will touch screen monitor work any computer factory

Our industrial display touch screen monitors can help your factory personnel and workshops handle complex industrial tasks on intuitive factory grade touch screens. Our wide range of rugged LCD displays with multi-touch and various touch technologies such as resisitive, SAW, optical imaging, projected capacitive and infrared are tough and suitable for virtually any industrial applications. We can help you choose the best touch screen technology and solution that fits best with your needs, and close the gap between your vision and implementation of the digital factory.

Viewsonic"s Touch Screen Solutions helped us simplify the hassle of operating complex machinery in our factory. It really helped us improve our factory line operations and reduced labor input.”

I need to replace my PC setup at home, so your article on buying a new family PC was really great for me. Currently the PC is only used by the children for accessing the web, running Minecraft, iTunes, playing The Sims etc. I would really like to try using a touchscreen monitor to get the best out of Windows 8. I am aware of the argument about gorilla arms, but after using an iPad, I find myself prodding all computer screens with an (unrealistic) expectation that something should happen.

You can add a touch-sensitive screen to any PC – or even an old laptop – by buying a touch-sensitive monitor. There must be a market for them, because most leading monitor suppliers offer them. This includes Acer, AOC, Asus, Dell, HP, Iiyama, LG, Samsung and ViewSonic. The less well-known HannsG also has competitive offerings.

However, touch sensitivity requires extra technology, which is an extra cost, especially for large screens. Touch-sensitive monitors are therefore more expensive than traditional designs, which must restrict the size of the market.

As you have found, there are lots of all-in-one PCs with touch screens, but they are basically laptop designs with separate keyboards. Slimline designs impose thermal constraints on the processor, which will typically operate at a TDP between 15W and 35W, or less. The processor will be throttled when it gets too hot, and the PC may shut down. By contrast, spacious desktop towers can use processors that run at 45W to 90W or more, so you get more performance for less money.

Towers provide space for adding more memory, ports, faster graphics cards, extra hard drives, optical drives (DVD or Blu-ray) and so on. They are also much easier to repair, so they should last longer. The main drawback is that they take up more space than laptops or all-in-one designs. This may be critical if you want to mount the screen on a wall, which is common with touch-screen PCs used for public information access.

You must consider the flexibility of the design. While the “gorilla arm” argument is simplistic to the point of stupidity – teachers have been using blackboards for centuries – there are important considerations to do with screen distance and angle.

The better all-in-ones provide flexibility to handle different programs and different uses. Often the screen leans back, and in some cases, can be used in a horizontal position. This makes it practical to play electronic versions of family board games, navigate around maps, play a virtual piano, and so on.

Desktop monitors are usually designed to be used with the screen in a vertical position, and relatively high up. This puts the screen a long way from your hands, so you are less likely to use it for touch operations. This contrasts with using a laptop, where the screen may be as handy as the keyboard.

If you decide to go for a touch-screen monitor, choose one that is easy to tilt backwards and possible to use in a horizontal position. Obviously, you should be able to return it to an upright position for word processing and so on.

Alternatively, you can buy any touch screen you like, if you mount it on a monitor arm that enables the screen to be moved around. This may actually be a better option, but it will probably cost more.

Touch-screen monitors are a bit more complicated than traditional designs, because they are active rather than passive devices. Traditional screens just have to show a picture, whereas touch-screen monitors have to feed information back to the PC. They often do this via a separate USB cable that runs next to the VGA/DVI/HDMI/etc video cable.

Monitors also vary according to the number of touch-sensitive points. This can range from five to 40, but 10 is usual for Windows 8. Further, different monitors may use optical, resistive or capacitative touch technology. Capacitative touch provides the same experience as using a tablet, which is what you want.

Some monitors support a new standard: MHL (Mobile High-definition Link). This enables you to connect a compatible smartphone or tablet to the monitor to show videos with high-resolution sound (up to 7.1 channels, including TrueHD and DTS-HD). The mobile device gets charged while it’s attached.

Other considerations are the usual ones: screen size and resolution, brightness, type of technology (LED, IPS etc), number of ports, whether it includes loudspeakers, and so on. Since you’re a developer, you’ll probably want to knock out a quick spreadsheet to compare all the options.

Note that touch-screen monitors designed for Windows 7 – probably with two touch-points – are less than ideal for Windows 8, where the bezel has to be flush with the display for edge-swipes. However, I don’t expect there are many Windows 7 touch monitors still on the market.

