Electronics Innovation Program: 1-Year
Master Real Projects - Monthly Kits & Live Mentorship
Build 10 working circuits, learn coding and robotics, and grow your engineering skills through monthly guided classes.
20+ Years Experiance
Dr. Sreekumar
Course Overview
The 1-Year Electronics Innovation Program is a complete, mentor-guided pathway for students who want to keep learning all year and build a portfolio of real projects. Every month, learners receive a new circuit to build, starting from basic sensor automation and gradually moving to robotics, motor control, and simple IoT-style applications.
Students will design in KiCAD, assemble on OHB/PCB, and, in the later months, integrate microcontrollers (Arduino) to make smart systems. This is ideal for schools, makers, and young engineers who want continuous learning instead of a one-time workshop.
What You Will Learn?
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End-to-End PCB Design:
From schematic to layout, routing, Gerber generation, and assembling final hardware.
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10 Real Projects:
Build light automation, temperature control, water level alarm, plant watering, robotics, and a mini smart home.
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Coding & Integration:
Use Arduino to read sensors and control relays/motors in the later modules.
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Problem-Solving Mindset:
Learn how to select components, read datasheets, and make circuits useful in home, lab, or STEM competitions.
Requirements
No prior knowledge is mandatory. Students who finished the 3-Day or 1-Month course will find it even easier.
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Computer with KiCAD + Arduino IDE
Used for schematic design in the early months and coding in later months.
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Learning Time
12 Months · 2 Sessions / Month · 1 Hour Each (Total: 24 Guided Sessions)
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Monthly Hardware Kit
Sensors, ICs, motors, relays, and microcontroller boards are provided as per project.
Month-wise Project Roadmap
| Month | Project | Core Idea | Key Concepts |
|---|---|---|---|
| 1 | Smart Light | LDR + transistor switching | Light sensing, auto ON/OFF |
| 2 | Temperature-Controlled Fan | LM35 + LM358 | Analog sensing, comparator output |
| 3 | Water Level Alarm | Water probes + 555 timer | Threshold detection, buzzer drive |
| 4 | Sound-Activated Light | Electret mic + amplifier | Signal amplification, noise filtering |
| 5 | Soil Moisture Controller | Soil sensor + relay | Home / garden automation |
| 6 | IR Obstacle Detector | IR TX/RX + comparator | IR sensing for robots |
| 7 | Fire / Heat Alarm | Thermistor + buzzer | Safety circuits, sensor biasing |
| 8 | Light-Following Robot | 2 LDRs + motor driver | Robotics logic, differential drive |
| 9 | Line Follower Robot | IR array + motor control | Embedded decision making |
| 10 | Smart Home Mini System | Arduino + relay + sensors | Integration, IoT-style control |
Learning Goals
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Build a Portfolio:
Students complete 10 projects they can show to schools, fairs, and competitions.
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Move from Passive to Maker:
Learn to design solutions, not just watch videos.
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Foundation for Robotics / AI:
Final months prepare learners for your Robotics & AI courses.
This Course Includes
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Live Classes
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Skill Level
Advance -
Language
English
