Kaboer’s Double-Sided Flexible PCB for Automotive Applications is tailor-made for core automotive electronic components such as in-vehicle central control touch modules, navigation display units, automotive sensor signal interfaces, and smart cockpit interaction components. It precisely addresses the core demands of automotive scenarios—high-density integration, vibration resistance, wide-temperature tolerance, compact adaptation, and stable signal transmission—with a robust configuration of "1mil immersion gold finish + double-sided refined wiring". As a high-reliability, high-adaptability preferred solution in the automotive electronics field, it empowers automakers and supporting manufacturers to develop intelligent, durable, and future-cockpit-compatible high-quality electronic systems!

Featuring a double-sided flexible core structure, it perfectly balances the space constraints and operational stability of automotive electronics: with an overall thickness of only 0.13mm, it is extremely slim and boasts excellent bending resilience, seamlessly fitting curved in-vehicle panels, narrow installation cavities (e.g., behind central control screens, door trim panels), and dynamic component joints. It easily avoids wiring interference, adapting to the modular and compact design needs of smart automotive cockpits, and completely solving the pain point of poor adaptability of traditional rigid PCBs in complex layouts; with precise dimensions of 60*60mm, the optimized square layout supports integration of multiple components (e.g., simultaneous layout of touch chips, signal interfaces, and drive units) without occupying redundant space, leaving ample installation room for other in-vehicle functional components; the 0.2/0.15mm fine line width/spacing paired with 0.2mm micro drill holes enables high-density integration of signal and power channels, stably carrying transmission of multiple groups (e.g., touch commands, navigation data, sensor signals) in limited space and ensuring the accuracy and consistency of circuit conduction.

Key advantages directly tackle pain points in automotive environments, demonstrating automotive-grade robustness: ① Equipped with 1mil immersion gold finish, it offers excellent oxidation resistance, wear resistance, and low contact resistance. It can withstand the wide temperature range of -40℃ to 85℃ in vehicles (low-temperature startup in winter, high temperature from summer exposure) as well as complex working conditions such as high humidity and dust, avoiding issues like touch failure and signal interruption caused by oxidation or poor contact. Meanwhile, the immersion gold surface enhances soldering reliability and terminal plug-in durability, adapting to the long-term high-frequency use of automotive electronics; ② The double-sided wiring design increases space utilization by over 50%, allowing flexible division of signal transmission and power supply channels to effectively suppress electromagnetic interference (EMI). It avoids signal crosstalk among multiple in-vehicle devices, guaranteeing stable transmission of smart cockpit interaction commands and navigation data, and complying with the ISO 11452 EMC standard for automotive electronics; ③ The flexible substrate features excellent vibration resistance and fatigue resistance, withstanding bumps, vibrations, road impacts during vehicle driving, and long-term bending. It reduces circuit failures caused by environmental factors, aligning with the core demand of "long service life and low failure rate" for automotive electronics.

Backed by Kaboer’s years of technical expertise in flexible PCBs and strict quality control systems, this double-sided flexible PCB for automotive applications can be customized for circuit layout, contour, and mounting holes based on the functional needs of in-vehicle components (e.g., interface type, signal transmission protocol, protection level). Paired with full-chain services including "1-30 layer FPC customization, rapid prototyping, and efficient SMT assembly", it helps customers shorten R&D cycles and accelerate product mass production. Whether for precise interaction in smart cockpits, stable data transmission in navigation systems, or reliable signal connection of automotive sensors, it serves as the "core signal hub" of automotive electronics with core advantages of "high density, high stability, and high adaptability", helping enterprises reduce R&D costs, enhance product competitiveness, and gain an edge in the smart automotive electronics niche market!