Agk New-syllabus 2014 Single

8/11/2019 Agk New-syllabus 2014 Single

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Editorial Board:

Prof. Dr. Muhammad Abdul Goffar Khan

Dr. Md. Shamim Anower

Dr. Md. Masud Rana

Ms. Jishan-E-Giti

Edition:

1st Edition, March 2014.

Mailing address:

Head

Department of Electrical & Electronic Engineering

Rajshahi University of Engineering & Technology

Rajshahi-6204, Bangladesh.

Phone: +88-0721-750356, PABX: +880-0721-750742-43, Ext. 403

Fax: +88-0721-750356

Email : [email protected]

Printed at The Bengal Press, Ranibazar,Rajshahi.


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DISCLAIMER

The information contained in this booklet is intended to provide guidance to those who are concerned with both

undergraduate and postgraduate studies in Electrical & Electronic Engineering. No responsibility will be borne by

the Department of Electrical & Electronic Engineering or the Rajshahi University of Engineering & Technology if

any inconvenience or expenditure is caused to any person because of the information of this booklet or any error in

quoting the rules and regulations described herein. The information contained in it is subject to change at any time

without any prior notification.


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PREFACE

Department of Electrical and Electronic Engineering (EEE) of Rajshahi Universirty of Engineering & Technology

(RUET) offers both undergraduate and postgraduate programs. Both the undergraduate and the postgraduate

programs run based on the course system. The program syllabus and guidelines (rules and regulations) are

incorporated in this booklet for information to present and prospective students and faculty members of this

university.

The department produces competent engineers to meet the local and global technological challenges in EEEfields. It has highly qualified teaching staffs and rich laboratory facilities. The EEE graduates of the department are

among the technology leaders worldwide.

To maintain its leading position in producing technology leaders in EEE fields it was necessary to revise the

syllabus according to global needs. Therefore, a major revision is done, in the syllabus content, recently to cater

recent advancement and developments in the field of Electrical & Electronic Technology. The new syllabus for the

undergraduate program is divided into core and optional courses. The core courses (contains both departmental and

related subjects) are mandatory for each and every student. The optional courses are divided in three major tracks

namely power, electronics, and communication engineering. Students have the freedom to choose any of the tracks

according to their carreer goals.

Some general information about this university, its historical background, facilities and information on the

teaching department and the university administration have also been included herein. The students are advised to

keep touch with their course coordinator and advisers of the department to learn any changes made by the authority.

March 2014


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CONTENTS

Chapter 1

About the University 1

The University 1

Location 1

Campus 1

List of Committees 1Library facilities 2

Student Health Service 2

Computer Center 2

Directorate of Student Welfare 2

Games and Sports 3

Students Hall of Residence 3

Auditorium Complex and Seminar Hall 4

Departments 4

Academic Support Units 4

RUET Administration 5

Department of Electrical & Electronic Engineering 6The Department 6

List of Faculty Members 6

Laboratory Facilities of the Department 9

Consultancy, Research and Testing Services 9

Electrical & Electronic Engineering Association 9

Chapter 2

Academic Ordinance for Undergraduate Studies 10

Chapter 3

Syllabus for Undergraduate Program 42Semesterwise Course plan 42

Detail Syllabus 48

Chapter 4Academic Ordinance for Postgraduate Studies 30

Chapter 5

Syllabus for Post-Graduate Program 81

Detail Syllabus 85


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Chapter 1

RAJSHAHI UNIVERSITY OF ENGINEERING & TECHNOLOGY

The University

RUET is one of the five universities for engineering education in Bangladesh. It is the second oldest of the typeestablished in 1964 as the center of excellence for higher studies, research and development in engineering and

technology in Bangladesh. It was first named as Engineering College, Rajshahi (ECR) in 1964, upgraded to

Bangladesh Institute of Technology, Rajshahi (BIT Rajshahi) in 1986 and finally as a full fledge university in

September 2003.

LocationThe university is located in Motihar region of Rajshahi city. It is about five kilometers east from the city center

and at the northern side of Rajshahi-Natore-Dhaka highway. The university has an ever green campus having

mango, lichi, coconut, black berry, and debdaru gardens on 152 acres of land.

The Campus

The RUET Campus is a picturesque with architecture and natural beauty. The campus area has been divided into

different functional zones: (i) Residence for students, (ii) Residential zones for faculty and other supporting staff,

(iii) Academic zone for academic buildings, laboratories, workshops, and (iv) Cultural cum social and recreational

zones for students. A branch of Rupali Bank with an ATM booth, a post office, an auditorium, a central cafeteria,

and a medical center are also located on the campus. There is Agrani School and College in the campus for

facilitating education of the children of university employees. A shopping center is situated near the student

dormitories to meet daily needs of the students. A barbar shop and a laundry are also situated at close proximity of

the center.

University AuthorityThe university has the following statutory committees for dealing student related affairs:

1)

Syndicate

2)

Academic Council3)

Deans Executive Committee

4) Students Discipline Committee

5) Committee for Advanced Studies and Research (CASR)

6) Postgraduate Academic Committee (PGAC)

7) Undergraduate Academic Committee (UGAC)

ACADEMIC SUPPORT UNITS

Library Facilities

a) Central LibraryThe central library building is within the walking distance from the academic buildings. It is a compact building

with built-in facilities to provide the following services to the students and teachers.

i)

Acquisition and processing of books and other printed and electronic materials.ii) Issue and receipt of books.

iii) Research aid and Journal section.

iv) Reading room.

b) Rental LibraryEach degree awarding department has its own rental library that provides books on rent to the students.

Students Health ServiceAn on campus medical center provides primary and basic health care facilities to the students (residential and

non-residential) free of charges. Full-time MBBS doctors, nurses, and staffs provide these facilities to the students.

For specialized consultation on complicated cases, the center refers the patients to specialist consultants.


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Computer Center and Server Station

The central computer center plays an important role in the teaching and research of the students of different

departments and provides useful services in data processing required in various sectors on national development.

Each department also has separate computer laboratory where the students and the teachers of the respective

departments can use computers for their thesis and research works. These computer centers are equipped with

Pentium based machines operated under Windows and LINUX/UNIX operating system.

Directorate of Student WelfareThe Directorate of Student Welfare is responsible for various activities related to physical, mental, social, and

other aspects for welfare of the students. These include regulating seat allocation process in the halls of residence,

programs for physical education, games and sports, supervision of other co-curricular activities of students through

the Central Students Union and through the students union of the various halls of residence. It is also responsible for

providing health services to the students, arranging career fair, employment for students and to organize and

maintain contact with the alumni association of RUET, etc.

The Central Students Union, most of its members are elected by the students, bridges between students need and

policy making authorities of the university. Unions of the various residential halls also arrange their individual

socio-culture activities, literary competitions etc and help the hall authority in normal functioning of the halls.

Games and Sports Facilities

The sports center of RUET provides excellent facilities to students for acquiring physical fitness that is

indispensable for a healthy mind and body. The institute maintains both outdoor and indoor gaming and gymnasium

facilities for the students. There is a beautiful play ground for outdoor games like football, volleyball and cricket,

two tennis lawns and a basket ball court. The center arranges a colorful athletic competition every year in the form

of annual sports meet.

For improvement of the standard of games and spots, regular coaching by experts is arranged. The institute arranges

inter-year, inter-departmental football, cricket, basket-ball and volleyball competitions. Teacher student friendly

games are also arranged at occassions.

Students Hall of Residences

There are seven halls of residence at the campus. The total capacity of these halls is about 2100. Followings are the

halls with their respective capacities. Some of the halls are named after the national Heros, students of ECR, who

have sacrificed their lives in the liberation war of Bangladesh in 1971 and legendary leaders of the country.

The existing capacity is around 80% of the total number of students of the university. Non residential students are to

be attached with a hall so that the administrative control on the students becomes easy.

Serial No Name of the Halls Residential

capacity

1. Shahid President Ziaur Rahman Hall 450

2. Bangabandhu Sheikh Mujibur Rahman Hall 450

3. Shahid Lt. Selim Hall 350

4. Shahid Shahidul Islam Hall 225

5. Shahid Abdul Hamid Hall 225

6. Tin Shed Hall (Extension) 100

7. Deshratna Sheikh Hasina Hall 250

All halls are set in gardens and frontal green plantations and lawns and within easy walking distance of the academic

buildings. The students live in these halls on community basis, while a single room depending on its size is shared

by 2, 3 or 4 students. Each hall has a common room facility. A provost and few assistant provosts administrate each

hall.

Auditorium Complex and Seminar Hall

The university has an Auditorium Complex with modern facilities having a seating capacity of about 720 which is

capable of holding conference, seminar and other cultural programs. Beside this, there is an air-conditioned

conference hall with capacity of 40 in the department of Electrical & Electronic Engineering.


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ACADEMIC FACULTIES AND DEPARTMENTSThe teaching departments are grouped in under four faculties. Presently there are 10 departments offering

undergraduate degrees and 09 departments offering graduate/post graduate (Master/PhD) degrees. Departments

under the faculty of applied science and engineering do not offer undergraduate programs. They only run post

graduate programs and teach corresponding courses to undergraduate degree awarding departments.

