Synchronous transmission describes the process of transmitting data between two devices where both devices are coordinated. Unlike asynchronous transmission where data is sent one bit at a time, synchronous transmission involves sending data in continuous streams. To establish synchronization, the transmitting device sends specific codes to the receiving device.
One of the most common applications of synchronous transmission is conversion of asynchronous signals from a computer’s serial port to synchronous signals for transmission over a network. This is made possible by modems which can transmit data at 1,200 bits per second (bps) or higher.
FAQs About Synchronous Transmission
What other applications utilize synchronous transmission?
Other applications of synchronous transmission include telecommunications, networking, and data storage systems. It provides efficient and reliable movement of large volumes of data between multiple devices.
How does synchronous transmission differ from asynchronous transmission?
While asynchronous transmission sends data one bit at a time and does not require synchronization between the devices, synchronous transmission sends data in continuous streams and requires both devices to be coordinated.
In summary, synchronous transmission is a reliable and efficient way of transmitting data between devices that require coordination. Its applications continue to be useful in various fields such as telecommunications, networking, and data storage systems.