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Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 180
B. Sc. in Electronic and Telecommunication Engineering
(ETE)
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 181
Electronic and Telecommunications Engineering (ETE)
Todays era is of Information Technology. With the advent of the advance technologies in this field the whole world is becoming very easily accessible. Electronic and Telecommunications is the mother branch
of IT. This branch is having wide scope in the public sector, Private sector as well as in Government
sector. The professionals of this field will find a very good future prospectus since so many multinational
companies are indented in the field of telecommunication.
This branch has tremendous applications such as Telephony, Telegraphy, Radio & TV broadcasting,
RADAR System, Satellite Communication, GSM/CDMA Technology, Sensor Networks, Biomedical
Engineering, Industrial Automation, Military etc. As such there is no limit to its applications and scope as
well. Every day you will find a new addition in the application of this field.
It is a versatile branch, in the sense that the students holding the degree in the Electronic and
Telecommunications can build up his carrier in any field such as Electronics, Computer Engineering,
Information Technology and Telecommunication etc. Our motto is to build up students who will be
equally competent in all these fields. Keeping this in mind, we have expert teacher and have developed
well-equipped advanced laboratories such as Computer Lab, Electronics Lab, High speed Internet Lab,
Telecommunication Lab, Electrical Lab to perform experiment and gain practical knowledge.
10.3 B. Sc. in Electronic and Telecommunication Engineering
Summary of Courses Types of Courses No. of Courses Credit Hours
University Requirement Courses 09 009
Interdisciplinary Courses 04 008
Core Courses (Compulsory) 62(Theory 36& Sessional 26) 132
Core Courses (Elective) 06 (Theory 3 & Sessional 3) 12
Total 81 161
Semester wise Summary of Courses Semester No. of
Courses
Credit Hours Contact Hours/Week
Theory Sessional Total Theory Sessional Total
1st (7+3)=10 14 3 17 18 6 24
2nd
(7+5)=12 18 6 24 18 12 30
3rd
(7+3)=10 17 4.0 21 18 8 26
4th
(6+3)=09 15 4.0 19 15 8 23
5th
(6+3)=9 16 4 20 17 8 25
6th
(7+4)=11 16 5 21 17 10 27
7th
(8+3)=11 16 3.5 19.5 16 7 23
8th
(5+5)=10 11 8.5 19.5 12 15 27
Total (53+29)=82 123 38 161 131 76 205
A. List of University Requirement Courses SL Course No. Course Title Credit Hours Contact Hours/Week Prerequisite
Courses Theory Practical Theory Practical
1 URAL-1101 Elementary Arabic 1 3
2 UREL-1103 Advanced English 1 3
3 URIS-1101 Islamic Aqidah 1 1
4 URIS-1203 Introduction to Ibadah 1 1
5 URIS-2303 Introduction to Quran and Sunnah 1 2
6 URIS-3505 Government & Politics in Islam 1 1
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 182
SL Course No. Course Title Credit Hours Contact Hours/Week Prerequisite
Courses Theory Practical Theory Practical
7 URIS-3607 Biography of the Prophet (SAW) 1 1
8 URIH-4701 History of Khilafat and Muslims
Contribution to World civilization
(Up to 1258 A.D.) 1 1
9 URBS-4802 Bangladesh Studies 1 2
Total 9 Courses 9 15
B. List of Interdisciplinary Courses SL Course No. Course Title Credit Hours Contact Hours/Week Prerequisite
Courses
1 ACC-2401 Financial and Managerial
Accounting 2 2
2 ECON-3501 Principles of Economics 2 2
3 MGT-3601 Industrial Management 2 2
4 LAW- 4721 Law and Professional Ethics 2 2
Total 4 Courses 8 8
C. Core Courses
SL Course No. Course Title
Credit Hours Contact Hour/ Week Prerequisite
Course
Theory Sessional Theory Sessional
01 MATH-1101 Math I (Differential and Integral Calculas)
3 0 3 0
02 PHY-1101 Physics I 3 0 3 0
03 PHY-1102 Physics I Sessional 0 1 0 3
04 CSE-1101 Computer Fundamentals 2 0 2 0
05 CSE -1102 Computer Fundamentals Sessional
0 1 0 2
06 ETE-1103 Electrical Circuits I DC 3 0 3 0
07 ETE-1104 Electrical Circuits I DC Sessional
0 1 0 2
08 CE-1202 Engineering Drawing 0 1 0 2
09 MATH-1203 Math II(Complex Variable, Fourier Analysis & Z-
transform)
3 0 3 0 MATH-1103
10 PHY-1201 Physics II 3 0 3 0 PHY-1101
11 PHY-1202 Physics II Sessional 0 1 0 2 PHY-1102
12 CHEM-2301 Chemistry 3 0 3 0
13 CHEM-2302 Chemistry Sessional 0 1 0 2
14 ETE-1201 Computer Programming 3 0 3 0 ETE-1101
15 ETE-1202 Computer Programming Sessional
0 1.5 0 3 ETE-1102
16 ETE-1203 Electrical Circuits II AC 3 0 3 0 ETE-1103
17 ETE-1204 Electrical Circuits II AC Sessional
0 1 0 2 ETE-1104
18 ETE-1205 Electronic Devices 3 0 3 0 ETE-1103
19 ETE-1206 Electronic Devices Sessional 0 1.5 0 3 ETE-1104
20 MATH-2301 Math III(Differential Equation)
3 0 3 0 MATH-1203
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 183
SL Course No. Course Title
Credit Hours Contact Hour/ Week Prerequisite
Course
Theory Sessional Theory Sessional
21 STAT-1201 Statistics 2 0 2 0
22 ETE-2301 Analog Electronics 3 0 3 0 ETE-1205
23 ETE-2302 Analog Electronics Sessional 0 1.5 0 3 ETE-1206
24 ETE-2303 Digital Electronics and Logic Design
3 0 3 0 ETE-1205
25 ETE-2304 Digital Electronics and Logic Design Sessional
0 1.5 0 3 ETE-1206
26 ETE 2305 Signals and Linear Systems 3 0 3 0 MATH-1203
27 ETE 2308 Numerical Methods Sessional
1 0 1 0 ETE-1201
28 MATH-2401 Math IV (Linear Algebra) 3 0 3 0 MATH-2303
29 ETE-2405 Analog Communication 3 0 3 0
30 ETE-2406 Analog Communication Sessional
0 1.5 0 3
31 ETE-2407 Electromagnetic Fields and Waves
3 0 3 0 PHY-1201
32 ETE-2408 Design of Electronic Systems 0 1 0 2 ETE-2301
33 ETE-2409 Industrial Electronics 3 0 3 0 ETE-2301
34 ETE-2410 Industrial Electronics Sessional
0 1.5 0 3 ETE-2302
35 MATH-3503 Math V(Co-ordinate Geometry &Higher
Trigonometry
2 0 2 0
36 ETE-3503 Microprocessor, Microcontroller and
peripherals
3 0 3 0 ETE-2303
37 ETE-3504 Microprocessor, Microcontroller and
peripherals Sessional
0 1 0 2 ETE-2304
38 ETE-3505 Information Theory & Coding
3 0 3 0 ETE -2405
39 ETE-3507 Radio & Television Engineering
3 0 3 0 ETE-2405
40 ETE-3508 Radio & Television Engineering Sessional
0 1.5 0 3 ETE-2406
41 ETE-3509 Telecommunications Engineering
3 0 3 0 ETE-2405
42 ETE-3510 Telecommunications Engineering
Sessional
0 1.5 0 3 ETE-2406
43 ETE-3601 Digital communications 3 0 3 0 ETE-3507
44 ETE-3602 Digital communications Sessional
0 1.5 0 3 ETE-3508
45 ETE-3603 Cellular Mobile
Communications
3 0 3 0 ETE-3509
46 ETE-3604 Cellular Mobile
Communications Sessional
0 1.5 0 3 ETE-3510
47 ETE -3605 Electronic Measurement 2 0 2 0 ETE-2301
48 ETE -3606 Electronic Measurement Sessional
0 1 0 2 ETE-2302
49 ETE-3607 Control Systems 3 0 3 0 MATH -3503
50 ETE-3608 Control Systems Sessional 0 1 0 2 MATH -2303
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 184
SL Course No. Course Title
Credit Hours Contact Hour/ Week Prerequisite
Course
Theory Sessional Theory Sessional
51 ETE-3609 Antenna and Propagation 3 0 3 0 ETE-2408
52 ETE-4701 Microwave Engineering 3 0 3 0 ETE-3601
53 ETE-4702 Microwave Engineering Sessional
0 1.5 0 3 ETE-3602
54 ETE-4703 Digital Signal Processing 3 0 3 0 ETE-2305
55 ETE-4704 Digital Signal Processing Sessional
0 1 0 2 ETE-2304
56 ETE-4705 Satellite Communications 3 0 3 0 ETE-3603
57 ETE-4715 Research Methodology 1 0 1 0
58 ETE-4800 Project/ Thesis 0 4 0 8 ALL
59 ETE-4801 Optical fiber Communications
3 0 3 0 ETE-3601
60 ETE-4802 Optical fiber Communications Sessional
0 1.5 0 3 ETE-3602
61 ETE-4804 Industrial Tour /Training 0 1 0 1 week ALL
62 ETE-4821 General Viva Voce 1 0 1 0
Total Core Courses 62 97 36 96 69
List of Elective Courses: 12 Credit Hours
Elective-I (Any one course along with respective Sessional to be taken)
SL Course
No. Course Title
Credit Hours Contact Hour/ Week Prerequisite
Course Theory Sessional Theory Sessional
1. ETE-4707 VLSI Design 3 0 3 0
2. ETE-4708 VLSI Design Sessional 0 1 0 2
3. ETE-4709 Optimal & Adaptive control 3 0 3 0
4. ETE-4710 Optimal & Adaptive control Sessional 0 1 0 2
5. ETE-4711 Monolithic Microwave Integrated Circuit 3 0 3 0
6. ETE-4712 Monolithic Microwave Integrated Circuit
Sessional
0 1 0 2
7. ETE-4713 Artificial Neural Network 3 0 3 0
8. ETE-4714 Artificial Neural Network Sessional 0 1 0 2
Elective-II (Any two courses along with respective Sessional to be taken)
SL Course
No. Course Title
Credit Hours Contact Hour/Week Prerequisite
Course
Theory Sessional Theory Sessional
1. ETE-4805 Wireless Mobile Communications 3 0 3 0
2. ETE-4806 Wireless Mobile Communications
Sessional
0 1 0 2
3. ETE-4807 Embedded System Design 3 0 3 0
4. ETE-4808 Embedded System Design Sessional 0 1 0 2
5. ETE-4809 Advanced Digital Signal Processing 3 0 3 0
6. ETE-4810 Advanced Digital Signal Processing
Sessional
0 1 0 2
SL Course
No. Course Title
Credit Hours Contact Hour/Week Prerequisite
Course
Theory Sessional Theory Sessional
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 185
7. ETE-4811 Remote Sensing Technology 3 0 3 0
8. ETE-4812 Remote Sensing Technology Sessional 0 1 0 2
9. ETE-4813 Biomedical Engineering 3 0 3 0
10. ETE-4814 Biomedical Engineering Sessional 0 1 0 2
11. ETE-4815 Advanced Power Electronics 3 0 3 0
12. ETE-4816 Advanced Power Electronics Sessional 0 1 0 2
13 ETE-4817 Opto-Electronics 3 0 3 0
14 ETE-4818 Opto-electronics Sessional 0 1 0 2
15. ETE-4819 Computer Networks & Security 3 0 3 0
16. ETE-4820 Computer Networks & Security Sessional 0 1 0 2
Semester wise Course Offerings: The semester wise course distribution will follow in the following sub sections.
