no slide titlewebpages.iust.ac.ir/nayyeri/courses/bee/lecture_4.pdf · 3. if the circuit contains...
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Voltage Division
total
321
111 v
RRR
RiRv
total
321
222 v
RRR
RiRv
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V5.1
156000200010001000
1000
total
4321
11
v
RRRR
Rv
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Current Division
total
21
2
1
1 iRR
R
R
vi
total
21
1
2
2 iRR
R
R
vi
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Position Transducers Based on the Voltage-
Division Principle
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Although they are very
important concepts,
series/parallel equivalents and
the current/voltage division
principles are not sufficient to
solve all circuits.
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• Selecting the Reference Node
• Assigning Node Voltages
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• Finding Element Voltages in Terms of the
Node Voltages
• Writing KCL Equations in Terms of the
Node Voltages
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svv 1
03
32
4
2
2
12
R
vv
R
v
R
vv
03
23
5
3
1
13
R
vv
R
v
R
vv
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02
21
1
1
siR
vv
R
v
04
32
3
2
2
12
R
vv
R
v
R
vv
siR
vv
R
v
4
23
5
3
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Circuit Equations in Standard Form
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A Shortcut to Writing the Matrix Equations
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Circuits with Voltage Sources
A circuit contains a single voltage source
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A circuit contains multiple voltage sources
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0
1515
3
2
4
2
1
1
2
1
R
v
R
v
R
v
R
v
2 1 10v v
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First, we write KCL equations at each node, including the current of the
controlled source just as if it were an ordinary current source.
Node-Voltage Analysis with a Dependent Source
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Next, we find an expression for the controlling variable ix in terms of
the node voltages.
3
23
R
vvix
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Node-Voltage Analysis
1. Select a reference node and assign variables voltages. If the reference node
is for the unknown node chosen at one end of an independent voltage
source, one node voltage is known at the start, and fewer need to be
computed.
2. Write network equations. First, use KCL to write current equations for nodes
and supernodes. Write as many current equations as you can without using
all of the nodes. Then if you do not have enough equations because of
voltage sources connected between nodes, use KVL to write additional
equations.
3. If the circuit contains dependent sources, find expressions for the controlling
variables in terms of the node voltages. Substitute into the network
equations, and obtain equations having only the node voltages as unknowns.
4. Put the equations into standard form and solve for the node voltages.
5. Use the values found for the node voltages to calculate any other currents or
voltages of interest.
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Circuit Equations in Standard Form
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If a network contains only resistances and independent voltage
sources, we can write the matrix form directly
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Mesh Currents in Circuits Containing
Current Sources
A common mistake made by beginning students is to assume that the voltages
across current sources are zero.
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Combine meshes 1 and 2 into a supermesh.
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Circuits with Controlled Sources
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026420 221 iii
124
iivx
22ivx
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Mesh-Current Analysis
1. If necessary, redraw the network without crossing conductors or elements.
Then define the mesh currents flowing around each of the open areas
defined by the network. For consistency, we usually select a clockwise
direction for each of the mesh currents, but this is not a requirement.
2. Write network equations, stopping after the number of equations is equal to
the number of mesh currents. First, use KVL to write voltage equations for
meshes that do not contain current sources. Next, if any current sources are
present, write expressions for their currents in terms of the mesh currents.
Finally, if a current source is common to two meshes, write a KVL equation
for the supermesh.
3. If the circuit contains dependent sources, find expressions for the controlling
variables in terms of the mesh currents. Substitute into the network
equations, and obtain equations having only the mesh currents as unknowns.
4. Put the equations into standard form. Solve for the mesh currents by use of
determinants or other means.
5. Use the values found for the mesh currents to calculate any other currents or
voltages of interest
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Thévenin Equivalent Circuits
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ocvVt
sc
oc
i
vRt
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Find the Thévenin equivalent circuit for the circuit shown below.
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Finding the Thévenin Resistance
Directly
We can find the Thévenin resistance by zeroing the
sources in the original network and then computing the
resistance between the terminals.
If a network contains no dependent sources
When zeroing a voltage source, it becomes a short circuit.
When zeroing a current source, it becomes an open circuit.
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Find the Thévenin resistance for the circuit shown in Figure 2.46(a) by
zeroing the sources. Then, find the short-circuit current and the Thévenin
equivalent circuit
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Thévenin Equivalent of a Circuit with a
Dependent Source
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Norton Equivalent Circuits
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How to find In?
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Step-by-step Thévenin/Norton-
Equivalent-Circuit Analysis
1. Perform two of these:
• Determine the open-circuit voltage Vt = voc.
• Determine the short-circuit current In = isc.
• Zero the sources and find the Thévenin resistance Rt
looking back into the terminals.
2. Use the equation Vt = Rt In to compute the remaining value.
3. The Thévenin equivalent consists of a voltage source Vt in
series with Rt .
4. The Norton equivalent consists of a current source In in
parallel with Rt .
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Source Transformations
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Maximum Power Transfer
The load resistance that absorbs the maximum power from
a two-terminal circuit is equal to the Thévenin resistance.
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• The superposition principle states that any response in a
linear circuit is the sum of the responses for each
independent source acting alone with the other
independent sources zeroed.
• When zeroed, current sources become open circuits
and voltage sources become short circuits.
nT rrrr 21
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The superposition principle does not apply to any circuit that
has element(s) described by nonlinear equation(s).
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The Wheatstone bridge is used by mechanical and civil
engineers to measure the resistances of strain gauges in
experimental stress studies of machines and buildings.