CITCABLE:  Super fine peek  Single-mode Fibre wire cable
Temperature Range:   -196°C to +260°C, short 300°C
   1,0.125 Single-mode Fibre with coating
    2,PEEK OD:0.40MM

   it's meeting the special application requirements of the optical fibre in the radiation environment, the multi-mode fibre with radiation resistance is developed by adjusting the optical fibre components and improving the process technology. This fibre has graded refractive index profile, which fully optimizes the waveguide characteristics of 850nm & 1300nm operating wavelength, and has very low attenuation and high bandwidth. CITCABLE radiation resistant multi-mode fibres have 50μm core, Besides, CITCABLE also can make customized tight-buffered radiation resistant multi-mode fibre
  • Customer colors are available through minimum order.
  • Customized: CITCABLE can provide different tight buffered materials, such as ETFE, PFA, PEEK, TPI
Super fine peek Single-mode Fibre wire cable
Characteristics
  • Stable transmission property under radiation environment
  • High bandwidth and low attenuation @ 850nm & 1300nm
  • Excellent stripping and welding properties
  • Suitable for various cable structures and favorable for tight/loose tubes
Applications
  • Aerospace / Aerocraft
  • Atomic energy industry
  • Petroleum & Offshore exploration
  • Medical equipment
  • Basic research
  CITCABLE radiation resistant sigle-mode fibres are developed by adjusting the composition of optical fibre and improving the process technology to meet the special application requirements of the fibre in the radiation environment. The optical properties are optimized at 1310nm and 1550nm oprerating wavelenghth. Low attenuation and low dispersion can be achieved.
                                                                                   CITCABLE    A       B      C
According to Standard
TIA/EIA 455-64 (dB/100m)
1310 Total dose 50Krad
dose rate 0.1rad/s(25℃)
induced attenuation
-- ≤ 0.3 ≤ 0.3
1310, 1550 Total dose 2000Gy
dose rate 0.5Gy/s(25℃)
induced attenuation
≤ 0.9 ≤ 0.8 ≤ 0.8
1310, 1550 Total dose 200000Gy
dose rate 0.5Gy/s(25℃)
induced attenuation
≤ 2.5 ≤ 2.0 ≤ 2.