EI5311: Circuit Simulation Laboratory Syllabus for EIE 3rd Sem 2019 Regulation Anna University

Circuit Simulation Laboratory detailed syllabus for Electronics & Instrumentation Engineering (EIE) for 2019 regulation curriculum has been taken from the Anna Universities official website and presented for the EIE students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Electronics & Instrumentation Engineering 3rd Sem scheme and its subjects, do visit EIE 3rd Sem 2019 regulation scheme. The detailed syllabus of circuit simulation laboratory is as follows.

Course Objective:

• To learn and practice generation of continuous and discrete time signals
• To analyze time and frequency response of continuous time and discrete time systems
• To study the effect of discretization of continuous time signal
• To simulate various network theorems using simulation software.
• To get introduced to self and mutual inductances
• To introduce power measurement in three phase circuits, z,y and h parameters of a two port network

List of Experiments:

1. Generation of Continuous Time(CT) and Discrete Time (DT) signals using Simulation software
2. Determine the time response and frequency response of CT system
3. Determine the time response and frequency response of DT system
4. Study the effects of Sampling and quantization on the response of the system
5. Analyze the statistical parameters of random signals
6. Verification of Kirchhoff”s laws, Thevenin”s and Norton”s theorems.
7. Verification of Superposition, Maximum Power transfer and Reciprocity theorems.
8. Analyze and interpret the Time response of RL, RC and RLC circuits for step input.
9. Analyze and interpret the frequency response of Series and Parallel resonance circuits.
10. Determination of self, mutual inductances and coupling coefficient of coupled coils.
11. Power and power factor measurements in three phase circuits by two wattmeter method.
12. Determination of z, y and h parameters of a two-port network.

Course Outcome:

1. Ability to apply the first principle mathematical models to generate and characterize continuous and discrete time signals and systems
2. Ability to analyze the characteristics of random signals.
3. Ability to familiarize simulation software to verify the network theorems and analyze electrical network
4. Ability to design coupled circuit based on input and output signals
5. Ability to Identify the type of load using two-wattmeter method
6. Ability to develop z, y and h parameter model for two port network.

For detailed syllabus of all other subjects of Electronics & Instrumentation Engineering, 2019 regulation curriculum do visit EIE 3rd Sem subject syllabuses for 2019 regulation.

For all Electronics & Instrumentation Engineering results, visit Anna University EIE all semester results direct link.