Solutions
Concept
The concept is to convert a TDM signal generated from a TDM transmitter to many WDM channels using an all optical signal processor – a ‘Time Lens’. These WDM channels can be passively split using a wavelength splitter, and each user gets their own wavelength channel, in the same way as an existing WDM system
5G Front-/Midhaul networks
For 5G, the Fronthaul connection between the Radio Remote Unit (RRU) and the Distribute Unit (DU) could be a symmetrical 25Gbps link. In addition, the connection between the DU and the Central Unit could be multiple 25Gpbs links.
A 25Gbps WDM PON network infrastructure based on our TimeLens solution for 5G Front-/Midhaul networks will provide:
- High bandwidth, ultra low latency, and low cost
- Symmetrical upstream and downstream bandwidth
- Reuse of existing deployed fiber infrastructure for 5G
Next generation 50G PON
The ever increasing demand for bandwidth driven by new application such as argumented reality, autonomous vehicles, and artificial intelligence will require more network capacity.
Next generation 50G Passive Optical Netowrks (PON) can benefit from our Timelens technology.
- High bandwidth, ultra low latency, and low cost
- Increased security levels
- Reuse of already deployed lower speed OLT equipment
High density WDM PON
Urbanization where people live and work in large cites will increase the demand for fast and reliable optical communication in apartment and office buildings.
Fiber To The Home (FTTH) or Fiber To The Business (FTTB) optical networks in large cities can utilize our Timelens solution to build a high density WDM PON infrastructure.
- High bandwidth, ultra low latency, and low cost
- Per user dedicated wavelength and bandwidth
- Reuse of already deployed lower speed OLT equipment
