Flexible Single Fiber Bare Fiber Pigtail for Telecommunications

Single fiber bare fiber head with high-precision end face processing: low loss guarantee

The single fiber bare fiber head is processed with high-precision end face machining technology to ensure fusion loss ≤ 0.1dB, significantly improving signal transmission stability. The bare fiber end adopts an 8 ° oblique angle (APC type) polishing technology, and the flatness of the end face is controlled at an oblique angle<0.5 °, effectively reducing the reflected light on the end face and the return loss ≥ 50dB. In the assembly of passive fiber components such as couplers and splitters, this design can accurately dock the device ports and form a low loss optical path. For example, in 5G fronthaul networks, single fiber bare fiber heads are quickly connected to optical cables through fusion splicing technology, reducing signal attenuation and meeting the transmission requirements of high bandwidth and low latency.

Single fiber bare fiber head suitable for harsh environments: reliability without connectors

The single fiber bare fiber head adopts a connectionless design, which directly fuses the bare fiber end to avoid loosening or damage of the connector in harsh environments. It can withstand complex conditions such as high temperature, humidity, and vibration. For example, in outdoor communication base stations, single fiber bare fiber heads can operate stably for a long time, avoiding optical path interruptions caused by environmental factors. In addition, its end face adopts an 8 ° oblique angle (APC type) polishing process to ensure a return loss of ≥ 50dB and improve the reliability of signal transmission.

High cost performance single fiber bare fiber head: perfectly meets the needs of fiber optic communication

Single fiber bare fiber head has become the preferred component for fiber optic communication due to its high cost-effectiveness. Its bare fiber end is encapsulated by 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 achieve end face flatness (tilt angle<0.5 °) and fusion loss ≤ 0.1dB. This design is suitable for single-mode (1310nm/1550nm) and multi-mode (850nm) transmission, and can provide stable and reliable signal transmission performance in data centers, enterprise private networks, and other scenarios. For example, in fiber optic terminal boxes, single fiber bare fiber heads can be quickly connected to optical cables through fusion splicing technology, reducing installation costs.

High tensile strength dual fiber bare fiber head: suitable for various devices

The dual fiber bare fiber head adopts a dual core bare fiber end structure, and achieves dual channel optical path connection through synchronous fusion technology. Its tensile strength is ≥ 80N and can withstand a large degree of physical pulling. This design is suitable for equipment such as fiber optic cable terminal boxes and duplex couplers, and can maintain stable performance in complex cabling environments. For example, in cross sea optical cables, dual fiber bare fiber heads can resist the effects of gravity and wind, avoiding optical path interruptions caused by physical factors. In addition, the bare fiber end adopts an 8 ° oblique angle (APC type) polishing process to ensure a return loss of ≥ 50dB and improve the synchronization of signal transmission.

Support professional customization of single fiber bare fiber heads: meet different user needs

Single fiber bare fiber head supports professional customization, and the length (0.5-2 meters), outer diameter (0.9mm/2.0mm), and end face design (such as 8 ° oblique angle) can be adjusted according to user needs. Customized design can optimize wiring space and reduce fiber optic cable redundancy, especially suitable for high-density device assembly scenarios. For example, in data center cabinets, customized single fiber bare fiber heads can be quickly connected to optical cables through fusion splicing technology, improving installation efficiency. In addition, its bare fiber end adopts tight fitting fiber optic packaging, which facilitates on-site fiber stripping and fusion operations, and is compatible with various passive device interfaces (such as LC and SC types).