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1
INDEX
S.NO CONTENTS PAGE NO. 1. Institute Vision & Mission 2-3
2. Department Vision & Mission 4-5
3. Program Educational Objectives, Program
Outcomes&Program Specific Outcomes
6-9
4. Academic Calendar 10
5. Co-Circular Activities 11
6. Class Time Table 12
7. Course Structure 13
8. Electronic Devices & Circuits 15-20
9. Digital System Design 21-26
10. Signals & Systems 27-35
11. Network Theory 36-39
2
INSTITUTE
VISION & MISSION
3
INSTITUTE VISION and MISSION
VISION
To be a premier technological institute striving for
excellence with global perspective and commitment to the
nation.
MISSION
To produce engineering graduates of professional
quality and global perspective through Learner
Centric Education.
To establish linkages with government, industry and
research laboratories to promote R&D activities and
to disseminate innovations.
To create an eco-system in the institute that leads to holistic development and ability for life-long
learning.
4
department
VISION & MISSION
5
Vision
To develop the department into a centre of excellence
and produce high quality, technically competent and
responsible Electronics and communication engineers
Mission To create a learner centric environment that promotes
the intellectual growth of the students..
To develop linkages with R & D organizations and
educational institutions for excellence in teaching,
learning and consultancy practices..
To build the student community with high ethical
standards.
6
PROGRAM EDUCATIONAL
OBJECTIVES, PROGRAM OUTCOMES&
PROGRAM specific
OUTCOMES
7
Program educational objectives
Graduates of this program will be able to:
PEO 1: Have successful career in the field of Electronics &
Communication Engineering.
PEO 2: Design products for societal needs.
PEO 3: Demonstrate their abilities to support service activities
with due consideration for ethics and human values.
PROGRAM SPECIFIC OUTCOMEs
A graduate of the Electronics and Communication
Engineering Program will be able to:
PSO 1: Use modern tools to design subsystems for simple
applications in Embedded Systems and VLSI. [K3]
PSO 2: Apply engineering concepts to find solutions in the
fields of Communications, Signal/ Image Processing. [K3]
8
PROGRAM OUTCOMES
Electronics & Communication Engineering Graduates
are able to:
1. Engineering knowledge: Apply the knowledge of mathematics, science,
engineering fundamentals, and concepts of Electronics & Communication
engineering to solve the complex engineering problems.[K3]
2. Problem analysis: Identify, formulate, research literature, and analyze
complex engineering problems reaching substantiated conclusions using
mathematics, natural sciences, and electronics and communication engineering
principles. [K4]
3. Design/development of solutions: Design solutions for complex engineering
problems and design system components or processes that meet the specified
needs with appropriate consideration for the public health and safety, and the
cultural, societal, and environmental considerations.[K5]
4. Conduct investigations of complex problems: Use research-based
knowledge and research methods including design of experiments, analysis and
interpretation of data, and synthesis of the information to provide valid
conclusions. [K5]
5. Modern tool usage: Create, select, and apply appropriate techniques,
resources, and Electronics Design Automation tools including prediction and
modeling to complex engineering activities with an understanding of the
limitations. [K3]
6. The engineer and society: Apply reasoning informed by the contextual
knowledge to assess societal, health, safety, legal, and cultural issues and the
consequent responsibilities relevant to the professional engineering practice.
