9.1.1 Serial and parallel transmission

    Cards (71)

    • What is serial transmission?
      Data bits sent sequentially
    • Serial transmission requires fewer wires than parallel transmission.
    • Serial transmission has a slower transmission speed compared to parallel transmission.
    • Why is serial transmission effective over long distances?
      Timing is less critical
    • Serial transmission is commonly used in USB connections.
    • What are the two main types of serial transmission?
      Synchronous and asynchronous
    • Synchronous transmission uses a shared timing clock to synchronize data.
    • Asynchronous transmission uses start and stop bits to frame each byte.
    • In which applications is asynchronous transmission often used?
      Keyboards and modems
    • Serial transmission requires fewer wires than parallel transmission.
    • What is the speed comparison between serial and parallel transmission?
      Lower for serial
    • Parallel transmission is effective over long distances.
      False
    • Synchronous transmission relies on a shared timing clock for synchronization.
    • Which bit signals the beginning of a byte in asynchronous transmission?
      Start bit
    • In asynchronous transmission, each byte is framed by a start bit and a stop bit.
    • Synchronous transmission requires a constant data stream without gaps.
    • Provide an example where synchronous transmission is used.
      Video streaming
    • Parallel transmission sends multiple bits simultaneously over several wires.
    • What is a disadvantage of parallel transmission over long distances?
      Timing skew
    • In which internal computer components is parallel transmission commonly used?
      Hard drives and RAM
    • Parallel transmission offers higher speed but requires more complex wiring than serial transmission.
    • What is parallel transmission?
      Multiple bits over multiple wires
    • Parallel transmission offers high-speed data transfer.
    • Timing skew in parallel transmission makes it less effective over long distances
    • Where is parallel transmission commonly used?
      Internal computer components
    • Serial transmission sends bits one by one over a single wire.
    • Serial transmission has a lower speed compared to parallel transmission.
    • What is the primary difference between serial and parallel transmission in terms of wiring?
      Single wire vs multiple wires
    • Serial transmission is effective over long distances because timing is less critical.
    • What are the two methods of serial transmission?
      Synchronous and asynchronous
    • Asynchronous transmission uses start and stop bits for synchronization.
    • Video streaming is an example of synchronous serial transmission.
    • Why is parallel transmission less effective over long distances?
      Timing skew
    • Parallel transmission sends multiple bits simultaneously over several wires.
    • Parallel transmission uses multiple wires, whereas serial transmission uses only one.
    • What are the key differences between serial and parallel transmission in terms of bit transmission?
      One by one vs simultaneously
    • Serial transmission requires fewer wires, reducing cost and complexity.
    • Serial transmission has lower speed compared to parallel transmission.
    • What are some examples of serial transmission use cases?
      USB and Ethernet networks
    • Parallel transmission offers high-speed data transfer because multiple bits are sent simultaneously.