department of electrical engineering - hitecuni.edu.pk · dr. ejaz muhammad, phd cranfield...
TRANSCRIPT
Dr. Ejaz Muhammad, PhD Cranfield University, U.K.
Dr. Fawad Ahmed, PhD NTU, Singapore
Lehaz Ullah Kakakhel, MS (Elect Engg) UET Peshawar
Atif Kohkhar, MS (Elect Engg), AIR University,
Sobia Hayee, MS (Electronics) ISU, USA
Muhammad Yousaf, MS CS, CASE
Kashif Imdad, MS (Elect Engg) UET Taxila
Irfan Qasim, M.Phil (Physics) QAU
Hadeed Khalid, MS (Elect Engg) Imperial College London.
M. Omer Nadeem Khan, CoordinatorContact No: 051 4542746-9 Ext. 351
20
Department of Electrical Engineering came into being with
the inception of HITEC University in 2007. Our mission is to
provide quality education at undergraduate and graduate levels
thereby producing talented and proficient engineers to cater for
needs in the country and abroad.
Electrical Engineering, one of the oldest fields of engineering,
deals with the study and application of electricity and
electromagnetism. Initially this field comprised the study of
electricity and was largely considered to be a subfield of physics. It
was not until the late 19th century that tremendous growth and
development occurred in this field. It now covers a range of subtopics
including Power, Control Systems, Signal Processing, Electronics and
Telecommunications etc. Electrical Engineering is a diversified field
that gave birth to many engineering disciplines over the decades, the
most popular of which include Electronics, Telecommunications,
Computer Systems and Industrial Electronics etc.
The Department presently offers BS and MS in Electrical
Engineering, whereas PhD program is to be launched from Fall-
2010 semester. The Department will continue to pursue a
proactive approach in order to maintain a qualitative edge
amongst our competitors.
The objective of the undergraduate program is to equip the
students with thorough foundation in basic scientific and
mathematical knowledge, and in skills appropriate for practice in
the field of Electrical Engineering. Interdisciplinary subjects are
placed meticulously to provide required breadth of the program
whereas advanced technical courses are inserted for requisite
Professor & ChairmanEmail: [email protected] No: 0323-5577706
Department of Electrical Engineering
Dr. Jameel Ahmed, PhD NTU (Signal Processing) Singapore
Faculty
Department of Electrical Engineering
depth in the subject discipline. The graduate program, on the
other hand, necessarily broadens the band of research in the
specialized areas of Communication (Signal Processing) and
Control Engineering.
The curricula and syllabi of the BS and MS Electrical
Engineering programs are designed and structured according to
the guidelines of Higher Education Commission (HEC) and
Pakistan Engineering Council (PEC).
It is a broad-based program which includes Digital and
Analog Electronics, Electromagnetic Field, Control Systems,
Communication Systems, Power Electronics and Electrical
Machines. Besides core, a number of elective courses are also
offered from Electronics, Telecommunications and Power
Engineering specialties. The entire curriculum is supported by
six courses in Mathematics. All engineering subjects are fully
complemented by requisite in-depth and detail experiments.
These are conducted in eleven spacious, fully air-conditioned
and very well equipped laboratories. The program spans over
four years (eight semesters) and comprises 131 credit hours in
total.
W
EE-102 Electric Circuits:
CE-101 Computer Fundamentals:
BS-101 Engineering Physics:
Course Contents
EE-101 Engineering Workshop:
and fabrication, fabricating simple electronic circuits on
breadboard, use of software tools for PCB design, elecrrical
wiring, assembling and soldering components on a PCB,
soldering methods, etching, electronic repair/maintenance,
use and understanding of data books, specification sheets.
Introduction to circuit concepts, AC
and DC circuit analysis, voltage and current sources, Ohm's law,
Kirchoff's current and voltage laws, node and loop analysis
series and parallel circuits, superposition principle, source
transformation methods, Thevinin's & Norton's theorems,
energy storage elements, solution of first and second order
circuits.
Introduction to
programing language fundamentals, C-character set, constants,
variables, data types, C-instructions, operators, control
structures, if statement, multiple statements within if, nested if-
else forms of if-else-if clause, case control structure, while, for
and do-while loops, break and continue statements, functions,
arrays, strings, structures.
Solid state, atomic structure,
properties of solids, band theory, semiconductors, PN junction,
electrostatics: electric field, Coulomb’s law & Gauss's law with
applications, electric potential, capacitors, electricity &
magnetism, Biot Savart's law, magnetic field due to current,
solenoid and toroid, ampere's circuital law with application,
induced emf, Faraday's law, self and mutual inductance, optics: iring design, PCB design basics of optics and fiber optics.
BS Electrical Engineering
21
Dr. Ejaz Muhammad, PhD Cranfield University, U.K.
Dr. Fawad Ahmed, PhD NTU, Singapore
Lehaz Ullah Kakakhel, MS (Elect Engg) UET Peshawar
Atif Kohkhar, MS (Elect Engg), AIR University,
Sobia Hayee, MS (Electronics) ISU, USA
Muhammad Yousaf, MS CS, CASE
Kashif Imdad, MS (Elect Engg) UET Taxila
Irfan Qasim, M.Phil (Physics) QAU
Hadeed Khalid, MS (Elect Engg) Imperial College London.
M. Omer Nadeem Khan, CoordinatorContact No: 051 4542746-9 Ext. 351
20
Department of Electrical Engineering came into being with
the inception of HITEC University in 2007. Our mission is to
provide quality education at undergraduate and graduate levels
thereby producing talented and proficient engineers to cater for
needs in the country and abroad.
Electrical Engineering, one of the oldest fields of engineering,
deals with the study and application of electricity and
electromagnetism. Initially this field comprised the study of
electricity and was largely considered to be a subfield of physics. It
was not until the late 19th century that tremendous growth and
development occurred in this field. It now covers a range of subtopics
including Power, Control Systems, Signal Processing, Electronics and
Telecommunications etc. Electrical Engineering is a diversified field
that gave birth to many engineering disciplines over the decades, the
most popular of which include Electronics, Telecommunications,
Computer Systems and Industrial Electronics etc.
