Weeks | Topics |
1 |
AC wave shapes and their equations. Instant, average and effective values, frequency, power and power factor consepts.
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2 |
Phasor diagrams of Series and parallel circuits, impedance and atmitance.
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3 |
the application of the thevenin, norton, superposition and kirchoff theorem in AC circuits.
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4 |
Getting the Mess current and the node voltage matrix equations directly and solution of these equations.
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5 |
three-phase ssytems, delta and star connections and their equivalent circuits. Balanced and unbalanced load condition for three phase systems.
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6 |
Graph theory and circuit topology. Getting State tree of the circuit and writting state equations.
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7 |
Analysis of the First and second order circuit in time domen by the state equations.
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8 |
The solution of the state equations by Laplace transformation.
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9 |
Laplace equivalent of the electrical circuits.
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10 |
Circuit theories in Laplace domen; getting Mess current and node voltage matrix equations.
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11 |
The frequency characteristics of the series and prallel circuits.
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12 |
resonant, band width,passive filter and their types.
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13 |
Sinosidal Steady State(SSS) Circuit analysis.
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14 |
Circuit theories in SSS and their applications
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