Getting started in electronics is not as difficult as you may think. With this bundle (book + kit of parts), you can explore and learn the most important electrical and electronics engineering concepts in a fun way by doing various experiments. You will learn electronics practically without getting into complex technical jargon and long calculations. As a result, you will be creating your own projects soon.
This kit contains the components required to build most of the detailed examples of the book on a breadboard and try them out for real.
The kit can, of course, also be used without the book for building other circuits and doing your own experiments.
Kit contents
1x 39 Ω, 1 W resistor
1x 47 Ω resistor
1x 180 Ω resistor
1x 330 Ω resistor
3x 1 kΩ resistor
1x 2.2 kΩ resistor
1x 3.9 kΩ resistor
1x 6.8 kΩ resistor
1x 10 kΩ resistor
1x 15 kΩ resistor
1x 22 kΩ resistor
1x 33 kΩ resistor
1x 47 kΩ resistor
1x 56 kΩ resistor
1x 82 kΩ resistor
1x 120 kΩ resistor
1x 680 kΩ resistor
2x 100 kΩ resistor
1x 10 kΩ trimmer
1x 10 kΩ linear potentiometer
1x 100 kΩ linear potentiometer
1x LDR
1x 1 nF ceramic capacitor
2x 10 nF ceramic capacitor
1x 100 nF ceramic capacitor
1x 1 µF, 25 V aluminium electrolytic capacitor
2x 10 µF, 25 V aluminium electrolytic capacitor
1x 100 µF, 25 V aluminium electrolytic capacitor
1x 470 µF, 25 V aluminium electrolytic capacitor
1x 1000 µF, 25 V aluminium electrolytic capacitor
1x RGB LED, Common-Cathode (CC)
1x 1N4148 small signal diode
1x 1N4733A 5.1 V, 1 W Zener diode
3x LED, red
2x BC337 NPN transistor
1x IRFZ44N N-channel MOSFET
2x NE555 timer
1x LM393 comparator
1x 74HCT08 quad AND gate
3x Tactile switch
2x SPDT switch
1x Relay, SPDT, 9 VDC
1x Active buzzer
1x Passive buzzer
50 cm Solid wire, 16 AWG, unjacketed
2x PP3 9 V battery clip
1x Breadboard
20x Jumper wire
This bundle contains:
Practical Electronics Crash Course Kit (valued at: €45)
Book: Practical Electronics Crash Course (normal price: €45)
The Arduino Student Kit is a hands-on, step-by-step remote learning tool for ages 11+: get started with the basics of electronics, programming, and coding at home. No prior knowledge or experience is necessary as the kit guides you through step by step. Educators can teach their class remotely using the kits, and parents can use the kit as a homeschool tool for their child to learn at their own pace. Everyone will gain confidence in programming and electronics with guided lessons and open experimentation.
Learn the basics of programming, coding and electronics including current, voltage, and digital logic. No prior knowledge or experience is necessary as the kit guides you through step by step.
You’ll get all the hardware and software you need for one person, making it ideal to use for remote teaching, homeschooling, and for self-learning. There are step-by-step lessons, exercises, and for a complete and in-depth experience, there’s also extra content including invention spotlights, concepts, and interesting facts about electronics, technology, and programming.
Lessons and projects can be paced according to individual abilities, allowing them to learn from home at their own level. The kit can also be integrated into different subjects such as physics, chemistry, and even history. In fact, there’s enough content for an entire semester.
How educators can use the kit for remote teaching
The online platform contains all the content you need to teach remotely: exclusive learning guidance content, tips for remote learning, nine 90-minute lessons, and two open-ended projects. Each lesson builds off the previous one, providing a further opportunity to apply the skills and concepts students have already learned. They also get a logbook to complete as they work through the lessons.
The beginning of each lesson provides an overview, estimated completion times, and learning objectives. Throughout each lesson, there are tips and information that will help to make the learning experience easier. Key answers and extension ideas are also provided.
How the kit helps parents homeschool their children
This is your hands-on, step-by-step remote learning tool that will help your child learn the basics of programming, coding, and electronics at home. As a parent, you don’t need any prior knowledge or experience as you are guided through step-by-step. The kit is linked directly into the curriculum so you can be confident that your children are learning what they should be, and it provides the opportunity for them to become confident in programming and electronics. You’ll also be helping them learn vital skills such as critical thinking and problem-solving.
Self-learning with the Arduino Student Kit
Students can use this kit to teach themselves the basics of electronics, programming, and coding. As all the lessons follow step-by-step instructions, it’s easy for them to work their way through and learn on their own. They can work at their own pace, have fun with all the real-world projects, and increase their confidence as they go. They don’t need any previous knowledge as everything is clearly explained, coding is pre-written, and there’s a vocabulary of concepts to refer to.
The Arduino Student Kit comes with several parts and components that will be used to build circuits while completing the lessons and projects throughout the course.
Included in the kit
Access code to exclusive online content including learning guidance notes, step-by-step lessons and extra materials such as resources, invention spotlights and a digital logbook with solutions.
1x Arduino Uno
1x USB cable
1x Board mounting base
1x Multimeter
1x 9 V battery snap
1x 9 V battery
20x LEDs (5x red, 5x green, 5x yellow & 5x blue )
5x Resistors 560 Ω
5x Resistors 220 Ω
1x Breadboard 400 points
1x Resistor 1 kΩ
1x Resistor 10 kΩ
1x Small Servo motor
2x Potentiometers 10 kΩ
2x Knob potentiometers
2x Capacitors 100 uF
Solid core jumper wires
5x Pushbuttons
1x Phototransistor
2x Resistors 4.7 kΩ
1x Jumper wire black
1x Jumper wire red
1x Temperature sensor
1x Piezo
1x Jumper wire female to male red
1x Jumper wire female to male black
3x Nuts and Bolts
Get started with microcontroller based electronics
This Arduino-compatible bundle contains the Motherboard, Digitiser, Sensor Array and RGB Matrix. With these 4 boards you have everything you need to build a clock, score counter, timer, task reminder, thermometer, humidity display, sound meter, light meter, clap trigger, colored bar graph display, animated alarm, and much more!
The Motherboard has a built in real time clock module that keeps time even when unplugged.
The Digitiser can display 4 digits or characters and includes 2 buttons and a potentiometer to let you control what’s being displayed, or the brightness of the display.
The Sensor Array can read temperature, relative humidity, sound and light, with an SD card slot for data recording.
The RGB Matrix has 16 RGB LEDs that are controlled through shift registers, so only use 3 or 4 pins of the Motherboard.
Motherboard
The Motherboard is an Arduino-compatible microcontroller breakout board designed around the ATmega328P. The board comes in a solder-it-yourself kit with all the components you need to get started with microcontroller based electronics. All other boards connect to this.
Based on the ATmega328P
Arduino compatible
On-Board RTC (Real Time Clock)
FTDI Header for easy programming
Bluetooth Header
Terminal Block Connections
Digitiser
The Digitiser is a versatile display and input board. It let’s you visualise your data. Show your sensor information, clock digits, or even keep score for your favourite card game. The Digitiser also includes some buttons and a knob to let you take control.
4x 7-Segment Displays
Uses 595 Shift Registers
2 Switches and a Potentiometer
4 colored 'Mode' LEDs
Chainable with other 595 Boards
Terminal Block Connections
Sensor Array
As the name suggests, the Sensor Array is an array of sensors. Measure temperature and relative humidity via the DHT11, light via the light dependant resistor, and sound via the microphone and amplifier circuit. Then you can log the data using the on-board SD card slot.
DHT11 Temp & Humidity Sensor
Microphone and Amplifier Circuit
Light Dependent Resistor
MicroSD Slot for Saving Data
Logic Level Converter Circuit
Terminal Block Connections
RGB Matrix
Add color to your project by controlling 16 red, 16 green and 16 blue LEDs with just 3 pins of your microcontroller. The RGB Matrix uses shift registers, a matrix and switching transistors, so there’s plenty to learn and explore.
