*Semester 1: Core Fundamentals* 

1. *Engineering Mathematics I* 

   - Differential equations, Laplace transforms, Fourier series, linear algebra. 

   - Textbook: "Advanced Engineering Mathematics" by Erwin Kreyszig 

 

2. *Circuit Analysis I* 

   - DC/AC circuits, network theorems (Thevenin, Norton), transient analysis. 

   - Lab: SPICE simulations, breadboard prototyping. 

 

3. *Electronic Devices and Circuits I* 

   - Diodes, BJTs, MOSFETs, operational amplifiers, rectifiers. 

   - Lab: Characterizing transistors, op-amp circuits. 

 

4. *Digital Electronics I* 

   - Logic gates, Boolean algebra, combinational circuits (multiplexers, encoders). 

   - Lab: FPGA/CPLD programming (VHDL/Verilog). 

 

5. *Technical Communication & Professional Ethics* 

   - Report writing, presentations, ethical standards in engineering. 

 

*Semester 2: Intermediate Applications* 

1. *Engineering Mathematics II* 

   - Probability, complex analysis, Z-transforms. 

 

2. *Circuit Analysis II* 

   - Laplace applications, filters (LPF/HPF), two-port networks. 

   - Lab: Active filter design. 

 

3. *Electronic Devices and Circuits II* 

   - FETs, power amplifiers, feedback systems, oscillators. 

   - Lab: Power supply design, oscillator circuits. 

 

4. *Digital Electronics II* 

   - Sequential circuits (flip-flops, counters), ADCs/DACs, memory systems. 

   - Lab: Microcontroller-based ADC projects. 

 

5. *Microcontrollers & Embedded Systems* 

   - 8051/ARM architecture, C/Assembly programming, sensor interfacing. 

   - Lab: Embedded projects (e.g., smart home systems). 

 

*Semester 3: Advanced Specialization & Projects* 

1. *Control Systems* 

   - Transfer functions, stability analysis (Nyquist/Bode), PID controllers. 

   - Lab: MATLAB/Simulink simulations. 

 

2. *Communication Engineering* 

   - AM/FM modulation, digital comms (PSK, QAM), wireless technologies. 

   - Lab: SDR (Software-Defined Radio) projects. 

 

3. *Power Electronics* 

   - Converters (AC-DC, DC-DC), inverters, motor drives. 

   - Lab: PWM-controlled converters. 

 

4. *VLSI Design* 

   - CMOS fabrication, Verilog/VHDL, FPGA synthesis. 

   - Lab: Cadence/Mentor Graphics tools. 

 

5. *Capstone Project* 

   - Industry-aligned project (e.g., IoT device, automation system). 

 

6. *Electives (Choose 1–2)* 

   - *IoT & Embedded Systems* 

   - *Robotics & Automation* 

   - *Renewable Energy Systems* 

   - *Biomedical Instrumentation* 

 

Assessment Methods* 

- *Theory Courses:* Exams (60%), assignments (20%), quizzes (20%). 

- *Labs:* Reports (40%), practical exams (40%), participation (20%). 

- *Capstone Project:* Prototype (50%), report (30%), presentation (20%). 

 

*Tools & Technologies* 

- *Software:* MATLAB, LTSPICE, AutoCAD, Keil μVision. 

- *Hardware:* Oscilloscopes, PLCs, Arduino/Raspberry Pi, RF test kits. 

 

*Learning Outcomes* 

- Design analogue/digital circuits and embedded systems. 

- Analyse control and communication systems. 

- Develop industry-ready projects with ethical considerations.