AMERICA BANGLADESH UNIVERSITY
BACHELOR OF SECIENCE DEGREE IN
ELECTRICAL AND ELECTORNICS ENGINEERING
TOTAL CREDITS REQUIRED: 153.
The objective of the course:
The Faculty of Applied Science and Engineering is to prepare students to be proficient in the application of basic science and technology in order for them to pursue career opportunities in various public and private sectors such as government, education, and business. Students served are also capable of meeting the expanding challenges of high technology as they complete their programs of study. Thus, the School is involved in teaching, research, and service projects as they related to the School's mission and the mission of the University.
In pursuing its primary mission, activities focused on the achievement of academic excellence, professional service, applied research, and development allow the School to work toward the achievement of the following goals and objectives:
to offer high quality programs to prepare students for the technical workforce of the 21 st century.
to provide an environment which nurtures individual development and creativity through the application of science, engineering, and technology.
to maintain “accreditation standards” in all degree programs with heavy emphasis on applied research, development and professional service activities.
to develop strong partnerships with the business, industry, and governmental sectors for economic development and technology transfer activities.
The four year degree program has been chalked out and divided into 12 semesters. There will be semester of 16 weeks duration with 15 weeks of class instruction and one week of examinations etc. The two full semester are in Fall and Spring with an intermediate semester of Summer.
BACHELOR SCIENCE DEGREE IN
ELECTRICAL AND ELECTRONICS ENGINEERING
COURSE PLAN AND COURSE CURRICULA
Not a transfer course
General Inorganic Chemistry
Composition and Rhetoric
Intro. to Computer Programming
Direct Current Circuits
Direct Current Circuits Laboratory
MATH 1314 & 1316
Semiconductor Fundamentals Lab
Alternating Current Circuits
Alternating Current Circuits Laboratory
University physics 1 (with Lab)
Digital Logic and Microprocessor
University physics –II(with Lab)
Motor And Motor Control Fundamentals
Digital Logic Circuits Laboratory
Digital Logic Circuits
Physics Of Instrumentation
Intro Social Science
Fundamentals Of Measurements And Process Control
Semiconductor Fundamentals Laboratory
Digital Hardware Design Laboratory
Digital Hardware Design
Into to Anthropology
Principles of Economics
Microprocessor Fundamentals Laboratory
Introduction To Electronic Process Instrumentation
Computer Circuit Analysis Laboratory
Computer Circuit Analysis
Communications Systems Laboratory
Computer Control System
Computer Control System Laboratory:
Microprocessor Interfacing Laboratory
ELET 111 Direct Current Circuits Laboratory
Laboratory activities on electronic circuits, Ohm's law, voltage, current resistance, and basic test instruments. Two hours of laboratory per week Corequisite: ELET 131. (Formerly ELECT 111)
ELET 112 Semiconductor Fundamentals Laboratory (1)
Laboratory experiments on the application, analysis, and measurement of semiconductor devices in basic amplifier circuits. Two hours of laboratory per week. Prerequisite: ELET 133. Corequisite: ELET 132. (Formerly ELECT 112)
ELET 113 Alternating Current Circuits Laboratory (1)
Practical experiences in the measurement and analysis of alternating currrent with voltage, impedance, and phasor experiments. Two hours of laboratory per week. Prerequisite: MATH 134. Corequisite: ELET 133. (Formerly EENG 1132)
ELET 130 Applications of Structured Programming (3)
Structured methods of developing complex technology computer programs using a high level programming language in a networked environment. Emphasis on problems from technology. Two hours of lecture and two hours of laboratory per week. (Formerly EENG 131)
ELET 131 Direct current Circuits (3)
