Fluxon Motor
Inside a premium robotic joint, an automated medical valve, or a high-end smart lock, space is the ultimate luxury. At Fluxon Motor, we measure our manufacturing success in micrometers and decibels. Our mission is to take advanced, heavy-duty rotational power and compress it into the most compact, energy-efficient footprints imaginable.
Our expertise lies in the micro-details of motion control. From precision-wound copper rotors and high-purity commutators to zero-backlash planetary gear trains, every single internal component of a Fluxon Motor is optimized to eliminate friction and maximize heat dissipation. By combining advanced automated Swiss-style hobbing with Japanese dynamic balancing, we ensure our micro drives deliver the fluid, whispering-quiet power your brand promises.
The global demand for micro-actuator motors is surging, driven by the rise of "Industry 4.0" and the Internet of Things (IoT). China, as the world's primary manufacturing hub, now produces over 70% of the world's micro-DC motors, shifting from quantity to high-precision quality.
We are witnessing a massive transition from brushed to Brushless DC (BLDC) technology. BLDC motors offer 30% higher efficiency and 5x longer lifespans, making them essential for battery-powered medical and portable tech.
Collaborative robots (Cobots) and humanoid robotics are the new frontier. These require "High Torque Density" – the ability to move heavy loads with motors smaller than a human thumb.








Fluxon Motor is committed to the next generation of electromagnetic efficiency and sustainable manufacturing.
Motors for insulin pumps, surgical robotics, and fluid control valves. Requires zero-failure rates and biocompatible materials.
Automated window blinds, smart door locks, and kitchen appliances. Focused on high torque and whispering-quiet operation.
Electric rearview mirrors, lumbar support actuators, and charging port locks. Must withstand extreme temperatures and vibration.








When engineering an electric actuator motor at the 10mm to 42mm scale, the laws of physics present unique challenges. Heat dissipation becomes harder as the surface-area-to-volume ratio changes. Fluxon Motor addresses this by using high-grade Neodymium magnets and proprietary winding techniques that maximize the "Copper Fill Factor." This ensures that every millimeter of space contributes to magnetic flux, reducing waste energy.
Choosing the right reducer is critical. Our Planetary Gearboxes (like the GMP10 and GMP24 series) offer superior torque density and load distribution across multiple gears. For cost-sensitive applications like toys or simple scanners, our Spur Gearboxes provide a reliable, low-noise alternative. We offer gear ratios up to 1000:1, allowing a tiny N20 motor to move loads that would normally require a motor three times its size.
Why choose BLDC? Unlike brushed motors, BLDC motors use electronic commutation. This eliminates the physical wear of carbon brushes, resulting in a motor that is virtually maintenance-free. With integrated Hall Effect encoders, Fluxon BLDC motors provide precise position and speed feedback, crucial for CNC machines and balance robots.
For standard models like the N20 or 24mm BLDC, lead times usually range from 2-4 weeks. Custom shafts, specific gear ratios, or encoder integrations may require 6-8 weeks for prototyping and mass production.
We perform 100% life testing and salt spray testing for harsh environment applications. Our gear hobbing process uses hardened steel or high-strength engineering plastics depending on the application's torque requirements.
Yes, all Fluxon Motor products are RoHS and REACH compliant. We use specialized RoHS detectors in-house to ensure every batch of raw material meets European and American safety standards.
Absolutely. We specialize in DFM (Design for Manufacturing) consulting. We help startups optimize their motor selection to balance performance and cost, offering small-batch production before moving to full-scale factory runs.