Kaboer’s Double-Sided Flexible PCB for Medical Devices is tailor-made for core medical components such as portable monitors, glucose meters, medical wearables, and minimally invasive instrument control modules. It precisely meets the core demands of medical scenarios—regulatory compliance, accurate signal transmission, sterilization resistance, and ultra-thin flexible adaptation. With a cost-effective configuration of "medical-grade thick tin plating + refined wiring", it stands as a preferred solution for medical device brands to develop highly reliable products, empowering improved diagnostic efficiency and patient safety!

Featuring a double-sided flexible core structure, it perfectly balances the space adaptability and operational stability of medical devices: at only 0.13mm thick, it is extremely slim with exceptional bending resilience, flexibly fitting narrow cavities, curved structures, and component connection gaps of medical devices (e.g., wearables conforming to human body curves, compact internal layouts of portable instruments). It easily avoids wiring interference, completely solving the pain point of traditional rigid PCBs being unable to adapt to the miniaturization and portability of medical equipment; with precise dimensions of 32.92*40mm, the optimized layout meets multi-component integration needs without occupying redundant space, providing ample installation room for key components such as batteries and sensors. Backed by refined manufacturing standards, the 0.2/0.1mm fine line width/spacing and 0.2mm micro drill size enable high-density integration of signal and power channels, stably carrying transmission of multiple groups (e.g., heart rate, glucose data, control commands) in limited space and providing solid circuit support for high-precision operation of medical devices.

Key advantages directly address medical scenario pain points, demonstrating medical-grade robustness: ① Equipped with 10-15μm thick tin plating, it offers excellent soldering reliability, resistance to sterilization wipes (compatible with medical disinfectants like alcohol, povidone-iodine, and hydrogen peroxide), and corrosion resistance. Low contact resistance ensures high-speed, distortion-free signal transmission, eliminating detection errors caused by poor contact. The thick tin layer also extends product service life, adapting to long-term high-frequency use and repeated sterilization of medical devices; ② Double-sided wiring design significantly improves space utilization and transmission efficiency, allowing flexible division of signal and power channels to effectively suppress electromagnetic interference (EMI). It avoids signal crosstalk among multiple devices in medical environments, guaranteeing the integrity and accuracy of physiological data transmission, and complying with the IEC 60601 EMC standard for medical devices; ③ The flexible substrate meets medical-grade biocompatibility requirements, with excellent wide-temperature resistance (-40℃ to 85℃), strong fatigue resistance, and vibration resistance. It can withstand frequent operation, transportation jolts, and environmental temperature changes of medical devices, reducing after-sales failure risks and aligning with the core demand of "low maintenance and high stability" in medical scenarios.

Backed by Kaboer’s years of medical-grade PCB R&D experience and strict quality control system, this double-sided flexible PCB strictly complies with ISO 10993 biocompatibility standards and is compatible with global medical regulatory requirements (FDA, CE, NMPA). It can be customized for circuit layout, interface form, and contours based on the functional needs of medical devices (e.g., sensor interface type, signal transmission protocol). Paired with rapid prototyping and efficient SMT assembly services, it helps customers shorten R&D cycles and accelerate product certification and market launch. Whether for precise signal collection of portable diagnostic devices, stable data transmission of medical wearables, or reliable control of minimally invasive instruments, it serves as the "core signal hub" of medical devices with core advantages of "regulatory compliance, accurate signal transmission, and stable durability", helping enterprises reduce compliance risks and enhance product credibility and market competitiveness!