The Department presently offers BS and MS in Electrical
Engineering, whereas PhD program is to be launched from Fall-
2010 semester. The Department will continue to pursue a
proactive approach in order to maintain a qualitative edge
amongst our competitors.
The objective of the undergraduate program is to equip the
students with thorough foundation in basic scientific and
mathematical knowledge, and in skills appropriate for practice in
the field of Electrical Engineering. Interdisciplinary subjects are
placed meticulously to provide required breadth of the program
whereas advanced technical courses are inserted for requisite
Professor & ChairmanEmail: [email protected] No: 0323-5577706
Department of Electrical Engineering
Dr. Jameel Ahmed, PhD NTU (Signal Processing) Singapore
Faculty
Department of Electrical Engineering
depth in the subject discipline. The graduate program, on the
other hand, necessarily broadens the band of research in the
specialized areas of Communication (Signal Processing) and
Control Engineering.
The curricula and syllabi of the BS and MS Electrical
Engineering programs are designed and structured according to
the guidelines of Higher Education Commission (HEC) and
Pakistan Engineering Council (PEC).
It is a broad-based program which includes Digital and
Analog Electronics, Electromagnetic Field, Control Systems,
Communication Systems, Power Electronics and Electrical
Machines. Besides core, a number of elective courses are also
offered from Electronics, Telecommunications and Power
Engineering specialties. The entire curriculum is supported by
six courses in Mathematics. All engineering subjects are fully
complemented by requisite in-depth and detail experiments.
These are conducted in eleven spacious, fully air-conditioned
and very well equipped laboratories. The program spans over
four years (eight semesters) and comprises 131 credit hours in
total.
W
EE-102 Electric Circuits:
CE-101 Computer Fundamentals:
BS-101 Engineering Physics:
Course Contents
EE-101 Engineering Workshop:
and fabrication, fabricating simple electronic circuits on
breadboard, use of software tools for PCB design, elecrrical
wiring, assembling and soldering components on a PCB,
soldering methods, etching, electronic repair/maintenance,
use and understanding of data books, specification sheets.
Introduction to circuit concepts, AC
and DC circuit analysis, voltage and current sources, Ohm's law,
Kirchoff's current and voltage laws, node and loop analysis
series and parallel circuits, superposition principle, source
transformation methods, Thevinin's & Norton's theorems,
energy storage elements, solution of first and second order
circuits.
Introduction to
programing language fundamentals, C-character set, constants,
variables, data types, C-instructions, operators, control
structures, if statement, multiple statements within if, nested if-
else forms of if-else-if clause, case control structure, while, for
and do-while loops, break and continue statements, functions,
arrays, strings, structures.
Solid state, atomic structure,
properties of solids, band theory, semiconductors, PN junction,
electrostatics: electric field, Coulomb’s law & Gauss's law with
applications, electric potential, capacitors, electricity &
magnetism, Biot Savart's law, magnetic field due to current,
solenoid and toroid, ampere's circuital law with application,
induced emf, Faraday's law, self and mutual inductance, optics: iring design, PCB design basics of optics and fiber optics.
BS Electrical Engineering
21
BS-102 Calculus and Analytical Geometry:
HS-101 English:
EE-103 Network Analysis:
CE-103 Object Oriented Programming:
CE-102 Computer Aided Engineering Drawing:
BS-103 Linear Algebra & ODE:
Introduction to
functions and limits, derivatives and applications, theorems and
rules on derivatives and their applications, Leibniz theorem,
Rolle 's theorem, mean value theorem, Taylor's and Maclaurin
theorem, indeterminate forms, L'hopital's rule, derivatives,
integration.
Grammar, reading skills, predicting,
intensive reading, comprehension exercises, previewing,
skimming, scanning practice, summarizing reading selections,
grammatically correct simple sentences, introduction to
punctuation and capitalization, sentence combining, personal
narrative paragraphs with appropriate cohesive devices,
revision/editing, pre-writing strategies: concept mapping, free
writing, and brainstorming, speaking and listening skills.
Introduction to phasor algebra,
AC Resonance, introduction to Laplace and inverse Laplace section, plan and elevation views of various electrical and transform, solving electrical circuit-using differential equations electronic devices in autocad. and Laplace transform, direct transformation & frequency
response, direct transformation of circuits from time domain to Introduction, basic
s domain, frequency response of first order circuits, asymptotic C++ program construction, loops, functions, arrays, strings,
magnitude, introduction to BODE plots. pointers and structures, objects and classes, data member and
member functions, scope resolution operator, objects, access Drawing specifiers, constructors, destructors, static class constant and
basics, autocad basics, drawing in two dimensions, drawing classes, inline, access, friend, virtual functions, string class in simple lines, drawing curves and points, organizing drawings C++, dynamic memory allocation.with layers, colors, line types, line weights, creating text,
drawing dimensions, drawing complex objects, drawing in three Introduction to differential
dimensions, basics of 3D-drawing, drawing isometric view and equations, exact and non-exact equations, non-linear
Department of Electrical Engineering
equations, Bernoulli equation, Ricatti equation, Clairaut Precision
equation, differential equations and mathematical models, measurements terminologies, engineering units and standards,
linear differential equations of higher order, Wronskian, principles of different measurement techniques, instruments
introduction to linear algebra. for measurement of electrical/non-electrical properties,
systems for signal processing and signal transmission, modern A brief historical background of instrumentation techniques, principles of operation /
creation of Pakistan, land of Pakistan, its geopolitical construction and working of different measuring instruments, significance, natural resources of Pakistan, various issues of bridges, power and energy meters, high-voltage measurements.Pakistan: exclusive economic zone of Pakistan and its
significance, Kashmir, Siachin and Sir Creek issues, culture and Review of number systems,
Government, people of Pakistan and their panoramic cultural theorems and postulates of Boolean algebra, simplification of
values and heritage, Government and politics in Pakistan. switching function using graphical and tabular methods,
combinational logic circuits, multiplexer, ROM, PAL, and PLA, Introduction, person sequential logic circuits, synchronous sequential machine, basic
perception, the verbal and non-verbal message, listening, microprocessor design conventions: register transfer, busing conflict & negotiation, report writing, technical letters, memos and sequencing of control.writing, listening and speaking, interpersonal communication,
intercultural communication, interviewing, small group Complex
communication, public communication, mass communication, number system and complex variable theory, De-moivre's
discussions of techniques to pass through job interviews. theorem and its applications, Laplace transform, inverse
Laplace transforms, solution of ordinary differential equations Solid state theory, intrinsic and by Laplace transform, Fourier series/transforms, vector calculus.
