Electronic Design

This project focuses on Electrical Circuit Analysis, where I applied various techniques to design, model, simulate, and analyse both DC and AC electrical circuits. Using Multisim simulation software, I explored the behaviour of different circuit components, such as resistors, capacitors, inductors, and transformers, in response to varying electrical conditions.

Key aspects of this project include:

1. DC Circuit Analysis: Analysing Direct Current (DC) circuits, including series and parallel resistive circuits, validation of Ohm’s Law, and understanding the effects of changing resistance on voltage and current.

2. Kirchhoff’s Laws Validation: Validating Kirchhoff’s Voltage Law (KVL) and Kirchhoff’s Current Law (KCL) through practical experiments and circuit simulations, which involve measuring voltage and current at different points in the circuit.

3. AC Circuit Analysis: Analysing Alternating Current (AC) circuits with inductive and capacitive loads. This includes calculating impedance, reactance, phase angles, and understanding the relationship between current and voltage in inductive and capacitive components.

4. Transformer Circuit Analysis: Simulating an AC transformer circuit to demonstrate voltage transformation between two magnetically coupled coils, and understanding the phase relationships between primary and secondary coils.