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  • 25
    2017-06
    After double checked with our engineers about the 1510nm SFP+ CWDM Transceivers. The shortest distance for SFP+ 10G, CWDM, 1510nm is 40km. Normally, we provide 10km ones for 8 channels wavelength around 1310nm. If you want 1510nm 10km ones, we also can provide, bur for specific made.
  • 25
    2017-06
    Today’s technology presents unprecedented migration incorporating a wide range of application requirements such as database, transaction processing, data warehousing, integrated audio/video, real-time computing, and collaborative projects. Fibre Channel and Gigabit Ethernet, both are the ideal solutions for IT professionals who need reliable, cost-effective information storage and delivery at fast speeds. Fibre Channel is available in 1G/2G/4G/8G/16G FC and 10GFCoE, 40GFCoE and 100GFCoE nowadays. Gigabit Ethernet is the reigning network for data center and server room. The battle between Fibre Channel and Ethernet is complicated. However, this article will help you solve it out by comparing 10G SFP+ Fibre Channel transceiver modules and 10G Ethernet SFP+ modules.
  • 25
    2017-06
    The boosting global data traffic spurs the demand for faster data transmission and greater capacity over the network, and the demand is not gonna slack. Thus migration from 10G to higher speed 40G or 100G becomes an inevitable trend yet a necessity for network managers to accommodate the data boom. For 40G short-reach data communication and interconnect applications, 40G QSFP SR4 and 40G QSFP BiDi transceiver modules are generally involved. This article guides you through the working principles of the two 40G transceivers, and then presenting the cabling options for each.
  • 25
    2017-06
    To meet the growing data rates of optical interconnects, 100G optical modules are booming in 2017. And there are many types of 100G optical transceivers in the market such as CFP modules and QSFP28. Those who have experienced in using optical transceivers may know each kind of transceiver has their own functional mode. And knowing this functional mode helps you to choose the suitable 100G optics for your networks.
  • 25
    2017-06
    In optical communication system, fiber patch cables and optical transceivers are necessities to complete the pathway for optical signal, enabling data to transmit between devices. To ensure that the fiber system has sufficient power for correct operation, it is vitally important to calculate the span’s power budget. A solid fiber link performance assures the networks run smoother and faster, with less downtime. This article addresses the essential elements associated with link power budget, and illustrates how to calculate power budget effectively.
RECENT BLOG POST
  • 01
    2019-10
    With 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.
  • 01
    2019-10
    1. 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.
  • 01
    2019-10
    AOC 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.
  • 01
    2019-10
    Dense 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.
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