Expensive and complicated discrete interconnection cables can reduce a design’s reliability, increase design cost and increase over all design size. Fortunately there is an alternative in the form of ...

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).

This ebook provides a comprehensive overview of flex PCBs, highlighting their unique benefits, materials used, common challenges, and how you can overcome them. Learn about the various applications of ...

Space savings, greater reliability, low mass, and high ductility are some of the advantages offered by flexible PCBs, but designers must also prepare for their complexity. Flexible printed circuit ...

Rigid flex design is even more complicated than flex design because each layer is partially outlined before it is laminated into a multilayer panel, and there are many added outline tools and routing ...

Rigid-Flex PCBs have been used in many modern electronic devices (such as mobile phones, laptops, and wearables, among others), due to their form factor, light weight, and cost-effectiveness.

Yes, you can use any of the final finishes available for rigid PCBs, but whether you should use them depends on the application. Some standard finishes used on rigid PCBs are not suitable for flex ...

Rapid growth in demand seen over the past two years for wearable devices including smartwatches and wireless headsets will carry into 2019, serving as a significant growth driver for shipments of both ...