Touch Screens that Survive in Harsh Environments

Touch screens are used everywhere today· from consumer electronics, to industrial, medical, automotive and aerospace applications. This wide range of varying environments and usage types leads to wide diversity in the required specifications.

Touch panels used in industrial environments must be resistant against dirt, dust, liquids, or chemicals, long lasting and highly durable. Depending on the industrial sector, they must be able to function in scenarios where the user wears protective gloves and they must continue to operate properly even in extreme conditions (high humidity, frost, heat etc.). These features are prerequisites for example in Points-of-Sales, kiosks, and marine applications, where additionally touch screens of low glare and good performance under severe weather conditions, like rain or snow, are desired.

Reliable, robust and long lasting touch panels are of critical importance in medical and military applications. For the armed forces, a flawed screen can prove disastrous or even fatal, especially during a military deployment. Military equipment must withstand electromagnetic radiation, which can be achieved through proper shielding against Electromagnetic Interference (EMI), and also emit as low electromagnetic radiation as possible, so as to prevent localization and ensure safety in communications.

Another tremendously challenging industry for touch screens is avionics. Is touch technology ready to maneuver aircrafts? Given that pilot gloves are not a problem anymore; the major remaining challenges are two: touch screens in cockpit must operate under low atmospheric pressure and, most importantly, they must also withstand vibrations and turbulence without compromising their functionality.

Touch screen water and dust resistance labels

The resistance of touch panels against particles and water, determined by the efficiency of the enclosure, is usually described through the Ingress Protection (IP) rating that consists of two numbers:

The first number specifies resistance against particles, such as dirt or dust, and ranges from 0 (no protection) to 6 (withstands even the smallest dust particles).  The second number is indicative of the waterproofness level, taking values between 0 (no protection) and 8 (fully protected in case of total submergence).

Smartphones are usually manufactured with IP54 as a minimum requirement, whereas typical IP values for water resistance of industrial touch screens are 5 or 6 (protection against water jets). Such quality specifications can be achieved by using zero-bezel enclosures made of hard and transparent materials being also as light and cheap as possible; among the most commonly used materials are the chemically strengthened “soda-lime” glass, the Corning Gorilla glass and the Sapphire glass.

Three types of touch panel materials

The strengthened “soda-lime” glass was first used in industrial and military applications where durability is crucial, as well as in outdoor applications, such as Point-of-Sales and ATMs, to protect touch panels from breakage. Just after a few years strengthened glass had already penetrated into consumer market, due to its affordable price (at least for touch screens up to 10’’) satisfying the increasing demand to protect cell phones and tablet PCs. The optical performance of “soda-lime” cover glass is often enhanced when combined with special coatings or films, like anti-glare, anti-reflective, anti-fog, anti-smudge, fingerprint-free or UV blocking.

Corning Gorilla glass is the predominant material used in smartphones, mainly due to its hardness and flexibility. Although its break resistance is similar to that of the strengthened “soda-lime” glass (Mohs scale of hardness: 6.8 compared to 6 of “soda-lime” glass),  Gorilla glass is less likely to get scratched. This is the reason why Corning is the worldwide leader of cover glass industry and Gorilla Glass has been used on more than 4.5 billion devices. Recently, Corning has announced Gorilla Glass SR+, specially designed for wearable devices, claiming also superior scratch resistance.

Sapphire glass was introduced a few years ago by Apple’s supplier GT Advanced Technology as the alternative cover glass to be used in iPhones. The main advantage of the Sapphire Glass is that it is the second hardest material on earth, behind diamond (Mohs scale of hardness: 9). But it is heavier than Gorilla glass and not flexible, so it doesn’t seem to fit in the wearables industry. Its main drawback, however, is that even a tiny flaw in a sapphire screen makes the screen fragile if accidentally dropped or hit by an object. So, Sapphire glass failed to fulfill Apple’s innovative expectations, resulting inevitably in the bankruptcy of GT Advanced Technology.

Touch sensor types

Apart from the type and quality of the materials used in a touch sensor, there is another important factor affecting its behavior: the touch technology it relies on. Resistive or Surface Acoustic Wave (SAW) touch panels, for example, do not support multi-touching and are more vulnerable to scratches than capacitive ones. In particular, the ITO conductors of resistive touch screens may crack due to frequent use, resulting in dead spots. Regarding temperature, resistive panels are typically reliable from about -30 to 70 °C, while capacitive ones are often limited between -10 and 60 °C.

Touch industry has already managed to tackle the most serious issues concerning the design of durable touch screens that can perfectly operate even in harsh environments. Today it seems that the widespread usage of touch panels in every single aspect of human action, from sending an e-mail through our smartphones to piloting a fighter jet, is only a matter of time.


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