Fiber optic patch panel is also called fiber distribution panel. Its main function is to terminate the fiber optic cable and provide connection access to the cable’s individual fibers. Fiber patch panels are termination units, which are designed to provide a secure, organized chamber for housing connectors and splice units. Fiber patch panels are available in rack mounted or wall mounted. Both types can house, organize, manage and protect fiber optic cable, splices and connectors. Rack mount panels is usually 19" or 23" universal width. The height of patch panel can be 1U, 2U, 3U, 4U, 6U, etc. The opening of the optical fiber patch panels can be slidable or fixed or revolving. Wall mount patch panel is more customized, it can be any structure and dimension. And the patch panels can be used for indoor or outdoor application.
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.
"GY" refers to Outdoor cable for communication, "F" refers to non-metallic reinforcing member, "T" refers to filled structure, and "Y" refers to polyethylene, "53" means Wrinkled steel strip and Polyethylene sheath. The GYFTY53 cable is constructed by inserting a 250μm fiber into a loose tube made of a high-modulus material filled with a water-repellent compound. The center of the core is a non-metallic reinforcing core (FRP). For some cores, a non-metallic reinforcing core needs to be extruded with a layer of polyethylene (PE).
The 40G optical module refers to an optical module with a transmission rate of 40 Gbps. CFP and QSFP are the main package types, and the 40G QSFP optical module is one of the most widely used. The 40G QSFP+ optical module is typically used with LC single-mode fiber patch cords for transmission distances up to 10km, and it has four data channels that simultaneously transmit data. It works by the laser driver controlling the wavelength of arrival, and the optical signals are then multiplexed and combined for transmission. When the receiver arrives at the receiving end, the transmitted signals are decomposed into four channels with a transmission rate of 10 Gbps, and then the PIN detector or transimpedance amplifier recovers the data stream and then transmits the optical signal.
The 100G QSFp Optical Module integrates the receiver and transmitter paths on one module. At the transmitting end, the four channels of serial data are recovered, retimed, and passed to the four laser drivers. The laser driver controls a 4-distributed feedback laser (DFB) with center wavelengths of 1296 nm, 1300 nm, 1305 nm, and 1309 nm. The optical signal is multiplexed to a single mode fiber through an industry standard LC connector. On the receiving side, the four optical data stream channels are optically demultiplexed by an integrated optical demultiplexer. Each data stream is recovered by the PIN photodetector and transimpedance amplifier and retimed. The module features a hot-swappable electrical interface, low power consumption and MDIO management interface. Designed according to the QSFP Multi-Source Agreement (MSA), the product features a form factor, optical/electrical connection and digital diagnostic interface, and is compliant with the IEEE 802.3bm standard.
The EPON-4080 Optical modem is an EPON terminal that can be used in FTTH scenarios. It is small in size and light in weight. It is easy to be used in the construction of the network box and the upgrade of the old network. It has a 10/100/1000Mbps interface, providing users with high-speed data services and high-quality video services, and remote service delivery and failure through OMCI. Diagnostics and performance statistics to effectively reduce operating and maintenance costs. As an optical network terminal product built by FTTH network, the product conforms to IEEE802.3ah, 24 GHz WiFi dual-band wireless connection rate up to 300 Mbps, and has high-quality EPON access capability. EPON optical network terminals have the characteristics of high reliability, good service quality, strong management capability, strong scalability, flexible networking, etc., which can meet the needs of high-speed broadband access.
Professional fiber manufacturer from Guangdong province, China. The structure of GYTA53 optical cable is to insert a single-mode or multi-mode optical fiber into a loose tube made of a high modulus polyester material, and the casing is filled with a waterproof compound. A fiber reinforced plastic (FRP) locates in the center of core as a non-metallic strength member.
Fiber patch cords are fiber-optic cables with connectors on both ends that can be connected directly to a computer or other network device. Fiber patch cords are commonly used to connect light emitting devices, light receiving devices, and fiber optic terminal boxes. Single-mode fiber patch cord cores are particularly small in diameter, typically only 9 μm, and have only one light propagation path. It is for this reason that light can only be transmitted along the axis of the fiber, thereby completely avoiding the waste of dispersion and light energy.