First Semester
SL Course No. Course Title Credit Hours Contact Hour/Week Prerequisite
Course Theory Sessional Theory Sessional
1. CSE-1101 Computer Fundamentals 2 0 2 0
2. CSE-1102 Computer Fundamentals Sessional 0 1 0 2
3. ETE-1103 Electrical Circuits I DC 3 0 3 0
4. ETE-1104 Electrical Circuits I DC Sessional 0 1 0 2
5. MATH-1101 Math I (Differential and Integral
Calculus)
3 0 3 0
6. PHY-1101 Physics I 3 0 3 0
7. PHY-1102 Physics I Sessional 0 1 0 2
8. URAL-1101 Elementary Arabic 1 0 3 0
9. UREL - 1103 Advanced English 1 0 3 0
10. URIS 1101 Islamic Aqidah 1 0 1 0
Sub Total (7+3 = 10) Courses 14 3 18 6
Total credit hour for 1st Semester is 17
Second Semester
SL Course No. Course Title Credit Hours Contact Hour/Week Prerequisite
Course Theory Sessional Theory Sessional
11. ETE-1201 Computer Programming 3 0 3 0 ETE-1101
12. ETE-1202 Computer Programming Sessional 0 1.5 0 3 ETE-1102
13. ETE-1203 Electrical Circuits - II AC 3 0 3 0 ETE-1103
14. ETE-1204 Electrical Circuits II AC Sessional 0 1 0 2 ETE-1104
15. ETE-1205 Electronic Devices 3 0 3 0 ETE-1103
16. ETE-1206 Electronic Devices Sessional 0 1.5 0 3 ETE-1104
17. PHY-1201 Physics II 3 0 3 0 PHY-1101
18. PHY-1202 Physics II Sessional 0 1 0 2 PHY-1102
19. MATH-1203 Math II(Complex Variable, Fourier
Analysis & Z-transform)
3 0 3 0
20. STAT-1201 Statistics 2 0 2 0
21. CE-1202 Engineering Drawing 1 0 2
SL Course No. Course Title Credit Hours Contact Hour/Week
Prerequisite
Course
Theory Sessional Theory Sessional
22. URIS 1203 Introduction to Ibadah 1 0 1 0 URIS 1101
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 186
Sub Total (7+5=12) Courses 18 6 18 12
Total credit hour for 2nd
Semester is 24
Third Semester
SL Course No. Course Title Credit Hours Contact Hour/Week Prerequisite
Course Theory Sessional Theory Sessional
23. ETE-2301 Analog Electronics 3 0 3 0 ETE-1205
24. ETE-2302 Analog Electronics Sessional 0 1.5 0 3 ETE-1206
25. ETE-2303 Digital Electronics & Logic Design 3 0 3 0 ETE-1205
26. ETE-2304 Digital Electronics & Logic Design
Sessional
0 1.5 0 3 ETE-1206
27. ETE-2305 Signals and Linear Systems 3 0 3 0 MATH-
1203
28. CHEM-2301 Chemistry 3 3
29. CHEM-2302 Chemistry Sessional 1 2
30. ETE 2307 Numerical Methods 1 0 1 0 ETE-1201
31. Math-2301 Math III(Differential Equations) 3 0 3 0 Math-1101
32. URIS-2303 Introduction to Quran & Sunnah 1 0 2 0 URIS
1203
Sub Total (7+3=10) Courses 17 4.0 18 8
Total credit hour for 3rd
Semester is 21
Fourth Semester
SL Course No.
Course Title Credit Hours Contact Hour/Week Prerequisite
Course
Theory Sessional Theory Sessional
33. ETE-2405 Analog Communication 3 0 3 0 ETE-1205
34. ETE-2406 Analog Communication Sessional 0 1.5 0 3 ETE-1206
35. ETE-2407 Electromagnetic Fields and Waves 3 0 3 0 PHY-1201
36. ETE-2408 Design of Electronic Systems 0 1 0 2 ETE-2301
37. ETE-2409 Industrial Electronics 3 0 3 0 ETE-2301
38. ETE-2410 Industrial Electronics Sessional 0 1.5 0 3 ETE-2302
39. MATH -2401
Math IV (Linear Algebra, Matrices and
Vector Analysis)
3 0 3 0 Math-2301
40. URIS- 3505 Government and Politics in Islam 1 0 1 0 -
41. ACC 2401 Financial & Managerial Accounting 2 0 2 0 -
Sub Total (6+3=09) Courses 15 4 15 8
Total credit hour for 4th
Semester is 19
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 187
Fifth Semester
S
L Course No. Course Title
Credit Hours Contact Hour/Week Prerequisite
Course
Theory Sessional Theory Sessional
42. ETE-3503 Microprocessor, Microcontroller and peripherals
3 0 3 0 ETE-2303
43. ETE-3504 Microprocessor, Microcontroller and peripherals Sessional
0 1 0 2 ETE-2304
44. ETE-3505 Information Theory & Coding 3 0 3 0 ETE-2405
45. ETE-3507 Radio & Television Engineering 3 0 3 0 ETE-2405
46. ETE-3508 Radio & Television Engineering Sessional
0 1.5 0 3 ETE-2406
47. ETE-3509
Telecommunications Engineering 3 0 3 0 ETE-2405
48. ETE-3510 Telecommunications Engineering Sessional
0 1.5 0 3 ETE-2406
49. ECON-3501 Principles of Economics 2 0 2 0 -
50. MATH-3503 Co-Ordinate Geometry and Higher Trigonometry
2 0 2 0
Sub Total (6+3=9) Courses 16 4 17 8
Total credit hour for 5th
Semester is 20
Sixth Semester S
L Course No. Course Title
Credit Hours Contact Hour/Week Prerequisite
Course Theory Sessional Theory Sessional
51. ETE-3601 Digital communications 3 0 3 0 ETE-3507
52. ETE-3602 Digital communications
Sessional
0 1.5 0 3 ETE-3508
53. ETE-3603 Cellular Mobile
Communications
3 0 3 0 ETE-3509
54. ETE-3604 Cellular Mobile
Communications Sessional
0 1.5 0 3 ETE-3510
55. ETE -3605 Electronic Measurement 2 0 2 0 ETE-2301
56. ETE -3606 Electronic Measurement
Sessional
0 1 0 2 ETE-2302
57. ETE-3607 Control Systems 3 0 3 0 MATH 3503
58. ETE-3608 Control Systems Sessional 0 1 0 2 ETE-2304
59. ETE-3609 Antenna and Propagation 3 0 3 0 ETE-3507
60. MGT 3601 Industrial Management 2 0 2 0 -
61. URIS-3607 Biography of the Prophet
(SAW) 1 0 1 0
-
Sub Total (7+4=11) Courses 16 5 17 10
Total credit hour for 6th
Semester is 21
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 188
Seventh Semester S
L Course No. Course Title
Credit Hours Contact Hour/Week Prerequisite Course
Theory Sessional Theory Sessional
62. ETE-4701 Microwave Engineering 3 0 3 0 ETE-3601
63. ETE-4702 Microwave Engineering Sessional 0 1.5 0 3 ETE-3602
64. ETE-4703 Digital Signal Processing 3 0 3 0 ETE-2305
65. ETE-4704 Digital Signal Processing
Sessional
0 1 0 2 ETE-2304
66. ETE-4705 Satellite Communication 3 0 3 0 ETE-3603
67. ETE-4715 Research Methodology 1 0 1 0
68. ETE-47XX Elective I 3 0 3 0
69. ETE-47XX Elective I Sessional 0 1 0 2
70. LAW-4721 Law and Professional Ethics 2 2
71. ETE-4800 Project/Thesis X X X X
72. URIH-4701 History of Khilafat and Muslims
Contribution to World civilization
(Up to 1258 A.D.)
