OEM Customized Miniature Slip Ring - Coaxial Rotary Joints – AOOD Detail:
Coaxial Rotary Joints
Coaxial Rotary joints are needed wherever high frequency signals have to be transmitted between a fixed platform and a second platform in continuous rotation. Typical applications include traditional radar technology for air traffic control or anti-missile defence, medical engineering, V-Sat and SatCom technology as well as TV camera systems or cable drums that allow sensitive cables to be wound up without twisting them, thus increasing their reliability.
AOOD coaxial rotary joints allow signal transmission in the frequency range from DC up to 20 GHz. Single channel , dual channel and multi-channel RF solutions are available. The special benefits of AOOD coaxial rotary joints include their compact design, excellent VSWR and low attenuation loss, low variation of transmission properties during rotation and high crosstalk attenuation between the individual channels over the whole frequency range.
| Model | Number of Channel | Frequency Range | Peak Power | OD x L (mm) |
| HFRJ-118 | 1 | 0 – 18 Ghz | 3.0 kW | 12.7 x 34.5 |
| HFRJ-218 | 2 | 0 – 18 Ghz | 3.0 kW | 31.8 x 52.6 |
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Cooperation
Sticking for the perception of Creating products of top quality and producing friends with people today from all around the world, we constantly place the desire of shoppers to start with for OEM Customized Miniature Slip Ring - Coaxial Rotary Joints – AOOD, The product will supply to all over the world, such as: Southampton, Bolivia, Burundi, Why we can do these? Because: A, We are honest and reliable. Our items have high quality, attractive price, sufficient supply capacity and perfect service. B, Our geographical position has a big advantage . C, Various types: Welcome your inquiry, It might be highly appreciated.
By Bella from Congo - 2017.11.20 15:58
Although we are a small company, we are also respected. Reliable quality, sincere service and good credit, we are honored to be able to work with you!
By Odelia from Australia - 2017.12.31 14:53
