COURSE FILE ANALOG ELECTRONICS CIRCUIT Gaya College of Engineering, Gaya Shri Krishna Nagar,P.O-Nagriava Via-Buniyadganj,Khizersarai Gaya (Bihar), PIN-823003 Department of Electrical and Electronics Engineering (2020-21) B.Tech III Semester (ESC 301) Vishal Chandra, Assistant Professor, EEE
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COURSE FILE
ANALOG ELECTRONICS CIRCUIT
Gaya College of Engineering, GayaShri Krishna Nagar,P.O-NagriavaVia-Buniyadganj,KhizersaraiGaya (Bihar), PIN-823003
Department of Electrical and ElectronicsEngineering
(2020-21)
B.Tech III Semester (ESC 301)
Vishal Chandra, Assistant Professor, EEE
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CONTENTS
1. Cover Page& Content
2. Vision and Mission of the Department
3. PEO’s and PO’s
4. Course objectives &course outcomes (CO’s)
5. Mapping of CO’s with PO’s
6. Course Syllabus and GATE Syllabus
7. Time table
8. Student list
9. Course Handout
10. Lecture Plan
11. Assignment sheets
12. Tutorial Sheets
13. Sessional Question Papers
14. Old End Semester Exam (Final Exam) Question Papers
15. Question Bank
16. Power Point Presentations
17. Lecture Notes
18. Reference Materials
19. Results
20. Result Analysis
21. Quality Measurement Sheets
a. Course End Survey
b. Teaching Evaluation
Department of Computer Science & Engineering
Vision: -
To build a strong teaching and research environment in which students are capable of responding to thechallenges of the real world.
Mission: -
To provide quality undergraduate education in theoretical as well as practical aspect of computer science
which enables students to effectively apply their knowlege to solve real-world problems and thus enhance
their potential and knowledge to achieve best in all manners of life.
To cultivate/skill students to incorporate for team spirit, efficient problem solving skill, lifelong learning
skill, better adaptability for various challenges in technologies. It will further help them to become good
communicator, and efficient leader, develop entrepreneurship skill.
Provide basic computer science knowledge and training to other discipline of engineering at GCE Gaya.
Induce ethical values and spirit of social commitment.
Department of Computer Science & EngineeringProgram Educational Objectives(PEO)
PEO1: Graduates will be capable of attaining higher position in their professional carrier, capable to doquality research by strengthening their mathematical, scientific and basic engineering fundamentals.
PEO2: Graduate will be capable to develop team-spirit, leadership abilities, collaborative learning, andethical behavior.
PEO3: Graduate will be capable of adopting the changing technologies, tools, and industrial environment.
Program Outcomes(PO’s): -
The graduates of the program will, upon the, completion of program demonstrate the ability to -
1. Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and
an engineering specialization to the solution of complex engineering problems.
2. Problem analysis: Identify, formulate, review research literature, and analyze complex engineering
problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and
engineering sciences.
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.
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.
5. Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering
and IT tools including prediction and modeling to complex engineering activities with an understanding of
the limitations.
56. 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.
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 sustainable
development.
8. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of
the engineering practice.
9. Individual and team work: Function effectively as an individual, and as a member or leader in
diverse teams, and in multidisciplinary settings.
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.
11. Project management and finance: Demonstrate knowledge and understanding of the engineering and
management principles and apply these to one’s own work, as a member and leader in a team, to
manage projects and in multidisciplinary environments.
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.
COURSE OBJECTIVES AND COURSE OUTCOMES:
Institute/college Name Gaya college of EngineeringProgram NameCourse Code/course creditsCourse Name
After completion of the course, a student would be acquainted with the following:CO1: Design and analysis of CE, CB, CC amplifiers using small signal h-model and pi-model and derivation of voltage gain, current gain, input impedance and output impedance.CO2: Design and analysis of RC coupled single stage and multistage amplifiers and their 5
frequency responses; and the effects of coupling and bypass capacitors in amplifiers.
B.Tech. (CSE III Semester)
Course objective:This course is designed for the I I I semester students of C S E . This course is intended to
develop an understanding of small signal amplifier design using linear transistor models; and
its analysis at low and high frequencies, including different feedback topologies and oscillators.The course also indulges power amplifiers, tuned amplifiers and behaviour of noise in an
amplifier.
Course outcomes (CO):
ESC 301
Analog Electronics Circuit
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CO3: Design and analysis of common source FET amplifier and its frequency response.CO4:Design and analysis of negative feedback amplifiers and oscillators.CO5: Design and analysis of different types of power amplifiers and tuned amplifiers.CO6: Behaviour of noise in an amplifier.
Course Outcomes:At the end of this course, students will demonstrate the ability to• Understand the characteristics of transistors.• Design and analyze various rectifier and amplifier circuits.• Design sinusoidal and non-sinusoidal oscillators.• Understand the functioning of OP-AMP and design OP-AMP based circuits.
Module 1: Diode circuits (4 Hours)P-N junction diode, I-V characteristics of a diode; review of half-wave and full-wave rectifiers,Zener diodes, clamping and clipping circuits.