I have very little experience of different touch-screen monitors, and haven’t tested any, so you will need to do your own research. I can point to some of the products that are available, but unfortunately it may be hard or impossible to see them before you buy one.

PC World, for example, only seems to offer three touch-screen monitors. These are all Acer models with Full HD resolution (1920 x 1080 pixels) and screen sizes of 21.5in (£179.99), 23in (£249.99) and 27in (£379.99). These have MHL support, USB 3.0 and tilt stands that adjust from 80 to 30 degrees, so you could do worse. The 23in IPS-screen Acer T232HLA looks like the best option.

Other touch-screen monitors that might be worth a look include the 23.6in AOC Style i2472P (£262.98), the 21.5in Dell S2240T H6V56 (£207.38) and the 23in Dell S2340T (£339.95). There’s also a ViewSonic TD2340 for £199.99, apparently reduced from £439.99, and a 24in Samsung S24C770TS for £449.99.

If you have a modern Windows 8 laptop, then you can probably use Windows 8’s touch gestures on its built-in touchpad. In the same vein, you could just buy a touchpad for your desktop PC and use it with a cheaper non-touch screen. Logitech’s rechargeable Touchpad T650 is an expensive option at £114, though the wireless T650 looks a better buy at £39.99.

Imagine never having to constantly replace your office’s touchscreen monitors due to the humid conditions. With an industrial monitor, you could have a touchscreen in your office that lasts for years.

In a factory or warehouse, there is a lot of moving around of heavy equipment. An industrial touchscreen can withstand being bumped or jostled by a forklift or other machinery.

Dust and other particulates are also common in these environments. An industrial touchscreen monitors is designed to keep these particulates out, so they don’t interfere with the inner workings of the monitor.

In a medical laboratory, it is important to have a touchscreen that can be easily cleaned. An industrial monitor is designed with a smooth, non-porous surface that can be easily wiped down.

Medical laboratories also need to be able to sterilize their equipment. An industrial touchscreen can withstand being exposed to high temperatures, so it can be properly sterilized.

In the civil engineering field, there are often outdoor projects. An industrial touchscreen can withstand being exposed to the elements, so it can be used in these outdoor projects.

There is also a lot of dirt and debris in the civil engineering field. An all in one industrial touch screen is designed to keep these particulates out, so they don’t interfere with the inner workings of the monitor.

The best touch screen monitors allow you to interact with your desktop computer via tap, swipe and pinch-to-zoom. Alternatively, you can install it as a secondary monitor to use with an office-based laptop.

In this article, we"ve gathered together the best touch screen monitors available today – in a range of sizes from 21 inches to a special ultrawide monitor(opens in new tab) that"s 49 inches. If you"re after a smaller secondary monitor that can be carried with your laptop for use on the go, see our list of the best portable monitors(opens in new tab). (Portable monitors can also be had with touch sensitivity, but they"re smaller and are powered by your laptop"s battery, so they don"t need their own power supply.)

If you"ve already researched the best monitors for photo editing(opens in new tab) or the best video editing monitors(opens in new tab), you may have realized that none of them are touch screen monitors. But why not? Why would you consider choosing a new monitor without touch sensitivity?

After all, the best touch screen monitor will add an extra, more ergonomic form of user input, so must be better, right? Well, it"s not quite that simple. At the bottom of this page, you"ll find tips on what to look for when buying a touch screen monitor, including connectivity, size, and that all-important image quality.

Dell"s P2418HT has fairly typical touch screen display credentials: a 23.8-inch screen size and Full HD (1920 x 1080) resolution. But it stands out from the crowd in other areas.

Its special articulating stand transitions the display from a standard desktop monitor to a downward 60-degree angle touch orientation. It also supports extended tilt and swivel capabilities, so you can adjust the screen to your task or a more comfortable position. Plus, a protective cushion at the base of the screen offers a buffer against bumps when the stand is fully compressed.

Marketed at commercial and educational settings as well as home use, the TD2230 boasts a 7H hardness-rated protective glass for extra scratch protection and durability. Super-thin screen bezels give the panel a modern, sleek look, plus there are integrated stereo speakers for added versatility.

The ViewSonic TD2230 boasts upmarket image quality thanks to its IPS LCD display that provides better color and contrast consistency, regardless of your viewing position, while the 1920 x 1080 screen res is high enough for crisp image clarity when spread across the 21.5-inch panel size. 250 cd/m2 max brightness and a 1000:1 contrast ratio are pretty typical, while HDMI, DisplayPort and analog VGA connectors ensure you"ll be able to hook this monitor to pretty much any computer running Windows 10, Android or Linux.

