In common with all Zytronic PCT touch sensors, it is constructed with an XY matrix of ultra-fine (10µm diameter) copper capacitors embedded into a durable laminated glass substrate. This substrate can made from a variety of glass types and thicknesses depending on the application and environment. Unlike conventional resistive and surface capacitive touch sensors, the technology is effectively invulnerable to all forms of mechanical stress (scratches, impacts, vibrations, etc.), as well as extreme temperatures and harsh chemicals. In addition, while optical, infrared (IR) and surface acoustic wave (SAW) touch technologies usually depend on the inclusion of a bezel, in which the transmitting/receiving electronics are housed, PCT touch sensors support smooth-fronted, edge-to-edge glass designs. This means that the high levels of hygiene critical in medical applications are much easier to maintain, as there are no recesses in which dirt and germs can be trapped. Projected capacitive touch sensors also have the advantage of being able to detect touch through a glove – and notably in this application – even when the glove is made of latex or rubber.
“Designing an attractive and practical touchscreen design, capable of withstanding regular, aggressive cleaning and yet with the ability to sensitively react to a light touch from medical staff wearing surgical gloves was our brief for this project,” explains Ian Crosby, Zytronic’s Sales & Marketing Director. “PCT has again demonstrated itself to be extremely well suited to medical and industrial applications.”
“Our engineering team was greatly impressed with the attributes exhibited by Zytronic’s touch technology,” adds Björn Bakken, President of Perimed. ”By incorporating it into the PeriFlux 6000, we can have total confidence that this instrument will deliver high quality results consistently, with no compromise in performance.”