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By substituting an elastic substrate for the polyimide that is frequently used in conventional FPCs, the recently introduced Stretchable FPC delivers elasticity.
This heat-resistant and repeatedly stretchable elastic substrate enables solder-mounting of components.
A flexible printed circuit board constructed of polyester or polyimide film is known as a flexible printed circuit (FPC). High wiring density, light weight, thin thickness, and exceptional bendability are its features.
Is preferred for its exceptional qualities, including its low weight, thin thickness, free bending, and folding.
Circuit board design is becoming more and more high-precision and high-density as a result of the electronics industry’s rapid expansion.
The demands of manufacturing can no longer be addressed by traditional manual inspection techniques. FPC flaw automatic detection has become an essential trend of industry development.
The Global stretchable FPC market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
Stretchable Flexible Printed Circuits, or Stretchable FPC, have been introduced by Oki Electric Cable Co., Ltd., a member of the OKI Group and a company that specializes in electric cables.
In recent years, there has been an increase in demand for novel properties in the flexible printed circuits used as wiring materials due to the astounding technological advancements and the increasing sophistication of electronic gadgets.
In addition to being lightweight, thin-profiled, and flexible enough to assure comfort when worn, the requirements for wiring materials used in clothing-type wearable devices also include the capacity to mount functional elements.
These materials also need to be elastic enough to allow for the varied movements of the human body. Existing FPCs have a tiny profile, are lightweight, flexible, and mountable, but they lack elasticity.