Faculty of CIVIL Engineering

Department of Civil EngineeringDepartment of Architecture

Department of Urban & Regional planning

Faculty of Electrical & Computer Engineering


Department of Computer Science & Enginering

Department of Electronics & Telecommunication Engineering

Faculty of Mechanical Engineering

Department of Mechanical Engineering

Department of Glass & Ceramic Engineering

Department of Industrial & Production Engineering

Department of Mechatronics Engineering

Faculty of Applied Science & Engineering

Department of Mathematics

Department of Physics

Department of Chemistry

Department Humanities


The Department

The department buildings are located at the eastern side of the campus. It has four buildings. There are about 2000

students, 30 teachers, 30 officers and staffs. The department has both undergraduate and post graduate programs and

awarding both the degress regularly. It has eight well-established modern equipment enriched laboratories, a rental

library for students where various departmental books and journals are available on rent, a conference hall, and

several multimedia class rooms. It gives awards to outstanding students of the department including the Joynal

Memorial Award of the university.

There is an association named Association of Electrical and Electronic Engineering in the department. All teachers

and students of the department are members of the association. It arranges sports, seminars, and other co-curricular

activities on behalf of the department. The department plays a vital role in solving/serving the local and national

industrial problems/needs by providing testing and consulting facilities.

List of Faculty Members

1. Dr. Md. Mortuza Ali Professor

B. Sc Engg (RU), M. Engg & Ph.D (Japan)

Field of Specialization: High Power Microwave devices

2. Dr. Muhammad Abdul Goffar Khan Professor

B. Sc Engg (RU), M.Sc. Engg. (BUET), Ph.D (IITK, India)

Field of Specialization: High Voltage Engineering

3. Dr.Md. Rafiqul Islam Sheikh Professor

B. Sc. Engg.(BITR), M.Sc. Engg. (BITR), PhD (Japan)

Field of Specialization:Smart Grid & Renewable Energy


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4. Dr. S. M. Abdur Razzak Professor

B. Sc. Engg.(BITR), M.Sc Engg. (RUET), M.Eng. & PhD (Japan)

Field of Specialization:Photonics and Optical fiber system

5. Dr. Md. Zahurul Islam Sarkar Associate Professor

B. Sc. Engg.(BITR), M.Sc. Engg. (BITR). PhD (Ireland)

Field of Specialization:Wireless communication

6. Mr. Md. Shahidul Islam Associate ProfessorB. Sc. Engg.(BITC), M.Sc. Engg. (BUET)

Field of Interest:Nano materials and fabrication

7. Dr. Ajay Krishno Sarkar Assistant Professor

B. Sc. Engg.(BITR), M.Engg. (Japan), PhD (Australia)

Field of Specialization:Microwave circuits.

8. Dr. Md. Shamim Anower Assistant Professor

B. Sc. Engg.(BITR), M.Sc.Engg. (RUET), PhD (Australia)

Field of Specialization:Underwater Communication.

9. Mr. Md. Zulfiquar Ali Bhotto* Assistant Professor

B. Sc. Engg.(BITR)

10. Dr.Md. Faruk Hossain Assistant Professor

B. Sc. Engg.(BITR). M.Sc.Engg. (RUET), M.Engg. & PhD (Japan)

Field of Specialization:Nano technology

11. Mr. Md. Rabiul Islam* Assistant Professor

B. Sc. Engg. (BITR), M.Sc.Engg.(RUET)

12.Mr. Md. Rakibul Islam* Assistant Professor

B. Sc. Engg.(BITR), M.Sc.Engg.(RUET)

13. Mr. A. B. M. Nasiruzzaman* Assistant Professor

B. Sc. Engg.( RUET), M.Sc.Engg.(RUET)

14. Dr. Md. Selim Hossain Assistant Professor

B. Sc. Engg.( RUET), M.Sc.Engg.(RUET), PhD (Australia)

Field of Specialization: Antenna array signal processing

15. Mr. Md. Shah Alam Assistant Professor

B. Sc. Engg.(RUET), M.Sc.Engg.(RUET), M.Engg. (Thailand)

Field of Interest:Nanoelectronics and nanophotonics.

16. Mr. Abdul Khaleque* Assistant Professor


17. Dr. Md. Masud Rana Assistant Professor

B. Sc. Engg.( RUET), PhD (Australia)Field of Specialization:Computational electromagnetics

18. Mr. Md. Sohel Rana* Assistant Professor

B. Sc. Engg.( RUET)

19. Mr. Md. Selim Habib* Assistant Professor


Field of Interest:Photonics and Electro-optics.


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20. Mr. Md. Samiul Habib Assistant Professor


Field of Interest:Photonics and Electro-optics.

21. Mr. Tanvir Ahmed* Assistant Professor


22. Mr. Md. Forhad Zaman* Assistant Professor


23. Ms. Nusrat Ahmed Surovhi* Lecturer

B. Sc. Engg.(RUET)

24. Mr. Abu Sadat Md. Sayem Lecturer

B. Sc. Engg.(RUET)

Field of Interest: Underwater communication.

25. Mr. Mohammad Abdul Motin Lecturer

B. Sc. Engg.(RUET)

Field of Interest:Computational electromagnetics

26. Ms. Jishan-E-Giti Lecturer

B. Sc. Engg.(RUET).

Field of Interest:Wireless communication

27. Mr. G. K. M. Hasanuzzaman Lecturer

B. Sc. Engg.(RUET).

Field of Interest: Photonics and Electro-optics

28. Mr. Md. Mamunur Rashid Lecturer

B. Sc. Engg.(RUET).

Field of Interest:Antenna array signal processing.

29. Mr. Pejush Kumar Sarkar Lecturer

B.Sc.Engg.(RUET)

Field of Interest:Microwave Circuits

(*) On leave for higher study.

Laboratory FacilitiesThe department provides adequate laboratories, library and other facilities to its members and students. The

departmental undergraduate courses are augmented by intensive laboratory works in the name of sessional courses

based on its theoretical counter parts and this requirement is catered by the following laboratories at present.

1. Computer Systems & Simulation Laboratory2. Digital Electronics & Control Laboratory3. Electrical Machines & Drives Laboratory

4. Electronics & Power Electronics Laboratory5. Electrical Workshop & Design Laboratory6. Measurement & Instrumentation Laboratory7. Microwave &Telecommunication Laboratory8. Nanotechnology & Nanofabrication Laboratory9. Fiber Optics & Photonics Laboratory (Proposed)10.High Voltage & Switchgear Laboratory (Poposed)


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Electrical & Electronic Engineering AssociationTo facilitate academic and extra-academic activities of the students & teachers of the department there is an

Electrical & Electronic Engineering Association consisting of class representatives who are elected by the students

themselves. The Association works under the direct supervision and guidance of the Head of the Department. The

major source of the Association fund is contribution made by the department students and the teachers. The head of

the department nominates one faculty member to act as honorary treasurer of the association.


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Chapter 2

Academic Ordinance for Undergraduate Studies for the Award of Bachelor of Science in

Engineering Degrees

(Effective from Session 2012-2013)

1. Definitions1.1 University means the Rajshahi University of Engineering & Technology abbreviated as RUET.

1.2 Syndicate means the Syndicate of the University.

1.3 Academic Council means the Academic Council of the University

1.4 The Undergraduate Academic Committee abbreviatioted as UGAC means the Committee for

Undergraduate Courses and Studies of any Degree Awarding Department of the University.

2. Departments

2.1 Undergraduate Degree Awarding Departments:

The University has the following undergraduate Degree Awarding Departments:

i)


ii)

Department of Computer Science and Engineering

iii)

Department of Electronics & Telecommunication Engineering

iv)

Department of Civil Engineering

v) Deparetment of Urban & Regional Planning

vi)

Department of Architecturevii) Department of Mechanical Engineering

viii) Department of Industrial & Production Engineering

ix) Department of Glass & Ceramic Engineering

x)

Department of Mechatronics Engineering

xi)

Any other department to be instituted by the Syndicate on recommendation of the Academic Council.

2.2 Teaching Departments

The university has the following teaching departments in addition to the departments listed in section 2.1 as defined

in the statutes:

i)

Department of Chemistry

ii)

Department of Humanities

iii) Department of Mathematics

iv)

Department of Physicsv) Any other department to be instituted by the syndicate on recommendation of the Academic Council.

3. Degrees OfferedThe University offers courses leading to the award of the following undergraduate degrees

i)

Bachelor of Science in Architecture

ii)

Bachelor of Science in Civil Engineering

iii)

Bachelor of Science in Computer Science & Engineering

iv)

Bachelor of Science in Electrical & Electronic Engineering

v)

Bachelor of Science in Electronics & Telecommunication Engineering

vi)

Bachelor of Science in Glass & Ceramic Engineering

vii) Bachelor of Science in Industrial & Production Engineering

viii)

Bachelor of Science in Mechanical Engineering

ix)

Bachelor of Science in Mechatronics Engineeringx) Bachelor of Science in Urban & Regional Planning

xi) Any other degree that may be awarded by a department on the approval of the syndicate on the

recommendation of the Academic Council.

