an input that looks like the picture below. You can order a DisplayPort to HDMI adapterhere.

Some laptops, such as Microsoft Surface computers, also have mini DisplayPort plugs, which connect to the left side of the adapter below. This is the adapter you"ll want for that.

Finally, newer laptops have USB-C Thunderbolt 3 out, which connects to the tiny connector you see in the photo below. These offer a lot of power, so I recommend getting a small hub that converts it into an HDMI port, a traditional USB port and another USB-C port for charging or other accessories. Something like this hub will do the trick.

While youcan technically use a TV for a display, I don"t recommend it. I"ve used a variety over the years and find that they"re either far too big or end up hurting my eyes. They"re not designed for sitting a foot in front of, while computer monitors are. So they often have more glare and don"t have the refresh rate you want for running computer programs. They can also look pixelated, since most TVs you"ll find in the smaller 19-to-24-inch range have lower 720p resolutions.

Now that you have your screen plugged in, it"s time to set it up. On Windows, for example, it"ll just duplicate what"s on your laptop screen by default. But you can use it as a second display by doing this:

Go to the top of the menu and make sure the monitor properly reflects its location to your laptop by arranging the boxes. This lets you move your cursor between monitors so it"s like you have one giant desktop extending across all of them.

Well, the exact naming of the adapter will depend on the vendor, but most vendors put the video source (computer) before the "to", and the video target (monitor) behind it. So "HDMI to VGA" would be an adapter for connecting an HDMI output to an VGA input, which is what you need. But the naming convention is not universal.

Note that HDMI-VGA adapters usually only work in one direction - so check the description for the adapter before buying, so you get the right adapter.

I have seen some people in online forums talking about active and passive connector. It is turning me crazy. I can"t really grasp that. Can you tell me like a layman, what should I be using?

A "passive connector" is a connector that does not "do" anything - which means it does not have electronics inside that convert the signal. Instead it only electrically connects different plugs. That only works if the required signal itself is the same on both sides (or compatible). So passive connectors only work in certain situations. For example, you can go from DisplayPort to HDMI with a passive adapter (because DisplayPort was designed that way).

HDMI and VGA use completely different signals, so you need an "active connector" (or "active adapter"), which contains electronics that will convert the signal.

My PC has 2 HDMI ports on the back, i think one of them is "connected" to the graphics card as it also has a DP and DVI ports. When i connect my monitor to the HDMI port which is from the graphics card (GeForce GTX 970), everything works fine and my pc displays

to the monitor. However, i would like to use a second monitor (for gaming) but when i connect either my tv or monitor to the other HDMI port which ISN"T connected to the graphics card, nothing displays and it doesn"t work. I don"t know if its because the port

is disabled or if it only outputs from the graphics card, but i have contacted the company that custom built my PC, and they said that my setup could support 3 monitors/displays.

Many users would like to use their laptop’s screen as a display for console video games or other devices and wonder if they can use the HDMI port on their laptop to do so.

It is very rare for a laptop to have an HDMI Input port unless it is a special piece of equipment custom-built for displaying video from external sources. In nearly every case, HDMI ports included on laptops are for output only. Laptop specifications from the manufacturer will indicate whether the ports are input or output.

All HDMI ports look the same whether they are input or output so there is not a great way to determine what sort of port you have on your laptop just by looking at it.

The best way to tell if your specific laptop has an HDMI input is to check the listed specifications and features on the retail website that you purchased the laptop on such as Amazon or Best Buy. If you cannot find the specific model there then you can check the manufacturer’s website for that particular model as well.

Once you’ve found your laptop’s product page, navigate down to the specifications section of the product information. Here is a picture of what this looks like on Best Buy’s website:

Almost all laptops will come with a ‘Standard A’ HDMI output and most HDMI cables that you’ll find will also be the ‘Standard A’ size. On a laptop, they look like this:

In most cases, you will only find the ‘Mini C’ or ‘Micro D’ versions of the HDMI port on extremely small electronic devices such as cameras or other recording devices.

If you have ever seen an HDMI cable, you’ll note that both ends are identical and it doesn’t matter which end you plug into the input and which end you plug into the output. Once the cables are connected, it is the internal wiring of the port itself and the software involved that tells the cable how to work.

At this point, you might be wondering why it is so common for laptops to have HDMI output ports and so rare for them to include HDMI input ports. The answer is fairly simple but also a little technical.

From a technical standpoint, it is much more difficult to get an HDMI input to work correctly on a computer because they have to deal with High-bandwidth Digital Content Protection (HDCP) and there are other variables at play such as operating system, device drivers, etc.

On the other hand, it is easier for a device such as a TV to include HDMI inputs because the software involved to display the video is much simpler – it only has one job.

At the end of the day, laptop manufacturers know that most people will get more value from including HDMI outputs on their laptops because that’s how they are used in a business setting (such as during a presentation). The fact that HDMI inputs are more prone to technical issues also means that users will have more complaints and tech support issues as well.

HDCP is a type of digital copy protection used to prevent people from copying or recording audio/video across a data connection. Basically, when encrypted data (such as a Blu-ray disc) is streaming data from an HDMI output, the HDMI input receiving it has to be able to decode that encryption to play the media.

Connecting your laptop to a monitor is simply a matter of using the appropriate cable; most Windows laptops use HDMI or USB, and MacBooks will use USB or Thunderbolt.

You might need to get an adapter to connect your monitor to a MacBook if the display doesn"t have the appropriate connector for your laptop (USB-C or Thunderbolt).

5. You should now see numbered boxes which represent the laptop and additional display — usually, number 1 is the laptop"s built-in display, but to verify which is which, click Identify, and the numbers will briefly appear on the two displays.

We test and recommend the best HDMI cables. Check out our picks:Best HDMI cable overall: Monoprice Certified Premium High Speed Cable, from $2.99 on Amazon and Target

Depending on your MacBook, you"ll either have the option of connecting with a USB-C or Thunderbolt connection. If you can connect your monitor directly to the laptop — if your monitor has a USB-C port, great — use that. If not, you need to use an adapter or hub that can convert the monitor"s connector to the format used by your MacBook.

