For Schools

A New Approach to Teaching
Born in the Classroom

ELAB hands-on program for schools: From circuit to code, step by step. A documented training project, aligned with the PTOF and National Guidelines.

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3

Progressive Kits

38

Total Chapters

2+

Years of In-Class Testing

90+

Practical Experiments

The Problem in Class

Too Much Choice, Too Little Instructional Coherence

The market offers numerous electronic kits, often generic or imported, but none designed for the reality of Italian middle schools.

STEM Theoretical Only

Little practical work. STEM subjects are often taught without practical experiments.

Limited Time

Teachers don't have time to prepare laboratory activities from scratch every week.

Non-Specialist Teachers

Not all teachers have specific skills in electronics or coding.

Distracted Kids

Difficulty in engaging and keeping children exposed to new technologies interested.

Schools don't need more components, but a coherent and guided path.

The Solution

Kit + Manuals + Support Software

If it's easy to teach, it's easy to learn.

ELAB offers everything needed to bring electronics into the classroom without complications. An integrated system that combines physical components, structured manuals, and digital support tools.

  • Ready-to-use manual – clear texts and instructions in Italian
  • Quick preparation – lessons organized in just a few minutes
  • Guided path – step-by-step from the first to the third year
  • Safe and accessible – no advanced skills required

Hands-on

We learn by building. Every session is a hands-on experience.

Progressive

From basic circuitry to digital control, year after year.

Supported

Digital guide for teachers and students, always available.

Born into Class

Designed in the Classroom. Not Just in the Lab.

Built side-by-side with teachers and students for over two years. ELAB is not a kit adapted to schools: it is a kit born in schools.

Real-World Experimentation in the Classroom

  • Direct testing during 45–60 minute curricular lessons
  • Validation of actual teaching times
  • Optimization of truly useful components in the classroom
  • Simplification of instructions after concrete feedback

Benefits for Schools

  • Immediate adoptability – no learning curve
  • Reduced complexity – only what you really need
  • Real alignment with teachers' needs
  • Activities calibrated to students' ages (10–14 years)

Ministerial Alignment

National Guidelines and STEM Guidelines

ELAB translates regulatory requirements into concrete operational activities, connecting multiple disciplines.

Key Competencies Developed

  • Computational thinking and problem-solving
  • Scientific method: hypothesis → experiment → measurement → verification
  • Technological and digital skills
  • Collaborative work and design

Disciplinary Connections

  • Technology – circuits, energy, technical systems
  • Mathematics – proportionality, measurement, variables
  • Science – physical phenomena (current, voltage, resistance)

In Class

Motivated Students, Engaged Class

Active learning that increases participation and motivation. Each session is a hands-on experience.

Practical Lessons

Every session is a concrete experience. You learn by doing, not just by listening.

Learning Through Play

Experiments that teach complex concepts through fun and curiosity.

Work as a Team

Collaboration and idea sharing. Social skills that grow alongside technical ones.

Real-world Problem Solving

Transferable skills in daily life. Diagnosis, analysis, and resolution of real-world problems.

Educational Structure

A Typical Lesson: 60 Minutes

Each module is tailored to real school timings. Active and verifiable learning in every session.

1
5-10 min

Concept Introduction

The lecturer introduces the topic of the lesson using the projected textbook. Connection with the previous lesson and objectives for the session.

2
15–20 min

Circuit Assembly

Students build the circuit by following the step-by-step instructions. They work in
teams of 3-4 students per kit.

3
15 min

Measure and Verify

Circuit testing, measurements using the included instruments, and comparison of results with
theoretical predictions.

4
10 min

Discussion and Improvement

Error analysis, variant proposals and improvements. Development of critical thinking
and debugging skills.

5
5 min

Final Summary and Reflection

Recap of concepts learned, connection to the real world, and preview of the next
lesson.

Digital Tools

Support Software

More time for teaching, less time for solving technical problems.

ELAB software supports teachers and students throughout the entire process, offering smart tools that simplify lesson preparation and delivery.