4. Student Admission, Equivalence and Transfer4.1 The four academic years of study for the degree of B. Sc. Engineering shall be designated as first year class,

second year class, third year class and fourth year class in succeeding higher levels of study. Students shall

generally be admitted into the first year class. In special cases, students may be admitted in to a higher year

class on the recommendation of the appropriate Equivalence Committee and Department concerned.


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4.2 The Academic Council for admission forms an Admission Committee in each academic session into first year

B. Sc. Engineering class.

4.3 A candidate for admission into the first year class must have passed the H.S.C. Examination at least in the

Second Division from a Higher Secondary Education Board in Bangladesh (after 12 years of schooling) with

Physics, Chemistry and Mathematics as his/her subjects of examination in higher secondary examination or

examination recognized as equivalent to, and must also fulfill all other requirements as may be prescribed by

the Admission Committee.

4.4 The rules and conditions for admission into various courses of studies or departments shall be framed by the

Academic Council on the recommendation of the Admission Committee.4.5 All candidates for admission into the courses of B. Sc. Engg. must be citizens of Bangladesh unless the

candidature is against the seats that are reserved for foreign students. Candidates for all seats except the

reserved ones, if any, shall be selected on the basis of merit. The rules for admission into the reserved seats

shall be framed by the Academic Council on the recommendation of the Admission Committee.

4.6 No student shall ordinarily be admitted in the first year class after the corresponding classes start or after the

call goes out for admission into the next session, which ever is earlier. Newly admitted students should be

notified the date of commencement of classes.

4.7 Admission on of a newly admitted student in the first year class will be canceled if for first two consecutive

weeks after the start of class he/she remains absent without prior permission. If any student fails to report due

to unavoidable circumstances within stipulated first two weeks time, he/she may appeal within next four

weeks to the Academic Council. The Councils decision will be final.

4.8 An Equivalence Committee consisting of at least five members for a period of 3 years shall be formed by the

Academic Council to consider the equivalence of different public examinations.

4.9 A candidate seeking admission on transfer from other University or University should apply to the Registrar

of the University. The Registrar will refer the case to the Head of the Department concerned and also to the

Equivalence Committee. On receiving the opinions of the Head of the Department and of the Equivalence

Committee, the matter will be placed before the Academic Council. The Academic Councils dec ision will be

communicated to the Head of the Department and the candidate.

4.10 There shall be no transfer in the first year class.

4.11 Every student being admitted to the University shall be examined by a competent medical officer as may be

provided in the admission rules.

5. Method of Course Offering and Instruction

The undergraduate program is based on course system. The salient features of course system are:

i) Number of theoretical course and examination papers will not exceed five in each semester.

ii) The absence of passes or fail on an annual basis.

iii) Continuous evaluation of students performance.iv) Evaluation by using Letter Grades and Grade Points instead of numerical grades.

1. Introduction of some additional optional courses and thus enable students to select courses accurse accordingto his/her interest as far as possible.

2. Opportunity for students to choose fewer or more courses than the normal courses loads depending on his/hercapabilities and needs.

3. The flexibility to allow the student to progress at his/her own pace depending on his/her ability or

convenience, subject to the regulations on credit and minimum grade point average (GPA) requirements.

4. Promotion of the teacher-student contact.

In the curriculum for the undergraduate programs, besides the professional courses pertaining to each discipline,

there is a strong emphasis on acquiring a thorough knowledge in basic sciences of mathematics, physics and

chemistry and subject in humanities and social sciences. Emphasis has been given to introduce courses

dealing with professional practices, project planning and management, socio- economic and environmentalaspects of development projects, communication skills etc. This will help the students to interact more

positively with society.

6. Academic Calendar

6.1 The academic year shall ordinary be divided into two semesters.

6.2 There are final examinations at the end of each semester conducted by the respective degree awarding

departments of the Institute.

6.3 On the approval of the Academic Council an academic schedule for the year is announced for general

notification before the start of the academic year.


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The schedule for an academic year may be prepared according to the following guidelines:

Semester-I No. of weeks

Classes 13

Mid-semester recess 1

Recess before examination 2

Semester Final examination* 2.1+

Publication of results 1.6

Sub total 20

Inter-semester Recess 1

Semester-II No. of weeks

Classes 13

Mid-semester recess 1

Recess before examination 2

Semester Final examination* 2.1Publication of results 1.6

Sub total 20

Inter-session break, Ramjan and other

vacations throughout the session

11

Total 52

* There shall be at least two examination dates in a week

+ The digit after the decimal indicates number of days

7. Duration of Course and Course Structure

7.1 The B.Sc. Engineering courses extend over a period of four academic years (8 semesters) each of a normalduration of one calendar year, which is divided as necessary for the purpose of academic program and

conduct of examinations.

7.2 The curricula of the B.Sc. Engineering degree in the different departments is as proposed by the committee of

courses and approved by the syndicate on the recommendation of the Academic Council.

7.3 The Committee of courses and studies review the curricula at least once in every academic year and put

forward suggestions to the Academic council.

7.4 Teaching for the courses is reckoned in credits and the credits allotted to various courses are determined by

the committee of courses and studies with the following guidelines:

Nature of Course Contact hour No. of Credit

i) Theory Lecture 1 hours/week 1.00

ii) Tutorial 1 hours/week 1.00

iii) IndependentLab/Sessional/ design

3/2 hours/week2 hours/week

3 hours/week

0.751.00

1.50

iv) Project/ thesis 6 hours/ week 4.50

vi) Field work 2 weeks of field work 1.00

7.5 In the case of combined theory and lab/sessional course, theory and related sessional course should be

considered together for grading and assigning credits for example, a course requiring three lectures per week,

one hour tutorial and three hours laboratory/sessional instruction per week may be assigned (3+1+1.5)= 5.5

credits.


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7.6 The total number of credits that a student has to complete successfully for the award of B.Sc. Engineering

degree is 160. The maximum period of candidature is seven years i.e., 3 years (6 semesters) more than the

normal time required to complete the course.

7.7 The total number of credits per week in a semester. However, a student may be allowed to register for less

than 15 credits in a semester if

i) He is considered academically weak.

ii) Number of credits required for graduation is less than 15 in that semester.

iii) Student can not find appropriate courses for registration subject to the approval of the adviser.

7.8 The Total contact hours for students inclosing lecture, tutorial and lab/sessional is around 25 periods perweek, each period being of 50 to 55 minutes duration with a bread of 5 minutes.

7.9 There should be an empty slot in the class routine to accommodate back logged course if necessary.

7.10 In each degree awarding department, one of the senior teachers nominated by the Head of the Department

acts as Course Coordinator who acts as Member Secretary to the committee of Courses and Studies.

7.11 A course plan for each course, approved by the Course Coordinator, showing details of lectures may be

announced at start of each semester.

7.12 Project & Thesis should preferably be of 3 credits. Credit in any theory subject does not exceed 4 and than in

sessional subject does not exceed 1.5.

8. Course Designation and numbering System

Letters before course number represent the department name, first digit represents academic year, second digit

represents semester, and last two digits represent course code. For example:

Course No: EEE 1101

Course Title: Electrical Circuit-I

EEE for Electrical and Electronic Engineering

First 1for 1st year

Second 1 for odd semester

Last two digits 01 for electrical circuit.

9. Type of courses

The courses included in undergraduate curricula are divided into several groups as follows.

9.1 Core Courses: In each discipline a number of courses are identified as core courses which form the nucleus

of the respective bachelors degree program. A student has to complete all of the designated core courses for

his discipline.9.2 Pre-requisite Course: Some of the core courses are identified as pre-requisite courses. A pre-requisite course

is one, which is required to be completed before some other course(s) can be taken. Any such course, on

which one or more subsequent courses build up, may be offered in each of the two regular semesters.

9.3 Optional Courses: Apart from the core courses, Students have to complete a number of courses which are

optional in nature. In that, Students have to select the required number of courses from a specified

group/number of courses.

10. Departmental Monitoring Committee and Student Adviser

10.1 Each department constitutes a Departmental Monitoring Committee with two teachers of the Department as

members nominated by the Committee of Courses studies and Head of the Department as chairman. This

committee monitors and evaluates the performance of the course system within the Department. The

committee may also propose from time to time to the Committee of courses and Studies any changes and

modifications needed for upgrading/changing the Undergraduate Curriculum and the Course System.

10.2 Student Adviser: An advisory board will be appointed for a batch of students of each department to advise

each student on the courses to be taken by the student. The advisory board or one of its members as decided

by the board will discuss with the student his academic program and then decide the number and nature of

courses for which he can register. However, it is the students responsibility to keep contact with his adviser

who will review and eventually approve the students specific plan of study and check on subsequent

progress.

11. Registration Requirements


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Each and every student must register for the courses he/she intends to take during a given semester on the

basis of the advice and consent of his/her adviser.