4x4 (16) RGB LEDs
Uses 595 Shift Registers
Chainable with other 595 Boards
Transistor Switches
Terminal Block Connections
Downloads (Manuals)
Motherboard
Digitiser
Sensor Array
RGB Matrix
Temporary Delay in the Delivery of Unitree Robots
Like many other suppliers, we are currently experiencing delays in the delivery of Unitree robots. A shipment from our supplier is currently held in customs, which has unfortunately led to later-than-planned deliveries for previously placed orders. We are actively working with our supplier to resolve this issue and expect more clarity soon, but at this time, we cannot provide any guarantees.
Additionally, a new shipment is already on its way, though it will take some time to arrive. Since other suppliers are facing similar challenges, switching to a different provider is unlikely to result in a faster solution. Our top priority remains fulfilling existing orders.
If you have any questions or would like to update your order, please do not hesitate to contact our customer service team. We will keep you informed of any further developments.
Unitree Go2 series consists of quadruped robots for the research & development of autonomous systems in the fields of human-robot interaction (HRI), SLAM & transportation. Due to the four legs, as well as the 12DOF, this robot can handle a variety of different terrains. The Go2 comes with a perfected drive & power management system, which enables a speed (depending on the version) of up to 3.7 m/s or 11.88 km/h with an operating time of up to 4 hours. Furthermore, the motors have a torque of 45 N.m at the body/thighs and at the knees, which also allow jumps or backflips.
Features
Super Recognition System: 4D LIDAR L1
Max Running Speed: approx. 5 m/s
Peak Joint Torque: approx. 45 N.m
Wireless Module: WiFi 6/Bluetooth/4G
Ultra-long battery Endurance: approx. 2-4 h (long battery life measured in real life)
Intelligent Side-follow System: ISS 2.0
Specifications
Tracking module: Remote-controlled or automatic tracking
Front camera: Image tansmission Resolution 1280x720, FOV 120°, Ultra wide angle lens deliver rich clarity
Front lamp: Brightly lights the way ahead
4D LiDAR L1: 360°x90° omnidirectional ultra-wide-angle scanning allows automatic avoidance with small blind spot and stable operation
12 knee joint motors: Strong and powerful, Beautiful and simple, Brandy new visual experience
Intercom microphone: Effective communication with no scenario restrictions
Self-retracting strap: Easy to carry and load things
More stable, more powerful with advanced devices: 3D LiDAR, 4G ESIM Card, WiFi 6 with Dual-band, Bluetooth 5.2 for stable connection and remote control
Powerful Computing Core: Motion controller, High-performance ARM processor, Improved Al algorithm processor, External ORIN NX/NANO
Smart battery: Standard 8000 mAh battery, Long-endurance 15000 mAh battery, Protection from over-temp, overcharge and short-circuit
Speaker for music play: Listen to music as your pleasure
Unitree Go2 Variants
The Go2 impresses not only with its technical capabilities, but also with a modern and slim design that gives it a futuristic look and makes it a real eye-catcher. The Go2 Air is specially designed for demos and presentations. With its basic features, it offers a solid basis for demonstrating the movement capabilities and functionality of a four-legged robot. Important: The Go2 Air is delivered without a controller. This can be purchased optionally.
With a powerful 8-core high-performance CPU, the Pro and Edu offer impressive computing power required for complex tasks and demanding calculations. This enables faster and more efficient data processing and makes the Pro and Edu a reliable partner for your projects.
From the Edu version onwards, the Go2 is programmable and opens up endless possibilities for developing and researching your own robotics applications. The Go2 is also able to handle a step height of up to 14 cm. This makes it an ideal tool for research, education and entry into the world of robotics.
The Go2 Edu comes with a remote controller that gives you easy and intuitive control. You also get a docking station with impressive computing power of 100 TOPS, which is equipped with powerful AI algorithms and offers you technical support.
Go2 Edu is equipped with a powerful 15000 mAh battery that gives it an impressive runtime of up to 4 hours. This long operating time allows the robot to carry out longer exploration missions and complete demanding tasks.
Model Comparison
Air
Pro
Edu/Edu Plus
Dimensions (standing)
70 x 31 x 40 cm
70 x 31 x 40 cm
70 x 31 x 40 cm
Dimensions (crouching)
76 x 31 x 20 cm
76 x 31 x 20 cm
76 x 31 x 20 cm
Material
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Weight (with battery)
about 15 kg
about 15 kg
about 15 kg
Voltage
28~33.6 V
28~33.6 V
28~33.6 V
Peaking capacity
about 3000 W
about 3000 W
about 3000 W
Payload
≈7 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 12 kg)
Speed
0~2.5 m/s
0~3.5 m/s
0~3.7 m/s (MAX ~ 5 m/s)
Max Climb Drop Height
about 15 cm
about 16 cm
about 16 cm
Max Climb Angle
30°
40°
40°
Basic Computing Power
N/A
8-core High-performance CPU
8-core High-performance CPU
Aluminum knee joint motor
12 set
12 set
12 set
Intra-joint circuit (knee)
✓
✓
✓
Joint Heat Pipe Cooler
✓
✓
✓
Range of Motion
Body: −48~48°
Body: −48~48°
Body: −48~48°
Thigh: −200°~90°
Thigh: −200°~90°
Thigh: −200°~90°
Shank: −156°~−48°
Shank: −156°~−48°
Shank: −156°~−48°
Max Torque
N/A
about 45 N.m
about 45 N.m
Super-wide-angle 3D LiDAR
✓
✓
✓
Wireless Vector Positioning Tracking Module
N/A
✓
✓
HD Wide-angle Camera
✓
✓
✓
Foot-end force sensor
N/A
N/A
✓
Basic Action
✓
✓
✓
Auto-scaling strap
N/A
✓
N/A
Upgraded Intelligent OTA
✓
✓
✓
RTT 2.0 Image Transmission
✓
✓
✓
App Basic Remote Control
✓
✓
✓
App Data Viewing
✓
✓
✓
App Graphical Programme
✓
✓
✓
Front Lamp (3 W)
✓
✓
✓
WiFi 6 with Dual-band
✓
✓
✓
Bluetooth 5.2/4.2/2.1
✓
✓
✓
4G Module
N/A
CN/GB
CN/GB
Voice Function
N/A
✓
✓
Music Playback
N/A
✓
✓
ISS 2.0 Intelligent side-follow system
N/A
✓
✓
Intelligent detection and avoidance
✓
✓
✓
Secondary development
N/A
N/A
✓
Manual controller
Optional
Optional
✓
High computing power module
N/A
N/A
Edu: 40 TOPS computing power
Edu Plus: 100 TOPS computing power
NVIDIA Jetson Orin (optional)
Smart Battery
Standard (8000 mAh)
Standard (8000 mAh)
Long endurance (15000 mAh)
Battery Life
1-2 h
1-2 h
2-4 h
Charger
Standard (33.6 V, 3.5 A)
Standard (33.6 V, 3.5 A)
Fast charge (33.6 V, 9 A)
Included
1x Unitree Go2 Pro
1x Unitree Go2 Battery (8000 mAh)
Downloads
Documentation
iOS/Android apps
GitHub
World’s Most Popular ROS Platform TurtleBot is the most popular open source robot for education and research. The new generation TurtleBot3 is a small, low cost, fully programmable, ROS based mobile robot. It is intended to be used for education, research, hobby and product prototyping. Affordable Cost TurtleBot was developed to meet the cost-conscious needs of schools, laboratories and companies. TurtleBot3 is the most affordable robot among the SLAM-able mobile robots equipped with a 360° Laser Distance Sensor LDS-01. Small Size The dimension of TurtleBot3 Burger is only 138 x 178 x 192 mm (L x W x H). Its size is about 1/4 of the size of the predecessor. Imagine keeping TurtleBot3 in your backpack and develop your program and test it anywhere you go. ROS Standard The TurtleBot brand is managed by Open Robotics, which develops and maintains ROS. Nowadays, ROS has become the go-to platform for all the roboticists around the world. TurtleBot can be integrated with existing ROS-based robot components, but TurtleBot3 can be an affordable platform for whom want to get started learning ROS. Extensibility TurtleBot3 encourages users to customize its mechanical structure with some alternative options: open source embedded board (as a control board), computer and sensors. TurtleBot3 Burger is a two-wheeled differential drive type platform but it is able to be structurally and mechanically customized in many ways: Cars, Bikes, Trailers and so on. Extend your ideas beyond imagination with various SBC, sensors and motors on a scalable