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WDM passive wavelength division 5G fronthaul solution
Sep 27 , 2022
The 5G fronthaul passive WDM system is mainly used to solve the problem of long-distance optical fiber between DU-AAU and lack of transmission optical fiber resources in the C-RAN architecture. The optical module replaces the original gray optical module on the wireless device, thereby providing business optical signals of different wavelengths. The passive wavelength division multiplexers on both...
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Why 400G QSFP-DD is more popular than 400G OSFP and 400G CFP8
Oct 14 , 2022
At present, the main products of 400G transceivers are QSFP-DD, OSFP and CFP8. This article introduces: Why 400G QSFP-DD is more popular than 400G OSFP and 400G CFP8 1: QSFP-DD provides maximum port density. This makes QSFP-DD more attractive than OSFP form factor modules and larger CFP8 modules. 2: The power consumption (the maximum power that the module can dissipate without damaging the interna...
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What are the performance indicators that affect the WDM wavelength division multiplexer?
Nov 15 , 2022
The technology of simultaneously transmitting information of two or more optical wavelength signals through different optical channels in the same fiber is called wavelength division multiplexing (WDM). WDM (Wavelength Division Multiplexing) is to combine two or more optical carrier signals of different wavelengths (carrying various information) at the transmitting end through a multiplexer, and c...
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Data center 10G SFP+ solution comparison
Dec 07 , 2022
The development of artificial intelligence and the Internet of Things poses new challenges to the expansion of data centers. Sparks often collide between technology and cost. While achieving high density and high capacity, it is also necessary to control cost factors. Reasonable wiring is very important. In When wiring, we can choose a combination of high-speed cables and optical module jumpers. T...
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FiberWDM 200G/400G CFP2-DCO Transceiver Highlights
Dec 16 , 2022
Based on its innovative design, the FiberWDM 200G/400G CFP2-DCO transceiver provides powerful performance and enhanced flexibility for optical transmission, and provides field-proven reliability through rigorous testing. Ultra High Capacity Optical Transmission These coherent transceivers use more advanced modulation techniques, such as QPSK and 16QAM, to transmit more bits per time interval or sy...
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Explanation of relevant knowledge points of WDM network
Dec 27 , 2022
A WDM network is a network that deploys optical WDM fiber links, where each link carries multiple wavelength channels. WDM, an acronym for Wavelength Division Multiplexing, is a technology that multiplexes multiple signals on a single optical fiber by using optical carriers of different wavelengths using lasers or LEDs. There is a multiplexer and a demultiplexer at each end of the WDM. A multiplex...
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What is the difference between WDM and OTN?
Feb 17 , 2023
WDM and OTN are two different communication technologies, the differences are as follows: WDM (Wavelength Division Multiplexing): WDM is an optical transmission technology that uses optical signals of different wavelengths to multiplex multiple data streams on one optical fiber to increase the transmission capacity of the optical fiber. WDM technology combines optical signals of different waveleng...
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WDM solutions will play an increasingly important role in future fiber optic networks
Mar 01 , 2023
Wavelength Division Multiplexing (WDM) is a technology used in fiber optic networks to increase the bandwidth capacity of the network by allowing multiple wavelengths of light to be transmitted on a single fiber. This technology is commonly used in long-distance transmission systems, data centers and metropolitan area networks. A popular type of WDM solution is coarse wavelength division multiplex...
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