[K3]
7. Environment and sustainability: Understand the impact of the professional
engineering solutions in societal and environmental contexts, and demonstrate
the knowledge of, and need for the sustainable development. [K3]
8. Ethics: Apply ethical principles and commit to professional ethics and
responsibilities and norms of the engineering practice. [K3]
9. Individual and team work: Function effectively as an individual, and as a
member or leader in diverse teams and in multidisciplinary settings. [K6]
9
10. Communication: Communicate effectively on complex engineering
activities with the engineering community and with society at large, such as,
being able to comprehend and write effective reports and design documentation,
make effective presentations, and give and receive clear instructions. [K2]
11. Project management and finance: Demonstrate knowledge and
understanding of the engineering and management principles and apply these to
ones own work, as a member and leader in a team, to manage projects and in
multidisciplinary environments. [K6]
12. Life-long learning: Recognize the need for, and have the preparation and
ability to engage in independent and life-long learning in the broadest context of
technological change. [K1]
10
Academic Year: 2019 -20 Programme: B. Tech. Year Sem
Commencement
of class work
I MID
Examinations
II MID
Examinations
Practical
Examinations
Semester End
Examinations
I I
II I 10/06/2019 05/08/2019 to
10/08/2019
7/10/2019 to
12/10/2019
21/10/2019 to
26/10/2019
28/10/2019 to
09/11/2019
III I 10/06/2019 05/08/2019 to
10/08/2019
7/10/2019 to
12/10/2019
14/10/2019 to
19/10/2019
21/10/2019 to
02/11/2019
IV I 10/06/2019 05/08/2019 to
10/08/2019
7/10/2019 to
12/10/2019
14/10/2019 to
19/10/2019
21/10/2019 to
02/11/2019
I II
II II 11/11/2019 06/01/2020 to
11/01/2020
09/3/2020 to
14/3/2020
23/03/2020 to
28/03/2020
30/03/2020 to
11/04/2020
III II 11/11/2019 13/01/2020 to
23/01/2020
23/3/2020 to
28/3/2020
30/03/2020 to
04/04/2020
06/04/2020 to
18/04/2020
IV II 11/11/2019 13/01/2020 to
23/01/2020
23/3/2020 to
28/3/2020
30/03/2020 to
04/04/2020
06/04/2020 to
18/04/2020
11
CO-CURRICULAR AND EXTRA CURRICULAR ACTIVITIES
05/06/2019 – World Environment Tech Euphoria in the month of Feb 2019
– 1st year B.Tech. introduction program 22/12/2019 – National Mathematics Day
15/08/2019 – Independence Day 26/01/2020 – Republic Day
05/09/2019 – Teachers Day 08/03/2020 – International Women‟s Day
15/09/2019 – Engineers Day 21/03/2020 – International Forest Day
16/09/2019 – World Ozone Day 22/03/2020 –World Water Day
September – Intramurals 23/03/2020 – World Meteorological Day
11/11/2019 – National Education Day 24/03/2020 – Earth Hour
03/12/2019 – Antipollution Day In the month of March – Association Days
12
S R I VA S A VI ENG I N EER I NG C O L L EG E
Pedatadepalli, TADEPALLIGUDEM-534 101, W.G. Dist.
Department Of Electronics and Communication Engineering
CLASS CONSOLIDATED TIME TABLE
Class: III Sem w. e. f. : 10 -06 - 2019
Section: A Class Coordinator:- Smt. TVNL ASWINI Room No. : D-303
Section: B Class Coordinator:- Smt.T.V.N.L.ASWINI Room No. : D-304
Section: C Class Coordinator:- Sri. N.V.NARAYANA RAO Room No. : D-305
S ta f f Deta i l s :
Periods 1 2 3 4
1:00-2:00
5 6 7
Time
Day 9:30-10:30 10:30-11:20 11:20-12:10 12:10-1.00 2:00-2:50 2:50-3:40 3:40-4:30
Mon SS NT PCS
Lu
nch
Bre
ak
DSD EDC MEFA
Tue EDC SS MEFA DSD IC NT PCS