extrinsic semiconductor materials, theory of semiconductor
diode, zener region of a semiconductor diode, comparison of Overview of technical
silicon with germanium, bipolar junction transistors (BJTs), reporting, information gathering, administering questionnaires,
static characteristics, various configuration techniques, fixed reviewing the gathered information, technical exposition,
biased circuits, voltage divider biased configuration, voltage narration, description and argumentation, electronic
feedback biasing technique, bias stabilization, introduction to communication, listening sentence structure, clarity, length and
JFET & MOSFET. order, document structure, plagiarism, citation and
bibliography, creating the professional report, elements.
EE-202 Instrumentation and Measurement:
HS-102 Pakistan Studies:
EE-203 Digital Logic Design:
HS-103 Communications Skills:
BS-201 Complex Variables and Transforms:
EE-201 Basic Electronics:
HS-201 Technical Report Writing:
Department of Electrical Engineering
22 23
BS-102 Calculus and Analytical Geometry:
HS-101 English:
EE-103 Network Analysis:
CE-103 Object Oriented Programming:
CE-102 Computer Aided Engineering Drawing:
BS-103 Linear Algebra & ODE:
Introduction to
functions and limits, derivatives and applications, theorems and
rules on derivatives and their applications, Leibniz theorem,
Rolle 's theorem, mean value theorem, Taylor's and Maclaurin
theorem, indeterminate forms, L'hopital's rule, derivatives,
integration.
Grammar, reading skills, predicting,
intensive reading, comprehension exercises, previewing,
skimming, scanning practice, summarizing reading selections,
grammatically correct simple sentences, introduction to
punctuation and capitalization, sentence combining, personal
narrative paragraphs with appropriate cohesive devices,
revision/editing, pre-writing strategies: concept mapping, free
writing, and brainstorming, speaking and listening skills.
Introduction to phasor algebra,
AC Resonance, introduction to Laplace and inverse Laplace section, plan and elevation views of various electrical and transform, solving electrical circuit-using differential equations electronic devices in autocad. and Laplace transform, direct transformation & frequency
response, direct transformation of circuits from time domain to Introduction, basic
s domain, frequency response of first order circuits, asymptotic C++ program construction, loops, functions, arrays, strings,
magnitude, introduction to BODE plots. pointers and structures, objects and classes, data member and
member functions, scope resolution operator, objects, access Drawing specifiers, constructors, destructors, static class constant and
basics, autocad basics, drawing in two dimensions, drawing classes, inline, access, friend, virtual functions, string class in simple lines, drawing curves and points, organizing drawings C++, dynamic memory allocation.with layers, colors, line types, line weights, creating text,
drawing dimensions, drawing complex objects, drawing in three Introduction to differential
dimensions, basics of 3D-drawing, drawing isometric view and equations, exact and non-exact equations, non-linear
Department of Electrical Engineering
equations, Bernoulli equation, Ricatti equation, Clairaut Precision
equation, differential equations and mathematical models, measurements terminologies, engineering units and standards,
linear differential equations of higher order, Wronskian, principles of different measurement techniques, instruments
introduction to linear algebra. for measurement of electrical/non-electrical properties,
systems for signal processing and signal transmission, modern A brief historical background of instrumentation techniques, principles of operation /
creation of Pakistan, land of Pakistan, its geopolitical construction and working of different measuring instruments, significance, natural resources of Pakistan, various issues of bridges, power and energy meters, high-voltage measurements.Pakistan: exclusive economic zone of Pakistan and its
significance, Kashmir, Siachin and Sir Creek issues, culture and Review of number systems,
Government, people of Pakistan and their panoramic cultural theorems and postulates of Boolean algebra, simplification of
values and heritage, Government and politics in Pakistan. switching function using graphical and tabular methods,
combinational logic circuits, multiplexer, ROM, PAL, and PLA, Introduction, person sequential logic circuits, synchronous sequential machine, basic
perception, the verbal and non-verbal message, listening, microprocessor design conventions: register transfer, busing conflict & negotiation, report writing, technical letters, memos and sequencing of control.writing, listening and speaking, interpersonal communication,
intercultural communication, interviewing, small group Complex
communication, public communication, mass communication, number system and complex variable theory, De-moivre's
discussions of techniques to pass through job interviews. theorem and its applications, Laplace transform, inverse
Laplace transforms, solution of ordinary differential equations Solid state theory, intrinsic and by Laplace transform, Fourier series/transforms, vector calculus.
extrinsic semiconductor materials, theory of semiconductor
diode, zener region of a semiconductor diode, comparison of Overview of technical
silicon with germanium, bipolar junction transistors (BJTs), reporting, information gathering, administering questionnaires,
static characteristics, various configuration techniques, fixed reviewing the gathered information, technical exposition,
biased circuits, voltage divider biased configuration, voltage narration, description and argumentation, electronic
feedback biasing technique, bias stabilization, introduction to communication, listening sentence structure, clarity, length and
JFET & MOSFET. order, document structure, plagiarism, citation and
bibliography, creating the professional report, elements.