1 0 1 0
Sub Total (8+3=11) Courses 16 3.5 16 7
Total credit hour for 7th
Semester is 18.5
Eighth Semester S
L Course No. Course Title
Credit Hours Contact Hour/Week Prerequisite Course
Theory Sessional Theory Sessional
73. ETE-4800 Project/ Thesis 0 4 0 8 Core Course
74. ETE-4801 Optical fiber Communications 3 0 3 0 ETE-3601
75. ETE-4802 Optical fiber Communications
Sessional
0 1.5 0 3 ETE-3602
76. ETE-4804 Industrial Tour /Training 0 1 0 1 Week
77. ETE-48XX Elective II 3 0 3 0
78. ETE-48XX Elective II Sessional 0 1 0 2
79. ETE-48XX Elective II 3 0 3 0
80. ETE-48XX Elective II Sessional 0 1 0 2
81. URBS-4802 Bangladesh Studies 1 0 2 0
82. ETE-4821 General Viva 1 0 1 0
Sub Total (5+5=10) Courses 11 8.5 12 15
Total credit hour for 8th
Semester is 19.5
Total 81 Courses 123 38 131 74
Grand Total 52 Theory Course and 29
Sessional
= 161 = 205
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 189
List of Elective Courses: 12 Credit Hours
Elective-I (Any one course along with respective Sessional to be taken)
SL. Course No. Course Title Credit Hours Contact Hour/ Week Prerequisite
Course Theory Sessional Theory Sessional
1. ETE-4707 VLSI Design 3 0 3 0
2. ETE-4708 VLSI Design Sessional 0 1 0 2
3. ETE-4709 Optimal & Adaptive control 3 0 3 0
4. ETE-4710 Optimal & Adaptive control
Sessional
0 1 0 2
5. ETE-4711 Monolithic Microwave Integrated
Circuit
3 0 3 0
6. ETE-4712 Monolithic Microwave Integrated
Circuit Sessional
0 1 0 2
7. ETE-4713 Artificial Neural Network 3 0 3 0
8. ETE-4714 Artificial Neural Network Sessional 0 1 0 2
Elective-II (Any two courses along with respective Sessional to be taken)
SL. Course No. Course Title Credit Hours Contact Hour/Week Prerequisite
Course Theory Sessional Theory Sessional
1. ETE-4805 Advanced Mobile Wireless
Communication
3 0 3 0
2. ETE-4806 Advanced Mobile Wireless
Communication Sessional
0 1 0 2
3. ETE-4807 Embedded System Design 3 0 3 0
4. ETE-4808 Embedded System Design Sessional 0 1 2
5. ETE-4809 Advanced Digital Signal Processing 3 0 3 0
6. ETE-4810 Advanced Digital Signal Processing
Sessional
0 1 0 2
7. ETE-4811 Remote Sensing Technology 3 0 3 0
8. ETE-4812 Remote Sensing Technology
Sessional
0 1 0 2
9. ETE-4813 Biomedical Electronics 3 0 3 0
10. ETE-4814 Biomedical Electronics Sessional 0 1 0 2
11. ETE-4815 Advanced Power Electronics 3 0 3 0
12. ETE-4816 Advanced Power Electronics
Sessional
0 1 0 2
13 ETE-4817 Opto-Electronics 3 0 3 0
14 ETE-4818 Opto-Electronics 0 1 0 2
15. ETE-4819 Computer Networks & Security 3 0 3 0
16. ETE-4820 Computer Networks & Security
Sessional
0 1 0 2
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 190
Synopsis of the Courses
A. University Requirement Courses: Syllabuses of University Requirement Courses are given in the
page no 14-28.
Synopsis of Interdisciplinary Courses
B. Interdisciplinary Courses: Syllabuses of these courses are given in the pages no 29.
Course Code:ACC-2401 Course Title: Financial and Managerial Accounting,
Credit Hours: 2 Contact Hours: 2 per week
Please see at page no 29 for details.
Course Code: ECON-3501 Course Title: Principles of Economics Credit Hours: 2 Contact Hours: 2 per week
Please see at page no 30 for details.
Course Code: MGT-3601 Course Title: Industrial Management
Credit Hours: 2 Contact Hours: 2 per week
Please see at page no 31 for details.
Course Code: LAW-4721 Course Title: Law and Professional Ethics Credit Hours: 2 Contact Hours: 2 per week
Objectives: In this course student learn about Law and Professional Ethic in regards to nature and concept of law, company law, labor law, history and development of engineering ethics, ethical
expectations and cyber law.
Section-A
(Mid-term Exam: 30 Marks) 1. Law Basics: Nature and concept of law. Schools of Jurisprudence: Analytical, Historical,
Philosophical, Sociological & Natural. Administration of Justice: Theories of punishment. Sources of
Law: Custom, Precedent and Legislation. Rights and Duties, Legal Personality, Ownership and
Possession, Definition and theories of Law, principles of law of contract, agency, partnership, sale of
goods negotiable instruments, insurance and insolvency.
2. Company law: The companies act with special reference to the amendments and ordinances applicable
to Bangladesh. Law regarding formation, Incorporation, Management and winding up of companies.
3.Labor Law: The scope and sources of labor law. Law in relation to wages, hours, health, safety and
other condition to work. The legislation effecting employment in factories. The trade union legislation
arbitration, the policy of the state in relation to labor. Elementary principles of labor law.
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 191
Section-B
(Final Exam: 50 Marks)
Group-A (20-Marks)
4. History and Development of Engineering Ethics: Study of Ethics in Engineering. Applied Ethics in
engineering. Human qualities of an engineer. Obligation of an engineer to the clients and to other
engineers. Measures to be taken in order to improve the quality of engineering profession.
5. Ethical Expectations: Employers and Employees inter-professional relationship, maintaining a
commitment of Ethical standards. Desired characteristics of a professional code. Institutionalization of
Ethical conduct.
Group-B (30-Marks)
6. Cyber Law Introduction: The need for Cyber Law , Regulation of Technology and Internet , The
Internet and the Problems of Geography and Sovereignty , Freedom of Expression on the Internet,
7. The Relationship between Legal and Technological Regulation: Intellectual Property: Copy rights,
Trade Marks, Industrial Designs. Electronic and Digital Signature. Embedding Law into Technology.
Electronic Contract.
8. Liability of Internet Intermediaries: Defamatory Content, Privacy, Copy right, Infringement.
Liabilities relating to electronic financial transaction. Nature and scope of cyber crime, Regulation of
Cyber Crime. Offences and Punishment of Technology Crimes. B
Recommended Books:
1 A. K. Sen A Hand Book of Commercial Law.
2 A. A. Khan Labour and Industrial Law.
3 J. D. Mabboth An Introduction to Ethics
4 Stacey L. Dogan Copyright in Cyberspace: An Introduction
5 A. B.Siddique The Law of Contract.
6 Emile Durkheim Professional Ethics and Civics Morals
7 Jonathan L. Zittrain, Internet Law: Technological Complements to Copyright
8 Coopers Outline of Industrial Law.
9 A. Zulfiquar V A Text Book on the Bangladesh Labour Act-2006.
10 P. Narayanan Intellectual Property Law.
11 A. R. Khan Business Ethics
12 G. E. Moore: Principia Ethicia
13 M. Radar Ethics and the Auman Community
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 192
Optional Courses (One Course to be taken)
Course Code: FIN-4701 Course Title: Finance and Marketing for Engineers
Credit Hours: 2 Contact Hours: 2 per week
Objective: The objective of this course is to introduce the fundamental ideas of the finance and marketing
for engineers.
Part A
1. Financial reporting process and uses of accounting data, linkages between accounting information and management planning, decision-making and control.
2. Traditional cost accounting concepts such as product costing, cost terminology, budgeting, cost volume-profit analysis, and standard costs,
3. Non-traditional management accounting topics such as variable costing and activity based costing. 4. Basic engineering economy along with capital asset pricing, debt versus equity decisions,
Part B
5. Cost of capital, financial leverage, and the management of working capital. 6. Financial justification of operational "intangibles" such as shorter lead times, better quality, and
improved customer responsiveness.
7. Marketing Principles, strategic marketing, types of market and buyer behavior, product strategies, 8. Marketing decisions (price, channel, advertising, sales force), market research, and international
marketing.
Course Code: SCO-4703 Course Title: Sociology
Credit Hours: 2 Contact Hours: 2 per week
Objective: The objective of this course is to introduce the fundamental ideas of the soiology.
Scope, Social evolution and techniques of production; Culture and civilization; Social structure of
Bangladesh; Population and world resources; Oriental and occidental societies, Industrial revolution;
Family- urbanization industrialization; Urban ecology, Co-operative and socialist movements, Rural
sociology
Course Code: PSY-4705 Course Title: Psychology
Credit Hours: 2 Contact Hours: 2 per week
Objective: The objective of this course is to introduce the fundamental ideas of the psychology.
Introduction to psychology, Cognitive science; Reasoning, Object recognition and language
Understanding, Learning industrial psychology; Introduction to job and analysis, Methods of selection;
Training in industry; Motivation and work, Job satisfaction, Introduction to ergonomics, System
engineering, Accident and safety.
Course Code: LAW-4707 Course Title: Business and Cyber Law
Credit Hours: 2 Contact Hours: 2 per week
Objective: The objective of this course is to introduce the fundamental ideas of the business and cyber
law.
Principles of law of contract; Company law: law regarding formation, incorporation, management and
winding up of companies; Labor law; Law in relation to wages hour, heath, safety and other condition to
work; The trade union legislation arbitration, the policy of the state in relation to labor; The factory Act
Electronic and Telecommunication Engineering (ETE) | Error! AutoText entry not defined. 193
(1965); The law of compensation (1965).
Cyber law: digital copyrights issues, illegal duplication of software, human rights and data encryption,
international cyber law, information sharing.
Course Code: GOV-4709 Course Title: Government Credit Hours: 2 Contact Hours: 2 per week
Objective: The objective of this course is to introduce the fundamental ideas of the government.
Some basic concepts of government and politics, Functions, Organs and forms of modern state and
government; Socialism; Fascism; Marxism; U.N.O.; Government and politics of Bangladesh; Some major
administrative systems of developed countries; Local self-government.