structure. Modular Actuator for Mobile Robot TurtleBot3 is able to get a precise spatial data by using 2 DYNAMIXEL’s in the wheel joints. DYNAMIXEL XM series can be operated by one of 6 operating modes (XL series: 4 operating modes): Velocity control mode for wheels, Torque control mode or Position control mode for joint, etc. DYNAMIXEL can be used even to make a mobile manipulator which is light but can be precisely controlled with velocity, torque and position control. DYNAMIXEL is a core component that makes TurtleBot3 perfect. It is easy to assemble, maintain, replace and reconfigure. Open Control Board for ROS The control board is open-sourced in hardware wise and in software wise for ROS communication. The open source control board OpenCR1.0 is powerful enough to control not only DYNAMIXEL’s but also ROBOTIS sensors that are frequently being used for basic recognition tasks in cost effective way. Various sensors such as Touch sensor, Infrared sensor, Color sensor and a handful more are available. The OpenCR1.0 has an IMU sensor inside the board so that it can enhance precise control for countless applications. The board has 3.3 V, 5 V, 12 V power supplies to reinforce the available computer device lineups. Strong Sensor Lineups TurtleBot3 Burger uses enhanced 360° LiDAR, 9-Axis Inertial Measurement Unit and precise encoder for your research and development. Open Source The hardware, firmware and software of TurtleBot3 are open source which means that users are welcomed to download, modify and share source codes. All components of TurtleBot3 are manufactured with injection molded plastic to achieve low cost, however, the 3D CAD data is also available for 3D printing. Specifications Maximum translational velocity 0.22 m/s Maximum rotational velocity 2.84 rad/s (162.72 deg/s) Maximum payload 15 kg Size (L x W x H) 138 x 178 x 192 mm Weight (+ SBC + Battery + Sensors) 1 kg Threshold of climbing 10 mm or lower Expected operating time 2h 30m Expected charging time 2h 30m SBC (Single Board Computers) Raspberry Pi 4 (2 GB RAM) MCU 32-bit ARM Cortex-M7 with FPU (216 MHz, 462 DMIPS) Actuator XL430-W250 LDS (Laser Distance Sensor) 360 Laser Distance Sensor LDS-01 or LDS-02
IMU Gyroscope 3 AxisAccelerometer 3 Axis Power connectors 3.3 V/800 mA5 V/4 A12 V/1 A Expansion pins GPIO 18 pinsArduino 32 pin Peripheral 3x UART, 1x CAN, 1x SPI, 1x I²C, 5x ADC, 4x 5-pin OLLO DYNAMIXEL ports 3x RS485, 3x TTL Audio Several programmable beep sequences Programmable LEDs 4x User LED Status LEDs 1x Board status LED1x Arduino LED1x Power LED Buttons and Switches 2x Push buttons, 1x Reset button, 2x Dip switch Battery Lithium polymer 11.1 V 1800 mAh / 19.98 Wh 5C PC connection USB Firmware upgrade via USB / via JTAG Power adapter (SMPS) Input: 100-240 VAC 50/60 Hz, 1.5 A @maxOutput: 12 VDC, 5 A Downloads ROS Robot Programming GitHub E-Manual Community
With this comprehensive complete set, you can now enter the fascinating world of electronics. In addition to an Oxocard Connect and a breadboard cartridge, it contains 96 electronic components with which you can build a variety of electronic circuits.
Features
Free and unlimited access to the nanopy.io editor with a variety of scripts that you can transfer to your Oxocard Connect at the touch of a button.
Electronics course with 15 experiments that show you step by step how to switch LEDs, connect a servo, generate acoustic signals with a piezo and much more.
Oxocard Connect
High quality microcontroller device with TFT screen, glass cover, joystick, USB-C, as well as revolutionary 16-pin cartridge slot.
The Oxocard Connect represents the next generation of small experimental computers. The universal cartridge slot allows ready-made or self-developed boards to be brought to life instantly by simply plugging them in. Each card comes with drivers and demo programs installed and automatically loaded and started when plugged in.
Breadboard Cartridge
With the Breadboard you can quickly plug in your own circuits. A plug-in board with 17 rows is available for this purpose. Connections: two analog inputs, five digital ports, I²C, SPI, GND/V3.3. access to the 5 V power source of the port. Red LEDs are attached to the digital pins. 5 V can also be injected to power the Oxocard Connect without USB.
Included
1x Oxocard Connect
1x Breadboard Cartridge
Electronic components
1x PIR-Sensor (Motion detector)
1x Thermistor 10 kΩ (Temperature sensor)
1x Photoresistor 10 kΩ (Light sensor)
1x Potentiometer
1x Mikroservo SG92R
1x Piezo (Acoustic signals)
3x LED (green, yellow, red)
2x Buttons
9x Resistances
75x Cables (angled) – various colors and lengths
The Theremin was the first music synthesizer. The Junior Theremin is our, smaller, version of that classic electronic musical instrument. As you move your hand towards and away from the wire aerial, the Theremin responds by changing the pitch of the note it is playing. It can play individual notes as well as varying the tone of a single note.
How do you use the theremin?
The wire aerial responds to the movement of your hand towards and away from it and changes the pitch of the note it plays, without actually being touched. Junior Theremin works in two modes – continuous and discrete. When you first connect the battery Junior Theremin is in continuous mode. Pressing both pushbuttons together switches between continuous and discrete modes. Discrete mode, as its name implies, plays individual or discrete notes rather than a continuously variable tone. Eight notes over a single octave are available. In discrete mode the two pushbuttons change the octave of the notes. The left-hand pushbutton (marked -) lowers the octave, and the right-hand pushbutton (marked +) raises the octave. The pushbuttons only change the octave so long as they are pressed. In continuous mode the pushbuttons have no effect.
Downloads
Manual
Unlock a world of interactive learning with the Science Kit R3's robust hardware and software. With the Arduino Nano RP2040 Connect, Arduino Science Carrier R3, and an impressive array of sensors at your disposal, you'll have everything you need to embark on an exhilarating educational journey. Meanwhile, the Science Journal app effortlessly bridges the gap between theory and practice, facilitating real-time data collection, recording, and interpretation.
The kit elevates the learning experience by nurturing an enhanced understanding of complex physics concepts through engaging hands-on experimentation. It promotes scientific literacy and hones critical thinking skills by providing real-world application scenarios. With its intuitive content guide, both teachers and students can navigate through scientific explorations with ease.
Features
Hands-on experimental learning: perform physical experiments, transforming abstract physics concepts into tangible and interactive experiences.
Real-time data collection & analysis: With the integration of the Science Journal app, the kit allows students to collect, record, and interpret real-time data with mobile devices, strengthening their data literacy and scientific inquiry skills.
Teacher and student-friendly design: Equipped with a preloaded program, the kit requires no prior knowledge of coding or electronics. It also features Bluetooth connectivity for easy data transmission from the Arduino board to the students' mobile devices.
Comprehensive sensor ecosystem: The kit comes with multiple sensors, providing a wide range of data collection possibilities and keeping it adaptable to evolving educational needs.
Free guided courses – Explore Physics: Includes an intuitive courses guide that assists teachers and students in using the kit, presenting and analyzing data, and evaluating experimental outcomes. These courses also help students effectively communicate their scientific discoveries.
Comprehensive teaching support: With its intuitive guide, the Arduino Science Kit R3 eases the instructional process for teachers. It not only instructs on kit usage, but also assists in data presentation, analysis, and evaluation, ensuring students communicate their scientific discoveries effectively.