7. If you want both monitors to display the same thing, click Mirror Displays. Otherwise, leave the checkbox blank to extend the screen to the second monitor.

Dave Johnson is a technology journalist who writes about consumer tech and how the industry is transforming the speculative world of science fiction into modern-day real life. Dave grew up in New Jersey before entering the Air Force to operate satellites, teach space operations, and do space launch planning. He then spent eight years as a content lead on the Windows team at Microsoft. As a photographer, Dave has photographed wolves in their natural environment; he"s also a scuba instructor and co-host of several podcasts. Dave is the author of more than two dozen books and has contributed to many sites and publications including CNET, Forbes, PC World, How To Geek, and Insider.

The connectors between HDMI and DisplayPort are similar in range and reach. Mini DisplayPort is more prevalent on Apple devices, while the mini HDMI is seen more on laptop devices. This one is a tie.

There are four (4) cable standards for HDMI, but they often are not labeled correctly. Using a cable that is not up to the job that you want it to do, can be problematical. There is no maximum cable length that is defined for HDMI in its standards. It really depends on the cable type - they can carry out a wide variety of jobs. DisplayPort cables are much simpler. There is one standard of cable and it supports all the current revisions. However it cannot cover the same widespread of capabilities like the HDMI cables. Lengthwise DisplayPort can have a regular 65 ft cable, for a fiber cable it can be hundreds of feet long. For simplicity, DisplayPort wins, however for specialized jobs you would go with the correct HDMI cable type.

HDMI can handle a single video stream and a single audio stream, so it can only drive one display at a time. Whereas a DisplayPort interface can support from two screens (2560x1600 resolutions) up to four (4) screens. (1920x1200 resolutions) Each screen receives independent video and audio streams. With additional interfaces, you can daisy-chain compatible monitors to have as many as Six (6) screens connected to one source. HDMI is fine for one screen, but if you want multiple screens - DisplayPort is the way to go.

HDMI was designed for Home Entertainment - Home Theaters, projectors, Televisions, Blu-ray players and the like. For this environment, HDMI is still the best.

DisplayPort was designed specifically for computers. It is the ultimate display interface to replace the older video standards - However it works more as a complement to HDMI than a replacement of it.

The answer as to which is better - it depends on what you want to do with it. Home entertainment - stick to HDMI, Productivity/Business uses - consider what DisplayPort can do for you.

Unused electronics are the bane of the modern life. Perfectly functional gadgets sit quietly in a corner of the store room, doing nothing. If you"re wondering what to do with old computer monitors, here are a few easy ideas to repurpose unused screens.

In this guide, it doesn"t matter if your old monitor is still working or not. Even if it isn"t, you can use its parts to make a great new gadget. From turning it into a super-tiny computer or dashboard to refashioning into a smart mirror, here are some of the most productive ways to repurpose a computer monitor.

Perhaps the best thing to do with an old flat-screen monitor is a DIY DAKboard. The DAKboard is a LCD wall display that shows the current time, weather forecast, calendar events, stock quotes, fitness data, and news headlines. It"s all displayed on a soothing photo. You could buy an official DAKboard, but the makers themselves have shown how to build your own wall display with a Raspberry Pi. when you can build one for far less money and a little geeky fun, the choice is obvious.

https://www.anrdoezrs.net/links/7251228/type/dlg/sid/UUmuoUeUpU47675/https://www.youtube.com/supported_browsers?next_url=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DzL_HAmWQTgA

Sometimes, you"re working on something private in an open office, or browsing certain *cough* sites *cough* at home. You can"t have your colleagues or kids see what"s on the screen. To keep snooping eyes at bay, make a "your-eyes-only" monitor from an old one.

Basically, you will be cutting out the polarizing film of the old LCD monitor. This film will then be put on a simple pair of glasses. Now your screen appears white, but the glasses can "see" the content. It"s one of the best ways to keep prying eyes out of your PC.

If you have a broken old LCD monitor, it can be re-purposed into a usable mirror; but if you have a working old LCD monitor, adding a Raspberry Pi can turn it into a smart magic mirror!

If you"re on a tight budget for a first-time DIY project, consider the $100 smart mirror. It"s not the best version of turning an LCD monitor into a smart mirror, but you"ll get the basic features and not spend a bomb.

If you have the space available, the best thing you can do with an extra monitor is to boost your productivity with a dual-monitor setup. A second monitor has many potential purposes, such as extended screen space, a dashboard for your social media or news updates, or a dedicated video conferencing screen.

All desktop operating systems support the ability to use dual monitors. It"s pretty easy to setup dual monitors on Windows, and you can then customize how you use the two spaces. To connect two monitors, you will likely need a graphics card with multiple HDMI ports, or use an HDMI and a VGA port on desktops.

Make it a dedicated screen for Nintendo Wii:The Nintendo Wii can connect to a VGA monitor, so if you don"t have a Wii, buy one. In fact, buy a used one, they"re pretty cheap on Craigslist.

Like any gadget, monitors have a limited shelf life. If you"re looking to upgrade, you now have a few ideas of what to do with your old monitor. And that age should influence which project you chose. For example, given the effort involved in building a smart mirror, don"t go with a screen that"s already shown signs of trouble. The Raspberry Pi-based projects are usually the easiest to keep changing.

In fact, if you have an old monitor and old PC parts, you can repurpose the whole PC. You can turn it into a home security system, a home server or media center, or try other unique creative projects.

The display in modern monitors is typically an LCD with LED backlight, having by the 2010s replaced CCFL backlit LCDs. Before the mid-2000s,CRT. Monitors are connected to the computer via DisplayPort, HDMI, USB-C, DVI, VGA, or other proprietary connectors and signals.

Originally, computer monitors were used for data processing while television sets were used for video. From the 1980s onward, computers (and their monitors) have been used for both data processing and video, while televisions have implemented some computer functionality. In the 2000s, the typical display aspect ratio of both televisions and computer monitors has changed from 4:3 to 16:9.