EE-202 Instrumentation and Measurement:
HS-102 Pakistan Studies:
EE-203 Digital Logic Design:
HS-103 Communications Skills:
BS-201 Complex Variables and Transforms:
EE-201 Basic Electronics:
HS-201 Technical Report Writing:
Department of Electrical Engineering
22 23
EE-204 Electric Machines: ME-201 Engineering Mechanics:
EE-205 Electronic Devices & Circuits:
BS-202 Partial Differential Equations:
HS-202 Islamic Studies:
Ideal and practical single-phase Fundamental concepts
transformer, 3-phase transformer connection, auto and principles of mechanics, fundamentals of dynamics,
transformer and current & potential transformers, DC machines, dynamics of particles and rigid body including kinematics and
motors & generators, three phase motors induction motor, kinetics, applications of Newton's second law of motion,
principles of induction motor, fractional horse-power motors analysis of motion in two dimensional and three dimensional
and servo motors, synchronous generator and synchronous space, methods of energy and momentum, applications of
motor, vector diagram of alternator, regulation, stepper motor, dynamics to the engineering concepts, thermodynamics
single phase motor induction motor, repulsion motor, stepper principles.
motor. BJT AC analysis, BJT
transistor modeling, various BJT configurations, JFET, MOSFET,
VMOS, CMOS, construction and characteristics, specification
sheets, FET biasing, BJT and JFET frequency response, general
frequency considerations, BJT and JFET amplifiers- low-
frequency response, BJT and JFET amplifiers- high-frequency
response, differential amplifiers, introduction to op-amp,
characteristics of op-amp, power supplies.
Introduction to
partial differential equations, diffusion-type problems, the
Fourier series and transform, the Laplace transform,
hyperbolic-type problems, classification of PDEs (canonical
form of hyperbolic equations), the finite Fourier transform (sine
and cosine transforms), elliptic-type problems.
Introduction to Quranic studies,
study of selected text of Holy Quran and Hadith, Seerat of Holy
Prophet (S.A.W.), introduction to Sunnah, introduction to
Islamic law and jurisprudence, Islamic culture and civilization,
Islam and science, Islamic economic system, political and social
Department of Electrical Engineering
system of Islam, Islamic history. probability, conditional probability and independence, random
variables, binomial, poisson, chi-square and normal Introduction to distributions.
economics, simple and compound interest, annual, net present
and net future worth, fundamental economic concepts, supply Types of signals, types of
and demands principle, market, types of market and forecasting, modulation and de-modulation, digital communication systems,
ratios, recently discovered advantages of equity over interest digital modulation, signal spaces, receiver structures,
and their implementation in corporate & banking sectors. transmission media, radio systems, satellite communication
systems, optical communication systems, introduction to Vector analysis, Coulomb's information theory.
law and electric field intensity, electric flux density, Gauss's law,
energy & potential, current and current density, conductor Control systems, modeling of
properties, semiconductors, nature of dielectric materials, dynamic systems, transfer function, impulse-response function,
capacitance, the steady magnetic field. state-space, signal flow graph, transient response analysis,
frequency response analysis, bode diagram, Nyquist stability Introduction to signals, criterion, PD, PI, PID controller design.
classification of signals and systems, Laplace transform, inverse
Laplace transforms, convolution, correlation functions, Fourier Introduction to digital
series, inverse Fourier series and inverse Fourier transforms, signal processing, discrete signals and systems, time-domain
z-transform, analog filter design. analysis, frequency-domain analysis, discrete-time signals
Fourier series and Fourier transform, system response and frequency response, z-transform and its properties, filters and
Architecture and programming technique, introduction to their applications in signal processing.assembly language, 8086 pin-diagram and functions,
interfacing ROM & RAM, peripheral programmable interface MATLAB usage, system of
(PPI), interrupt priority controller, universal asynchronous and linear equations, iterative methods to solve equations. non-
synchronous receiver transmitter (UART and USART) and its linear equations: bisection method, Newton Raphson method,
configuration. interpolation: direct method, newton divided difference,
Lagrangian, spline, numerical integration, ordinary differential Descriptive statistics, basic equations.
MS-201 Engineering Economics(2+0):
EE-304 Communication Systems:
EE-301 Electromagnetic Theory:
EE-305 Control Engineering:
EE-302 Signals & Systems:
EE-306 Digital Signal Processing:
EE-303 Microprocessor & Interfacing Techniques:
BS-302 Numerical Methods:
BS-301 Probability & Statistics:
Department of Electrical Engineering
24 25
EE-204 Electric Machines: ME-201 Engineering Mechanics:
EE-205 Electronic Devices & Circuits:
BS-202 Partial Differential Equations:
HS-202 Islamic Studies:
Ideal and practical single-phase Fundamental concepts
transformer, 3-phase transformer connection, auto and principles of mechanics, fundamentals of dynamics,
transformer and current & potential transformers, DC machines, dynamics of particles and rigid body including kinematics and
motors & generators, three phase motors induction motor, kinetics, applications of Newton's second law of motion,
principles of induction motor, fractional horse-power motors analysis of motion in two dimensional and three dimensional
and servo motors, synchronous generator and synchronous space, methods of energy and momentum, applications of
motor, vector diagram of alternator, regulation, stepper motor, dynamics to the engineering concepts, thermodynamics
single phase motor induction motor, repulsion motor, stepper principles.
motor. BJT AC analysis, BJT
transistor modeling, various BJT configurations, JFET, MOSFET,
VMOS, CMOS, construction and characteristics, specification
sheets, FET biasing, BJT and JFET frequency response, general
frequency considerations, BJT and JFET amplifiers- low-
frequency response, BJT and JFET amplifiers- high-frequency
response, differential amplifiers, introduction to op-amp,
characteristics of op-amp, power supplies.
Introduction to
partial differential equations, diffusion-type problems, the
Fourier series and transform, the Laplace transform,
hyperbolic-type problems, classification of PDEs (canonical
form of hyperbolic equations), the finite Fourier transform (sine
and cosine transforms), elliptic-type problems.
