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Polyimide Substrate: Utilizing high-performance polyimide as the substrate, which boasts excellent resistance to high temperatures, chemical corrosion, and mechanical strength, suitable for the high-temperature, high-pressure working environment of new energy vehicles.
Ultra-thin Design: With a board thickness of only 0.2 millimeters, effectively reducing the overall thickness of the battery management system, enhancing space utilization, and simultaneously reducing the weight of the vehicle, improving vehicle efficiency.
Flex Flexibility Design: Possessing outstanding flexibility and bendability, capable of adapting to the complex curved structures within the battery pack, enabling flexible layout and maximizing the utilization of limited space.
High-Density Layout: Through optimized layout design, achieving high-density routing, enhancing the integration of the circuit board, reducing the size of the circuit board, and further saving space.
High-Temperature and High-Pressure Resistance: Undergoing rigorous testing in high-temperature and high-pressure environments, ensuring that the circuit board can still operate stably and reliably under extreme conditions, guaranteeing the normal operation of the battery management system.
Customized Design: Capable of customizing flexible circuit boards of different sizes, shapes, and functionalities according to customer needs, meeting the requirements of different vehicle models and battery management systems.
Quality Management: Implementing strict quality management systems compliant with IATF 16949 standards, utilizing advanced production techniques and equipment to ensure that every flexible circuit board meets high-quality standards, satisfying the stringent requirements of the automotive industry.
