Optical signals are transmitted on specific wavelengths like 850nm, 1310nm, 1550nm and CWDM wavelengths and DWDM wavelengths. In some cases, it occurs that you need to converter a wavelength of optical signals into another wavelength for transmission. A useful component OEO 3R converter is suggested to be used. The OEO converter is also known as transponder OEO. This component uses the Optical-Electrical-Optical principle to offer the conversion between different wavelengths of optical signals. “3R” means re-timing, re-shaping, and re-amplifying.
OEO 3R converter can fit various applications and can be installed in the network flexibly. It is a very popular component in DWDM and CWDM networks. In many situations, we are using fiber optic transceiver that working on 850nm, 1310nm and 1550nm for optical signal transmission. However, if you want to add optical signals of these wavelengths into a CWDM or DWDM network, you should firstly convert the wavelengths into CWDM or DWDM wavelengths. With OEO converter, this could be easy. The following picture shows a case which uses OEO converter in a CWDM network for wavelengths conversion.
In this case, a 10G SFP+ to SFP+ OEO with two SFP+ ports, is being used for wavelength conversion between 1310nm and CWDM wavelength 1610nm. A 10G-LR SFP+ module working on 1310nm is used in a 10G switch on site A. To add the optical signal of this port in to the existing CWDM network, this module is being connected to another 10G LR SFP+ module which is being inserted in the SFP+ Port 1 of the OEO converter. A CWDM 1610nm SFP+ module, connected to the CWDM MUX/DEMUX on site B, is being used in the other port of this OEO converter. The OEO converter the 1310nm signal into 1610nm CWDM signal. The optical signal from site A is being added into the CWDM network via the CWDM MUX/DEMUX on site B.
The using of OEO converter for wavelength conversion is simple. As above mentioned, the OEO 3R converter has the function of re-timing, re-shaping, and re-amplifying, the OEO 3R converter can also be used as fiber mode converter and fiber repeater converters. The following picture shows another case with OEO 3R converter working as fiber repeater and providing conversion between single-mode and multimode.
In this case, three SFP+ to SFP+ OEO converters are deployed between Site A and Site B for long distance dual-way optical transmission. The optical signal from Site A is firstly converted from multi-mode fiber into single-mode fiber for 90km transmission by one OEO converter. Then, a second OEO converter is used as a repeater to “3R” the optical signals. After that, the single-mode signal will travel another 75km. Before the signal reaches the switch in Site B, another OEO converter converts the single-mode signal into multimode signal.
OEO converters provide flexible solution for optical transmission network. Except the above mentioned 10G SFP+ to SFP+ OEO converter, there are many other OEO converters with different port types, port counts and designs. The following table listed several OEO converters for your reference.
|SFP+ to SFP+ OEO Converter
|XFP to XFP OEO Converter
|QSFP+ to QSFP+ OEO Converter
|8 Ports SFP+ 10G OEO Converter