5.22
Circuit Theorems
network. The network interacts with the external
world only through this pair of terminals. No
parameter inside the circuit changes, but different
load networks may get connected to the circuit at
its output terminals. Assume that an independent
voltage source of source function
v(
t) is connected
across the output terminals of the network. With
no loss of generality, we assume further that the
voltage source negative terminal is taken,
i.e.,
a´
, as the reference node for writing the node equations
of the circuit. We are interested in
the behaviour of the current i(
t) delivered by the circuit to the
terminating voltage source versus the source function
v(
t).
We remember that any circuit variable in a linear circuit can be expressed as a linear combination
of all the
independent source functions in the circuit. Hence,
i(
t) in this circuit can be expressed as
i t
a v t
a v t
a v
t
b i t
b i t
s
s
n
sn
s
s
v
v
( ) [(
( )
( )
( )) (
( )
( )
=
+
+ +
+
+
+
1
1
2
2
1 1
2 2
+
+
b i
t
a v t
n sn
o
i
i
( ))]
( )
This current has two components – one contributed by all independent current and voltage sources
within the circuit and the second contributed by the independent voltage source connected from
outside,
i.e., v(
t). The functions
v
s1
(
t) … represent the source functions of independent voltage sources
within the circuit and the functions
i
s1
(
t) … represent the source functions of independent current
sources within the circuit.
n
v
and
n
i
are the number of independent voltage and current sources within
the circuit. The contribution coefficients
a
o
,
a
1
,
a
2
, … and
b
1
,
b
2
, … are determined by the circuit
parameters. They may be found by node analysis or mesh analysis.
The source functions and contribution coefficients are fixed once and for all by the circuit and the
only aspect of the circuit that can change is the network that gets connected at the output terminals.
Hence we may represent the terms within the square brackets
in the expression for i(
t) as a fixed
function of time that does not depend on what is connected at the output and term it as
i
sc
(
t).
∴
=
+
=
+
=
=
∑
i t
i t
a v t
i t
a v t
b i t
sc
o
sc
i si
i
n
i si
i
v
( )
( )
( )
( )
( )
( )
where
1
11
n
i
∑
(5.5-1)
This equation can be interpreted in an interesting manner if
a
o
can be written as –
G
o
. The number
a
o
can be obtained by finding out the current
delivered to the voltage source when all the independent
sources are set to zero. If the circuit contains only resistors, then the current will actually be delivered
to the circuit, and hence
a
o
will be a negative number, making
G
o
a positive number. The possibility
of
a
o
assuming a positive value does exist if there are dependent sources within the circuit. Therefore,
G
o
is positive
for a purely resistive network, whereas it could be negative for a circuit containing
dependent sources.
∴
=
−
i t
i t
G v t
sc
o
( )
( )
( )
(5.5-2)
This equation suggests that
i(
t)
behaves as if it is
coming from an independent current source of source
function
i
sc
(
t) that is in parallel with a resistance of
R
o
=
1/
G
o
(see Fig. 5.5-2)
How
do we get the source function i
sc
(
t)?
i(
t)
=
i
sc
(
t)
when
v(
t)
=
0. Therefore, we can find
i
sc
(
t) by finding out
Fig. 5.5-2
A circuit that follows
Eqn. 5.5-2
R
o
v
(
t
)
i
(
t
)
G
o
v
(
t
)
i
sc
(
t
)
a
a
–
+
Fig. 5.5-1
A memoryless network
terminated
in a voltage source
at its output terminals
Linear memoryless
circuit with many
independent and
dependent
sources
i
(
t
)
v
(
t
)
a
a
–
+
Thevenin’s Theorem and Norton’s Theorem
5.23
the current that flows out into a short-circuit that is put across its output. This is the reason why we
used ‘sc’ as the subscript for this current source function.
Further, how do we find out the value of
R
o
? If we can reduce
i
sc
(
t) to zero and apply a non-zero
v(
t),
the ratio of current drawn from
v(
t) to
v(
t) will be
R
o
. We can reduce
i
sc
(
t) to zero by deactivating all the
independent sources within the circuit. Thus, we see that,
R
o
is nothing but the equivalent resistance
of the deactivated
network from terminals
Do'stlaringiz bilan baham: 
