🧠 Electronics Zero to Hero Course (Core Subjects Edition)

🟢 1. Beginner Level – Foundation of Electronics

Goal: Build strong basics in electricity, components, and simple circuits.

📘 Chapter 1: Basic Electrical Concepts

• Voltage, Current, Resistance, Power

• Ohm’s Law, Kirchhoff’s Laws

• ⚡ Experiment: LED with resistor – measure voltage & current

• ⚡ Experiment: Series vs Parallel circuits comparison

📘 Chapter 2: Electronic Components & Tools

• Resistors, Capacitors, Inductors, Diodes

• Transistors (BJT, FET), Switches

• Tools: Multimeter, Breadboard, Oscilloscope (intro)

• ⚡ Experiment: Transistor as a switch and amplifier

📘 Chapter 3: Safety & Circuit Building Basics

• Schematic Diagrams

• Power Supply Basics

• ⚡ Experiment: Build a basic regulated power supply (LM7805)

🟡 2. Intermediate Level – Core Concepts & Practical Applications

Goal: Dive deep into important electronics domains with real applications.

📘 Chapter 4: Analog Electronics

• Amplifiers, Op-Amps, Filters (LPF, HPF)

• Diode Circuits, Clipping, Clamping

• ⚡ Experiment: Build an op-amp based amplifier

• ⚡ Experiment: Design a low-pass filter

📘 Chapter 5: Digital Electronics

• Number Systems, Logic Gates

• Combinational & Sequential Logic

• Flip-Flops, Counters, Multiplexers

• ⚡ Experiment: Build logic gate circuits using ICs

• ⚡ Experiment: 4-bit binary counter circuit

📘 Chapter 6: Instrumentation & Measurements

• Transducers and Sensors

• Measurement of Electrical Quantities

• Signal Conditioning, ADC/DAC Basics

• ⚡ Experiment: Temperature measurement with thermistor circuit

• ⚡ Experiment: Display voltage level using bar graph (LEDs)

📘 Chapter 7: Wave Propagation & Electromagnetic Theory

• EM Waves, Maxwell’s Equations (Intro)

• Transmission Lines, Antenna Basics

• ⚡ Experiment: Coaxial cable signal loss testing

• ⚡ Experiment: Build a simple dipole antenna (theoretical & simulation)

🔴 3. Advanced Level – Specialization & Industry-Relevant Skills

Goal: Apply knowledge to solve complex real-world engineering problems.

📘 Chapter 8: Digital Signal Processing (DSP)

• Signals, Systems, Convolution

• Fourier Transform, Filters

• Sampling Theorem, Quantization

• ⚡ Experiment: Signal filtering using MATLAB/Scilab

• ⚡ Experiment: Frequency analysis of audio signals

📘 Chapter 9: Control Systems

• Open & Closed Loop Systems

• Transfer Functions, Block Diagrams

• Stability Analysis, Bode Plot

• ⚡ Experiment: Simulate control system using MATLAB

• ⚡ Experiment: Motor speed control (PID via simulation)

📘 Chapter 10: Power Electronics

• Rectifiers, Converters, Inverters

• Power Devices: SCR, MOSFET, IGBT

• ⚡ Experiment: Build a full-wave rectifier

• ⚡ Experiment: Create a buck converter circuit

📘 Chapter 11: Communication Systems

• AM, FM Modulation/Demodulation

• Digital Modulation: ASK, FSK, PSK

• Noise, Bandwidth, SNR

• ⚡ Experiment: AM modulator and demodulator circuit

• ⚡ Experiment: Simulate digital modulation using MATLAB

✅ Final Capstone Project Ideas (Theory + Simulation + Hardware)

• Analog and Digital Signal Processing Lab

• Instrumentation system for industrial parameters

• DC Motor Speed Control with PID (theory + simulation)

• RF Communication System using AM/FM principles

• Design a regulated DC Power Supply (Lab-level)