What is Bus Topology ? What are Bus topology advantages and disadvantages?

 

Bus Topology

What is Bus Topology ?
What is Bus Topology ? 

  •  is multipoint. 
  • One long cable acts as a backbone to link all the devices in a network .
  • Nodes are connected to the bus cable by drop lines and taps.
  • A drop line is a connection running between the device and the main cable.
  • A tap is a connector that either splices into the main cable or punctures the sheathing of a cable to create a contact with the metallic core.
 As a signal travels along the backbone, some of its energy is transformed into heat. 
Therefore, it becomes weaker and weaker as it travels farther and farther. 
For this reason there is a limit on the number of taps a bus can support and on the distance between those taps.

What are Bus topology advantages and disadvantages?
What are the advantages of a Bus network ( topology) ?

Advantages of Bus topology :
Advantages of a bus topology include
  • ease of installation.
  •  Backbone cable can be laid along the most efficient path, then connected to the nodes by drop lines of various lengths.
What is the difference between star topology , mesh topology and bus topology?
  • In this way, a bus uses less cabling than mesh or star topologies.
  •  In a star, for example, four network devices in the same room require four lengths of cable reaching all the way to the hub.
  • In a bus, this redundancy is eliminated. Only the backbone cable stretches through the entire facility.
  • Each drop line has to reach only as far as the nearest point on the backbone.
What are the Disadvantages of a Bus network ( topology) ?
Disadvantages of Bus topology :
Disadvantages include :
  • difficult reconnection and fault isolation.
  • A bus is usually designed to be optimally efficient at installation.
  •  It can therefore be difficult to add new devices.
  • Signal reflection at the taps can cause degradation in quality.
    • This degradation can be controlled by limiting the number and spacing of devices connected to a given length of cable.
  • Adding new devices may therefore require modification or replacement of the backbone.
  • In addition, a fault or break in the bus cable stops all transmission, even between devices on the same side of the problem.
  • The damaged area reflects signals back in the direction of origin, creating noise in both directions.
Note :
Bus topology was the one of the first topologies used in the design of early local area networks. Traditional Ethernet LANs can use a bus topology. 



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