CWDM Products |
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Coarse Wavelength-Division Multiplexing - CWDM Products-
CWDM 1470nm-1610nm Products
Series
Fibre Media Converter, PDH Multiplexer and Video
Optical Transmitter/Receiver
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Typical Application
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Overview
Fibridge CWDM products include CWDM Fibre Media Converter,
CWDM PDH Multiplexer, CWDM Video Optical Transmitter/Receiver,
which achieve a highly cost-effective solution for
multiple utilization of existing Fibre Optic networks.
Through the CWDM solution, the user will not be restricted
by the existing Fibre installations. Users are now
able to expand the bandwidth of the installed Fibre
up to eight times, using 8 distinct wavelengths on
each Fibre. Not only can the users deploy additional
applications over the existing Fibres but also efficiently
manage the remote devices from a central Administration
Center. CWDM solution products are widely used in
the field of CATV, Internet, VoIP, and legacy data,
audio and video solutions, bringing the concept of
FTTH closer to the every day life of the public.
Features
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- Wavelength supports up to 8
Channels: 1470nm, 1490nm, 1510nm, 1530nm, 1550nm,
1570nm, 1590nm, 1610nm
- CWDM products series include
Fibre Media Converter, PDH Multiplexer and Video
Optical Transmitter/Receiver
- CWDM device support Standalone
type or Chassis Module type
- Support all the function of
normal products, including hardware and software
functions
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Order
Information
Please contact Fibridge Australia to get detailed information
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What is coarse wavelength division multiplexing? - a definition ...
Coarse wavelength division multiplexing (CWDM) is a method of combining multiple signals on laser beams at various wavelengths for transmission along fiber optic cables, such that the number of channels is fewer than in dense wavelength division multiplexing (DWDM) but more than in standard wavelength division multiplexing (WDM).
CWDM systems have channels at wavelengths spaced 20 nanometers (nm) apart, compared with 0.4 nm spacing for DWDM. This allows the use of low-cost, uncooled lasers for CWDM. In a typical CWDM system, laser emissions occur on eight channels at eight defined wavelengths: 1610 nm, 1590 nm, 1570 nm, 1550 nm, 1530 nm, 1510 nm, 1490 nm, and 1470 nm. But up to 18 different channels are allowed, with wavelengths ranging down to 1270 nm.
The energy from the lasers in a CWDM system is spread out over a larger range of wavelengths than is the energy from the lasers in a DWDM system. The tolerance (extent of wavelength imprecision or variability) in a CWDM laser is up to ± 3 nm, whereas in a DWDM laser the tolerance is much tighter. Because of the use of lasers with lower precision, a CWDM system is less expensive and consumes less power than a DWDM system. However, the maximum realizable distance between nodes is smaller with CWDM.
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