Basic Electronics Learning System
The only electronics experience that takes you from understanding atoms to a working power supply, with a real oscilloscope, hands-on activities, and the theory that actually explains why it all works.
₹7999.00
Out of stock
Most electronics kits give you a breadboard and a "blink an LED" tutorial. This is not that.
The Basic Electronics Learning System is a structured, activity-first learning system built for anyone who wants to genuinely understand electronics, not just follow instructions until something lights up. Every concept is introduced through analogy, derived from first principles, and then immediately applied in a hands-on circuit you build yourself.
The system pairs a 590+ page illustrated handbook with a complete component set and a real digital storage oscilloscope. By the time you finish, you won't just know how resistors, capacitors, inductors, and diodes behave, you'll have measured them, seen their waveforms, and built working circuits around them.
This is the foundation that every electronics engineer, robotics builder, and maker needs, and almost nobody actually gets from standard coursework.
Class 11–12 students in Physics or Electronics streams who want to go deeper than the textbook
Engineering students (ECE, EEE, Instrumentation) in first or second year building their fundamentals
Hobbyists and makers who have been following tutorials but don't understand why things work
Science teachers and lab coordinators looking for a structured, self-contained lab experience
Anyone preparing for competitive exams with respect to electronics (GATE, JEE, university practicals)
The Handbook (Physical, 590+ pages)
Fully illustrated, activity-linked theory
Covers: Potential, Current, Resistance, Ohm's Law, Power & Energy, Capacitance, Signals, Inductance, Semiconductors, Diodes
Includes water-analogy explanations, derivations written for self-learners, historical context, and real-world applications
Digital Storage Oscilloscope (DSO)
Real instrument, not a toy simulation
Used across multiple activities to visualize RC charging, RL discharge, AC waveforms, filter behavior, rectifier outputs
Full oscilloscope usage guide included in the handbook
Complete Component Set Everything required for all 40+ activities, no additional purchases needed.
Component | Quantity |
|---|---|
Resistor Box | 1 |
Capacitor 100µF | 2 |
Capacitor 0.1µF | 4 |
Capacitor 1000µF | 2 |
Capacitor 220µF | 2 |
Inductor 100mH | 2 |
LDR | 1 |
Diode 1N4007 | 10 |
Zener Diode 5.1V 0.5W | 4 |
LEDs | 9 |
Potentiometer 10K | 1 |
Push Button | 8 |
SPDT Switch | 4 |
Breadboard | 1 |
Transformer 6-0-6 | 1 |
Battery 9V | 2 |
Battery 1.5V | 1 |
9V Battery Connector | 2 |
1.5V Battery Holder | 1 |
Alligator Clips | 3 |
Compass | 1 |
Wire Sripper | 1 |
Single Strand Wire | 1 |
Oscilloscope DSO 152 | 1 |
Multimeter | 1 |
Jumper Wires | 5 |
Certificate of Completion Submit activity videos via the included Google Form. Complete all activities and receive an official ORCA Robotics Certificate.
From resistor circuits and RC filters to rectifiers, clippers, clampers, Zener regulators, and logic gates. Every activity includes calculations, oscilloscope measurements, and expected results to verify against.
A few highlights:
Light Sensing Circuit with automatic ON/OFF
LED brightness control using a knob
Capacitor powering an LED without a battery
Live charging and discharging curves on the oscilloscope
Inductor spark effect using a reverse-biased LED
Measuring a transformer's output with an oscilloscope
Low pass and high pass filters, built and compared
AC waveform shaping using clipper circuits
Waveform shifting using a clamper circuit
AC to DC conversion using a bridge rectifier
Smooth DC output using a capacitor filter
Stable voltage output using a Zener regulator
Spike protection circuit for sensitive components
Complete DC power supply built from scratch
Logic gates built using only diodes and resistors
Do I need prior knowledge? No. The handbook starts from atomic structure and builds up from there.
Is the oscilloscope a real instrument? Yes. The same type used in electronics labs. Not a simulation.
Are all components included? Yes. You will need a mains socket for transformer activities.
Is this safe for students? Most activities run on 9V battery. Transformer activities are clearly marked and require adult supervision. You never work with mains voltage directly.
How do I get the certificate? Complete all activities, submit videos via the Google Form in the handbook, receive your ORCA Robotics Certificate of Completion.
Questions? Instagram: @orca.robotics | Email: info@orcarobotics.in