Download Cabletron Systems MT8-MIM Specifications
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Ethernet Media Building Network Coax (BNC) connectors crimp onto a properly prepared cable end with a crimping tool. To prevent signal reflection on the cable, 50 Ohm terminators are used on unconnected cable ends. As with thick coaxial cable, thin coaxial cable allows multiple devices to connect to a single cable. Up to 30 transceivers may be connected to a single length of thin coaxial cable, spaced a minimum of 0.5 meter from one another. This minimum spacing requirement keeps the signals from one transceiver from interfering with the operation of others. The annular rings on the thin coaxial cable are placed 0.5 meter apart, and are a useful guide to transceiver placement. Unshielded Twisted Pair (UTP) Unshielded Twisted Pair cabling (referred to here as UTP, but also may be termed copper wire, 10BASE-T wire, Category 3, 4, or 5 Ethernet wire, telephone cable, or twisted pair without shielded or unshielded qualifier) is commonly made up of two, four, or 25 pairs of 22, 24, or 26 AWG unshielded copper solid or stranded wires. These pairs of wires are twisted together throughout the length of the cable, and are broken up into transmit and receive pairs. In each pair, one wire carries the normal Ethernet transmission, while its associated wire carries a copy of the transmission that has been inverted. Tx+ TxRxRx+ 1845n04 Figure 4-4. UTP Cable Pair Association The twisting of associated pairs helps to reduce the interference of the other strands of wire throughout the cable. This is due to the method of transmission used with twisted pair transmissions. In any transceiver or Network Interface Card (NIC), the network protocol signals to be transmitted are in the form of changes of electrical state. The means by which the ones and zeroes of network communications are turned into these signals is called encoding. In a twisted pair environment, once a transceiver has been given an encoded signal to transmit, it will copy the signal and invert the polarity of that signal (see Figure 4-5). The result of this inverted signal is a mirror opposite of the original signal. Cabling Types 4-5
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