Syllabus for Bachelor of Technology (Electronics and Communication)
Syllabus for Bachelor of Technology (Electronics and Communication)
Course Details
Eligibility Criteria

12th passed in Science Stream.

Intake

60 Seats

Duration

The duration of the course shall be Full time three academic years. Each academic year shall be divided into two semesters.

Evaluation Scheme
  • The Credit allotted for each semester as follows:
    Semester 1 2 3 4 5 6 7 8 Total
    Credits 30 30 30 30 30 30 30 30 240
  • The academic performance evaluation of a student is according to a letter grading system based on Continuous Internal Assessment (CIA) and Semester End Examinations (SEE).
  • Based on the performance in CIA and SEE the letter grade is awarded to a student in a course. A student should secure minimum of 40% in CIA and 40% in SEE in Theory and Practical, including Project viva, if any and minimum of 40% in CIA and SEE together.
  • The distribution of weightage among different parameters of CIA is as follows:
    Parameter Frequency Weightage (in each course)
    Internal Test Two Duration 2 hours of each test.
    Internal tests have 66.66% weightage in CIA score.
    Unit test At least Three Duration may be from 40 to 50 minutes. Unit tests have 20% weightage in CIA score. Question paper shall include answer of descriptive nature. Questions should test analytical ability to analyze a scenario and apply theory for the solution.
    Any one from following parameters.
    Quiz At least Four Duration may be from 20 to 25 minutes. This parameter has 13.33% weightage in CIA score. It includes very short answer questions like MCQ, Fill in the blanks, Match the following, True/False, Program error and output, etc.
    Assignment At least Two This parameter has 13.33% weightage in CIA score. Assignment should test ability to validate statements, analyze a scenario and design solution, etc.
    Seminar/ Technical White Paper/ Projects/ Case Study One Presentation time must be from 20 to 25 minutes. This parameter has 13.33% weightage in CIA score.
  • The student shall have at least 90% attendance during the semester so as to appear in the SEE.
  • SEE would be of 3 hours for theory and 2 hours for practical.
  • The Question paper format for SEE for a course would be as follows:
    Section- I - 35 marks
    Question 1: a)Short Type Question (7) [Each of 1 mark]
    b)Theory Questions (4 out of 6 )[Each of 2 marks]
    07 marks
    08 marks
    Question 2: Practical/Scenario based Problem (2) with Internal Option
    [Each of 5 marks]
    10 marks
    Question 3: Theory Question (2 out of 3)
    [Each of 5 marks]
    10 marks
    Section: II - 35 marks
    Question 4: a)Short Type Question (7) [Each of 1 mark]
    b)Theory Questions (4 out of 6 )[Each of 2 marks]
    07 marks
    08 marks
    Question 5: Practical/Scenario based Problem (2) with Internal Option [Each of 5 marks] 10 marks
    Question 6: Theory Question (2 out of 3) [Each of 5 marks] 10 marks
    • Question 1(a) and 4(a) includes very short answer questions whose answer can be given in one statement,which may also include to idenitify program error, find out program output etc.
    • Question 2 and 5 includes question of short answer of 20-25 words based on the basic introductory facts, objectives, and functions to test the understanding of the subject matter. Further the question items may includes parameters like advantages, disadvantages, comparison, effectiveness, etc. of concepts.
    • Question 3 and 6 include question of long answer of 150 words test the analytical ability to analyze a scenario and apply theory for the solution.
  • The letter grade awarded to a student in a course shall be based on CIE and SEE. The letter grades O A B C D E F indicate level of academic achievement assessed on a 10 point scale.
    Letter Grades: O A B C D E (Pass) F (Fail)
    Grade Points: 10 9 8 7 6 5 4
    Raw Score: 90% and above Below 90% - 80% and above Below 80% - 70% and above Below 70% - 60% and above Below 60% - 50% and below Below 50% - 40% and above Below 40%
