Networking

Since we have discussed connectivity solutions for two duplex optics or two parallel optics in the last post (see previous post:  Connectivity Solutions for Duplex and Parallel Optics ), the connectivity solutions for parallel to duplex optics will be discussed in this article, including 8-fiber to 2-fiber, and 20-fiber to 2-fiber. Parallel to Duplex Direct Connectivity When directly connecting one 8-fiber transceiver to four duplex transceivers, an 8-fiber MTP to duplex LC harness cable is needed. The harness will have four LC duplex connectors and the fibers will be paired in a specific way, assuring the proper polarity is maintained. This solution is suggested only for short distance within a given row or in the same rack/cabinet. Figure 1: 8-fiber to 2-fiber direct connectivity Parallel to Duplex Interconnect This is an 8-fiber to 2-fiber interconnect. The solution in figure 2 allows for patching on both ends of the fiber optic link. The devices used in this link ...

In optical communication, duplex and parallel optical links are two of the most commonly deployed cabling structures. This post will discuss some specific connectivity solutions using 2-fiber duplex and 8-fiber/20-fiber parallel fiber optic modules. Duplex and Parallel Optical Links A duplex link is accomplished by using two fibers. The most commonly used connector is the duplex LC. The TIA standard defines two types of duplex fiber patch cables terminated with duplex LC connector to complete an end-to-end fiber duplex connection: A-to-A patch cable (a cross version) and A-to-B patch cable (a straight version). In this article the LC to LC duplex cables we use are all A-to-B patch cables. It means the optical signal will be transmitted on B connector and received on A connector. Figure 1: two types of fiber patch cables A parallel link is accomplished by combining two or more channels. Parallel optical links can be achieved by using eight fibers (4 fibers for Tx and 4 fiber...

Since the introduction of Base-12 connectivity in the mid 1990s, the  12-fiber MTP/MPO connector  and Base-12 connectivity have served the data center for about twenty years. It has helped a lot in achieving high-density and manageable cabling. Recently, many documents and posts are discussing about a new technology—Base-8. Its appearance is regarded as the evident need of future networks. Even though most of the words are promoting the overwhelming advantages of Base-8 system, we should still consider the defects and merits of these two systems based on some facts before taking the next step by ourselves. This post is a discussion on this topic. Facts of Base-12 and Base-8 In this part, the design features of Base-12 and Base-8 systems will be introduced. And their dominant advantages are going to be discussed too. Design Features Base-12 connectivity makes use of links based on groups of 12, with 12-fiber connectors such as the MTP. In Base-12 connectivity, for exam...

For 40GbE direct cabling between two devices using QSFP+ port, there are several options including QSFP+ transceiver option, QSFP+ DAC (Direct Attach Copper) cable, and QSFP+ AOC (Active Optical Cable). Among these options, each of them has its own merits. Today, I’d like to make a comparison between them from the perspective of the costs. Case 1: Distances Below 5 m If the transmission distances is under 5 m, like the case that two switch ports are connected within the same rack or between racks located within the same room. The QSFP+ passive DAC cable is recommended. Take the Cisco compatible QSFP+ optics (Fiberstore Brand) for example: DAC 5m Cisco QSFP-H40G-CU5M Compatible 40G QSFP+ Passive Direct Attach Copper Cable US$ 65.00 AOC 5m Cisco QSFP-H40G-AOC5M Compatible 40G QSFP+ Active Optical Cable US$ 140.00 Transceiver & Cable Cisco QSFP-40G-SR4 Compatible 40GBASE-SR4 QSFP+ 850nm 150m DOM Transceiver US$ 85.00 5M OM4 12-fiber MTP Fiber Optic Trunk Cable for 40GBASE-SR...

In telecommunication, fiber loopback is a hardware designed to provide a media of return patch for a fiber optic signal, which is typically used for fiber optic testing or network restorations. When we need to know whether our fiber optic transceiver is working perfectly, we can use a fiber loopback cable as an economic way to check and ensure it. Basically, the loopback aids in debugging the physical connection problem of the transceiver by directly routing the laser signal from the transmitter port back to the receiver port. Since fiber optic transceivers have different interface types and connect different types of cables, it is not that simple to choose a right loopback for our transceiver. This post will be a guide on how to choose a right loopback cable for specific transceiver module. Fiber Loopback Types and Configurations Before deciding which loopback cable to use, we should firstly know the structure and classification of fiber loopback cable. Generally, a fiber loopbac...

Good cable management is essential to keep the fiber cables in acceptable condition and ensuring transmission performance with high-density cabling. A 1U detachable horizontal panel is an amazing part in cable management due to its multiple choices for application. This article will introduce the structure of a 1U detachable cable management panel and its diverse applications in network installation. Structure of the 1U Detachable Cable Management Panel This 1U detachable horizontal cable management panel consists of four parts that are held together by screws and can be removed by tools. They are illustrated in the following figure, including horizontal laser bar, horizontal laser panel, D-rings and 1U patch panel. Multiple Application Choices of the Detachable Cable Management Panel This 1U detachable horizontal cable management panel can be used to manage cables for different active or passive network devices because they can be assembled randomly to meet your needs. Here...