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Flexible PCB(回路) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Aug 27, 2025~Sep 23, 2025
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Flexible PCB Product List

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Flexible circuit board / Rigid-flexible circuit board

Flexible circuit board / Rigid-flexible circuit board

Turnkey connector implemented! A thin polymer resin film is used as insulation.

"Flexible substrates / Rigid-flexible substrates" are alternatives to conventional wiring connections using wires or ribbon cables. Flexible printed circuits can reduce space and weight while improving reliability. They are made by etching copper-clad materials and using a thin polymer resin film as insulation between the conductor circuit patterns. In electronic device enclosures, turnkey subassemblies may be utilized, incorporating aerospace-grade connectors at the ends for space-saving and lightweight assembly. 【Features】 ■ Single-sided and double-sided flexible substrates ■ Multi-layer and rigid-flexible substrates ■ Electrical and optical flexible substrates ■ Specialized for IPC 6012/6013 Class 3, Types 1 to 4 *For more details, please refer to the PDF materials or feel free to contact us.

  • Board to Board Connectors
  • Printed Circuit Board

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High Current Compatible Flexible Circuit Board BigElec

High Current Compatible Flexible Circuit Board BigElec

Suitable for incorporation into curved and narrow spaces. It can form high current circuits with a thin shape and low inductance.

Big Elec is a flexible printed circuit board designed for high current wiring, achieving a flat shape and thin profile as an alternative to busbars and wire harnesses. It boasts three remarkable features. 【Feature 1】 Low Inductance Thanks to its unique structure, it achieves lower inductance compared to conventional wires with the same conductor cross-sectional area. When switching high currents at high frequencies, high inductance can cause significant voltage spikes, potentially damaging high current-compatible electronic components. The low inductance of Big Elec reduces voltage spikes, contributing to the reliability of high current-compatible electronic components. 【Feature 2】 Flat Shape and Flexibility Its unique structure allows for a thin conductor, flat shape, and flexibility. It is flatter than traditional wire harnesses and can handle higher currents than conventional flexible printed circuit boards. 【Feature 3】 High Design Freedom It ensures design freedom and usability similar to printed circuit boards. Pattern wiring and external shapes can be customized according to requirements. It also supports the mounting of electronic components and connectors using paste solder.

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  • Harness

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[Use Case] Supporting IoT integration through wiring wearable devices into clothing.

[Use Case] Supporting IoT integration through wiring wearable devices into clothing.

The conductor resistance value is low, and the change in conductor resistance during expansion and contraction is small! Suitable for applications that were difficult to apply in the past!

We would like to introduce a case where our EMS (design and manufacturing contract services) supported the IoT integration of clothing through the wiring of wearable devices. The customer's challenge was to improve the performance and quality of their own wearable devices. By using copper foil for the circuit conductors, we achieve low conductor resistance and minimal changes in resistance during stretching. This feature allows for wide application in areas that were previously difficult to implement. [Challenges] ■ Desire to improve the performance and quality of their own wearable devices ■ Traditional flexible substrates have issues with lack of elasticity ■ Unable to realize the desired wearable device *For more details, please refer to the PDF document or feel free to contact us.

  • Piezoelectric Devices

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Trends in the development of high-functionality, compact, and lightweight materials for automotive control devices, components, and electrical materials.

Trends in the development of high-functionality, compact, and lightweight materials for automotive control devices, components, and electrical materials.

~Technologies for ensuring high reliability, wiring, and miniaturization of inverters centered around metal substitute resin components~

★Development status of new plastic materials for electrification and weight reduction! Development of PBT resin with high reliability! ★What characteristics are required for automotive FPC (Flexible Printed Circuit)? Which components can contribute to weight reduction? ★What are the needs for thermal conductivity and material strength? Are there parts that cannot be replaced by metals? ★What technological innovations are most important for achieving miniaturization of inverters and automotive electronic products? 【Speakers】 Part 1: Representative from Japan Mectron Co., Ltd. AI Business Division, Automotive FPC Planning Department Part 2: Representative from Polyplastics Co., Ltd. Technical Solution Center Part 3: Mr. Hideo Shikano, Director of Lintec Engineering Office Part 4: Mr. Yoshihiro Kamiya, Hardware Development Department, Electrical and Electronic Technology Development Division, Denso Corporation 【Venue】 Tekuno Kawasaki, 4th Floor Conference Room [Kanagawa, Kawasaki] 【Date and Time】November 26, 2013 (Tuesday) 10:30-16:35

  • Company:AndTech
  • Price:10,000 yen-100,000 yen
  • Technical Seminar

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