The dense wavelength division multiplexer carrier has multiple wavelengths and utilizes the high bandwidth and low loss characteristics of single-mode fiber to realize simultaneous transmission of each carrier channel in the fiber. The dense wavelength division multiplexing system has strong scalability and can provide single fiber transmission capacity of 16/20 waves or 32/40 waves, and can be expanded to 160 waves at the maximum, which greatly improves the communication capacity of the network system.
DWDM dense wavelength division multiplexer is the main equipment responsible for data multiplexing and demultiplexing. In the past few years, DWDM dense wavelength division multiplexers have been rapidly upgraded to continuously reduce insertion loss to meet the growing telecommunication needs, and they are often combined in a rack. Therefore, DWDM dense wavelength division multiplexers Also known as DWDM multiplexer/demultiplexer, the following are the advantages of HTF 16CH DWDM dense wavelength division multiplexer.
16 Channel 100 GHz DWDM combined Multiplexer and Demultiplexer (MUX & DEMUX)
Standalone compact form factor-1U, Installation friendly
Plug’n play: requires no configuration
Green product: completely passive, needs no power and no cooling
Low Low insertion loss, insertion loss ≤4dB
High channel isolation:adjacent isolation ≥25dB; non-adjacent isolation ≥35dB
Compatible with 100GHz ITU Grid DWDM active transponders and transceivers from Htfuture and other third parties
High reliability, MTBF of 100 years
Designed for Telcordia / Bellcore GR-120
Long-distance network transmission generally contains a huge amount of information, and requires that the optical fiber signal maintains high clarity and minimal loss after passing through cities, mountains, and even across the coastline. This poses a great challenge to long-distance networks. Therefore, DWDM Dense wavelength division multiplexer came into being. It can not only solve the above problems, but also can be used in ultra-bandwidth optical amplification, dispersion management and metropolitan area networks, and can help provide users with smarter, faster and more efficient optical Transmission system.