Course Code: LAW-4721 Course Title: Law and professional Ethics
Credit Hours: 2 Contact Hours: 2 per week
Objective: The objective of this course is to introduce the fundamental ideas of the law and professional
ethics.
Section-A
(Mid-term Exam: 30 Marks) 1. Law Basics: Nature and concept of law. Schools of Jurisprudence: Analytical, Historical,
Philosophical, Sociological & Natural. Administration of Justice: Theories of punishment. Sources of
Law: Custom, Precedent and Legislation. Rights and Duties. Legal Personality. Ownership and
Possession. Definition and theories of Law, Principles of law of contract, agency, partnership, sale of
goods negotiable instruments, insurance and insolvency.
2. Company law: The companies act with special reference to the amendments and ordinances applicable to Bangladesh. Law regarding formation, Incorporation, Management and winding up of
companies.
3. Labor Law: The scope and sources of labor law. Law in relation to wages, hours, health, safety and other condition to work. The legislation effecting employment in factories. The trade union legislation
arbitration, the policy of the state in relation to labor. Elementary principles of labor law.
Section-B (Final Exam: 50 Marks)
Group-A (20-Marks) 4. History and Development of Engineering Ethics: Study of Ethics in Engineering. Applied Ethics in
engineering. Human qualities of an engineer. Obligation of an engineer to the clients and to other
engineers. Measures to be taken in order to improve the quality of engineering profession.
5. Ethical Expectations: Employers and Employees inter-professional relationship, maintaining a commitment of Ethical standards. Desired characteristics of a professional code. Institutionalization
of Ethical conduct.
Group-B (30-Marks) 6. Cyber Law Introduction : The need for Cyber Law , Regulation of Technology and Internet , The
Internet and the Problems of Geography and Sovereignty , Freedom of Expression on the Internet,
7. The Relationship between Legal and Technological Regulation: Intellectual Property: Copy rights, Trade Marks, Industrial Designs. Electronic and Digital Signature. Embedding Law into Technology.
Electronic Contract.
8. Liability of Internet Intermediaries: Defamatory Content, Privacy, Copy right, Infringement. Liabilities relating to electronic financial transaction.
9. Cyber Crime: Nature and scope of cyber crime, Regulation of Cyber Crime. Offences and Punishment of Technology Crimes.
Books Recommended:
Text Books:
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1. A. K. Sen: A Hand Book of Commercial Law.
2. A. B.Siddique: The Law of Contract.
3. A. A. Khan: Labour and Industrial Law.
4. Emile Durkheim:Professional Ethics and Civics Morals.
5. J. D. Mabboth: An Introduction to Ethics.
6. Jonathan L. Zittrain, Internet Law: Technological Complements to Copyright
7. Stacey L. Dogan: Copyright in Cyberspace: An Introduction
Reference 1. A. G. Maitra: Laws of Contract.
2. Coopers: Outline of Industrial Law.
3. A. Zulfiquar: A Text Book on the Bangladesh Labour Act-2006.
4. P. Narayanan: Intellectual Property Law.
5. The Patent and Design Act, 1911.
6. A. R. Khan: Business Ethics.
7. M. Radar:Ethics and the Auman Community.
8. G. E. Moore : Principia Ethicia.
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C. Core Courses
Course Code: MATH-1101 Course Title: Math I (Differential and Integral Calculus)
Credit Hours: 3 Contact Hours: 3 per Week
Please see at page no 32 for details.
Course Code: MATH-1203 Course Title: Math II (Complex Variable, Fourier analysis & Z-transform)
Credit Hours: 3 Contact Hours: 3 per Week
Objective: The objective of this course is to introduce the fundamental ideas of the Complex Variable,
Fourier analysis & Z-transform.
Section A (Mid-term Exam: 30 Marks)
1. Complex Valued Functions: Complex mapping, Linear Transformation: translation, magnification and rotation, Non-linear transformations: inversion, bilinear etc.
2. Complex Differentiation: Differentiation of a complex function, Analytic function, Singularities, the Cauchy-Riemann Equations, harmonic functions
3. Complex Integration: Complex Path Integrals, closed contour, Cauchys Theorem, The Residue Theorem, Poles
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Fourier series: Physical Significance of Fourier series, Periodic Signal, Trigonometric form and Complex form of Fourier series, Fourier Integral, Frequency Spectrum, Piecewise Continuous
waveforms, Even symmetry, Odd symmetry, Half-wave symmetry, Phase Spectrum, Application of
Fourier Series
5. Convolution: Unit Step Function, Impulse Function, Ramp Function, Sketch Waveform, convolution theorem, convolution sum, convolution Integral
Group-B (30 Marks)
6. Laplace transforms: Definition, the Laplace transforms of different functions, shifting and change of scale property, Laplace transforms of derivatives
7. Solution of Differential Equations by Laplace Transforms, inverse Laplace transforms 8. Transform: Aperiodic Signal, Fourier transforms, Z transforms
Recommended Books:
1. Glyn James :Advanced Modern Engineering Mathematics 2. Michael D. Greenberg :Advanced Engineering Mathematics 3. K.A.Stroud :Further Engineering Mathematics 4. H. K Das :Advanced Eng. Mathematics 5. M. R Spigel :Advanced Calculus 6. M. R. Spigel :Complex Variable 7. Laplaces Transformation :(SOS)
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Course Code: MATH-2301 Course Title: Math III (Differential Equations)
Credit Hours: 3 Contact Hours: 3 per Week
[Pre requisite: MATH-1101 Math I]
Objective: The objective of this course is to introduce the fundamental ideas of the Differential Equations.
Please see at page no 33 for details.
Course Code: Math-2401 Course Title: Math IV (Linear Algebra, Matrices and Vector Analysis)
Credit Hour 3 Contact Hour: 3 per week
[Pre requisite: MATH-2301 Mathematics III]
Objective: The objective of this course is to introduce the fundamental ideas of the Linear Algebra,
Matrices and Vector Analysis
Section A (Mid-term Exam: 30 Marks)
1. Vector Spaces and Subspaces: Definition of vector spaces , subspaces, basic theorem, Linear combinations of vectors, spanning set, Linear dependence and independence of vectors.
2. Basis and Dimension and Linear Mappings: Basis and Dimensions of Vector spaces, Sums and Direct sums of subspaces. Mappings, Linear mappings, Kernel and image of a linear mapping,
Singular and nonsingular mappings, Linear mapping and systems of linear equations.
3. Inner Product Spaces: Inner product spaces, Cauchy-Schwarz inequality, Orthonormal sets, Gram-Schmidt orthogonalization process, Application of Linear algebra in electric network.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Matrix and Linear System of Equations: Vector presentation by matrix, different types of matrices, algebraic operations on matrices, adjoint and inverse of a matrix, augmented matrix,
row operation method, rank of Matrices, some problems, Normal Vector, Ortho normal
Vectors,Orthogonality, Echelon form, consistency and inconsistency, solution of homogeneous
and non- homogeneous linear system of equations.
5. Characteristic equation and Diagonalization: Eigen values and eigenvectors, characteristic polynomial, Caley-Himilton theorem, Diagonalization of matrices and symmetric matrices,
Characteristics roots.
Group-B (30 Marks) 6. Vector analysis: Scalar and vectors, operation of vectors, vector addition and multiplication -
their applications., Scalar Field, Vector Field, Dot Product, Cross product, Triple Product,
Derivative of vectors and problems.
7. Del operator and Vector Integration: Del operator, gradient, divergence and curl and their physical significance, Line Integrals, physical significance of Vector integration and Problems.
8. Vectors Theorem :Greens, Gauss & Stocks theorem and their applications, Vector components in spherical and cylindrical systems.
Recommended Books:
1. Linear Algebra : Seymour Lipschutz (SOS) 2. Vector Analysis : Murray R. Spiegel(SOS) 3. Matrices : P.N. Chattarjee 4. Linear algebra : Richard Bronson 5. Matrices : Schaums Outline Series
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Course Code: MATH-3501 Course Title: Math-V (Co-Ordinate Geometry and Higher Trigonometry)
Credit Hours: 2 Contact Hours: 2 per Week
[Pre requisite: MATH-1101]
Objective: The objective of this course is to introduce the fundamental ideas of the Linear Algebra,
Matrices and Vector Analysis
Section A (Mid-term Exam: 30 Marks)
1. Pair of Straight lines: Change of Axes, Pair of straight lines. General equation of second degree representing a pair of straight lines.
2. General Equation of Second Degree: Reduction of General equation of second degree into the standard forms, General equation of circles.
3. Three-dimensional Geometry: Rectangular co-ordinate System, Direction cosines, Direction ratios, Projections, Equation of planes.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Straight lines: Equation of straight lines in three dimension, Angle between two lines, Angle between a lines and a plane.
5. Solid Geometry: Spheres, Plane of contact, Tangent plane, Intersection of two spheres, cylinder, cone, ellipsoids and paraboloids.
Group-B (30 Marks)
6. DeMoivres Theorem: Complex quantity, DeMoivres Theorem and its applications. 7. Hyperbolic Functions: Trigonometric and Exponential functions for complex quantities, Circular
Functions, Hyperbolic functions.
8. Inverse Circular and Hyperbolic Functions: Inverse circular and hyperbolic functions. Recommended Books:
1. Thomas, Finey :Calculus and analytic geometry 2. K.A. Stroud :Engineering Mathematics 3. P. K. Bhattacharjee :Co-ordinate geometry and vector analysis 4. M. L. Khanna :Solid geometry 5. JT bell :Coordinate Geometry 6. S.L. Loney :Trigonometry 7. A.Sattar :Higher Trigonometry
Course Code: STAT-1201 Course Title: Statistics
Credit Hours: 2 Contact Hours: 2 per Week
Objective: The objective of this course is to introduce the fundamental ideas of the statics
Please see at page no 39 for details.