11.1 Registration Procedure: Student will fill up his/her Course Registration Form in consultation with and

under the guidance of his/her adviser and must submit to the Registrars Office within one week from the

commencement of the class. Late registration after this date will not be accepted unless the student submits a

written appeal to the Registrar through the concerned Head and can document extenuating circumstances such

as medical problems or some other academic commitments which precluded enrolling prior to the last date of

registration. Moreover, students who fail to register during the designated dates for registration will be

charged a late registration fee. However, no registration will be accepted after two weeks from thecommencement of the class.

11.2 Pre-Condition for Registration: A student will be allowed to register in those courses subject to the

capacity constrains and satisfaction of pre-requisite courses. If a student fails in a pre-requisite course in any

semester, the concerned Department Monitoring Committee may allow him to register for a course which

builds on the pre-requisite course provided his attendance and grades in continuous assessment in the said

pre-requisite course is found to be satisfactory.

Registration will be done at the beginning of each semester. Late registration is however, permitted during the

first week on payment of a late registration fee. Students having out standing dues to the Institute or a hall of

residence shall not. be permitted to register. All students have therefore, to clear their dues and get a clearance

or no dues certificate, on the production of which, they will be given necessary Course Registration Forms

and complete the course registration procedure. Registration Forms are normally available in the Registers

office. An orientation program will be conducted for only the first year students at the beginning of the first

semester when they will be handed over the registration package on producing enrollment slip/proof of

admission.

11.3 Pre-Registration: Pre-registration for course to be offered in a particular semester will be done on the

specified date before the end of the previous semester. All students in consultation with the advisor are

required to complete pre-requisition formalities, failing which a fine may be decided by the authority will

have to be paid before registration in the next term. Further a student who does not pre-register may not get

the courses desired by him subsequently.

11.4 Registration Deadline: Student must register for the courses to be taken before the commencing of each and

no late registration will be accepted after one week of classes which may be relaxed up to maximum of two

weeks for the newly admitted first year students. Late registration after this date will not be accepted unless

the student submits a written appeal to the Registrar through the concerned head and can document

extenuating circumstances such as medical problems ( physically incapacitated and not able to be presented)

or some other academic commitments which precluded enrolling prior to the last date of registration.

11.5 Penalty for Late Registration: Students who fail to register during the designated dates for registration are

charged a late registration fee decided by the authority. This extra fee will not be waived whatever be thereason for late registration.

11.6 Course Adjustment Procedure: A student would have some limited options to add or delete courses from

his/her registration list within the first two weeks from the beginning of the semester. Adjustment of initially

registered courses in any semester can be done by duly completing the Course Adjustment Form. These forms

are normally available in the Registrations office. For first year students such forms can be included in the

registration packet at the time of orientation.

Any student willing to add or drop courses will have to fill up a Course Adjustment From in consultation with

and under the guidance of his/her adviser. The original copy of the course Adjustment From will be submitted

to the Registrars Office and then the requisite number of photo copies will be made by the Registrars Office

for distribution to the concerned Adviser, Head and the student. All changes in courses must be approved by

the adviser and the Head of the department concerned. The Course Adjustment From will have to be

submitted to the Registrars Office afterduly filled in and signed by the concerned persons. To add/drop a

course respective teachers consent will be required.

11.7 Withdrawal from a Semester: If a student is unable to complete the semester Final Examination due to

illness, accident or any other valid reason etc. he/she may apply to the Head of the degree awarding

department for total withdrawal from the semester within a week after the end of the semester final

examination. However, he/she may choose not withdraw any laboratory/sessional/ design course if the grade

obtained in such a course is D or better. The application must be supported by a medical certificate from

any authorized Medical Officer.


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11.8 Registration Fee: Each student will pay a registration fee of Tk. 15/= per credit and must submit the

document of payment along with the registration form to the Registrars office. It must be noted here that, any

fraction in credit will be considered as a next higher integer credit for calculating registration fee.

12. Striking off the Names and Readmission12.1 The name of the students shall be struck of removed from the rolls on the following grounds:

i) Non-payment of university fees and dues within the prescribed period.

ii) Forced to discontinue his/her studies under disciplinary rules.iii) Withdrawal of names from the rolls of the university on grounds acceptable to the authority after having

cleared all dues.

iv) Could not earn required credits for graduation as outlined in the respective curriculum and/or fulfill

CGPA requirement within the maximum allowed time of 7 academic years.

12.2 Every student whose name has been struck off the rolls by exercise of the clauses (ii) of Article 12.1 seeking

readmission after expiry of the period for which he/she was forced to discontinue his/her studies, shall submit

an application to the Head of the Department in the prescribed form before the commencement of the session

to which he/she seeks readmission. The Head of the Department shall forward the application to the Director

of the Institute with his remarks. In case the readmission is allowed the student will be required on payment

of all dues to get him/herself admitted not later than one week from the date of permission given by the

Director. All readmission should preferably be completed before the session start. The percentage of

attendance of the readmitted students shall be counted from the date of readmission.

12.3 No student has withdrawn his/her name under clause (iii) of Article 12.1 shall be given readmission.

12.4 In case s student whose name has been struck off rolls under clause (i) of Article 12.1 seeks readmission

within the session in which his/her name was struck off, he/she shall be readmitted on payment of all the

arrears fees and dues. But if he/she seeks readmission in any subsequent session, the procedure for his/her

readmission will be same as described under Article 12.2.

12.5 The application of a student for readmission will be considered if he/she applies within two academic sessions

from the semester of discontinuance of his/her studies in the Institute. Other than Department as punishment

under ordinance if the Institute relation to discipline, a student of any kind failing for any other reason

whatsoever to become a candidate for a semester final examination in which he/she ought to have had in the

usual process of his/her progressive academic activities, shall be considered to have discontinued his/her

studies for the relevant semester together with striking the name off from current roll and two such

discontinuance periods will be considered equivalent to that for one academic session. The maximum period

of discontinuance under no circumstances is to exceed two academic sessions during a students period of

studies for the degree.12.6 In case any application for readmission is rejected, the student may appeal to the Academic Council shall be

final.

12.7 A student, whose name has been struck off the rolls by exercise of clause (iv) of Article 12.1, is not eligible to

seek readmission.

13. Grading System: The letter grade system shall be used to assess the performance of the student and shall be as

follows:

Numerical Grade Letter Grade Grade Point

80% or above A+ 4.00

75% to less than 80% A 3.75

70% to less than 75% A-

3.5065% to less than 70% B+ 3.25

60% to less than 65% B 3.00

55% to less than 60% B- 2.75

50% to less than 55% C+ 2.50

45% to less than 50% C 2.25

40% to less than 45% D 2.00

Less than 40% F 0.00


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A grade X shall be awarded for courses (like project & thesis, design, etc.) in the odd semester which continue

through to the even semester.

13.1 Calculation of GPA and CGPA: Grade point average (GPA) is the weighted average in a semester. F

grades do not count for GPA calculation. GPA of a semester will be calculated as follows.

Where, nis the total number of courses passed by the student in the semester, C iis the number of credits allotted to a

particular course i and Giis the grade point corresponding to the grade awarded for i- th course.

The overall or Cumulative grade point average (CGPA) gives the cumulative performance of the student from first

semester up to any other semester to which it refers and is computed as follows,

by dividing the total grade points (Ci Gi ) accumulated up to the date by the total credit (Ci). Both GPA and

CGPA will be rounded off to the second place of decimal for reporting.

The equivalent marks corresponding to CGPA of a student can be calculated as-

Eqivalent Marks = 79+84*(x-3.75) for 3.75x 4.0

= 44+20*(x-2.00) for 2.20x 3.75

Wherexis the CGPA of a student.

14. Distribution of Marks14.1 The distribution of marks for a given course will be as follows

i) Theory courses:

Class participation and performance 10%Quizzes/Class tests 20%

Semester final exam (3 hours duration) 70%

Total 100%

ii) Independent laboratory/sessional/design/field work coursesClass participation and attendance 10%

Quizzes 15%

Performance/reports 50%

Viva voce (conducted by the department) 25%

Total 100%

iii)Project & Thesis

Viva voce (conducted by a viva voce committee) 20%

Supervisor (internal examiner) 50%External examiner 30%

Total 100%

14.2 It is desirable that weightage on continuous assessment as described in Article 14.1 such as quizzes and class

tests, class participation and attendance etc. should be increased up to 50% and weightage on semester final

examination should be reduced to above 50% gradually.

14.3 Basis for calculating marks for class participation and attendance may be as follows:

Attendance Marks

n

i

i

n

i

ii

C

GC

GPA

1

1

n

i

i

n

i

ii

C

GC

CGPA

1

1


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18

90% and above 10%

85% to less than 90% 9%






Less than 60% 0%

14.4 The students whose percentage of attendance will fall short of 75% in any of the theory, lab/sessional courses

for which he/she has registered in one academic year shall not be eligible for the award of any type of

scholarship/stipend /grant for the following academic session.

