Bridging Science, Technology and Practice
Apply Fundamental Electrical Laws
Concretely implement Ohm's law, Kirchhoff's laws, and concepts of voltage, current, and resistance in real circuits.
Discover Digital Logic and Automated Systems
Understand the operation of logic gates, sensors, and sequential circuits to approach algorithmic thinking.
Introduction to Embedded Programming
Program simple behaviors on electronic boards (Arduino type), and bring interactive projects to life.
Develop Cross-Cutting Skills Through Projects
Promote experimentation, teamwork, and concrete problem-solving through functional and documented assemblies.
A PomeLabs + Connect implementation example :
First RC Circuit
This is a basic yet powerful circuit in electronics, enabling extensive experimentation with instruments and oscilloscopes, while providing a solid understanding of signals and waveforms.
A PomeLabs + Connect implementation example :
Traffic Light Logic Circuit
This circuit allows students to expand on digital circuit basics by creating a real-world example. The RGB LED enhances the exercise by enabling color changes, providing a practical introduction to RGB coloring and its applications.
Recommended Connect Modules
These modules are recommended for your institution.
| Name | Description | Action |
|---|---|---|
| Master Module | Controls and powers the circuit. Interfaces with the app to manage connected modules. | Learn more, Master Module |
| Probe | Measures voltage at any point in the circuit for diagnostics or visualization. | Learn more, Probe |
| Node Multiplier | Allows parallel branching by duplicating signal or power paths. | Learn more, Node Multiplier |
| Push Button | Opens or closes a circuit momentarily when pressed. Used to control signal flow manually. | Learn more, Push Button |
| Slide Switch - Voltage Source | Provides a toggled voltage source. Useful for logic state control or input simulation. | Learn more, Slide Switch - Voltage Source |
| RGB LED | An LED that emits red, green, and blue light to produce various colors. | Learn more, RGB LED |
| Not Gate | Inverts the input signal. Outputs the logical opposite of the input. | Learn more, Not Gate |
| And Gate | Outputs high only when all inputs are high. | Learn more, And Gate |
| Or Gate | Outputs high when at least one input is high. | Learn more, Or Gate |
| Xnor Gate | Outputs high when inputs are equal (logical XNOR). | Learn more, Xnor Gate |
| Resistor | Limits current flow and drops voltage in circuits. | Learn more, Resistor |
| Capacitor | Stores and releases electrical energy in the form of an electric field. | Learn more, Capacitor |
| Speaker | Converts electrical signals into sound. | Learn more, Speaker |
This list is not exhaustive and represents suggested themes and modules that we think are relevant for your institution.
Project Examples
Discover practical applications and project ideas for secondary education.
Electronics
Circuit Analysis
Learn about circuit analysis, Ohm's law and Kirchhoff's laws and apply them to real circuits.
MCU
C & Arduino Programming
Create smart systems with logic gates and sensors, enhancing real-world applications through programming.
Electronics
Kirchhoff's Laws
Learn, observe and apply Kirchhoff's laws to real circuits.
Measurements
Signal Visualization
Visualize electrical signals in real-time with the Probe modules, make measurements and analyze waveforms.
Book a demo
Book your personalized demo today and see how our integrated platform can transform your educational approach.