Wed SS DSD NT EDC EDC Counseling Lib
Thu DSD EDC/DSD Lab MEFA Sports
Fri EDC NT MEFA IC SS Slip Test
Sat MEFA SS NT DSD EDC/DSD Lab Periods 1 2 3 4
1:00-2:00
5 6 7
Time
Day 9:30-10:30 10:30-11:20 11:20-12:10 12:10-1.00 2:00-2:50 2:50-3:40 3:40-4:30
Mon EDC DSD NT MEFA
Lu
nch
Bre
ak
SS Counseling Lib
Tue SS EDC/DSD Lab PCS EDC
Wed NT SS MEFA IC DSD EDC PCS
Thu DSD EDC MEFA SS NT Sports
Fri NT MEFA EDC DSD EDC/DSD Lab
Sat MEFA DSD IC NT SS Slip Test
Periods 1 2 3 4
1:00-2:00
5 6 7
Time
Day 9:30-10:30 10:30-11:20 11:20-12:10 12:10-1.00 2:00-2:50 2:50-3:40 3:40-4:30
Mon DSD EDC SS IC
Lu
nch
Bre
ak
SS MEFA PCS
Tue NT MEFA EDC SS EDC/DSD Lab
Wed EDC IC DSD SS NT DSD MEFA
Thu MEFA NT Slip Test EDC Sports
Fri SS EDC/DSD Lab NT DSD EDC
Sat NT DSD PCS MEFA Counselling Lib
S.N
O. Sub SUBJECT NAME
SECTION
A B C
1. EDC Electronics devices & Circuits SRI M.SATISH KUMAR DR.M.KOTESWARARAO SRI M.SATISH KUMAR
2. DSD Digital System Design SRI D.R.SANDEEP SRI K.S.SURYA KIRAN SRI D.R.SANDEEP
3. SS Signals & Systems SMT. TVNL ASWINI DR.PURNIMA K SHARMA SMT. TVNL ASWINI
4. NT Network Theory SRI.K.N.H.SRINIVAS SRI M. SUBBA RAO
SRI.K.N.H.SRINIVAS
5. MEFA Managerial Economics and
Financial Management
SRI D.SATYANARAYANA SRI U.BHARGAVA SRI U.BHARGAVA
6. EDC LAB
Electronics devices & Circuits
Lab
SMT. TVNL ASWINI
SRI M.SATISH KUMAR/
SRI N.V.NARAYANA RAO
DR.M.KOTESWARA RAO
SRI M. SUBBA RAO
SRI M.SATISH KUMAR
SMT. TVNL ASWINI/
SRI N.V.NARAYANA
RAO 7.
DSD LAB Digital System Design Lab
SRI D.R.SANDEEP
SRI G.S.BHASKARA RAO
SRI K.S.SURYA KIRAN
SRI B.MOHAN KUMAR SRI D.R.SANDEEP
SRI K.RAJESH
8. PCS
Professional Comm. Skills-III DR. T.SUJANI
SMT. KVLB DEVI
SRI B.SURESH
SRI CH.SRINIVASA RAO
DR. T.SUJANI
SMT. KVLB DEVI
9. IC
Constitution of India P. MADHUSUDHAN P. MADHUSUDHAN P. MADHUSUDHAN
13
COURSE STRUCTURE
S. No
Course Code
Course Name L T P Credits
1 V18ECT01 Electronic Devices & Circuits
3 1 - 4
2 V18ECT02 Digital System Design
3 - - 3
3 V18ECT03 Signals & Systems
3 1 - 4
4 V18ECT 04 Network Theory
3 - - 3
5 V18MBT51
Managerial Economics & Financial Analysis
3 - - 3
6 V18ECL01 Electronic Devices & Circuits
LAB
- - 2 1
7 V18ECL02 Digital System Design LAB
- - 2 1
8 V18ENT03 Professional Comm. Skills- I
3 - - MNC
9 V18ENT11 Constitution of India
2 - - MNC
TOTAL 20 2 4 19
14
Lesson
plans
15
Electronic Devices & Circuits
Academic Year: 2019-20 Programme: B.Tech.
Semester: III Section:A,B&C
Name of the Course: Electronic Devices & Circuits Course Code:V18ECT01
Course Outcomes(Along with Knowledge Level):
After successful of the course,the student will be able to:
COx Kx Course Outcome
C202.1 K2 Explain the basic concepts of semiconductor physics for the operation of diodes
and transistors
C202.2 K2 Discuss special semiconductor diodes
C202.3 K3 Construct and explain the working principle of rectifiers with and with out
filters with relevant expressions and necessary comparisions
C202.4 K2 Descibe the construction,principle of operation of transistors,BJT and FET with
their V-I characteristics in different configurations
C202.5 K2 Expalin the need for transistor biasing, various biasing techniques for BJT and
FET. Stabilization concepts with necessary expressions
C202.6 K2 Explain small signal low frequency transistor amplifier circuits using BJT and
FET in different configurations
Text books
T1. Electronic Devices and Circuits- J. Millman, C. Halkias, Tata Mc-Graw Hill, Second Edition.