hOW DOES A TOUCHSCREEN WORK?

Question

eX. TOUCH SCREEN LAPTOPS, PALM TOPS,

Answer 1

Touchscreens, touch screens, touch panels or touchscreen panels are display overlays which are typically either pressure-sensitive (resistive), electrically-sensitive (capacitive), acoustically-sensitive (SAW - surface acoustic wave) or photo-sensitive (infra-red). The effect of such overlays allows a display to be used as an input device, removing the keyboard and/or the mouse as the primary input device for interacting with the display's content. Such displays can be attached to computers or, as terminals, to networks.

Applications

The Nintendo DS uses a touchscreen as a primary controlling deviceTouchscreens have become commonplace since the invention of the electronic touch interface in 1971 by Dr. Samuel C. Hurst. They have become familiar in retail settings, on point of sale systems, on ATMs and on PDAs where a stylus is sometimes used to manipulate the GUI and to enter data. The popularity of smart phones, PDAs, portable game consoles and many types of information appliances is driving the demand for, and the acceptance of, touchscreens.

The HP-150 was among one of the world's earliest commercialized touch screen computers. It actually does not have a touch screen in the strict sense, but a 9" Sony CRT surrounded by infrared transmitters and receivers which detect the position of any non-transparent object on the screen.

Touchscreens are popular in heavy industry and in other situations, such as museum displays or room automation, where keyboards and mice do not allow a satisfactory, intuitive, rapid, or accurate interaction by the user with the display's content.

Historically, the touchscreen sensor and its accompanying controller-based firmware have been made available by a wide array of after-market system integrators and not by display, chip or motherboard manufacturers. With time, however, display manufacturers and System On Chip (SOC) manufacturers worldwide have acknowledged the trend toward acceptance of touchscreens as a highly desirable user interface component and have begun to integrate touchscreen functionality into the fundamental design of their products.


There are a number of types of touch screen technology:

Resistive: A resistive touch screen panel is coated with a thin metallic electrically conductive and resistive layer that causes a change in the electrical current which is registered as a touch event and sent to the controller for processing. Some resistive panels can estimate the area (and hence the pressure) of a touch based on calculations from the resistances. Resistive touch screen panels are generally more affordable but offer only 75% clarity and the layer can be damaged by sharp objects. Resistive touch screen panels are not affected by outside elements such as dust or water and are the most commonly used today.

Surface wave: Surface wave technology uses ultrasonic waves that pass over the touch screen panel. When the panel is touched, a portion of the wave is absorbed. This change in the ultrasonic waves registers the position of the touch event and sends this information to the controller for processing. Surface wave touch screen panels can be damaged by outside elements. Contaminants on the surface can also interfere with the functionality of the touchscreen.

Capacitive: A capacitive touch screen panel is coated with a material, typically indium tin oxide that conducts a continuous electrical current across the sensor. The sensor therefore exhibits a precisely controlled field of stored electrons in both the horizontal and vertical axes - it achieves capacitance. The human body is also an electrical device which has stored electrons and therefore also exhibits capacitance. When the sensor's 'normal' capacitance field (its reference state) is altered by another capacitance field, i.e., someone's finger, electronic circuits located at each corner of the panel measure the resultant 'distortion' in the sine wave characteristics of the reference field and send the information about the event to the controller for mathematical processing. Capacitive sensors must be touched with a conductive device being held by a bare hand or a finger, unlike resistive and surface wave panels that can use anything that can point, such as a finger or stylus. Capacitive touch screens are not affected by outside elements and have high clarity.

Infrared: An infrared touch screen panel employs one of two very different methodologies. One method used thermal induced changes of the surface resistance. This method was sometimes slow and required warm hands. Another method is an array of vertical and horizontal IR sensors that detected the interruption of a modulated light beam near the surface of the screen.

Strain Gauge: In a strain gauge configuration the screen is spring mounted on the four corners and strain gauges are used to determine deflection when the screen is touched. This technology can also measure the Z-axis. Typical application falls in protecting new touch-screen railway ticket machines from vandalism.

Optical Imaging: A relatively-modern development in touch screen technology, two or more image sensors are placed around the edges (usually the corners) of the screen. Infrared backlights are placed in the camera's field of view on the other sides of the screen. A touch shows up as a shadow and each pair of cameras can then be triangulated to locate the touch. This technology is growing in popularity, due to its scalability, versatility, and affordability, especially for larger units.

