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M.ENG – ELECTRICAL & ELECTRONICS ENGINEERING

The Master of Engineering in Electrical and Electronics Engineering program is designed to provide students with advanced knowledge and skills in electrical and electronics systems, preparing them for leadership roles in industries such as telecommunications, automation, energy, and embedded systems. The program focuses on developing expertise in circuit design, power systems, communications, control systems, and semiconductor technology, ensuring that graduates are capable of addressing the technological challenges of modern electrical and electronics engineering.

PROGRAMME  SEMESTRE   DURATION  CREDIT  PARTNER INSTITUTION  ACCREDITATION  
ELECTRICAL AND ELECTRONICS ENGINEERING  2 SMESTERS   2 YEARS  120  UNIVERSITY OF BUEA   

CORE OBJECTIVES

1. Develop a Strong Foundation in Electrical and Electronics Principles

  • – Circuit Design and Analysis : Teach students the fundamentals of designing and analyzing electrical circuits, including both analog and digital circuits, and ensuring proper functionality and performance.
  • – Electromagnetism and Signal Processing : Equip students with a deep understanding of electromagnetism, wave propagation, and signal processing techniques for various applications, such as wireless communications and RF systems.
  • – Electronic Devices and Components : Provide knowledge about the working principles of electronic devices like diodes, transistors, and integrated circuits (ICs), and their role in circuit design and operation.
  • – Power Systems and Distribution : Teach the principles of electric power generation, transmission, distribution, and the operation of electrical grids, focusing on the efficient delivery of energy.

 

2. Enhance Knowledge in Advanced Electrical and Electronics Technologies

  • – Control Systems : Introduce students to the design and implementation of control systems used in industrial automation, robotics, and process control, including feedback mechanisms and stability analysis.
  • – Power Electronics : Equip students with knowledge of power semiconductor devices, converters, inverters, and energy-efficient systems for applications in renewable energy and electric vehicles.
  • – Embedded Systems : Teach students how to design and implement embedded systems for real-time applications, focusing on microcontrollers, sensors, and actuators for robotics, automotive, and consumer electronics.
  • – Communication Systems : Provide students with advanced knowledge of modern communication systems, including wired and wireless communication, data transmission, modulation techniques, and network protocols.

 

3. Promote Expertise in Renewable Energy and Sustainable Technologies

  • – Renewable Energy Systems : Teach students the principles behind solar, wind, and hydroelectric power systems, with an emphasis on their integration into the existing electrical grid for sustainable energy generation.
  • – Energy Storage Systems : Equip students with knowledge of energy storage solutions such as batteries, supercapacitors, and other advanced storage technologies used in renewable energy applications.
  • – Smart Grids and Energy Management : Introduce the concepts of smart grids and energy management systems, focusing on advanced metering, demand response, and the integration of renewable energy into the grid.
  • – Sustainable Electronics : Teach students about low-power electronics, energy-efficient designs, and eco-friendly manufacturing processes that reduce the environmental impact of electrical and electronic devices.

 

4. Strengthen Analytical and Computational Skills

  • – Numerical Methods and Simulation : Provide students with the tools to model and simulate electrical and electronic systems using software tools (such as MATLAB, Simulink, and SPICE) for circuit analysis, control systems design, and power systems optimization.
  • – Signal Processing Algorithms : Teach students to develop and apply signal processing algorithms for real-time data analysis, noise filtering, and pattern recognition in communication and sensor systems.
  • – Finite Element Analysis (FEA) : Introduce students to FEA techniques for analyzing electromagnetic fields, thermal effects, and mechanical stresses in electrical systems and components.

 

5. Foster Research and Development in Electrical and Electronics Engineering

  • – Innovative Electrical Systems : Encourage students to engage in research projects focused on developing new technologies and applications for electrical systems, such as wireless power transfer, smart sensors, and artificial intelligence in electronics.
  • – Electronics for Medical Devices : Teach students how to design medical electronics, including diagnostic instruments, implantable devices, and healthcare monitoring systems.
  • – Advanced Semiconductor Technologies : Equip students with advanced knowledge of semiconductor physics, fabrication processes, and the design of integrated circuits (ICs) for applications in computing, telecommunications, and consumer electronics.
  • – Quantum Electronics and Photonics : Introduce students to the emerging field of quantum electronics, including quantum computing, quantum communication, and photonics, with a focus on research-driven innovations.

 

6. Develop Proficiency in Electrical and Electronics System Integration

  • – System Integration and Optimization : Teach students to design and optimize complex electrical and electronic systems, ensuring their efficient operation across various components, subsystems, and interfaces.
  • – Multidisciplinary Collaboration : Equip students with the skills to work in multidisciplinary teams, collaborating with experts from fields like mechanical engineering, software engineering, and materials science to deliver integrated solutions.
  • – IoT and Cyber-Physical Systems : Introduce students to the design and implementation of Internet of Things (IoT) devices and cyber-physical systems, focusing on system integration, communication protocols, and security considerations.

 

7. Prepare Students for Industry Leadership and Management

  • – Project Management : Provide students with the tools to manage engineering projects, including planning, resource allocation, risk management, and delivering solutions on time and within budget.
  • – Leadership in Engineering Teams : Teach students leadership skills to manage and lead engineering teams, ensuring effective collaboration and problem-solving across projects.
  • – Business and Entrepreneurship : Equip students with knowledge of business practices, marketing, and entrepreneurship in the engineering sector, helping them innovate and bring new products to market.

