2.5G Transponder
Product Overview
The 2.5G transponder is a module designed by HYD Technology and is used in association with the optical fiber links to implement the signal regeneration of 2R/3R. These signals can be generated with multiple rates of protocols ranging from 10 Mbit/s to 2.488Gbps/s.
The signals can also be considered into the standard wavelength with CWDM/DWDM multiplexer or demultiplexer to divide the wavelength during transmission. It also goes well with SONET, SAN, Video, and OTN providing a high-quality solution for the problem of lack of fiber resources in transmission lines.
- It supports the wavelength conversion and the transmission of CWDM/DWDM.
- Using the network management setting, it also supports EOLP.
- Offers the support of multiple distances for transmission.
- Comprises the ability to provide distance transmissions through multiple channels.
- Offers 4 bidirectional channel transmissions or 8 unidirectional channels on 10 Mbit/s to 2.488Gbit/s.
- Offers access to service and client mode with single or multimode support followed by transparent transmission and hot-swappable.
- Offers output optimization and FEC function with link detection and signal monitoring.
- Suitable for unified networks based on SNMP and composed of methods like WEB, NetRiver, and CLI.
- If any enquiry ,please contact HYD TECHNOLOGY .
System Parameter | Technical Index |
Maximum capacity | 4*2.488G bidirectional transmission |
Wavelength range | DWDM: 1529.16nm-1567.14nm CWDM: 1271nm~1611nm |
Service access types | SDH, SONET, Ethernet, SAN, OTN, Video |
3R technology | 3R functions: (Re-amplifying), (Re-timing), (Re-shaping) |
Dimensions (mm) | 177(W)*20(H)*225(D) |
Working temperature | -10℃~70℃ |
Storage temperature | -40℃~80℃ |
Relative humidity | 5%~95% no condensation |
Safety and EMC | Compliance with FCC, UL, CE, TUV, CSA standards |
Power consumption | <20W |
Application 1:
Since this transponder can convert the ethernet signals in the required wavelengths in DWDM and CWDM infrastructures, it allows the network operators to implement media conversions over a wide range, and that too in a very flexible and compact design.
Application 2:
This transponder can also be deployed to successfully integrate the multiple types of fibers used in converting multimode fiber to single mode or dual mode fiber to single mode. Also, it is suitable for being used as a repeater to convert weaker signals into stronger ones to ensure continuous transmission.