Want a larger than average touch screen monitor? This 27-inch offering is our pick, as it"s based around an IPS LED-backlit display. That translates more dependable color accuracy and contrast that won"t shift depending on whether you"re viewing the centre of the screen or the corners.

The Full HD resolution is spread a little thin across a 27-inch display, so images will look slightly pixelated, but this is an unavoidable compromise you have to make if you want a touch screen monitor larger than 24 inches. The PCT2785 does score well in terms of versatility though, as you get a built-in HD webcam and microphone, making it great for homeworking(opens in new tab) and video conferencing.

This touch screen monitor was introduced back in 2014, which is a long time ago in the monitor world. However, with its quality IPS display technology and reasonably high Full HD 1920 x 1080 resolution, it can still rival newer touch screen monitors when it comes to image quality.

What"s more, the elegantly simple stand allows for a versatile 8-60 degree tilt, enabling you to interact with the screen at a greater variety of angles than a typical monitor would allow. There"s also 10-point capacitive touch sensitivity, so you can use a full range of touch gestures.

The T272HL is the bigger 27-inch sibling to Acer"s 23-inch T232HL. Like the T232HL, it boasts a slightly above-average 300cd/m2 brightness, along with 10-point capacitive multi-touch. There are also a pair of 2w internal speakers, and the stand allows a large 10-60 degrees of tilt to enhance touch ergonomics.

If you"re after a larger-than-average touch screen monitor, the T272HL is a reasonable choice, but there are compromises to be made. For starters, this is still a 1920 x 1080 Full HD monitor, so while it may be physically larger than a 23/24-inch Full HD display, images will simply look larger, not more detailed.

If you can get past the uninspiring black plastic design of the Philips 242B9T, this touch screen monitor has a lot to offer. It should be easy to connect to pretty much any computer, thanks to its full array of HDMI, DVI, VGA and DisplayPort connectivity and included cables for all but DVI. It"s even got its own built-in 2W stereo speakers, while the clever Z-hinge stand allows a huge -5 to 90 degrees of tilt adjustment, making it extra-ergonomic when using the 10-point capacitive multi-touch display.

At 21.5 inches, the Asus VT229H is one of the smaller touch screen monitors on this list, but it still sports the same Full HD (1920 x 1080) resolution as larger 24 and even 27-inch touch screen displays, meaning you get more pixels per inch and slightly crisper image quality. This is also an IPS LCD, with wide 178 x 178-degree viewing angles and reliably consistent color and contrast, regardless of your viewing angle.

Most touch screen monitors are just that: a monitor, with a touch interface. But this 21.5-inch display also adds a pair of 2W stereo speakers for sound output, along with dual-array microphones and a built-in webcam for video conferencing. The IPS LCD display panel ensures decent color and contrast uniformity, while the Full HD 1920 x 1080 resolution is easily enough to for crisp image quality on a screen this size.

The square black exterior is typical of Lenovo"s business-orientated products and may not be to everyone"s taste. Plus you"ll need to connect via DisplayPort only, as there"s no HDMI input. But otherwise this touch screen monitor offers a lot for a very reasonable price.

The obvious drawback with a touch screen monitor is the aforementioned size restrictions because if you want one larger than 27 inches, you"re out of luck. The next step up in size for touch screen monitors are 50+ inch displays designed for corporate presentations rather than home computing.

Even most 27-inch touch screen monitors have the same Full HD 1920 x 1020 resolution as their smaller 21-24-inch stablemates. So you"re not actually getting more pixels, only bigger ones. This can make your images just look more blocky unless you sit further away from the screen.

It"s not just outright screen resolution where touch screen monitors can fall short of their non-touch alternatives. Top-end screens designed for image and video editing are often factory color calibrated: they use LCD displays that can display a huge range of colors, or feature fast refresh rates for smoother video playback and gaming. However, touch screen monitors aren"t intended for color-critical image or video work: they tend to be all-purpose displays designed for more general applications like web browsing and basic image viewing.

Connectivity also tends to be compromised on touch screen monitors. You can forget about USB-C hubs(opens in new tab) with Power Delivery, and even DisplayPort connections can be a rarity.

These are the two primary forms of touch input. Resistive touch requires you to physically press the screen (which itself is slightly spongy) for it to register an input. It"s a cheaper form of touch input, and a resistive touch screen is also tougher than a capacitive equivalent, so they"re popular for use in ATMs and retail checkouts.

