1. Flexibility: Flexible circuits can be bent and folded freely, flexing tens of thousands of times without damage. They can be arranged arbitrarily according to spatial layouts, extending and moving freely in three dimensions, and integrating component assembly and wiring, offering high flexibility.
2. Flexible circuit boards are thin, lightweight, and flat, enabling more compact and rational device layouts, reducing product size, weight, and portability, thus promoting the development of high-density, high-reliability, and miniaturized electronic products.
3. High safety: Flexible circuit boards utilize integrated wiring connections, ensuring highly consistent parameters. This reduces wiring errors and minimizes the occurrence of failures.
4. High assembly reliability: Flexible circuit boards' flat wiring reduces switching interconnections, facilitating circuit design and assembly work, improving overall system reliability, and facilitating fault detection.
5. Design flexibility: Inductance, capacitance, and characteristic impedance can affect a product's transmission performance. Flexible circuit boards are controllable and offer excellent electrical performance. They can be designed to have controllable high-power parameters similar to transmission line characteristics.
6. It has good heat dissipation, solderability and easy installation. The base materials are diverse and different base materials can be used according to different requirements.