15. Class Tests/Quizzes

i) There shall be at least four class tests on each theory course in a semester, out of which best three for each

student shall be used for assesment.

ii) Duration of quizzes/class tests should not exceed 15 minutes and shall be held during the scheduled lecture or

tutorial period. Materials covered should be what were taught in 2 to 3 previous classes or most recent

classes.

iii) The dates for the quizzes/class test shall be fixed by the Head or Course Coordinator and shall be announced

accordingly.

iv) Class tests shall ordinarily be of equal values. The marks obtained by the students in each individual class testshall be posted for information of the students preferably before the next class test is held.

16. Earned CreditsThe courses in which a student has obtained D or a higher grade will only be counted as credits earned by

him/her. A student, who obtains a F grade in any course in any semester, it would be a Backlog. If a student

obtains a D grade in a course will be allowed to repeat the course for the purpose of grade improvement if

CGPA of the student falls below 2.20. In such case he/she will be awarded the new grade thus he/she obtains

or retains his/her previous grade if he/she fails.

17. Performance EvaluationThe minimum CGPA requirement for obtaining a B. Sc. Engineering degree is 2.2. The performance of a

student will be evaluated in terms of two indices, viz. semester grade point average and cumulative grade

point average.Student will be considered to be making normal progress toward a degree if their CGPA for all courses

attended is 2.2 or more. Students who regularly maintain semester GPA or 2.20 or better are making good

progress toward their degrees and are in good standing with the University. Students who fail to maintain this

minimum rate of progress will not be in good standing. This can happen when one or more of the following

conditions exist:

i) Semester GPA falls below 2.20 or

ii) Cumulative GPA falls below 2.20

iii) Earned credits fall below 15 times the number of Semester attended/studies.

All such students can make up deficiencies in GPA and credit requirements by completing courses of next

semester(s) and backlog courses, if there be any, with better grades. When GPA and credit requirements are

achieved,

The student is returned to good standing. Students whose GPA will fall below 2.20 will have to be notified so

that the necessary remedial measures can be taken.

18. Honors, Vice Chancellors List and Syndicate Gold medal

Candidates for Bachelors degree in engineering will be awarded the degree with honors if their CGPA is

3.75 or higher.

In recognition of excellent performance, the names of students who maintains good standing with the Institute

obtaining SGPA of 3.75 or above in two regular semesters in each academic year may be published in the

Vice Chancellors List in each department. Students who have received F grade in any course during any of

the two regular semesters will not be considered for Vice ChancellorsList in that year.


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merits. After consideration of the petition and perhaps after consultation with the student, adviser and the

respective Head of the Department, vice chancellor in some cases; reinstate the student if this is the first

suspension. However, a second suspension will be regarded as final and absolute.

22. Measures for helping academically weak Students

The following provisions are made as far as possible to help academically weak students to enable them to

complete their studies within the maximum period of seven years.

a) All such students whose Cumulative Grade Point Average (CGPA) is less than 2.20 at the end of a

semester may be given a load not exceeding four theory/combined courses in the next semester.

b) For other academic deficiencies, some basic and core courses may be offered during the regular semester

under special arrangement in order to enable the student to partially make up for the reduced load during

regular semester.

Following criteria are followed for determining academically weak students.

i) CGPA falling below 2.20

ii) Semester grade point average (SGPA) falling below 2.20 points below that of previous semester.

iii) Earned credit calling below 15 times the number of semester attended.

23. Minimum Earned credit and GPA Requirements for Obtaining Degree

Minimum credit requirements for the awarded of Bachelor of Engineering Degree will be decided by therespective committee of courses and studies. The minimum CGPA requirements for obtaining a Bachelor of

Engineering Degree are 2.20.

A student may take additional courses with the consent of his/her adviser in order to raise CGPA, but he/she

may take a maximum of 15 such additional credits beyond respective credit requirements for bachelors

degree during his/her entire period of student.

24. Time Limits of Completion of Bachelors Degree

Students must complete his/her students within a maximum period of seven years for engineering.

25. Industrial/ Professional Training Requirements:

Depending on each Departments own requirement a student may have to complete a prescribed number of

days of industrial/ professional training in addition of minimum credit and other requirements, to the

satisfaction of the concerned department.

26. Application for Graduation and Award of Degree:

A student who has fulfilled all the academic requirements for bachelors degree will have to apply to the

Register/Director through his/her Adviser for graduation. Provisional degree will be awarded in completion of

credit and GPA requirements. Such provisional degree will be confirmed by the academic council.

27. Inclusion of repeaters from present system to the new course system

Repeater students will be included in the courses system of curricula as and when such situation will arise.

27.1 Equivalence of Courses and Grades: Equivalence of courses passed previously by any repeater student

shall be determined by the respective Committee of Courses & Studies for the purpose of:

a) Allowing course exemption and

b) Conversion of present grades into proposed grades in exempted courses.

27.2 Time Limit for Completion of Bachelors Degree: Time allowed for a student included in Course System

from Previous System to complete studies leading to a bachelors degree will be proportional to the

remaining credits to be completed by him/her.

A student in engineering for example, having earned 40 credit hours through equivalence and exemption (for

previously completed courses) out of a total requirement of 162 credits for bachelors degree will get.

(7 yr. X 122/162 = 5.25) = 5-1/2 years (rounded to next higher half-a year) or 11 (eleven) Regular semester to

fulfill all requirements for bachelors degree.

27.3 Relaxation of Course Registration for Repeaters: Relaxation of course Registration for a student

transferred to course system from Previous system: - the requirement of registration of minimum 15 credit

hours in a semester shall waived for only the semester of the year where he/she has been transferred in course

system provided that he/she has been granted exemption in some of the courses offered in those terms.


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Chapter 3 Courses for B Sc in Electrical and ElectronicEngineering

Semester-wise distribution of credits

Sl. Year/ SemesterTheory Sessional Total Credits

No of Course Credits No of Course Credits

1 1st/Odd 5 15 4 4.50 19.502 1st/Even 5 15 4 4.50 19.50

3 2nd/Odd 5 15 4 5.25 20.25

4 2nd /Even 5 15 4 5.25 20.25

5 3rd/Odd 5 15 4 4.50 19.50

6 3rd/Even 5 15 5 6.00 21.00

7 4th/Odd 5 14 6 5.50 19.50

8 4th/Even 5 15 4 5.50 20.50

Total 40 119 33 41.00 160.00

Summary of Undergraduate Course Plan

Sl. No. Course Type Credit %

1 Departmental Courses

Core Courses Theory 69Lab 32.75

Elective Courses Theory 15

Lab 2.25

Sub-Total 119.0 74.38

2 Related Courses

HumanitiesTheory 11

Lab 0.75

Sub-Total 11.75 7.34

Basic Sciences Theory 18

Lab 1.5

Sub-Total 19.50 12.19

Related Engg. Theory 6

Lab 3.75Sub-Total 9.75 6.09

Total 160 100.00

List of Undergraduate Courses

Core Courses (EEE)

Sl.

No.

Course

Number

Course Title Contact

Hrs/week

Credit

1 EEE 1101 Electrical Circuits 3 3.0

2 EEE 1102 Electrical Circuits Sessional 3 1.5

3 EEE 1201 Electrical Circuits 3 3.0

4 EEE 1202 Electrical Circuits Sessional 3/2 0.75

5 EEE 1203 Electronics 3 3.0

6 EEE 1204 Electronics Sessional 3 1.5

7 EEE 2100 Electrical Shop Practice 3 1.5

8 EEE 2103 Electronics 3 3.0

9 EEE 2104 Electronics Sessional 3 1.5

10 EEE 2203 Electronics I 3 3.0

11 EEE 2204 Electronics I Sessional 3 1.5

12 EEE 2105 Electrical Machine 3 3.0

13 EEE 2106 Electrical Machine Sessional 3 1.5

14 EEE 2205 Electrical Machine 3 3.0

15 EEE 2206 Electrical Machine Sessional 3 1.5

16 EEE 2211 Measurement and Instrumentation 3 3.0


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17 EEE 2212 Measurement and Instrumentation Sessional 3 1.5

18 EEE 2213 Digital Electronics I 3 3.0

19 EEE 2214 Digital Electronics I Sessional 3/2 0.75

20 EEE 3100 Electronic Shop Practice 3 1.5

21 EEE 3101 Signals and Linear Systems 3 3.0

22 EEE 3105 Control Systems 3 3.0

23 EEE 3106 Control Systems Sessional 3/2 0.75

24 EEE 3107 Electromagnetic Fields & Waves 3 3.0

25 EEE 3109 Computational Methods in Electrical Engineering 3 3.0

26 EEE 3110 Computational Methods in Electrical Engineering Sessional 3 1.5

27 EEE 3117 Communication Engineering I 3 3.028 EEE 3118 Communication Engineering I Sessional 3/2 0.75

29 EEE 3200 Electrical and Electronic Circuit Simulation Sessional 3 1.5

30 EEE 3203 Power Electronics 3 3.0

31 EEE 3204 Power Electronics Sessional 3/2 0.75

32 EEE 3205 Power Plant Engineering and Economy 3 3.0

33 EEE 3209 Microprocessor, Interfacing and System design 3 3.0

34 EEE 3210 Microprocessor, Interfacing and System design Sessional 3 1.5

35 EEE 3211 Power System 3 3.0

36 EEE 3212 Power System Sessional 3 1.5

37 EEE 3217 Communication Engineering II 3 3.0

38 EEE 3218 Communication Engineering II Sessional 3/2 0.75

39 EEE 4000 Project and Thesis 3 4.5

40 EEE 4100 Industrial Training 3 1.0

41 EEE 4107 Digital Signal Processing 3 3.0

42 EEE 4108 Digital Signal Processing Sessional 3/2 0.75

43 EEE 4117 Radio and TV Engineering 3 3.0

44 EEE 4118 Radio and TV Engineering Sessional 3/2 0.75

45 EEE 4200 Seminar 3 1.0

46 EEE 4209 Embedded System Design 3 3.0

47 EEE 4210 Embedded System Design Sessional 3/2 0.75

48 EEE 4217 Mobile Cellular Communication 3 3.0

Total 101.75

Core Courses (Humanities)

Sl.