However, resistive technology doesn"t support multi-touch and won"t give the same fluid sensitivity as the touch screens we"re now accustomed to on phones and tablets. Consequently, most modern touch screen monitors use capacitive touch screens supporting 10-point multi-touch. These operate exactly like a phone or tablet"s touch screen, requiring only a light tap, swipe, or pinch to register inputs. All the monitors on this list use 10-point capacitive touch screens.

Put simply, even the best iMacs(opens in new tab) and MacBooks(opens in new tab) don"t support touch screen monitors. Consequently, all the touch screen monitors on this list will only work with Windows 8.1, Windows 10, and some Linux and Android operating systems.

Not all LCD monitors are created equal. LCD displays use three types of construction - IPS (In-Plane Switching), VA (Vertical Alignment), and TN (Twisted Nematic). Each one of these three LCD types exhibits noticeably different image quality characteristics, clearly visible to the average user.

For image and video editing, TN-based monitors should really be avoided. These are the cheapest to manufacture and deliver compromised image quality thanks to their restrictive viewing angles. This results in highly uneven color and contrast across the screen, effectively hiding shadow and highlight detail in your images. IPS-based monitorsare the gold standard for image quality. These produce color and contrast that doesn"t shift depending on which part of the screen you look at, making image editing much more precise. Most of the touch screen monitors on this list are IPS-based, and the rest are VA-based monitors. These can"t quite match the image quality of an IPS monitor but are much more color-accurate than a TN screen.Round up of today"s best deals

A touch screen has become ingrained in everyday lives of nearly all planet Earth inhabitants. Of course, the leading role is played by smartphones and tablets. However, other fields that use special purpose equipment keep abreast with the modern trends. Industry is among these fields. In industrial segment, the most popular devices equipped with a touch screen are panel computers and monitors. Typically, the questions on touch screen work arise during device operation – How to connect? How to configure? How to calibrate? etc.. Let us have a closer look at these issues.

As a rule, in panel computers a touch screen controller is defined automatically by the operating system and does not require installation of additional drivers. The only thing that might be necessary is calibration, but it must only be done when a touch screen does not work properly. See more information about calibration below. The connection scheme is somewhat different. Every industrial monitor, which is equipped with a touch screen, has an auxiliary USB or COM cable. This cable connects a monitor to the computer, which a video signal will be displayed from. The rest of the connection algorithm is similar to that of a panel computer.

Under configuration the detection of a touch screen controller in the system is implied, as well as its further proper operation. As it has been already mentioned, the operating system detects touch screen automatically. But what to do if this is not the case? First thing that you will definitely need is drivers. To get the necessary drivers, you may pursue any of the following ways:There are drivers on a disk that comes with the device.

If the disk is lost, you can download drivers from a panel computer/monitor manufacturer’s website, or if you know exactly what touch screen controller is installed in your equipment, e.g. AMT PenMount, you can download drivers from the controller manufacturer’s website.

After transition and opening a tab, you will see a list of drivers available for download for this device. Touch screen driver is always easy to define due to its name. It should include the word “Touch”. Sometimes, all drivers are located on one large archive. It might happen, that you should decide, what OS you need a driver for. Just choose the required one and the downloading process will start.

If you want to download drivers from the controller manufacturer’s website, you should act somewhat different. Typically, manufacturers of industrial panel computers and monitors use controllers made by two companies that have already been mentioned, these are AMT PenMount and EETI. Drivers on manufacturers website are also located in a “Download” tab. You can transfer to it directly from the main page.

You have installed the drivers, and the touch screen is working. You want to move a cursor to the upper left corner, but it goes to the right bottom one. What to do? There is only one solution for such cases – touch screen calibration. Usually, the calibration utility program can be found in the same archive, where the drivers are located. Next, we will a consider touch screen calibration option on the example of one of the most popular panel computer models APPC-1740T from Nexcom.

In APPC-1740T the manufacturer uses a touch screen controller by AMT PenMount. We will install the drivers for OS Windows 7. Download drivers from the manufacturer’s official website. Unpack the archive, once the download is complete. After unpacking, you need to install this utility program. Click on “Setup” file and follow the instructions on the screen. The installation process will take a few minutes. Once the installation is complete, launch the utility program by clicking on the shortcut PenMount Control Panel on the desktop.

