What is Touch Screen Technology?

A touch screen is both an electronic display screen and an input device. A user uses hand motions and fingertip movements to tap photos, control items, or input words on a computer, tablet, smartphone, or touch-controlled appliance screen. The screens are pressure-sensitive and can be operated or handled with fingers or a pen.

What is Touch Screen Technology?

A touch screen is an electronic visual display that can detect the presence and location of a touch (usually by a finger or hand) within the display area. Touch screens are a useful alternative to mouse and keyboard for navigating a graphical user interface (GUI). Certain devices also use touch displays equipped with a grid of infrared beams that detect a finger, reducing the requirement for touch-sensitive input.

History of Touch Screen

Touch screens first appeared in the 1960s. E.A. Johnson invented the first touch-driven screen in 1965. This technique received very little attention until the 1970s when a research team at the University of Kentucky in the United States accidentally produced a resistive touch screen. In the 1980s, the University of Toronto developed the first multi-touch display. The first touchscreen cell phones were discovered in the 1980s.

Components of Touch Screen

• Touch sensor – The structure of touch sensors depend on the type of touch screen we’re using. Its work is to sense any valid touch, valid touch meaning by a finger or hand.
• Controller – Controller is a small pc card. It gives the location of the touch to the software of the device.
• Software drivers – Software drivers allow the software to work in cooperation with the touch screen. These drivers are developed using the C programming language.

Working of Touch Screen Technology

Touch screen technology works on several principles, each is used to detect and respond to touch inputs. Capacitive touchscreens, one of the most common types, works by measuring changes in capacitance when a conductive object, like a finger, touches the screen, disrupting an electrostatic field. Resistive touchscreens work by pressing two flexible layers together, completing a circuit and detecting touch based on changes in electrical current flow. Surface Acoustic Wave (SAW) touchscreens emit ultrasonic waves over the screen’s surface, with touch points identified by disruptions in the wave pattern. Infrared touchscreens use infrared light beams across the screen, with touch points detected by interruptions in the beams. These technologies collectively enable intuitive interaction with electronic devices, revolutionizing user interfaces across a wide range of applications.

Types of Touch Screens

• Resistive Touch Screen: It is the simplest and most commonly used touch screen. Resistive touch screens when pressed hard enough, bend, and resists the touch hence, the name. It consists of two layers that can conduct electricity, the outer layer is resistive and the inner layer is conductive. These two layers are separated by tiny dots called spacers until the screen is touched. An electrical current constantly runs through the two layers, when all of a sudden a finger hits the screen, the two layers get pressed together and the electrical current changes. The device’s software feels a change in this particular spot and does its work means that it fulfills the function that corresponds to that place. Some pros of this type are that it is reliable and durable. There are some cons of this type that is it’s pretty hard to read the screen due to their multiple layers, the more light falls on the display the harder it is to read, also can’t zoom in to see more clearly because they can handle only one touch at a time.
• Capacitive Touch Screen: These touch screens are made of indium tin oxide or copper, both of them keep electrical charges in very thin wires. The capacitive screen changes the electric current when it comes into contact with anything that holds a charge that means even our skin. There are two types of capacitive screens :
  • Projective: Uses a tight grid of special sensor chips.
  • Surface: uses small sensors in the corner as well as a paper-thin film evenly distributed over the screen.

  As soon as a finger comes in contact with the screen, it transfers a small amount of electrical charge back to the finger. As a result, there forms a complete circuit which leads to a voltage drop in a particular place. The software analyses the location of the voltage drop and follows the command accordingly.

• Infrared: Their display shines infrared light in the form of web or grids in front of the screen. As soon as someone touches the screen, a couple of infrared rays gets interrupted and gives a reaction. By analyzing the location of the interruption, a microchip will do the job accordingly.
• Surface Acoustic Wave Technology: Their technology uses sound to detect any touch. The screen creates ultrasonic sound waves at its edges, and they get reflected back and forth all over the screen. These ultrasonic sounds are too high pitched to be heard by the human ear. As soon as someone touches the screen, not only the sound waves get disturbed but the finger also absorbs some wave’s energy. This is how the microchip controller understands where the screen is hit.

Advantages of Touch Screen

• Reduces error while accessing something.
• Provides easy and fast access to any file.
• Reduces the need of extra input devices like keyboard, mouse, etc. hence saves energy.
• Provides good security.

Disadvantages of Touch Screen

• They are not suitable to store very large amount of data.
• Installing a large no. of touch screen devices can be pretty expensive hence not cost effective.

Frequently Asked Question on Touchscreen Technology – FAQs

What is a Touch Screen Digitizer?

A touch screen digitizer is a glass layer that converts physical interactions (such as touching the screen with a finger) to digital signals. Both capacitive and resistive touch screens include a digitizer, which is a glass layer put on top of the liquid crystal display (LCD). The digitizer’s basic purpose is to convert analog signals generated by touch commands into digital signals that the device can read and process.

What is Touch Screen Calibration?

Touch screen calibration converts the various coordinates supplied by the touch-screen controller into precisely represented points and image places on an LCD or other form of display screen.

What is a Touch Screen Monitor?

A touch screen monitor is used to enter and receive data from a single peripheral device, often a laptop touch screen display. So, when utilising a touch screen display, users do not need to utilise a keyboard or a mouse. They can quickly enter data into the device by touching its screen.