Investigation of the optimization approach to improve flexibility of flexible hybrid circuit and its application
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TH789;R318. 6

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    Abstract:

    Flexible hybrid circuit (FHC) is a composite circuit formed by integrating rigid electronic components onto a flexible substrate with printed electronics. In order to meet the increasingly complex application scenarios, FHC needs to integrate more rigid functional electronic components, which will lead to a sharp decrease in its flexibility. In order to alleviate the contradiction between high integration and high flexibility of FHC, this article starts from the perspective of structural improvement, which uses a hollow snakeshaped wire island-bridge structure (HS-SWI-BS) to carry out the optimization approach of FHC. The effectiveness and feasibility of this method are verified by three-dimensional finite element simulation experiments. The results show that the hollow snake-shaped wire island-bridge structure can improve the flexibility of FHC, and the increase of the flexibility of the model can reach 260%. The application and testing of flexible percutaneous electrical stimulation circuit have proved that this method has good practicality. The research has a reference role in improving the flexibility of FHC.

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  • Received:
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  • Online: December 21,2023
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