No.

Course

Number


Hrs/weekCredits

1 Hum 1111 Technical English 3 3.0

2 Hum 1112 Technical English Sessional 3/2 0.75

3 Hum 1211 Financial Account and Economic Analysis 3 3.0

Total 7.5 6.75

Core Courses (Mathematics)Sl.

No.

Course

Number


Hrs/weekCredits

1 Math 1101 Engg. Mathematics 3 3.0



4 Math 2201 Engg. Mathematics V 3 3.0

Total 12 12.0

Core Courses (Physics)Sl.

No.

Course

Number


Hrs/week

Credits

1 Phy 1111 Physics 3 3.0

2 Phy 1112 Physics Sessional 3/2 0.75

Total 4.5 3.75

Core Courses (Chemistry)Sl.

No.

Course

Number


Hrs/weekCredits

1 Chem 1211 Chemistry 3 3.0

2 Chem 1212 Chemistry Sessional 3/2 0.75

Total 4.5 3.75


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Core Courses (ME)Sl.

No.

Course

Number


Hrs/weekCredits

1 ME 1200 Engineering Drawing 3 1.50

2 ME 2101 Basic Mechanical Engineering 3 3.0

3 ME 2102 Basic Mechanical Engineering Sessional 3/2 0.75

Total 7.5 5.25

Core Courses (CSE)Sl.

No.

Course

Number


Hrs/weekCredits

1 CSE 1111 Computer Programming 3 3.0

2 CSE 1112 Computer Programming Sessional 3 1.5

Total 6 4.5

Core Courses (IPE)Sl.

No.

Course

Number


Hrs/weekCredits

1 IPE 2111 Legal Issues and Management for Engineers 3 3.0

2 IPE 4111 Project and Operations Management 2 2.0

Total 5 5.0

Elective Courses

From 4th year 1st semester, the department starts offering elective courses under 3 major groups viz. Power,

Electronics and Communication.

Rules for distributing major groups are as follows:

1. Students will be assigned one of the three major groups on the basis of options given by the students and their

CGPA at the end of 3rd year odd semester. For regular students, this will be done in 3rd year even semester.

2. Maximum number of students in any major group will be N/3, where N is the total number of students in a

batch.

3.

A student will have to take 5 elective courses along with the corresponding sessional courses from the

respective major group.

4.

Students will be assigned their projects/ theses in 4th year odd semester from the area of their respective major

group.

5.

Maximum class size of an elective course for regular students will be N/3. However, a student who has

previously failed in an elective course will be allowed to re-register the course regardless of the class size.

6. In case of any unforeseen situation or ambiguity, the Department will take an appropriate decision.

a. Power GroupSl.

No.

Course

Number


Hrs/weekCredits

1 EEE 4141 Power System II 3 3.0

2 EEE 4142 Power System II Sessional 3/2 0.75

3 EEE 4143 High Voltage Engineering 3 3.0

4 EEE 4144 High Voltage Engineering Sessional 3/2 0.75

5 EEE 4241 Power System Protection 3 3.0

6 EEE 4242 Power System Protection Sessional 3/2 0.75

7 EEE 4243 Power System Operation and Control 3 3.0

8 EEE 4245 Electrical Machine III 3 3.0

9 EEE 4247 Renewable Energy 3 3.0

b. Electronics GroupSl.

No.

Course

Number


Hrs/weekCredits

1 EEE 4161 Digital Electronics II 3 3.0

2 EEE 4162 Digital Electronics II Sessional 3/2 0.75

3 EEE 4163 VLSI 3 3.0


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Chapter 4 Course Offering

1 Semester wise Course Distribution

Department will offer the courses to its students, in general, as per the following arrangement.

Ist Year Odd semester

Sl.No CourseNo. Course Title

Theory Sessional

TotalCreditsContactHrs/week

Credits ContactHrs/week

Credits

1 EEE 1101 Electrical Circuit I 3 3 3.00

2 EEE 1102 Electrical Circuit I Sessional 3 1.5 1.50

3 CSE 1111 Computer Programming 3 3 3.00

4 CSE 1112 Computer Programming Sessional 3 1.5 1.50

5 Math 1101 Engg. Mathematics I 3 3 3.00

6 Phy 1111 Physics 3 3 3.00

7 Phy 1112 Physics Sessional 3/2 0.75 0.75

8 Hum 1111 Technical English 3 3 3.00

9 Hum 1112 Technical English Sessional 3/2 0.75 0.75

Total 15 15 9 4.5 19.50

Ist Year Even semester

Sl.No

CourseNo.

Course Title Theory Sessional TotalCredits

Contact

Hrs/weekCredits

Contact

Hrs/weekCredits

1 EEE 1201 Electrical Circuit II 3 3 3.00

2 EEE 1202 Electrical Circuit II Sessional 3/2 0.75 0.75

3 EEE 1203 Electronics 3 3 3.00

4 EEE 1204 Electronics Sessional 3 1.5 1.50

5 Chem 1111 Chemistry 3 3 3.00

6 Chem 1112 Chemistry Sessional 3/2 0.75 0.75

7 Hum 1211 Financial Account & Economic Analysis 3 3 3.00

8 Math 1201 Engg. Mathematics II 3 3 3.00

9 ME 1200 Engineering Drawing 3 1.5 1.50

Total 15 15 9 4.5 19.50

2nd Year Odd semester

Sl.No

CourseNo.

Course Title

Theory SessionalTotal

CreditsContact

Hrs/weekCredits

Contact

Hrs/weekCredits

1 EEE 2100 lectrical Shop Practice 3 1.5 1.50

2 EEE 2103 Electronics II 3 3 3.00

3 EEE 2104 Electronics II Sessional 3 1.5 1.50

4 EEE 2105 Electrical Machine I 3 3 3.00

5 EEE 2106 Electrical Machine I Sessional 3 1.5 1.50

6 ath 2101 Engg. Mathematics III 3 3 3.00

7 ME 2101 Basic Mechanical Engineering 3 3 3.00

8 ME 2102 Basic Mechanical Engineering Sessional 3/2 0.75 0.75

9 IPE 2111 Legal Issues and Management for Engineers 3 3 3.00

Total 15 15 10.5 5.25 20.50

2nd Year Even semester

Sl.

No

Course

No. Course Title


CreditsContactHrs/week

Credits ContactHrs/week

Credits

1 EEE2203 Electronics III 3 3 3.00

2 EEE2204 Electronics III Sessional 3 1.5 1.50

3 EEE2205 Electrical Machine II 3 3 3.00

4 EEE2206 Electrical Machine II Sessional 3 1.5 1.50

5 EEE2211 Measurement & Instrumentation 3 3 3.00

6 EEE2212 Measurement & Instrumentation Sessional 3 1.5 1.50

7 EEE2213 Digital Electronics I 3 3 3.00

Total 15 15 10.5 5.25 20.25


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3rd Year odd semester

Sl.

NoCourse No. Course Title


CreditsContact

Hrs/weekCredits

Contact

Hrs/weekCredits

1 EEE 3100 Electronic Shop Practice 3 1.5 1.50

2 EEE 3101 Signals and Linear Systems 3 3 3.00

3 EEE 3105 Control Systems 3 3 3.00

4 EEE 3106 Control Systems Sessional 3/2 0.75 0.75

5 EEE 3107 Electromagnetic Fields & Waves 3 3 3.00

6 EEE 3109

Computational Methods in Electrical

Engineering 3 3 3.00

7 EEE 3110Computational Methods in Electrical

Engineering Sessional3 1.5 1.50

8 EEE 3117 Communication Engineering I 3 3 3.00

9 EEE 3118 Communication Engineering I Sessional 3/2 0.75 0.75

Total 15 15 9 4.5 19.50

3rd Year even semester

Sl.



