BSc in Electrical Engineering

The BSc in Electrical Engineering program is accredited by the Engineering Accreditation Commission (EAC) of ABET, , under the commission鈥檚 General Criteria and Program Criteria for Electrical, Computer, Communications, Telecommunication(s), and Similarly Named Engineering Programs.

The BSc in Electrical Engineering program offers students a quality education that provides them with the knowledge, techniques and skills that will be needed by the next generation of highly qualified engineers. The program has well-designed core courses to ensure that students gain hands-on and problem-based learning experiences. The program also gives students the opportunity to select technical electives from a large pool of courses in order to specialize in certain areas.

Electrical systems are at the heart of the new industrial revolution and they affect nearly every aspect of our modern daily lives. These systems require professional engineers for their design, development, commissioning and service. The demand for such engineers is growing in the UAE because of the new and growing electrical and electronics industries.

Program Enrolment and Degree Data

Number of Enrolled Students
Term	Number of Students Enrolled
Fall 2019	207
Spring 2020	234
Summer 2020	201
Fall 2020	239
Spring 2021	249
Summer 2021	223
Fall 2021	230
Spring 2022	258
Summer 2022	227
Fall 2022	244
Spring 2023	240
Summer 2023	218
Fall 2023	241
Spring 2024	224
Number of Graduates
Academic Year	Count
2024	19

Program Educational Objectives

Graduates would meet the expectations of Employers and the Society for timely and relevant technical knowledge and competencies, for careers and potential leadership related to their fields.
Graduates would be able to pursue advanced studies or professional growth through continuous learning and adaptation to technological advancement and the changing needs of their professions.

Student Outcomes (Program Learning Outcomes)

Students graduating with a BSc in Electrical Engineering degree will attain the following:

1	An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
2	An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
3	An ability to communicate effectively with a range of audiences.
4	An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
5	An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
6	An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
7	An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.

Degree Requirements

To be recommended for graduation with a BSc in Electrical Engineering, students must successfully complete the courses in the specified categories as set out below. The categories cover the University General Education Requirements (GER, 48 credits),听Program Additional Math/Science Requirements听(16 credits), as well as Electrical Engineering Core (51 credits), and Technical Electives requirements (15 credits). The normal length of the program is 130 credits.

ADDITIONAL MATH/SCIENCES REQUIREMENTS (16 CREDITS)

To satisfy the听College of Engineering and Physical Sciences听Requirements, the BSc in Electrical Engineering requires the following Math courses in addition to the Math/Sciences required in GER:听,听,听, and听.

	Linear Algebra	3cr.
	Differential Equations	3cr.
	Engineering Mathematics	3cr.
	Probability and Statistical Inference	3cr.
	University Physics II	4cr.

ELECTRICAL ENGINEERING CORE REQUIREMENTS (51 CREDITS)

To satisfy the Electrical Engineering Core Requirements, the BSc in Electrical Engineering requires the following courses.听Students are required to take 2 Electrical Engineering Internship () each counts for 1 credit of the program core requirements

	Digital Logic Design	4 cr.
	Electric Circuits I	4 cr.
	Electric Circuits II	3 cr.
	Signals and Systems	3 cr.
	Electronic Circuits & Devices	4 cr.
	Microprocessor Systems	4 cr.
	Applied Electromagnetics	3 cr.
	Electrical Machines	4 cr.
	Feedback Control Systems	4 cr.
	Communication Systems	4 cr.
	Electrical Engineering Internship	1 cr.
	Digital Signal Processing	3 cr.
	Power System Analysis	3 cr.
	Senior Design Project I	3 cr.
	Senior Design Project II	3 cr.
	Electrical Engineering Internship	1 cr.

