fischertechnik

Each class set includes 16 individual kits

Designed to accommodate around 30 students and one instructor

Introduces students to the fundamentals of gearboxes

Easy-to-assemble models ideal for classroom use

Online access to subject information and twelve hands-on experiments

Curious about how a cone gear, belt drive, or rack and pinion system functions? What effects do changes in gear ratios have? Students can explore these concepts and more with 15 engaging models and twelve hands-on experiments. These models are designed for quick and easy assembly in the classroom, complemented by ready-made tasks and solutions. A class set, containing 16 individual kits, is ideal for a group of approximately 30 students and one teacher.

Key learning objectives:

Basic types of gears

Gear ratio calculations

Rotation directions

Movement types in gear systems

Includes:

Gear wheels of various sizes

Bevel gears

Rack

Belt

Chain

Axles in different lengths

Building blocks and a 120x60mm base plate

Includes 273 components

8 easy-to-assemble models and 29 engaging experiments designed for secondary schools

Task sheets require 45 to 90 minutes to complete

Printed assembly instructions included

Ideal for group work with 2 to 4 students

Pneumatics has been studied since the third century B.C., showcasing the incredible versatility of compressed air. With 8 models and 29 experiments, the STEM Pneumatics kit introduces students to the core principles of pneumatics, demonstrating the operation of components like compressors, pneumatic valves, cylinders, and exhaust throttle valves. The kit also includes a comprehensive set of lesson plans for educators.

Key learning objectives:

Regulating movement speed by throttling exhaust air

Movement in multiple directions

Understanding different valve types and applications

Generating and distributing compressed air

Controlling pneumatic cylinders

Content:

1x compressor

1x manometer

2x double acting cylinder

2x single-acting cylinder

1x Pressure accumulator

2x Hand valve

1x Solenoid valve

1x minitaster

1x non-return shuttle valve

1x vacuum cup

2x Exhaust air throttle

1x battery holder

Engaging and educational introduction to electronics

Varying levels of difficulty to challenge different skill levels

Downloadable tasks available for enhanced learning

Dive into the fascinating world of electronics with our STEM Electronics set! This kit features ten models and 20 experiments that make learning about electronics both fun and informative. It guides students through the foundational principles of electronics, covering a wide range of topics. From simple circuits to more complex components like alternating flashing lights, this set offers a hands-on approach to understanding electronics. Comprehensive information and fully designed tasks with solutions are available through our e-Learning area.

Key learning objectives:

Understanding electrical circuits

Exploring resistors

Measuring current and voltage

Learning the principles of electric motors

Introduction to semiconductors (diodes, transistors)

Building and analyzing transistor circuits

This construction kit is packed with a variety of physical principles. The STEM Simple Machines set explores the foundations of various tools and machines, including levers, pulleys, and inclined planes. Students don’t just learn about complex mechanical systems like differential gears; they also get to study everyday objects in depth, sparking those 'aha' moments. For example, the mechanics behind a screw clamp or a pulley system are just a few of the fascinating mechanical functions students will explore. The kit also includes a spring balance, allowing students to measure and verify their experimental results.

Rope

Rope pulleys

Gears

Wheels

Axles

thread

Why is a triangle so important to the world of statics? Where do we encounter this everywhere in everyday life? These and other statics principles will be explored in a simple and clear way using fischertechnik's STEM Statics Advanced and practical model examples. We will explore topics such as compressive and tensile forces, and statics and forces in the equilibrium. We will be able to measure and check the results of the practical experiments with the help of the spring balance included in the kit. Pupils will have fun and discover the spirit of discovery as they internalise physical ways of thinking and working, and consolidate what they have learned in the long term.

Static components

Angle bracket

Struts

Spring balance

This educational construction set is perfect for aspiring machinists, technicians, and engineers. It provides answers to essential questions like how a drive shaft or manual transmission works, what a planetary gear is, and how to build a stable bridge. With 30 different models, this set covers key topics aligned with STEM curricula in physics, technology, and natural sciences, helping students build a solid foundation in mechanical and technical principles. Mechanics 2.0 is suitable for both guided and independent learning and is already widely used in schools.