Specifications
Hardware
Arduino Nano RP2040 Connect
Arduino Science Carrier R3
Embedded sensors:
Air quality, temperature, humidity & pressure
IMU: 6-axis linear accelerometer, gyroscope, and magnetometer
Proximity, ambient light, light color
Voltage or electric potential difference
Electrical current
Electrical resistance
Function generators to see and hear the effect of frequency, amplitude, and phase on a sound wave
Ambient sound intensity sensor
Ports
2x Grove analog inputs (for external temperature-probe sensor)
2x Grove I²C ports (for external distance & ping-echo sensor)
1x Battery JST connector
2x Output ports connected to lower power signal from function generators (future generation)
1x 3.3 V output port and Ground
2x speaker ports connected to function generators
Other
50 cm double-ended cable (blue): crocodile clips one end, banana plug the other
20 cm double-ended cable (black): crocodile clips one end, banana plug the other
20 cm double-ended cable (red): crocodile clips one end, banana plug the other
VELCRO strips
Silicon stands
External temperature probe sensor
Ultrasonic distance sensor
Grove cable 4-pin housing with lock x2 (L=200 mm)
USB-C Cable
50 cm double-ended cable (yellow): crocodile clips one end, banana plug the other
2x Speakers
Cable for battery holder with JST connector
Battery holder for four 1V5 AA batteries
When playing a board game, do you find it annoying when you push away all the pawns with the dice? Or when friends try to cheat by manipulating the dice? With this soldering kit, this is a thing of the past. Instead of pressing a button, you activate this microprocessor-controlled dice by shaking. The 7 flashing LEDs run out slowly and the final combination is displayed flashing. The kit works with one CR2025 or one CR2032 button cell (not included).
Downloads
Manual
Valentine's Hearts, 28 blinking LEDs, romantic LED lighting Valentine's Hearts – 28 blinking LEDs for a romantic atmosphere. The perfect Valentine's gift to express your love. Battery-powered and portable, ideal for Valentine's Day.
Downloads
Manual
This is an add-on kit for the Seeed Studio Grove Beginner Kit for Arduino.
Applications
Suitable for Arduino beginners
Suitable for infrared control and motion detect
Suitable for getting started with open-source hardware and Arduino coding
Included
1x Grove Water Atomization
1x Grove Mini Fan
1x Grove Servo
1x Grove Ultrasonic Distance Sensor
1x Grove Infrared Receiver
1x Grove Mini PIR Motion Sensor
1x Grove Green Wrapper
1x Grove Blue Wrapper
5x Grove Cable
1x Infrared Remote Control Key
1x Ultrasonic Sensor Bracket Set
1x Motor Bracket Set
1x Servo Base
The Christmas tree with flashing LEDs takes the coziness of Christmas to a new level! With 16 flashing LEDs, this green Christmas tree creates a warm atmosphere. With very low power consumption and the option to be powered by a 9-volt battery (not included), this Christmas decoration is easy to use.
Enjoy the holidays with this atmospheric addition to your decoration collection.
Downloads
Manual
With a capacity of 15,000 mAh, the Unitree Go2 battery provides a robust power source that enables your robot to complete tasks with ease. Whether for complex exploration, research projects, or fun excursions, this powerful battery delivers the energy your robot needs.
The runtime of the Unitree Go2 battery varies depending on the application and usage. Based on the functions and activities employed, the battery can offer between 2 to 4 hours of operation. This flexibility allows you to customize the robot as needed, enabling longer exploration missions or more extensive projects.
The Unitree Go2 battery is a reliable companion for your robotics adventures. With its impressive capacity and adaptable runtime, it ensures your robot performs powerfully and with endurance, without frequent recharging.
Whether you need the Unitree Go2 battery as a replacement or an upgrade for your robot, this powerful energy storage solution provides the perfect balance of performance and reliability.
Specifications
Rated voltage: DC 28.8 V
Limited charging voltage: DC 33.6 V
Charging current: 9 A
Rated capacity: 15,000 mAh, 432 Wh
Standard: IS 16046 (Part 2) / IEC 62133-2
Self-developed battery management system (BMS)
Dimensions: 120 x 80 x 182 mm
Functions:
Power indicator
Self-discharge protection of battery storage
Equilibrium charge protection
Overcharge protection
Discharge protection
Short circuit protection
Battery charge detection protection
Temporary Delay in the Delivery of Unitree Robots
Like many other suppliers, we are currently experiencing delays in the delivery of Unitree robots. A shipment from our supplier is currently held in customs, which has unfortunately led to later-than-planned deliveries for previously placed orders. We are actively working with our supplier to resolve this issue and expect more clarity soon, but at this time, we cannot provide any guarantees.
Additionally, a new shipment is already on its way, though it will take some time to arrive. Since other suppliers are facing similar challenges, switching to a different provider is unlikely to result in a faster solution. Our top priority remains fulfilling existing orders.
If you have any questions or would like to update your order, please do not hesitate to contact our customer service team. We will keep you informed of any further developments.
Unitree Go2 series consists of quadruped robots for the research & development of autonomous systems in the fields of human-robot interaction (HRI), SLAM & transportation. Due to the four legs, as well as the 12DOF, this robot can handle a variety of different terrains. The Go2 comes with a perfected drive & power management system, which enables a speed (depending on the version) of up to 3.7 m/s or 11.88 km/h with an operating time of up to 4 hours. Furthermore, the motors have a torque of 45 N.m at the body/thighs and at the knees, which also allow jumps or backflips.
Features
Super Recognition System: 4D LIDAR L1
Max Running Speed: approx. 5 m/s
Peak Joint Torque: approx. 45 N.m
Wireless Module: WiFi 6/Bluetooth/4G
Ultra-long battery Endurance: approx. 2-4 h (long battery life measured in real life)
Intelligent Side-follow System: ISS 2.0
Specifications
Tracking module: Remote-controlled or automatic tracking
Front camera: Image tansmission Resolution 1280x720, FOV 120°, Ultra wide angle lens deliver rich clarity
Front lamp: Brightly lights the way ahead
4D LiDAR L1: 360°x90° omnidirectional ultra-wide-angle scanning allows automatic avoidance with small blind spot and stable operation
12 knee joint motors: Strong and powerful, Beautiful and simple, Brandy new visual experience
Intercom microphone: Effective communication with no scenario restrictions
Self-retracting strap: Easy to carry and load things
More stable, more powerful with advanced devices: 3D LiDAR, 4G ESIM Card, WiFi 6 with Dual-band, Bluetooth 5.2 for stable connection and remote control
Powerful Computing Core: Motion controller, High-performance ARM processor, Improved Al algorithm processor, External ORIN NX/NANO
Smart battery: Standard 8000 mAh battery, Long-endurance 15000 mAh battery, Protection from over-temp, overcharge and short-circuit
Speaker for music play: Listen to music as your pleasure
Unitree Go2 Variants
The Go2 impresses not only with its technical capabilities, but also with a modern and slim design that gives it a futuristic look and makes it a real eye-catcher. The Go2 Air is specially designed for demos and presentations. With its basic features, it offers a solid basis for demonstrating the movement capabilities and functionality of a four-legged robot. Important: The Go2 Air is delivered without a controller. This can be purchased optionally.
With a powerful 8-core high-performance CPU, the Pro and Edu offer impressive computing power required for complex tasks and demanding calculations. This enables faster and more efficient data processing and makes the Pro and Edu a reliable partner for your projects.
From the Edu version onwards, the Go2 is programmable and opens up endless possibilities for developing and researching your own robotics applications. The Go2 is also able to handle a step height of up to 14 cm. This makes it an ideal tool for research, education and entry into the world of robotics.
The Go2 Edu comes with a remote controller that gives you easy and intuitive control. You also get a docking station with impressive computing power of 100 TOPS, which is equipped with powerful AI algorithms and offers you technical support.
Go2 Edu is equipped with a powerful 15000 mAh battery that gives it an impressive runtime of up to 4 hours. This long operating time allows the robot to carry out longer exploration missions and complete demanding tasks.