Physics
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Course Code: PHY-1101, Course Title: Physics I
Credit Hours: 3 Contact Hours: 3 per Week
(Mechanics, Waves and Thermodynamics)
Objective: The objective of this course is to introduce the fundamental ideas of the Mechanics, Waves and
Thermodynamics
Please see at page no 36 for details.
Course Code: PHY-1102 Course Title: Physics I Sessional
Credit Hours: 1 Contact Hours: 2 per Week
1. To determine the moment of inertia of a flywheel about its axis of rotation. 2. To determine the value of g, acceleration due to gravity by means of a compound pendulum. 3. To determine the surface tension of water by capillary tube method. 4. To verify the laws of transverse vibration of strings and to determine the frequency of a tuning
fork by Meldes experiment. 5. To determine the Youngs Modulus by the flexure of a beam (Bending Method). 6. To determine the spring constant and effective mass of a given spiral spring and hence to
calculate the rigidity modulus of the material of the spring.
7. To determine the co-efficient of viscosity of a liquid (Glycerine) using Stokes law.
Course Code: PHY-1201 Course Title: Physics II
Credit Hours: 3 Contact Hours: 3 per Week
(Electromagnetism, Optics and Modern Physics)
[Pre requisite: PHY-1101, Physics I]
Objective: The objective of this course is to introduce the fundamental ideas of the Electromagnetism,
Optics and Modern Physics
Please see at page no 37 for details.
Course Code: PHY-1202 Course Title: Physics II Sessional
Credit Hours: 1 Contact Hours: 2 per Week
(Electromagnetism, optics and Modern Physics)
1. Determination of the end corrections for a meter bridge. 2. Determination of specific resistance of the material of a wire by a meter bridge. 3. Determination of the resistance of a wire by means of post office box. 4. Experimental verification of the laws of series and parallel connections of resistance by means of
a post office box.
5. Calibration of a meter bridge wire. 6. Determination of the value of low resistance by the method of fall of potential (Mathiesen and
Hockins Method)
7. Determination of the resistance of a galvanometer by half deflection method. 8. Determination of the current sensitivity (figure of merit) of a galvanometer.
Book Recommended:
1. Dr. Giasuddin Ahmad and Md. Shahabuddin : Practical Physics
Course Code: Chem-2301 Course Title: Chemistry Credit Hours: 3 Contact Hours: 3 per Week
Objective: The objective of this course is to introduce the fundamental ideas of Chemistry.
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Please see at page no 39 for details.
Course Code: Chem-2302 Course Title: Chemistry Sessional
Credit Hours: 1 Contact Hours: 2 per Week
Please see at page no 108 for details.
Course Code: CSE -1101 Course Title: COMPUTER FUNDAMENTALS
Credit Hour: 2 Contact Hour: 2 per week
Objective: The objective of this course is to introduce the fundamental ideas of the computer.
Course Contents:
Section- A
1. Introduction of computer and its Organization: Historical evolution of computers & classification,
Computer generations, Basic organization and functional units of computer, Input/
output/storage/arithmetic logic/control and central processing unit, Internal structure of CPU.
2. Number Systems, Computer Codes and Arithmetic: Non-positional/positional number system,
different number systems & their conversion, Fractional numbers, Numeric/alphanumeric data,
BCD/EBCDIC/ASCII code, Binary arithmetic (Addition, subtraction, multiplication and division).
3. Computer Memory & I/O devices: Memory location and address, RAM, ROM, PROM, and
EPROM, cache memory, Sequential/Direct/Random access device, Magnetic tape and disk, hard disk,
floppy disk, CDROM, optical disk, Printers, Keyboard, Mouse, Scanner, and other devices.
4. Computer program, software and language: Program planning, algorithms, flow charts, pseudo
code, Software and firmware, types of computer software, types of computer language, translator,
interpreter, compiler.
Section- B
5. Operating System and Data processing: Evolution of OS, Multiprogramming, Multiprocessing, Time
sharing system, Real time system, types of data processing, database concept, database management
system.
6. Data Communication and Computer Network: Basic elements of a communication system, Types of
communications among computers, characteristics of communication channels, Computer Networks,
LAN, MAN, WAN, Network topologies.
7. Business data processing, Multimedia and Internet: Multimedia concepts and components, WWW,
WAP, E-commerce, Internet, Internet services.
8. Office Automation: Goals of office automation, Advantages and threats of office automation, Main
areas of office automation, Expert system and Intelligent Knowledge-Based System.
Text Book:
Dr. M. Lutfar Rahaman: Computer Fundamentals
References:
1. P. K. Sinha : Computer Fundamentals Concepts, Systems and Applications
2. N. Subramanian : Introduction to Computers
3. V. Rajarcman : Fundamentals of Computers
4. Peter Norton : Introduction to Computer
5. Satish Jain : Introduction to Computer Science
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Course Code: CSE -1102 Course Title: Computer Fundamentals Sessional
Credit Hour: 1 Contact Hour: 2 per week
Course Contents:
Experiment No. 1: Operating System: Proposed Operating Systems: Windows 2000/XP, MS-DOS
Topics: Files, Folders, Basic operations on file/folders, File System, Windows OS Organization and
Hierarchy, Searching files and folders.
Experiment No. 2: Word Processing: Proposed Application Software: Microsoft Word Topics:
Formatting, Table Editing, Picture, Clipart and object.
Experiment No. 3: Charts, Drawing, Text box and shapes, Hyperlink, Macro, Equation editor etc.
Experiment No. 4: CV Design, Application/Letter writing/formatting.
Experiment No. 5: Spreadsheet Analysis: Proposed Application Software: Microsoft Excel Topics: Basic
idea, Cell formatting, Equation, Function, Different sheet data calculation.
Experiment No. 6: Grade sheet calculation, Salary Sheet calculation.
Experiment No. 7: Slide Oriented Presentation: Proposed Application Software: Microsoft Power Point
Topics: Hyperlinks, Slide window detail, Audio, Video, Animation, Slide transition.
Experiment No. 8: Simple slide based presentation (topics are free of choice).
Experiment No. 9: Database Application: Proposed Application Software: Microsoft Access Topics:
Database basics, Field, Table,
Experiment No. 10: Database Keys, ER Diagram, Form, Report, and Query.
Experiment No. 11: Address book (Insert, Update, Delete, and Search).
Experiment No. 12: Topics: Installing/binding a new computer system, Installing operating system and
other software.
Experiment No. 13: Internet Topics: Browsing Concepts, Searching in the web, Email.
and to perform also other experiments relevant to this course.
Text Book:
Peter Nortons Complete Guide to MS Windows 2000 Professional References:
1. MSDN (Microsoft developer network) library.
2. Microsoft Office 2000/XP Premium Edn. - BPB Publications.
3. Mastering Access 2000, BPB Publication, [ISBN: 81-7656-093-6]
4. Complete PC Upgrading & Maintenance (Lab Manual) BPB Pub, [ISBN: 81-7656241-6] 5. Networking Essentials BPB Publication 6. Internet (2
nd Edn.) BPB Publication, [ISBN: 81-7029-053-7]
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Course Code: ETE 1103 Course Title: ELECTRICAL CIRCUITS I DC Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the DC electrical circuits
Course Contents:
Section A (Mid-term Exam: 30 Marks)
1) Units, DC sources, Resistance, and conductance, Ohms law, power and energy, 2) Series and parallel circuits,
3) Kirchhoffs laws, Dependent Sources
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4) Mesh and Nodal Analysis, Y-Delta Conversion,
5) Circuit theorems,
Group-B (30 Marks)
6) Electrical field, Capacitors,
7) Magnetic circuits, Inductance,
8) Transient analysis of R-C and R-L- circuits with DC excitation.
Course Code: ETE 1104 Course Title: Electrical Circuits I Dc Sessional Credit Hour: 1 Contact Hour: 2 per week
Course Contents:
Laboratory works based on ETE 1103
Course Code: CE-1202 Course Title: Engineering Drawing
Credit Hours: 1 Contact Hours: 2 per Week
Objective: The objective of this course is to introduce the fundamental ideas of the engineering drawing
1. Introduction orthographic projection: Scale drawing, Sectional view, Top and side view Isometric views, Missing line, Auxiliary view, Pictorial views.
2. Drawing standard and practices: Interpenetrating of surface, Development of surfaces, Machine drawings, and Technical sketching.
3. Introduction to Computer aided design (CAD): Project on Engineering Drawing and CAD using Contemporary packages in engineering drawing.
Books Recommended:
1. Engineering Graphics 3rd Edition: Fredw Rick E Giesecke, Alva Mitchell, Henry C. Spencer, Ivan L. Hill, Robert O.
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Course Code: ETE 1201 Course Title: COMPUTER PROGRAMMING Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the computer
programming.
Course Contents:
Section A (Mid-term Exam: 30 Marks)
1.Introduction to Programming :
Definition of Software, its classification, Problem solving steps, Introduction of C and its structure,
history and Characteristics, Introduction to keywords, constants and identifiers, Fundamental of C
variable and data types, Rules of constants, Introduction to arithmetic, relational and logical operators,
Introduction to expressions, Managing data input, Managing data output.
2.Program Control Statements:
Decision making and branching. If and if else statements, Other control statements, switch and the ?: operator, Decision making and looping. While looping, Dowhile and for looping statements, Jump statement go to, break and continue.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
3.User-defined Functions:
Need for multifunction programs, return values, types and some examples, Calling functions and
arguments, Recursions, passing arrays to functions, Storage class.
4.Arrays:
Introduction to arrays. One-dimensional array. Some sample programs, Two-dimensional array. Some
sample programs, String handling in C and some examples.
Group-B (30 Marks)
5.Structures and Unions:
Definition of Structure, Union, Structure union applications, Self-referential Structure, Linked list, Array
of structure and some examples.
6.Pointers:
Understanding pointers, Pointers and arrays. Pointers and functions, pointers and structures.