  • The overall performance of a student will be indicated by two indices:
    SGPA (Semester Grade Point Average) and CGPA (Cumulative Grade Point Average).
    SGPA is calculated on the basis of course credit and grade point of all courses in that semester. CGPA is cumulative in nature.
Curriculum
Please visit the link below
SEMESTER - 1
Sr.No Subjects Teaching Scheme (Hours) Theory (Marks) Practical (Marks) Total (Marks)
Theory Practical Credits CIE SEE CIE SEE
Theory Practical
1 030070101-Advanced Calculus-I 4 - 4 - 30 70 - - 100
2 030070103-Physics 3 2 3 1 30 70 15 35 150
3 030070104-Fundamentals of Electrical & Electronics 4 2 4 1 30 70 15 35 150
4 030070105-Fundamentals of Computer Programming 4 2 4 1 30 70 15 35 150
5 030070106-Engineering Graphics 2 4 2 2 30 70 15 35 150
6 030070107-Environmental Studies 2 - 2 - 30 70 - - 100
  Remedial Sessions/Continuous Evaluation/ Presentation - - - - - - - - -
Total 19 10 19 5 180 420 60 140 800
SEMESTER - 2
Sr.No Subjects Teaching Scheme (Hours) Theory (Marks) Practical (Marks) Total (Marks)
Theory Practical Credits CIE SEE CIE SEE
Theory Practical
1 030070201-Linear Algebra 4 - 4 - 30 70 - - 100
2 030070203-Professional Communication 2 2 1 30 70 15 35 150
3 030070204-Fundamentals of Civil Engineering 4 2 4 1 30 70 15 35 150
4 030070205-Fundamentals of Mech. Engineering 4 2 4 1 30 70 15 35 150
5 030070206-Mechanics of Solids 4 2 4 1 30 70 15 35 150
6 030070207-Workshop Practices - 4 - 2 - - 15 35 50
  Remedial Sessions/Continuous Evaluation/ Presentation - - - - - - - - -
Total 18 12 18 6 150 350 75 175 750
SEMESTER - 3
2016 - 17
Sr.No Subjects Teaching Scheme (Hours) Theory (Marks) Practical (Marks) Total (Marks)
Theory Practical Credits CIE SEE CIE SEE
Theory Practical
1 030070303-Electronic Circuits - 1 4 2 4 1 40 60 20 30 150
2 030070304-Digital Electronics 4 2 4 1 40 60 20 30 150
3 030070305-Network Theory 4 - 4 - 40 60 - - 100
4 030070308 Engineering Mathematics - III 4 - 4 - 40 60 - - 100
5 030070309 - Signal and System 4 2 4 1 40 60 20 30 100
6 030070310-Management and Enterprunership 3 - 3 - 40 60 - - 100
  030070311 - Open Source Laboratory - 2 - 1 - - 20 30 50
Total - - - - 240 360 80 120 800
OLD
Sr.No Subjects Teaching Scheme (Hours) Theory (Marks) Practical (Marks) Total (Marks)
Theory Practical Credits CIE SEE CIE SEE
Theory Practical
1 030070301-Differential Equations 4 - 4 - 30 70 - - 100
2 030070303-Electronic Circuits - 1 4 2 4 1 30 70 15 35 150
3 030070304-Digital Electronics 4 2 4 1 30 70 15 35 150
4 030070305-Network Theory 4 2 4 1 30 70 15 35 150
5 030070306-Electrical Machines 4 - 4 - 30 70 - - 100
6 030070307-Electronics Workshop and Simulation Laboratory - 4 - 2 - - 30 70 100
  Remedial Sessions/Continuous Evaluation/ Presentation - - - - - - - - -
Total 20 10 20 5 150 350 75 175 750
SEMESTER - 4
Sr.No Subjects Teaching Scheme (Hours) Theory (Marks) Practical (Marks) Total (Marks)
Theory Practical Credits CIE SEE CIE SEE
Theory Practical
1 030070401-Complex Analysis and Numerical Methods 4 - 4 - 30 70 - - 100
2 030070402-Personnel Management 3 - 3 - 30 70 - - 100
3 030070403-Microprocessor & Interfacing 4 2 4 1 30 70 15 35 150
4 030070404-Electronics Circuits - II 4 2 4 1 30 70 15 35 150
5 030070405-Control Systems 4 2 4 1 30 70 15 35 150
6 Elective 3 2 3 1 30 70 15 35 150
Total 22 8 22 4 180 420 60 140 800
Elective
030070406-OOPS with C++
030070407-Energy Systems
030070408-Non-Conventional Energy Sources
SEMESTER - 5
Sr.No Subjects Teaching Scheme (Hours) Theory (Marks) Practical (Marks) Total (Marks)
Theory Practical Credits CIE SEE CIE SEE
Theory Practical
1 030070501-Analog Communication 4 2 4 1 30 70 15 35 150
2 030070502-Integrated Circuit and Application 4 2 4 1 30 70 15 35 150
3 030070503-Microcontroller and Interfacing 4 2 4 1 30 70 15 35 150
4 030070504-Engineering Electromagnetic 3 - 3 - 30 70 - - 100
5 030070505-Video Engineering 3 2 3 1 30 70 15 35 150
6 Elective 3 2 3 1 30 70 15 35 150
Total 21 10 21 5 180 420 75 175 850
Elective
030070506-Visual Basic Application and Programming
030070507-Conventional Power Engineering
030070508-Electrical Power Utilization and Traction
Fee Structure
1. Tuition Fee

