Capacitive touch sensing has been traditionally used as a design differentiating technology to enable superior aesthetic designs for automotive infotainment applications. With devices maturing to the ...

While engineers have long optimised electronics for performance, efficiency and form factor, a shift is now underway ...

Multi-frequency-region parallel sensing (MFRPS) is poised to enable larger-sized, thinner, and more responsive touchscreens.

Figure 7 provides the typical design flow for implementing capacitive sensing. Firmware (F/W) Development, Tuning, and Production Fine Tuning are the critical phases in the life cycle of a ...

Capacitive sensing has emerged as a promising non-contact approach for acquiring biopotential signals such as electrocardiograms and electrodermal activity. Unlike conventional methods that rely on ...

EBE sensors + motion is expanding its portfolio of capacitive input systems for industrial control concepts with the TCRC.

Capacitive touch sensing is a familiar and popular way to implement sleek, attractive and intuitive human-machine interfaces (HMIs) in devices such as smartphones, tablets and automotive displays. Now ...

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 ...