Module 2: BJT circuits (8 Hours)Structure and I-V characteristics of a BJT; BJT as a switch. BJT as an amplifier: small-signalmodel, biasing circuits, current mirror; common-emitter, common-base and common-collectoramplifiers; Small signal equivalent circuits, high-frequency equivalent circuits
Module 3: MOSFET circuits (8 Hours)MOSFET structure and I-V characteristics. MOSFET as a switch. MOSFET as an amplifier: smallsignal model and biasing circuits, common-source, common-gate and common-drain amplifiers;small signal equivalent circuits - gain, input and output impedances, trans-conductance, highfrequency equivalent circuit.
Module 4: Differential, multi-stage and operational amplifiers (8 Hours)Differential amplifier; power amplifier; direct coupled multi-stage amplifier; internal structureof an operational amplifier, ideal op-amp, non-idealities in an op-amp (Output offsetvoltage, input bias current, input offset current, slew rate, gain bandwidth product), FrequencyResponse of the amplifier.
Module 5: Linear applications of op-amp (8 Hours)Idealized analysis of op-amp circuits. Inverting a n d non-inverting amplifier, differentialamplifier, +instrumentation amplifier, integrator, active filter, P, PI and PID controllers andlead/lag compensator using an op-amp, voltage regulator, Feedback amplifiers and Oscillatorsdesign (Wein bridge and phase shift). Analog to Digital Conversion.
Module 6: Nonlinear applications of op-amp (6 Hours)Hysteretic Comparator, Zero Crossing Detector, Square-wave and triangular-wave generators.Precision rectifier, peak detector. Monoshot.
Text/References:1. A. S. Sedra and K. C. Smith, “Microelectronic Circuits”, NewYork, Oxford University Press, 1998.2. J. V. Wait, L. P. Huelsman and G. A. Korn, “Introduction to Operational Amplifier theoryand applications”, McGraw Hill U. S., 1992.3. J. Millman and A. Grabel, “Microelectronics”, McGraw HillEducation, 1988.4. P. Horowitz and W. Hill, “The Art of Electronics”, CambridgeUniversity Press, 1989.5. P.R. Gray, R.G. Meyer and S. Lewis, “Analysis and Design of AnalogIntegrated Circuits”, John Wiley & Sons, 2001.
Analog Electronics Circuit (ESC 301, 3L:4P , 5 Credits)
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Evaluation and Examination Schemes: -
Internal assessment is done through quiz tests, presentations, assignments and tutorial sheets.
The course assessment is done externally as well as internally. The weightage of external and internal
assessment is provided by the affiliating university.
The tools to measure internal assessment is decided by course coordinator.
This course is designed to assess the student performance on the basis of five assignments per module of
syllabus and one mid semester examination as conducted by exam section of the institution.
The components of evaluations along with their weightage followed by the University is given below-
Mid Sem Examination 20%Assignments/Quiz Tests/Seminars 10%End term examination 70%
EVALUATION SCHEME: -
End Sem Mid Sem Assignments Attendances Total
ExternalAssessment
Internal Assessment
Weightage 70% 20% 5% 5% 100%
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CO Attainment Guidelines: -GCE, Gaya is permanently affiliated to AKU, Patna. The outcome based education heavily focusses onattainment of CO’s. CO’s of each course is defined at the start of each semester by the course coordinator. Theassessment of student’s performance is one of the main objective of NBA hence the outcome basedassessment is done. The assessment is done through two methods direct assessment and indirect assessment.The direct assessment is based on result analysis of internal assessment of students done via variousassessment tool like quizzes, assignments, class tests as designed by course coordinator.
AModel of Internal Result Analysis: -
Module CO’s TA 1 TA 2 TA 3 TA 4 Mid Sem Av Marks / CO outof 25.
1 CO 1
CO 2
CO 3
CO 4
2 CO 1
CO 2
CO 3
CO 4
3 CO 1
CO 2
CO 3
CO 4
4 CO 1
CO 2
CO 3
CO 4
5 CO 1
CO 2
CO 3
CO 4
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Attainment Levels of Each CO: -In outcome base education, the assessment is measured by the level of attainment of each CO at the end ofcourse. The attainment level is decided as per following table and rubrics devised thereof: -
CO’s Marks out of25
% of students scoringmore than 60% ofmarks
CO 1
CO 2CO 3
CO 4
Rubrics to decide attainment level of each CO-
AttainmentLevel
% of students scoring more than60% marks out of
1 602 703 80
Based on the attainment level of each CO, suggestions for designing CO for the next academic year isforwarded to the concerned course coordinator.
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COURSE PLANMODULE TOPICS STUDY
MATERIALSLINK
1. P-N Junction Diode, I-VChar. Of a Diode, Half-wave and Full-waveRectifiers, Zener Diode,Clamping and ClippingCircuits.
Text Books:TB1:Micro Electronics by Millman And Grabel , McGRAW HILLTB2: Integrated Electronics by Millman & Halkias , McGRAW HILLTB3: Electronic Devices and Circuits by Boylstead & Nashelsky, Pearson
Reference Books:RB1:Micro electronics circuit by Sedra and Smith, Oxford University;RB2:Micro electronics circuit analysis and design, by Rashid , PWS publication house;RB3: Electronic devices and integrated circuit- BP Singh and Rekha Singh, Pearson.RB4:Electronic PrithEd. by Albert Malvino & Davis J.Bates, TMH