AI Assistant
Smart real-time support for teachers and students

Circuit Design
Intuitive and visual circuit design engine

Projectable Manual
Visual content directly in the classroom for the teacher

Immediate Help
Troubleshooting and common error checklists in real-time

Beyond the Kit

The Complete ELAB Ecosystem

Not just components: an integrated system that supports the school over time.

Cooperation and Teamwork

Collaborative activities, distributed roles, and the growth of social and technical skills.

Reusable Components

Reuse over the years, waste reduction, sustainable investment. Kits are long-lasting.

Integrated Spare Parts

Spare parts box for the teacher. Continuity of lessons guaranteed without interruptions.

Free Community

Teacher comparison, shared projects, tutorials, and collective growth of the ELAB network.

Security

Classroom Safety and Management

Designed for safe use by children aged 10 and over, without specialist technical supervision.

Security Standards

  • Low voltage – battery or USB powered
  • No soldering required for any experiment
  • CE marking – compliant with European regulations
  • Simple procedures that are repeatable with common error checklists

Class Organization

  • 1 kit per 3–4 students – collaborative structure
  • 45–60 minute modules calibrated for real-world timings
  • Distributed roles within the team for maximum participation
  • Independent management – students follow the manual

Complete Support

From Funding Application to Final Event

ELAB is not just a kit: it is a documentable educational project that supports schools from start to finish.

Funding Support

We support schools in designing and drafting documents to access STEM calls for proposals.

  • Drafting technical content for STEM tenders
  • Integration of educational objectives consistent with ministerial guidelines
  • Budget definition for kits and laboratory
  • Structuring a documented multi-year pathway

The Concluding Project

A moment of pride for teachers and students, an opportunity to showcase the added value of STEM education.

  • Final project integrating three years of skills
  • Presentation event at school
  • External visibility and community sharing
  • Showcasing results with parents and stakeholders

How to Get Started

A Three-Year Journey, One Kit at a Time

Bringing ELAB to your school means initiating a structured, sustainable, and measurable program.

1

Introduction

Meeting with the Principal and teachers to illustrate the project and its potential.

2

Three-Year Course

Definition of the pathway consistent with the PTOF (Three-Year Educational Offer Plan) and the institute's STEM objectives.

3

Pilot Class

Activation of a pilot class to test the path and gather feedback.

4

Progressive Adoption

Planning for the progressive adoption of the kits in subsequent grades.

For the Manager

Key Questions for the School Principal

Answers to frequently asked questions from managers considering ELAB adoption.

1

Is it sustainable over time?

Yes. Reusable components, available spare parts, and a scalable three-year path.

2

Is it consistent with the PTOF (Three-Year Educational Offer Plan) and National Guidelines?

Fully aligned with STEM skills, design thinking, computational thinking, and the scientific method.

3

What is the impact on students?

Greater engagement, active learning, and development of technical and transversal skills.

4

Is it adoptable without excessive burden?

Structured path, ready-to-use manuals, and integrated digital support. No advanced skills required.

5

Is it safe for middle school?

Low-voltage activity, no soldering, CE marked. Controlled educational design.

6

What is the strategic value?

It strengthens the school's STEM identity and enhances its educational offer in a measurable and communicable way.

7

Can it be rolled out gradually?

Yes. Initial pilot class and progressive adoption in subsequent years.

8

Do you support access to funding?

We assist schools with the technical drafting of projects and structuring of pathways for STEM calls for proposals.

9

Is it measurable and communicable?

Final projects, technical documentation, and a concluding event highlight the results of the entire journey.

10

Why choose ELAB?

Because it's designed for the classroom, it's age-appropriate for students, and it eliminates the unnecessary complexity of generic kits.

Bring ELAB to Your School.
From Circuit to Code.

A complete three-year course, classroom-tested, aligned with the National Guidelines. Request a free demo for your school.

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CE Marking
STEM Grant Support
Tested 2+ Years in the Classroom
Made in Italy