E&I Anna University Syllabus Regulation 2013

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ELECTRONICS AND INSTRUMENTATION ENGINEERING (E&I)

ELECTRONICS AND INSTRUMENTATION ENGINEERING E&I Anna University Syllabus Regulation 2013— > Click to  download
 

 

Semesters Link for more details
I Sem Click to  download
II Sem Click to  download
III Sem  Click to  download
IV Sem  Click to  download
V Sem  Click to  download
VI Sem Click to  download
VII Sem Click to  download
VIII Sem  Click to  download

Anna-University-Syllabus-2013-Regulation-Sem-E&I

AFFILIATED INSTITUTIONS
B.E. ELECTRONICS AND INSTRUMENTATION ENGINEERING

R – 2013

E&I Anna University Syllabus Regulation 2013

PROGRAM EDUCATIONAL OBJECTIVES :

  1. To prepare the students have successful career in industry and motivate for higher education.
  2. To provide strong foundation in basic science and mathematics necessary to formulate, solve and analyze Electronics and Instrumentation problems
  3. To provide strong foundation in circuit theory, control theory and signal processing concepts.
  4. To provide good knowledge of Instrumentation systems and their applications.
  5. To provide knowledge on basic electronics and their applications in Instrumentationengineering
  6. To provide an opportunity to work in inter disciplinary groups
  7. To promote student awareness for life long learning and inculcate professional ethics
  8. To provide necessary foundation on computational platforms and software applicationsrelated to the respective field of engineering.
  9. E&I Anna University Syllabus Regulation 2013

PROGRAM OUTCOMES :

  1. a)  Ability to understand and apply differential equations, integrals, matrix theory, probability theory and Laplace, Fourier and Z transformations for engineering problems
  2. b)  Ability to understand and apply basic science, circuit theory, control theory and signal processing concepts to engineering problems.
  3. c)  Ability to model and analyze transducers.
  4. d)  Ability to understand and analyze Instrumentation systems and their applications to variousindustries.
  5. e)  Ability to understand and analyse process control engineering problems.
  6. f)  Ability to understand and analyse, linear and digital electronic circuits.
  7. g)  Ability to review, prepare and present technological developments
  8. h)  Ability to form a group and develop or solve engineering hardware and problems
  9. i)  To understand and apply computing platform and software for engineering problems.
  10. j)  To understand ethical issues environmental impact and acquire management skills.

 

 

SEMESTER I
S.NO.
COURSE CODE
COURSE TITLE
L
T
P
C
THEORY
1.
HS6151
Technical English – I
3
1
4
2.
MA6151
Mathematics – I
3
1
4
3.
PH6151
Engineering Physics – I
3
3
4.
CY6151
Engineering Chemistry – I
3
3
5.
GE6151
Computer Programming
3
3
6.
GE6152
Engineering Graphics
2
3
4
PRACTICAL
7.
GE6161
Computer Practices Laboratory
3
2
8.
GE6162
Engineering Practices Laboratory
3
2
9.
GE6163
Physics and Chemistry Laboratory – I
2
1
17
2
11
26
SEMESTER II
S.NO.
COURSE CODE
COURSE TITLE
L
T
P
C
THEORY
1.
HS6251
Technical English – II
3
1
4
2.
MA6251
Mathematics – II
3
1
4
3.
PH6251
Engineering Physics – II
3
3
4.
CY6251
Engineering Chemistry – II
3
3
5.
GE6251
Basic Civil and Mechanical Engineering
4
4
6.
EE6201
Circuit Theory
3
1
4
PRACTICAL
7.
GE6262
Physics and Chemistry Laboratory – II
2
1
8.
GE6263
Computer Programming Laboratory
1
2
2
9.
EE6211
Electric Circuits Laboratory
3
2
TOTAL
19
4
7
27
2
SEMESTER III
S.NO.
COURSE CODE
COURSE TITLE
L
T
P
C
THEORY
1.
MA6351
Transforms and Partial Differential Equations
3
1
4
2.
GE6351
Environmental Science and Engineering
3
3
3.
EE6301
Digital Logic Circuits
3
1
4
4.
EC6202
Electronic Devices and Circuits
3
1
4
5.
EE6303
Linear Integrated Circuits and Applications
3
3
6.
EI6301
Electrical Measurements
3
1
4
PRACTICAL
7.
EC6361
Electronics Laboratory
3
2
8.
EE6311
Linear and Digital Integrated Circuits Laboratory
3
2
TOTAL
18
4
6
26
SEMESTER IV
S.NO.
COURSE CODE
COURSE TITLE
L
T
P
C
THEORY
1.
MA6459
Numerical Methods
3
1
4
2.
CS6456
Object Oriented Programming
3
3
3.
EI6401
Transducer Engineering
3
3
4.
EE6403
Discrete Time Systems and Signal Processing
3
3
5.
EI6402
Electrical Machines
3
1
4
6.
EI6403
Applied Thermodynamics and Fluid Dynamics
3
1
4
PRACTICAL
7.
CS6461
Object Oriented Programming Laboratory
3
2
8.
EI6411
Electrical Machines Laboratory
3
2
TOTAL
18
3
6
25
SEMESTER V
S.NO.
COURSE CODE
COURSE TITLE
L
T
P
C
THEORY
1.
EE6502
Microprocessors and Microcontrollers
3
3
2.
IC6501
Control Systems
3
1
4
3.
EE6503
Power Electronics
3
3
4.
EI6501
Analytical Instruments
3
3
5.
EI6502
Industrial Instrumentation – I
3
3
6.
Elective – I
3
3
PRACTICAL
7.
EE6612
Microprocessors and Microcontrollers Laboratory
3
2
8.
EI6511
Transducers and Measurements Laboratory
3
2
9.
GE6674
Communication and Soft Skills- Laboratory Based
4
2
TOTAL
18
1
10
25
3
SEMESTER VI
S.NO.
COURSE CODE
COURSE TITLE
L
T
P
C
THEORY
1.
EI6601
Modern Electronic Instrumentation
3
3
2.
EI6602
Process Control
3
1
4
3.
EI6603
Industrial Instrumentation – II
3
3
4.
EC6651
Communication Engineering
3
3
5.
EE6602
Embedded Systems
3
3
6.
Elective –II
3
3
PRACTICAL
7.
EI6611
Industrial Instrumentation Laboratory
3
2
8.
EI6612
Process Control Laboratory
3
2
TOTAL
18
1
6
23
SEMESTER VII
S.NO.
COURSE CODE
COURSE TITLE
L
T
P
C
THEORY
1.
EI6701
Industrial Data Networks
3
3
2.
EI6702
Logic and Distributed Control System
3
3
3.
EC6601
VLSI Design
3
3
4.
EI6703
Fibre Optics and Laser Instruments
3
3
5.
EI6704
Biomedical Instrumentation
3
3
6.
Elective – III
3
3
PRACTICAL
7.
EC6612
VLSI Design Laboratory
3
2
8.
EI6711
Instrumentation System Design Laboratory
3
2
9.
EI6712
Comprehension
2
1
TOTAL
18
8
23
SEMESTER VIII
S.NO.
COURSE CODE
COURSE TITLE
L
T
P
C
THEORY
1.
MG6851
Principles of Management
3
3
2.
EI6801
Computer Control of Processes
3
3
3.
Elective – IV
3
3
PRACTICAL
4.
EI6811
Project Work
12
6
TOTAL
9
12
15
4
TOTAL CREDITS: 190
 
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