Mux And Demux In Digital Electronics Pdf

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Demultiplexer (Demux)

The action or operation of a demultiplexer is opposite to that of the multiplexer. As inverse to the MUX , demux is a one-to-many circuit. With the use of a demultiplexer , the binary data can be bypassed to one of its many output data lines. Demultiplexers are mainly used in Boolean function generators and decoder circuits. Also, the facility of cascading two or more IC circuits helps to generate multiple output demultiplexers.

Let us get a brief idea of demultiplexers and its types. The process of getting information from one input and transmitting the same over one of many outputs is called demultiplexing. A demultiplexer is a combinational logic circuit that receives the information on a single input and transmits the same information over one of 2n possible output lines. The bit combinations of the select lines control the selection of specific output line to be connected to the input at given instant.

The below figure illustrates the basic idea of demultiplexer , in which the switching of the input to any one of the four outputs is possible at a given instant. Demultiplexers are also called as data distributors, since they transmit the same data which is received at the input to different destinations.

Thus, a demultiplexer is a 1-to-N device where as the multiplexer is an N-to-1 device. It consists of 1 input line, n output lines and m select lines. For example, a 1-to-4 demultiplexer requires 2 22 select lines to control the 4 output lines.

There are several types of demultiplexers based on the output configurations such as , and A 1-to-2 demultiplexer consists of one input line, two output lines and one select line. The signal on the select line helps to switch the input to one of the two outputs. The figure below shows the block diagram of a 1-to-2 demultiplexer with additional enable input. In the figure, there are only two possible ways to connect the input to output lines, thus only one select signal is enough to do the demultiplexing operation.

When the select input is low, then the input will be passed to Y0 and if the select input is high then the input will be passed to Y1. The truth table of a 1-to-2 demultiplexer is shown below in which the input is routed to Y0 and Y1 depends on the value of select input S. In the table output Y1 is active when the combination of select line and input line are active high, i.

From the above truth table, the logic diagram of this demultiplexer can be designed by using two AND gates and one NOT gate as shown in below figure. Then, the data from the input flows to the output line Y1. A 1-to-4 demultiplexer has a single input D , two selection lines S1 and S0 and four outputs Y0 to Y3.

The input data goes to any one of the four outputs at a given time for a particular combination of select lines.

This demultiplexer is also called as a 2-to-4 demultiplexer which means that two select lines and 4 output lines. The truth table of this type of demultiplexer is given below. From the above Boolean expressions, a 1-to-4 demultiplexer can be implemented by using four 3-input AND gates and two NOT gates as shown in figure below. The two selection lines enable the particular gate at a time. So depends on the combination of select inputs, input data is passed through the selected gate to the associated output.

This type of demultiplexer is available in IC form and a typical IC is most commonly used dual 1-to-4 demultiplexer. It has two independent demultiplexers and each DEMUX accepts two binary inputs as select lines and four mutually exclusive active-low outputs.

Both demultiplexers share a common set of selection lines so they are selected in parallel. Also, each demultiplexer consists of enable pin or data input, for one demultiplexer it is active high data input and for other it is active low data input.

The below figure shows the block diagram of a 1-to-8 demultiplexer that consists of single input D, three select inputs S2, S1 and S0 and eight outputs from Y0 to Y7.

It is also called as 3-to-8 demultiplexer due to three select input lines. It distributes one input line to one of 8 output lines depending on the combination of select inputs. The truth table for this type of demultiplexer is shown below. From these obtained equations, the logic diagram of this demultiplexer can be implemented by using eight AND gates and three NOT gates as shown in below figure.

The different combinations of the select lines , select one AND gate at given time , such that data input will appear at a particular output.

A typical IC is a 1-to-8 demultiplexer that consists of latches at three select inputs. The pin out of this IC is given below. When the application requires a large demultiplexer with more number of output pins, then we cannot implement by a single integrated circuit.

In case if more than 16 output pins are needed, then two or more demultiplexer ICs are cascaded to fulfill the requirement. For example, if the application needs 32 output lines from a DEMUX, then we cascade two demultiplexers or three demultiplexers. Therefore, by cascading the two or more demultiplexers, a large demultiplexer can be implemented. Consider the case that a 1-to-8 demultiplexer can be implemented by using two 1-to-4 demultiplexers with a proper cascading. In the above figure, the highest significant bit A of the selection inputs are connected to the enable inputs such that it is complemented before connecting to one DEMUX and to the other it is directly connected.

By this configuration, when A is set to zero, one of the output lines from Y0 to Y3 is selected based on the combination of select lines B and C. Similarly, when A is set to one, based on the select lines one of the output lines from Y4 to Y7 will be selected.

As similar to the multiplexers, demultiplexers are also used for Boolean function implementation as well as combinational circuit design. We can design the demultiplexer to produce any truth table output by correspondingly controlling the select lines. Consider the case for implementing a demultiplexer circuit in order to produce the full subtractor output.

The truth table below shows the output of a full subtractor. And by logically ORing these minterms, the outputs of difference and borrow can be obtained as shown in figure. Since the demultiplexers are used to select or enable the one signal out of many, these are extensively used in microprocessor or computer control systems such as.

If the value is given of D input like Are you mad? Your email address will not be published. Comments Very nice and easy understanding. Awesome Information.

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Skip to search form Skip to main content You are currently offline. Some features of the site may not work correctly. Jha , Anshul Jain Published Low power and high speed digital circuits are basic needs for any of digital circuit; De-multiplexer is a basic circuit for any digital circuit. In this paper demultiplexer has been designed using CMOS, transmission gate pseudo nmos logic. The performance of designs has been compared in terms of power consumption, delay and transistor counts. Save to Library.

Table of Contents. A digital device capable of selecting one input out of its multiple input lines and forwarding it on a common output line is called a multiplexer. In simple Words, It is the reverse of Demultiplexer Demux. Multiplexer has many inputs and single output. Control signals are used for selecting a data line to be sent as output. Each input line is known as a channel.

The action or operation of a demultiplexer is opposite to that of the multiplexer. As inverse to the MUX , demux is a one-to-many circuit. With the use of a demultiplexer , the binary data can be bypassed to one of its many output data lines. Demultiplexers are mainly used in Boolean function generators and decoder circuits. Also, the facility of cascading two or more IC circuits helps to generate multiple output demultiplexers. Let us get a brief idea of demultiplexers and its types.

Mux and demux in digital electronics books pdf

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Again the output line is selected using an address. A multiplexer is a circuit that accept many input but give only one output. Mux demux components im going to disagree with zzbottom. Electronics tutorial about the multiplexer mux and digital multiplexers used in. A 4to1 mux designed with small scale integration ssi.

One of these data inputs will be connected to the output based on the values of selection lines. So, each combination will select only one data input. Multiplexer is also called as Mux. The block diagram of 4x1 Multiplexer is shown in the following figure.

The major factor that differentiates multiplexer and demultiplexer is their ability to accept multiple input and single input respectively. The multiplexer also known as a MUX operates on several inputs but provide a single output. As against demultiplexer also known as DEMUX simply reverses the operation of MUX and operates on single input but transmits the data to multiple outputs.

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4 Response
  1. Edaline C.

    In electronics , a multiplexer or mux ; spelled sometimes as multiplexor , also known as a data selector , is a device that selects between several analog or digital input signals and forwards the selected input to a single output line.

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    Multiplexer : Multiplexer is a data selector which takes several inputs and gives a single output.

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