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Control Engineering System, Thesis of Control Systems

course structure required for NBA

Typology: Thesis

2016/2017

Uploaded on 07/10/2017

prashant-pawar
prashant-pawar 🇮🇳

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COURSE DETAILS
Structure of Course
Class TE-Part-I Sem.-V
Course Code and Course Title ME351, Control Engineering Lab
Designated as Compulsory
Prerequisite/s ME201
Teaching Scheme (Lecture/Practical/Tutorial/Drawing) 00/02/00/00
Total Contact Hours: Theory/Practical/Tutorial/Drawing 00/28/00/00
Credits 01
Evaluation Scheme: Theory Paper/TW/POE/PO 00/25/00/00
Course Outcomes (COs):
Upon successful completion of this course, the student will be able to:
ME351_1 Explain different types of controllers and their use in control systems. (K2)
ME351_2 Calculate transfer function, system response and system stability (K3)
ME351_3 Use MATLAB software to model and analyze different control systems. (S2)
ME351_4 Communicate effectively about laboratory work both orally and in writing journals. (A2)
ME351_5 Practice professional and ethical behaviour to carry forward in their life. (A2)
Course
Outcomes
Programme Outcomes
1 2 3 4 5 6 7 8 9 10 11 12 PSO1 PSO2
ME351_1 2
ME351_2 2 2
ME351_3 2
ME351_4 2
ME351_5 2
Total 4 2 2 2 2
Avg. 2 2 2 2 2
ME351 2 2 2 2 2
Course ME301 Course Outcomes
ME351_1 ME351_2 ME351_3 ME351_4 ME351_5
Target 2223 3
Target Level %
1 >60%
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COURSE DETAILS

Structure of Course

Class TE-Part-I Sem.-V Course Code and Course Title (^) ME351, Control Engineering Lab Designated as Compulsory Prerequisite/s ME Teaching Scheme (Lecture/Practical/Tutorial/Drawing) 00/02/00/ Total Contact Hours: Theory/Practical/Tutorial/Drawing 00/28/00/ Credits 01 Evaluation Scheme: Theory Paper/TW/POE/PO 00/25/00/

Course Outcomes (COs):

Upon successful completion of this course, the student will be able to:

ME351_1 Explain different types of controllers and their use in control systems. (K 2 )

ME351_2 Calculate transfer function, system response and system stability (K^3 ) ME351_3 Use MATLAB software to model and analyze different control systems. (S 2 )

ME351_4 Communicate effectively about laboratory work both orally and in writing journals. (A 2 ) ME351_5 Practice professional and ethical behaviour to carry forward in their life. (A 2 )

Course

Outcomes

Programme Outcomes

1 2 3 4 5 6 7 8 9 10 11 12 PSO1^ PSO

ME351_1 2

ME351_2 2 2

ME351_3 2

ME351_4 2

ME351_5 2

Total 4 2 2 2 2

Avg. 2 2 2 2 2

ME351 2 2 2 2 2

Course ME301 Course Outcomes

ME351_1 ME351_2 ME351_3 ME351_4 ME351_

Target 2 2 2 3

Target Level %

Course Skill Acquisition Matrix-

Course Name Program Outcomes

1 2 3 4 5 6 7 8 9 10 11 12 PSO1^ PSO

Control Engineering

[2] [2] [2] [2] [2]

Practical Plan

Expt. No.

Title of Experiment Compulsory or

Optional

Planned Date Outcomes Met

1 Introduction, Study of Control System

Components - D.C. Servomotor.

Compulsory I Week ME351_

2 Study of Control System Components

- Hydraulic Servomotor.

Compulsory II Week ME351_

3 Study of On-Off Controller for Flow/

Temperature

Compulsory III Week ME351_

4 Study of Control Modes like P, PD, PI,

PID for Pressure / Temperature / Flow

Compulsory IV Week ME351_

5 Assignment on Mathematical Model of

Control System

Compulsory V Week ME351_

6 Assignment on Representation of

control system

Compulsory VI Week ME351_

7 Assignment on Transient Response Compulsory VII Week ME351_

8 Assignment on Stability and Root

Locus Technique

Compulsory VIII Week ME351_

9 Assignment on Frequency Response

Analysis

Compulsory IX Week ME351_

10 Assignment on State Space Analysis Compulsory X Week ME351_

11 Introduction to ‘MATLAB’ Software Compulsory XI Week ME351_

12 Assignment based on use of Software

‘MATLAB’

Compulsory XII Week ME351_

13 *Motion control using Atmega 2560 Optional XIII Week ME351_

14 Submission XIV Week -

Plan to Cover Contents beyond Syllabus

Planed Date/ Week Topic Beyond Syllabus Outcomes Met

13 th^ Week Motion control using Atmega 2560 ME351_

Sant Dnyaneshwar Shikshan Sanstha’s