The latest generation of handheld personal consumer electronic devices, with their highly sensitive and intuitive user interfaces based around projected capacitive (p-cap) touchscreens, have begun to ...

The IoT continues to influence and modernize products for home and building automation. Although this market is expected to grow significantly, its potential depends on how users adopt these products, ...

The multi-touch ClearPad 3000 series of capacitive touch sensors brings high-resolution capacitive touchscreens with basic gesture capability to mobile handsets and other handheld devices. With the ...

The capacitive touch human-machine interface (HMI) is a critical aspect of modern electronics. It is how we interact with our devices, making it an integral part of wearables, smart home products and ...

The QST108 is the first in a series of capacitive touch sensors from STMicroelectronics using a pure digital, firmware-based solution that implements the Quantum Research Group's patented ...

Apple is examining a shift from a force sensor in AirPods to a capacitive touch system to make a set easier to control, and provide new options. The latest in Apple's surprisingly long history of ...

Capacitive touch screen technology underpins many modern interactive devices by utilising the inherent ability of certain materials to store and transfer electrical charges. The operation of these ...

GOTHENBURG, Sweden--(BUSINESS WIRE)--Fingerprint Cards (Fingerprints™) today announces the launch of a new side-mounted capacitive touch sensor for biometric authentication. Responding to customer ...

Many IoT devices have started to include touch screen interfaces as part of their UI to make the devices more intuitive and easier to use. A great interface can make customers really love and want to ...

Geneva, Switzerland and Thessaloniki, Greece, 27 January 2020 - STMicroelectronics (NYSE: STM), a global semiconductor leader serving customers across the spectrum of electronics applications, and ...

Capacitive touch sensors are entirely in the domain of DIY, requiring little more than a carefully-chosen conductive surface and a microcontroller. This led [John Phillips] to ask why not embed such ...