circuit theorems elec 202 electric circuit analysis ii
TRANSCRIPT
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Circuit TheoremsCircuit TheoremsELEC 202
Electric Circuit Analysis II
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Superposition PrincipleSuperposition Principle
The voltage across or current through an element in a linear circuit with multiple independent sources can be determined as the algebraic sum of such voltages or currents due to each source acting alone one at a time.
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ObservationsObservations
The total response (voltage or current) is the sum of the responses contributed by each independent source separately.
Superposition cannot be used for calculating POWER (not a linear quantity).
Voltage source is turned off or deactivated by replacing it with a short circuit.
Current source is turned off or deactivated by replacing it with an open circuit.
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ObservationsObservations
Dependent sources are left intact.The response due to each active source
can be determined by using basic circuit analysis laws and techniques (Ohm’s, KVL, KCL, voltage and current divider, and series/parallel combinations.)
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Superposition for AC Circuits Superposition for AC Circuits Usual procedures for DC circuits apply.However, phasor transformation must be
carefully carried out if the circuit has sources operating at different frequencies
a different phasor circuit for each source frequency because impedance is
a frequency-dependent quantity.
inductor a short circuit for DC capacitor an open circuit for DC
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Superposition for AC Circuits Superposition for AC Circuits For sources of different frequencies, the
total response must be added in the time domain
DO NOT ADD INDIVIDUAL RESPONSES IN THE PHASOR DOMAIN IF THE SOURCES HAVE DIFFERENT FREQUENCIES.
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Example 1
Find I0 in the circuit using superposition.
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Example 1 (cont’d)
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Example 1 (cont’d)
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Example 2
Find v0 in the circuit using superposition.
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Example 2 (cont’d)
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Example 2 (cont’d)
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Example 2 (cont’d)
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Thevenin and NortonEquivalent CircuitsThevenin’s and Norton’s Theorems can be
used to analyze AC circuits in the same way as in the analysis of DC circuits.
3 cases of interest: a) independent sources only, no
dependent sources; b) both independent and dependent
sources; c) dependent sources only, no
independent sources;
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Thevenin Equivalent Circuits
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Norton Equivalent Circuits
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Example 1Obtain the Thevenin equivalent circuit atterminals a-b.
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Example 1 (cont’d)
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Example 1 (cont’d)
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Example 2
Obtain the Thevenin equivalent circuit atterminals a-b.
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Example 2 (cont’d)
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Example 2 (cont’d)
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Example 3
Obtain current Io using Norton’s theoremat terminals a-b.
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Example 3 (cont’d)
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Example 3 (cont’d)
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Example 3 (cont’d)