Program Overview

  • Duration

    3 Months (Self-Paced) Program

  • Total Courses

    01

  • Total Credit Hours

    6

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.

Control System Design delves into the design and analysis of control systems used in various applications. Students will learn about control theory, system modeling, and the design of controllers for dynamic systems.


Electric Circuit Basics introduces the foundational principles of electric circuits. Students will gain insights into electrical components, circuit analysis, and circuit design, providing a solid grounding in electrical engineering.


Basics of Industrial Engineering introduces students to the core principles of industrial engineering. Topics include process optimization, quality control, and operations management, essential for improving efficiency in various industries.


Engineering Ethics examines ethical issues and dilemmas in engineering practice. Students will learn about professional codes of ethics, moral decision-making, and the responsibilities of engineers in society.


Advanced Composition focuses on refining writing skills. Students will develop their ability to craft complex and persuasive written communication for academic, professional, and creative purposes.

TUITION

Fees Breakdown Cost
GRADUATE COURSE CERTIFICATE IN ENGINEERING $1,560
Medical Insurance $0.00
Personal Expenses $0.00
Study Materials $0.00
Food Cost $0.00
Total Tuition Fee $1,560
WHERE AFFORDABILITY

Meets Opportunity

At the University of North Carolina, we champion the synergy of affordability and opportunity. Our unwavering dedication to accessible education ensures that exceptional learning doesn't come with an exorbitant price. We unlock the gates to knowledge, extending students the opportunity to flourish without the heavy weight of overwhelming tuition costs, empowering them for a brighter, more promising future.

Our Eligibility Criteria

Explore UONC’s Eligibility Criteria for Students Worldwide

Eligibility Criteria

Bachelor's degree, or equiv. International Education

Credit Hours

6

Course Duration

3 Months (Self-Paced) Program

Courses Offered

01

Mastering Engineering Basics and Technical Excellence

At the College of Engineering, our curriculum is structured to lay a solid groundwork in engineering basics and technical expertise. Students commence their journey by cultivating a profound grasp of fundamental engineering disciplines and acquiring practical skills in creative problem-solving and innovation. This technical foundation equips our students for a prosperous career in the ever-evolving realm of engineering.

Practical Implementations and Collaborations with Industry

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.

Addressing Global Engineering Complexities and International Partnerships

At the University of North Carolina's College of Engineering, our steadfast commitment lies in tackling worldwide engineering complexities and nurturing international partnerships. Our curriculum delves into global engineering methodologies and inspires students to partake in projects with a far-reaching impact. Moreover, we provide study abroad programs and actively collaborate with engineers from across the globe, equipping our students with a comprehensive global perspective on the field of engineering.

Circuit Analysis (ELE-212)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Introduction
     Current And Voltage
     Resistance
     Ohms Law, Power, And Energy
  In Section 2 of this course you will cover these topics:
     Series Dc Circuits
     Parallel Dc Circuits
     Series-Parallel Circuits
     Methods Of Analysis And Selected Topics (Dc)
  In Section 3 of this course you will cover these topics:
     Network Theorems
     Capacitors
     Inductors
     Sinusoidal Alternating Waveforms
  In Section 4 of this course you will cover these topics:
     The Basic Elements And Phasors
     Series And Parallel Ac Circuits
     Series-Parallel Ac Networks And The Power Triangle
     Ac Methods Of Analysis And Theorems
  In Section 5 of this course you will cover these topics:
     Resonance And Filters
     Transformers And Three-Phase Systems
     Pulse Waveforms And The Nonsinusoidal Response

Control System Design (ELE-338)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     The Excitement Of Control Engineering
     Introduction To The Principles Of Feedback
     Modeling
     Continuous-Time Signals And Systems
     Analysis Of Siso Control Loops
  In Section 2 of this course you will cover these topics:
     Classical Pid Control
     Synthesis Of Siso Controllers
     Fundamental Limitations In Siso Control
     Frequency-Domain Design Limitations
     Architectural Issues In Siso Control
  In Section 3 of this course you will cover these topics:
     Dealing With Constraints
     Models For Sampled-Data Systems
     Digital Control
     Hybrid Control
     Siso Controller Parameterizations
  In Section 4 of this course you will cover these topics:
     Control Design Based On Optimization
     Synthesis Via State Space Methods
     Introduction To Nonlinear Control
     Analysis Of Mimo Control Loops
     Exploiting Siso Techniques In Mimo Control
  In Section 5 of this course you will cover these topics:
     Design Via Optimal Control Techniques
     Model Predictive Control
     Fundamental Limitations In Mimo Control
     Mimo Controller Parameterizations
     Decoupling

Electrical Engineering Design (ELE-658)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Engineering Design
     Project Implementation
  In Section 2 of this course you will cover these topics:
     Design Guidelines And Implementation
     Project Communication
  In Section 3 of this course you will cover these topics:
     Digital Module
     Analog Module
  In Section 4 of this course you will cover these topics:
     Electromagnetics Module
     Feedback Control Module
  In Section 5 of this course you will cover these topics:
     Communications Module
     Power Module

Advanced Semi-Conductors (ELE-808)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Basic Semiconductor Properties
     Elements Of Quantum Mechanics
  In Section 2 of this course you will cover these topics:
     Energy Band Theory
  In Section 3 of this course you will cover these topics:
     Equilibrium Carrier Statistics
  In Section 4 of this course you will cover these topics:
     Recombination-Generation Processes
  In Section 5 of this course you will cover these topics:
     Carrier Transport

Communication Systems Design (ELE-817)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Introduction
     Frequency Domain Analysis
  In Section 2 of this course you will cover these topics:
     Digital Baseband Modulation Techniques
     Baseband Receiver Design (And Stochastic Mathematics, Part I)
  In Section 3 of this course you will cover these topics:
     Digital Bandpass Modulation And Demodulation Techniques (And Stochastic Mathematics, Part Ii)
     Analog Bandpass Modulation And Demodulation Techniques
  In Section 4 of this course you will cover these topics:
     Multiplexing Techniques
     Analog-To-Digital And Digital-To-Analog Conversion
  In Section 5 of this course you will cover these topics:
     Basics Of Information Theory, Data Compression, And Image Compression
     Basics Of Error Control Coding