Alignment accuracy: FC connectors use a threaded locking mechanism to ensure that the fiber end faces can be accurately aligned when inserted. This mechanical design provides high-precision alignment and reduces the loss and reflection of optical signals.
Rigid structure: The overall design of the connector has high rigidity and can withstand certain mechanical shock and vibration, ensuring stability in a variety of environments.
2. High-quality materials
High-purity glass fiber: The optical fiber itself uses high-purity quartz glass with extremely low loss and reflectivity, ensuring high quality of signal transmission.
Corrosion-resistant materials: The outer shell and internal components of the connector are usually made of corrosion-resistant metal materials (such as stainless steel and brass) to ensure long-term stability in harsh environments.
3. Tight sealing design
Dustproof and waterproof: FC connectors usually have a good sealing design, which can effectively prevent dust, moisture and other contaminants from entering the connector and protect the fiber end face from contamination.
Environmental adaptability: This sealing design allows the connector to maintain stable performance under a variety of environmental conditions, such as high temperature, low temperature, humid or dusty environment.
4. End face processing technology
Grinding and polishing: The fiber end face is processed by precision grinding and polishing technology to ensure the flatness and smoothness of the end face and reduce the scattering and reflection of the optical signal.
End face coating: Some high-end FC connectors are coated with anti-reflection film on the fiber end face to further reduce signal loss and reflection.
5. Reliable locking mechanism
Thread locking: FC connectors use a thread locking mechanism, which is locked by rotating the connector housing. This locking method is reliable and easy to operate.
Repeated plugging and unplugging performance: The thread locking mechanism ensures that the connector can still maintain good alignment and stability after multiple plugging and unplugging, reducing the impact of repeated plugging and unplugging on the connection performance.
6. Strict quality control
Production standards: FC connectors follow strict quality control standards during the production process to ensure consistent performance of each connector.
Testing and inspection: Strict testing and inspection before leaving the factory ensure that the loss, reflection and mechanical performance of the connector meet the standards.
The high stability of conventional fiber optic patch cord fcpc style 1 comes from its precise mechanical design, high-quality materials, strict sealing design, sophisticated end face processing technology, reliable locking mechanism and strict quality control. These features together ensure that FC connectors can provide reliable and stable optical signal transmission in a variety of application scenarios.