After launching, in the “Choose component for configuration” field the program must display a touch screen controller. That means that the utility program has detected a controller within a system and calibration may be started. In this window, you can also see the exact model of the touch screen controller on your computer. In our case, there is the model PenMount 6000 USB installed.

During calibration, you need to click on the points on the screen following the instructions, i.e. click the cursor, hold, release and then move to the next point. It will take you a couple of minutes. After completion, the calibration window will close automatically. Then you may check whether the touch screen operates correctly. If everything is all right, then we may congratulate you on having calibrated the touch screen! If not, then, please contact Technical Support of IPC2U.

You interact with a touch screen monitor constantly throughout your daily life. You will see them in cell phones, ATM’s, kiosks, ticket vending machines, manufacturing plants and more. All of these use touch panels to enable the user to interact with a computer or device without the use of a keyboard or mouse. But did you know there are several uniquely different types of Touch Screens? The five most common types of touch screen are: 5-Wire Resistive, Surface Capacitive touch, Projected Capacitive (P-Cap), SAW (Surface Acoustic Wave), and IR (Infrared).

We are often asked “How does a touch screen monitor work?” A touch screen basically replaces the functionality of a keyboard and mouse. Below is a basic description of 5 types of touch screen monitor technology. The advantages and disadvantages of type of touch screen will help you decide which type touchscreen is most appropriate for your needs:

5-Wire Resistive Touch is the most widely touch technology in use today. A resistive touch screen monitor is composed of a glass panel and a film screen, each covered with a thin metallic layer, separated by a narrow gap. When a user touches the screen, the two metallic layers make contact, resulting in electrical flow. The point of contact is detected by this change in voltage.

Surface Capacitive touch screen is the second most popular type of touch screens on the market. In a surface capacitive touch screen monitor, a transparent electrode layer is placed on top of a glass panel. This is then covered by a protective cover. When an exposed finger touches the monitor screen, it reacts to the static electrical capacity of the human body. Some of the electrical charge transfers from the screen to the user. This decrease in capacitance is detected by sensors located at the four corners of the screen, allowing the controller to determine the touch point. Surface capacitive touch screens can only be activated by the touch of human skin or a stylus holding an electrical charge.

Projected Capacitive (P-Cap) is similar to Surface Capacitive, but it offers two primary advantages. First, in addition to a bare finger, it can also be activated with surgical gloves or thin cotton gloves. Secondly, P-Cap enables multi-touch activation (simultaneous input from two or more fingers). A projected capacitive touch screen is composed of a sheet of glass with embedded transparent electrode films and an IC chip. This creates a three dimensional electrostatic field. When a finger comes into contact with the screen, the ratios of the electrical currents change and the computer is able to detect the touch points. All our P-Cap touch screens feature a Zero-Bezel enclosure.

SAW (Surface Acoustic Wave) touch screen monitors utilize a series of piezoelectric transducers and receivers. These are positioned along the sides of the monitor’s glass plate to create an invisible grid of ultrasonic waves on the surface. When the panel is touched, a portion of the wave is absorbed. This allows the receiving transducer to locate the touch point and send this data to the computer. SAW monitors can be activated by a finger, gloved hand, or soft-tip stylus. SAW monitors offer easy use and high visibility.

IR (Infrared) type touch screen monitors do not overlay the display with an additional screen or screen sandwich. Instead, infrared monitors use IR emitters and receivers to create an invisible grid of light beams across the screen. This ensures the best possible image quality. When an object interrupts the invisible infrared light beam, the sensors are able to locate the touch point. The X and Y coordinates are then sent to the controller.

We hope you found these touch screen basics useful. TRU-Vu provides industrial touch screen monitors in a wide range of sizes and configurations. This includes UL60601-1 Medical touch screens, Sunlight Readable touch screens,Open Frame touch screens, Waterproof touch screens and many custom touch screen designs. You can learn more HERE or call us at 847-259-2344. To address safety and hygiene concerns, see our article on “Touch Screen Cleaning and Disinfecting“.

Touch screen has become a popular feature on laptops these days, and many laptops are moving toward having touch screens, but not every laptop or desktop model comes with the feature.

Swedish company Neonode has brought to you a new device, AirBar, that would bring the touch technology to virtually any computer from your non-touch laptops to notebooks.

When connected to your laptop via an available USB port, AirBar starts emitting a beam of invisible light across your screen that is used to track touchscreen movements and gestures.

The movements and gestures are then translated into corresponding inputs, making you able to use all the gestures including poking, pinching, swiping, zooming and scrolling around with your hand, in the same way, like on a touchscreen PC.

