Tonga High-temperature Resistant Plastic Optical Fiber Cable
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Product Description
BrandHigh-temperature resistant (high-temperature flame-retardant) plastic optical cable
Product structure diagram
Product introductionWith the development of technology, high-temperature optical fibers are receiving increasing attention and importance. This is because high-temperature optical fibers have excellent performance and characteristics, allowing them to operate normally in extreme environments such as high temperatures and strong radiation, thus having a very broad application prospect and market space in some special fields. This article will introduce the application of high-temperature optical fibers in aerospace, disaster monitoring, nuclear energy, and oil extraction. |
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Product features
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| Strong high-temperature resistance | Aging resistance, long service life | Strong corrosion resistance | Customizable high-temperature flame-retardant optical cable |
Basic parameters
| Core material | Coating material | Optical structure | Numerical aperture | Core refractive index | Sheath material | Sheath color |
| Polymethyl methacrylate (PMMA) | Fluororesin | Step-index | 0.5 | 1.49 | Polyethylene (PE) | Black, white, or custom color |
Product model
| Product number | Core diameter (mm) | Optical cable outer diameter (mm) | Attenuation (dB/km) | Temperature range | Flame retardant or not | Length (m/roll) |
| TX-CC1000-1F | 1.0 | 1.0*2.2 | ≤200 | -55℃-85℃ | No | 1250 |
| TX-CC1000-2F | 1.0 | 1.0*2.2*4.4 | ≤200 | -55℃-85℃ | No | 1250 |
| TX-CC1000-1FV | 1.0 | 1.0*2.2 | ≤200 | -55℃-85℃ | UL VW-1 | 1250 |
| TX-CC1000-2FV | 1.0 | 1.0*2.2*4.4 | ≤200 | -55℃-85℃ | UL VW-1 | 1250 |
| Various diameters of optical cables can be customized according to customer requirements | ||||||
Application fields
Aerospace, disaster monitoring, nuclear energy, and oil extraction.
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