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Electric Circuit Analysis by K. S. Suresh Kumar

example: 5.5-1
Find the Thevenin’s equivalent and Norton’s equivalent 
of the circuit in Fig. 5.5-5 with respect to terminals
a and b.
Solution
Step-1: Find the open-circuit voltage across a

b
This step may require nodal analysis or mesh 
analysis in general. However, in simple resistive circuits like this, one may use superposition principle 
and solve for the required voltage. The two single-source circuits needed for this are shown in
Fig. 5.5-6.
6 A
a
b


(a)


10 

10 

10 V
+

a
b


(b)


10 

10 

Fig. 5.5-6 
Single-source circuits for finding out contributions to 
open-circuit voltage across 
a–b
Fig. 5.5-5 
Circuit for Example 5.5-1
+
6 A
10 V
a
b





10 

10 



Determination of Equivalents for Circuits with Dependent Sources 
5.25
The contribution to v
oc
from the 6A current source 
=
(
)
(
)
10 5
5
5 10 5 10
6 15
+ ×
+
+ +
× =
V
The contribution to v
oc
from the 10V voltage source 
=
+
+ + +
×
=
10 5
10 5 10 5
10 5V
Therefore, v
oc
=
15


=
20 V.
Step-2: Find Thevenin’s equivalent resistance R
o
The deactivated circuit is shown in Fig. 5.5-7.
The equivalent resistance seen from a

b 
=
(10

5)//(10

5) 
=
7.5
W
Therefore, the Thevenin’s equivalent and Norton’s equivalent (determined by applying source 
transformation on Thevenin’s equivalent) are as shown in Fig. 5.5-8.
Fig. 5.5-7 
The deactivated circuit 
for determining 
R
o
a
b




10 

10 

Fig. 5.5-8 
(a) Thevenin’s 
equivalent and (b) Norton’s 
equivalent in Example 5.5-1
a
b
7.5 

7.5 

+

20 V
(a)
(b)
a
b
8 A
3
Thevenin’s equivalent and Norton’s equivalent are equivalent only as far as the circuit variables in 
the network that is connected across them. They are not equivalents as far as the circuit variables in 
the network they replace are concerned. Whenever we use such equivalents, we agree not to seek any 
information on the circuit variables inside the network that was replaced by equivalent. For instance, 
the power dissipated in R
o 
is not the power actually dissipated in the network that is replaced by 
Thevenin’s equivalent.
Determining R
o
for resistive circuits is easy. Series-parallel equivalents and Star–Delta Transformation 
will help us at that. However, these are not useful in the case of circuits containing dependent sources 
since the deactivated source will still contain them. Special procedures are needed in the case of such 
circuits.

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