Rs. 39,500 Per Semester.

2. Other Fee

Rs. 3,250 Per Semester

(It includes Cultural Activities, Sports Activities, Internal Examination, Laboratory support, Books support, Student Welfare, Campus Development)

3. One Time Fee

Rs. 6,150 At time of admission

(It includes College Deposit, Registration, and I-Card)


*Final decision by Fee Regulatory committee of Gujarat state
Programme Outcome (PO) & Programme Specific Outcomes (PSO)
Programme Outcome (PO)
  • PO 1: Engineering knowledge: An ability to apply knowledge of mathematics, science, and engineering
  • PO 2: Problem analysis: An ability to identify, formulates, and solves engineering problems
  • PO 3: Design/development of solutions: An ability to design a system, component, or process to meet desired needs within realistic constraints
  • PO 4: Conduct investigations of complex problems: An ability to use the techniques, skills, and modern engineering tools necessary for solving engineering problems.
  • PO 5: Modern tool usage: The broad education and understanding of new engineering techniques necessary to solve engineering problems.
  • PO 6: The engineer and society: Achieve professional success with an understanding and appreciation of ethical behaviour, social responsibility, and diversity, both as individuals and in team environments.
  • PO 7: Environment and sustainability: Articulate a comprehensive world view that integrates diverse approaches to sustainability.
  • PO 8: Ethics: Identify and demonstrate knowledge of ethical values in non-classroom activities, such as service learning, internships, and field work.
  • PO 9: Individual and team work: An ability to function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
  • PO 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/receive clear instructions.
  • PO 11: Project management and finance: An ability to 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.
  • PO 12: Life-long learning: A recognition of the need for, and an ability to engage in life-long learning.
Programme Specific Outcomes (PSO)

After successful completion of programme graduate will able to:

  • PSO1: Analyse specific engineering problems relevant to Electronics & Communication Engineering by applying the knowledge of basic sciences, engineering mathematics and engineering fundamentals.
  • PSO2: An ability to apply the concepts of Electronics, Communications, Signal processing, VLSI, Control systems etc., in the design and implementation of application oriented engineering systems.
  • PSO3: An ability to solve complex Electronics and communication Engineering problems, using latest hardware and software tools, along with analytical and managerial skills to arrive appropriate solutions, either independently or in team.
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