bits
In a bus topology, messages travel along a single central cable, known as the bus, which connects all devices in the network. When a device wants to send a message, it broadcasts the data onto the bus, and the message travels in both directions along the cable. Each device on the network checks the incoming data and accepts the message if it is addressed to it; otherwise, it ignores it. This method allows for efficient communication, but if the bus cable fails, the entire network can go down.
In a bus topology, the terminator serves to absorb signals at the ends of the bus, preventing them from bouncing back along the cable. This helps to eliminate reflections that can interfere with data transmission, ensuring that signals travel smoothly along the bus. Without terminators, data collisions and network errors can occur, leading to unreliable communication. Thus, terminators are essential for maintaining network integrity and performance.
Bus
Controller area network(can) data bus, high speed bus(-) shorted to data bus(+) in short you have a fault in ur system
bus
Internal Bus
The width of a data bus and the amount of data it can physically carry. It relates to how much data a computer can transfer within itself. A simple way of thinking of it is like a motorway. The more lanes there are on the motorway, the more cars can travel on it. A bus in a computer consists of lines of data being transferred around, so the more that can be carried, the faster your computer will go.
Computer
For intercity travel there is an excellent rail network. Within large cities use public transport (metro and/or bus). To get to remote places use bus or car. Ask about family reductions and the like.
Data bus moves data inside your computer. Normal cable moves data external. Data buses are parallel and most network media is serial. Some media is also analog where as the data bus passes data digitally. There are many differences but to be more specific would depend on which 'normal cable' you are referring too.
A fiber optic network is typically the fastest type of network due to its ability to transmit data using light signals, which travel at near the speed of light. Fiber optic networks offer high bandwidth and faster data transfer speeds compared to traditional copper-based networks.
In a bus topology, the purpose of a terminator is to absorb signals at both ends of the bus cable, preventing them from bouncing back and causing network interference. Without terminators, signals could reflect back along the bus, leading to data collisions and communication errors. By ensuring proper signal termination, terminators help maintain the integrity of data transmission across the network.