Single E1 Optical ETH Transmission device, converts framed E1 signal based on ITU-T G.703 to optical ETH, and transmits it to exchanger, HUB, router, net bridge or other devices through optical 100M channel (100BASE-FX). Device can also connect with the transmission devices like PDH to make 2 LAN s into one as its 2 net segments.
Single E1 Optical ETH Transmission device, a high performance, adaptive long distance ETH Bridge, with its small volume, low cost, is suitable for cost-sensitive bridge application or used as LAN stretcher/subsection in bit steam based construction. Automatically continuously learn MAC address in connected LAN, and transmit destination address as frames of other LAN. Be transparent to TCP/IP, offer safe, seamless communication between different interfaces. Be widely used in the field of connection, monitoring between WAN and LAN.
This model adopts inverse multiplexing technology that transmitting 10/100BaseTs or 10/100Base-FX Ethernet over 1 E1 link.
Employing Ethernet-over-PDH technique, it allows the transport of native Ethernet frames over the well-established PDH telecommunications infrastructure. This enables carriers to make use of the extensive legacy PDH and TDM equipment to provide new Ethernet-centric services.
It supports flexible configuration if 1 E1 links, auto-detecting the number of E1 and selecting the available channels. It allows certain delay between the E1 link.
The rate of one link is 1980kbps, and 7920kbps for 4 links.
4*10/100BT-4E1 converter uses reverse multiplexing technology to transmit 10/100BaseT data with bonding multi E1 channels, realizing conversion between 4 E1 channels and Ethernet interface. It can transmit signals point-to-point from E1 channel to RJ45 interface to realize connection between E1 channel and Ethernet. Being different from general long-distance bridge, this converter supports flexible configuration of 1 to 4 channels E1 and can detect the number of E1 channel and choose available channel. In the meantime, certain difference of transmitting delay is allowed among E1 channels. Line rate is 1968Kbit/s for one E1 channel and bandwidth can reach 15744Kbit/s for 4 E1 channels. When used in 10/100Mbps half/full duplex mode, this equipment can be connected with Ethernet switch or hub (integrated circuit machine) to expand transmitting distance and application scope of Ethernet by making full use of large number of E1 channels in current telecommunication network. It is an excellent solution for connecting Ethernet broadband. This product can be applied in many fields such as connection of LAN and end offices, video ordering (VOD), remote monitor and E1 interface of switches.
This model adopts inverse multiplexing technology that transmitting 1-4 10/100BaseT over 1~4 E1 links.
Employing Ethernet-over-PDH technique, it allows the transport of native Ethernet frames over the well-established PDH telecommunications infrastructure. This enables carriers to make use of the extensive legacy PDH and TDM equipment to provide new Ethernet-centric services. It can be used for interconnecting Wimax Base Stations and IP exchanges (MSAN & MSAG) de-ployed at remote locations to the aggregation Switches through E1 interface.
It supports flexible configuration if 1~4E1 links, auto-detecting the number of E1 and selecting the available channels.
FE1-ETH is a single port E1/FE1 with Ethernet Bridging that provides high-speed LAN-to-WAN connectivity. Plugging directly into the 10/100Base-T port of a hub or LAN switch, the FE1-ETH provides FE1 access at connection data rates of 2.048 Mbps, and nx64 (n=1 to 32 channels). The FE1-ETH is an excellent choice for internet access as well as LAN-to-LAN services
This model adopts inverse multiplexing technology that transmitting 1-4 10/100BaseTs or 10/100Base-FX Ethernet over 1~8 E1 links.
Employing Ethernet-over-PDH technique, it allows the transport of native Ethernet frames over the well-established PDH telecommunications infrastructure. This enables carriers to make use of the extensive legacy PDH and TDM equipment to provide new Ethernet-centric services.
It supports flexible configuration if 1~8E1 links, auto-detecting the number of E1 and selecting the available channels. It allows certain delay between the multi-E1 links.
The rate of one link is 1980kbps, and 7920kbps for 8 links.
This model adopts inverse multiplexing technology that transmitting 1-4 10/100BaseTs or 10/100Base-FX Ethernet over 1~8 E1 links.
Employing Ethernet-over-PDH technique, it allows the transport of native Ethernet frames over the well-established PDH telecommunications infrastructure. This enables carriers to make use of the extensive legacy PDH and TDM equipment to provide new Ethernet-centric services.
It supports flexible configuration if 1~8E1 links, auto-detecting the number of E1 and selecting the available channels. It allows certain delay between the multi-E1 links.
The rate of one link is 1980kbps, and 7920kbps for 8 links.
This model adopts inverse multiplexing technology that transmitting 10/100BaseTs or 10/100Base-FX Ethernet over 1~16 E1 links.
Employing Ethernet-over-PDH technique, it allows the transport of native Ethernet frames over the well-established PDH telecommunications infrastructure. This enables carriers to make use of the extensive legacy PDH and TDM equipment to provide new Ethernet-centric services.
It supports flexible configuration if 1~16E1 links, auto-detecting the number of E1 and selecting the available channels. It allows certain delay between the multi-E1 links.
The rate of one link is 1980kbps, and 7920kbps for 16 links.
This model adopts inverse multiplexing technology that transmitting 1-4 10/100BaseTs or 10/100Base-FX Ethernet over 1~16 E1 links.
Employing Ethernet-over-PDH technique, it allows the transport of native Ethernet frames over the well-established PDH telecommunications infrastructure. This enables carriers to make use of the extensive legacy PDH and TDM equipment to provide new Ethernet-centric services.
It supports flexible configuration if 1~8E1 links, auto-detecting the number of E1 and selecting the available channels. It allows certain delay between the multi-E1 links.
The rate of one link is 1980kbps, and 7920kbps for 8 links.
This converter provide conversion from 16 lines E1( trunk type) to 10/100M Ethernet. Being widely used in connection between WAN, LAN, monitoring, etc. it is an excellent solution of IP signal transmission and Net extending.
Connecting with 16 FE1/Ethernet converters at the remote end and converging 16 channel E1 to one LAN output port at the local end, it can cut the using number of Switch port and prevent broadcast storm efficiently.
It also can be set to 16 separate FE1/Ethernet converters by setting the SW1 on the 16 service cards.
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