FEMTO Grating in Single Mode Polyimide Fiber FFT.FBG.S.01.01
Description
Besides customer specific FBG solutions, FemtoFiberTec offers an attractive range of standardized
fs-written FBGs. Due to the worldwide leading, automated manufacturing technology, FemtoFiberTec
can provide high customer value in terms of quality and cost efficiency.
FEMTO Grating in Single Mode Polyimide Fiber FFT.FBG.S.01.01
Specifications |
|
|---|---|
| Center Wavelength Range: | 1500-1600nm |
| FBG Length: | 6 mm |
| Reflectivity: | >20% |
Features
The type FFT.FBG.S.01.01/2/3 are FBGs inscribed in polyimide coated standard telecom fiber. These are well suited
for very high temperature and strain measurements up to
300°C (400°C short term). Due to their good strain transfer, this type of FBGs provide high performance for elevated
temperature ranges and more demanding strain measurement. Additionally, the germanium doped fiber has a very
low bending loss.
Different FBG reflectivity levels are available depending on
the requirements of the interrogation unit.
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
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How to order?
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Ships from:
Germany
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Sold by:
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On FindLight:
External Vendor
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Frequently Asked Questions
The benefits include temperature stability up to 1,000°C, cost efficient arrays compared to strip and recoat gratings, immunity to humidity and radioactivity, significantly higher tensile strength compared to strip and recoat technology, and significantly higher reflectivity and lower fiber cost compared to draw tower technology.
The FBGs can withstand a maximum temperature of 300°C (short term 400°C).
Different FBG reflectivity levels are available depending on the requirements of the interrogation unit, including low reflectivity (20%), medium reflectivity (50%), and high reflectivity (70%).
FemtoFiberTec uses a special inscription technology for FBGs, based on infrared fs-laser technology.
The FFT.FBG.S.01.01/2/3 are well suited for very high temperature and strain measurements up to 300°C (400°C short term).