Project 2022: Implementation of Control Systems Using Operational Amplifier Circuits Released: 24th May 2022 Submission:

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Project 2022 Implementation Of Control Systems Using Operational Amplifier Circuits Released 24th May 2022 Submission 1 (53.88 KiB) Viewed 17 times

Project 2022: Implementation of Control Systems Using Operational Amplifier Circuits Released: 24th May 2022 Submission: From 14.00hrs on 31st May-14.00hrs on 3rd June 2022. No extension of Deadline. Total Marks: 60 INSTRUCTIONS: 1. The project is designed in such a way that the details of the project for every student are unique to the individual student. Suppose your student number is 250715503. You will be required to select some numbers as shown in Table 1. 3 25071 5 5 0 2507 a₂ a₁ B₁ B₂ B₁ Table 1: Example student number versus project parameters. 2. Select your project parameters as given in instruction (1) above. [2 marks] 3. Using the selected parameters, formulate the third-order transfer function G(s), given by: @₂s+α₂ G(s) = [3 marks] (5+B₂) (s+B₂) (s+B₂) Hint: for the example student number given above, G(s) = 5+5 (5+3)(s)(5+5) 4. Express your system in the parallel state-space form. [22 marks] 5. Using only inverting operational amplifier circuits, implement the state-space model of the system. [23] 6. Write and submit a project report, not exceeding eight pages, and showing your names and student number, the a₁, az, B1, B2, B3 values used in your project, G(s), the derivation of the parallel state-space form of the system, and the discussion of the op-amp implementation. Also, add a summary/discussion to your project report. [10]