Modern computer monitors are mostly interchangeable with television sets and vice versa. As most computer monitors do not include integrated speakers, TV tuners, nor remote controls, external components such as a DTA box may be needed to use a computer monitor as a TV set.

Early electronic computer front panels were fitted with an array of light bulbs where the state of each particular bulb would indicate the on/off state of a particular register bit inside the computer. This allowed the engineers operating the computer to monitor the internal state of the machine, so this panel of lights came to be known as the "monitor". As early monitors were only capable of displaying a very limited amount of information and were very transient, they were rarely considered for program output. Instead, a line printer was the primary output device, while the monitor was limited to keeping track of the program"s operation.

Multiple technologies have been used for computer monitors. Until the 21st century most used cathode-ray tubes but they have largely been superseded by LCD monitors.

The first computer monitors used cathode-ray tubes (CRTs). Prior to the advent of home computers in the late 1970s, it was common for a video display terminal (VDT) using a CRT to be physically integrated with a keyboard and other components of the workstation in a single large chassis, typically limiting them to emulation of a paper teletypewriter, thus the early epithet of "glass TTY". The display was monochromatic and far less sharp and detailed than on a modern monitor, necessitating the use of relatively large text and severely limiting the amount of information that could be displayed at one time. High-resolution CRT displays were developed for specialized military, industrial and scientific applications but they were far too costly for general use; wider commercial use became possible after the release of a slow, but affordable Tektronix 4010 terminal in 1972.

Some of the earliest home computers (such as the TRS-80 and Commodore PET) were limited to monochrome CRT displays, but color display capability was already a possible feature for a few MOS 6500 series-based machines (such as introduced in 1977 Apple II computer or Atari 2600 console), and the color output was a speciality of the more graphically sophisticated Atari 800 computer, introduced in 1979. Either computer could be connected to the antenna terminals of an ordinary color TV set or used with a purpose-made CRT color monitor for optimum resolution and color quality. Lagging several years behind, in 1981 IBM introduced the Color Graphics Adapter, which could display four colors with a resolution of 320 × 200 pixels, or it could produce 640 × 200 pixels with two colors. In 1984 IBM introduced the Enhanced Graphics Adapter which was capable of producing 16 colors and had a resolution of 640 × 350.

By the end of the 1980s color progressive scan CRT monitors were widely available and increasingly affordable, while the sharpest prosumer monitors could clearly display high-definition video, against the backdrop of efforts at HDTV standardization from the 1970s to the 1980s failing continuously, leaving consumer SDTVs to stagnate increasingly far behind the capabilities of computer CRT monitors well into the 2000s. During the following decade, maximum display resolutions gradually increased and prices continued to fall as CRT technology remained dominant in the PC monitor market into the new millennium, partly because it remained cheaper to produce.

There are multiple technologies that have been used to implement liquid-crystal displays (LCD). Throughout the 1990s, the primary use of LCD technology as computer monitors was in laptops where the lower power consumption, lighter weight, and smaller physical size of LCDs justified the higher price versus a CRT. Commonly, the same laptop would be offered with an assortment of display options at increasing price points: (active or passive) monochrome, passive color, or active matrix color (TFT). As volume and manufacturing capability have improved, the monochrome and passive color technologies were dropped from most product lines.

The first standalone LCDs appeared in the mid-1990s selling for high prices. As prices declined they became more popular, and by 1997 were competing with CRT monitors. Among the first desktop LCD computer monitors was the Eizo FlexScan L66 in the mid-1990s, the SGI 1600SW, Apple Studio Display and the ViewSonic VP140vision science remain dependent on CRTs, the best LCD monitors having achieved moderate temporal accuracy, and so can be used only if their poor spatial accuracy is unimportant.

High dynamic range (HDR)television series, motion pictures and video games transitioning to widescreen, which makes squarer monitors unsuited to display them correctly.

Organic light-emitting diode (OLED) monitors provide most of the benefits of both LCD and CRT monitors with few of their drawbacks, though much like plasma panels or very early CRTs they suffer from burn-in, and remain very expensive.

Viewable image size - is usually measured diagonally, but the actual widths and heights are more informative since they are not affected by the aspect ratio in the same way. For CRTs, the viewable size is typically 1 in (25 mm) smaller than the tube itself.

Radius of curvature (for curved monitors) - is the radius that a circle would have if it had the same curvature as the display. This value is typically given in millimeters, but expressed with the letter "R" instead of a unit (for example, a display with "3800R curvature" has a 3800mm radius of curvature.

Display resolution is the number of distinct pixels in each dimension that can be displayed natively. For a given display size, maximum resolution is limited by dot pitch or DPI.

Dot pitch represents the distance between the primary elements of the display, typically averaged across it in nonuniform displays. A related unit is pixel pitch, In LCDs, pixel pitch is the distance between the center of two adjacent pixels. In CRTs, pixel pitch is defined as the distance between subpixels of the same color. Dot pitch is the reciprocal of pixel density.

Pixel density is a measure of how densely packed the pixels on a display are. In LCDs, pixel density is the number of pixels in one linear unit along the display, typically measured in pixels per inch (px/in or ppi).

Contrast ratio is the ratio of the luminosity of the brightest color (white) to that of the darkest color (black) that the monitor is capable of producing simultaneously. For example, a ratio of 20,000∶1 means that the brightest shade (white) is 20,000 times brighter than its darkest shade (black). Dynamic contrast ratio is measured with the LCD backlight turned off. ANSI contrast is with both black and white simultaneously adjacent onscreen.

Color depth - measured in bits per primary color or bits for all colors. Those with 10bpc (bits per channel) or more can display more shades of color (approximately 1 billion shades) than traditional 8bpc monitors (approximately 16.8 million shades or colors), and can do so more precisely without having to resort to dithering.

Viewing angle is the maximum angle at which images on the monitor can be viewed, without subjectively excessive degradation to the image. It is measured in degrees horizontally and vertically.

Refresh rate is (in CRTs) the number of times in a second that the display is illuminated (the number of times a second a raster scan is completed). In LCDs it is the number of times the image can be changed per second, expressed in hertz (Hz). Determines the maximum number of frames per second (FPS) a monitor is capable of showing. Maximum refresh rate is limited by response time.