The AirBar is going to retail for $49 next month with its public launch in January 2016 at the CES event in Las Vegas. 15.6-inch screens size at present. Currently, the only size that AirBar accommodates is 15.6-inch screens.

Touchscreens have gone beyond being just for tablets and smartphones. Many modern computer monitors offer touch capabilities, leaving consumers to wonder what all the fuss is about.

Those who are thinking of purchasing a touch screen display should, first and foremost, decide what they are going to do with it. Modern touch-enabled monitors offer a number of monitor purposes and uses, though they are not without some drawbacks. Yet, these drawbacks can be more than you bargain for, and if that’s the case you need to check out the best VA monitors instead.

There are a number of unique and useful functionalities that touchscreens bring to the table. Although, they can be pricey and if the price is the issue, then you’ll need to learn how to convert a monitor to a touchscreen. Here are some good reasons why you should consider purchasing a touch screen display.

A touchscreen offers more nuance when it comes to movement when compared to a trackpad or a traditional mouse. Moving a cursor via touchscreen is accurate, fast, and extremely easy to understand. After all, we’ve been doing just that for years on our tablets and phones. Using a touchscreen monitor can also eliminate the need for keyboard shortcuts, as you can simply perform the action on the display itself. If you’re getting more interested, we have a guide on the top touch screen monitors for you to check out.

Handwriting conversion applications have come a long way in recent years. Modern touchscreen monitors can easily translate handwriting to on-screen text, making it extremely easy to write notes, work on college papers, and more. If you’re concerned about smudges and fingerprints, you can always learn how to clean a touch screen monitor. To make the most out of this feature, you will likely need to purchase a third-party stylus.

Using a touchscreen display simplifies many creative and professional pursuits. This can be extremely handy when it comes to photo editing, video editing, music-making, and more. Touchscreens can also be useful while navigating through Microsoft Excel and other pieces of software aimed at professional users.

The overall cost of touchscreen monitors will be much higher than traditional monitors. This is due to the nature of the components used during the manufacturing process. The cost should decrease in the coming years.

Touch-enabled displays must be cleaned often, as they typically get smudged and covered with fingerprints. Additionally, the internal components are slightly more complicated than what is found with traditional monitors. In other words, there is an increased risk for accidental damage.

Dell"s P2418HT at Amazon is the best overall touchscreen you can currently great, with a crisp display and a full set of features and connectivity options. For the absolute best HD display on the market, however, consider Acer"s UT241Y, also at Amazon.

The refresh rate of a monitor refers to how many times per second the screen can update with new image data. This is most important for playing games, and you’ll want to look for a monitor with a refresh rate of at least 144Hz if you’re really serious. Most gamers will be satisfied with a refresh rate of 75Hz or more, but if you don’t use your computer for gaming, you can opt for lower.

Monitor display types can be hard to understand because there are several different types of LED displays. IPS monitors have great color reproduction and viewing angles, so they’re good for watching video content, any work that requires accurate colors, and most general use scenarios. TN monitors have worse viewing angles, but fast refresh rates make them perfectly suited for gaming.

Yes, you can add a touchscreen monitor to virtually any computer (desktop or laptop). Your only real concern is ensuring there"s the proper port/connection for your new monitor on your machine: ensure you have an open HDMI/USB-C/DVI, etc. slot(s).

Touchscreen technology is either capacitive or resistive. Capacitive screens rely on a change in electrostatic fields triggered by a finger or specialized stylus/device to register an input. Resistive screens, on the other hand, are pressure-sensitive, regardless of the source of the pressure.

Not exclusively, no. For touch technology to work, a signal needs to be sent over another data channel, usually a USB connection, though an HDMI connection may be used separately to carry the video signal.

A touch screen is a display device that allows users to interact with a computer using their finger or stylus. They"re a useful alternative to a mouse or keyboard for navigating a GUI (graphical user interface). Touch screens are used on various devices, such as computer and laptop displays, smartphones, tablets, cash registers, and information kiosks. Some touch screens use a grid of infrared beams to sense the presence of a finger instead of utilizing touch-sensitive input.

The idea of a touch screen was first described and published by E.A. Johnson in 1965. In the early 1970s, CERN engineers Frank Beck and Bent Stumpe developed the first touch screen. The physical product was first created and utilized in 1973. The first resistive touch screen was developed by George Samuel Hurst in 1975 but wasn"t produced and used until 1982.

