OC280-Cross Connecting Cabinet is use for outdoor cable access network,backbone cable and indoor cable arangement,it with high-capacity,high-density fiber distribution tray,suitable for the composition,splice and distribution of fibers in optical access network to achieve the fiber optic lines connection,distributing and scheduling.It features a fully enclosed cabinet that is aesthetically pleasing; has many features such as secure fiber storage and preventability. Moreover, the cabinet logo is clear, and the connection and distribution of each fiber have obvious signals, which can meet the needs of the ribbon fiber cable and the non-ribbon fiber cable at that time.
The fiber distribution box is suitable for the wiring connection between the optical cable and the optical communication equipment. The optical signal is extracted by the optical jumper through the adapter in the wiring box to realize the optical wiring function. It is suitable for the protective connection of fiber optic cable and wiring pigtail. It is also suitable for fiber termination point in fiber access network. This product is applied to the terminal access link in the FTTH access system, outdoor wall-mounted or hoop-mounted. The uplink is connected to the distribution cable, and the downstream cable is connected to the home, and the introduction and fixation of the optical cable, the welding of the optical fiber, and the installation and management of the optical splitter are completed, thereby realizing the splitting of the optical line.
EOC-4051 Optical modem fully complies with the IEEE P1901 standard and China Telecom EOC equipment technical requirements. It has the characteristics of carrier-class operation, manageability and easy maintenance. It is a bridge-type home-side device and realizes ultra-wideband for home/SOHO users through EOC technology. Access. It has one PON uplink interface connected to the central office equipment through optical fibers. The structure is small, supporting the placement of the desktop, wall hanging or placed in the corridor information box. As an Ethernet coaxial terminal product, Ethernet access is performed using a coaxial cable. The EoC terminal device has a built-in Wifi wireless function and includes four 100M Ethernet ports for works with EOC master in Ethernet over coax network.Ability to provide high quality Internet access, voice, IPTV, VoIP and video surveillance.
Fiber optic patch panel is modulized design with Swing tray inside.Each Swing tray can splice 24fibers. It could be pre-installed with various kinds of fiber optic adapters and pigtails. It is ideal for indoor fiber optic cables connection storage, distribution and management.
Optical Fiber Connector is a reusable passive device used to connect two fibers or cables to form a continuous optical path. It has been widely used in optical fiber transmission lines and fiber distribution frames. And optical fiber test instruments and meters are the most used optical passive components. According to different classification methods, optical fiber connectors can be divided into different types. According to different transmission media, they can be divided into single-mode fiber connectors and multi-mode fiber connectors. According to different structures, they can be divided into FC, SC, ST, and D4. , DIN, Biconic, MU, LC, MT and other types; according to the pin end face of the connector can be divided into FC, PC (UPC) and APC; according to the number of fiber cores, there are single core, multi-core.
Planar lightwave circuit PLC splitter is a type of optical power management device that is fabricated using silica optical waveguide technology.It features small size,high reliability,wide operating wavelength range and good channel-to-channel uniformity,and is widely used in PON networks to realize optical signal power splitting. Bare PLC splitter is putting PLC splitter chip and input, output optical fiber array in a square metal tube, out with the diameter of 0.9mm or 250um bare fiber ,fiber can be welded, can also be processing various types of optical fiber connector. We provides whole series of 1*N and 2*N splitter products that are tailored for specific applications.All products meet "YD/T1117-2001 All optical fiber branching device technical conditions","YD-T 2000-209 PLC Integrated optical devices PLC optical power splitter"etc, and are certified by TLC for network deployment.
The SFP+ optical module is a new generation of 10 Gigabit optical modules that can meet Fibre Channel 8.5G and Ethernet 10G applications in accordance with the ANSI T11 protocol. The SFP+ is about 30% smaller than the previous XFP optical module, which looks the same as an ordinary 1-4G SFP optical module. SFP+ only retains the basic electro-optic and photoelectric conversion functions, which reduces the signal control functions of SerDes, CDR, EDC, MAC, etc. in the original XFP design, which simplifies the design of 10G optical modules and reduces power consumption. SFP+ has significant advantages such as high density, low power consumption and lower system construction cost. The products are widely used in the field of 10 Gigabit Ethernet fiber data communication, and are the mainstream products of 10 Gigabit modules.
The optical fiber unit, Pre-terminated Drop Cable, is positioned in the center.Two parallel Fiber Reinforced Plastics (FRP) are placed at the two sides.Then,the cable is completed with a black or color LSZH sheath. It is also called leather cable. It is a new type of user access optical cable. According to the application environment and laying conditions, the cable structure and various technical parameters are reasonably designed. The characteristics of indoor soft cable and self-supporting optical cable are collected. Special equipment is used in conjunction with imported precision mold production. It is the best candidate for FTTX network solution, and it is also suitable for users of other fiber-optic FTTO and FTTB networks. Because the cross-section is like a butterfly, it is called a butterfly cable. Both sides are reinforcing members in the leather line and optical fibers in the middle.