On two-dimensional display devices such as computer monitors the display size or view able image size is the actual amount of screen space that is available to display a picture, video or working space, without obstruction from the bezel or other aspects of the unit"s design. The main measurements for display devices are: width, height, total area and the diagonal.

The size of a display is usually given by manufacturers diagonally, i.e. as the distance between two opposite screen corners. This method of measurement is inherited from the method used for the first generation of CRT television, when picture tubes with circular faces were in common use. Being circular, it was the external diameter of the glass envelope that described their size. Since these circular tubes were used to display rectangular images, the diagonal measurement of the rectangular image was smaller than the diameter of the tube"s face (due to the thickness of the glass). 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.

With the introduction of flat panel technology, the diagonal measurement became the actual diagonal of the visible display. This meant that an eighteen-inch LCD had a larger viewable area than an eighteen-inch cathode-ray tube.

Estimation of monitor size by the distance between opposite corners does not take into account the display aspect ratio, so that for example a 16:9 21-inch (53 cm) widescreen display has less area, than a 21-inch (53 cm) 4:3 screen. The 4:3 screen has dimensions of 16.8 in × 12.6 in (43 cm × 32 cm) and area 211 sq in (1,360 cm2), while the widescreen is 18.3 in × 10.3 in (46 cm × 26 cm), 188 sq in (1,210 cm2).

Until about 2003, most computer monitors had a 4:3 aspect ratio and some had 5:4. Between 2003 and 2006, monitors with 16:9 and mostly 16:10 (8:5) aspect ratios became commonly available, first in laptops and later also in standalone monitors. Reasons for this transition included productive uses for such monitors, i.e. besides Field of view in video games and movie viewing, are the word processor display of two standard letter pages side by side, as well as CAD displays of large-size drawings and application menus at the same time.LCD monitors and the same year 16:10 was the mainstream standard for laptops and notebook computers.

In 2011, non-widescreen displays with 4:3 aspect ratios were only being manufactured in small quantities. According to Samsung, this was because the "Demand for the old "Square monitors" has decreased rapidly over the last couple of years," and "I predict that by the end of 2011, production on all 4:3 or similar panels will be halted due to a lack of demand."

The resolution for computer monitors has increased over time. From 280 × 192 during the late 1970s, to 1024 × 768 during the late 1990s. Since 2009, the most commonly sold resolution for computer monitors is 1920 × 1080, shared with the 1080p of HDTV.2560 × 1600 at 30 in (76 cm), excluding niche professional monitors. By 2015 most major display manufacturers had released 3840 × 2160 (4K UHD) displays, and the first 7680 × 4320 (8K) monitors had begun shipping.

Every RGB monitor has its own color gamut, bounded in chromaticity by a color triangle. Some of these triangles are smaller than the sRGB triangle, some are larger. Colors are typically encoded by 8 bits per primary color. The RGB value [255, 0, 0] represents red, but slightly different colors in different color spaces such as Adobe RGB and sRGB. Displaying sRGB-encoded data on wide-gamut devices can give an unrealistic result.Exif metadata in the picture. As long as the monitor gamut is wider than the color space gamut, correct display is possible, if the monitor is calibrated. A picture which uses colors that are outside the sRGB color space will display on an sRGB color space monitor with limitations.Color management is needed both in electronic publishing (via the Internet for display in browsers) and in desktop publishing targeted to print.

Most modern monitors will switch to a power-saving mode if no video-input signal is received. This allows modern operating systems to turn off a monitor after a specified period of inactivity. This also extends the monitor"s service life. Some monitors will also switch themselves off after a time period on standby.

Most modern monitors have two different indicator light colors wherein if video-input signal was detected, the indicator light is green and when the monitor is in power-saving mode, the screen is black and the indicator light is orange. Some monitors have different indicator light colors and some monitors have blinking indicator light when in power-saving mode.

Many monitors have other accessories (or connections for them) integrated. This places standard ports within easy reach and eliminates the need for another separate hub, camera, microphone, or set of speakers. These monitors have advanced microprocessors which contain codec information, Windows interface drivers and other small software which help in proper functioning of these functions.

Monitors that feature an aspect ratio greater than 2:1 (for instance, 21:9 or 32:9, as opposed to the more common 16:9, which resolves to 1.77:1).Monitors with an aspect ratio greater than 3:1 are marketed as super ultrawide monitors. These are typically massive curved screens intended to replace a multi-monitor deployment.

These monitors use touching of the screen as an input method. Items can be selected or moved with a finger, and finger gestures may be used to convey commands. The screen will need frequent cleaning due to image degradation from fingerprints.

Some displays, especially newer flat panel monitors, replace the traditional anti-glare matte finish with a glossy one. This increases color saturation and sharpness but reflections from lights and windows are more visible. Anti-reflective coatings are sometimes applied to help reduce reflections, although this only partly mitigates the problem.

Most often using nominally flat-panel display technology such as LCD or OLED, a concave rather than convex curve is imparted, reducing geometric distortion, especially in extremely large and wide seamless desktop monitors intended for close viewing range.

Newer monitors are able to display a different image for each eye, often with the help of special glasses and polarizers, giving the perception of depth. An autostereoscopic screen can generate 3D images without headgear.

A combination of a monitor with a graphics tablet. Such devices are typically unresponsive to touch without the use of one or more special tools" pressure. Newer models however are now able to detect touch from any pressure and often have the ability to detect tool tilt and rotation as well.

Raw monitors are raw framed LCD monitors, to install a monitor on a not so common place, ie, on the car door or you need it in the trunk. It is usually paired with a power adapter to have a versatile monitor for home or commercial use.

A desktop monitor is typically provided with a stand from the manufacturer which lifts the monitor up to a more ergonomic viewing height. The stand may be attached to the monitor using a proprietary method or may use, or be adaptable to, a VESA mount. A VESA standard mount allows the monitor to be used with more after-market stands if the original stand is removed. Stands may be fixed or offer a variety of features such as height adjustment, horizontal swivel, and landscape or portrait screen orientation.