Fischertechnik's innovative learning materials effectively teach technical concepts in a hands-on manner, making them accessible to secondary school and college students, as well as apprentices. The included didactic activity booklet, complete with teacher resources and instructional materials, provides display models, tasks, problem-solving exercises, handouts, and copy templates to streamline lesson preparation.

The set includes 500 fischertechnik parts, neatly organized in two sorting trays, all contained in a durable storage box. Clear assembly instructions guide the construction of 30 models, varying in difficulty.

Key learning objectives:

Understand the fundamentals of technology

Explore essential concepts in mechanics, statics, and dynamics

Learn how machines, motors, gears, steering systems, levers, and other components function

Construct stable structures like bridges, cranes, and blinds

Enhance skills in project management and collaborative group work

Content:

XS motor

Battery holder for 9V block

Ideal starter set for exploring computer science and robotics

Includes pre-installed motors and sensors within the model

User-friendly graphical programming interface with pre-built examples

Creating your own program and bringing a robot to life is an incredibly engaging and thrilling experience. In today’s tech-driven world, understanding this technology is vital. The fischertechnik Early Coding building set is the perfect tool to introduce young learners to the exciting field of IT and robotics. With pre-assembled components, children can dive into the world of coding and robotics in a fun and inspiring way. The set includes two motors and sensors fully integrated into a single block, making it easy to get started. Simply power on, connect via Bluetooth to a mobile device, and begin exploring! The user-friendly graphical programming interface, complete with pre-designed examples, is tailored to be age-appropriate, providing the ideal introduction to robotics. Students can also easily create their own programs using the provided software.

Functionality:

First Coding App

Bluetooth control

Learn programming

Looking for the fischertechnik STEM Coding Pro with Battery? CLICK HERE

Master the fundamentals of computer science and robotics

Scratch programming using an intuitive controller

Includes 147 components with a spare parts bag and easy sorting

Designed for 2 to 4 students per set

Product Description: How do traffic lights function? How can I program a simple drawing robot? Through models inspired by everyday life and progressively challenging tasks, children are introduced to essential digital skills, one step at a time. Using a user-friendly controller, practical sensors and actuators, and an intuitive Scratch app, students in primary school can solve familiar problems with ease. The colorful fischertechnik building blocks make setting up models quick and engaging, providing a hands-on, playful approach to learning that also fosters critical social and emotional skills.

Key Learning Objectives:

Grasp the basics of computer science and robotics

Engage in Scratch programming with easy-to-use controllers

Understand the functions of actuators and sensors

Enhance project management and teamwork skills

Develop emotional and social competencies

Content:

2x engine

2x gearbox

2x push button

2x light barriers LED

Phototransistor

NTC resistor

BT Smart Controller

Apply Information Technology and Robotics to real-world tasks

Learn block-based and text-based programming using an intuitive controller

Includes a spare parts bag and organized sorting system

Build 11 main models plus 4 additional models

Over 42 hours of educational content

Designed for 2-4 students

Through self-directed, app-guided learning, students are introduced to everyday tasks, beginning with simple exercises and gradually moving towards more complex circuit challenges. With the help of an easy-to-use controller, a variety of practical sensors and actuators, an intuitive programming app, and durable fischertechnik components, students can apply their knowledge to real-life situations. This hands-on, problem-solving learning method helps students develop technical, methodological, personal, and social skills at various levels. In today’s world, digital literacy and basic programming skills are crucial elements of secondary education. The STEM Coding Max kit provides this essential education through engaging, well-structured, real-world examples, ensuring students acquire these vital skills in an interactive and educational way.

