As the need for high capacity increases so fast, the WDM (wave division multiplexing) technology meets with great favor in today’s optical network that can be mainly divided into CWDM (coarse wave division multiplexing) and DWDM (dense wave division multiplexing) technology. Although the CWDM cannot transmit the signals so long as that of DWDM, it costs much less to deploy the WDM system and keeps the scalability to increase the network capacity. For this reason, CWDM technology is much more popular then the DWDM one. In this post, it will simply study the two key components for deploying a CWDM system and analyze one practical CWDM system deploying case for you.
Key Components for Deploying CWDM System
CWDM technology is to multiplex multiple wavelengths for transmitting several kinds of signals through only one fiber, with the aim of solving the capacity-hungry issue. As the CWDM system is more complicated than a common system which consists of much more components, it is necessary to know the key components used for building CWDM system before learning the practical CWDM system deployment case.
CWDM Mux Demux: it is the basic and key component for a CWDM system. It is designed for multiplexing 4, 8 or even 16 different wavelengths to transmit up to 16 kinds of signals as an integrated signal over one fiber at the same time and then demultiplexing the integrated into individual signals. That’s to say, 3, 7 or even 15 virtual fibers are created in the process with much higher capacity. If you are facing the capacity-hungry issue, then the compatible CWDM Mux Demux would be a necessity for you to deploy a higher capacity system.
CWDM OADM: it can be also called CWDM Optical Add Drop Mux. It is mainly used for add and drop (multiplex and demultiplex) channels on both directions in a CWDM system. You can use the Add Drop Mux to add new access points in anywhere of your CWDM system, which has no influence on the other channels.
Practical CWDM System Deployment Case
In this case, singlemode fiber cable or multimode fiber cable are used for connecting five buildings including Sheriff, Courthouse, Admin, Police & Fire Dept, and Public Works, as shown in the following figure. It deploys a simple network in city offices. But now, we should use the singlemode fiber cable to deploy a complete system that should link numerous buildings in the town. In details, the Public Works should connect with Youth & Recreation Center, Library, Immanuel Lutheran School and the Senior Center, both of which have unfiltered Internet. Meanwhile, the Waster Water Treatment Plant is designed to link with Middle School and then connect the Senior Center.
What can we do to meet the requirements? The answer is building a CWDM system. The following figure shows the detailed solution. 8 channel CWDM Mux Demux is used to connect the switch. Since the four buildings Youth & Rec Center, Library, Immanuel and Senior Center should be connected with the Public Works that need unfiltered services, we should put a 4 channel CWDM OADM behind the 8 channel CWDM Mux Demux. Hence, four signals with different wavelengths can be drop and transmitted into these four buildings. On the other hand, to meet the another requirement, we should put a CWDM OADM on Senior Center to serve the Waster Water Treatment Plant.
Conclusion
After learning the practical CWDM system deployment case, do you also want to deploy a CWDM system like this for higher capacity? If yes, the key components like Mux Demux and OADM for building CWDM system are available at FS.COM with good price. Except these two devices, other components for WDM system like EDFA amplifier, dispersion compensation module and WDM Transponder are also available.