-
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...
Read More
-
Advantages of BiDi Transceivers
Oct 20 , 2022
1. Save fiber resources and costs Since BiDi optics can realize the transmission and reception of optical signals through a single fiber, the biggest benefit of BiDi transceivers is that they save fiber resources and are cost-effective high-quality short-distance solutions, which are suitable for areas without additional fiber resources. of great value. The reduction in fiber usage saves the cost ...
Read More
-
Application of WDM (passive wavelength division multiplexer) in 5G fronthaul
Oct 25 , 2022
Passive wavelength division multiplexer (WDM) designed to address fiber resources for long-haul transmission between distributed units (DUs) and active antenna units (AAUs) in Centralized Radio Access Network (C-RAN) 5G fronthaul architectures In addition, passive WDM can save fiber resources. In passive WDM, color optical modules are directly deployed on AAUs and DUs, and multiple AAUs can share ...
Read More
-
10G SFP+ Optical Module Features Introduction - FIBERWDM
Nov 04 , 2022
In recent years, thanks to the accelerated development of broadband networks, the application of 10G networks has become increasingly widespread. Regarding the 10G SFP+ optical module (the basic transmission equipment of the 10G network), the parameters we need to know are as follows: 1. Center wavelength (nm): There are three main types: 1) 850nm (multimode, low cost but short transmission distan...
Read More
-
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...
Read More
-
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...
Read More
-
How to troubleshoot and solve fiber optic transceivers?
Dec 22 , 2022
The use of fiber optic transceivers is very simple. When applying fiber optic transceivers to the network, if they cannot work normally, troubleshooting is required. The following six aspects can be used to troubleshoot and solve: 1. The power indicator light is off, and the fiber optic transceiver cannot communicate. Solution: a. Confirm whether the power cord is connected to the power connector ...
Read More
-
Five WDM wavelength division multiplexing technologies for optical modules
Jan 04 , 2023
WDM wavelength division multiplexing technology is the preferred solution for 5G fronthaul network. According to different wavelengths, it can be divided into DWDM dense wavelength division multiplexing, CWDM coarse wavelength division multiplexing, FWDM filter wavelength division multiplexing, and MWDM medium wavelength division multiplexing. And LWDM fine wavelength division multiplexing. Among ...
Read More
