IEEE 802.3: Difference between revisions
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'''IEEE 802.3''' is a working group of the [[IEEE]], which produces technical standards in the technology family generically called [[Ethernet]]. Originally, the 802.3 scope was limited to [[local area network]]s using [[carrier sense multiple access with collision detection]] (CSMA/CD) [[medium access control]], but some of the later projects still use things such as the original [[frame]] format, but operate on media where CSMA/CD is irrelevant. | '''IEEE 802.3''' is a working group of the [[IEEE]], which produces technical standards in the technology family generically called [[Ethernet]]. Originally, the 802.3 scope was limited to [[local area network]]s using [[carrier sense multiple access with collision detection]] (CSMA/CD) [[medium access control]], but some of the later projects still use things such as the original [[frame]] format, but operate on media where CSMA/CD is irrelevant. | ||
Revision as of 05:02, 17 March 2024
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IEEE 802.3 is a working group of the IEEE, which produces technical standards in the technology family generically called Ethernet. Originally, the 802.3 scope was limited to local area networks using carrier sense multiple access with collision detection (CSMA/CD) medium access control, but some of the later projects still use things such as the original frame format, but operate on media where CSMA/CD is irrelevant. In the process of standardization, some improvements, generally backward compatible with DIX Ethernet, were made in the specification. The 802.3 committee, however, has remained active, building on the original Ethernet work but creating literally dozens of standards for communications systems undreamed-of by the original inventors. That which is called "Wireless Ethernet" actually comes from IEEE 802.11, with the "WiMax" variant from IEEE 802.16. DIX EthernetThe original 802.3 specifications specified a physical medium and means of connection to it, as well as a medium access control (i.e., a subset of data link protocol. There were variants:
Additional modes operated in a "broadband" mode as a modulated radio frequency signal on cable television distribution systems, and with optical signaling on optical able. All of these variants had a data rate of 10 megabits per second (Mbps). Physical aspects10BASE5Originally, the medium was a specified coaxial cable with a maximum length of 500 meters. A resistor terminator was connected at each end. This main cable was semirigid, and really could not be bent into a sufficiently flexible shape to connect directly to the computers. To allow the necessary flexibility in computer connection, there were two means of making the actual cable connection:
From the tap, for which the more modern term is medium-dependent interface (MDI), a coaxial drop cable ran to another box called a transceiver. The transceiver had two connectors, one for the coaxial drop cable, and the other a 15-pin "D-subminiature" type connected to an attachment unit interface (AUI) cable made up of twisted pairs of copper wire, not coaxial cable. The D-subminiature connector had two rows of pins arranged in a trapezoidal form, and a means of fastening it to the transceiver and to the computer's AUI interface. While the original connector called for a "slide latch" that required no tools to fasten, the slide latch was extremely unreliable in practice, and probably received almost as many foul oaths from installation engineers than it received bits from the computer. While the standard never changed, the usual fasteners were machine screws. 10BASE2This variant also used coaxial cable, but a thinner and more flexible version that could run into offices and use a T-connector to interface to a local computer. Typically, the cable appeared on a wall plate with an upstream and downstream side. When no computer was in the room, continuity was kept with a jumper cable between the two. If a computer was in the room, a T-connector would be inserted between upstream and downstream, and a length of coaxial cable run to the computer, which had a matching connector. Separate transceivers were generally not used, unless the computer only had an AUI interface. In those cases, a T-connector was still used, but the "drop cable" from the T-connector went to the transceiver, not the computer. 10BASET10BaseT was a radical change from the shared coaxial cable medium, as it assumed point-to-point wiring with much cheaper, more flexible twisted-pair copper wire, which connected to either a multiport repeater that combined them into an effectively shared medium, or to ports of a bridge (computers) or router. 10BaseT uses RJ45 snap-in plastic connectors. Medium access controlContention for the medium was minimized, and resolved when it occurred, using carrier sense multiple access with collision detection (CSMA/CD) technology. In very simplified terms, the transceiver would not transmit as long as it detected a transmission in progress. If it sensed a clear line, it would transmit, but continued to monitor the line to detect if another device had simultaneously sensed a clear line and started to transmit, causing a collision. CSMA/CD then provided mechanisms for detecting the collision and breaking a tie among the devices waiting to transmit. Once bits could be transmitted, the 802.3 frame was sent, which had several fields; all lengths of which are specified in 8-bit bytes:
The need for 802.2Since the field previously used to identify the payload was now used for length, the IEEE 802.2 Logical Link Control protocol was introduced. An 802.2 header would be either 3 or 8 bytes long, and occupy the start of the data field, causing the actual maximum number of data that could be sent to be 1497 or 1492 bytes. 802.3 extensionslist to be provided |