The article contains the subject code EE3512, which deals with the Anna University B.E Electrical and Electronics Engineering Semester –V Control And Instrumentation Laboratory Syllabus. Unit-wise detailed syllabus of this subject EE3512 is included in this article. You can get assistance for note preparation or can understand the chapters contain topics in one place.
Effective results need effective preparation and having the required knowledge of the topics included in the subject. If you want to perform well in academics proper guidance and the subject syllabus in mind are necessary, this article EE3512 – Control And Instrumentation Laboratory Syllabus will fulfill the details regarding your preparation.
If you want to know more about the syllabus of B.E Electrical and Electronics Engineering connected to an affiliated institution’s four-year undergraduate degree program. We provide you with a detailed Year-wise, semester-wise, and Subject-wise syllabus in the following link B.E Electrical and Electronics Engineering Syllabus Anna University, Regulation 2021.
Aim Of Objectives:
- To make the students familiarize with various representations of systems.
- To make the students analyze the stability of linear systems in the time domain and frequency domain.
- To make the students design compensator based on the time and frequency domain Specifications.
- To develop linear models mainly state variable model and transfer function model
- To make the students to design a complete closed loop control system for the physical systems.
EE3512-Control And Instrumentation Laboratory Syllabus
List Of Experiments:
- Analog (op amp-based) simulation of linear differential equations.
- Numerical Simulation of given nonlinear differential equations.
- Real-time simulation of differential equations.
- Mathematical modeling and simulation of physical systems in at least two fields.
Mechanical
Electrical
Chemical process - System Identification through process reaction curve.
- Stability analysis using Pole zero maps and Routh Hurwitz Criterion in simulation platform.
- Root Locus-based analysis in simulation platform.
- Determination of transfer function of a physical system using frequency response and Bode’s asymptotes.
- Design of Lag, lead compensators and evaluation of closed-loop performance.
- Design of PID controllers and evaluation of closed loop performance.
- Discretization of continuous system and effect of sampling.
- Test of controllability and observability in continuous and discrete domain in simulation platform.
- State feedback and state observer design and evaluation of closed loop performance.
- Mini Project 1: Simulation of complete closed loop control systems including sensor and actuator dynamics.
- Mini Project 2: Demonstration of a closed loop system in hardware.
Related Posts On Semester -V:
- EE3501 – Power System Analysis
- EE3591 – Power Electronics
- EE3503 – Control Systems
- EE3511 – Power Electronics Laboratory