Applications of Bus Topology
- Local Area Networks (LANs): Bus topology was traditionally utilized in Ethernet LANs, mainly in older implementations wherein coaxial cables have been daisy-chained to connect computer systems.
- Industrial Control Systems: In industrial control system, bus topology is frequently used for connecting sensors, actuators, and different devices in distributed manipulate systems.
- Instrumentation Networks: Bus topology is appropriate for connecting devices, meters, and records acquisition gadgets in laboratory or commercial environments.
- Building Automation Systems: Bus topology is employed in building automation and HVAC (heating, ventilation, and air conditioning) structures to attach sensors, thermostats, actuators, and other manage devices.
- Telecommunications Networks: Bus topology has traditionally been utilized in telephone networks and early records transmission systems. However, it has largely been changed by using more superior topologies like mesh or ring for telecommunications applications because of higher fault tolerance and scalability.
Advantages and Disadvantages of Bus Topology
In computer network there are various topologies available. A Bus Topology is one of them. All of the devices in a bus topology network are linked together by a single cable, which is referred to as a “bus” and the cable is known as backbone cable. All of the network’s devices can simultaneously receive the same signal due to the shared communication medium provided by this connection. In this article, we are going to discuss what is bus topology and its various applications, advantages, and disadvantages.