Key Learning Objectives:

Applying Information Technology and Robotics to real-world tasks

Translating conceptual models into practical applications

Developing technical, methodological, personal, and social skills

Learning programming sequences and basic computational structures

Mastering block-based and text-based programming with an intuitive controller

Understanding and utilizing the functions and interconnections of actuators and sensors

Gaining pre-vocational orientation in mathematical, scientific, technical, and IT fields

Content:

RX Controller

Gesture sensor

Color sensor

Proximity sensor

Brightness sensor

2x XS Motor

3x LED

4x Mini Push Button

1x Reed switch

USB-C 9V Battery

Wheels, gears, threaded spindles, joints, and basic building blocks

Apply Information Technology and Robotics to real-world tasks

Learn block-based and text-based programming using an intuitive controller

Includes a spare parts bag and organized sorting system

Build 11 main models plus 4 additional models

Over 42 hours of educational content

Designed for 2-4 students

Through self-directed, app-guided learning, students are introduced to everyday tasks, beginning with simple exercises and gradually moving towards more complex circuit challenges. With the help of an easy-to-use controller, a variety of practical sensors and actuators, an intuitive programming app, and durable fischertechnik components, students can apply their knowledge to real-life situations. This hands-on, problem-solving learning method helps students develop technical, methodological, personal, and social skills at various levels. In today’s world, digital literacy and basic programming skills are crucial elements of secondary education. The STEM Coding Max kit provides this essential education through engaging, well-structured, real-world examples, ensuring students acquire these vital skills in an interactive and educational way.

Key Learning Objectives:

Applying Information Technology and Robotics to real-world tasks

Translating conceptual models into practical applications

Developing technical, methodological, personal, and social skills

Learning programming sequences and basic computational structures

Mastering block-based and text-based programming with an intuitive controller

Understanding and utilizing the functions and interconnections of actuators and sensors

Gaining pre-vocational orientation in mathematical, scientific, technical, and IT fields

Content:

RX Controller

Gesture sensor

Color sensor

Proximity sensor

Brightness sensor

2x XS Motor

3x LED

4x Mini Push Button

1x Reed switch

Wheels, gears, threaded spindles, joints, and basic building blocks

Introducing the Fischertechnik TXT Controller 4.0, packed with cutting-edge features for advanced robotics and automation projects. With 512 MB of RAM and 4 GB of eMMC storage, this controller is equipped with three servo outputs and a responsive capacitive touch display that supports gesture control. The enhanced WiFi and Bluetooth module provides versatile wireless connectivity for a wide range of applications.

The USB host port allows you to connect devices like the Fischertechnik USB camera or USB sticks. You can link up to eight additional controllers as extensions, making it perfect for complex setups. The compact, slim design (90x90x17.5mm) ensures seamless integration into your models.

Firmware updates are automatically downloaded via the cloud, ensuring your models remain up-to-date while preserving custom programs. The TXT 4.0 supports graphic programming with ROBO Pro Coding and Python, and it's compatible with various operating systems, including mobile devices.

Key Features:

Processor: Arm® dual Cortex®-A7 650 MHz + Cortex®-M4

Memory: 512 MB DDR3 RAM, 4 GB eMMC, expandable via Micro SD card

Display: 2.4” capacitive color touch display (320x240 pixels)

Inputs/Outputs: 8 universal inputs, 4 quick counter inputs, 4 motor outputs, 3 servo outputs

Wireless: Bluetooth 5.0, Dual-band WiFi (2.4 GHz & 5 GHz)

Connectivity: USB 2.0 client, USB-A host port, 2x 6-pole connector strips, I²C interface

Operating System: Linux-based, open-source, with automatic cloud-based firmware updates

Programming: ROBO Pro Coding (graphic and Python), REST interface, additional options available

Power the controller via a 9V DC port or Fischertechnik’s 2.5 mm ports, and expand your capabilities with the included USB and 6-pole expansion cables. The Fischertechnik TXT Controller 4.0 is your ultimate tool for innovative and scalable robotics projects.