Direct current topics covered; current, voltage, resistance, power, energy, series and parallel circuits, combination circuits, Ohm's law, Kirchoff's rules, inductance, capacitance, and magnetism. Three hours of lecture per week. Corequisite: ELET 111. (Formerly ELECT 132)
ELET 132 Semiconductor Fundamentals (3)
Study of the operation and characteristics of semiconductor devices such as bipolar-junction transistors, diodes, field-effect transistors, and other devices. Three hours of lecture per week. Prerequisite: ELET 133. Corequisite: ELET 112. (Formerly ELECT 132)
ELET 133 Alternating Current Circuits (3)
Continuation of ELET 131 with studies of alternating current circuits, impedance concepts, network theorems, transformers, passive filters, and response curves. Three hours of lecture per week. Prerequisites: MATH 134 and ELET 131. Corequisite: ELET 113. (Formerly EENG 132)
ELET 211 Computer Circuit Analysis Laboratory (1)
Use of computer programming and application software packages that allow the performance of advanced circuit analysis and IC modeling in a laboratory setting. Two hours of laboratory per week. Prerequisite: ELET 133. Corequisite: MATH 241 and ELET 231. (Formerly EENG 211)
ELET 213 Digital Hardware Design Laboratory (1)
Experiments in digital hardware design. Two hours of laboratory per week. Corequisite: ELET 243. (Formerly ELECT 213)
ELET 214 Digital Logic Circuits Laboratory (1)
Exercises on logic circuits, combinations and sequential logic devices, and flip-flops. Two hours of laboratory per week. Corequisite: ELET 241. (Formerly ELECT 214)
ELET 223 Electric Machines (3)
Study of poly phase circuits, transformers, DC machines, induction machines and small AC motors. Two hours of lecture and two hours of laboratory per week. Prerequisite: ELET 133.
ELET 231 Computer Circuit Analysis (3)
Advanced circuit analysis course using the computer to analyze current, voltage, and advanced circuit theorems. Three hour of lecture per week. Prerequisites: ELET 130 and ELET 133. Corequisite: MATH 242 and ELET 211 (Formerly EENG 231)
ELET 232 Electronics Instruments and Measurements (3)
Study of operating principles measurement techniques, and applications of instruments such as multi meters, oscilloscopes, transducers, and attenuators. Two hours of lecture and two hours of laboratory per week. Prerequisite: ELET 133 (Formerly EENG 232)
ELET 241 Digital Logic Circuits (3)
Introduction to digital technology, Boolean algebra. number systems codes truth tables, combination and sequential logic devices. Three hours of lecture per week. Prerequisites: MATH 134 and ELET 132. Corequisite: ELET 133 and ELET 214 (Formerly ELECT 241)
ELET 243 Digital Hardware Design (3)
Study of digital hardware with emphasis on digital circuits such as memory circuits. A/D and D/A converters. Three hours of lecture per week. Prerequisite: ELET 241. Corequisite: ELET 213. (Formerly ELECT 243)
ELET 311 Communications Systems Laboratory (1)
Experiments on oscillators, transmitters, receivers, filters, and transmission lines as related to modern electronic communications techniques. Two hours of laboratory per week. Prerequisite: ELET 231. Corequisite: ELET 331. (Formerly EENG 311)
ELET 313 Microprocessor Fundamentals Laboratory (1)
Experiments to explore the relationship between hardware and software in microprocessor, input/operations, and assembly language techniques. Two hours of laboratory per week. Corequisite: ELET 343. (Formerly ELECT 313)
ELET 322 Industrial Electronics (3)
Electronic control systems, sensing devices, sequence controls, feedback control principles, analog/digital controls, and numerical control systems. Tow hours of lecture and tow hours of laboratory per week. (Formerly ELECT 332)
ELET 331 Communications Systems (3)
Study of basic communications systems with emphasis on modulation techniques, wave propagation transmission theory. Three hours of lecture per week. Prerequisites: MATH 242 and ELET 311. (Formerly EENG 331)
ELET 343 Microprocessor Fundamentals (3)