7.File Management and graphics:
File management concept in C, Defining, opening and closing a file, Input/output operations in file, Error
handling and command line arguments, Introduction to graphics, Drawing some geometric objects.
8.Dynamic Memory Allocation and Preprocessor:
Dynamic memory allocation, Some special features of C (Macros, Enumerations), Bitwise operations.
Text Book:
1. Herbert Schild : Turbo C/C++; A Complete Reference References:
1. Byron S. Gottfried : Theory and Problems of Programming with C. 2. E. Balagurusamy : Programming in ANSI C. 3. C Kernighan & D.M. Ritchie : The C programming Language. 4. H.M. Deitel : C how to program. 5. Herbert Schild :Teach Yourself C
Course Code: ETE 1202 Course Title: Computer Programming Sessional
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Credit Hour: 1.5 Contact Hour: 3 per week
Course Contents:
1. Write a program to calculate the roots of the quadratic equation ax2 + bx + c = 0 where a, b and c are known.
2. Write a program that reads a year from the keyboard and determine whether it is a leap year or not. 3. Write a program that reverses the digits of a given integer. 4. Write a program to compute the sum up the digits of positive integer N. 5. Write a program to find N is prime or not. 6. Write a program to determine the value of the Nth Fibonacci number Fn
Where Fn = Fn-1 + Fn - 2 and F1 = F2 = 1
7. Write a program that receives the score of a student and display the grade. 8. Write a program to read multiple lines of text from the keyboard and write it out to a data file called
TEST.DAT.
9. Write a program to write 100 integers to a file called RAND. DAT. 10. Write a program using structure that will allow you to enter and display the following information
about your family members:
i) name ii) address iii) age iii) occupation iv) salary
11. To perform also other experiments relevant to this course.
Course Code: ETE 1203 Course Title: ELECTRICAL CIRCUITS II AC Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the AC electrical circuits
Course Contents:
Section A (Mid-term Exam: 30 Marks)
1) Alternating current, AC quantities, Sinusoidal waveforms,
2) AC circuits, AC Power and Power factor.
3) Network theorems.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4) Resonance and Q-factors,
5) Balanced Polyphase systems
Group-B (30 Marks)
6) Unbalanced Polyphase systems,
7) Coupled circuits,
8) Filters, Transients in AC circuits.
Course Code: ETE 1204 Course Title: Electrical Circuits Ii Ac Sessional Credit Hour: 1 Contact Hour: 2 per week
Course Contents:
Laboratory works based on ETE 1203
Course Code: ETE 1205 Course Title: ELECTRONIC DEVICES
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Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the electronic devices.
Course Contents
Section A (Mid-term Exam: 30 Marks)
1. Semiconductors materials: Classification of material in terms of energy band, Extrinsic material and
Intrinsic material, Electrons and holes in an intrinsic semiconductor, Donor and acceptor impurities,
mobility, Hall effect, structure of N-type and P-type materials and their conductivity.
Density of States and Fermi Dirac function. Calculation of Carrier Concentration, Drift of carriers,
Mobility, Carrier Diffusion, Einstein Relation, Generation and Recombination, Excess carriers, Quasi-
Fermi level, Basic Semiconductors Equations
2. P-N junctions Diode: Formation of P-N junction, Depletion layer formation, PIV of Diode, Diode V-I
characteristics, Small signal model of diode, transition and diffusion capacitance,
3. Applications of diodes: Circuit applications of diode, Rectifiers, Filter circuit, voltage doubler,
Voltage tripler, Clamper and Clipper. Zener diode, LED, Photodiode, varactor diode, photo resistor,
Crystal diode and Solar Cell.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Bipolar Junction Transistors: Working principle of N-P-N and P-N-P transistor,V-I Characteristics
of trnasistor , Different configuration of transistors amplifiers, input and output Characteristics, Cutt off
and Saturation region, Load line analysis.
5. Transistor biasing: Various baising method, Conditions of proper transistor biasing, Stability factor,
Thermal stabilization.
Group-B (30 Marks)
6. Small Signal model of Bipolar transistor: Small signal low frequency h-parameters, Determinations
of Hybrid parameters in CE, CC and CB configurations.
7. Field Effect Transistor: introduction, JFET, MOSFET, PMOS, NMOS, CMOS and their switching
characteristics.
8. Small Signal model of FET: Small signal model for JFET, MOSFET and biasing of JFET and
MOSFET.
Text Book:
1. Boylestred R and Nashelsky, Electronic Devices and Circuits Theory, PHI, 1993.
Reference Books:
2. Millman & Halkias,"Electronic Devices & Circuits", Tata McGraw Hill, 1995. 3. Malvino A P, Electronic Principles, McGraw Hill International, 1998. 4. David.A.Bell, "Electronic Devices & Circuits ", PHI, 1998. 5. Somanath Nair ,"Electronic Devices and Applications PHI 2002
Course Code: ETE 1206 Course Title: Electronic Devices Sessional Credit Hour: 1.5 Contact Hour: 3 per week
Course Contents:
Laboratory works based on ETE 1205
Course Code: ETE 2301 Course Title: ANALOG ELETRONICS Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the analog electronics.
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Course Contents
Section A (Mid-term Exam: 30 Marks)
Transistors at high frequencies: Hybrid-pi model, CE short circuit current gain, Current gain with
resistive load, Single stage CE transistor amplifier response, High frequency model JFET and MOSFET.
Feedback Amplifiers: Classification, Feedback concept, Topologies, Effect of feedback on transfer gain,
Loop gain, Amplifier Characteristics, Types of Feedback, Negative feedback Amplifiers and their
application.
Sinusoidal Oscillators: Conditions of self oscillations phase shift resonant circuit, Colpitts and Hartley
Oscillators, WEIN Bridge and Crystal Oscillator. introductions, monostable, bistable and Astable
multivivrator, Smith trigger, blocking oscillator.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
Pulse Shaping Circuit: High pass and low pass RC circuits ( sinusoidal, step voltage, pulse square wave
exponential and ramp inputs ), high pass RC circuit as a differentiator, The low pass RC circuit as a
integrator.
Multistage amplifiers: The R-C coupled amplifiers, Low and High frequency response of R-C coupled
amplifiers, Effect of harmonics on Amplifiers. Class A, Class B and Push pull amplifiers, Tuned Voltage
and Power amplifier.
Group-B (30 Marks)
Regulated power supply: Zener diode as a voltage regulator, Shunt and Series voltage regulator and
Emitter follower regulator, Step Up and Step down switching mode power supply
IC fabrication: Introduction to IC fabrication techniques, Advantages and disadvantages of IC,
Transistor fabrication, FET fabrication, diode, capacitor, resistor fabrication, MOSFET fabrication
Operational Amplifiers: Ideal OP-AMP, Bias voltage , Offset voltage, Slew rate, Inverting and Non
inverting amplifiers, Phase inverters, Scale changer, Integrating and Differentiating circuits, Adder or
Summing amplifiers, Voltage to Current, Current to Voltage converters, Voltage follower Differential
Instrumentation and Bridge amplifiers, AC performance of OP-AMP; Bandwidth, Noise and Frequency
compensation, Active filters. zero crossing detectors and voltage level detectors.
Text Book:
1. R.L. Boylestad : Electronic Devices & Circuit Theory
Reference Books: 1. J. Millman : Electronic Devices & Circuits 2. Gupta & Kumar. : Hand book of Electronics
Course Code: ETE 2302 Course Title: Analog Electronics Sessional Credit Hour: 1.5 Contact Hour: 3 per week
Course Contents:
Laboratory works based on ETE 2301.
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Course Code: ETE 2303 Course Title: Digital Electronics & Logic Design Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the digital electronics and
logic design.
Course Contents:
Section A (Mid-term Exam: 30 Marks)
1. Introduction
Digital vs. analog systems. Advantages of digital system, Application of Digital system, Digital
waveform, Data Transfer, NOR,NAND, AND, OR, INVERT Implementation. Diode logic gates,
Transistor Switch. Logic Families: TTL, ECL, IIL and CMOS logic with operation details
2. Number Systems and Codes
Representation of Number in different bases. binary arithmetic, octal arithmetic, hexadecimal arithmetic.
Base conversions. Base Complement: Subtraction using Complements. Binary codes.
3. Algebraic Methods for the Analysis and Synthesis of Logic Circuits
Fundamentals of Boolean algebra. Basic postulates: fundamental theorems of, Boolean algebra, switching
functions, truth tables. Algebraic forms of switching functions. Derivation of canonical forms. Switching
circuits.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Simplification of Switching Functions
Characteristics of minimization methods. Karnaugh maps. K-maps of four or more variables.
Simplification of switching functions using K-maps. Tabular minimization method.
5. Combinational Logic Circuits, Design Procedure, Adder, subtractor, Code Converter, parity Checker
etc, Analysis of Combinational Circuits and its truth table, Encoder , Decoder, ROM and PLA.
Group-B (30 Marks)
6. Multiplexers/Data. Selectors. Multiplexer Circuit Structures. Applications of Multiplexers.
Demultiplexers/Data Distributors. Binary Arithmetic Elements. Binary Adder Circuits. Binary
Subtraction Circuits. Comparators.
7. Introduction to Sequential Logic Models for sequential circuits. Block diagram representation. State
tables and diagrams. Memory devices. Latches: set-reset latch, gated SR latch, delay latch. Flip-flops:
master-slave SR flip-flops, master-slave D flip-flops, master-slave JK flip-flops, edge-triggered D flip-
flops, edge-triggered JK flip-flops, T flip-flops.
8. Design of counters, shift registers and their applications
Text Book: 1. M. Morris Mano : Digital Logic Design
Reference Books:
1. Dr. V.K. Jain : Switching Theory 2. Tocci-Widmer : Digital Systems
Course Code: ETE 2304 Course Title: Digital Electronics & Logic Design Sessional Credit Hour: 1.5 Contact Hour: 3 per week
Course Contents:
Laboratory works based on ETE 2303
Course Code: ETE 2305 Course Title: Signals And Linear Systems
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Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the signals and linear
systems.
