Ethernet Technologies

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(10Mbps Ethernet)
(10Mbps Ethernet)
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All 10-Mbps forms of Ethernet take octets received from the MAC sublayer and perform a process called '''line encoding'''. This process describe how the bits actually are signaled on the wire.
All 10-Mbps forms of Ethernet take octets received from the MAC sublayer and perform a process called '''line encoding'''. This process describe how the bits actually are signaled on the wire.
[[Image:10Mbps_Ethernet.JPG |frame|left|Legacy Ethernet Operations common to 10BASE5, 10BASE2, 10BASE-T ]]<br><br><br><br><br><br><br><br><br><br><br><br><br><br>
[[Image:10Mbps_Ethernet.JPG |frame|left|Legacy Ethernet Operations common to 10BASE5, 10BASE2, 10BASE-T ]]<br><br><br><br><br><br><br><br><br><br><br><br><br><br>
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==10BASE5==
==10BASE5==

Revision as of 00:50, 6 March 2006

MEDIUM

Maximum Theoretical Bandwith Maximum Physical Distance
       
50-ohm coaxial cable 10 BASE2(Ethernet,Thinnet) 10 Mbps 185 m
50-ohm coaxial cable 10 BASE5 (Ethernet,Thicknet) 10 Mbps 500 m
Category 5 UTP 10 BASE-T(Ethernet) 10 Mbps 100 m
Category 5 UTP 100 BASE-TX (Ethernet) 100 Mbps 100 m
Category 5 UTP 1000 BASE-TX(Ethernet) 1000 Mbps 100 m
Multimode optical fiber 100 BASE-FX (62.5/125 um) 100 Mbps 2000 m
Multimode optical fiber 1000 BASE-SX(62.5/125 um) 1000 Mbps 220 m
Multimode optical fiber 1000 BASE-SX (50/125 um) 1000 Mbps 550 m
Single Mode optical fiber 1000 BASE-LX(9/125 um) 1000 Mbps 5000 m

Contents

10Mbps Ethernet

10BASE5, 10BASE2, 10BASE-T implementations of Ethernet are considered legacy implementations. Four things are common among legacy Ehternet: Timing parameters, Frame format, Transmission porcess, Basic design rule. The transmission process of legacy Ethernet is identical until the lower part of the OSI Physical Layer As the frame passes from the MAC sublayer to the physical layer, futher processes occur before the bits are placed on the medium from the physical layer. One known process at this level is the signal quality error (SQE) All 10-Mbps forms of Ethernet take octets received from the MAC sublayer and perform a process called line encoding. This process describe how the bits actually are signaled on the wire.

Legacy Ethernet Operations common to 10BASE5, 10BASE2, 10BASE-T















10BASE5

10BASE5 transmitted 10Mbps over a single thick coaxial cables thus giving the name of Thicknet

  • First medium used for Ethernet
  • Part of the original 802.3 standard
  • Inexpensive and do not required configuration(no needs for hubs to extend the length of systems)
  • Technologoy is very sensitive to signal reflections
  • Cable-dependent across the whole collision domain and it represents a large single point of failure.
  • 10BASE5 uses Manchester-encoded signals.
  • Other specifications or limitations are:
  • Only one station can transmit at a time (collision will occur)
  • 10Base5 can run only in half-duplex mode (subject to CSMA/CD rules)
  • 100 stations & including repeaters can exist on any individual 10Base5 segment.

10BASE2

Introduced in 1985 and because of its smaller size, lighter wight, and greater flexibility ,it was easier to install than 10BASE5 because of its thinner cable is was known as Thinnet.

  • Also know as 802.3a
  • Still exist in legacy networks
  • Low cost and lack of need for hubs are attractive
  • The computer were linked together bu a series of coaxial cables. These cables were attached by BNC connectors to a t-Shape connector on the NIC.
  • Because all the computers were attached to a single cable this type of design was a bus designed.

10BASE-T

  • Included in the (802.3i) standard in 1990
  • Plugged into a central connection, hub or switch, that contained the shared bus.
  • Originally half duplex protocol, full duplex feature was added later.
  • 10Base-T uses Cat 3, Cat 5, Cat 5e over UTP cable
  • Can be runned with T568A or T568B cable pinout arrangement.
  • 10Base-Network are alive with a Link Pulse.

100Mbps Ethernet

100Mbps Ethernet
Also knows as Fast Ethernet is a series of technologies including 100Base-TX & 100Mbps-FX.

Commonalities between these two technologies and their difference:

  • Timing parameters
  • Frame format
  • Parts of the transmission process.

Fast Ethernet increase speed of the transmission but it requires extra requirements. The bits being sent get shorter in duration and they are sent more frequently. The tranmission requires more careful timing, trasmission needs frequencines closer to bandwith limitations and it becomes more susceptible to noise.

100 BASE-TX

1000 BASE-TX

100 BASE-FX

Introduced, as part of the 802.3u-1995, at the same time as the copper version of Fast Ethernet.

  • Introduced for backbones applications(between floor & buildings)
  • Alternative to the then popular FDDI
  • Signals are LED pulses on multimode optical fiber.
  • Gigabit Ethernet (copper) is responsible for the lack of adoption on 100BASE-FX
  • 100BASE FX is synchronous.

1000 BASE-SX

1000 BASE-SX

==1000 BASE-LX==

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