UNIVERSITY OF WEST ATTICA
SCHOOL OF ENGINEERING
DEPARTMENT OF COMPUTER ENGINEERING AND INFORMATICS
Circuit Theory
Vasileios Evangelos Athanasiou
Student ID: 19390005
Nikolaos Katsos
Student ID: 21390084
Supervisor: Christos Kampouris, Laboratory Teaching Staff
Co-supervisor: Georgios Antoniou, Laboratory Teaching Staff
Athens, May 2022
This project, titled "RLC Components, Transient Response" (Project 2), was conducted as part of the Circuit Theory course at the University of West Attica (UNIWA), within the Department of Informatics and Computer Engineering.
The primary objective of the project was to analyze and observe the transient response of RC and RL circuits through:
- Theoretical analysis
- Software simulation using Multisim
- Physical laboratory experimentation
| Section | Title | Description |
|---|---|---|
| assign | Assignment | Contains assignments and tasks |
| docs | Documentation | Project documentation, guides, and notes |
| multisim | Multisim | All souce multisim files implementing the circuits |
The report is organized into the following main sections:
-
1.2.1 – RC Component
Analysis of the transient response of an RC circuit, including theoretical derivations, Multisim simulations, and experimental laboratory results. -
1.2.2 – RL Component
Analysis of the transient response of an RL circuit through theoretical and simulated solutions. -
1.3 – Questions
Discussion and answers to specific theoretical and practical questions related to the observed circuit behaviors.
The following equipment and tools were utilized during the laboratory session:
-
Hardware
- Breadboard
- Connection cables
- Digital multimeter
- Resistors (various values)
- Capacitors
-
Power Sources
- DC voltage source set to 12 V
- Square pulse voltage source at 30 Hz
-
Software
- Multisim for circuit simulation
-
Measurement Tools
- Oscilloscope (for capturing voltage waveforms)
- Timer (for recording capacitor charging times)
-
When fully charged, a capacitor behaves as an open circuit, since the current flowing through it approaches zero.
-
The charging time is directly proportional to the resistance value.
An increase in resistance increases the time constant
$$\tau = RC$$ resulting in a longer time required for the capacitor to reach full charge.
-
A phase difference was observed between the input source signal and the capacitor voltage during simulation.
- When the current in an RL circuit reaches its maximum value, the inductor (coil) behaves like a short circuit.
- The transient response is characterized by an exponential increase or decrease of current following a switching event, consistent with theoretical expectations.
Clone this repository to your local machine.
git clone https://github.com/Circuit-Theory/RLC-DC.git