Course Contents:
Section A (Mid-term Exam: 30 Marks)
1. Introduction to Signals:
Signal classifications: Continuous, discrete, stochastic, even-odd signals, mathematical models of ideal
signals. Elementary/test signals, power and energy signal. Response of test signals to LTI systems. Linear
convolution and its properties. Discrete time elementary sequences: Delta sequence, unit step sequence.
Representation of arbitrary sequence by elementary sequences. Discrete time convolution. Connections
between input- and output signal: convolution, difference equations.
2. Frequency analysis and transformer
Fourier series and Fourier transformer of continuous-time and discrete-time signals Parsevals relation Frequency characteristics of linear time-invariant systems and frequency content of signals. Sampling of continuous-time signals The sampling theorem, folding and reconstruction, A/D- and D/A-conversion. 3. Discrete Fourier transforms (DFT)
Sampling in the frequency plane Discrete Fourier transform (DFT), Fast Fourier transform (FFT) and its applications.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Application of Fourier series
Applications of time and frequency domain analyses: solution of analog electrical and mechanical
systems, amplitude modulation and demodulation, time-division and frequency-division multiplexing.
5. Laplace transformation
Laplace transformation: properties, inverse transform, solution of system equations, system transfer
function, system stability and frequency response and application.
Group-B (30 Marks)
6. Application of Laplace transform
Application of Laplace transform to network analysis: Network functions, natural frequencies, concept of
poles and zeros, their locations on the s-plane. Frequency response plots. Initial and final values.
7. Z-Transform: Z-transform, Inverse Z-transform, Theorems and properties, System functions
8. Filters Introduction, types of filters, approximations: Butterworth and Chebyshev filters
Reference Books:
1. Rakesh.R & N.C. Sahoo., Circuit and Signals Prentice Hall, Malaysia. 2004 2. Narasingh Deo, "Graph Theory, with Applications to Engineering and Computer
Science", Prentice Hall, 2000.
3. I J Nagrath et. al, "SIGNALS AND SYSTEMS" Mc-Graw Hill, Singapore, 2001, ISBN 0-07-12027 1-4.
4. William H. Hayt, Jr and Jack E. Kemmerly, "Engineering Circuit Analysis" Mc Graw-Hill International Edition, 2001.
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5. M.E.Van Valkenberg, "Network Analysis", Prentice-Hall. 6. McClellan, J.,Yoder, M. & Schafer, R. (2003). Signal Processing First. Pearson Higher
Education. ISBN 0-13-120265-0.
7. Signals and Systems -Simon Haykin 8. Signals and Systems -Alan V. Oppenheim 9. David K. Cheng, Linear System Analysis"
Course Code: ETE-2307 Course Title: Numerical Methods
Credit Hour: 1 Contact Hour: 1 per week
Course Contents:
Group A
1.Errors in Numerical Calculations:
Significant figure, rounding off numbers, Error in Numerical Calculation
2.Roots of Nonlinear Equation:
Solution of Algebraic and Transcendental Equation
3.Interpolation:
Interpolation with equal and unequal intervals- Missing values, Newtons binomial expansion formula, Newtons forward and backward interpolation formula. Central difference interpolation formulae, inverse interpolation.
4.Numerical Differentiation:
Derivates using Newtons forward backward and Starlings formula.
Group B
5.Numerical Integration:
General quadrature formula for equidistant ordinates. Trapezoidal rule, Simpsons one-third rule, Simpsons three-eight rules, Weddles rule. 6.Numerical solution of ordinary differential equations:
Taylors series method, Eulers method, Adams Back forth Moulton method, Runge-Kutta method. 7.Solution of linear equations:
Gauss-elimination method, Iteration methods. Gauss-Seidel method, Gauss-Jordan method.
8.Curve Fitting:
objective of fitting a curve, fitting a straight line, fitting a parabola
Text Book:
1. S.S Sastry : Introductory Methods of Numerical Analysis Reference Books:
1. A.R Vasistha, Vipin Vasishtha :Numerical Analysis 2. E. Balagurusamy :Numerical Methods 3. G. Shanker Rao :Numerical Analysis, New Age International (P) Limited 4. Webb Miller : The Engineering of Numerical Software. 5. K. R. Jackson : Simplified FORTRAN Guide.
Course Code: ETE 2405 Course Title: Analog Communication Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the analog
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communication.
Course Contents:
Section A (Mid-term Exam: 30 Marks)
1. Modulation: definition, importance, types
Amplitude modulation: system description, generation & detection, different AM systems DSB-SC, SSB.
2. Vestigial sideband Modulation process & application, Frequency mixing and multiplying, frequency
division multiplexing, super heterodyne principles, Application of AM systems, Am broadcast band
specification.
3. Angle modulation systems: Instantaneous frequency, frequency deviation, modulation index,
Significant sideband criteria, bandwidth of Angle modulation, power of an FM signal, narrowband FM,
wideband FM, FM generation
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Principle of Phase Lock loop, FM demodulation, limiter, pre-emphasis, de-emphasis, FM transmitter &
receiver, FM broadcast specification.
5. Noise waveforms and characteristics, noise sources, thermal noise, burst noise, shot noise, white
thermal noise, noise voltage and power, equivalent noise temperature and bandwidth.
Group-B (30 Marks)
6. Analysis of noise effects on baseband systems, Amplitude modulation and Angle modulation.
7. VHF and microwave link, digital modulation ASK, FSK, PSK, DPSK, QPSK detail description of themselves.
8. Match filter and correlation receiver, error probabilities.
Course Code: ETE 2406 Course Title: Analog Communications Sessional Credit Hour: 1.5 Contact Hour: 3 per week
Course Contents:
Laboratory works based on ETE 2405
Course Code: ETE 2407 Course Title: Electromagnetic Fields And Waves Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the electromagnetic fields
and waves.
Section A (Mid-term Exam: 30 Marks)
1. Electrostatics: Coulomb's law, force, electric field intensity, electrical flux density. Gauss Law with
application, Divergence of an Electrostatic Field, Electrostatic potential, Electric Dipole, boundary
conditions in Electrostatics, The use of images, Laplace's and Poisson's equation energy of an electrostatic
system.
2.Magneto statics: Concepts of magnetic field, Ampere's law, Stokes Theorem, Vector magnetic
potential, Magnetic Dipole, Energy of a static Magnetic Field, Completeness of Specification of Electric
and Magnetic Fields
3. Co-ordinate System: rectangular, cylindrical and spherical coordinates Solution to static field
problems. Graphical field mapping with applications, solution to Laplace equations, rectangular,
cylindrical and spherical harmonics with applications.
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Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4.Maxwell's equations: Voltages induced by changing Magnetic Fields, Continuity of charge, the
concept ofdisplacement current physical pictures of displacement current, Maxwell's Equations in
Differential equation form, in large Scale form and for the time periodic case.
5. Propagation of E-M waves: Poynting's Theorem for Energy relations in an Electromagnetic Field.
Application of Maxwell'sequations in Wave Propagation, Application of Maxwell's Equations in
Penetration of Electromagnetic Fields into a Good Conductor.
Group-B (30 Marks)
6. Boundary Conditions: Boundary Conditions for Time Varying systems, Wave Propagation. Potentials
used with varying charges and currents. The Retarded Potential concepts. Maxwell's equations in different
coordinate systems.
7. Transmission line: Circuit Concepts and Impedance Elements. Skin Effect and Internal Impedance:
Internal Impedance of a Plane wave,, general equation of transmission line.
8. Polarization and Reflection of E-M wave: Uniform Plane waves in a Perfect Dielectric, Polarization
of Plan Waves, Waves in Imperfect Dielectrics and Conductors. Reflection of Normally incident Plane
Waves from perfect conductors,, Normal Incidence on a Dielectric, Reflection Problems with several
dielectrics, Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence, Incidence at any angle on dielectrics, Total Reflection, Brewster angle.
Text Book:
1. S. Ramo, J. R. Whinnery, and T. Van Duzer, Fields and Waves in Communication
Reference Books:
1. W.H. Hayt, Jr, John H Buck, TMH 6th edition -- Electromagnetic Engineering 2. Jordonl & Balmain, Mrptice - PHI.-- Electromagnetic waves & radiating system 3. Kraus/ Fleisch, Mcgraw Hill. -- Electromagnetic with applications. 4. M.A. Wazed MIAH, McGraw Hill. -- Fundamentals of Electromagnetic 5. K.D. prasad, stya prkashan. Electromagnetic fields and waves 6. D. N. vasudeva, S & C Publication -- Fundamentals of magnetism & electricity.
S. P. Seth. Dhanpat Rai & Co. - Elements of Electromagnetic fields
Course Code: ETE 2408 Course Title: Design Of Electronic Systems Credit Hour: 1 Contact Hour: 2 per week
Objective: The objective of this course is to introduce the fundamental ideas of the design of electronic
systems.
Course Contents:
1. Comparative study of CMOS & TTL ICS, OPAMP in the regard of specifications and performance characteristics required for system design. Study of performance parameter of
discrete components.
2. Design of Multi-meters 3. Design of Analog multimeter for measurement of voltage, current, resistance. Design of 3 digit
DVM using ICS 7106 & 7107.
4. Design of IF amplifier, AM and FM detectors. 5. Design of Hi-Fi Audio system 6. Preamplifier using LM 381/82/833 Design of tone control circuits, Design of power amplifiers
using IC TBA 810 & LM 380
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7. Design of data acquisition system for monitoring and control of temperature, humidity, soil moisture and light.
8. Design of sequential and combinational logic Design Design of counters using 7490, 92, 93, 741190, 191, 192, 193.
9. Design of multiplexers and de-multiplexers using ICS. 10. Design of frequency counters using ICs, Design of frequency synthesizer using CMOS counter
ICS & PLL.
