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Ethernet is a wired network technology; the technical standards of Ethernet stipulate the content including physical layer wiring, electronic signals and media access layer protocols, which can be divided into classic Ethernet and switched Ethernet. There are two types of networks, switched Ethernet is presented in the form of Fast Ethernet, Gigabit Ethernet and 10 Gigabit Ethernet respectively.
The operating environment of this tutorial: Windows 10 system, DELL G3 computer.
Ethernet is a wired network technology
Every version of Ethernet has cables The maximum length limit (that is, the length without amplification), signals within this range can be propagated normally, and signals beyond this range will not be propagated.
Ethernet is a computer local area network technology. The IEEE 802.3 standard of the IEEE organization formulates the technical standard of Ethernet, which specifies the content including physical layer wiring, electronic signals and media access layer protocols. Ethernet is the most commonly used LAN technology, replacing other LAN technologies such as Token Ring, FDDI and ARCNET.
Brief introduction
Ethernet is the most common computer network in the real world. There are two types of Ethernet: the first is classic Ethernet, and the second is switched Ethernet, which uses a device called a switch to connect different computers. Classic Ethernet is the original form of Ethernet, operating at speeds ranging from 3 to 10 Mbps; Switched Ethernet is a widely used Ethernet that can run at high rates of 100, 1000 and 10000 Mbps, respectively, with Fast Ethernet Network, Gigabit Ethernet and 10 Gigabit Ethernet. [1]
The standard topology of Ethernet is a bus topology, but Fast Ethernet (100BASE-T, 1000BASE-T standards), in order to reduce conflicts and maximize the network speed and usage efficiency, Use switches for network connectivity and organization. As a result, the topology of Ethernet becomes a star; but logically, Ethernet still uses bus topology and CSMA/CD (Carrier Sense Multiple Access/Collision Detection). bus technology.
Ethernet realizes the idea of multiple nodes of a radio system on the network sending information. Each node must obtain a cable or channel to transmit information, sometimes also called Ether. (The name comes from the electromagnetic radiation medium hypothesized by 19th-century physicists - optical ether. Later research proved that optical ether does not exist.) Each node has a globally unique 48-bit address, which is the MAC address assigned to the network card by the manufacturer. , to ensure that all nodes on the Ethernet can identify each other. Because Ethernet is so common, many manufacturers integrate Ethernet cards directly into computer motherboards.
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Classification and development of Ethernet
Standard Ethernet
At first, Ethernet had only a throughput of 10Mbps and used Carrier Sense Multiple Access/Collision Detection (CSMA/CD) with collision detection. ) access control method, this early 10Mbps Ethernet is called standard Ethernet. Ethernet can be connected using a variety of transmission media such as thick coaxial cables, thin coaxial cables, unshielded twisted pairs, shielded twisted pairs, and optical fibers. In the IEEE 802.3 standard, different specifications are formulated for different transmission media. Physical layer standards. In these standards, the first number indicates the transmission speed, the unit is "Mbps", the last number indicates the length of a single network cable (the reference unit is 100m), Base means "baseband", and Broad means "broadband" .
Fast Ethernet
Before October 1993, for LAN applications requiring data traffic of 10Mbps or above, Only Fiber Distributed Data Interface (FDDI) is available, but it is a very expensive LAN based on 100Mpbs optical cable. In October 1993, Grand Junction Company launched the world's first Fast Ethernet hub Fastch10/100 and network interface card FastNIC100, marking the official application of Fast Ethernet technology. At the same time, the IEEE802 engineering group has also conducted research on various standards for 100Mbps Ethernet, such as 100BASE-TX, 100BASE-T4, MII, repeaters, full-duplex and other standards. In March 1995, IEEE announced the IEEE802.3u 100BASE-T Fast Ethernet standard (Fast Ethernet), thus beginning the era of Fast Ethernet. Fast Ethernet has many advantages compared with the original FDDI that works at 100Mbps bandwidth. The most important thing is that Fast Ethernet technology can effectively protect users’ investment in cabling infrastructure. It supports Category 3, 4, and 5 dual The connection of twisted wires and optical fibers can effectively utilize existing facilities. The shortcomings of Fast Ethernet are actually shortcomings of Ethernet technology. That is, Fast Ethernet is still based on CSMA/CD technology. When the network load is heavy, it will cause a decrease in efficiency. Of course, this can be compensated for by using switching technology. The 100Mbps Fast Ethernet standard is divided into three subcategories: 100BASE-TX, 100BASE-FX, and 100BASE-T4.
Gigabit Ethernet
10 Gigabit Ethernet
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