How Does the Touch Screen on a Mobile Phone Work?

The mobile phone is an amazing piece of work. Earlier you had to press buttons, now you just touch the app on your screen and it comes to life. You can even pinch your pictures to zoom in on a detail or zoom out to see more of the scene. The movement of your finger in the screen causes the screen to scroll up, down, left or right.

The technology behind this wizardry is called the touch-screen. It is an extra transparent layer sitting on the actual liquid crystal display, the LCD screen of your mobile. This layer is sensitive to touch and can convert the touch into an electrical signal, which the computer inside the phone can understand.

Touch screens are mainly of three different types – Resistive, Capacitive and Infrared, depending on their method of detection of touch.

In a resistive touch-screen, there are multiple layers separated by thin spaces. When you apply pressure on the surface of the screen by a finger or a stylus, the outer layer is pushed into the inner layers and their resistance changes. A circuitry measuring the resistance tells the device where the user is touching the screen. Since the pressure of the finger or the stylus has to change the resistance of the screen by deforming it, the pressure required in resistive type touch-screens is much more than for capacitive type touch-screens.

Capacitive type touch-screens work on a principle different to that of the resistive touch-screens. Here the change measured is not in terms of resistance but of capacitance. A glass surface on the LCD senses the conductive properties of the skin on your fingertip when you touch it. Since the surface does not rely on pressure, the capacitive touch-screens are more responsive and they can respond to such gestures as swiping or pinching (multi-touch). Unlike the resistive type screens, the capacitive screen will only respond to touch by a finger and not to stylus or a gloved finger, and certainly not to fingers with long nails. The capacitive touch-screens are more expensive and can be found on high-end smartphones such as from Apple, HTC and Samsung.

As the screen grows larger, such as for TVs and other interactive displays such as in banking machines and for military applications, the resistive and capacitive type technologies for touch sensing quickly become less than adequate. It is more customary to use infrared touch screens here.

Instead of an overlay on the screen, infrared touch screens have a frame surrounding the display. The frame has light sources on one side and light detectors on the other. The light sources emit infrared rays across the screen in the form of an invisible optical grid. When any object touches the screen, the invisible beam is broken, and the corresponding light sensor shows a drop in the signal output.

Although the infrared touch-screens are the most accurate and responsive among the three types, they are expensive and have other disadvantages. The failure rate is high because diodes used for generating the infrared rays fail often.