Wednesday, 27 February 2013

Superposition theorem


Superposition theorem

The Superposition theorem states that if a linear system is driven by more than one independent power source, the total response is the sum of the individual responses.
If the network contains more than one voltage or current source, superposition allows for a solution to be found by considering each voltage or current source separately and then adding the results. To consider each source separately, all other voltage sources are open circuited and all other current sources are short circuited.

EXAMPLE
 Find Vx

Solution

Consider 4V source
Make 2A open circuited and 5V source short circuited then the circuit appears as follows 

 
From the above circuit resistors 2Ω and 5Ω are in parallel
  
Resultant resistance is = ( 2 * 5 ) / (2 + 5) = 10 / 7
Replacing the resultant resistance in the given circuit

Adding 3Ω and 10/7 Ω we get  31/7 Ω

Applying voltage divider rule Vx = V * ( R1/ (R1 + R2 ) we get

Vx = 4 * ( 7 / 38 ) =  28/38 = 0.7368 V
                          Vx = 0.7368 V

Now considering 5V source

Rearranging the above circuit

Applying nodal analysis at node A

Assume node voltage be Va

Va   +  Va  +  Va – 5  = 0
 4         5          2

Solving above equation we get Va = (50 / 19 ) V

Applying voltage division rule

Voltage across 1 Ω resistance = 0.6578 V

If we compare above circuit with given circuit the polarities are opposite to each other.So reverse the sign of voltage across 1 Ω


Therefore Voltage across 1 Ω resistance Vx = ─ 0.6578 V

Now consider 2A current source

From the above circuit 2 Ω and 5 Ω are in parallel

So resultant resistance = (10 / 7) Ω

(10 / 7) Ω and 1Ω are in series then the resultant circuit =  ( 17 / 7 ) Ω

Applying current division rule

Current through desired resistance =  (current * opposite resistance )                                                                                   total resistance
Current through ( 17 / 7 ) Ω resistance = 1.105 A

If we expand ( 17 / 7 ) Ω resistance, we get



Vx = 1* 1.105 = 1.105 V
                                   Vx = 1.105 V


Therefore by superposition theorem voltage across 1 Ω resistance is
   Vx  =  0.7368 ─ 0.6578 V + 1.105

   
                             Vx = 1.184 V


4 Responses to “Superposition theorem”

Unknown said...
26 October 2014 at 15:31

sorry but i think you mean all voltage sources should be replaced by short cicuit and all current sources should be replaced by an open circuit.


Omprakash said...
24 July 2017 at 12:12

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Raghu said...
3 April 2018 at 10:44

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Unknown said...
24 May 2020 at 23:06

You wrote the wrong statement on superposition. In that all independent voltage sources are short circuited and current sources are open circuited instead you wrote it in opposite manner. Thank you.


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