ELECTRICAL ENGINEERING TECHNICAL ELECTIVES (15 CREDITS)

Students are required to take a total of 15 credits (five courses) from an approved technical electives list. Technical electives may be at 300-level or 400-level and at most three credits may be undergraduate research. Students can choose any course from the approved list to satisfy both their technical elective requirements as long as it is not a core requirement course in their program. Additional courses may be approved by the department as technical electives.听No more than 3 credits of Independent Study and Undergraduate Research Course may be counted towards a student鈥檚 degree.

	Introduction to Semiconductor Devices	3 cr.
	Microwave Circuits and Devices	3 cr.
	Instrumentation and Measurements	3 cr.
	Analog Integrated Circuits Design	3 cr.
	Electric Vehicles Technology	3 cr.
	Introduction to Radar Systems	3 cr.
	Industrial Automation	3 cr.
	High Voltage Engineering	3 cr.
	Power Electronics	3 cr.
	Power Transmission and Distribution Systems	3 cr.
	Power System Stability and Control	3 cr.
	Electric Drives and Renewable Resources	3 cr.
	Power System Protection and Relays	3 cr.
	Modern Control Systems	3 cr.
	Digital Control Systems	3 cr.
	Fundamentals of Solar Cells	3 cr.
	Antennas and Propagation	3 cr.
	Renewable Energy Technologies	3 cr.

	Undergraduate Research	3 cr.
	Independent Study I	3 cr.
	Undergraduate Research	3 cr.
	Independent Study II	3 cr.
	Special Topics in Electrical Engineering	3 cr.

Course Description of Electrical Engineering

ELEN 200听听听听听听听听听听听听听听听听听听听听听听听听听听听听听 Fundamentals of Electronic Systems (3-3-4)

Prerequisite: PHYS 122

Restrictions: The course cannot be taken by students majoring in Electrical Engineering

This course explores the fundamental principles of electrical circuits and digital logic. It covers topics such as voltage and current sources, Ohm’s law, and Kirchhoff’s voltage and current laws. Students are engaged in DC steady-state and transient analysis. Additionally, students explore the basic operation of semiconductor devices and their applications. The course also includes an introduction to binary systems and basic logic design.

听

ELEN 221听听听听听听听听听听听听听听听 Electric Circuits I (3-3-4)

Co-requisite:听听听 MATH 232 or PHYS 122

This course covers the basic principles of DC and AC electric circuit analysis. The course introduces circuit variables and basic circuit analysis techniques and theorems. It also investigates the transients and steady-state responses of RL and RC circuits and sinusoidal steady-state circuit analysis by the phasor method. Ideal operational amplifiers are also introduced.

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ELEN 222听听听听听听听听听听听听听听听听听听听听听听听听听听听 Electric Circuits II (2-3-3)

Prerequisite: ELEN 221
Co-requisites:听 MATH 206

This course covers RLC circuits, instantaneous and average power, RMS values, active and reactive power, resonance and second-order systems. It presents Laplace transform circuit analysis, three phase systems and power factor correction. Magnetically coupled systems, two port networks, ideal transformers, passive and active filters are also discussed.

听

ELEN 302听听听听听听听听听听听听听听 Signals and Systems (3-3)

Prerequisite:听听 MATH 232, ELEN 222

Co-requisite:听听听听听 MATH 204

This course covers time/space-domain analysis of analog and discrete signals: basic signals, properties and operations. It discusses frequency analysis of signals (Fourier series and transform, Laplace transform, and z-transform) and time/space-domain analysis of signal processing systems. The course also covers frequency analysis of signal processing systems (frequency response, transfer function, z-transfer function, stability analysis, and fundamentals of analog filter design).

听

ELEN 303听听听听听听听听听听听听听听听 Electrical Energy Systems (3-3)

Pre-requisites: MATH 211 or (MATH 204 and MATH 206).

Restrictions: The course cannot be taken by students majoring in Electrical Engineering, and Junior Standing.

