Core300 Hard Plastic Cladding Fiber Optic

Core300 Hard Plastic Cladding Fiber Optic is a uniquely structured type of fiber optic , whose core is usually glass , while the cladding is composed of strong polymer plastic material. This design strikes an outstanding balance between performance and durability, offering a cost-effective option beyond traditional quartz optical fibers for specific application scenarios.

Introduction to core advantages

Outstanding mechanical strength and durability: Compared with the fragile pure glass optical fiber, the hard plastic cladding provides excellent impact resistance, pressure resistance and wear resistance. This enables the Core300 optical fiber to withstand rough installation, frequent movement and harsh industrial environments, significantly reducing the risk of damage due to bending or squeezing, and extending its service life.

Significant flexibility and ease of handling: Despite the name containing ” hard “, this type of optical fiber is much more flexible overall than standard glass optical fiber , making it easy to wire and install, especially in space-constrained situations. Its sturdy structure allows for direct termination without additional protective layers, simplifying the construction process and saving time and labor costs.

Outstanding cost-effectiveness: The cost of plastic cladding material is much lower than that of pure quartz cladding , making Core300 fiber an economical and efficient solution. Meanwhile, its high durability also reduces the maintenance and replacement costs in the later stage, with a total cost of ownership (TCO). Very attractive.

Reliable short-range transmission performance: Although its transmission loss is usually higher than that of top-grade quartz optical fibers, for short-range communication within hundreds of meters (such as factory automation, sensor systems, indoor networks, medical equipment interconnection, etc.), its performance is fully sufficient and stable and reliable.

In conclusion, Core300 Hard plastic clad fiber is not intended to replace high-performance single-mode fiber in long-distance communication, but plays an irreplaceable role in short-distance applications that require resilience, reliability, and cost control. It is an ideal choice for industrial control, sensing and internal cabling in specific data centers.

Keywords:
1:Optical fiber dedicated to sensors

2:Wear-resistant optical fiber patch cord

3:High cost-performance plastic optical fiber

4:Short-range communication optical fiber