Introduction to Quranic studies,
study of selected text of Holy Quran and Hadith, Seerat of Holy
Prophet (S.A.W.), introduction to Sunnah, introduction to
Islamic law and jurisprudence, Islamic culture and civilization,
Islam and science, Islamic economic system, political and social
Department of Electrical Engineering
system of Islam, Islamic history. probability, conditional probability and independence, random
variables, binomial, poisson, chi-square and normal Introduction to distributions.
economics, simple and compound interest, annual, net present
and net future worth, fundamental economic concepts, supply Types of signals, types of
and demands principle, market, types of market and forecasting, modulation and de-modulation, digital communication systems,
ratios, recently discovered advantages of equity over interest digital modulation, signal spaces, receiver structures,
and their implementation in corporate & banking sectors. transmission media, radio systems, satellite communication
systems, optical communication systems, introduction to Vector analysis, Coulomb's information theory.
law and electric field intensity, electric flux density, Gauss's law,
energy & potential, current and current density, conductor Control systems, modeling of
properties, semiconductors, nature of dielectric materials, dynamic systems, transfer function, impulse-response function,
capacitance, the steady magnetic field. state-space, signal flow graph, transient response analysis,
frequency response analysis, bode diagram, Nyquist stability Introduction to signals, criterion, PD, PI, PID controller design.
classification of signals and systems, Laplace transform, inverse
Laplace transforms, convolution, correlation functions, Fourier Introduction to digital
series, inverse Fourier series and inverse Fourier transforms, signal processing, discrete signals and systems, time-domain
z-transform, analog filter design. analysis, frequency-domain analysis, discrete-time signals
Fourier series and Fourier transform, system response and frequency response, z-transform and its properties, filters and
Architecture and programming technique, introduction to their applications in signal processing.assembly language, 8086 pin-diagram and functions,
interfacing ROM & RAM, peripheral programmable interface MATLAB usage, system of
(PPI), interrupt priority controller, universal asynchronous and linear equations, iterative methods to solve equations. non-
synchronous receiver transmitter (UART and USART) and its linear equations: bisection method, Newton Raphson method,
configuration. interpolation: direct method, newton divided difference,
Lagrangian, spline, numerical integration, ordinary differential Descriptive statistics, basic equations.
MS-201 Engineering Economics(2+0):
EE-304 Communication Systems:
EE-301 Electromagnetic Theory:
EE-305 Control Engineering:
EE-302 Signals & Systems:
EE-306 Digital Signal Processing:
EE-303 Microprocessor & Interfacing Techniques:
BS-302 Numerical Methods:
BS-301 Probability & Statistics:
Department of Electrical Engineering
24 25
MS-401 Engineering Management: Electronic Workshop
Laboratories
Control Systems Lab
Wave-Propagation & Antennas Lab
Electrical Machines Lab
Electronic Lab
Projects in Electronic Workshop laboratory provides hands on contemporary organizations, project evaluation and selection,
experience to students about different electronic equipments project organization, project planning, budget, scheduling, such as Oscilloscope, Magger, Analog/Digital Multi-meter, resource allocation, project control, project evaluation & Single/Three-Phase Watt-meters. The lab is also utilized for a auditing, project termination.variety of engineering subjects including Engineering Workshop,
Electric Circuits, Network Analysis, Instrumentation and
Measurement. To support the theoretical knowledge imparted through the
courses at undergraduate level, following labs have been
Control Systems Lab consists of multiple workstations, each established to provide practical knowledge to the students in
equipped with an oscilloscope, Digital Multi-meter, PID Trainers, various subjects. All the under-mentioned Labs are supported
Control System Trainers, Inverted-Pendulum, Ball and Beam by the following qualified graduate Lab Engineers:
Control, Magnetic-Levitation Trainers. This lab also covers the 1. Engr. Sehrish Mehmood industrial implementation of Advanced Control Systems via 2. Engr. Syed Bilal Javed
different computer tools such as MATLAB and Simulink. 3. Engr. Abdul Atisaam4. Engr. Zeeshan Ahmed5. Engr. Waqas Ahmed
Wave-Propagation and Antennas Lab comprises various 6. Engr. Haris Bashir7. Engr. Zunaira Malik types of trainers including; Wave-Propagation, Microwave-
Communication, Antennas, Satellite-Communication and
Waveguide Trainers. These trainers are suitable for the study of Electrical Machines Lab provides essential facilities to the generation, propagation and reception of microwave signals.
students to augment their concepts about the fundamentals of
transformers and rotating machines. The lab is equipped with
DC Series/Shunt Motor, Compound Motor, Universal Motor, Electronic Lab is equipped with components; such as Diodes,
Single-Phase Induction Motor, Single-Phase Transformer, Transistors, Operational Amplifiers, Oscilloscope, Power
Three-Phase Induction Motor, Three-Phase Synchronous Motor Supplies and Function Generators; required to practically
and Three-Phase Transformer. The lab is equipped with various implement the theoretical concepts of electronic systems.
test and monitoring equipment also.
Department of Electrical Engineering
Digital Systems Lab
Information Technology Labs
Communication Systems Lab
Digital Signal Processing Lab
Data Communication Lab
Computing Lab
Computer-Aided Engineering Drawing etc. High speed
Digital Systems Lab is designed for the understanding of computers are installed to provide efficient computing facility
Fundamental Digital Logic concepts and consists of Oscilloscopes, for the respective courses.
Digital Trainers, Digital Multi-meters, Function Generators, 8086
Microprocessor Kits and supporting accessories. This lab is also This lab is specially established to provide the students in
used to provide practical implementation of Microprocessor and terms of high speed internet access, browsing, surfing and carry
Interfacing Techniques course.out their assignments etc.
Communication Systems Lab helps the students to envision
the theoretical communication concepts of both analog and
digital communication systems. This lab consists of different
Analog and Digital communication trainers.
Digital Signal Processing Lab utilizes advanced signal
processing tools such as MATLAB & LABVIEW to visualize
various signal processing techniques including convolution,
DFT,FFT and Digital filters designing techniques. DSP kits
TMS320C6713 are also provided for practical implementation
on advanced stage.
This lab offers students the facility to perform practical
experiments on data communication techniques schemes. The
lab is reasonably furnished with data communication LAN, WAN,
MAN trainers.
