The mechanical structure and material selection of the magnetic encoder ring also have a significant impact on its dynamic response.
In today's rapidly evolving high-end manufacturing towards miniaturization, high efficiency, and high reliability, sintered NdFeB permanent magnets, as the "king of magnets," have become a core functional material for driving micromotors, precision sensor
A quality traceability system needs to be established during the production process to record the processing parameters, test data and assembly records of each batch of magnetic rings in order to quickly locate the root cause of the problem.
Bonded NdFeB magnets, with their unique material structure and manufacturing advantages, have become an indispensable "golden partner" in the functional magnet family, demonstrating irreplaceable value, especially in adapting to miniaturized, irregularly
Special magnetic circuit design precision magnet assembly is a prime example of the deep integration of materials science, electromagnetic theory, and precision manufacturing. It is no longer merely "a magnet," but a meticulously calculated and optimized
The magnetic encoder ring, with its innovative design integrating incremental and absolute dual-mode outputs, successfully fuses two detection logics into a single physical structure. It provides millisecond-level speed feedback and achieves power-on-dema