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What Is a Data Transceiver?

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  • Written By: Malcolm Tatum
  • Edited By: Bronwyn Harris
  • Last Modified Date: 07 November 2016
  • Copyright Protected:
    2003-2016
    Conjecture Corporation
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A data transceiver is a type of device that makes it possible to both transmit and receive data through the function of that single device. Like all types of transceivers, this particular device is configured to allow easy transmission and reception of data at high speeds, making it ideal for sending and receiving information without a great deal of delay. A data transceiver will often have the ability to convert digital data into an analog signal as part of the process, making it possible to allow interaction between a wider range of equipment types.

The main purpose of a data transceiver is to provide a seamless transfer of information between two or more points. In order to accomplish this task, the transceiver will process data as it is released, qualify the data for reception, and then finally deliver the data to the recipient. Depending on the degree of processing that is necessary to manage the successful delivery, there may be a slight delay that usually amounts to no more that a second or so. For example, if there is a need to convert analog data into a digital format in order to complete the exchange, this may take slightly longer than if all the points involved in the data exchange are utilizing the same type of signaling.

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As with all types of transceivers, the data transceiver offers the benefit of doing away with the need to employ some type of transmission device along with a receiver. Since the same device manages both functions, this means a more streamlined movement of the data from a point of origin to a point of termination. Assuming that the speed of the data stream and the capacity of the transceiver are in sync, the communication of the data may almost appear to take place in real time, since the slight lag will be imperceptible to the parties involved in the exchange. The end result is the exchange of data without any loss of integrity, making the tasks of sharing and receiving information quick, easy, and secure.

A data transceiver is often configured to manage the transmission and receipt of data as part of a larger communication process. This means that both voice and data communications can take place simultaneously without affecting the quality of either exchange. In a world that increasingly relies on secure and efficient data exchanges for conducting business between remote locations, the function of the data transceiver can be an important component in the quality of that exchange.

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