# M2/KIT Alternating Current (AC) Circuits Kit

## INNOVATIVE SYSTEMS

With Alternating Current (AC) Circuits Kit, "M2/KIT", designed by EDIBON, you can start to study the basic principles in alternating current.

See general description

## General Description

With Alternating Current (AC) Circuits Kit, "M2/KIT", designed by EDIBON, you can start to study the basic principles in alternating current.

## Exercises and guided practices

### GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

Alternating signal characteristics. Instruments:

1. Waveforms study in AC.
2. Faults study of F1 in the circuit#1 (Waveform circuit).
3. Faults study of F2 in the circuit#1 (Waveform circuit).
4. Relation between peak values and RMS for sinusoidal waves.
5. Resistance in a sinusoidal alternating current.
6. Measurements using the oscilloscope.
7. Voltage and current phase angles for resistors in sinusoidal alternating current.
8. Sinusoidal AC resistors in series.
9. Sinusoidal AC resistors in parallel.
10. Theoretical/practical exercises.

Behaviour of AC capacitors and inductors:

1. Capacitance with square waveform and sinusoidal input current.
2. Inductance with square waveform and a sinusoidal input voltage.
3. Reactive reactance, Xc, variations with the frequency.
4. Faults study in capacitors.
5. Reactive capacitance variations with the capacitance.
6. AC capacitors in parallel.
7. AC capacitors in series.
8. AC capacitors as voltage dividers.
9. Inductance in an AC circuit.
10. Inductive reactance variations with the inductance.
11. Inductors in series in an AC circuit.
12. Theoretical/practical exercises.

Basic theorems and capacitance and inductance circuits:

1. AC Resistor-Capacitor circuits in series.
2. AC Resistor-Capacitor circuits in parallel.
3. AC Resistor-Inductor circuits in series.
4. Study of Fault 1 in the Reactive mixed circuits.
5. Study of Fault 2 in the Reactive mixed circuits.
6. AC Resistor-Inductor circuits in parallel.
7. Theoretical/practical exercises.

RLC Circuits:

1. Resistance-Capacitance Filters.
2. Filters inductive resistance.
3. Theoretical/practical exercises.

Resonance:

1. AC L-C Circuits in parallel with low impedance source.
2. Faults study of F1 in the resonance circuit.
3. Faults study of F2 in the resonance circuit.
4. AC L-C Circuits in parallel with high impedance source.
5. Circuit frequency response and bandwidth.
6. AC R-L-C circuits in series.
7. Theoretical/practical exercises.

The transformer:

1. Intermediate Frequency Transformers.
3. Current measurement in the secondary transformer with charge.
4. Theoretical/practical exercises.

### MORE PRACTICAL EXERCISES TO BE DONE WITH THE UNIT

1. Several other exercises can be done and designed by the user.