This course provides an introduction to electrical energy systems, starting with the physical principles underlying the modeling of circuit elements and covering topics that include DC circuit analysis techniques, first-order circuits, sinusoidal steady-state analysis. It also investigates AC power and reactive power calculations, transformers, balanced three-phase circuits and the basics of electromechanical energy conversion devices (DC and AC machines).

ELEN 312听听听听听听听听听听听听听听 Electronic Circuits and Devices (3-3-4)

Prerequisites:听 ELEN 221

This course provides an introduction to semiconductors. PN-junctions and their application as rectifiers, clippers, and voltage regulators are discussed. It also discusses the operation of bipolar junction transistors (BJT) and field effect transistors (FET). The course covers small signal modeling of BJTs and FETs and their use as single stage amplifiers. BJT, JFET and metal鈥搊xide鈥搒emiconductor field-effect transistor (MOSFET) differential and multistage amplifiers, amplifier classification, and power amplifiers are also discussed.

ELEN 320听听听听听听听听听听听听听听 Applied Electromagnetics (3-3)

Prerequisite:听 MATH 232

Co-requisite: MATH听206, ELEN 222

This course discusses static electric fields, boundary value problems, and magnetic forces and fields. It discusses the basic laws of electromagnetism and Maxwell鈥檚 equations, plane wave propagation, polarization, reflection and refraction. The course also introduces principles of electromagnetic radiation and the properties and characteristics of antennas.

ELEN 322听听听听听听听听听听听听听听 Electrical Machines (3-3-4)

Prerequisites:听ELEN 320

This course covers magnetic circuit concepts and materials, transformer analysis and operation, and steady state analysis of rotating machines. The construction and principles of operation of DC, induction and synchronous machines are explored. There is a practical focus on the characteristics of machines and transformers.

听

ELEN 323听听听听听听听听听听听听听听 Feedback Control Systems (3-3-4)

Prerequisites:听ELEN 302

This course covers systems modelling using ordinary differential equations and transfer functions.听 Modelling of electrical, mechanical, electromechanical, and fluid systems is discussed. The course also introduces system performance, error analysis, and feedback control analysis techniques using root locus and frequency response (Bode and Nyquist) for systematic stability analysis of systems. Lag/lead controllers; proportional鈥搃ntegral鈥揹erivative (PID) controllers; and state-space controllers are discussed.

听

ELEN 326听听听听听听听听听听听听听听 Introduction to Semiconductor Devices (3-3)

Prerequisites:听PHYS 122

This course introduces the mechanisms of semiconductor device operation. It explains terminology, models, properties, and concepts associated with semiconductor devices and offers insight into the internal workings of the “building-block” device structures such as the pn-junction diode, bipolar听junction听transistor (BJT), and metal鈥搊xide鈥搒emiconductor field-effect transistor (MOSFET). The course also introduces optoelectronics, discusses current technological issues, and features modern devices.

听

ELEN 360听听听听听听听听听听听听听听 Communication Systems (3-3-4)

Prerequisite: MATH 232 and MATH 243

Co-requisite: ELEN 302

This course covers the analysis and transmission of signals. It introduces random processes, linear and non-linear modulation, frequency/phase modulation (FM/PM). Noise effects in 听communication systems are briefly introduced. Students are also exposed to a baseband modulation scheme, pulse code modulation, and baseband 听pulse transmission. This course also covers multiplexing techniques and the principles of telephony.

听

ELEN 402听听听听听听听听听听听听听听 Digital Signal Processing (3-3)

Prerequisites: ELEN 302听

This course introduces the principles of digital signal processing (DSP). Students are introduced to discrete-time signals and systems, sampling, analog-to-digital (ADC) and digital-to-analog (DAC) conversion, and aliasing. The course covers the z-transform, discrete-time Fourier transform (DTFT), discrete Fourier transform (DFT) and fast Fourier transform (FFT). Models of digital filters, finite impulse response (FIR) filter design, and infinite impulse response (IIR) filter design are also presented.

