Rapid Progression for Global 100G Optical Transceivers 2017-2021
2016-09-22
In recent years, with the growing demand for reliable and high-speed mobile communication, optical transceivers
are progressively being used for the communication network setup. In addition, the rising deployment of 100G transceivers for
high-speed networks is one of the prime factors contributing to high demand for optical transceivers. As per a recent research
study titled “Global 100G Optical Transceivers Market,” owing to some various prime factors, the global market is anticipated
to grow at a strong rate by the end
of 2021. This latest study has been lately broadcasted to the wide database of Market Research Hub (MRH), which offers a
thorough analysis of the global market, together with analysis of market size by value, volume, growth, segments etc.
For Ethernet systems, optical transceivers serve a necessary role in conveying information across communication channels and
became a preferred choice because they offer higher bandwidth over long distance; and most importantly provides data security.
An optical transceiver completes the
operation of transmission by converting the electrical signal in light pulse and vice versa at the receiving end through the use of optical fibers.
In the initial section, the report introduces the overview of 100G optical transceivers and analyzes the market by value and
different segments. Nowadays, the optical transceivers are available at different rates such as 10G, 40G and 100G. As standards
transform, so does the technology that utilizes these standards, creating for faster, smaller transceivers for networks to utilize
in sending information. Among these, optical transceivers operating on 100G offer the most effective data transmission.
Moreover, the global market can be segmented on the basis of form factor, technical application and network reach.
On the basis of technical application, it has been categorized into data communication and telecommunication. On the
basis of end-use, it covers Long haul, Metro, Inter-data center.
At present market, the 100G optical transceiver module on the basis of form factor include CXP, CFP, XFP, SFF, SFP and QSFP.
Among them, QSFP demonstrates its great superiority and will lead to denser optics and further price reductions.
Moving further, competitive landscape section is represented. In this section, different companies in the global 100G optical
transceivers market have been compared according to their revenue and market capitalization. Additionally, the report
also provides business overview, financial overview and the business strategies of the companies.
RECENT BLOG POST
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012019-10With the continuous development of 5G communication technology, 100G modules are gradually becoming popular. We know that there are many kinds of packages for 100G optical modules. From 2000 to now, the optical module package types have been rapidly developed. Its main package types are: GBIC, SFP, XENPAK, SNAP12, X2, XFP, SFP+, QSFP/QSFP+, CFP, CXP. In the fast-developing network era, some 100G optical modules avoid the risk of being eliminated, and upgraded and revised with the wave of the Internet, such as 100G CFP optical modules.
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012019-101. What is the CWDM SFP? The CWDM optical module is an optical module using CWDM technology to implement the connection between the existing network device and the CWDM multiplexer/demultiplexer. When used with a CWDM multiplexer/demultiplexer, CWDM optical modules can increase network capacity by transmitting multiple data channels with separate optical wavelengths (1270 nm to 1610 nm) on the same single fiber.
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012019-10AOC is the abbreviation of Active Optical Cables, which is called Active Optical Cables in Chinese. AOC active optical is to encapsulate two optical modules and cable together. Because the medium of transmission in the middle is optical cable, AOC optical module, which contains laser devices, has a higher price for DAC. However, its optical aperture is not exposed, it has high reliability, and its working distance can be customized for a long distance of less than 100 meters.
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012019-10Dense Wavelength Division Multiplexing (DWDM) technology is capable of transmitting data in an optical fiber using bit wavelength parallel transmission or string line transmission using the wavelength of the laser.It is widely used in different fields of communication networks, including long-distance backbone networks, metropolitan area networks (MANs), residential access networks, and local area networks (LANs).The DWDM optical module is the optical module that uses this technology, so the DWDM optical module has high bandwidth and long-distance transmission characteristics.