The Flat Display Mounting Interface (FDMI), also known as VESA Mounting Interface Standard (MIS) or colloquially as a VESA mount, is a family of standards defined by the Video Electronics Standards Association for mounting flat panel displays to stands or wall mounts.

A fixed rack mount monitor is mounted directly to the rack with the flat-panel or CRT visible at all times. The height of the unit is measured in rack units (RU) and 8U or 9U are most common to fit 17-inch or 19-inch screens. The front sides of the unit are provided with flanges to mount to the rack, providing appropriately spaced holes or slots for the rack mounting screws. A 19-inch diagonal screen is the largest size that will fit within the rails of a 19-inch rack. Larger flat-panels may be accommodated but are "mount-on-rack" and extend forward of the rack. There are smaller display units, typically used in broadcast environments, which fit multiple smaller screens side by side into one rack mount.

A stowable rack mount monitor is 1U, 2U or 3U high and is mounted on rack slides allowing the display to be folded down and the unit slid into the rack for storage as a drawer. The flat display is visible only when pulled out of the rack and deployed. These units may include only a display or may be equipped with a keyboard creating a KVM (Keyboard Video Monitor). Most common are systems with a single LCD but there are systems providing two or three displays in a single rack mount system.

A panel mount computer monitor is intended for mounting into a flat surface with the front of the display unit protruding just slightly. They may also be mounted to the rear of the panel. A flange is provided around the screen, sides, top and bottom, to allow mounting. This contrasts with a rack mount display where the flanges are only on the sides. The flanges will be provided with holes for thru-bolts or may have studs welded to the rear surface to secure the unit in the hole in the panel. Often a gasket is provided to provide a water-tight seal to the panel and the front of the screen will be sealed to the back of the front panel to prevent water and dirt contamination.

An open frame monitor provides the display and enough supporting structure to hold associated electronics and to minimally support the display. Provision will be made for attaching the unit to some external structure for support and protection. Open frame monitors are intended to be built into some other piece of equipment providing its own case. An arcade video game would be a good example with the display mounted inside the cabinet. There is usually an open frame display inside all end-use displays with the end-use display simply providing an attractive protective enclosure. Some rack mount monitor manufacturers will purchase desktop displays, take them apart, and discard the outer plastic parts, keeping the inner open-frame display for inclusion into their product.

According to an NSA document leaked to Der Spiegel, the NSA sometimes swaps the monitor cables on targeted computers with a bugged monitor cable in order to allow the NSA to remotely see what is being displayed on the targeted computer monitor.

Van Eck phreaking is the process of remotely displaying the contents of a CRT or LCD by detecting its electromagnetic emissions. It is named after Dutch computer researcher Wim van Eck, who in 1985 published the first paper on it, including proof of concept. Phreaking more generally is the process of exploiting telephone networks.

Masoud Ghodrati, Adam P. Morris, and Nicholas Seow Chiang Price (2015) The (un)suitability of modern liquid crystal displays (LCDs) for vision research. Frontiers in Psychology, 6:303.

The shift to remote work has sent millions scrambling to improve their home office. There are many ways to do this, but the most important upgrade is the most obvious: the monitor.

A monitor is key. You’ll use it hour after hour, day after day, year after year. Monitors even have the audacity to resist obsolescence, so the monitor you buy today might be the one you’re still using in a decade. (My editor and I both have decade-old Dell U2412 monitors that are still going strong.)

It’s an important decision, but not a difficult one, as there are dozens of great monitors to choose from. This guide will help you pick the best for your home office.

I’ve reviewed monitors and laptop displays for over a decade. While different monitors suit different owners, I believe the idealhome office monitor has a 27-inch screen and 4K resolution. It uses an IPS panel, reaches a brightness of at least 250 nits, and can display 99 percent of the sRGB color gamut. Around back you’ll find a USB-C port that can deliver enough power to charge a laptop, along with HDMI and DisplayPort, plus an ergonomic stand that can adjust for height and attaches to a VESA mount.

Finding a monitor that ticks most of these boxes won’t be too difficult. LG’s UltraFine line, Dell’s USB-C hub monitors, BenQ’s PD2720U and PD2725U, and HP’s U28 can check them all. Only the price may be higher than you hope; snagging any of the above will cost at least $450.

But like I said, different monitors suit different owners. These monitors are ideal for work, but they’re expensive. They also lack features you’ll crave when it’s time to clock out and fire up a round of Valorant. This guide will help you navigate the monitor world’s many caveats and find one that’s a fit for you.

Most standard-width monitors come in one of three sizes: 24-inch, 27-inch, and 32-inch. Bigger is not necessarily better. A large display may look more impressive, but I find it uncomfortable when placed close to my eyes. There are also practical considerations like perceived pixel density. A big monitor will look fuzzier than a smaller monitor of the same resolution unless you move it further away — which isn’t always an option.

That’s why a 27-inch monitor is my go-to recommendation. It’s large enough to look impressive on a typical home office desk but isn’t excessive. In my experience, 32-inch monitors should be reserved for unusually large and deep desks, or corner setups where it’s possible to position the display around four feet away from your face. This is especially true for 32-inch monitors with a resolution below 4K, which look grainy to me at a distance of three feet.

For the same reasons, 24-inch monitors work better if you have a small, slim desk (say, around 24 inches deep or less) or otherwise bring the monitor closer to your face. A 24-inch monitor may sound small, but it’ll look reasonably large because it’s so close. They’re also a great way to save money. You can buy a decent all-around monitor like the HP 24mh for less than $200. It won’t wow you, but it works in a pinch.

You can be creative with size if you mount a VESA-compatible monitor to an arm, as this will let you move it to your preference (including the proper ergonomic height). If you’re just doing it to move a large monitor farther away, though, give it a second thought. Why spend more for a larger monitor, and a monitor arm to position it farther away, instead of buying a smaller display to start?

