Engineering ultra-thin visual diagnostics for disposable medical endoscopes and microscopic robot-assisted surgeries requires bridging high-bandwidth image transmission with a microscopic physical footprint. As an ISO 13485 certified raw wire innovator, Conectmed (YQF Medical Cable) custom-manufactures this premium flexible Optimized to seamlessly sync with premium CMOS sensor modules like the OmniVision OV6946, our high-frequency 5 wire hybrid architecture bundles independent micro-coaxial tracks within an industry-leading OD 0.4mm matrix, securing lossless 2.5-meter analog/digital signal transmission without torque friction.
| Cable Configuration | 5C(3coaxX45AWG+2X46AWG) |
|---|---|
| Conductor Material | Silver plated copper alloy |
| Insulation Material | PFA |
| Number of Conductors&Spec | 7/0.016 |
| Jacket | PFA |
| Max transmission length | 2.5 Meters |
| Application | endoscope camera module OV6946 sensor Cable |
| Outer diameter | OD=0.4mm |
| Sheath Color | Blue |
| Sheath material | PET |
| Packaging | 250m/Spool |
💡 Technical Superiority of Conectmed Micro-Coaxial Endoscope Series:
Standard multi-conductor wires cannot transmit crisp high-definition video at a 2.5-meter distance without massive signal attenuation, and their bulky outer diameters limit the insertion tube’s clinical steerability. Conectmed re-engineers this ultra-fine conduction framework:
* Microscopic OD 0.4mm Dimension: Utilizing advanced micro-coaxial cable extrusion technology, we pack 5 independent high-frequency lines (including power and differential data tracks) into an outer diameter thinner than a human hair, fitting tight medical lumens perfectly.
* Pure Silver-Plated Copper Conductors: All internal 5-core strands feature elite silver-plated copper wire. This capitalizes on the high-frequency “skin effect,” completely eliminating digital pixel noise, image lag, and diagnostic frame-drops.
* Biocompatible Fluoropolymer (FEP) Insulation: Protected by an ultra-thin, high-dielectric FEP layer and wrapped in high-coverage shielding, ensuring total electromagnetic isolation (EMI defense) against surrounding electrosurgical units (ESU) in operating rooms.