Today, all PCs support the ability to have a touch screen, and most laptop computers allow users running Microsoft Windows 10 to use a touch screen. Also, many all-in-one computers are capable of using a touch screen. Computer manufacturers with touch screen products include Acer, Dell, HP, Lenovo, Microsoft, and other PC manufacturers.

There are also some high-end Google Chromebooks with touch screens. However, to help keep the costs lower, many Chromebooks do not have touch screens.

To help keep costs lower, not all computers and laptops come with a touch screen. If a touch screen interests you, make sure that it"s mentioned in the product specifications. If it"s not listed, the computer likely does not have a touch screen.

If your laptop screen is not touch-capable, there is no way to change the screen to be a touch screen. The laptop must come with a touch screen when originally purchased to have that functionality. When purchasing a laptop, and you want touch screen functionality, check if it includes a touch screen before buying.

If your desktop computer monitor is not touch-capable, there is no way to change the monitor to be a touch screen. You need to purchase a new monitor that includes touch functionality. Before purchasing a new monitor, verify the operating system on your computer also supports a touch screen.

Tap - A single touch or tap on the screen with a finger opens an app or selects an object. Compared to a traditional computer, a tap is the same as clicking with a mouse.

Double-tap - A double-tap can have different functions depending on where it is utilized. For example, double-tapping the screen zooms the view centered at the tap location in a browser. Double-tapping in a text editor selects a word or section of words.

Touch and hold - Pressing and holding your finger to a touch screen selects or highlights an object. For example, you could touch and hold an icon and drag it somewhere else on the screen. See our long press page for further information on this term.

Swipe - Swiping your finger across the screen scrolls in a certain direction or change pages. For example, pressing your finger at the bottom of the screen and quickly moving it up (swiping) scrolls the screen down. See our swipe page for further information and related links.

Pinch - Placing two fingers on the screen in different spots and then pinching them together zooms in. Pinching your fingers together and then moving them away from each other zooms out on the screen. See our pinch-to-zoom page for further information on this term.

Any computer device (including a touch screen) that takes input from the person operating the device is considered an input device. The way you use your finger on a touch screen is very similar to how you use a computer mouse on a desktop computer.

Technically speaking, a touch screen is an input/output device. Not only is it capable of accepting input, but it also displays the output from the computer.

One of the most significant differences between a mouse and a touch screen is the ability to hover. Almost all touch screens can only detect input when your finger is in direct contact with the screen. However, a computer mouse uses a cursor that allows the user to view the information by moving the pointer over an object but not clicking it. For example, this link to Computer Hope shows the text "Visit the Computer Hope Page" when hovered over using a computer mouse. However, a user with a touch screen cannot see this text because it opens the link if they place their finger on the link.

Some web pages and apps may simulate the hover feature by making the first tap do the hover feature and the second tap open the link or app. Also, some Apple devices use Force Touch, which offers features similar to hovering.

Not all touch screens are the same. Different technologies are used to allow a user to interact with a screen. Some technologies may work with only your finger, while others may allow other tools, like a stylus. Below is a brief description of each of these technologies.

A capacitive touch screen is coated with a special material that stores an electrical charge monitored by circuits at each corner of the screen. When you touch a capacitive touch screen, a small amount of the electrical charge is drawn from the point of contact to indicate where you touched the screen.

To use a capacitive screen, you must use your bare finger or a specially designed capacitive stylus. Most users experience this type of screen technology when attempting to use a smartphone touch screen while wearing gloves and cannot do anything.

A resistive touch screen is coated with a metallic electrically conductive and resistive layer that detects the pressure of your finger or another object. This technology is often a more affordable solution than capacitive but can be damaged by sharp objects touching the screen.

A SAW (surface acoustic wave) or surface wave touch screen sends ultrasonic waves and detects when the screen is touched by registering changes in the waves. This technology is more advanced than the other two but does not work with hard materials and can be affected by outside elements.

Infrared touch screens utilize a matrix of infrared beams transmitted by LEDs with a phototransistor receiving end. The infrared beam is blocked when a finger or other object is near the display. That interruption gives the device input to where your finger or another object is positioned.

Touch screens utilize a virtual keyboard to input letters and numbers that allow the user to tap the virtual keys with their finger. Also, devices like smartphones and tablets have voice recognition that inputs information into the device.

In all forms of writing, touch screen and touchscreen are both valid spellings. If used as an adjective, the word may be hyphenated, e.g., "touch-screen devices."