Smaller models lack vertical space. A 29-inch ultrawide has less vertical display space than a 24-inch widescreen. Larger models generally have the opposite problem. Many are too big for a typical home office desk, not only because of their screen size, but because of the large stands used to stabilize them (some are several feet wide). You might need to rearrange your desk around a 38-inch or 43-inch monitor or add a top-tier monitor arm to make it work.

What about super-ultrawides, like the 49-inch Samsung Odyssey G9 series? These monitors can offer a commanding view and are a good alternative to a double or triple monitor setup but, like big ultrawides, you’ll need to build your setup around it.

Resolution is key. A higher resolution means more pixels, and more pixels means a sharper, crisper image. More pixels also adds flexibility. You can use scaling features in Windows and MacOS to increase content size for readability, or crank it down to show more content at once.

4K resolution (3,840 x 2,160) looks fantastic and is widely available on 27-inch and 32-inch displays. It’s not that expensive, either. Budget 4K 27-inch monitors like the Dell S2721QS can get you 4K for $350 or less.

With that said, settling for 1440p (2,560 x 1,440) can save money. It’s a bit disappointing on a 32-inch display, unless you move it far away, but it’s workable. A 27-inch 1440p display can look reasonably sharp and is a good choice if you personally don’t care about having the sharpest picture possible.

You should probably avoid 1080p (1,920 x 1,080) in a 27-inch or 32-inch monitor, however. It will look grainy and pixelated. Small fonts and interface elements (such as buttons) can become difficult to see.

Twenty-four-inch monitors are a different story; 4K is rare, and 1440p is often the premium option. In fact, most monitors of this size are 1080p. It’s not ideal but it’s acceptable, as decreasing size increases pixel density. A 24-inch 1080p monitor is noticeably sharper than a 27-inch 1080p monitor.

Want a 34-inch ultrawide? Look for 3,440 x 1,440 resolution. This leads to a pixel density nearly identical to a 27-inch 1440p monitor (about 109 pixels per inch). A handful of super-budget ultrawides use 2,560 x 1,080 resolution which, like 1080p on a large monitor, isn’t pleasant. LG’s 5K Ultrawide line is the sole option if you want 4K-equivalent pixel density in a 34-inch ultrawide, but you’ll typically pay $1,500 or more. LG’s well-reviewed 38-inch with 3,840 x 1,600 resolution costs even more at $1,600 and, though it might offer more screen, is equal in pixel density to a 3,440 x 1,440 ultrawide.

Super-ultrawides also don’t offer much choice. All 49-inch super-ultrawides I’m aware of use the same 5,120 x 1,440 resolution which, again, roughly equals the pixel density of a 1440p 27-inch display.

Most monitors have HDMI and DisplayPort. There’s no great reason to prefer one over the other for remote work. The huge majority of monitors sold today offer both, so the port you use will likely come down to what’s available on your PC.

What about HDMI 2.1? It’s not necessary for remote work, and productivity monitors with HDMI 2.1 aren’t yet a thing. Be warned that HDMI 2.1 could get messy in 2022 due to the standard’s lax certification. It’s key only if you want to connect a PlayStation 5 or Xbox Series X game console.

If you’ve got extra cash to spend, the galaxy-brain move is to ignore HDMI and DisplayPort entirely and leap to USB-C and/or Thunderbolt. USB-C and Thunderbolt are great because they allow a single-cable solution for modern laptops that support the standard. You can plug in the laptop and charge it from the monitor while sending video to the monitor simultaneously. The best USB-C monitors even act as a hub with multiple extra ports like USB-A, USB-C, and ethernet.

Just make sure you check the fine print. Look for USB-C with DisplayPort Alternate Mode and Power Delivery, or Thunderbolt with Power Delivery (the standard has DisplayPort baked in). Those sorts of USB-C ports aren’t exactly uncommon on laptops: even the modest ThinkPad E545 I bought a few years back includes them.

But you’ll also need to make sure the monitor you buy provides enough electricity. Power Delivery currently maxes out at 100 watts, so even the most powerful monitors can’t fully power laptops like a top-spec Razer Blade or high-end MacBook Pro 16, but a monitor that delivers 60 watts or even 45 watts might be enough if you have a thin-and-light laptop like a Dell XPS 13 or MacBook Air. The higher the better, but if the USB-C monitor doesn’t deliver as much power as your laptop’s power brick, your battery might only charge when it’s idle or even powered off.

USB-C monitors are also expensive. The benefits often add several hundred dollars to the price when compared to an otherwise similar monitor that lacks USB-C. It’s worth the money, though: in 2019, I purchased a Viewsonic VG2455-2K for a sweet one-cable connection to USB-C capable laptops, and find it ideal for swiftly connecting my laptop to a larger screen.

Any monitor worth your attention will have a stand that at least adjusts for height, usually along a range from 100 to 150 millimeters. Sure, you can stack it on books or buy a plastic riser, but that’s added hassle and clutter.

Many monitors also adjust for tilt and swivel, and some pivot 90 degrees into portrait orientation. That can be particularly handy when a monitor is used as a second display. For example, you could swivel a monitor to directly face you while doing detailed work, like editing a photo, and swing it away when it’s just displaying Slack or Discord. Tilt is similar but on the vertical axis, and especially handy if you have a standing desk, as you may need to tilt the monitor up while the desk is standing.

But if your monitor doesn’t have enough range of motion, or you want to free up space on your desk, you could instead add a VESA-compatible monitor arm to get it off the ground. Look for monitors with a 100mm x 100mm VESA spacing pattern. This is an extremely common feature found in all but the most affordable monitors, and you only need to worry about the 100mm spacing pattern. Others exist, but are relevant to other types of displays (like televisions).

A monitor arm is rarely a necessity, but it’s great for multi-monitor setups that place secondary displays around and above your main monitor, or for positioning an especially large and bulky monitor. Unfortunately, monitor arms can also be a bit expensive. A basic monitor arm off Amazon can run $30 to $50, but I’ve been burnt on their quality in the past. A good arm like those from Jarvis or Ergotron will start around $130.

Larger, heavier monitors will need a beefier, more expensive arm: the model Ergotron recommends for the 49-inch Samsung Odyssey Neo G9 is currently $379 (and, at the time I wrote this, sold out!)

