TIEE3211 Basic Electronics and Electrical Circuits Laboratory Syllabus:
TIEE3211 Basic Electronics and Electrical Circuits Laboratory Syllabus – Anna University Regulation 2023
COURSE OBJECTIVES:
To enable the students to understand the behavior of semiconductor device based on experimentation.
Be exposed to active and passive circuit elements.
Familiarize the operation and characteristics of transistor like BJT and FET.
Explore the characteristics of amplifier gain and frequency response.
Learn the required functionality of positive and negative feedback systems.
Electrical Experiments:
1. Verification of series and parallel electrical circuit using fundamental laws.
2. Simulation and experimental verification of electrical circuit problems using Thevenin’s theorem.
3. Verification of electrical circuit problems using Superposition theorem.
4. Validation of R-C,R-L and RLC electric circuit transients
5. Simulation and Experimental validation of Frequency response of RLC electric circuit.
6. Verification of three phase balanced and unbalanced star, delta networks circuit (Power and Power factor calculations).
Electronics experiments:
1. V-I Characteristics of Semiconductor diode, Zener diode, photodiode, and phototransistor
2. V-I Characteristics of MOSFET
3. V-I Characteristics of UJT and generation of sawtooth waveforms
4. Design and frequency response characteristics of a Common Emitter amplifier
5. Design and testing of RC phase shift and LC oscillators
6. Single-Phase half-wave and full-wave rectifiers with capacitive filters
COURSE OUTCOMES:
Upon successful completion of the course, the students will be able to:
CO1: Verify the fundamental laws pof electric circuits.
CO2: Verify the thorems (Thevenin’s superposition) via simulation and experimental studies.
CO3: Verify and validate the responses in PLC, RL and RLC transients and resononant circuit.
CO4: Compute power and power factor for a balanced unbalanced three phase circuits.
CO5: Analyze the characteristics of PN, Zener diode, photodiode, photo transistor and BJT in CE, configurations experimentally
CO6: Analyze the characteristics of JFET and UJT experimentally.
CO7: Analyze the characteristics of RC phase shift and LC oscillators experimentally
CO8: Analyze the characteristics of half-wave and full-wave rectifier with and without filters experimenta