Content:

TXT 4.0 Controller

Mini USB cable

Extension cable 6-pole

>Functionality:

Processor 650 MHz

Memory 512 MB RAM, 4 GB eMMC

Capacitive touch display

The Uno-F5-Shield is a fischertechnik adapter for the Arduino UNO microcontroller.

Successfully control and program fischertechnik models with fischertechnik sensors. All about fischertechnik sensors!

The LED Set is just the right solution for more light! The construction sets can now be upgraded even further with more luster and additional light effects. The set contains two Rainbow LED´s that flash in different colors and frequencies, together with two white LED´s and a battery holder.

The Fischertechnik Motor Set XS is designed for versatility with its compact size, making it easy to integrate into a variety of models. The set includes not only the motor but also essential components such as building blocks, gearbox parts, and toothed gears. Additionally, it features a safety battery holder with an integrated pole-reversing switch, suitable for a 9V block (battery not included).

Performance Specifications:

Voltage: 9V

Maximum Output: 1.0 W at 6000 RPM

The Fischertechnik Accu Set 220V features a microcontroller-controlled charger that ensures reliable protection against overcharging. With a maximum charging time of just two hours, this set includes a powerful NiMH rechargeable battery pack equipped with a fuse to safeguard against short circuits. Specifications: 8.4V, 1500mAh.

The Fischertechnik Power Set 220V provides a reliable power supply and a stepless power controller for all your Fischertechnik models. The power supply unit delivers a stable voltage of 9V/2.5A, while the power controller offers adjustable output up to 1A. An additional output provides 9V/1A max (not adjustable). Both outputs are short-circuit-proof and feature overload protection for enhanced safety.

The fischertechnik Control Set allows you to remotely control your models via the Bluetooth Control app on a smartphone or tablet. Utilizing Bluetooth low-energy technology, it offers a reliable range of up to 10 meters. The receiver includes three motor outputs and a servo output for precise steering and continuous speed control, and comes with one servo. The app can operate up to two receivers simultaneously, enabling diverse applications. Multiple control sets can be used in the same room without signal interference, thanks to advanced Bluetooth technology.

Content:

BT Control receiver

Servo / remote control via app (Android and IOS)

Functionality:

Remote control via Bluetooth

Micro Servo

Enhance your fischertechnik projects with the Arduino MEGA F5 Adapter, enabling smooth integration with the Arduino MEGA platform. Perfect for advanced robotics and automation projects, this adapter allows for greater control and innovation in STEM education and hobbyist builds.

Ideal for advanced robotics and programming projects, this adapter enhances your ability to create innovative and educational builds, perfect for STEM learning and hobbyist experimentation.

Included building ideas allow an easy introduction to first constructions

Building ideas for inspiration

Creative building

Colourful building blocks and figure for role play

This creative box, designed specifically for primary schools, encourages students to transform their imagination into tangible models. With the included building ideas, children can effortlessly assemble their first playful creations and explore them through role-play with the included figure.

Content:

Component set

Building ideas

Unlock the fascinating world of construction and data analysis with the fischertechnik Class Set Smart Physics. This comprehensive set offers an engaging and hands-on learning experience, perfectly suited for regular classroom lessons. With ten dynamic models, students can perform a wide range of physics experiments, exploring concepts from accelerated motion and harmonic oscillations to sound wave propagation and spectrum analysis. Integrated smartphones capture experimental data, which is then analysed in real-time using the Phyphox app, providing immediate, detailed insights. By blending theoretical knowledge with practical application, students develop a deep understanding of physical laws while enhancing their problem-solving and analytical skills. Accompanied by specially designed teaching materials, this set is ready for direct implementation in the classroom, making complex physics concepts accessible and exciting for all learners.

Perfect for Primary Level: Tailored for younger students, this set introduces essential mechanical and technical principles in an engaging way.

Comprehensive Classroom Kit: Each class set includes 16 individual sets, providing ample resources for a class of up to 30 students and one teacher.

