To develop skilled electrical engineers capable of designing, installing, maintaining, and troubleshooting electrical systems in residential, commercial, and industrial environments, with strong knowledge of power systems and safety compliance.

1. Analyse electrical systems and load requirements

2. Design electrical wiring and distribution systems

3. Evaluate system performance and faults

4. Apply electrical engineering principles in real projects

5. Develop safe and efficient electrical solutions

Module 1: Advanced Electrical Theory

• AC and DC circuit analysis
• Kirchhoff’s laws
• Power factor and efficiency
• Single-phase and three-phase systems
• Electrical energy concepts

Module 2: Electrical Installation Design

• Wiring system design
• Load estimation and demand factors
• Cable sizing calculations
• Lighting design basics
• Distribution board design

Module 3: Electrical Machines

• Transformers (construction & operation)
• Induction motors
• Synchronous machines
• Motor starting methods
• Speed control techniques

Module 4: Power Systems Engineering

• Power generation basics
• Transmission and distribution systems
• Substations overview
• Protection systems
• Circuit breakers and relays

Module 5: Electrical Protection Systems

• Overcurrent protection
• Earth leakage protection
• Short circuit analysis
• Grounding systems
• Surge protection devices

Module 6: Industrial Electrical Systems

• Industrial wiring systems
• Motor control centers (MCC)
• PLC basics introduction
• Automation systems overview
• Industrial safety standards

Module 7: Electrical Testing & Maintenance

• Testing instruments:
o Megger
o Clamp meter
• Preventive maintenance planning
• Fault diagnosis techniques
• Troubleshooting electrical systems

Module 8: Renewable Energy & Smart Systems

• Solar PV systems basics
• Wind energy overview
• Smart grids introduction
• Energy efficiency systems
• Electrical sustainability practices

Final Project