Department of Electrical and Electronic Engineering Bangladesh Army University of Science and Technology Saidpur, Bangladesh. Ashrafun Naher Pinky, Assistant Professor and Head, EEE, BAUST Tahasin Ahmed Fahim, Lecturer, EEE, BAUST.

Introduction

Aim

Objectives

Location

Eligibility of Students for Admission in BAUST

Admission Procedure

Syllabus for Admission Test

Final Selection

Medical Checkup

Introduction

Laboratory Facilities of the Department

Number of Terms in a Year (Level)

Duration of Terms

Course Pattern and Credit Structure

Course Designation System

Assignment of Credits

Types of Courses

In addition to the core subjects, students can choose from a range of elective subjects in Level 4 Semester 1 and Level 4 Semester 2.

The Grading System

• The Letter Grade
• Distribution of Marks
• Calculation of CGPA
• Minimum Earned Credit and GPA Requirement for Obtaining Degree
• Attendance
• Teacher-Student Interaction
• Conduct and Discipline

Grade Point Average (GPA) is the weighted average of the grades obtained from all courses taken/completed by a student. The Cumulative Grade Point Average (CGPA) is the weighted average of the GPA achieved in all terms taken/completed by a student.

Introduction

Core Courses

List of Core Courses – EEE

List of Core Courses -Arts and Science

List of Core Courses – CSE

List of Core Courses – ME

Elective courses

Term wise Distribution of Courses

• Level-1 Term-1
• Level-1 Term-2
• Level-2 Term-1
• Level-2 Term-2
• Level-3 Term-1
• Level-3 Term-2
• Level-4 Term-1
• Level-4 Term-2

It will be conducted at any convenient time after completion of Level – 3 Term – II.

Summary of the Credit Hour Requirement

Core Courses

In this course, students will conduct experiments to practically verify the theories and concepts learned in EEE 2105. In this course, students will conduct experiments to practically verify the theories and concepts learned in EEE 2205. In the first part, students will conduct experiments to practically verify the theories and concepts learned in EEE 2207.

In the first part, students will perform experiments to practically verify the theories and concepts learned in EEE 3105. In the first part, students will perform experiments to practically verify the theories and concepts learned in EEE 3109. In the first part, students will perform experiments experiments to practically verify the theories and concepts learned in EEE 3201.

In the first part, students will conduct experiments to practically verify the theories and concepts learned in EEE 3203. In the first part, students will conduct experiments to practically verify the theories and concepts learned in EEE 3207. In the first part, students will conduct experiments to practically verify the theories and concepts learned in EEE 3113.

In the first part students will carry out experiments to practically verify the theories and concepts learned in EEE 4151. In the first part students will carry out experiments to practically verify the theories and concepts learned in EEE 4271.

Elective Courses

• Power
• Electronics
• Communication
• Interdisciplinary

In the second part, students will design simple systems using the principles learned in EEE 4151. In the second part, students will design simple systems using the principles learned in EEE 4271. In the first part, students will conduct experiments to practically verify the theories and concepts learned in EEE 4137.

In the second part, students will design simple systems using the principles learned in EEE 4137. In the first part, students will conduct experiments to practically verify the theories and concepts learned in EEE 4157. Introduction to Renewable Energy: Past, Today and Future, A Brief History of Energy Consumption, Energy and Environment, Non-Renewable Energies, Different Types of Renewable Energy.

In the first part, students will conduct experiments to practically verify the theories and concepts learned in EEE 4277. Introduction to Biomedical Engineering: Basic concept of biomedical engineering, applications and careers in biomedical engineering, ethical issues for the biomedical engineer/researcher. Overview of cell physiology: Structure and chemical components of the cell, introduction to nervous and muscle tissues.

Courses Offered by Other Departments to EEE Students

Dept of Computer Science and Engineering

Bioelectricity: Membrane potentials with classification, excitability of cell, generation and propagation of action potential and action current, conduction of nerve impulse in axon. Biomedical measurement and instrumentation: amplifiers, transducers, filters, detection and measurement circuits of blood pressure, heart rate volume calculation, components and function of pacemaker, measurement of different types of respiratory volumes, X-ray, MRI, electrical safety in biomedical measurement and instrumentation. Ordinary differential equations: Initial value problem, Taylor's series method, Picard's method of successive approximation, Euler's method and Runge Kutta method.

In the first part, students will carry out experiments to practically verify the theories and concepts learned in CSE 2109.

Dept. of Arts and Science

• Physics
• Mathematics
• Humanities
• Chemistry

Modern physics: Galilean theory of relativity and Einstein's special theory of relativity: Michelson Morley's experiment, Guliean transformation, Lorentz transformation equation, length contraction, time dilation, mass-energy relationship, photoelectric effect, Compton effect, de-Broglie matter waves and its success in explaining of Bhor's theory, Pauli's exclusion principle. Mechanics: Linear momentum of a particle, Linear momentum of system of particles, conservation of linear momentum, some applications of the momentum particle; angular momentum of a system of particles, Keplar's law of the motion of planets, the laws of universal gravitation, the motion of planets and satellites. Limit, continuity and differentiability, successive differentiation of different types of functions, Leibnit'z's theorem, Rolle's theorem, mean value theorem, expansion in finite and infinite forms, Lagrange's form of remainder, Cauchy's form of remainder (expansion of remainder) , extensions of functions differentiation and integration, indefinite form, Cartesian differentiation, Euler's theorem, tangent and normal, subtangent and subnormal in Cartesian and polar coordinates, maxima and minima of functions of individual variables, curvature, asymptotes.