CreditsContact

Hrs/weekCredits

ContactHrs/week

Credits

1 EEE 3200Electrical and Electronic Circuit Simulation

Lab3 1.5 1.50

2 EEE 3203 Power Electronics 3 3 3.00

3 EEE 3204 Power Electronics Sessional 3/2 0.75 0.75

4 EEE 3205 Power Plant Engineering and Economy 3 3 3.00

5 EEE 3209Microprocessor, Interfacing and System

design3 3 3.00

6 EEE 3210Microprocessor, Interfacing and Systemdesign Sessional

3 1.5 1.50

7 EEE 3211 Power System I 3 3 3.00

8 EEE 3212 Power System I Sessional 3 1.5 1.50

9 EEE 3217 Communication Engineering II 3 3 3.00

10 EEE 3218 Communication Engineering II Sessional 3/2 0.75 0.75

Total 15 15 12 6.00 21.00

4th Year odd semester

Sl. No Course No. Course Title

Theory Sessional

Total

CreditsContactHrs/we

ek

CreditsContact

Hrs/weekCredits

1 EEE 4000 Project & Thesis 3 1.5 1.502 EEE 4100 Industrial Training* 1 1.00

3 EEE 4107 Digital Signal Processing 3 3 3.00

4 EEE 4108 Digital Signal Processing Sessional 3/2 0.75 0.75

5 EEE 4117 Radio and TV Engineering 3 3 3.00

6 EEE 4118 Radio and TV Engineering Sessional 3/2 0.75 0.75

7 IPE 4111 Project and Operations Management 2 2 2.00

8 EEE **** Elective I 3 3 3.00

9 EEE **** Elective I Sessional 3/2 0.75 0.75

10 EEE **** Elective II 3 3 3.00

11 EEE **** Elective II Sessional 3/2 0.75 0.75

Total 14 14 9 5.5 19.50

*Industrial Training: Students will be attached with the industries/service agencies for two weeks after completing their Thirdyear first semester (before starting Third year second semester/during any vacation in Third year second semester) to gainpractical knowledge.

4th Year even semester

Sl.



CreditsContact

Hrs/weekCredits

Contact

Hrs/weekCredits

1 EEE 4000 Project & Thesis 6 3 3.00

2 EEE 4200 Seminar 2 1 1.00

3 EEE 4209 Embedded System Design 3 3 3.00

4 EEE 4210 Embedded System design Sessional 3/2 0.75 0.75

5 EEE 4217 Mobile Cellular Communication 3 3 3.00

6 EEE **** Elective III 3 3 3.00

7 EEE **** Elective III Sessional 3/2 0.75 0.75

8 EEE **** Elective IV 3 3 3.00

9 EEE **** Elective V 3 3 3.00


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Total 15 15 11 5.5 20.50

2 Elective Course divisionsFour elective courses (Elective IElective IV) will be offered to the students according to the following list:

Elective I

Group Course No. Course Title Credit

Power EEE 4141 Power System II 3.00

EEE 4142 Power System II Sessional 0.75

Electronics EEE 4161 Digital Electronics II 3.00

EEE 4162 Digital Electronics II Sessional 0.75

Communication EEE 4181 Microwave Engineering 3.00

EEE 4182 Microwave Engineering Sessional 0.75

Elective II


Power EEE 4143 High Voltage Engineering 3.00

EEE 4144 High Voltage Engineering Sessional 0.75

Electronics EEE 4163 VLSI 3.00

EEE 4164 VLSI Sessional 0.75

Communication EEE 4183 Digital Communication 3.00

EEE 4184 Digital Communication Sessional 0.75

Elective III


Power EEE 4241 Power System Protection 3.00

EEE 4242 Power System Protection Sessional 0.75

Electronics EEE 4261 Biomedical Engineering 3.00

EEE 4262 Biomedical Engineering Sessional 0.75

EEE 4267 Transducers and Instrumentation 3.00

EEE 4268 Transducers and InstrumentationSessional

0.75

Communication EEE 4281 Antennas and Propagation 3.00EEE 4282 Antennas and Propagation Sessional 0.75

Elective IV


Power EEE 4243 Power System Operation and Control 3.00

Electronics EEE 4263 Optoelectronics 3.00

Communication EEE 4283 Radar and Satellite Communication 3.00

Elective V


Power EEE 4245/EEE 4247

Electrical Machine III /Renewable Energy

3.00

Electronics EEE 4265 Processing & Fabrication Technology 3.00

Communication EEE 4285 Optical Fiber Communication 3.00


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Chapter 5 Course Contents

1 Core Courses offered by the Department of EEE

EEE 1101 Electrical Circuits IContact hours/week: 3 Credits : 3

Introduction of electrical power sources, ideal and practical sources, linear circuit elements. DC analysis of series,parallel and series-parallel circuits. Kirchhoffs Voltage and current laws, voltage, current, power and energy.

Sinusoidal wave: Average and effective values, form factor, peak factor, phase relation and phasors. Steady state AC

analysis of series, parallel and series parallel circuits, phase relation between voltage and current, concept of

impedance, power, power factor, phasor diagram. Network theorems: Superposition theorem, Thevenins theorem,

Nortons theorem, maximum power transfer theorem, substitution theorem and reciprocity theorem. Frequency

response of ac circuits, resonance phenomena.

Magnetic circuit and concepts: flux, fields, permeability reluctance, analysis of series, parallel and series- parallel

magnetic circuit.

EEE 1102 Electrical Circuits I Sessional

Contact hours/week : 3 Credits : 1.5

Sessional based on the theory of course EEE 1101.

EEE 1201 Electrical Circuits II

Contact hours/week :3 Credits: 3

Polyphase system, balanced and unbalanced three phase circuit analysis. Two-port network analysis. Coupled

circuit. Introduction to filter.

EEE 1202 Electrical Circuits II Sessional

Contact hours/week :3/2 Credits: 0.75


EEE 1203 Electronics I

Contact hours/week: 3 Credits: 3

Signals, their origin and processing in electronic system. Development of electronic processing devices; Vacuumtubes and semiconductor devices; P-N junction semiconductor diodes; Application of diode as rectifier, Zener diode

and its application.

BJT, FET, MOSFET : Characteristics, Biasing techniques, Stabilization factors, Compensation. Equivalent circuits,

single stage amplifiers at midband frequencies. Power amplifiers. Heat sink.

EEE 1204 Electronics I SessionalContact hours/week: 3 Credits: 1.5


EEE 2100 Electrical Shop Practice

Contact hours/week: 3 Credits:1.5Electricians tools, splices, soldering, code practices. Electrical and electronic symbols, Safety rules, electricity rule s

and electricity codes. Electrical wiring system design drawing and estimation for residential and commercial house

wiring and Industrial installation wiring. Use of meggers, Insulation test, Grounding earth resistance measurement

using earth resistance tester. Battery charging.


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EEE 2103 Electronics II

Contact hours/week: 3 Credits:3

BJT, FET, MOSFET multistage amplifier circuits. Frequency response of single stage and multistage amplifiers.

Introduction to CMOS and its applications.

Introduction to operational amplifiers: Basic linear and non linear applications. Frequency response, bandwidth and

other practical limitation of op-amps, compensation techniques. Feedback concept, Improvement of amplifier

characteristics by negative feedback. Classification, analysis of feedback amplifier. Sinusoidal oscillators: Concept

and its classification. Active filters. Negative impedance converters.

EEE 2104 Electronics II Sessional

Contact hours/week: 3 Credits:1.5


EEE 2203 Electronics III


Wave shaping: Linear and non-linear wave shaping, Clipping and Clamping circuits, Non Linear function circuits.

Negative resistance switching circuits. Timing circuits; Bi-stable, mono-stable and Astable multivibrators, Sweep

and staircase generator, IC 555 and its application. Application of op-amp in timing circuits, Comparators, Schimtts

Trigger. Pulse generator, VCO, PLL, Blocking oscillators.

EEE 2204 Electronics III SessionalContact hours/week: 3 Credits:1.5

Sessional based on the theory of course of EEE 2203.

EEE 2105 Electrical Machine I


Transformer: Ideal transformer- transformation ratio, no-load and load vector diagrams; actual transformer-

equivalent circuit, regulation, short circuit and open circuit tests. Three phase transformer and its connections;

Vector group of three phase transformers; Phase conversion.

Three Phase Induction Motor: Rotating magnetic field, equivalent circuit, vector diagram, torque-speed

characteristics, effect of changing rotor resistance and reactance on torque-speed curves, motor torque and

developed rotor power, no-load test, blocked rotor test, starting and braking and speed control; Induction generator.

Single Phase Induction Motor: Theory of operation, equivalent circuit and starting.

EEE 2106 Electrical Machine I Sessional

Contact hours/week: 3 Credits: 1.5


EEE 2205 Electrical Machine II


DC Generators: Types, no-load voltage characteristics, build up of a self excited shunt generator, load-voltage

characteristic, effect of speed on no-load and load characteristics and voltage regulation, armature reaction.

DC Motor: Operating principle, counter emf, torque, speed, torque-speed characteristics, starting, braking, and

speed control.

