How are JINPAT new slip rings applied in medical applications?

In the pursuit of clearer and more in-depth observation of living tissues, every component of the medical imaging technology is crucial to diagnostic accuracy. JINPAT LPT hollow shaft + fiber optic integrated slip ring, developed specifically for the high-end medical field, is precisely such a core rotating connection component that empowers next-generation medical imaging equipment.

I. Challenges and Bottlenecks in Medical Imaging and Rotational Transmission

Advanced biomedical imaging technologies are constantly striving for deeper tissue imaging and higher scanning speeds. This requires that the signal transmission of their laser scanning components maintain extremely low loss and high stability while rotating at high speeds. Traditional methods struggle to balance signal integrity, layout, and reliability during dynamic rotation, which has become a key bottleneck for performance improvement.

II. Product Core Features: Integrated Design Optimized for Medical Imaging

JINPAT solution integrates a fiber optic channel and high-precision mechanical structure optimized for biomedical imaging within a single slip ring:

1.Optimized for Deep Imaging: The fiber optic channel is designed specifically for the 1700nm band. This wavelength has stronger penetration and less scattering in biological tissues, effectively improving the imaging depth and speed of multiphoton microscopy.

2.High Power and Large Fiber Core: Utilizing 200/220μm large-core fiber, it can withstand higher optical power, providing ample power margin for the system.

3.Low loss and high stability: Insertion loss ≤1dB, rotational variation ≤0.5dB, ensuring clear and stable imaging signals even at high speeds.

4.Compact high-speed mechanical platform: Its compact size facilitates integration into precision equipment, supporting high speeds of 0-3000rpm to meet high-speed scanning requirements. The hollow shaft section can simultaneously transmit two sets of high-frequency DC signals (70MHz) for control and feedback.

III.Application Value: Empowering Precision Medicine Technology

This integrated slip ring has broken through the key technical bottleneck of stable transmission of optical signals under high-speed rotation, directly promoting the development of next-generation medical devices with deeper and faster imaging, and providing core support for precision medicine and cutting-edge scientific research.