In today’s electronics industry, compact, efficient, and versatile PCBs are in high demand. Rigid-flex technology allows engineers to design boards that bend and flex without compromising performance ...

Printed circuit boards can be square, round, octagonal, or whatever shape you desire. But there’s little choice when it comes to the third dimension: most PCBs are flat and rigid. Sure, you can make ...

Building electronics in unconventional form factors with high packaging density is possible thanks to three-dimensional circuit designs using flex and rigid-flex printed circuit boards (PCBs).

Most every device and electronic piece of equipment is outfitted with a printed circuit board (PCB), including smartphones, TVs, appliances, and more. You know the composite. The boards are laminated ...

What are single- and double-sided PCBs and how do they differ? What are the advantages of symmetrical and thin layer structures? How materials influence PCB selection. The choice of PCB design is an ...

Back in March, the call went out: take your wiggliest, floppiest, most dimensionally compliant idea, and show us how it would be better if only you could design it around a flexible PCB. We weren’t ...

This series of articles discusses the different steps of PCB development from the basics of creating a design schematic with specific requirements, to finalizing a board and preparing it for ...

Wearable devices have now become part of our daily life. Heart rate, sleep-wake rhythm, workouts, electronic payments, calls, emails and notifications: these are just some of the many pieces of ...

This white paper is designed to guide you through the intricacies of rigid-flex printed circuit board (PCB) design. In today’s electronics industry, there has never been more demand for compact, ...