ELECTRICAL ENGINEERING
Course Mentors
Instructional Advisors
Instructional advisors play a crucial role in educational institutions, particularly in guiding students through their academic journeys. Here’s a brief overview of their responsibilities and functions:
NGANDO PETER EWUMBUA
Post: HOW Electrical Engineering HOD Maintenance of Infrastructure and Equipment.
Ntumnyoh Jackson tanjong
Trainer in electrical department
Brief description of workshop
Electrical Engineering workshop Description
The Electrical Engineering Workshop is dedicated to providing trainees with a comprehensive training in the principles and applications of electrical engineering. This department focuses on both theoretical concepts and practical skills, preparing trainees for careers in various sectors, including power generation, telecommunications, electronics, and automation.
Key Features:
- Hands-On Training: Trainees engage in laboratory work and projects that simulate real-world engineering challenges.
- Industry-Relevant Curriculum: Courses are designed to align with current industry standards and technologies.
- Experienced Faculty: Instructors with extensive backgrounds in electrical engineering provide mentorship and guidance.
Courses Offered
Introduction to Electrical Engineering
- Overview of fundamental electrical engineering concepts.
- Introduction to electrical components and systems.
Circuit Analysis
- Techniques for analyzing electrical circuits using Ohm’s Law and Kirchhoff’s laws.
- Study of resistive, capacitive, and inductive circuits.
Electromagnetism
- Principles of electromagnetism and its applications in electrical engineering.
- Concepts of magnetic fields, inductance, and electromagnetic waves.
Digital Electronics
- Fundamentals of digital circuit design and logic systems.
- Study of binary systems, logic gates, and combinational circuits.
Electrical Machines and Drives
- Analysis of electric machines, including motors and generators.
- Understanding of drive systems and their applications in industrial settings.
Power Systems
- Principles of electrical power generation, transmission, and distribution.
- Study of power system components, including transformers and substations.
Control Systems
- Introduction to control theory and its applications in engineering.
- Analysis and design of feedback control systems.
Renewable Energy Systems
- Exploration of renewable energy technologies, including solar, wind, and hydroelectric power.
- Understanding the integration of renewable sources into existing power systems.
Instrumentation and Measurement
- Techniques for measuring electrical parameters and system performance.
- Study of sensors, transducers, and data acquisition systems.
Project Management in Engineering
- Principles of project management as applied to engineering projects.
- Focus on planning, execution, and evaluation of engineering initiatives.
