Staying connected is now more important than ever. Fiber optic transceivers help us share data over ethernet across long distances. Whether you want to stay connected to a company branch at the other end of the city or want to communicate with the lab across the campus; fiber optic transceivers are the best to have. It is an essential component of networking, ethernet, telecommunications, gateways, distribution frames, and central offices.
Too many options.
There are many different companies and that manufacture and sell these transceivers and too many categories to consider, so it is expected to be a little confusing to an average individual. But with the right guidance, anyone can easily select the most compatible one without getting overwhelmed by the information available that can only be understood by computer geeks. The first step is to know what we have. Once that is taken care of, it is easy to choose what will suit it best.
What to look for?
Choosing the right kind of transceiver depends on the kind of fiber optic cable we are using. Our cables may be Multimode Fiber or Singlemode Fiber. The type of fiber will determine the speed and distance of data transfer. The next thing we should keep in mind is the type of equipment we have. We may own different hardware like Ethernet switches, firewalls, routers, network interface cards, storage interface cards, and fiber media converters. It is vital to know what type of transceivers are supported by our device and what speed will be allowed by the transceiver port integrated into it.
What are the different types available?
Fiber optic transceivers are classified on multiple bases. On the basis of transmission rates, that is, the number of bits transmitted per second and measured in Mbps (Megabits per second) or Gbps (Gigabits per second); transceivers are classified into many speeds. On the basis of packaging, they may be of various sizes. Based on the type of fiber they can be either a singlemode fiber (SMF) or a Multi-mode fiber (MMF). Multi-mode transceivers transfer over short distances under 2000 feet, while the singlemode ones can transfer data over 50 times further. According to transceiver applications, they are classified as SONET/SDH, Fiber Channel, FE/GE/10GE/40GE/100GE Ethernet, CPRI, Broadcast Video, LTE, etc.
Categories Simillar to Fiber Optic Transceivers includes Fiber Optic Connectors