High Power Fiber Optic Pigtail 9um 250um Lc Pigtail Multimode

The single fiber bare fiber head, with its single core bare fiber breakage design, has become a key component for high-speed transmission in 5G networks. In the 5G fronthaul network, the fiber optic head achieves low loss connection (fusion loss ≤ 0.1dB) through fusion splicing technology, supports single-mode transmission (1310nm/1550nm wavelength), and can meet the transmission requirements of high bandwidth and low latency. The bare fiber end is encapsulated with tight fitting optical fibers, with an outer diameter of 0.9mm or 2.0mm. In a dust-free environment, high-precision fusion splicing machines (such as arc fusion splicing) are used to ensure the flatness of the end face (tilt angle<0.5 °), significantly improving signal transmission stability. For example, in the connection between 5G base stations and core networks, a single fiber bare fiber head can effectively reduce optical path crosstalk and improve overall network performance.

The single fiber bare fiber head is significantly improved in durability through high-precision fusion splicing technology and tight fitting fiber packaging. The bare fiber end adopts an 8 ° oblique angle (APC type) polishing process to ensure a return loss of ≥ 50dB and reduce the impact of end face reflected light on signal transmission. In long-term use, this design can effectively resist mechanical vibration and temperature changes. For example, in outdoor communication base stations, the single fiber bare fiber head can maintain stable performance and avoid optical path interruptions caused by environmental factors. In addition, its tensile strength is ≥ 50N, which can withstand a certain degree of physical pulling and is suitable for complex wiring environments.

The single fiber bare fiber head plays a key role in fiber optic sensor systems, and its single fiber core bare fiber end design can accurately connect to the sensor optical path. For example, in temperature sensors, a single fiber bare fiber head is connected to the sensor fiber through fusion splicing technology to form a low loss optical path, ensuring the accuracy of signal transmission. The bare fiber end adopts tight fitting fiber optic packaging with an outer diameter of 0.9mm or 2.0mm. In a dust-free environment, high-precision fusion splicing machines (such as arc fusion splicing method) are used to achieve end face flatness (tilt angle<0.5 °) and improve sensor sensitivity. This design is widely used in industrial monitoring, medical equipment and other fields, providing reliable support for high-precision measurement.

The single fiber bare fiber head is an ideal choice for long-distance transmission through tight fitting fiber optic packaging and high tensile strength design. The bare fiber end adopts an 8 ° oblique angle (APC type) polishing process to ensure a return loss of ≥ 50dB and reduce the impact of end face reflected light on signal transmission. In long-distance communication, this design can effectively resist the influence of optical cable gravity and wind. For example, in cross sea optical cables, the single fiber bare fiber head can maintain stable performance and avoid optical path interruptions caused by physical factors. In addition, its tensile strength is ≥ 80N, which can withstand a large degree of physical pulling and is suitable for complex wiring environments.