In 10 Gbps-class symmetric optical access systems, the newly developed amplifier technology quadruples the splitting number and doubles transmission distance Kawasaki and Tokyo, Oct 13, 2011 - (JCN Newswire) - Fujitsu Limited and Fujitsu Laboratories Limited today announced the development of optical amplifier technology for use in optical access systems that link subscribers to central offices.
What does OPTAMP stand for?
OPTAMP stands for Optical Amplifier
This definition appears very rarely and is found in the following Acronym Finder categories:
- Information technology (IT) and computers
- Onafhankelijke Post en Telecommunicatie Autoriteit
- Open Packet Telephony Architecture (Cisco)
- Operational Programme Technical Assistance (EU)
- Optimum Performance Theoretically Attainable
- Orthotic & Prosthetic Technological Association
- Optical Target Acquisition & Cueing
- Operations Tactical Data System
- Operational Training and Advisory Group (Ministry of Defence; UK)
- Optimization of the Performance of Theater ASW Mobile Acoustic Sensors
- Operations Target Analysis
- Operating/Operational Target
- Operating Targets
- Operations, Planning, Training and Resource Support Services
- Oceanside Photo & Telescope Astronomical Society (San Diego County, CA)
- Operational Tasking
- Operational Tasking Data Link
- Operational Tasking Nuclear
- Occasional Papers in Translation and Textlinguistics
- Off Premise Transitional Automated Ticket (airlines)
Samples in periodicals archive:
Fiber Raman amplifiers are becoming increasingly important in optical fiber communication systems since they provide both lower noise performance and a wider wavelength coverage than conventional optical amplifiers.
The demand for greater bandwidth in optical fiber communications has led to the development of laser transmitters and optical amplifiers with very low intensity noise.
Their approach uses specially shaped light pulses, described as solitons, along with optical amplifiers to boost the signal when necessary.
The demand for greater bandwidth in optical fiber communications has led to the development of laser transmitters and optical amplifiers with very low noise.