听

ELEN 404听听听听听听听听听听听听听听 Microwave Engineering (3-0-3)

Prerequisite:听听听 ELEN 312, ELEN 320

The course covers the fundamentals of microwave engineering encompassing components, devices, and system design. The covered topics include planar transmission lines, network analysis, impedance matching/transformation, passive and active devices, and noise and nonlinear distortion. The course introduces students to microwave system design with an emphasis on contemporary applications.听听

ELEN 406听听听听听听听听听听听听听听 Instrumentation and Measurement (2-3-3)

Prerequisite:听听听 ELEN 302, ELEN 312

The course provides an introduction to measurement and instrumentation. It covers static and dynamic characteristics of measurement systems; accuracy of measuring systems; measurement error and uncertainty quantification; noise and noise reduction techniques; sensing elements, signal conditioning and processing elements; measurement system analysis, design, and applications. The course is augmented with laboratory sessions and it follows hands-on learning approach.

听

ELEN 411听听听听听听听听听听听听听听 Analog Integrated Circuits (3-3)

Prerequisite: 听听 ELEN 312

This course covers complementary metal-oxide semiconductor (CMOS) analog circuit modeling, device characterization, and building blocks. It explores two-stage CMOS amplifiers and high-performance op-amps, and introduces switched-capacitor circuits. In addition, it provides hands-on experience with CAD simulation tools for analog circuit design.

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ELEN 412听听听听听听听听听听听听听听 Electric Vehicles Technology (3-3)

Prerequisites: ELEN 322

Co-requisite: ELEN 423

This course delves into the modelling and analysis of the powertrain and charging systems of electric vehicles. A general overview of electric vehicles and comparison with vehicles driven by internal combustion engines is given. The course presents the powertrain system of the vehicle. Different energy storage mechanisms are analyzed to understand their electrical dynamic behavior. Analysis of the power electronic drives under different drive cycles and charging of EVs including wireless charging, charging topologies and standards is presented.

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ELEN 413听听听听听听听听听听听听听听 Introduction to Radar Systems (3-3)

Prerequisites: ELEN320, ELEN302

This course covers the main concepts of radar systems including radar structures, wave propagation effects and signal processing techniques. Fundamental topics such as detection in noise, ambiguity, matched filters, and pulse compression are offered in relation to the various types of radars. The course also discusses radar applications and design .

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ELEN 420听听听听听听听听听听听听听听听 Industrial Automation (2-3-3)

Prerequisite:听听 ELEN 323

This course provides an in-depth exploration of the principles, technologies, and applications of industrial automation systems. Students learn about the design, implementation, and optimization of automated processes in industrial settings, with a focus on control systems, sensors, actuators. It also explores programmable logic controller (PLC) programming, human-machine interface (HMI), supervisory control and data acquisition (SCADA) and distributed control systems (DCS).

ELEN 421听听听听听听听听听听听听听听 Power System Analysis (3-3)

Prerequisite: 听听听听 ELEN 322

This course provides an introduction to power systems analysis techniques under steady state conditions, including modelling of power system components (generators, transformers, transmission lines, etc.). It analyzes real and reactive power flows in balanced three-phase systems. An introduction to the per-unit system, load-flow calculations, and power system fault calculations is also given, considering both balanced and unbalanced fault conditions using symmetrical components analysis.

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ELEN 422听听听听听听听听听听听听听听 High-Voltage Engineering (3-3)

Prerequisite:听 ELEN 320

The course provides the fundamental concepts and methods for generation and measurement of ac, dc, and impulse high voltages. It includes basic concepts of electrical insulation requirements, over voltages and principles of overvoltage protection in power systems, high voltage testing techniques and associated standards. An introduction to basic conduction and breakdown mechanisms in gases, solids and liquids is given. An overview of overhead line insulators (material, shape, performance), and underground cables (single and three-core cables, electrical stresses; equivalent circuits) is also provided.