Dispersive Signal Technology: This is the newest technology, introduced in 2002. It uses sensors to detect the mechanical energy in the glass that occur due to a touch. Complex algorithms then interpret this information and provide the actual location of the touch. The technology claims to be unaffected by dust and other outside elements, including scratches. Since there is no need for additional elements on screen, it also claims to provide excellent optical clarity. Also, since mechanical vibrations are used to detect a touch event, any object can be used to generate these events, including fingers and styluses. The technology is still quite new and is not currently widely available.

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Touchscreen deployment
Virtually all of the significant touchscreen technology patents were filed during the 1970's and 1980's and have expired. Touchscreen component manufacturing and product design are no longer encumbered by royalties or legalities with regard to patents and the manufacturing of touchscreen-enabled displays on all kinds of devices is widespread.

With the growing acceptance of many kinds of products with an integral touchscreen interface the marginal cost of touchscreen technology is routinely absorbed into the products that incorporate it and is effectively eliminated. As typically occurs with any technology, touchscreen hardware and software, has sufficiently matured and been perfected over more than three decades to the point where its reliability is unassailable. As such, touchscreen displays are found today in airplanes, automobiles, gaming consoles, machine control systems, appliances and handheld display devices of every kind.

Answer 2

How Does A Touchscreen Work

Answer 3

basic touchscreen has three main components: a touch sensor, a controller, and a software driver. The touchscreen is an input device, so it needs to be combined with a display and a PC or other device to make a complete touch input system.

1. Touch Sensor
A touch screen sensor is a clear glass panel with a touch responsive surface. The touch sensor/panel is placed over a display screen so that the responsive area of the panel covers the viewable area of the video screen. There are several different touch sensor technologies on the market today, each using a different method to detect touch input. The sensor generally has an electrical current or signal going through it and touching the screen causes a voltage or signal change. This voltage change is used to determine the location of the touch to the screen.

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Answer 4

Touchscreens

Answer 5

A touchscreen's functionalities are different from a normal screen because it has pressure detection. Depending on the model of the touchscreen, it works differently. Some work using heat, others use optical sensors that are close, others can operate using EMS fields. There are many different types of touchscreens out there.

Answer 6

By touching the pressure sensitive screens.

The touch screen panel is coated with a thin metallic electrically conductive and resistive layer that causes a change in the electrical current which is registered as a touch event and sent to the controller for processing. Some resistive panels can estimate the area (and hence the pressure) of a touch based on calculations from the resistances. Resistive touch screen panels are generally more affordable but offer only 75% clarity and the layer can be damaged by sharp objects. Resistive touch screen panels are not affected by outside elements such as dust or water and are the most commonly used today.

Answer 7

Heloo! Ive just got a summary on the touchscreens found in department stores. Hope it'll be useful: these computer screens have film that is sensitive to touch.
Due to the interfaces used on the touchscreens, ('openings' that allows user to communicate with the computer) touching a box drawn on the screen is as good as doubling-clicking that box with a mouse!

Answer 8

The answer that you are looking for, I believe, is variable resistance. Not that all of those other answers weren't hilarious, but I sense that you were looking for a teensy bit more.

A touch screen measures the resistance at many locations along both the x and y axes. All up and down the left and right sides of the screen, there are connectors that measure the resistance across the screen in one direction. And all across the top and bottom, there are connectors for measuring resistance in the other direction.

When you touch the screen, you change the resistance at a certain point. One set of the x axis connectors, and one set of the y axis connectors see a change in resistance. By knowing which connectors saw the change in resistance, you know the coordinates where you touched the screen. These coordinates are reported to software, which does the visible work, such as "click the thingy."

Answer 9

For laptops and such I'm not sure but for touch screen games in a casino they work off heat. There's actually two layers of glass with the pressurized air in between very sensitive to the heat of your finger so it "knows" where you're pressing. The laptops might be the same technology on a smaller scale.

Answer 10

if you will notice they all have blue background. They work by blocking the light to a certain spot when the screen then reads as input. Nitendendo once had a game based on this where you used the blue screen and commands to make an external robot do things that would allow you to solve puzzles. Never caught on.

Answer 11

you mean the mechanics behind it right ? it work like any key pad does but its a very small circuits and a laminate over glass with a non corrosive gel in between, good question, but then there is temperature controlled type as well that use the heat from your finger but that type is used in special applications only others are electronic type just very thin on a circuit board