Scribd
Upload
133 views4 pages

Mark Allocation S.No Description Max Marks

The document outlines the structure of an examination for a Control and Instrumentation Laboratory course. It is divided into 3 sections - the first provides general information about the exam such as university, degree, semester and date. The second section lists 17 experimental aims to be assessed. Marks are allocated with the highest being 35 for tabulation, observation and graph. The third section similarly outlines the structure of a Power System Simulation Laboratory exam. It provides the marking scheme with the highest marks allocated to calculation and program sections.

Uploaded by

Vijay Kumar
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOC, PDF, TXT or read online on Scribd
133 views4 pages

Mark Allocation S.No Description Max Marks

The document outlines the structure of an examination for a Control and Instrumentation Laboratory course. It is divided into 3 sections - the first provides general information about the exam such as university, degree, semester and date. The second section lists 17 experimental aims to be assessed. Marks are allocated with the highest being 35 for tabulation, observation and graph. The third section similarly outlines the structure of a Power System Simulation Laboratory exam. It provides the marking scheme with the highest marks allocated to calculation and program sections.

Uploaded by

Vijay Kumar
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOC, PDF, TXT or read online on Scribd
You are on page 1/ 4

ANNA UNIVERSITY: CHENNAI-600 025

B.E/B.Tech. DEGREE EXAMINATIONS, OCT - 2017


Fifth Semester
B.E –Electrical and Electronics Engineering
EE6511 CONTROL AND INSTRUMENTATION LABORATORY
Time: 3Hours Maximum Marks: 100
YEAR / SEM: III/V DATE: 25/10/17
MARK ALLOCATION

S.NO DESCRIPTION MAX MARKS

1. AIM 10

2. CIRCUIT DIAGRAM (or) 35


CACULATION (or) PROGRAM

3. TABULATION ,OBSERVATION 35
& GRAPH

4. RESULT 10

5. VIVA 10

TOTAL 100

INTERNAL EXAMINER EXTERNAL EXAMINER.

ANNA UNIVERSITY: CHENNAI-600 025


B.E/B.Tech. DEGREE EXAMINATIONS, OCT - 2017
Fifth Semester
B.E –Electrical and Electronics Engineering
EE6511 CONTROL AND INSTRUMENTATION LABORATORY
Time: 3Hours Maximum Marks: 100
YEAR / SEM: III/V DATE: 25/10/17

1. Determine the characteristics of a Ac SERVO MOTOR position control system?

2. Determine the characteristics of a dc SERVO MOTOR position control system


with P-CONTROLLER.?

3. Determine the characteristics of a dc SERVO MOTOR position control system


with PI- CONTROLLER.?

4. Determine the characteristics of a dc SERVO MOTOR position control system


with FEEDBACK LOOP.?

5. To obtain the bode plot for the given system whose transfer function is given as
G(S) H(s) = 10(s+3)
S(s+2)(s2+s+2)
And to find out whether the system is stable or not.

6. To obtain the Root locus plot for the given system whose transfer function is given
as
G(S) H(s) = K(s+1)
S(s-1)( s2+4s+16) .

7. To obtain the nyquist plot for the given system whose transfer function is given
as
G(S) H(s) = 40
(s+4)(s2+2s+2)

8. Digitally simulate the time response characteristics of first -order system


G(S) = 1/ 2.5s+1 (For step response of open loop system).

9. Digitally simulate the time response characteristics of second -order system


10. Digitally simulate the time response characteristics of first -order system
G(S) = 25/ (s2 + 1.8s +25) (For step response of closed loop system).

11. Study the effect of P, PI, PID controllers using MATLAB Software

12. Design of Lead and Lag compensator.


G(S) / H(S) = K/S(S+4) (S+80) +K; Phase margin > 33 deg, Kv=30.

13. To measure the given low resistance using Kelvin’s double bridge method.

14. To find the unknown inductance and Q factor of a given coil.

15. To study the operation of LVDT.

16. To obtain a frequency response characteristics of the instrumentation amplifier.

17. To convert the given digital input into its equivalent analog output.

18. To convert the given analog input into its equivalent digital output.

19. To calibrate the given single phase energy meter at unity and other power factors
?

INTERNAL EXAMINER EXTERNALEXAMINER.

ANNA UNIVERSITY: CHENNAI-600 025


B.E/B.Tech. DEGREE EXAMINATIONS, OCT - 2017
Seventh Semester (R-2013)
B.E –Electrical and Electronics Engineering
EE6711-Power System Simulation laboratory
Time: 3Hours Maximum Marks: 100
YEAR / SEM: IV/VII DATE: 23/10/17
MARK ALLOCATION

S.NO DESCRIPTION MAX MARKS

1. AIM 10

2. CACULATION 40

3. PROGRAM 30

4. RESULT 10

5. VIVA 10

TOTAL 100

INTERNAL EXAMINER EXTERNAL EXAMINER.

You might also like