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ELEN 423听听听听听听听听听听听听听听听 Power Electronics (3-3)

Prerequisite: ELEN 222 or ELEN 303

The course covers the operation and analysis of power semiconductor converters (AC-DC, DC-DC, and DC-AC) and their various configurations. It analyzes switching losses, thermal and protection circuits in continuous and discontinuous current operations, power quality issues, and the effect of overlap. It introduces different applications for power electronics.

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ELEN 424听听听听听听听听听听听听听听 Power Transmission and Distribution Systems (3-3)

Prerequisite: ELEN 222听

This course covers the design of electrical power transmission and distribution systems, highlighting their different configurations. It introduces power systems load classification and factors and develops mathematical models for transmission and distribution systems. Students are introduced to sub-station design and grounding and the impact of integrating renewable power generation into transmission and distribution systems.

ELEN 425听听听听听听 Power System Stability and Control (3-3)

Prerequisite: ELEN 421

The course covers the basic concepts of power system stability including steady-state stability, small-signal stability, and transient stability analysis considering both rotor angle (equal area criteria) and time (time-stepping solutions). Power-frequency control and voltage-reactive power control in an interconnected power network are also explored.

ELEN 426听听听听听听听听听听听听听听听 Electric Drives (3-0-3)

Prerequisite: ELEN 322, ELEN 323, ELEN 423

The course covers the components, basic principles, and dynamics of electric drives. The power converter circuits and the control principles of various DC and AC motors are discussed. Principles of selection of electric motors are introduced. Some of the applications of electrical drives and recent developments are also discussed.

ELEN 427听听听听听听听听听听听听听听听 Power System Protection (3-0-3)

Prerequisite:听听听听听 ELEN 421

This course discusses the principles behind the protection of electric power systems and the role of relaying theory. It presents voltage and current transformers. Student analyze the protection schemes for transformers, lines, distribution systems, and rotating machinery. Distance and pilot line protection are also discussed.

ELEN 428听听听听听听听听听听听听听听听 Modern Control Systems (3-0-3)

Prerequisite: ELEN 323

听

This course covers design of modern control systems using the matrix approach and linear systems with examples from electrical and mechanical engineering. The course presents realization techniques, discretization of continuous systems, controllability, observability and their Gramians, pole placement, disturbance rejection, and state estimation.

听

ELEN 429听听听听听听听听听听听听听听 Digital Control Systems (2-3-3)

Prerequisites: ELEN 323

This course presents the theory, analysis, and design of digital control systems. The course covers system modeling, discretization methods, system performance, frequency response, and stability analysis. It also explores different methods of designing controllers such as discrete-time proportional鈥搃ntegral鈥揹erivative (PID) and state feedback controllers in the time domain. The course provides practical implementations of digital filters based on industrial applications.

ELEN 430听听听听听听听听听听听听听听 Fundamentals of Solar Cells (2-3-3)

Prerequisite: PHYS 122 or ELEN 303

In this course, students learn the basic physics of converting sunlight to electricity, key measurable parameters and how solar cells are manufactured. Practical experience with fabrication process and techniques for characterization of solar cells is provided. Students learn what technologies are currently on the market and highlight Silicon solar cells, thin-film solar cells, and new emerging technologies.听

听

ELEN 470听听听听听听听听听听听听听听听 Antennas and Propagation (3-0-3)

Prerequisites:听听听 ELEN 320

听

This course introduces students to antennas and wave propagation. The main topics include fundamental parameters of antennas, principles of radio wave propagation, radiation integral and potential functions, far-field approximation, wire and aperture antennas, and antenna arrays. Also, the course introduces students to the principle of pattern multiplication, Fourier-transform method, field equivalence principle, and evolving antenna technologies and applications.