Model Comparison
Air
Pro
Edu/Edu Plus
Dimensions (standing)
70 x 31 x 40 cm
70 x 31 x 40 cm
70 x 31 x 40 cm
Dimensions (crouching)
76 x 31 x 20 cm
76 x 31 x 20 cm
76 x 31 x 20 cm
Material
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Weight (with battery)
about 15 kg
about 15 kg
about 15 kg
Voltage
28~33.6 V
28~33.6 V
28~33.6 V
Peaking capacity
about 3000 W
about 3000 W
about 3000 W
Payload
≈7 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 12 kg)
Speed
0~2.5 m/s
0~3.5 m/s
0~3.7 m/s (MAX ~ 5 m/s)
Max Climb Drop Height
about 15 cm
about 16 cm
about 16 cm
Max Climb Angle
30°
40°
40°
Basic Computing Power
N/A
8-core High-performance CPU
8-core High-performance CPU
Aluminum knee joint motor
12 set
12 set
12 set
Intra-joint circuit (knee)
✓
✓
✓
Joint Heat Pipe Cooler
✓
✓
✓
Range of Motion
Body: −48~48°
Body: −48~48°
Body: −48~48°
Thigh: −200°~90°
Thigh: −200°~90°
Thigh: −200°~90°
Shank: −156°~−48°
Shank: −156°~−48°
Shank: −156°~−48°
Max Torque
N/A
about 45 N.m
about 45 N.m
Super-wide-angle 3D LiDAR
✓
✓
✓
Wireless Vector Positioning Tracking Module
N/A
✓
✓
HD Wide-angle Camera
✓
✓
✓
Foot-end force sensor
N/A
N/A
✓
Basic Action
✓
✓
✓
Auto-scaling strap
N/A
✓
N/A
Upgraded Intelligent OTA
✓
✓
✓
RTT 2.0 Image Transmission
✓
✓
✓
App Basic Remote Control
✓
✓
✓
App Data Viewing
✓
✓
✓
App Graphical Programme
✓
✓
✓
Front Lamp (3 W)
✓
✓
✓
WiFi 6 with Dual-band
✓
✓
✓
Bluetooth 5.2/4.2/2.1
✓
✓
✓
4G Module
N/A
CN/GB
CN/GB
Voice Function
N/A
✓
✓
Music Playback
N/A
✓
✓
ISS 2.0 Intelligent side-follow system
N/A
✓
✓
Intelligent detection and avoidance
✓
✓
✓
Secondary development
N/A
N/A
✓
Manual controller
Optional
Optional
✓
High computing power module
N/A
N/A
Edu: 40 TOPS computing power
Edu Plus: 100 TOPS computing power
NVIDIA Jetson Orin (optional)
Smart Battery
Standard (8000 mAh)
Standard (8000 mAh)
Long endurance (15000 mAh)
Battery Life
1-2 h
1-2 h
2-4 h
Charger
Standard (33.6 V, 3.5 A)
Standard (33.6 V, 3.5 A)
Fast charge (33.6 V, 9 A)
Included
1x Unitree Go2 Edu Plus
1x Unitree Go2 Remote Controller
1x Unitree Go2 Battery (15000 mAh)
1x Unitree Docking station with 100 TOPS computing power
Downloads
Documentation
iOS/Android apps
GitHub
The starter kit for Jetson Nano is one of the best kits for beginners to get started with Jetson Nano. This kit includes 32 GB MicroSD card, 20 W adapter, 2-pin jumper, camera, and micro-USB cable.
Features
32 GB High-performance MicroSD card
5 V 4 A power supply with 2.1 mm DC barrel connector
2-pin jumper
Raspberry Pi camera module V2
Micro-B To Type-A USB cable with DATA enabled
Temporary Delay in the Delivery of Unitree Robots
Like many other suppliers, we are currently experiencing delays in the delivery of Unitree robots. A shipment from our supplier is currently held in customs, which has unfortunately led to later-than-planned deliveries for previously placed orders. We are actively working with our supplier to resolve this issue and expect more clarity soon, but at this time, we cannot provide any guarantees.
Additionally, a new shipment is already on its way, though it will take some time to arrive. Since other suppliers are facing similar challenges, switching to a different provider is unlikely to result in a faster solution. Our top priority remains fulfilling existing orders.
If you have any questions or would like to update your order, please do not hesitate to contact our customer service team. We will keep you informed of any further developments.
Unitree Go2 series consists of quadruped robots for the research & development of autonomous systems in the fields of human-robot interaction (HRI), SLAM & transportation. Due to the four legs, as well as the 12DOF, this robot can handle a variety of different terrains. The Go2 comes with a perfected drive & power management system, which enables a speed (depending on the version) of up to 3.7 m/s or 11.88 km/h with an operating time of up to 4 hours. Furthermore, the motors have a torque of 45 N.m at the body/thighs and at the knees, which also allow jumps or backflips.
Features
Super Recognition System: 4D LIDAR L1
Max Running Speed: approx. 5 m/s
Peak Joint Torque: approx. 45 N.m
Wireless Module: WiFi 6/Bluetooth/4G
Ultra-long battery Endurance: approx. 2-4 h (long battery life measured in real life)
Intelligent Side-follow System: ISS 2.0
Specifications
Tracking module: Remote-controlled or automatic tracking
Front camera: Image tansmission Resolution 1280x720, FOV 120°, Ultra wide angle lens deliver rich clarity
Front lamp: Brightly lights the way ahead
4D LiDAR L1: 360°x90° omnidirectional ultra-wide-angle scanning allows automatic avoidance with small blind spot and stable operation
12 knee joint motors: Strong and powerful, Beautiful and simple, Brandy new visual experience
Intercom microphone: Effective communication with no scenario restrictions
Self-retracting strap: Easy to carry and load things
More stable, more powerful with advanced devices: 3D LiDAR, 4G ESIM Card, WiFi 6 with Dual-band, Bluetooth 5.2 for stable connection and remote control
Powerful Computing Core: Motion controller, High-performance ARM processor, Improved Al algorithm processor, External ORIN NX/NANO
Smart battery: Standard 8000 mAh battery, Long-endurance 15000 mAh battery, Protection from over-temp, overcharge and short-circuit
Speaker for music play: Listen to music as your pleasure
Unitree Go2 Variants
The Go2 impresses not only with its technical capabilities, but also with a modern and slim design that gives it a futuristic look and makes it a real eye-catcher. The Go2 Air is specially designed for demos and presentations. With its basic features, it offers a solid basis for demonstrating the movement capabilities and functionality of a four-legged robot. Important: The Go2 Air is delivered without a controller. This can be purchased optionally.
With a powerful 8-core high-performance CPU, the Pro and Edu offer impressive computing power required for complex tasks and demanding calculations. This enables faster and more efficient data processing and makes the Pro and Edu a reliable partner for your projects.
From the Edu version onwards, the Go2 is programmable and opens up endless possibilities for developing and researching your own robotics applications. The Go2 is also able to handle a step height of up to 14 cm. This makes it an ideal tool for research, education and entry into the world of robotics.
The Go2 Edu comes with a remote controller that gives you easy and intuitive control. You also get a docking station with impressive computing power of 100 TOPS, which is equipped with powerful AI algorithms and offers you technical support.
Go2 Edu is equipped with a powerful 15000 mAh battery that gives it an impressive runtime of up to 4 hours. This long operating time allows the robot to carry out longer exploration missions and complete demanding tasks.
Go2 Edu Plus 3D LiDAR comes with a powerful Hesai XT16 3D LiDAR. This LiDAR sensor gives the robot precise three-dimensional perception of its surroundings, enabling smooth navigation and intelligent obstacle avoidance.
