| 1 |
AC Theory |
Sinusoidal waveform: phase, period, frequency, cycle;
Instantaneous, average, square root, peak, peak to peak current values and calculation of these values depending on voltage, current and power;
Triangle/Square waves;
Single/three phase principles. |
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| 2 |
AC Theory |
Sinusoidal waveform: phase, period, frequency, cycle;
Instantaneous, average, square root, peak, peak to peak current values and calculation of these values depending on voltage, current and power;
Triangle/Square waves;
Single/three phase principles. |
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| 3 |
AC Theory
Resistive (R), Capacitive (C) and Inductive (L) Circuits |
Sinusoidal waveform: phase, period, frequency, cycle;
Instantaneous, average, square root, peak, peak to peak current values and calculation of these values depending on voltage, current and power;
Triangle/Square waves;
Single/three phase principles.
Phase relationship of voltage and current in L, C and R circuits, parallel, series and serial parallel;
Power loss in L, C and R circuits;
Impedance, phase angle, power factor and current calculations;
Accurate power, apparent power and reactive power calculations |
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| 4 |
Resistive (R), Capacitive (C) and Inductive (L) Circuits |
Phase relationship of voltage and current in L, C and R circuits, parallel, series and serial parallel;
Power loss in L, C and R circuits;
Impedance, phase angle, power factor and current calculations;
Accurate power, apparent power and reactive power calculations |
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| 5 |
Resistive (R), Capacitive (C) and Inductive (L) Circuits |
Phase relationship of voltage and current in L, C and R circuits, parallel, series and serial parallel;
Power loss in L, C and R circuits;
Impedance, phase angle, power factor and current calculations;
Accurate power, apparent power and reactive power calculations |
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| 6 |
Resistive (R), Capacitive (C) and Inductive (L) Circuits |
Phase relationship of voltage and current in L, C and R circuits, parallel, series and serial parallel;
Power loss in L, C and R circuits;
Impedance, phase angle, power factor and current calculations;
Accurate power, apparent power and reactive power calculations |
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| 7 |
transformers |
Construction and working principles of transformers;
Transformer losses and ways to prevent these losses;
Behaviors of transformers with and without load;
Power transfer, activity polarity markings;
Calculation of line and phase voltage and current;
Power calculation in a three-phase system;
Primary and secondary currents, voltages, turns ratios, power, efficiency;
auto transformers |
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| 8 |
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MID-TERM EXAM |
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| 9 |
transformers |
Construction and working principles of transformers;
Transformer losses and ways to prevent these losses;
Behaviors of transformers with and without load;
Power transfer, activity polarity markings;
Calculation of line and phase voltage and current;
Power calculation in a three-phase system;
Primary and secondary currents, voltages, turns ratios, power, efficiency;
auto transformers |
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| 10 |
transformers
Filters |
Construction and working principles of transformers;
Transformer losses and ways to prevent these losses;
Behaviors of transformers with and without load;
Power transfer, activity polarity markings;
Calculation of line and phase voltage and current;
Power calculation in a three-phase system;
Primary and secondary currents, voltages, turns ratios, power, efficiency;
auto transformers
Operation, application and use of low pass, high pass, band pass and band stop filters |
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| 11 |
Filters
AC Generators |
Operation, application and use of low pass, high pass, band pass and band stop filters
Loop/circuit rotation and generated waveform in magnetic field;
Operation and structure of rotary armature and rotary field type AC generators;
Single-phase, two-phase and three-phase alternators;
Three-phase star and delta connection advantages and uses;
Permanent/Natural Magnet Generators. |
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| 12 |
AC Generators
AC Motors |
Loop/circuit rotation and generated waveform in magnetic field;
Operation and structure of rotary armature and rotary field type AC generators;
Single-phase, two-phase and three-phase alternators;
Three-phase star and delta connection advantages and uses;
Permanent/Natural Magnet Generators.
Structure and working principles of both single-phase and polyphase AC synchronous and induction motors;
Speed control and rotation direction methods;
Rotary field generation methods: capacitor, inductor, shaded or split pole. |
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| 13 |
AC Motors |
Structure and working principles of both single-phase and polyphase AC synchronous and induction motors;
Speed control and rotation direction methods;
Rotary field generation methods: capacitor, inductor, shaded or split pole. |
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| 14 |
AC Motors |
Structure and working principles of both single-phase and polyphase AC synchronous and induction motors;
Speed control and rotation direction methods;
Rotary field generation methods: capacitor, inductor, shaded or split pole. |
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| 15 |
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FINAL EXAM |
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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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