nodal analysis
DESCRIPTION
Nodal Analysis. Objective of Lecture. Provide step-by-step instructions for nodal analysis, which is a method to calculate node voltages and currents that flow through components in a circuit. Chapter 3.2 and Chapter 3.3. Nodal Analysis. - PowerPoint PPT PresentationTRANSCRIPT
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Nodal Analysis
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Objective of LectureProvide step-by-step instructions for nodal
analysis, which is a method to calculate node voltages and currents that flow through components in a circuit.Chapter 3.2 and Chapter 3.3
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Nodal AnalysisTechnique to find currents at a node using
Ohm’s Law and the potential differences betweens nodes.First result from nodal analysis is the
determination of node voltages (voltage at nodes referenced to ground). These voltages are not equal to the voltage dropped
across the resistors.Second result is the calculation of the currents
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Steps in Nodal Analysis
Vin
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Steps in Nodal Analysis
Vin
Pick one node as a reference nodeIts voltage will be arbitrarily defined to be
zero
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Step 1
Vin
Pick one node as a reference nodeIts voltage will be arbitrarily defined to be
zero
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Step 2Label the voltage at the other nodes
Vin
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Step 2Label the voltage at the other nodes
Vin
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Step 3Label the currents flowing through each of
the components in the circuit
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Step 4Use Kirchoff’s Current Law
54
432
6217
IIIII
IIII
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Step 5Use Ohm’s Law to relate the voltages at each
node to the currents flowing in and out of them.Current flows from a higher potential to a
lower potential in a resistor The difference in node voltage is the magnitude of
electromotive force that is causing a current I to flow. RVVI ba
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Step 5We do not write an equation for I 7 as it is equal to I1
656
5545
4434
3533
2322
1211
V0 RVIRVVIRVVIRVVIRVVIRVVI
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Step 6Solve for the node voltages
In this problem we know that V1 = Vin
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Step 7Once the node voltages are known, calculate
the currents.
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From Previous Slides 656
5545
4434
3533
2322
1211
V0 RVIRVVIRVVIRVVIRVVIRVVI
in1
54
432
6217
V
V
IIIII
IIII
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Substituting in Numbers
kVIkVVIkVVIkVVIkVVIkVI
7V01352
9V10
56
545
434
533
322
21
V10 1
54
432
6217
V
IIIII
IIII
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Substituting the results from Ohm’s Law into the KCL equations
kVVkVV
kVVkVVkVV
kVkVVkV
13
352
729V10
5443
435332
5322
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Chugging through the Math
Node voltages must have a magnitude less than the sum of the voltage sources in the circuit
One or more of the node voltages may have a negative sign This depends on which node you chose as your reference node.
Node Voltages (V)V1 10V2 5.55V3 4.56V4 3.74V5 3.46
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Chugging through the MathVoltage across
resistors(V)
VR1 = (V1 – V2) 4.45VR2 = (V2 – V3) 0.990VR3 = (V3 – V5) 1.10VR4 = (V3 – V4) 0.824VR5 = (V4 – V5) 0.274VR6 = (V5 – 0V) 3.46
The magnitude of any voltage across a resistor must be less than the sum of all of the voltage sources in the circuitIn this case, no
voltage across a resistor can be greater than 10V.
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Chugging through More MathCurrents (mA)
I1 495I2 495I3 220I4 275I5 275I6 495I7 495
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CheckNone of the currents should be larger than
the current that flows through the equivalent resistor in series with the 10V supply.
ARI
kR
kkkkkkR
eqeq
eq
eq
m495V10
2.20
713529
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SummarySteps in Nodal Analysis
1. Pick one node as a reference node2. Label the voltage at the other nodes3. Label the currents flowing through each of the
components in the circuit4. Use Kirchoff’s Current Law5. Use Ohm’s Law to relate the voltages at each
node to the currents flowing in and out of them.6. Solve for the node voltage7. Once the node voltages are known, calculate the
currents.