Model Comparison
Air
Pro
Edu/Edu Plus
Dimensions (standing)
70 x 31 x 40 cm
70 x 31 x 40 cm
70 x 31 x 40 cm
Dimensions (crouching)
76 x 31 x 20 cm
76 x 31 x 20 cm
76 x 31 x 20 cm
Material
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Weight (with battery)
about 15 kg
about 15 kg
about 15 kg
Voltage
28~33.6 V
28~33.6 V
28~33.6 V
Peaking capacity
about 3000 W
about 3000 W
about 3000 W
Payload
≈7 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 12 kg)
Speed
0~2.5 m/s
0~3.5 m/s
0~3.7 m/s (MAX ~ 5 m/s)
Max Climb Drop Height
about 15 cm
about 16 cm
about 16 cm
Max Climb Angle
30°
40°
40°
Basic Computing Power
N/A
8-core High-performance CPU
8-core High-performance CPU
Aluminum knee joint motor
12 set
12 set
12 set
Intra-joint circuit (knee)
✓
✓
✓
Joint Heat Pipe Cooler
✓
✓
✓
Range of Motion
Body: −48~48°
Body: −48~48°
Body: −48~48°
Thigh: −200°~90°
Thigh: −200°~90°
Thigh: −200°~90°
Shank: −156°~−48°
Shank: −156°~−48°
Shank: −156°~−48°
Max Torque
N/A
about 45 N.m
about 45 N.m
Super-wide-angle 3D LiDAR
✓
✓
✓
Wireless Vector Positioning Tracking Module
N/A
✓
✓
HD Wide-angle Camera
✓
✓
✓
Foot-end force sensor
N/A
N/A
✓
Basic Action
✓
✓
✓
Auto-scaling strap
N/A
✓
N/A
Upgraded Intelligent OTA
✓
✓
✓
RTT 2.0 Image Transmission
✓
✓
✓
App Basic Remote Control
✓
✓
✓
App Data Viewing
✓
✓
✓
App Graphical Programme
✓
✓
✓
Front Lamp (3 W)
✓
✓
✓
WiFi 6 with Dual-band
✓
✓
✓
Bluetooth 5.2/4.2/2.1
✓
✓
✓
4G Module
N/A
CN/GB
CN/GB
Voice Function
N/A
✓
✓
Music Playback
N/A
✓
✓
ISS 2.0 Intelligent side-follow system
N/A
✓
✓
Intelligent detection and avoidance
✓
✓
✓
Secondary development
N/A
N/A
✓
Manual controller
Optional
Optional
✓
High computing power module
N/A
N/A
Edu: 40 TOPS computing power
Edu Plus: 100 TOPS computing power
NVIDIA Jetson Orin (optional)
Smart Battery
Standard (8000 mAh)
Standard (8000 mAh)
Long endurance (15000 mAh)
Battery Life
1-2 h
1-2 h
2-4 h
Charger
Standard (33.6 V, 3.5 A)
Standard (33.6 V, 3.5 A)
Fast charge (33.6 V, 9 A)
Included
1x Unitree Go2 Edu Plus 3D LiDAR
1x Hesai XT16 3D LiDAR
1x Unitree Go2 Remote Controller
1x Unitree Go2 Battery (15000 mAh)
1x Unitree Docking station with 100 TOPS computing power
Downloads
Documentation
iOS/Android apps
GitHub
This educational soldering kit is suitable for all kinds of applications such as model making and works with a 9 V battery (not included). You can control the flashing speed with two potentiometers.
Downloads
Manual
The Unitree G1 is a modern humanoid robot that impresses with its remarkable flexibility and advanced technology. With an exceptionally wide range of joint movement and up to 43 joint motors, it exceeds the agility of a typical human. Powered by imitation learning and reinforcement learning, its robotic systems are continuously developed and optimized through artificial intelligence.
One of the G1's most impressive features is its ability to autonomously move into a walking position as soon as it touches the ground – no external assistance required! It can immediately start moving, demonstrating a high level of independence and adaptability. The G1 is also equipped with a force-controlled, highly dexterous hand that operates with both sensitivity and precision, thanks to its combination of force and position control. This hand closely mimics human movements, allowing for precise object manipulation.
Features
Intel RealSense D435 Depth Camera
Livox MID-360 3D LiDAR
Microphone array (noise and echo cancellation)
5 W stereo speaker
Extra large quick release battery
Single arm degrees of freedom (shoulder 2 + elbow 2)
Hollow joint wiring of the whole machine (no external cables)
Maximum torque at joints 120 N.m
Single leg degrees of freedom (hip 3, knee 1, ankle 2)
Moving speed of 2 m/s
Specifications
Height, Width and Thickness (Stand)
1320 x 450 x 200 mm
Height, Width and Thickness (Fold)
690 x 450 x 300 mm
Weight (with Battery)
approx. 35 kg
Total Degrees of Freedom(Joint Freedom
23
Single Leg Degrees of Freedom
6
Waist Degrees of Freedom
1
Single Arm Degrees of Freedom
5
Joint output bearing
Industrial grade crossed roller bearings (high precision, high load capacity)
Joint motor
Low inertia high-speed internal rotor PMSM (Permanent Magnet Synchronous Motor – better response speed and heat dissipation)
Maximum Torque of Knee Joint
90 N.m
Arm Maximum Load
approx. 2 kg
Calf + Thigh Length
0.6 m
Arm Span
approx. 0.45 m
Extra Large Joint Movement Space
• Waist joint: Z ±155°• Knee joint: 0~165°• Hip joint: P ±154°, R -30~+170°, Y ±158°
Full Joint Hollow Electrical Routing
Yes
Joint Encoder
Dual encoder
Cooling System
Local air cooling
Power Supply
13 string Lithium battery
Basic Computing Power
8-core high-performance CPU
Sensing Sensor
Depth Camera + 3D LiDAR
Microphones
4 Microphone Array
Speaker
5 W stereo speaker
Wireless
WiFi 6, Bluetooth 5.2
Smart Battery (Quick Release)
9000 mAh
Charger
54 V/5 A
Manual Controller
Yes
Battery Life
approx. 2 hours
Upgraded Intelligent OTA
Yes
Temporary Delay in the Delivery of Unitree Robots
Like many other suppliers, we are currently experiencing delays in the delivery of Unitree robots. A shipment from our supplier is currently held in customs, which has unfortunately led to later-than-planned deliveries for previously placed orders. We are actively working with our supplier to resolve this issue and expect more clarity soon, but at this time, we cannot provide any guarantees.
Additionally, a new shipment is already on its way, though it will take some time to arrive. Since other suppliers are facing similar challenges, switching to a different provider is unlikely to result in a faster solution. Our top priority remains fulfilling existing orders.
If you have any questions or would like to update your order, please do not hesitate to contact our customer service team. We will keep you informed of any further developments.
Unitree Go2 series consists of quadruped robots for the research & development of autonomous systems in the fields of human-robot interaction (HRI), SLAM & transportation. Due to the four legs, as well as the 12DOF, this robot can handle a variety of different terrains. The Go2 comes with a perfected drive & power management system, which enables a speed (depending on the version) of up to 3.7 m/s or 11.88 km/h with an operating time of up to 4 hours. Furthermore, the motors have a torque of 45 N.m at the body/thighs and at the knees, which also allow jumps or backflips.
Features
Super Recognition System: 4D LIDAR L1
Max Running Speed: approx. 5 m/s
Peak Joint Torque: approx. 45 N.m
Wireless Module: WiFi 6/Bluetooth/4G
Ultra-long battery Endurance: approx. 2-4 h (long battery life measured in real life)
Intelligent Side-follow System: ISS 2.0
Specifications
Tracking module: Remote-controlled or automatic tracking
Front camera: Image tansmission Resolution 1280x720, FOV 120°, Ultra wide angle lens deliver rich clarity
Front lamp: Brightly lights the way ahead
4D LiDAR L1: 360°x90° omnidirectional ultra-wide-angle scanning allows automatic avoidance with small blind spot and stable operation
12 knee joint motors: Strong and powerful, Beautiful and simple, Brandy new visual experience
Intercom microphone: Effective communication with no scenario restrictions
Self-retracting strap: Easy to carry and load things
More stable, more powerful with advanced devices: 3D LiDAR, 4G ESIM Card, WiFi 6 with Dual-band, Bluetooth 5.2 for stable connection and remote control
Powerful Computing Core: Motion controller, High-performance ARM processor, Improved Al algorithm processor, External ORIN NX/NANO
Smart battery: Standard 8000 mAh battery, Long-endurance 15000 mAh battery, Protection from over-temp, overcharge and short-circuit
Speaker for music play: Listen to music as your pleasure
Unitree Go2 Variants
The Go2 impresses not only with its technical capabilities, but also with a modern and slim design that gives it a futuristic look and makes it a real eye-catcher. The Go2 Air is specially designed for demos and presentations. With its basic features, it offers a solid basis for demonstrating the movement capabilities and functionality of a four-legged robot. Important: The Go2 Air is delivered without a controller. This can be purchased optionally.
With a powerful 8-core high-performance CPU, the Pro and Edu offer impressive computing power required for complex tasks and demanding calculations. This enables faster and more efficient data processing and makes the Pro and Edu a reliable partner for your projects.
