Principles of design including elements design, process and/or a system related to specific disciplines. Methodologies of solving engineering problems, data collection and interpretation. Current engineering technologies as related to disciplines. Design and analysis of power system generation, transmission and distribution. Analysis, design and implementation of various methods of control using analogue and digital control systems. Applications of industrial automated systems for electrical and control engineering. Understand the principle and design of power electronic and drive system. Formulate the problem, realizing the requirements and identifying the constraints. Know the modern renewable energy systems.
Bachelor Degree in Electrical and Control Engineering
Data will be available soon!
| content serial | Description |
|---|---|
| 1 | Definition of the magnetic terms, magnetic materials and the B-H curve. |
| 2 | Magnetic circuits principles. |
| 3 | Electromechanical Energy Conversion Principles. |
| 4 | Force and torque equations in magnetic circuits. |
| 5 | Construction of a DC machine. |
| 6 | EMF and torque equations in dc machines. |
| 7 | 7th week exam + Armature windings and commutator design. |
| 8 | Armature reaction and compensation techniques. |
| 9 | Self excitation of dc generators. |
| 10 | External characteristics of dc generators. |
| 11 | Kinds of losses and efficiency of dc machines. |
| 12 | 12th week exam + Torque and speed characteristics of dc motors. |
| 13 | Speed control of dc motors. |
| 14 | Starting of dc motors. |
| 15 | DC Motor electrical braking techniques. |
| 16 | Final Exam. |
Start your application
