Fiber optic connectors are used to join optical fibers together and ensure the proper alignment of the optical signals. Here are some common types of fiber optic connectors:
1. ST (Straight Tip) Connector
Design: Uses a bayonet-style locking mechanism with a twist-on/twist-off design.
Applications: Commonly used in multimode networks, such as LANs, security systems, and data communication networks.
Features: Easy to install and remove, suitable for quick connections and disconnections.
2. SC (Subscriber Connector or Standard Connector)
Design: Features a push-pull locking mechanism with a square-shaped connector.
Applications: Widely used in telecommunications, CATV, and data center applications.
Features: Offers low insertion loss and reflection; easy to install, with a simple push-pull motion for connection.
3. LC (Lucent Connector)
Design: A small form factor connector that uses a push-pull locking mechanism. It is about half the size of an SC connector.
Applications: Commonly used in high-density network applications, such as data centers, telecommunications, and enterprise networks.
Features: Provides high-density connectivity, with a small footprint, and low insertion loss.
4. FC (Ferrule Connector)
Design: Uses a screw-on locking mechanism for a secure connection. Typically has a circular metal housing.
Applications: Used in single-mode fiber applications, particularly in telecommunications and instrumentation.
Features: Known for its high vibration resistance and durability in challenging environments.
5. MTP/MPO (Multifiber Push-On/Pull-Off) Connector
Design: Designed for multifiber connections, usually holding 12, 24, or more fibers in a single connector.
Applications: Ideal for high-density environments, such as data centers and telecom networks, where space-saving and high-bandwidth connectivity are needed.
Features: Allows for rapid deployment of fiber optic cabling with pre-terminated connections.
6. E2000 Connector
Design: Features a push-pull locking mechanism with a spring-loaded shutter to protect the ferrule from dust and damage.
Applications: Suitable for telecommunications, broadband networks, and CATV systems.
Features: Offers high performance, with low insertion loss, and a built-in protective shutter.
7. MU Connector
Design: Similar to an LC connector but with a smaller size, making it a very compact option.
Applications: Used in high-density networks, such as telecom equipment and optical switching boards.
Features: Allows for high-density connections, making it suitable for space-constrained environments.
8. DIN Connector
Design: Features a screw-thread coupling mechanism, with a circular housing.
Applications: Often used in industrial settings and high-precision measurement equipment.
Features: Known for its durability and robust connection, offering high repeatability.
9. MT-RJ (Mechanical Transfer Registered Jack) Connector
Design: Similar in size to an RJ-45 connector, with two fibers in a single ferrule.
Applications: Used in duplex data transmission, such as in fiber optic networks and telecommunications.
Features: Provides a compact solution for duplex fiber optic cabling, with easy termination.
10. OptiTap Connector
Design: A hardened fiber optic connector, specifically designed for outdoor use.
Applications: Used in FTTx (Fiber to the x) deployments, such as Fiber to the Home (FTTH), where a durable connection is required.
Features: Built to withstand harsh environmental conditions, with a robust design for outdoor installations.
Post time: Oct-12-2024