1 |
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Basic quality parameters related to electricity, Electricity generation, transmission,distribution and consumption chain, |
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2 |
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Duties, Authorities and Responsibilities of Electrical and Electronics Engineers,
Working principles and procedures, International standards, regulations |
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3 |
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Basic concepts about electricity, |
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4 |
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Electrical circuit elements, Series, parallel, complex, star-delta bonding,Kirchoff's laws |
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5 |
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Analysis of simple circuits with resistors, mesh current analysis and nodal voltage
analysis |
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6 |
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Mesh current analysis and nodal voltage analysis, Circuit Theorems-Linearity feature,
Superposition |
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7 |
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Circuit Theorems-Source Transformation, Thevenin and Norton Theorems, Maximum
Power Transfer |
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8 |
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MID-TERM EXAM |
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9 |
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Analysis of circuits with operational amplifiers and resistors |
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10 |
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Capacitor and inductor circuit elements, analysis of first order circuits with capacitors or inductors |
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11 |
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Analysis of first order circuits containing capacitors or inductors |
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12 |
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Sinusoidal steady-state analysis, phasor concept |
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13 |
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Transforming the circuits with sinusoidal source to frequency dimension and applying basic circuit analysis methods in frequency dimension |
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14 |
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Thevenin, Norton, Superposition and Maximum Power theorems in a sinusoidal steadystate. |
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15 |
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Thevenin, Norton, Superposition and Maximum Power theorems in a sinusoidal steadystate. |
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16 |
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FINAL EXAM |
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17 |
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FINAL EXAM |
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