Along with traditional rigid PCBs, there is growing rate of interest in flexible printed circuits (FPCs) and rigid-flexible PCBs that combine the benefits of both flexible and rigid circuits. These sorts of circuits are commonly employed in compact devices where room cost savings and light-weight characteristics are key, such as in consumer electronics, aerospace applications, and clinical devices. The flexible circuit manufacturing process entails unique strategies that enable bending and flexing without compromising electrical stability, making them a prominent option for advanced electronics.
Along with traditional rigid PCBs, there is growing rate of interest in flexible printed circuits (FPCs) and rigid-flexible PCBs that combine the benefits of both flexible and rigid circuits. These sorts of circuits are commonly employed in compact devices where room cost savings and light-weight characteristics are key, such as in consumer electronics, aerospace applications, and clinical devices. The flexible circuit manufacturing process entails unique strategies that enable bending and flexing without compromising electrical stability, making them a prominent option for advanced electronics.