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FPCB in Humanoid

Technology and digitalization are having an increasing impact on our lives and are increasingly changing our daily work and lives. The progress and development in these fields in recent years has been amazing, and the development of humanoid robots has been driven by multiple technological advances and market needs.

Joint and sensor system

Joint connection: Robot joints need to move frequently, and flexible circuit boards can maintain stable electrical connections, adapt to the bending and rotation of joints, and avoid the breakage problem of traditional rigid circuit boards.
Sensor integration: Flexible circuit boards can connect various sensors (such as pressure sensors, acceleration sensors, etc.) and transmit data to the central processing unit to achieve real-time monitoring of the environment and its own status.

Control and signal transmission

Signal transmission lines: Flexible printed circuit  can arrange complex signal lines in a small space to ensure high-speed data transmission and stable communication between components.
Control circuit integration: It can integrate multiple control circuits together, reduce the number and complexity of connecting lines, and improve the reliability and maintainability of the system.

Power system

Power distribution: Flexible printed circuit can effectively distribute power to ensure that each drive motor and servo system has a stable power supply.
Battery management: In the battery management system, flexible circuit boards can monitor the battery status, manage the charging and discharging process, and extend the battery life.

Vision and communication system

Camera connection: Flexible printed circuit can connect the camera and image processing unit to achieve efficient video data transmission and processing.
Communication module: The flexible circuit board can integrate a wireless communication module to ensure that the robot can exchange and communicate real-time data with external devices.

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