From the Edu version onwards, the Go2 is programmable and opens up endless possibilities for developing and researching your own robotics applications. The Go2 is also able to handle a step height of up to 14 cm. This makes it an ideal tool for research, education and entry into the world of robotics.
The Go2 Edu comes with a remote controller that gives you easy and intuitive control. You also get a docking station with impressive computing power of 100 TOPS, which is equipped with powerful AI algorithms and offers you technical support.
Go2 Edu is equipped with a powerful 15000 mAh battery that gives it an impressive runtime of up to 4 hours. This long operating time allows the robot to carry out longer exploration missions and complete demanding tasks.
Model Comparison
Air
Pro
Edu/Edu Plus
Dimensions (standing)
70 x 31 x 40 cm
70 x 31 x 40 cm
70 x 31 x 40 cm
Dimensions (crouching)
76 x 31 x 20 cm
76 x 31 x 20 cm
76 x 31 x 20 cm
Material
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Weight (with battery)
about 15 kg
about 15 kg
about 15 kg
Voltage
28~33.6 V
28~33.6 V
28~33.6 V
Peaking capacity
about 3000 W
about 3000 W
about 3000 W
Payload
≈7 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 12 kg)
Speed
0~2.5 m/s
0~3.5 m/s
0~3.7 m/s (MAX ~ 5 m/s)
Max Climb Drop Height
about 15 cm
about 16 cm
about 16 cm
Max Climb Angle
30°
40°
40°
Basic Computing Power
N/A
8-core High-performance CPU
8-core High-performance CPU
Aluminum knee joint motor
12 set
12 set
12 set
Intra-joint circuit (knee)
✓
✓
✓
Joint Heat Pipe Cooler
✓
✓
✓
Range of Motion
Body: −48~48°
Body: −48~48°
Body: −48~48°
Thigh: −200°~90°
Thigh: −200°~90°
Thigh: −200°~90°
Shank: −156°~−48°
Shank: −156°~−48°
Shank: −156°~−48°
Max Torque
N/A
about 45 N.m
about 45 N.m
Super-wide-angle 3D LiDAR
✓
✓
✓
Wireless Vector Positioning Tracking Module
N/A
✓
✓
HD Wide-angle Camera
✓
✓
✓
Foot-end force sensor
N/A
N/A
✓
Basic Action
✓
✓
✓
Auto-scaling strap
N/A
✓
N/A
Upgraded Intelligent OTA
✓
✓
✓
RTT 2.0 Image Transmission
✓
✓
✓
App Basic Remote Control
✓
✓
✓
App Data Viewing
✓
✓
✓
App Graphical Programme
✓
✓
✓
Front Lamp (3 W)
✓
✓
✓
WiFi 6 with Dual-band
✓
✓
✓
Bluetooth 5.2/4.2/2.1
✓
✓
✓
4G Module
N/A
CN/GB
CN/GB
Voice Function
N/A
✓
✓
Music Playback
N/A
✓
✓
ISS 2.0 Intelligent side-follow system
N/A
✓
✓
Intelligent detection and avoidance
✓
✓
✓
Secondary development
N/A
N/A
✓
Manual controller
Optional
Optional
✓
High computing power module
N/A
N/A
Edu: 40 TOPS computing power
Edu Plus: 100 TOPS computing power
NVIDIA Jetson Orin (optional)
Smart Battery
Standard (8000 mAh)
Standard (8000 mAh)
Long endurance (15000 mAh)
Battery Life
1-2 h
1-2 h
2-4 h
Charger
Standard (33.6 V, 3.5 A)
Standard (33.6 V, 3.5 A)
Fast charge (33.6 V, 9 A)
Included
1x Unitree Go2 Edu
1x Unitree Go2 Remote Controller
1x Unitree Go2 Battery (15000 mAh)
1x Unitree Docking station with 40 TOPS computing power
Downloads
Documentation
iOS/Android apps
GitHub
Temporary Delay in the Delivery of Unitree Robots
Like many other suppliers, we are currently experiencing delays in the delivery of Unitree robots. A shipment from our supplier is currently held in customs, which has unfortunately led to later-than-planned deliveries for previously placed orders. We are actively working with our supplier to resolve this issue and expect more clarity soon, but at this time, we cannot provide any guarantees.
Additionally, a new shipment is already on its way, though it will take some time to arrive. Since other suppliers are facing similar challenges, switching to a different provider is unlikely to result in a faster solution. Our top priority remains fulfilling existing orders.
If you have any questions or would like to update your order, please do not hesitate to contact our customer service team. We will keep you informed of any further developments.
Unitree Go2 series consists of quadruped robots for the research & development of autonomous systems in the fields of human-robot interaction (HRI), SLAM & transportation. Due to the four legs, as well as the 12DOF, this robot can handle a variety of different terrains. The Go2 comes with a perfected drive & power management system, which enables a speed (depending on the version) of up to 3.7 m/s or 11.88 km/h with an operating time of up to 4 hours. Furthermore, the motors have a torque of 45 N.m at the body/thighs and at the knees, which also allow jumps or backflips.
Features
Super Recognition System: 4D LIDAR L1
Max Running Speed: approx. 5 m/s
Peak Joint Torque: approx. 45 N.m
Wireless Module: WiFi 6/Bluetooth/4G
Ultra-long battery Endurance: approx. 2-4 h (long battery life measured in real life)
Intelligent Side-follow System: ISS 2.0
Specifications
Tracking module: Remote-controlled or automatic tracking
Front camera: Image tansmission Resolution 1280x720, FOV 120°, Ultra wide angle lens deliver rich clarity
Front lamp: Brightly lights the way ahead
4D LiDAR L1: 360°x90° omnidirectional ultra-wide-angle scanning allows automatic avoidance with small blind spot and stable operation
12 knee joint motors: Strong and powerful, Beautiful and simple, Brandy new visual experience
Intercom microphone: Effective communication with no scenario restrictions
Self-retracting strap: Easy to carry and load things
More stable, more powerful with advanced devices: 3D LiDAR, 4G ESIM Card, WiFi 6 with Dual-band, Bluetooth 5.2 for stable connection and remote control
Powerful Computing Core: Motion controller, High-performance ARM processor, Improved Al algorithm processor, External ORIN NX/NANO
Smart battery: Standard 8000 mAh battery, Long-endurance 15000 mAh battery, Protection from over-temp, overcharge and short-circuit
Speaker for music play: Listen to music as your pleasure
Unitree Go2 Variants
The Go2 impresses not only with its technical capabilities, but also with a modern and slim design that gives it a futuristic look and makes it a real eye-catcher. The Go2 Air is specially designed for demos and presentations. With its basic features, it offers a solid basis for demonstrating the movement capabilities and functionality of a four-legged robot. Important: The Go2 Air is delivered without a controller. This can be purchased optionally.
With a powerful 8-core high-performance CPU, the Pro and Edu offer impressive computing power required for complex tasks and demanding calculations. This enables faster and more efficient data processing and makes the Pro and Edu a reliable partner for your projects.
From the Edu version onwards, the Go2 is programmable and opens up endless possibilities for developing and researching your own robotics applications. The Go2 is also able to handle a step height of up to 14 cm. This makes it an ideal tool for research, education and entry into the world of robotics.
The Go2 Edu comes with a remote controller that gives you easy and intuitive control. You also get a docking station with impressive computing power of 100 TOPS, which is equipped with powerful AI algorithms and offers you technical support.
Go2 Edu is equipped with a powerful 15000 mAh battery that gives it an impressive runtime of up to 4 hours. This long operating time allows the robot to carry out longer exploration missions and complete demanding tasks.
