*Year 1: Foundation Courses*

*Semester 1*

- *Mathematics I*: Calculus, Limits, Derivatives, Integration.

- *Physics I*: Mechanics, Thermodynamics, Waves.

- *Introduction to Electrical Engineering*: Basic concepts, units, circuits, and components.

- *Programming Fundamentals*: Python/C/Matlab for problem-solving.

- *Engineering Drawing/CAD*: Technical drawing tools (e.g., AutoCAD).

 

*Semester 2*

- *Mathematics II*: Multivariable Calculus, Differential Equations.

- *Physics II*: Electromagnetism, Optics, Modern Physics.

- *Chemistry for Engineers*: Materials science basics.

- *Digital Logic Design*: Boolean algebra, combinational/sequential circuits.

- *Workshop Practice*: Hands-on soldering, PCB design, tools.

 

*Year 2: Core Electrical Engineering*

*Semester 3*

- *Mathematics III*: Linear Algebra, Complex Analysis, Probability.

- *Electric Circuits Analysis*: Ohm’s Law, Kirchhoff’s Laws, AC/DC circuits.

- *Electronics I*: Diodes, Transistors, Op-amps, analogue circuits.

- *Electromagnetic Field Theory*: Maxwell’s equations, wave propagation.

- *Circuits Lab*: Simulations (SPICE), breadboard prototyping.

 

*Semester 4*

- *Signals and Systems*: Time/frequency domains, Fourier/Laplace transforms.

- *Electronics II*: MOSFETs, amplifiers, feedback systems.

- *Electrical Machines*: Transformers, DC/AC motors, generators.

- *Numerical Methods*: Algorithms for engineering problems.

- *Electronics Lab*: Oscilloscopes, signal generators, PCB fabrication.

 

*Year 3: Intermediate & Specialization*

*Semester 5*

- *Power Systems*: Generation, transmission, distribution, load flow.

- *Control Systems*: PID controllers, stability, state-space analysis.

- *Digital Signal Processing*: Sampling, filters, FFT, Z-transform.

- *Microprocessors & Microcontrollers*: 8051/ARM architecture, embedded systems.

- *Power Lab*: Transformer testing, motor control.

 

*Semester 6*

- *Communication Systems*: Modulation (AM/FM), Shannon’s theorem.

- *Power Electronics*: Converters, inverters, drives.

- *Renewable Energy Systems*: Solar, wind, grid integration.

- *Engineering Ethics & Professional Practice*.

- *Project I*: Intermediate design project (e.g., IoT-based system).

 

*Year 4: Advanced Topics & Capstone*

*Semester 7*

- *Elective 1*: Choose from AI in EE, VLSI, Robotics, IoT, etc.

- *Elective 2*: Advanced topics like FPGA design, RF Engineering.

- *High Voltage Engineering*: Insulation, breakdown mechanisms.

- *Industrial Automation*: PLCs, SCADA systems.

- *Project II*: Advanced group project (e.g., smart grid prototype).

 

*Semester 8*

- *Capstone Project*: Year-long thesis/project (e.g., drone control system).

- *Internship/Industrial Training*: Practical industry experience.

- *Elective 3*: Nanotechnology, Biomedical Instrumentation, etc.

- *Elective 4*: Cybersecurity for Power Systems, Machine Learning.

 

*Key Labs & Practical Work*

- *Circuits & Electronics Lab*

- *Power Systems & Machines Lab*

- *Digital Signal Processing Lab*

- *Microcontroller/Embedded Systems Lab*

- *Renewable Energy Lab*

 

*Common Electives*

- *VLSI Design*

- *Artificial Intelligence for Engineers*

- *Internet of Things (IoT)*

- *Robotics & Automation*

- *Optical Communication*

- *Electric Vehicle Technology*

 

*Additional Requirements*

- *General Education Courses*: Communication, Humanities, Social Sciences.

- *Mathematics Continuation*: Probability, Statistics, Numerical Methods.

- *Soft Skills*: Technical writing, presentations, teamwork.

 

*Final Year Project Example Topics*

1. Solar-powered smart irrigation system.

2. Home automation using IoT.

3. Design of a wireless charging system.

4. AI-based fault detection in power grids.