Definition of integrations, integration by method of substitution, integration by parts, standard integrals, integration by method of successive reduction, definite integrals and its use in summation series, Walli's formula, improper integrals, beta function and function gamma, the multiple integral and its application, area, volume of solid rotation, area under a simple curve in Cartesian and polar coordinates, area of ​​the region enclosed by two curves in Cartesian and polar coordinates, arc length of curves in Cartesian and polar coordinates. ORDINARY DIFFERENTIAL EQUATIONS: Formulation of differential equations, degree and order of ordinary differential equations, solution of first order but higher order differential equations Solving first order differential equations by various methods Solving general equations linear of the second order and higher with constant coefficient. Solving differential equations with methods based on operator factorization, Frobenious methods, Bessel functions, polynomials and Legendre's properties.

Standard forms of higher order linear equations, Second order equation with variable coefficients. Discussion – On a given topic to test the correct use of phonetics, pronunciation, grammar, logic and confidence; Public speaking – Demonstration by the teacher in a short specific period where students (each student minimum twice) speak on different but easily given topics well in advance according to a schedule for a maximum of 3.00 to 4 minutes for each student ; Extempore – Minimum of two presentations by each student for a maximum duration of 3.00 to 4 minutes; Debriefing on public speaking and extemporaneous representation; Presentation – On a given academic topic or on a given research paper using power point for 40 minutes followed by question and answer session, group presentation on various given topics by the students using power point. Recording systems: Double entry mechanism, accounts and their classification, accounting equation, accounting journal, finance, trial balance.

Dept of Mechanical Engineering

Long-term investment decisions: capital budgeting, various techniques for evaluating capital investments, assessing investments under uncertainty, risk management, capital rationing. Concepts of atomic structure, Different atomic models, Quantum numbers, Electronic configuration, Periodic classification of elements, Periodic properties of elements, Properties and applications of noble gases, Chemical bonding (types, properties, Lewis theory, VBT, MOT), Hybridization and shapes of molecules, selective organic reactions such as - addition, substitution, oxidation-reduction, alkylation and polymerization, phase rule, phase diagram of monocomponent system. Solutions and their classification, Unit expressing concentration, Colligative properties of dilute solutions, Thermochemistry, Chemical kinetics, Chemical equilibrium, pH and buffer solutions, Electrical properties of solution and Electrochemical cell reactions.

Introduction: Letters, numbering and heading, Instruments and their uses; First and third angle projections; Orthographic drawings; Isometric views; Missing lines and views; section views and conventional practice; Help views. Examination of fuels, steam generators with accessories and fittings, examination of steam generators and turbines. Introduction to internal combustion engines and their cycles, study of SI engines, CI engines and gas turbines with their accessories.

Refrigeration: Study of various methods of refrigeration, chillers, refrigeration equipment, compressors, condensers, evaporators, expansion devices, other control and safety devices. Types of fluid machines, study of impulse and reaction turbines, Pelton and Kaplan wheel turbines, study of centrifugal and axial flow machines, pumps, fans, fans and compressors, study of reciprocating pumps. Operations Management: Production planning and control (PPC) functions, quantitative methods applied to production, quality management, safety and loss management of location and layout planning.

Courses Offered by EEE to Students of Other Departments

Dept. of Computer Science and Engineering

Introduction to semiconductors: p-type and n-type semiconductors, characteristics of p-n junction diode; Applications of diodes: half-wave and half-wave rectifiers, clipping and clamping circuits, Zener diode regulated power supply. Bipolar Junction Transistor (BJT): Principle of Operation, I-V Characteristics, Transistor Circuit Configurations (CE, CB, CC), BJT Biasing, Load Lines, BJT at Low Frequencies, Hybrid Model Parameters, Simplified Hybrid Model, Small Signal Analysis Single and Multistage Amplifiers , frequency response of BJT amplifiers. Field Effect Transistor (FET): Principle of operation of JFET and MOSFET, depletion and enhancement type of NMOS and PMOS, biasing of FETs, low and high frequency designs of FETs, switching circuits using FETs, introduction to CMOS.

Operational Amplifiers (OPAMPS): Linear applications of OPAMPs, gain, input and output impedances; active filters, frequency response and noise. Introduction: Three phase circuits, alternators and transformers, principles of operation of DC, synchronous, induction, universal and stepper motors, thyristor and microprocessor based speed control of motors. Instrumentation Amplifiers: Differential, logarithmic and chopper amplifiers, frequency and voltage measurements using digital techniques, recorders and display devices, spectrum analyzers and logic analyzers, data acquisition and interfacing with microprocessor based systems.

Terminology, types of transducers, principles and applications of photovoltaic, piezoelectric, thermoelectric, variable resistance and opto-electronic transducers.

Dept. of Mechanical Engineering

Magnetic concepts and units: magnetic field, right-hand rule, magnetic flux density, Biot-Savart law, magnetic field strength, magnetic flux measurement, magnetic field energy, characteristics of ferromagnetic materials, theory of ferromagnetism, B-H curve, hysteresis losses, Eddy current and loss eddy current, total core loss, introduction to magnetic circuits. Electromagnetic forces: Forces on a current-carrying conductor and a charge particle moving in a magnetic field, electromagnetic torque, electric motor. Alternating currents: general concepts and definitions, current, voltage and power; Branches R, L, C, RL, RC and RLC.

Balanced polyphase circuits: three-phase, four-wire system of generated EMFs, three-phase three-wire systems, balanced Y loads and balanced delta loads.