Availability: | |
---|---|
Quantity: | |
Ultra-Thin Design: By utilizing a 0.1mm polyimide substrate, the circuit board becomes extremely lightweight and thin, making it suitable for scenarios with limited space inside medical devices.
High Flexibility: Flexible circuit boards exhibit excellent flexibility, allowing them to adapt to the complex curves and layouts inside medical devices, enhancing the flexibility and variability of circuit layout.
Gold Plating: Surface treatment with gold plating enhances conductivity and corrosion resistance, ensuring the reliability and stability of circuit connections.
Precision Processing: Through precise processes such as precise etching, AOI inspection, and punching, the circuit board's accuracy and quality stability are ensured.
Medical-Grade Quality: Compliant with the high-quality requirements of medical devices, stringent testing ensures the normal functionality of each circuit, ensuring high reliability.
Strong Reliability: Designed specifically for medical applications, the product boasts high reliability and stability, capable of long-term stable operation, ensuring the normal functioning of medical devices.
Customized Services: We offer customized services, tailoring designs and production according to customer requirements to meet the specific needs of different medical devices.
Our production process for the 0.1mm polyimide gold-plated double-sided flexible medical circuit board covers key processes such as material preparation, pre-treatment, dry film lamination, exposure/development, etching/stripping, AOI inspection, punching, copper foil lamination, pressing, curing, testing, OSP treatment, cutting, punching, FQC, FQA, etc. Key processes include etching/stripping, AOI inspection, punching, copper foil lamination, pressing, curing, and testing, all of which significantly impact product quality. From pre-treatment to final quality inspection, we strictly control each step to ensure the precision, stability, and reliability of the product, meeting the high requirements of medical devices for circuit boards.