Under Device Specifications, if the Pen and touch section reads No pen or touch input is available for this display, the computer does not have a touch screen.

NOTE: For touch-enabled Dell monitors, verify that the USB cable is connected from the monitor to the computer to enable the touch screen feature. To learn more about how to connect the USB cable between the monitor and the computer, see the User Guide of the Dell monitor.

To clean the anti-static screen, we recommend using a special screen-cleaning tissue or solution that is suitable for the anti-static coating on LCD panels.

NOTE: In some cases, the screen protector or screen guard may prevent the touch screen from registering that you are touching the screen and may need to be removed (this may occur if it is not designed for a capacitive touch screen or if it has air bubbles in it).

NOTE: Using a non-standard or unsupported digital pen, stylus, or regular pen to write can damage the touch screen. Select Dell 2-in-1 laptops are compatible with digital pens like Dell Active Pen. See the User Guide of the Dell 2-in-1 laptop or the Dell Active Pen for more information.

The touch screen of the computer may not respond because it is disabled or it needs to be reinstalled. Use Windows Device Manager to enable or reinstall the touch screen driver.

NOTE: For touch-enabled Dell monitors, verify that the USB cable is connected from the monitor to the computer to enable the touch screen feature. To learn more about how to connect the USB cable between the monitor and the computer, see the User Guide of the Dell monitor.

NOTE: The touch screen drivers are built-in to the latest operating systems such as Windows 10, 8.1, 8, or 7. Windows Update helps download the latest touch screen driver that is applicable to your computer (if required).

NOTE: Using a non-standard or unsupported digital pen, stylus, or a regular pen to write can damage the touch screen. Select Dell 2-in-1 laptops are compatible with digital pens such as the Dell Active Pen. See the User Guide of the Dell 2-in-1 laptop or the Dell Active Pen for more information.

NOTE: If Dell SupportAssist is not installed on your computer, you will be prompted to complete the installation to run the diagnostic test. Follow the on-screen instructions to complete the installation process of Dell SupportAssist.

Power settings can cause the touch screen to stop working after waking the computer from sleep mode. Change the power settings so that the touch screen stays active while the computer is in sleep mode.

Science fiction has always served as a window into a potential future, namely in the way of technology. But what was once regulated to episodes of Star Trek is quickly becoming the stuff of reality. Many fixtures of these kinds of shows and books have begun to inspire real-life counterparts, including - but not limited to - touchscreen technology.

One only has to look at how far cell phones have come since their inception. Physical keyboards, like those from BlackBerry, gave people about as much of a solution as is possible for those who found themselves doing more on the devices as they became more advanced. Where tactile options came up short, touchscreens graciously stepped up to bat, providing a much fuller experience. This kind of functionality then spread to tablets, which are considered by many to be rivals of laptops and even standard PCs.

While there are still some things that are best done on a desktop computer, that does not change the fact that many users find themselves longing for the same abilities on their PCs afforded by many of their mobile devices. This is what helped breed the touchscreen monitor market, which has many viable options for people seeking the best of both worlds. With stronger computing power and a finer ability to control actions occurring in the screen, users can get more work done in new and exciting ways.

Traditionally, computer mice are what have allowed us to "touch" in a virtual context, but touchscreen monitors are changing all that. It might be said that the reason that mice were used in the first place was because the technology had not evolved to a responsive enough level to enable that natural solution. Now that people have the touchscreen technology, they want it everywhere.

If one thing is for certain, it is that the burgeoning adoption of touchscreen technology is no fad. Proliferation has already come too far to turn back now, and computer manufacturers are taking notice. Everyone is trying to get a piece of the action, including ELO Touch Solutions, Laiputuo Electronics, Planar, HP, 3M, Touch Systems, ViewSonic, Dell and ACER as well. Getting into the touchscreen monitor game is a no-brainer for the companies involved in this generation of computing. With so many different applications made for touchscreen monitors, options exist for all sorts of interested parties.

Touchscreen monitors are becoming the new standard in both private and enterprise settings. Here are some of the ways they can be leveraged effectively for business: touchscreen monitors for workstations, touchscreen monitors for hospitals, and touchscreen monitors for POS systems.

Newegg offers a large selection of touchscreen monitors which vary according to the type from 5-wire Resistive touchscreen monitors, and Accu Touch touchscreen monitors, to Capacitive touchscreen monitors, and more. Newegg’s wide selections will definitely meet your needs.