It is a dedicated lab for computer programming-Oriented
subjects like Structured C, Object Oriented Programming, Java,
Department of Electrical Engineering
26 27
MS-401 Engineering Management: Electronic Workshop
Laboratories
Control Systems Lab
Wave-Propagation & Antennas Lab
Electrical Machines Lab
Electronic Lab
Projects in Electronic Workshop laboratory provides hands on contemporary organizations, project evaluation and selection,
experience to students about different electronic equipments project organization, project planning, budget, scheduling, such as Oscilloscope, Magger, Analog/Digital Multi-meter, resource allocation, project control, project evaluation & Single/Three-Phase Watt-meters. The lab is also utilized for a auditing, project termination.variety of engineering subjects including Engineering Workshop,
Electric Circuits, Network Analysis, Instrumentation and
Measurement. To support the theoretical knowledge imparted through the
courses at undergraduate level, following labs have been
Control Systems Lab consists of multiple workstations, each established to provide practical knowledge to the students in
equipped with an oscilloscope, Digital Multi-meter, PID Trainers, various subjects. All the under-mentioned Labs are supported
Control System Trainers, Inverted-Pendulum, Ball and Beam by the following qualified graduate Lab Engineers:
Control, Magnetic-Levitation Trainers. This lab also covers the 1. Engr. Sehrish Mehmood industrial implementation of Advanced Control Systems via 2. Engr. Syed Bilal Javed
different computer tools such as MATLAB and Simulink. 3. Engr. Abdul Atisaam4. Engr. Zeeshan Ahmed5. Engr. Waqas Ahmed
Wave-Propagation and Antennas Lab comprises various 6. Engr. Haris Bashir7. Engr. Zunaira Malik types of trainers including; Wave-Propagation, Microwave-
Communication, Antennas, Satellite-Communication and
Waveguide Trainers. These trainers are suitable for the study of Electrical Machines Lab provides essential facilities to the generation, propagation and reception of microwave signals.
students to augment their concepts about the fundamentals of
transformers and rotating machines. The lab is equipped with
DC Series/Shunt Motor, Compound Motor, Universal Motor, Electronic Lab is equipped with components; such as Diodes,
Single-Phase Induction Motor, Single-Phase Transformer, Transistors, Operational Amplifiers, Oscilloscope, Power
Three-Phase Induction Motor, Three-Phase Synchronous Motor Supplies and Function Generators; required to practically
and Three-Phase Transformer. The lab is equipped with various implement the theoretical concepts of electronic systems.
test and monitoring equipment also.
Department of Electrical Engineering
Digital Systems Lab
Information Technology Labs
Communication Systems Lab
Digital Signal Processing Lab
Data Communication Lab
Computing Lab
Computer-Aided Engineering Drawing etc. High speed
Digital Systems Lab is designed for the understanding of computers are installed to provide efficient computing facility
Fundamental Digital Logic concepts and consists of Oscilloscopes, for the respective courses.
Digital Trainers, Digital Multi-meters, Function Generators, 8086
Microprocessor Kits and supporting accessories. This lab is also This lab is specially established to provide the students in
used to provide practical implementation of Microprocessor and terms of high speed internet access, browsing, surfing and carry
Interfacing Techniques course.out their assignments etc.
Communication Systems Lab helps the students to envision
the theoretical communication concepts of both analog and
digital communication systems. This lab consists of different
Analog and Digital communication trainers.
Digital Signal Processing Lab utilizes advanced signal
processing tools such as MATLAB & LABVIEW to visualize
various signal processing techniques including convolution,
DFT,FFT and Digital filters designing techniques. DSP kits
TMS320C6713 are also provided for practical implementation
on advanced stage.
This lab offers students the facility to perform practical
experiments on data communication techniques schemes. The
lab is reasonably furnished with data communication LAN, WAN,
MAN trainers.
It is a dedicated lab for computer programming-Oriented
subjects like Structured C, Object Oriented Programming, Java,
Department of Electrical Engineering
26 27
Department of Electrical Engineering
1+1
3+1
2+1
2+0
3+0
EE101
EE102
CE101
BS101
BS102
HS101
Engineering Workshop
Electric Circuits
Computer Fundamentals
Engineering Physics
Calculus and Analytical Geometry
English 2+0
Total Credits 16
Semester-I
Course Code Course Title Credit Hours
3+1
0+2
3+1
3+0
2+0
EE103
CE102
CE103
BS103
HS102
HS103
Network Analysis
Computer Aided Engineering Drawing
Object Oriented Programming
Linear Algebra & ODE
Pakistan Studies
Communication Skills 2+0
17
Semester-IICourse Code Course Title Credit Hours
Total Credits
3+1
3+1
3+1
3+0
d Measurement
Basic Electronics
Instrumentation an
Digital Logic Design
Complex Variables and Transforms
Technical Report Writing 2+0
EE201
EE202
EE203
BS201
HS201
17
Semester-III
Course Code Course Title Credit Hours
Total Credits
Department of Electrical Engineering
EE204 Electrical Machines 3+1
ME201 Engineering Mechanics 3+0
EE205 Electronic Devices & Circuits 3+1
BS202 Partial Differential Equations 3+0
HS202 Islamic Studies 3+0
MS201 Engineering Economics 2+0
19
Semester-IV
Course Code Course Title Credit Hours
Total Credits
EE301 3+0
EE302 3+1
EE303 3+1
BS301 3+0
EEXXX
Electromagnetic Theory
Signals and Systems
Microprocessor and Interfacing Techniques
Probability and Statistics
Elective -I 3+1
18
Semester-VCourse Code Course Title Credit Hours
Total Credits
EE304 3+1
EE305 3+1
EE306 3+1
BS302 3+0
EEXXX
Communication Systems
Control Engineering
Digital Signal Processing
Numerical Methods
Elective -II 3+1
19
Semester-VI
Course Code Course Title Credit Hours
28 29
When I look back at three
years that I have spent at
this University, I realize
that I have learnt here
more than I could have
ever learnt at elsewhere.
Being from a pioneer
class, I shoulder more
responsibility to set best
trends for my juniors to
follow. I feel I am being
g r o o m e d i n t o a
personality that I always
wanted to be.
Mariam Minhas Mohsin Sanaullah
HITEC University is a beacon of knowledge where one can find apt faculty who sharpen and polish our capabilities. The University h a s b r e a t h - t a k i n g infrastructure where one can be groomed as a proficient engineer. In addition to academics, a variety of co-curricular activities have helped me to a c q u i r e a b a l a n c e d personality. I feel I am getting ready to face the future challenges with confidence.