Model Comparison
Air
Pro
Edu/Edu Plus
Dimensions (standing)
70 x 31 x 40 cm
70 x 31 x 40 cm
70 x 31 x 40 cm
Dimensions (crouching)
76 x 31 x 20 cm
76 x 31 x 20 cm
76 x 31 x 20 cm
Material
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Weight (with battery)
about 15 kg
about 15 kg
about 15 kg
Voltage
28~33.6 V
28~33.6 V
28~33.6 V
Peaking capacity
about 3000 W
about 3000 W
about 3000 W
Payload
≈7 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 12 kg)
Speed
0~2.5 m/s
0~3.5 m/s
0~3.7 m/s (MAX ~ 5 m/s)
Max Climb Drop Height
about 15 cm
about 16 cm
about 16 cm
Max Climb Angle
30°
40°
40°
Basic Computing Power
N/A
8-core High-performance CPU
8-core High-performance CPU
Aluminum knee joint motor
12 set
12 set
12 set
Intra-joint circuit (knee)
✓
✓
✓
Joint Heat Pipe Cooler
✓
✓
✓
Range of Motion
Body: −48~48°
Body: −48~48°
Body: −48~48°
Thigh: −200°~90°
Thigh: −200°~90°
Thigh: −200°~90°
Shank: −156°~−48°
Shank: −156°~−48°
Shank: −156°~−48°
Max Torque
N/A
about 45 N.m
about 45 N.m
Super-wide-angle 3D LiDAR
✓
✓
✓
Wireless Vector Positioning Tracking Module
N/A
✓
✓
HD Wide-angle Camera
✓
✓
✓
Foot-end force sensor
N/A
N/A
✓
Basic Action
✓
✓
✓
Auto-scaling strap
N/A
✓
N/A
Upgraded Intelligent OTA
✓
✓
✓
RTT 2.0 Image Transmission
✓
✓
✓
App Basic Remote Control
✓
✓
✓
App Data Viewing
✓
✓
✓
App Graphical Programme
✓
✓
✓
Front Lamp (3 W)
✓
✓
✓
WiFi 6 with Dual-band
✓
✓
✓
Bluetooth 5.2/4.2/2.1
✓
✓
✓
4G Module
N/A
CN/GB
CN/GB
Voice Function
N/A
✓
✓
Music Playback
N/A
✓
✓
ISS 2.0 Intelligent side-follow system
N/A
✓
✓
Intelligent detection and avoidance
✓
✓
✓
Secondary development
N/A
N/A
✓
Manual controller
Optional
Optional
✓
High computing power module
N/A
N/A
Edu: 40 TOPS computing power
Edu Plus: 100 TOPS computing power
NVIDIA Jetson Orin (optional)
Smart Battery
Standard (8000 mAh)
Standard (8000 mAh)
Long endurance (15000 mAh)
Battery Life
1-2 h
1-2 h
2-4 h
Charger
Standard (33.6 V, 3.5 A)
Standard (33.6 V, 3.5 A)
Fast charge (33.6 V, 9 A)
Included
1x Unitree Go2 Air
1x Unitree Go2 Battery (8000 mAh)
Downloads
Documentation
iOS/Android apps
GitHub
World’s Most Popular ROS Platform TurtleBot is the most popular open source robot for education and research. The new generation TurtleBot3 is a small, low cost, fully programmable, ROS based mobile robot. It is intended to be used for education, research, hobby and product prototyping. Affordable Cost TurtleBot was developed to meet the cost-conscious needs of schools, laboratories and companies. TurtleBot3 is the most affordable robot among the SLAM-able mobile robots equipped with a 360° Laser Distance Sensor LDS-01. ROS Standard The TurtleBot brand is managed by Open Robotics, which develops and maintains ROS. Nowadays, ROS has become the go-to platform for all the roboticists around the world. TurtleBot can be integrated with existing ROS-based robot components, but TurtleBot3 can be an affordable platform for whom want to get started learning ROS. Extensibility TurtleBot3 encourages users to customize its mechanical structure with some alternative options: open source embedded board (as a control board), computer and sensors. TurtleBot3 Waffle Pi is a two-wheeled differential drive type platform but it is able to be structurally and mechanically customized in many ways: Cars, Bikes, Trailers and so on. Extend your ideas beyond imagination with various SBC, sensors and motors on a scalable structure. Modular Actuator for Mobile Robot TurtleBot3 is able to get a precise spatial data by using 2 DYNAMIXEL’s in the wheel joints. DYNAMIXEL XM series can be operated by one of 6 operating modes (XL series: 4 operating modes): Velocity control mode for wheels, Torque control mode or Position control mode for joint, etc. DYNAMIXEL can be used even to make a mobile manipulator which is light but can be precisely controlled with velocity, torque and position control. DYNAMIXEL is a core component that makes TurtleBot3 perfect. It is easy to assemble, maintain, replace and reconfigure. Open Control Board for ROS The control board is open-sourced in hardware wise and in software wise for ROS communication. The open source control board OpenCR1.0 is powerful enough to control not only DYNAMIXEL’s but also ROBOTIS sensors that are frequently being used for basic recognition tasks in cost effective way. Various sensors such as Touch sensor, Infrared sensor, Color sensor and a handful more are available. The OpenCR1.0 has an IMU sensor inside the board so that it can enhance precise control for countless applications. The board has 3.3 V, 5 V, 12 V power supplies to reinforce the available computer device lineups. Open Source The hardware, firmware and software of TurtleBot3 are open source which means that users are welcomed to download, modify and share source codes. All components of TurtleBot3 are manufactured with injection molded plastic to achieve low cost, however, the 3D CAD data is also available for 3D printing. Specifications Maximum translational velocity 0.26 m/s Maximum rotational velocity 1.82 rad/s (104.27 deg/s) Maximum payload 30 kg Size (L x W x H) 281 x 306 x 141 mm Weight (+ SBC + Battery + Sensors) 1.8 kg Threshold of climbing 10 mm or lower Expected operating time 2h Expected charging time 2h 30m SBC (Single Board Computers) Raspberry Pi 4 (2 GB RAM) MCU 32-bit ARM Cortex-M7 with FPU (216 MHz, 462 DMIPS) Remote Controller RC-100B + BT-410 Set (Bluetooth 4, BLE) Actuator XL430-W210 LDS (Laser Distance Sensor) 360 Laser Distance Sensor LDS-01 or LDS-02
Camera Raspberry Pi Camera Module v2.1 IMU Gyroscope 3 AxisAccelerometer 3 Axis Power connectors 3.3 V/800 mA5 V/4 A12 V/1 A Expansion pins GPIO 18 pinsArduino 32 pin Peripheral 3x UART, 1x CAN, 1x SPI, 1x I²C, 5x ADC, 4x 5-pin OLLO DYNAMIXEL ports 3x RS485, 3x TTL Audio Several programmable beep sequences Programmable LEDs 4x User LED Status LEDs 1x Board status LED1x Arduino LED1x Power LED Buttons and Switches 2x Push buttons, 1x Reset button, 2x Dip switch Battery Lithium polymer 11.1 V 1800 mAh / 19.98 Wh 5C PC connection USB Firmware upgrade via USB / via JTAG Power adapter (SMPS) Input: 100-240 VAC 50/60 Hz, 1.5 A @maxOutput: 12 VDC, 5 A Downloads ROS Robot Programming GitHub E-Manual Community
TurtleBot 4 is the next-generation of the world’s most popular open source robotics platform for education and research, offering better computing power, better sensors and a world class user experience at an affordable price point.TurtleBot 4 Lite is equipped with an iRobot Create 3 mobile base, a powerful Raspberry Pi 4 running ROS 2, OAK-D spatial AI stereo camera, 2D LiDAR and more. All components have been seamlessly integrated to deliver an out-of-the-box development and learning platform.Specifications
Base platform
iRobot Create 3
Wheels (Diameter)
72 mm
Ground Clearance
4.5 mm
On-board Computer
Raspberry Pi 4 (4 GB)
Maximum linear velocity
0.31 m/s in safe mode0.46 m/s without safe mode
Maximum angular velocity
1.90 rad/s
Maximum payload
9 kg
Operation time
2h 30m – 4h depending on load
Charging time
2h 30m
Lidar
RPLIDAR A1M8
Camera
OAK-D-Lite
User Power
VBAT @1.9 A5 V @ Low current3.3 V @ Low current
USB Expansion
2x USB 2.0 (Type A)2x USB 3.0 (Type A)
Programmable LEDs
Create 3 Lightring
Buttons and Switches
2x Create 3 User buttons1x Create 3 Power Button
Battery
26 Wh Lithium Ion (14.4 V nominal)
Charging Dock
Included
Size (L x W x H)
342 x 339 x 192 mm
Weight
3.3 kg
DownloadsUser Manual
