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Electric Circuits and Network Theorems

 


Electric Circuits and Network Theorems

There are certain theorems, which when applied to the solutions of electric networks, wither

simplify the network itself or render their analytical solution very easy. These theorems can also be

applied to an a.c. system, with the only difference that impedances replace the ohmic resistance of

d.c. system. Different electric circuits (according to their properties) are defined below :

1. Circuit. A circuit is a closed conducting path through which an electric current either flows

or is intended flow.

2. Parameters. The various elements of an electric circuit are called its parameters like resistance,

inductance and capacitance. These parameters may be lumped or distributed.

3. Liner Circuit. A linear circuit is one whose parameters are constant i.e. they do not change

with voltage or current.

4. Non-linear Circuit. It is that circuit whose parameters change with voltage or current.

5. Bilateral Circuit. A bilateral circuit is one whose properties or characteristics are the same

in either direction. The usual transmission line is bilateral, because it can be made to perform

its function equally well in either direction.

6. Unilateral Circuit. It is that circuit whose properties or characteristics change with the

direction of its operation. A diode rectifier is a unilateral circuit, because it cannot perform

rectification in both directions.

7. Electric Network. A combination of various electric elements, connected in any manner

whatsoever, is called an electric network.

8. Passive Network is one which contains no source of e.m.f. in it.

9. Active Network is one which contains one or more than one source of e.m.f.

10. Node is a junction in a circuit where two or more circuit elements are connected together.

11. Branch is that part of a network which lies between two junctions.

12. Loop. It is a close path in a circuit in which no element or node is encountered more than once.

13. Mesh. It is a loop that contains no other loop within it. For example,  the circuit of Fig. 2.1 (a)

has even branches, six nodes, three loops and two meshes whereas the circuit of Fig. 2.1 (b) has four branches, two nodes, six loops and three meshes. It should be noted that, unless stated otherwise, an electric network would be assumed passive in the following treatment. We will now discuss the various network theorems which are of great help in solving complicated networks. Incidentally, a network is said to be completely Standard symbols




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