11. Design of relay type AC voltage stabilizers. 12. Design consideration for Electronic equipments Mechanical Design, thermal design, PCB
design & reliability.
Text Book:
1. System Design using integrated circuits by BS Sonde
Reference Books:
1. Linear integrated circuits by Ramaant Gaikwad 2. Digital system design by Hill & Peterson 3. Art of Digital design by Winkel prosser PHI 4. Digital instrumentation by Bowans 5. Microprocessor Architecture, programming and applications by Gaonkar 6. CMOS, TTL digital system design by MGH 7. Printed Circuit Board by Bo.
Course Code: ETE 2409 Course Title: Industrial Electronics Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the industrial electronics.
Course Contents:
Section A (Mid-term Exam: 30 Marks)
1. Introduction to solid state switching devices : Schottky rectifier, SCR, TRIAC, IGBT and GTO
Introduction to triggering devices: UJT, UJT relaxation oscillator, Programmable UJT (PUT), PUT
relaxation oscillator, Silicon Unilateral Switch (SUS), DIAC.
2. Magnetic Amplifiers. Resistance welder controls. Induction heating. Dielectric heating.
3. DC motor phase Control:
Balance bridge (reversing) drive for PM or shunt motors, Phase control circuit for DC series motor.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Stepper motors; stepper motors drive circuit using transistors, Darlington transistor and MOSFETs.
5.Variable frequency converter block diagram, simplified single phase cycloconverters, Single phase
inverter, three phase six step inverter.
Group-B (30 Marks 6. AC motor braking, DC motor braking and plugging circuits, transistors dynamic braking circuit, typical
motor plugging circuit.
7. Speed control PM/Shunt motors; electronics speed control using armature voltage control method.
Solid state motor speed controller: Single transistor speed control; OP-AMP and Darlington power
amplifier speed control; Speed control of AC motors using power electronics devices.
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8. SCR speed control circuits for PM/Shunt motors; Simple SCR plus UJT control circuits, Series /
universal motor control circuit using SCR (half wave control) & TRIAC and DIAC (full wave control);
motor speed control circuit using inverter.
Text Books:
1. Schuler and McNamce,Industrial Electronics and Robotics, Tata McGraw-Hill, Singapore. 2. P.C. Sen, Power Electronics, Tata McGraw-Hill, publishing company Ltd. 1987(1994) New
Delhi, India
3. Cyril W.Lander, Power Electronics, McGraw-Hill, publishing company,(UK), London,1981. 4. Muhammad Harunur Rashid,Power Electronics Handbook.
Course Code: ETE 2410 Course Title: Industrial Electronics Sessional Credit Hour: 1.5 Contact Hour: 3 per week
Course Contents:
Laboratory works based on ETE 3501
Course Code: ETE 3503 Course Title: Microprocessor Microcontroller And Peripherals Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the microprocessor,
microcontroller and peripherals.
Course Contents:
Introduction to Microprocessor
Section A (Mid-term Exam: 30 Marks)
1. Basic architectures Von-Neumann and Hardwired, Evolution of Microprocessors, Computer
generations and classifications, Mainframe, Mini, Micro and super computers, Microcomputer block
diagram, different input output devices, different memory devices (Primary and Secondary).
2. Difference between microprocessor, microcomputer, microcontroller. Concept of multiprogramming multiprocessing, multi user system, parallel processing.
Microprocessor 8085, 8086 and 80386
3. Pin-out diagram and pin description, Architecture, Instruction and data flow, addressing modes, Instruction fetch & execute, machine cycles, instruction cycle, timing diagrams, state transition
diagram, instruction groups and instruction set.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Assembly language programming: Simple arithmetic programs, data transfer array, string, bit manipulation, code conversion, delay routine and stack operations.
I/O interfacing and Memory System Design
5. Address design need of I/O, ports I/O, mapped I/O, memory mapped I/O, data transfer schemes
PPI 8255 its modes, interface, initialization and programming.
Group-B (30 Marks
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6. Interfacing of key, L. E. D., seven segment, Dot matrix display, ADC 0808, and DAC 0809, with
PPI 8255, address decoder and memory system design interface, stepper motor controller interfacing with
8255.
Peripheral Devices
7. 8251, 8253, 8257, 8279, interface with 8085, initialization and application oriented programming.
Data transfer schemes.
8. Interrupts SIM/RIM, PIC 8259 interface, initialization and programming with 8085, Micro
Processor System Design, 8085 applications such as: Programmable Logic Controller, Temperature
controller,
Text Book:
1. Microprocessor Architecture, Programming And ApplicationsGaonkar, Willey Eastern Publications.
Reference Books:
1. Microprocessor and Programmed Logic--K.L.Short, 2nd Edition Pearson Education.
2. Fundamentals of Microprocessor & Microprocomputers-- B. Ram, TMH. 3. Microprocessor and Digital System Dougles Hall- TMH. 4. Intels Data Manuals. 5. Microprocessor H/W Interfacing and Application Bray CBS 6. Microprocessors and PeripheralsB. Venkatramani, TMH. 7. The 8051 Microcontroller And Embedded Systems- Mazidi and Mazidi
Prentice-Hall Inc., U.S.A., 2000
8. Design with Microcontrollers - John B. Peatman, McGraw-Hill, U.S.A., 1988. 9. The M68HC11 Microcontroller: Applications in Control, Instrumentation, and
Communication- Michael R. Kheir, Prentice-Hall Inc., U.S.A., 1997
Course Code: ETE 3504 Course Title: Microprocessor Microcontroller And Peripherals Sessional Credit Hour: 1 Contact Hour: 3 per week
Course Contents:
Laboratory works based on ETE 3503
Course Code: ETE 3505 Course Title: Information Theory And Coding Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the information theory and
coding.
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Course Contents:
Section A (Mid-term Exam: 30 Marks)
1. Information Sources and Sources Coding
Logarithmic measure for information, self and average information. Entropy, information rate, discrete
sources, extensions of a discrete source, Shannons source coding theorem. 2. Markov source. Joint and conditional entropy. Source coding theorem and algorithms. Kraft inequality,
Huffman code, prefix code,
3. Lempel-Ziv code, rate distortion theory. Scalar and vector quantization, waveform coding. Orthogonal
Codes, biorthogonal Codes. Simplex Code. Application examples: MPEG audio compression, JPEG
image compression standard and MPEG video compression.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. Channel Capacity and Coding, Discrete channels, mutual information, Properties of Mutual
Information, channel capacity, Shannons channel coding theorem, bandwidth-S/N trade-off. Channel capacity theorem.
5. Model of digital communication system employing coding. History of Coding, Types of Coding, Types
of Decoding, Types of Error Control, Code Rate and Redundancy, Hamming distance, Hamming weight,
Hamming bound. parity check codes, Hamming codes, Cyclic Codes.
Group-B (30 Marks) 6. Linear block codes, generator and parity check matrix, syndrome decoding. Cyclic codes, generation
and detection. Coding for reliable communication, coding gain, bandwidth expansion ratio. Comparison
of coded and uncoded systems.
7. Convolutional Codes, Encoding, Encoder representation, impulse Response of the Encoder, polynomial
Representation, state representation and the State Diagram, Code tree, Trellis diagram.
8.Decoding of convolutional codes, Veterbis algorithm, sequential decoding. Transfer function and distance properties of convolutional codes. Error Correction Capability of Convolutional Codes, Coding
gain. Application example: GSM systems.
Text Book:
1. N. Abramson, "Information Theory and Coding", McGraw-Hill, 1963. 2. Bernard Scalar, Digital Communication System
Reference Books:
1. C.E. Shannon, "A Mathematical Theory of Communications", Bell System Tech. Journal, Vol. 27, July and Oct. 1948.
2. W.W. Peterson and E.J. Weldon, "Error-Correcting Codes", MIT Press, 1972.
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Course Code: ETE 3507 Course Title: Radio And Television Engineering Credit Hour: 3 Contact Hour: 3 per week
Objective: The objective of this course is to introduce the fundamental ideas of the radio and television
engineering.
Course Contents:
Section A (Mid-term Exam: 30 Marks)
1. AM Radio Transmitter:
Classifications. Constituent stages of AM Radio transmitter. Different types of Modulators and AM power
amplifiers. Antennas and matching circuits for an AM transmitter. Privacy device in Radio Telephony,
SSB transmission. Radio telegraph transmitters. Reactance tube modulators.
2. FM Transmitter:
FM transmitter using reactance tube modulators, stabilization of frequency drift, Armstrong FM
transmitter, Antennas and matching circuits for an FM transmitter. Transmitter power supply system.
3. Receivers for AM
Role of a receiver, receiver requirements, block diagram of receiver architectures such as TRF receiver,
super heterodyne receiver, double-conversion receiver, direct conversion (homodyne) receiver. Receiver
specifications, receiver sensitivity, minimum detectable signal, noise figure, selectivity, dynamic range,
automatic gain control (AGC), image rejection, compression, third-order intermodulation. Selection of IF
frequency, local oscillator tracking, role of filtering in RF and IF stages in super heterodyne receiver.
Block diagram of commercial AM.
Section- B (Final Exam: 50 Marks)
Group- A (20-Marks)
4. FM Receiver
Limiter, detectors, slop detector, balance slop detector, Foster-sheely discriminator, ratio detector, stereo
FM multiplexing reception.
5. Television:
Basic principles of television. Analysis and synthesis of television pictures, Composite video signal,
Signal transmission and channel allocation, TV camera tube, Picture carrier signal, Scanning and
synchronization, Basic TV broadcast studio.
Group-B (30 Marks)
6. TV Transmitter:
Television signal propagation and antennas. Modulation system, Duplexer, TV antennas, Signal reception,
Ghost Image.
7. TV Receiver:
Types, Basic principle of TV receiver, Picture tubes, Video circuits, AGC circuits, Sync circuits, Color
circuits, Automatic color circuits, Deflection oscillators, Vertical deflection circuits, Horizontal deflection
circuits, The picture IF section, The
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