Introduction to microprocessor hardware and software, including microprocessor principles, organization, machine language per week. Prerequisite: ELET 243. Corequisite: ELET313. (Formerly ELECT343)
ELET353 Microprocessor Software Applications (3)
Study of programming microprocessor and microcomputers using assembly language techniques with emphasis on writing industrial application programs for engineering technology. Two hours of lecture and two hours of laboratory per week. Prerequisites: MATH 242 and ELET 431. (Formerly EENG 411)
ELET 411 Microprocessor Software Applications (3)
Experiments and written reports where students construct, test, and debug hardware and software computer networks. Two hours of laboratory per week. Corequisite: ELET 431. (Formerly EENG 411)
ELET 413 Microprocessor Interfacing Laboratory (1)
Experiments on interfacing microprocessor with emphasis on input/output operations, bus systems, peripheral hardware and software Applications. Two hours of laboratory per week. Corequisite: ELET 431. (Formerly ELECT 413)
ELET 431 Microprocessor Interfacing (3)
Study of interfacing with topics on bus timing, input/output timing, serial and parallel input/output methods, and control signals. Three hours of lecture per week. Prerequisites: ELET 353. Corequisite: ELET 413. (Formerly ELECT 431)
ELET 432 Senior 432 Senior Electronics Project (3)
Opportunity for seniors to engage, in a team project in applied electronics where integration of knowledge obtained throughout the program is possible. Prerequisite: senior standing and consent of the Faculty Chair. (Formerly EENG 432)
ELET 434 Microcomputer Networks (3)
Study of networking components and techniques for a microcomputer network, including the study of standards, protocols, LAN's and WAN's. Three hours of lecture per week. Prerequisites: MATH 242, ELET 243, and ELET 343. Corequisite: ELET 411. (Formerly EENG 431)
ELET 441 Electronics Senior Comprehensive (0)
Senior comprehensive examinations for graduating seniors majoring in Electronics Engineering Technology. Prerequisite: Consent of the Faculty Chair. (Formerly EENG 441)
ANTH 2346. INTRODUCTION TO ANTHROPOLOGY. (3-0). CREDIT 3 - Principles of physical
and cultural anthropology, analysis of the cultures of prehistoric and existing preliterate people, impact of modern western culture on preliterate societies. Prerequisite: Nelson Denny 12 Spring. This is an academic transfer course.
ARTS 1303 ART HISTORY (lecture 3, lab 0). CREDIT 3. A review for major developments
in the painting sculpture, and the architecture of Western art from ancient civilizations through the Medieval era (c 35,000B.C. to A.D.1400) . This is an academic transfer course.
COSC 1320. C++ PROGRAMMING. (lecture 3, lab 1.5). CREDIT 3 - Study of the C++
Programming language and introduction to object-oriented programming. Applications are designed, compiled, “debugged” and executed. Prerequisite: COSC 1312 or equivalent. The student must earn a grade of “C” or higher in prerequisite courses. This course will transfer for certain baccalaureate programs.
ENGL 1301. COMPOSITION AND RHETORIC (lecture 3, lab 0). CREDIT 3 - An introduction to
writing skills that will generate, organize and project knowledge gained from personal experience and reading. The power to describe and to influence others through writing will take the form of reading assignments, class discussions, in-class essays, and a research paper. Mechanics as well as elements of style will be stressed. Prerequisite: TSWE 35, or DEVW 0360, or DEVW 0390; reading level of 12.6. Credit by examination available. This is an academic transfer course.
ENGL 2311. TECHNICAL WRITING (Lecture 3, lab 0) CREDIT 3 - The writing of technical
reports, proposals, progress papers, and interoffice memoranda. Prerequisite: ENGL 1302 or permission of the instructor. This is an academic transfer course.
ENGL 2333. WORLD LITERATURE. (lecture 3, lab 0). CREDIT 3 - Masterpieces of world
literature, Renaissance to present. Prerequisite: ENGL 1302. This is an academic transfer course.
