3Com Router 5000 and Router 6000 v2.41

Module Guide

Chapter 4 Flexible Interface Cards (Router 6000)

Figure 4-5SC-type fiber-optic connector

Note:

Fiber-optic connectors, according to ITU, are passive components that are used to stably but not permanently connect two or more optical fibers. They are passive components indispensable to the fiber-optic communications system in the sense that they allow optical channel connections removable.

There are many types of optical fiber connectors, such as:

FC: Round-shape threaded fiber-optic connector

ST: Round-shape plug-in fiber-optic connector

SC: Square fiber-optic connector

MT-RJ: Square transceiving fiber-optic connector

Note:

The two types of optical fibers are optional. You need to select fibers when purchasing an Router 1-Port 100FX MM FIC/100FX SM FIC; otherwise, they are not provided.

4.2.5 Connecting the Interface Optical Fiber

Caution:

When connecting an optical fiber, note that:

Do not over-bend the optical fiber. Its curvature radius must be no less than 10 cm (3.9 in).

Ensure that the Tx and Rx ends are connected correctly. Ensure that the fiber ends are clean and free of dust.

Warning:

4-6

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3Com 3C13880, 3C13759, 3C13701, 3C13840, 3C13751 manual Connecting the Interface Optical Fiber
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3C13751, 3C13701, 3C13840, 3C13759, 3C13880 specifications

The 3Com 3C13880 and 3C13840 are notable components within the realm of networking technology, primarily designed for enterprise-grade solutions. These devices belong to the 3Com family, which has long been recognized for its commitment to developing robust networking products tailored to facilitate efficient data transfers and improve connectivity across various platforms.

One of the standout features of the 3C13880 is its high-performance capabilities. This model supports advanced functions such as load balancing and fault tolerance, critical for maintaining optimum network performance in high-demand environments. Additionally, it supports various protocols, including Ethernet and Token Ring, making it versatile and adaptable to existing infrastructure. The device accommodates a wide range of network transmissions, ensuring seamless integration and operation within diverse network ecosystems.

In terms of connectivity, the 3C13880 is equipped with multiple ports, allowing for extensive device interconnectivity. This feature is particularly beneficial in large organization settings, where multiple devices, such as servers and workstations, need to communicate effectively. Coupled with high-speed data transmission rates, this model ensures minimal latency, enhancing overall network efficiency.

On the other hand, the 3C13840 is designed with a focus on cost-efficiency without sacrificing performance. This model provides essential networking features suitable for smaller business environments or those seeking budget-friendly options. It delivers reliable throughput and the ability to support a moderate number of users, making it ideal for small to mid-sized offices.

Both the 3C13880 and 3C13840 incorporate technologies that prioritize security and reliability. Features such as VLAN support and QoS settings help optimize network performance while ensuring the security and integrity of data are maintained. The devices also support management tools that allow administrators to monitor network performance in real time, facilitating quick troubleshooting and enhancing overall network management.

In summary, both the 3Com 3C13880 and 3C13840 devices stand out in networking technology by offering unique features tailored to different organizational needs. While the 3C13880 appeals to enterprises needing high performance and robust capabilities, the 3C13840 provides an accessible option for those requiring effective and budget-conscious networking solutions. The legacy of 3Com continues to be evident in these products, reflecting their innovative approach to addressing the dynamic demands of modern networking.
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