Hands-On Learning: Students get to explore the mechanics behind everyday tools and machines, such as levers, pulleys, inclined planes, and more.

Interactive Experiments: The kit includes a spring balance for precise measurement, allowing students to verify the results of their experiments and deepen their understanding of physical laws.

Supportive Online Resources: Additional information and experiments related to the subject area are available online, providing extended learning opportunities beyond the classroom.

Unlock the world of physical laws with the STEM Simple Machines construction kit. This set covers fundamental concepts that underpin various tools and machines, including levers, pulleys, inclined planes, and more. Students will explore complex mechanical functions, such as differential gears, and gain insights into everyday objects, sparking those "eureka" moments. By examining models like screw clamps and pulleys in detail, learners can connect theory with practical applications. The included spring balance allows for precise measurement and verification of experiment results, making this kit an engaging and educational tool for hands-on learning.

Comprehensive Kit: Includes 268 components for building 9 models and conducting 28 experiments, specifically designed for secondary school students.

Efficient Learning: Task sheets are designed to be completed within 45 to 90 minutes.

Group-Friendly: Ideal for group work with 2 to 4 students per set.

Easy to Follow: Comes with printed assembly instructions for quick setup.

Explore the future of energy with the fischertechnik Class Set Renewable Energies. This set introduces students to the generation, storage, and utilization of electricity from renewable sources such as water, wind, solar power, and hydrogen. With 9 models and 28 hands-on experiments, students will learn how environmentally-friendly power is produced and understand the workings of different energy sources.

The set includes a fuel cell for hydrogen production, a multimeter for measuring current and voltage, and a voltage transformer for high voltage conversion. The versatile solar models can be used in various configurations, and the Gold Cap provides an efficient energy storage solution that demonstrates energy output. The fuel cell illustrates the process of splitting water into hydrogen and oxygen, offering a clear demonstration of future energy technologies.

This comprehensive kit helps students grasp the importance of renewable energy, equipping them with essential knowledge and skills. Teachers can easily integrate this set into their curriculum with the included lesson plans, making it a valuable resource for classroom learning.

Content:

2x solarmodul

1x solarmotor

1x goldcap

1x LED

1x Fuel Cell

1x voltage transformer

multimeter

Introduction to Robotics Programming: Ideal for beginners, especially at the primary level, to learn the basics of programming robots.

Primary Education Focus: Specifically designed for younger students to start their journey in coding and robotics.

Essential Requirements: Requires a micro

board, software, and a power supply (not included).

The fischertechnik Starter Set for micro:bit is the perfect introduction to programming for students in grade three and above. Designed to make the basics of coding with micro:bit single board computers accessible and easy to grasp, this comprehensive set includes everything needed to get started.

With this kit, students can build three stationary models—a pedestrian signal, hand dryer, and barrier—that are equipped with actuators and sensors. The set also features the new fischertechnik "micro:bit IO F5 adapter," which provides 8 outputs and 6 inputs, enabling control of these simple yet effective demonstration models using the micro:bit board.

To assist educators and students, a detailed pedagogical manual is available for free download from the fischertechnik eLearning portal. This manual includes setup instructions, a variety of engaging tasks, programming examples, and information on the micro:bit board, the fischertechnik IO adapter, and the Make Code software.

The set contains 90 parts, including an XS motor, buttons, a photo transistor, LED lights, and a printed building manual. It also comes with a durable storage box that includes a cover sheet and a parts list, ensuring that everything stays organized. Didactic materials and additional resources are readily accessible online to support the learning experience.

Key learning objectives:

Independently handling the first steps of robotic programming

Independently creating, changing, and applying short programs

Learning and applying basic robotic principles

Understanding the meaning and function of sensors and actuators

Getting familiar with topics like controlling, measurement and regulation

Working in groups and in different roles

Content:

micro:bit iO F5 adapter board

XS motor

2x light barrier LEDs

phototransistor

2x buttons