Department of Electrical Engineering
1+1
3+1
2+1
2+0
3+0
EE101
EE102
CE101
BS101
BS102
HS101
Engineering Workshop
Electric Circuits
Computer Fundamentals
Engineering Physics
Calculus and Analytical Geometry
English 2+0
Total Credits 16
Semester-I
Course Code Course Title Credit Hours
3+1
0+2
3+1
3+0
2+0
EE103
CE102
CE103
BS103
HS102
HS103
Network Analysis
Computer Aided Engineering Drawing
Object Oriented Programming
Linear Algebra & ODE
Pakistan Studies
Communication Skills 2+0
17
Semester-IICourse Code Course Title Credit Hours
Total Credits
3+1
3+1
3+1
3+0
d Measurement
Basic Electronics
Instrumentation an
Digital Logic Design
Complex Variables and Transforms
Technical Report Writing 2+0
EE201
EE202
EE203
BS201
HS201
17
Semester-III
Course Code Course Title Credit Hours
Total Credits
Department of Electrical Engineering
EE204 Electrical Machines 3+1
ME201 Engineering Mechanics 3+0
EE205 Electronic Devices & Circuits 3+1
BS202 Partial Differential Equations 3+0
HS202 Islamic Studies 3+0
MS201 Engineering Economics 2+0
19
Semester-IV
Course Code Course Title Credit Hours
Total Credits
EE301 3+0
EE302 3+1
EE303 3+1
BS301 3+0
EEXXX
Electromagnetic Theory
Signals and Systems
Microprocessor and Interfacing Techniques
Probability and Statistics
Elective -I 3+1
18
Semester-VCourse Code Course Title Credit Hours
Total Credits
EE304 3+1
EE305 3+1
EE306 3+1
BS302 3+0
EEXXX
Communication Systems
Control Engineering
Digital Signal Processing
Numerical Methods
Elective -II 3+1
19
Semester-VI
Course Code Course Title Credit Hours
28 29
When I look back at three
years that I have spent at
this University, I realize
that I have learnt here
more than I could have
ever learnt at elsewhere.
Being from a pioneer
class, I shoulder more
responsibility to set best
trends for my juniors to
follow. I feel I am being
g r o o m e d i n t o a
personality that I always
wanted to be.
Mariam Minhas Mohsin Sanaullah
HITEC University is a beacon of knowledge where one can find apt faculty who sharpen and polish our capabilities. The University h a s b r e a t h - t a k i n g infrastructure where one can be groomed as a proficient engineer. In addition to academics, a variety of co-curricular activities have helped me to a c q u i r e a b a l a n c e d personality. I feel I am getting ready to face the future challenges with confidence.
Department of Electrical Engineering
EE401 0+3
EEXXX 3+1
EEXXX 3+1
EEXXX 3+1
Project Part -I
Elective -III
Elective -IV
Elective -V
15
Semester-VII
Course Code Course Title Credit Hours
Total Credits
EE401 Project Part -II 0+3
MS401 Engineering Management 3+0
EEXXX Electiv e-VI 3+1
10
Course Code Course Title Credit Hours
Total Credits
Semester-VIII
Department of Electrical Engineering
Electronic Engineering
Telecommunication Engineering
Power Engineering
EE-307 Integrated Circuits Integrated Circuits Electromechanical Systems Design
EE-309 Wave Propagation & Antennas
Wave Propagation & Antennas
Power Generation
EE-402 Microwave Engineering
Microwave Engineering
EE-403 Computer Networks Computer Networks
Power Transmission
Elective-I
Elective-II
Elective-III
Elective-IV EE-405
Power Electronics
Communication Protocols Multimedia Communication
Optical devices & Communication
Electromagnetic Compatibility
EE-406
Navigational Aids
EE-307
EE-309
EE-402
EE-403
EE-407
EE-408
EE-409
EE-410
EE-411 Digital Communications
EE-308
EE-310
EE-404
EE-405
Power Electronics
List of Elective Courses
30 31
Department of Electrical Engineering
EE401 0+3
EEXXX 3+1
EEXXX 3+1
EEXXX 3+1
Project Part -I
Elective -III
Elective -IV
Elective -V
15
Semester-VII
Course Code Course Title Credit Hours
Total Credits
EE401 Project Part -II 0+3
MS401 Engineering Management 3+0
EEXXX Electiv e-VI 3+1
10
Course Code Course Title Credit Hours
Total Credits
Semester-VIII
Department of Electrical Engineering
Electronic Engineering
Telecommunication Engineering
Power Engineering
EE-307 Integrated Circuits Integrated Circuits Electromechanical Systems Design
EE-309 Wave Propagation & Antennas
Wave Propagation & Antennas
Power Generation
EE-402 Microwave Engineering
Microwave Engineering
EE-403 Computer Networks Computer Networks
Power Transmission
Elective-I
Elective-II
Elective-III
Elective-IV EE-405
Power Electronics
Communication Protocols Multimedia Communication
Optical devices & Communication
Electromagnetic Compatibility
EE-406
Navigational Aids
EE-307
EE-309
EE-402
EE-403
EE-407
EE-408
EE-409
EE-410
EE-411 Digital Communications
EE-308
EE-310
EE-404
EE-405
Power Electronics
List of Elective Courses
30 31
Elective-V
Industrial Electronics
Mobile Communications
VLSI Design Telecom Standards and Regulations
Computer Vision
EE-421
High Voltage Engineering
Digital Control Systems
Robotics
Embedded Systems
Fuzzy logic & Neural Networks
EE-422 Power Distribution and Utilization
Elective-VI
Digital Image Processing
Cryptography
Opto- Electronics Wireless Networks
EE-412
EE-413
EE-414
EE-415
EE-416
EE-417
EE-423
EE-424
EE-425 Artificial Intelligence
EE-418
EE-419
EE-420
EE-426
EE-427
EE-428 Telecommunication Management
EE-429
Power Systems Analysis
Department of Electrical Engineering
List of Elective Courses
Department of Electrical Engineering
The Department of Electrical Engineering also offers a
Masters program. Three basic specialization fields are currently
being offered, namely; Signal Processing, Control Systems
Engineering and Communication Systems Engineering. The
curriculum for these three basic streams is separately designed.
