1260nm 1670nm Fiber Optic 1.0mm 1.8mm Pigtail Lc Pigtails

The single fiber bare fiber head, with its single core bare fiber end design, has become an ideal choice for high-precision fiber optic systems. The fiber optic head achieves end face flatness (tilt angle<0.5 °) and fusion loss ≤ 0.1dB through high-precision fusion splicing technology (such as arc fusion splicing), significantly improving signal transmission stability. The bare fiber end adopts a tight fitting fiber optic package with an outer diameter of 0.9mm or 2.0mm. Operating in a dust-free environment can avoid pollution and ensure the reliability of the optical path. For example, in high-precision systems such as optical sensors and laser processing equipment, a single fiber bare fiber head can be accurately connected to the optical path, achieving low loss and high-precision signal transmission, meeting the stringent industrial application requirements.

Bare fiber optic heads play a crucial role in automation systems, as their high-precision fusion splicing process and tight fitting fiber optic packaging ensure the stability of signal transmission. For example, in industrial robots and automated production lines, bare fiber heads are connected to sensors and controllers through fusion splicing technology to form low loss optical paths, enabling real-time data transmission and control. 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 addition, its tensile strength is ≥ 50N, which can withstand a certain degree of mechanical vibration and is suitable for complex industrial environments.

The dual fiber bare fiber head is designed with a double core bare fiber end, significantly improving anti-interference ability. The bare fiber end adopts an 8 ° oblique angle (APC type) polishing process to ensure the synchronization and stability of dual core signal transmission, with a return loss of ≥ 50dB. In complex electromagnetic environments, this design can effectively reduce external interference and ensure signal integrity. For example, in communication base stations, data centers, and other scenarios, dual fiber bare fiber heads can provide low insertion loss (≤ 0.2dB) and high anti-interference performance, ensuring the reliability of data transmission.

The dual fiber bare fiber head, with its dual core bare fiber end design, has become an ideal choice for high-speed data transmission. The bare fiber end adopts a tight fitting fiber optic package with an outer diameter of 0.9mm or 2.0mm. In a dust-free environment, the end face flatness (tilt angle<0.5 °) is achieved through high-precision fusion splicing machine (such as arc fusion splicing method), and the fusion loss is ≤ 0.1dB. In scenarios such as 5G networks and cloud computing, this design can support high bandwidth and low latency transmission requirements. For example, in the interconnection of data centers, the dual fiber bare fiber head can provide stable and reliable signal transmission, improving the overall performance of the network.