Color accuracy is critical to image quality. An inaccurate monitor will look unnatural, flat, and dull, with strange swings in quality depending on what you’re viewing and the precise colors that are inaccurate (it’s common for monitors to be less accurate in blue or cyan than other colors, for example). A monitor with terrible color will disappoint you every time you sit down to use it.

The good news? Accuracy is low-key the greatest advancement in monitors over the last decade. Noticeably inaccurate displays were common when I began testing monitors well over a decade ago. Today, most midrange monitors have reasonable accuracy straight out of the box.

Still, there is a difference between midrange and premium monitors. Those who want great color accuracy should look for a “factory calibrated” monitor, which typically includes a calibration report in the box. This doesn’t guarantee color accuracy is perfect, but it at least shows the company put the monitor through an extra layer of quality assurance. Also check reviewers to see if the monitor lives up to its claims.

Color gamut, which describes the spectrum of colors a monitor can display, is also good enough on most monitors. The majority of content on a computer targets a color gamut called sRGB. Modern monitors display at least 95 percent of this gamut, and many display it all. Other gamuts also exist. DCI-P3 is the most advertised, though you may see Rec.709 or Adobe RGB as well. These gamuts are important if your work requires them, though if that’s the case, I’m guessing you know that. As with color accuracy, buyers concerned about gamut should read reviews to verify a monitor lives up to its claims.

Odds are your home office has some form of light control, whether it’s shades or simply a room that’s naturally a bit dim. The ideal brightness will vary based on the lighting in your home office, but a monitor’s brightness rarely needs to exceed 200 nits. In fact, most monitor calibration tools (like a SpyderX Elite I use) have a built-in luminance sensor used to recommend a brightness based on ambient light. I’ve never seen it recommend more than 200 nits.

That’s not a big ask, but budget monitors can’t always manage it, so be careful if you’re shopping on a tight budget. Manufacturers also tend to choose a best-case scenario when quoting brightness, so the listed brightness may not always be available. Buy a monitor that promises a maximum brightness of at least 250 nits (aka cd/m2).

Why would you want a brighter monitor? Well, if you’re viewing SDR content, there’s no particular reason (aside from using a monitor in a very, very bright room which, though rare, does happen). Viewing SDR content at a high brightness (say, 300 nits or more) might look nice at a glance, but can cause image quality issues like disappointing dark levels and reduced overall contrast.

High Dynamic Range, aka HDR, is a different story. This standard supports a way higher range of luminosity than SDR. HDR10, the most common standard, technically allows for a peak brightness up to 10,000 nits. Brightness does matter for HDR because the content includes additional luminance data that only HDR-compatible displays can show.

If you are looking for an HDR monitor, DisplayHDR certification labels could help, but know that “peak luminance” means “a tiny region on screen can get that bright,” and DisplayHDR 400 is barely HDR at all. Screenshot by Sean Hollister / The Verge

However, HDR is a bit of a minefield on the PC and can be counterproductive for work. Turning on HDR in Windows will often block a number of monitor controls you may need, including brightness, color gamut, and color temperature settings. The resulting image can appear eye-searingly bright and you’ll have less leeway to adjust it to your preferences.

Also, most content viewed in Windows or MacOS is not designed for HDR. You can still view it, but the result will be less accurate than if you stuck with SDR.

Entertainment and gaming is where HDR redeems itself. Most streaming platforms now offer a method for viewing HDR content on a PC and many new 3D games include HDR support. Windows 11 even has an auto-HDR feature that can add HDR to games that don’t officially support it. This makes HDR a nice addition to a monitor that you’ll use for work and play — though I’d recommend leaving HDR off until you clock out.

Nearly all monitors sold today use an LCD panel based on one of three technologies: twisted nematic (TN), in-plane switching (IPS), and vertical alignment (VA).

The least expensive monitors often use a TN panel. Avoid them. TN panel monitors will display an image, but that’s about it. They look achingly dull next to IPS and have astoundingly bad viewing angles.

A majority of monitors use IPS. Monitors based on IPS have very accurate color and can support a wide color gamut at a reasonable price. IPS struggles with dark scenes, however, because it can’t achieve a convincing shade of black. This is the dreaded “IPS glow” you may have heard of, which can look unappealing when watching movies or playing games. However, gamers still enjoy IPS monitors because some IPS panels have low response times and very high refresh rates.

What about VA? This panel type has the best contrast ratio and dark scene performance of the three, which makes VA a great go-to choice for entertainment and gaming. This is especially true of high-quality, modern VA panels, which have mostly solved the color accuracy and motion smearing issues of some past VA monitors.

The choice between IPS and VA has no clear answer, as both have their perks. When it comes to work, though, you may find the choice is made for you. A huge majority of productivity monitors use an IPS panel. VA is an option, but you’ll want to lean your search toward gaming monitors if you crave the high contrast a quality VA panel can provide.

AMD and Nvidia have successfully convinced gamers that a 360Hz monitor is ideal. But what if your day includes more Excel than Counter-Strike? You might still see some benefits from a refresh rate higher than the traditional 60Hz.

Gaming is often thereason to buy a monitor with an enhanced refresh rate. Higher refresh rates lead to smoother, more fluid motion and reduces input lag. That said, the benefits of refresh rate are not restricted to games. Higher rates make motion feel more fluid on the desktop as well, which is why Apple’s newest MacBook Pro 14 and 16, and many Windows laptops, now offer a refresh rate of 120Hz or more.

I feel it’s nice to have, but far down on the list of features you need to consider. Also, you probably shouldn’t pay extra for a 75Hz monitor — it’s not much gain over 60Hz.

High-refresh gaming displays aren’t especially expensive, with 24-inch, 144Hz models sold for as little as $200. But you’ll typically trade something away for refresh rate: that $200 monitor might use an iffy TN panel (rather than IPS or VA) or feature a low resolution. It’s possible to snag a 4K display for a reasonable sum, or one with a high refresh rate, but going for 4K at 144Hz means looking at monitors that cost as much as big televisions.

