download Common copper Flex Zif Connectors
0.5MM PITCH FPC COPPER FLEX CABLE RA ZIF CONNECTORs UPPER CONTACTs 3D FILES
A membrane switch connector connects the assembly to the actual product, device or machine. Membrane switches are usually designed with flexible tails that are inserted or connected to the PCB through various connectors. Another option is to design the tail to connect to the zero insertion force (ZIF) connector on the PCB. Use this model to create your own designs and upload them to our platform.
The FPC (Flexible Printed Circuit) manufacturing process typically involves the following steps:
Design: The first step in the FPC manufacturing process is the design phase. This involves designing the circuit layout using specialized software, taking into consideration factors such as trace width and spacing, layer stack-up, and termination points.
Printing: Once the design is complete, the circuit is printed onto a flexible substrate using a process known as photolithography. This involves exposing the substrate to a light source through a mask that contains the circuit pattern, which is then etched onto the substrate.
Etching: After the circuit pattern is printed onto the substrate, it undergoes a chemical etching process to remove the unwanted copper and create the desired circuit pattern.
Plating: Once the circuit is etched onto the substrate, it undergoes a plating process to add additional copper to the circuit traces and vias. This helps to ensure that the circuit has the desired electrical conductivity and can withstand the stresses of bending and flexing.
Lamination: After the plating process is complete, multiple layers of the FPC are laminated together using a specialized adhesive. This creates a flexible and durable circuit that can withstand the stresses of bending and flexing.
Routing: Once the FPC is laminated, it undergoes a routing process to remove any excess material and create the final circuit shape.
Testing: Before the FPC is shipped, it undergoes rigorous testing to ensure that it meets the desired electrical performance and reliability standards. This includes testing for continuity, insulation resistance, and other electrical properties.
Overall, the FPC manufacturing process is complex and requires specialized equipment and expertise. By following the proper procedures and quality control measures, manufacturers can produce high-quality FPCs that are reliable and meet the specific requirements of their application.