 

8. Enhance Communication and Collaboration Skills

  • – Effective Communication : Teach students to communicate complex engineering concepts clearly and effectively through technical reports, presentations, and professional discussions with non-technical stakeholders.
  • – Collaboration with Industry Partners : Encourage students to work with industry professionals, businesses, and government agencies to apply their engineering knowledge in real-world scenarios and contribute to technological advancements.
  • – Networking and Professional Development : Provide opportunities for students to network with industry professionals and attend conferences, seminars, and workshops to stay up to date with emerging trends in electrical and electronics engineering.

 

9. Encourage Lifelong Learning and Continuous Improvement

  • – Commitment to Lifelong Learning : Instill a mindset of continuous improvement, encouraging students to stay abreast of the latest trends, technologies, and standards in electrical and electronics engineering.
  • – Professional Development : Prepare students for professional certifications, such as Professional Engineer (PE), Certified Control Systems Technician (CCST), and other relevant industry certifications, to enhance their careers.
  • – Innovation and Adaptability : Encourage students to innovate and adapt to technological advancements in electronics, renewable energy, and automation, ensuring that they remain at the forefront of engineering practice.

CAREER OPPORTUNITIES

1. Electrical Engineer

  • – Design and Development : Design, develop, and maintain electrical systems for power generation, transmission, and distribution, ensuring reliable and efficient electrical services in industrial, commercial, and residential settings.

 

2. Electronics Engineer

  • – Design and Testing : Work on the design, development, and testing of electronic devices such as semiconductors, sensors, and embedded systems, with applications in telecommunications, consumer electronics, and healthcare.

 

3. Control Systems Engineer

  • – Control System Design : Design and implement control systems for industrial automation, robotics, and manufacturing processes, ensuring precise operation and performance through feedback mechanisms.

 

4. Power Systems Engineer

  • – Power Generation and Transmission : Focus on the generation, distribution, and transmission of electrical power, including the integration of renewable energy sources, grid optimization, and power quality management.

 

5. Embedded Systems Engineer

  • – System Design : Design embedded systems for a wide range of applications, including automotive, healthcare, and consumer electronics, ensuring the seamless integration of hardware and software.

 

6. Telecommunications Engineer

  • – Network and Equipment Design : Work on the design, development, and maintenance of telecommunications networks and equipment, including wireless and fiber-optic communications systems.

 

7. Renewable Energy Engineer

  • – Renewable Energy Systems : Focus on the development, design, and implementation of renewable energy systems, including solar, wind, and hydropower systems, ensuring sustainable and reliable energy production.

 

8. Semiconductor Engineer

  • – Semiconductor Design : Work in the design and fabrication of semiconductor devices, integrated circuits, and microchips, focusing on improving performance and miniaturization for a wide range of applications.

 

9. Automation Engineer

  • – Automation Systems : Design and implement automated systems for manufacturing, robotics, and process control, ensuring the efficient and accurate operation of complex industrial processes.

 

10. Electrical Project Manager

  • – Project Oversight : Oversee electrical engineering projects, ensuring the design, execution, and delivery of projects on time and within budget while meeting industry standards and regulations.

 

11. IoT Engineer

  • – IoT Systems Design : Specialize in the design and development of IoT devices and systems, focusing on sensors, connectivity, and data processing for smart cities, healthcare, and industrial applications.

 

12. R&D Engineer

  • – Research and Innovation : Work in research and development to create new electrical and electronic technologies, focusing on innovation, prototyping, and the testing of cutting-edge systems and devices.

 

CRITERES D'ADMISSION

PROGRAMME   LEVEL OF ADMISSION  STUDENT PROFILE  ADMISSION TEST  APPLICATION FILE  APPLICATION FEE 
ELECTRICAL AND ELECTRONICS ENGINEERING   All GCE A/L (with minimum 2 papers Without Religion), All Baccalaureat, or Equivalent  by Interview &  Entrance Exam (Maths, Physics, Chemistry, English) 
  • A hand written application addressed to the director 
  • a certified copy of birth certificate 
  • a certified copy of ordinary GCE level 
  • a certified copy of advanced level/result slip 
  • an A4 envelope carrying the candidate’s address 

 

 

30 000 F CFA 
  • All
  • NOS CERTIFICATIONS
  • PROGRAMMES EN ANGLAIS
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    • B.ENG - BACHELOR OF ENGINEERING
    • BD - BACHELOR DEGREE
    • M.ENG - MASTER OF ENGINEERING
    • M.SC - MASTER OF SCIENCE
    • B.SC - BACHELOR OF SCIENCE
    • B.AGR - BACHELOR OF AGRICULTURE
    • B.TECH - BACHELOR OF TECHNOLOGY
    • BBA - BACHELOR IN BUSINESS ADMINISTRATION
    • BMLS - BACHELOR OF MEDICAL LABORATORY SCIENCE
    • BMS - BACHELOR IN BIOMEDICAL SCIENCE
    • BNS - BACHELOR OF NURSING SCIENCE
    • BPT - BACHELOR OF PHYSIOTHERAPY
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    • DEC - DIPLOME D'ETUDE COLLEGIALLE
    • CP - CLASSES PREPARATOIRES
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    • LITECH - LICENCE TECHNOLOGIQUE
    • LST - LICENCE SCIENCES TECHNIQUES
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