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 ...

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 ...

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 ...

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

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 ...

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

Designing interactive devices is a challenging task that requires careful mechanical design and wiring to integrate electronics. Using multi-material 3D printing and computational tools, this work ...

When your residence has soil moisture sensors embedded that were dictated by your friendly neighborhood HoA, you may start asking questions about the system used. That’s what [Modest Maker] did and ...

The touch-sensing human-machine interface (HMI) in wearable devices is a key element of their consumer appeal, providing a responsive, intuitive way to interact via touch buttons and sliders in ...