MATH 2318 LINEAR ALGEBRA (lecture 3, lab 0) CREDIT 3 Selected topics from system of linear
equations and matrices, determinants, vectors in 2 space & 3 space general vector spaces, linear transformation & application (Prerequisite: MATH 2413) Linear Systems, matrix algebra, determinants, vectors in R dot product, orthogonalization, and eigenvalues, and diagonalization. (3 lecture hours, 1 tutorial hour a week).
MATH 2320 DIFFERENTIAL EQUATIONS (lecture 3, lab 0) CREDIT 3. Analytical solution of
ordinary differential equations with applications. Prerequisite MATH 2414 grade C or better. This is an academic transfer course.
MATH 2413 CALCULUS I (lecture 4.5, lab 0) CREDIT 4 Limits and continuity; differential calculus
with applications, derivative and differentials of algebraic functions and application related rates, differentials. introduction to the definite integral, application of definite integrate. Mean Value Theorem, Anti derivatives, Riemann sums and the definite integral. Fundamental Theorem of Calculus. Selected applications of the definite integral. (Prerequisite: MATH 2312) (3 lecture hour, 1 tutorial hour a week).
MATH 2414. CALCULUS II. (Lecture 4.5, lab 0) CREDIT 4 - Applications of the definite integral,
differentiation and integration of transcendental functions, techniques of integration, indeterminate forms, improper integrals, introduction to infinite series. Prerequisite: MATH 2413 grade C or better. This is an academic transfer course.
MATH 2415. CALCULUS III. (Lecture 4.5, lab 0) CREDIT 4 - Three-dimensional spaces, vector
functions in three-dimensions spaces, functions of two or more variables, partial derivatives and multiple integrals. Prerequisite: MATH 2414 grade C or better. This is an academic transfer course.
MATH 4434 : INTRODUCTION TO PROBABILITY CREDIT 3 prerequisite:
Calculus II, sample space, probability function, combinatorics discrete and continuous and random variables, special probability distribution and limit laws.
PHYS 2425. UNIVERSITY PHYSICS I. (lecture 3, lab 3) Credit 4 - A calculus approach to the
study of static's and dynamics of particles and rigid bodies, fluid dynamics, and thermodynamics. For physics major and pre-engineering students. Previous physics course recommended. Corequisite: MATH 2413. (Recommended as a prerequisite for part-time students). This is an academic transfer course.
PHYS 2426 UNIVERSITY PHYSICS II (lecture 3, lab 3). Credit 4 - A continuation of PHYS 2425.
Wave theory, sound, electrostatics, electric and magnetic fields, DC and AC circuits, electromagnetic waves, interference, diffraction, polarization, and topics from modern physics. Prerequisite: PHYS 2425 and MATH 2413. Co requisite: MATH 2414. This is an academic transfer course.
SPCH 1311. FUNDAMENTALS OF SPEECH. (lecture 3, lab 0). CREDIT 3 - This course
emphasizes the principles of oral communication skills in both speaking and listening situations. In addition to theory in verbal and nonverbal technique, the course prepares students for planning, organization, and delivery of different types of informative and persuasive presentations. Prerequisite: TSWE 35 or DEVW 0360. This is an academic transfer course.
CHEM 1411 GENERAL INORGANIC CHEMISTRY (lecture 3, lab 3). CREDIT 4 . Principles and
laws of chemical changes , gas laws, periodic classification, atomic ad molecular structure, solution concentrations, ionic equilibria, oxidation-reduction reactions, thermodynamic equilibria. Recommended that students should have strong mathematical background and completed high school chemistry.
ECON 2301 PRINCIPLES OF ECONOMICS (lecture 3, lab 0). CREDIT 3 The analysis of
economic foundations, covering national income theory, public sector functions, money and banking, and economic growth and in international trade in the macroeconomic realm.
SOCI 1301 INTRODUCTION TO SOCIOLOGY (lecture 3, lab 0). CREDIT 3. An introduction to
the study of sociology dealing with group behavior, relationship of man , stressing the interaction, of heredity, geographical environment, the group and culture upon man's personality and upon his social life.