Synchronous Generator: Windings, excitation systems, equivalent circuit, vector diagrams at different loads,factors affecting voltage regulation, synchronous impedance, synchronous impedance methods of predicting voltage

regulation and its limitations. Parallel operation: necessary conditions, synchronizing, circulating current and vector

diagram.

Synchronous Motor:Operation, loading effect, effect of changing excitation, V-curves, and starting methods.

EEE 2206 Electrical Machine II Sessional




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EEE 2211 Measurement & Instrumentation


Introduction : Methods of measurement. Statistical method applied to field of measurement and error analysis and

calibration.

Resistance, Inductance and Capacitance measurements: Different methods of measuring high, medium and low

resistances. Methods of measuring self and mutual inductance and capacitance measurement. A.C. and DC bridge

methods, Measurement of insulation and earth resistances. Localization of cable fault.

Magnetic measurement: Flux meter, Flux and Flux density measurement. Determination of iron losses and their

separation.Measuring instruments : Classification of measuring instruments. Ammeter, Voltmeter, wattmeter, AVO meter,

Energy meter, Ampere-hour meter and Maximum demand meter for measuring AC and DC quantities. Speed,

frequency and phase difference measurements. Illumination measurement.

Electronic measuring instruments: Digital instruments, VTVM, Q-meter and CRO.

Instrumentation : Extension of instrument range. Use of C.T. and P.T and calculation of their burden,

Instrumentation of substation.

Measurement of non-electrical quantities: Transducer. Measurement of temperature, pressure, displacement,

velocity, acceleration. Strain gauge and their applications.

EEE 2212 Measurement & Instrumentation Sessional



EEE 2213 Digital Electronics IContact hours/week: 3 Credits:3

Analysis and Synthesis of Digital Logic Circuits:Number system, codes, and conversion.Boolean algebra, De

Morgans law, logic gates and truth tables, combinational logic design, minimization techniques, implementation of

basic static logic gates in CMOS and BiCMOS. Arithmetic and data handling logic circuits, decoders and encoders,

multiplexers and combinational circuit design.

Programmable Logic Devices: Logic arrays, Field Programmable Logic Arrays and Programmable Read Only

Memory.

Sequential Circuits: Different types of latches, flip-flops and their design using ASM approach, timing analysis,

timing analysis and power optimization of sequential circuits. Modular sequential logic circuit design: Shift

registers, counters and their applications.

EEE 2214 Digital Electronics I SessionalContact hours/week: 3/2 Credits:0.75


EEE 3100 Electronic Shop PracticeContact hours/week: 3 Credits: 1.5

Introduction to formal procedures of preventive maintenance. Circuit tracing, trouble shooting, fault repairing,

soldering and de-soldering of electronic circuits. Design of PCB layout, etching.

Radio receivers: Principles of operations, circuit tracing, fault finding by signal injection alignment. TV camera,

B/W TV, color TV. CD and VCD player.

EEE 3101 Signals and Linear Systems


Analogous system, Response to non-sinusoidal voltage, L-system. Transform methods, Purpose and nature of

transform, Fourier and Laplace transforms. Impulse function. Convolution integral and their application to network

and system analysis. Filter equations, modern filters.


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EEE 3105 Control Systems


Introductory Concepts: Open loop versus closed loop feedback system. Input output relationship. Transfer function.

DC machine dynamics, performance criteria, sensitivity and accuracy. Analysis of control systems time and

frequency domain error constants.

Stability of control system : Routh-Hurwitz criterion, bode plot, polar plot. Nyquist method. Root locus techniques.

Frequency response analysis. Nicholes chart, compensation. Introduction to non-linear control system. State variable

characterization of systems, transition matrix, canonical forms. Controllability and observability.

EEE 3106 Control Systems SessionalContact hours/week: 3/2 Credits: 0.75


EEE 3107 Electromagnetic Fields & WavesContact hours/week: 3 Credits:3

Electrostatics and Magnetostatics using vector methods. Fields in dielectrics and conductors. Boundary conditions of

Electric and Magnetic fields. Time Varying Fields; Maxwells equation and poynting vector. Uniform plane wave

and its transmission and reflection. Skin effect and Surface resistance. Wave guides. Introduction to radiation

system.

EEE 3109 Computational Methods in Electrical EngineeringContact hours/week: 3 Credits:3

Computer algorithm Mathematical modeling of physical systems. Iterative Techniques, Solution of simultaneous

equations, Interpolation, Curve fitting, Solution of Differential Equations. Numerical solution of Integration.

Application of the above techniques in Electrical & Electronic Engineering through computer program.

EEE 3110 Computational Methods in Electrical Engineering Sessional



EEE 3117 Communication Engineering IContact hours/week: 3 Credits:3

Introduction: Principle, evolution, networks, exchange and international regulatory bodies. Telephone apparatus:

Microphone, speakers, ringer, pulse tone dialing mechanism, side-tone mechanism, local and central batteries and

advanced features. Switching system: Introduction to analog system, digital switching systems space division

switching, blocking probability and multistage switching, time division switching and two dimensional switching.

Traffic analysis: Traffic characterization, grades of service, network blocking probabilities, delay system and

queuing. Modern telephone services and network: Internet telephony, facsimile, integrated services digital network,

asynchronous transfer mode and intelligent networks.

EEE 3118 Communication Engineering I Sessional

Contact hours/week: 3/2 Credits:0.75


EEE 3200 Electrical & Electronic Circuit Simulation Sessional


Verification of theories and concepts learned in electrical and electronic circuit theory courses using simulation

software(s). Solution of electrical (DC and AC) and electronic circuits by simulation.


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EEE 3203 Power Electronics


Power semiconductor switches and triggering devices: BJT, MOSFET, SCR, IGBT, GTO, TRIAC, UJT and DIAC.

Rectifiers: Uncontrolled and controlled single phase and three phase. Regulated power supplies: Linear-series and

shunt, switching buck, buckboost, boost and cuk regulators. AC voltage controllers, single and three phase.

Choppers. DC motor control. Single phase cycloconverter. Inverters: single phase and three phase current and

voltage source. AC motor control. Stepper motor control. Resonance inverters. Pulse width modulation control of

static converters.

EEE 3204 Power Electronics Sessional



EEE 3205 Power Plant Engineering and Economy


Introduction to thermal, hydro and nuclear power stations. Nuclear reactor, reactor construction and control. Power

reactors. Central station reactors. Nuclear hazards.

Variable load problems, plotting and analysis of load curves, chronological load curves and load duration curve.

Energy load curve and its use. Load factor, capacity factor, demand factor, utilization factor, diversity factor etc. and

there impact over the cost analysis of power generation and utilization.

Load forecasting, selection of units and plant location.

Load shearing: Base load and peak load plants. Use of chronological load curves to distribute load among units.

Power plant Economics: Economic operation of power plants. Input output curve, heat rate curve, incremental rate

curve. Use of incremental rate curve for optimum load scheduling. Transmission line loss, determination of loss co-

efficient. Economic conductor selection, Kelvins law. Graphical method for location of distribution systems. Tariff

and tariff design. Bus system. Importance of power control. Current limiting reactors. Different types of bus system

layout. Forces on bus section in case of short circuit.

EEE 3209 Microprocessor, Interfacing and System designContact hours/week: 3 Credits:3

Fundamental Concepts: Microprocessor: A programmable device; microcomputer components and support ICs,

building blocks of MPU based systems, microprocessor buses, programming principles using MASM,

microprocessor instructions.16-bit Architecture: Pin diagram and functions, memory organization, bus activities, register layout, internal

processing blocks.

Instruction Set: Classifications of instructions, addressing modes, address computing chart.

I/O Controller Programming: Port definition and read/write instructions, parallel I/O programming using 8255,

serial I/O programming using 8251, display programming using 8279 and LCD, keyboard programming using 8279

and discrete components, generation of timing functions using 8254 Timer/Counter.

Interrupt Structure: Interrupt terminologies, hardware and software interrupt, multiple interrupt management,

8259 interrupt controller.

Data Conversion Algorithm: BCD2BIN conversion, BIN2BCD conversion, binary multiplication, binary division.

System Design (8086 based digital weighing machine: DWM) Topdown/Bottomup design concept, hardware

block diagram, control program flow chart, weight/rate acquisition and processing and display, cost computation and

processing and display.

Advanced Microprocessors and Microcontrollers: History of the evolution of MPU/MCU, multitasking systems,

PVAM operation of Intel high performance architecture, overview of 80286 architecture, instruction andprogramming; overview of 80386 architecture, instruction and programming; CISC and RISC microcontrollers,

instruction and programming.

EEE 3210 Microprocessor, Interfacing and System design SessionalContact hours/week: 3 Credits:1.5



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Digital Filters: FIR filters- linear phase filters, specifications, design using window, optimal and frequency

sampling methods; IIR filters- specifications, design using impulse variant, bi-linear z-transformation, least square

methods and finite precision effects.

EEE 4108 Digital Signal Processing Sessional



EEE 4117 Radio and TV EngineeringContact hours/week: 3/2 Credits: 0.75

Introduction to radio communication, History, Frequency management. Design of radio transmitter

Agk New-syllabus 2014 Single

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