Program Overview

  • Duration

    6 Months (Self-Paced) Program

    Can be done in 6 months

  • Total Courses

    06

  • Total Credit Hours

    36

Our Electrical Engineering program focuses on the electrical and electronic systems that power our modern world. Students learn about circuit design, electronics, power systems, and telecommunications. They gain the skills to design and maintain electrical systems, from renewable energy solutions to advanced communication networks.

ENGINEERING FUNDAMENTALS AND TECHNICAL PROFICIENCY:

The College of Engineering is designed to establish a strong foundation in engineering fundamentals and technical proficiency. Students start by building a deep understanding of core engineering disciplines and gain hands-on experience in problem-solving and innovation. This technical base prepares students for a successful career in the dynamic field of engineering.


REAL-WORLD APPLICATIONS AND INDUSTRY PARTNERSHIPS:

Beyond the classroom, our College of Engineering places a significant emphasis on real-world applications and industry partnerships. Students have opportunities to work on engineering projects, collaborate with engineering firms, and engage in research with cutting-edge technology. These experiences not only enhance their practical engineering skills but also provide valuable insights into the industry.


GLOBAL ENGINEERING CHALLENGES AND INTERNATIONAL COLLABORATIONS:

The College of Engineering at Hudson Bay University is committed to addressing global engineering challenges and fostering international collaborations. Our curriculum explores international engineering practices and encourages students to engage in projects with global impact. Additionally, we offer study abroad programs and collaborate with engineers from around the world, enabling students to gain a global perspective on engineering.

Circuit Analysis focuses on analyzing electrical circuits and understanding their behavior. Students will learn techniques for circuit analysis, including the application of Ohm's law, Kirchhoff's laws, and other principles.


Communication Systems focuses on the theory and design of communication systems. Students will explore modulation, signal processing, and various aspects of transmitting and receiving information in electronic systems.


Electrical Engineering Design teaches students the principles and practices of designing electrical systems. Topics include circuit design, component selection, and the creation of practical electrical engineering solutions.


Advanced Semiconductors explores more complex semiconductor devices and their applications. Topics may include optoelectronics, semiconductor manufacturing, and advanced transistor technologies.


Introduction to English Linguistics provides an overview of the principles and theories of linguistics as they apply to the English language. Topics include phonetics, syntax, semantics, and language variation.


Introduction to Engineering provides a broad introduction to the field of engineering, covering its history, disciplines, and problem-solving approaches. Students will explore the diverse roles and responsibilities of engineers.

Cost of Attendance

Tuition Fee Breakdown Cost
UNDERGRADUATE DIPLOMA IN ENGINEERING $3,240
Medical Insurance $0.00
Personal Expenses $0.00
Study Materials $0.00
Food Cost $0.00
Total Tuition Fee $3,240
WHERE AFFORDABILITY

Meets Opportunity

At Hudson Bay University, we believe in where affordability meets opportunity. Our commitment to accessible education ensures that quality learning doesn't come with a hefty price tag. We open the doors to knowledge, offering students the chance to thrive without the burden of overwhelming tuition fees, empowering them for a brighter future.

Our Eligibility Criteria

Explore HBU’s Eligibility Criteria for Students Worldwide

Eligibility Criteria

High school diploma, GED or equiv. International Education

Credit Hours

36

Course Duration

6 Months (Self-Paced) Program

Courses Offered

06

Introduction To Electrical Engineering(ELE-052)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Basic Circuit Theory
     The Analysis Of Dc Circuits
     The Dynamics Of Circuits
     The Analysis Of Ac Circuits
  In Section 2 of this course you will cover these topics:
     Power In Ac Circuits
     Electric Power Systems
     Semiconductor Devices And Circuits
     Digital Electronics
  In Section 3 of this course you will cover these topics:
     Analog Electronics
     Instrumentation Systems
     Communication Systems
     Linear Systems
  In Section 4 of this course you will cover these topics:
     The Physical Basis Of Electromagnetics
     Magnetic Structures And Electrical Transformers
     The Synchronous Machine
  In Section 5 of this course you will cover these topics:
     Induction Motors
     Direct-Current Motors
     Power Electronic Systems

Electric Circuit Basics (ELE-376)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Quantities And Units
     Voltage, Current, And Resistance
     Ohms Law
     Energy And Power
     Series Circuits
  In Section 2 of this course you will cover these topics:
     Parallel Circuits
     Series-Parallel Circuits
     Circuit Theorems And Conversions
     Branch, Loop, And Node Analyses
  In Section 3 of this course you will cover these topics:
     Magnetism And Electromagnetism
     Introduction To Alternating Current And Voltage
     Capacitors
     Inductors
  In Section 4 of this course you will cover these topics:
     Transformers
     Rc Circuits
     Rl Circuits
     Rlc Circuits And Resonance
  In Section 5 of this course you will cover these topics:
     Passive Filters
     Circuit Theorems In Ac Analysis
     Time Response Of Reactive Circuits
     Three-Phase Systems In Power Applications

Numerical Methods (ELE-432)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Introduction
     Interactive Computing With Matlab
     Matlab Programming
  In Section 2 of this course you will cover these topics:
     Organizing And Debugging Matlab Programs
     Unavoidable Errors In Computing
     Finding The Roots Of F(X) =0
  In Section 3 of this course you will cover these topics:
     A Review Of Linear Algebra
     Solving Systems Of Equations
  In Section 4 of this course you will cover these topics:
     Least-Squares Fitting Of A Curve To Data
     Interpolation
  In Section 5 of this course you will cover these topics:
     Numerical Integration
     Numerical Integration Of Ordinary Differential Equations

Communication Systems (ELE-547)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Introduction
     Signals And Linear Systems
     Amplitude Modulation
  In Section 2 of this course you will cover these topics:
     Angle Modulation
     Probability And Random Processes
     Effect Of Noise On Analog Communications
  In Section 3 of this course you will cover these topics:
     Analog To Digital Conversion
     Digital Modulation In Awgn Baseband Channels
     Transmission Through Bandlimited Awgn Channels
  In Section 4 of this course you will cover these topics:
     Transmission Of Digital Information Via Carrier Modulation
     Selected Topics In Digital Communications
  In Section 5 of this course you will cover these topics:
     An Introduction To Information Theory
     Coding For Reliable Communications

Introduction To Semi-Conductors (ELE-602)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Guide To Semi Conductor
     Semiconductor Family Tree
  In Section 2 of this course you will cover these topics:
     How Chips Are Designed
     How Chips Are Made
  In Section 3 of this course you will cover these topics:
     Business And Markets
     Essential Guide To Microprocessors
  In Section 4 of this course you will cover these topics:
     Essential Guide To Memory Chips
     Essential Guide To Custom And Configurable Chips
  In Section 5 of this course you will cover these topics:
     Theory

Introduction To Control Systems (ELE-737)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Control Systems Engineering
     Modeling Physical Systems: Differential Equation Models
     Transfer-Function Models
  In Section 2 of this course you will cover these topics:
     State Models
     Simulation
     Stability
  In Section 3 of this course you will cover these topics:
     Performance Criteria And Some Effects Of Feedback
     Root-Locus Techniques
     Frequency-Response Techniques
  In Section 4 of this course you will cover these topics:
     Cascade Controller Design
     Controller Design Variations
     Nonlinear Models And Simulation
  In Section 5 of this course you will cover these topics:
     Nonlinear Systems: Analytical Techniques
     The Application Of Discrete-Event Control Techniques
     Design Examples