First semester is common to all streams since it consists of a
comprehensive Mathematics course and two other core
courses. Master's degree is awarded after completion of 30
credit hours, 24 of these are course-work related. The
remaining 6 credits hours are optional; students can earn these
credits by either taking 2 additional courses or doing research
work. The research is completed upon submission of a thesis
and its defense before the faculty.
MS Electrical Engineering
3+0
3+0
3+0
Stochastic Systems
Advanced DSP
Advanced Engineering Mathematics
9
Semester-I
Course Code Course Title Credit Hours
EE-721
EE-711
BS-701Total Credits
3+0
3+0
3+0
Information & Coding Theory
Elective-I
Elective-II
9
Semester-II
Course Code Course Title Credit Hours
EE-722
Total Credits
32 33
Elective-V
Industrial Electronics
Mobile Communications
VLSI Design Telecom Standards and Regulations
Computer Vision
EE-421
High Voltage Engineering
Digital Control Systems
Robotics
Embedded Systems
Fuzzy logic & Neural Networks
EE-422 Power Distribution and Utilization
Elective-VI
Digital Image Processing
Cryptography
Opto- Electronics Wireless Networks
EE-412
EE-413
EE-414
EE-415
EE-416
EE-417
EE-423
EE-424
EE-425 Artificial Intelligence
EE-418
EE-419
EE-420
EE-426
EE-427
EE-428 Telecommunication Management
EE-429
Power Systems Analysis
Department of Electrical Engineering
List of Elective Courses
Department of Electrical Engineering
The Department of Electrical Engineering also offers a
Masters program. Three basic specialization fields are currently
being offered, namely; Signal Processing, Control Systems
Engineering and Communication Systems Engineering. The
curriculum for these three basic streams is separately designed.
First semester is common to all streams since it consists of a
comprehensive Mathematics course and two other core
courses. Master's degree is awarded after completion of 30
credit hours, 24 of these are course-work related. The
remaining 6 credits hours are optional; students can earn these
credits by either taking 2 additional courses or doing research
work. The research is completed upon submission of a thesis
and its defense before the faculty.
MS Electrical Engineering
3+0
3+0
3+0
Stochastic Systems
Advanced DSP
Advanced Engineering Mathematics
9
Semester-I
Course Code Course Title Credit Hours
EE-721
EE-711
BS-701Total Credits
3+0
3+0
3+0
Information & Coding Theory
Elective-I
Elective-II
9
Semester-II
Course Code Course Title Credit Hours
EE-722
Total Credits
32 33
Department of Electrical Engineering
* The students who don’t intend to carryout research/ thesis, they can take two additional courses for the completion of degree requirement.
3+0
3+0
6+0
Elective-IV
Thesis / *Two additional Courses
12
Semester-II
Course Code Course Title Credit Hours
EE-798
Total Credits
Elective-III
Grand Total 30
EE -711 Advanced DSP
EE -712 Digital Image Processing
EE -713 Real - time DSP Design and Applications
EE -714 Speech Analysis & Processing
EE -715 Pattern Recognition
Cryptography
Statistical Signal Processing
Adaptive Signal Processing
Array Signal Processing
Video Signal Processing
EE -716
EE -717
EE -718
EE -719
EE -720
Signal Processing Track
List of Post-Graduate Elective Courses
3+0
3+0
3+0
3+0
3+0
3+0
3+0
3+0
3+0
3+0
Department of Electrical Engineering
Stochastic Systems
Information and Coding Theory
Advanced Communication Systems
Secure Communications
Fuzzy Systems
Modern Trends in Telecommunications
Communication TrackEE-721
EE-722
EE-723
EE-724
EE-725
EE-726
3+0
3+0
3+0
3+0
3+0
3+0
Control Systems TrackAdvanced Linear Control Systems
Nonlinear Control Systems
Robust Control Systems
Fuzzy Control Systems
Optimal Control Systems
Learning Control Systems
Seminar in Advanced Topics in Control Systems
EE-731
EE-732
EE-733
EE-734
EE-735
EE-736
3+0
3+0
3+0
3+0
3+0
3+0
EE-737 3+0
MS Thesis EE -799
34 35
Department of Electrical Engineering
* The students who don’t intend to carryout research/ thesis, they can take two additional courses for the completion of degree requirement.
3+0
3+0
6+0
Elective-IV
Thesis / *Two additional Courses
12
Semester-II
Course Code Course Title Credit Hours
EE-798
Total Credits
Elective-III
Grand Total 30
EE -711 Advanced DSP
EE -712 Digital Image Processing
EE -713 Real - time DSP Design and Applications
EE -714 Speech Analysis & Processing
EE -715 Pattern Recognition
Cryptography
Statistical Signal Processing
Adaptive Signal Processing
Array Signal Processing
Video Signal Processing
EE -716
EE -717
EE -718
EE -719
EE -720
Signal Processing Track
List of Post-Graduate Elective Courses
3+0
3+0
3+0
3+0
3+0
3+0
3+0
3+0
3+0
3+0
Department of Electrical Engineering
Stochastic Systems
Information and Coding Theory
Advanced Communication Systems
Secure Communications
Fuzzy Systems
Modern Trends in Telecommunications
Communication TrackEE-721
EE-722
EE-723
EE-724
EE-725
EE-726
3+0
3+0
3+0
3+0
3+0
3+0
Control Systems TrackAdvanced Linear Control Systems
Nonlinear Control Systems
Robust Control Systems
Fuzzy Control Systems
Optimal Control Systems
Learning Control Systems
Seminar in Advanced Topics in Control Systems
EE-731
EE-732
EE-733
EE-734
EE-735
EE-736
3+0
3+0
3+0
3+0
3+0
3+0
EE-737 3+0
MS Thesis EE -799
34 35