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ELEN 486听听听听听听听听听听听听听听听 Renewable Energy Technologies (3-0-3)

Prerequisite: ELEN 222 or ELEN 303

The course covers the principles of electric power generation from conventional and renewable-based power plants. It introduces the principles of operation of various types of renewable energy systems. Types of energy storage systems are presented. The main components of wind and solar photovoltaic (PV) energy conversion systems and their control techniques are discussed.

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ELEN 497听听听听听听听听听听听听听听 Senior Design Project I (1-6-3)

Prerequisite: ELEN 312, CCEN 316, and Senior Standing

Principles of industrial automation with emphasis on oil and gas industries. Topics on sensors, actuators, field devices, signal conditioning, PLCs, and ladder logic programming are covered in theory and practice. Different types of closed loop controllers, system modeling, SCADA, and DCS are also addressed.

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ELEN 498 听听听听听听听听听听听听听听 Senior Design Project II (9-0-3)

Prerequisite: ELEN 497

Students participate in team projects dealing with design and development of a product or a system. A range of projects is offered by the different engineering departments, some of which are multi-disciplinary in nature. This course provides a collaborative engineering design experience for students. The design projects require students to use engineering standards in their design process, developing suitable criteria for selection based on their acquired engineering skills, experience, and other pertinent resources.

Academic Year 2023-2024

听	Fall		Spring
Year 1	ENGL 101 Academic English I	3 cr	ENGL 102 Academic English II	3 cr
	MATH 111 Calculus I	4 cr	MATH 112 Calculus II听	4 cr
	GENS 101 Grand Challenges	4 cr	PHYS 121 University Physics I	4 cr
	CHEM 115 General Chemistry I	4 cr	COSC 114 Introduction to Computing Using Python	4 cr
听	GENS 100 Academic Development & Success 听	1 cr	听
Summer	听HUMA 107 / 108 Introduction to Arabic and Islamic Heritage / Arabic and Islamic Heritage	3 cr
Year 2	MATH 232 Engineering Mathematics	3 cr	MATH 206 Differential Equations	3 cr
	PHYS 122 University Physics II	4 cr	MATH 243 Probability & Statistical Inference	3 cr
	MATH 204 Linear Algebra	3 cr	CCEN 210 Digital Logic Design	4 cr
	ELEN 221 Electric Circuits I	4 cr	ELEN 222 Electric Circuits II	3 cr
	ENGR 202 Data Science & AI	3 cr	ELEN 320 Applied Electromagnetics	3 cr

Year 3	ELEN 302 Signals and Systems	3 cr	CCEN 316 Microprocessor Systems	4 cr
	ELEN 312 Electronic Circuits and Devices	4 cr	ELEN 323 Feedback Control Systems	4 cr
	ELEN 322 Electrical Machines	4 cr	ELEN 360 Communication Systems	4 cr
	BUSS 322 Fundamentals of Innovation and Entrepreneurship	3 cr	ELEN 421 Power System Analysis	3 cr
	GENS 300 Career Preparation	1 cr
	听
Summer	ENGR 399 Engineering Internship	1 cr
听	听
Year 4	Technical Elective	3 cr	Technical Elective	3 cr
	Technical Elective	3 cr	Technical Elective	3 cr
	ELEN 402 Digital Signal Processing	3 cr	Technical Elective	3 cr
	ELEN 497 Senior Design Project I	3 cr	BUSS XXX Business Elective	3 cr
	HUMA 105 / 106 Emirates Society / Emirates Studies	3 cr	ELEN 498 Senior Design Project II	3 cr
听	GENS 400 Enhancing Employability and Job Readiness	1 cr	听
听	听		听
Summer	ENGR 399 Engineering Internship	1 cr
Total Credit Hours				130

星空传媒

Degree Requirements

ADDITIONAL MATH/SCIENCES REQUIREMENTS (16 CREDITS)

ELECTRICAL ENGINEERING CORE REQUIREMENTS (51 CREDITS)

ELECTRICAL ENGINEERING TECHNICAL ELECTIVES (15 CREDITS)