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How to Choose Optical Transceivers for DWDM Mux Demux

DWDM technology is an ideal solution for long-distance data transmission. It enables the optical fiber network to transmit signals of multiple wavelengths at the same time, expands the bandwidth of the optical communication network, and realizes high-speed and larger channel capacity network transmission. DWDM Mux Demux and DWDM Transceivers are an important part of this type of DWDM transmission. How to choose a suitable optical module for DWDM Mux Demux is very important for high-quality DWDM transmission. This article can help you better choose the right DWDM transceiver.

Optical Transceivers for DWDM Mux Demux Common Ports
The common ports necessary for DWDM Mux Demux are used to connect external optical fibers with the line ports of the Mux Demux and the channel ports used for multiplexing and demultiplexing different wavelengths. The selection of transceiver modules corresponding to these two ports can be considered from two aspects: wavelength and transmission distance.

Choose Transceivers Based on DWDM Wavelength
Generally speaking, the commonly used frequency bands of 100Ghz DWDM are C21~C60 (some will choose C20~C59). Take Heyoptics 40CH DWDM Mux Demux as an example, its wavelengths range is C21-C60. The wavelength band of the optical module can be matched with it. If there is no need to use all the 40 channels of the Mux Demux, it's better to choose optical modules from low bands, that is C21, C22, C23...

The common frequency bands of 16CH DWDM Mux Demux and 8CH DWDM Mux Demux are C21~C36 and C53~C60. Their transceiver selection is the same as the 40CH DWDM Mux Demux, just ordered from low band to high band. It is worth noting that C53~C60 can be connected with the 1530nm channel port in the CWDM system to realize the upgrade of the DWDM service on the CWDM system.


Choose Optical Transceiver Based on Transmission Distance
It is well known that optical losses caused by equipment and fiber optic cables are present in all transmission processes. Therefore, the actual transmission of the DWDM transceiver is shorter than the nominal transmission distance of the module, especially in aging fiber optic transmission systems. If necessary, EDFA and DCM equipment can be added to extend the transmission distance in the DWDM network.

In the face of different transmission distances, a power budget plan needs to be formulated in advance. Taking a 10G network as an example, the maximum insertion loss of a Heyoptics 40CH DWDM Mux Demux is 5dB. A complete point-to-point transmission link requires two DWDM Mux Demux, so the total insertion loss is 10dB. The power budget of the 10G 80km DWDM module is 23dB. In addition, the system needs to prepare an extra margin of 3dB to cope with the additional loss caused by subsequent link aging and loose connectors.


Power budget reference formula:

Module budget - Mux Demux insertion loss * 2 - system margin = power budget available for link transmission. (23-5-5-3=10dB)

DWDM transmission distance is calculated with reference to the loss coefficient of 0.25dB/km. The theoretical transmission distance is: power budget available for link transmission/fiber loss coefficient = transmission distance. (10/0.25=40km)

To be note that this, calculation takes the maximum loss of DWDM Mux Demux. In fact, the typical FS 40CH DWDM Mux Demux loss is 3.5dB, so the actual transmission distance will be longer than the theoretical distance.

If the transmission distance exceeds 40km or the link loss is greater than 10dB, it is necessary to use EDFA and DCM equipment to extend the transmission distance. At this time, the transmission distance of the transceiver module is relatively not very important, so a 80km WDM module is a good choice.

10G 80km DWDM transceiver module with 40CH Mux Demux, the transmission theoretical distance is about 40km if the system is the most stable. Hence, when you choose an optical transceiver in a DWDM network, you need to match the appropriate optical transceiver according to the transmission distance, and also consider the loss value of the link at the wavelength of 1550nm and the equipment loss of Mux Demux. Only when the optical transceiver cannot meet the transmission requirements, additional equipment such as EDFA and DCM need to be added.


Optical Transceivers for DWDM Mux Demux Function Ports
In addition to the necessary channel ports and line ports, DWDM Mux Demux also adds other special ports: 1310nm and 1550nm ports, monitoring ports, and expansion ports.

1310nm Ports
The 1310nm port supports traffic transmission at any rate. Therefore, when choosing a transceiver module for the 1310nm port, there are two major considerations: the wavelength of the optical module must be 1310nm, and the transmission distance that the optical module supports. LR4/ER4/ER8 optical modules are suitable for 1310nm ports and support 40G, 100G service transmission. You can choose a suitable optical transceiver for your DWDM Mux Demux according to the business transmission needs.

Monitors and Expansion Ports
The monitoring port and expansion port are not connected to the optical module, but are connected to the corresponding equipment.

The monitoring port is mainly used for network monitoring and management. It divides the combined power of all signals on the backbone link by 1%. The Monitor port provides a flexible monitoring method. Through different monitoring devices such as optical power meters, spectrometers, and OPMs, the power, wavelength, and optical signal-to-noise ratio (OSNR) of optical signals can be tested without interrupting services.

The EXP port is used to upgrade other bands than the current channel. For example, the current band of 16CH Mux Demux with EXP port is C21~C36. When upgrading the service, you can connect a Mux Demux with any number of channels on EXP port without C21~C36, such as 8CH Mux Demux of C53~C60.

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