Also, USB-C with Power Delivery is rarely found in gaming monitors, and I haven’t seen a USB-C gaming monitor that doubles as a USB-C hub. That could be an issue if your work setup involves a lot of wired peripherals.

Mini LED adds a twist. The fundamentals remain similar, but the backlight is divided into hundreds of zones that can turn on and off independently. This allows extra brightness but also convincing contrast in shadowy scenes. Mini LED is also outstanding for HDR movies and games, where its class-leading brightness provides an edge.

OLED? It flips the table, using an array of organic elements that create their own light. This provides pixel-level lighting control for truly unparalleled contrast you have to see to believe. OLED is also susceptible to burn-in, though there are ways to mitigate it from affecting a display prematurely.

Neither of these are necessary for working from home, and you’ll likely have to spend thousands to snag a monitor with either tech. Alternatively, you could buy a television with Mini LED or OLED technology, but televisions still have their downsides as monitors.

If you demand the very best from a monitor, however, I recommend Mini LED. OLED’s burn-in worries are legitimate on the PC which, compared to a television, will display static images more frequently. Mini LED can’t match OLED’s contrast, but it’s still a major upgrade over a backlit LCD screen. There’s also the emerging category of quantum dot OLED (QD-OLED) screens, but manufacturers haven’t announced prices for those yet.

Webcams are small, easy to move, and can be used with multiple devices. Attaching a webcam to a monitor removes these perks. It also means you can’t upgrade your webcam in the future; you’ll have to replace the entire monitor.

Do you need a large, crisp image when working at your computer? Are you worried about the sticker shock that usually comes with high quality displays? Those days are over.

We have a large selection so you can find the perfect monitor for your needs. And no matter what screen size or image quality you prefer – or even where you intend to use it – Lenovo has all the most popular display sizes, and resolutions. Even if you are on the go Lenovo has portable monitors that attach to your laptop or plug into your laptop and give you a second screen to keep your productivity up.

Choose from an ultra-slim portable monitor to quickly set up and improve your multitasking even when on the go. Or for a more traditional option, we have displays in popular ranges like24 inches,27 inches,31 inches

Our wide selection also includes premium options at the right price:ultrawide monitorsthat can expand your productivity in amazing new ways; high performance 240hz monitors that accelerate response times and refresh rates when gaming; and1080p,1440p(orQuad HD) and4K monitorsthat bring visuals to the next level of clarity. At Lenovo, our monitors have it all.

Home monitors need to be versatile enough for a wide range of activities. When watching Netflix, you’ll want a widescreen monitor with powerful color quality and crisp resolution. When surfing the web at different times of day, the display should have adjustable brightness controls that match your lighting conditions.

The best home monitors maximize their real estate, with space-saving designs that don"t clutter your bedroom or home office. OurNear-Edgelessinfinity screens make the most of your viewing area, so you can take full advantage of the tremendous screen size. We pride ourselves on superb picture quality, with 99% sRGB color gamut on several models. When all these features are available at a competitive price, you simply can’t beat it.

For office life, you need a professional monitor with sound color accuracy and high resolutions. Often, companies rely on intense data and graphics applications to get work done, so your monitor needs to be able to handle those tasks.

LenovoThinkVision monitorsoffer incredible resolution, large screen sizes, and multiple ports so you can work more efficiently. Ourbusiness monitorsalso have handy features like touch screens, ergonomic stands, and quality cameras. Don’t let your monitor stand in the way of great work.

Lenovo Legion is taking the PC gaming world by storm with a new and vast array of gaming PCs and gaming accessories. If you want to see every little detail in the moment, so you"re prepared for whatever comes your way, look to our LenovoLegion gaming monitors. Our Legion 4K, HDR, curved and 1ms options offer both visual brilliance and unparalleled response times

Check out ourThinkCentre Tiny linefor an array of professional monitors. These LED monitors are lightweight, slim, and have advanced In-Cell Touch panels for maximum quality. Best of all, they integrate easily with Lenovo ThinkCentre Tiny desktops through a modular design that allows the PC to slip right into the back of the ThinkCentre Tiny display. With ThinkCentre Tiny, you can have a new desktop computer and monitor working together seamlessly in minutes

Buying an impressive computer displays doesn’t have to be complicated or expensive. Browse our inventory of options based on group, activity, connections, resolution, aspect ratio, and more to find the best fit for your lifestyle. With the right monitor complementing your PC, you can fully realize its potential as a business, gaming, or everyday machine.

Take a look around. You might just discover a dream monitor that you didn"t even know existed. It’s not often that you find1440p monitors,Full HDandHDR monitorsthat deliver cutting-edge performance for the money. Shop our monitor deals today — available exclusively at Lenovo.com.

Sometimes traveling for work is necessary and you can only bring your laptop but not your second screen. With a high-quality portable monitor you can take your second screen with you in a car, on a bus, or on plane. Theseportable monitorsmake sure that you keep your productivity even when you are away from you home office set up. You can have portable monitors that are stand alone or ones that connect to your device to make transport easier and ensure a seamless work space limiting your distractions and making sure you get everything you need done.

Trying to decide between all the types of displays, frames, and panels today’s modern computer monitor can offer? Here are a few common comparisons of monitor types that might help.

As monitor technology has evolved over the years, so have the types of inputs you’ll potentially use to connect your monitor to your PC and other devices. The most common way to connect your PC to your preferred display is by HDMI, but most modern monitors feature eitherHDMIorUSB Type-Cinput options to be easily compatible with today’s tech.

If you’re a gamer, you’ll most likely be in the market for aDisplayPort monitoras DP cables are generally preferred by gamers due to their greater bandwidth and ability to take advantage of top graphics card software.

Remember that Lenovo has you covered on all your computer monitor needs, so before you checkout, make sure you have the necessary tools to ideally arrange your desktop visuals.

Consider aLenovo docking station or USBhub to seamlessly connect all of your tech with just a single click or plugin every time. Whether you’re putting together your dream home office or just adding a new display to your office workspace, Lenovo offers adjustablemonitor armsto give you the perfect point of view every time,monitor mountsthat securely attach your