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DaDa:bit DIY Building Blocks Kit with 200+ Structural Parts for Building Inventions
Product SKU: 21070003
- More than 200 structural parts
- Support micro:bit program
- Provide kids with creative life scenes
- Unified connector and plug-and-play
- More DIY extensions are available to every users
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Product Description
DaDa:bit is an AI programmable block kit designed for artificial intelligence education. It is powered by the micro:bit and a multifunctional expansion board. With over 10 electronic modules and 200 building blocks, the DaDa:bit can be transformed into hundreds of unique models. Additionally, we provide instructions for building 20 different models, along with programs and comprehensive tutorials to make it easy for your children to construct and program their creations!
Versatile Models, Endless Creativity
This kit includes over 200 building blocks, allowing you to create hundreds of different models. In addition to the 20 pre-designed models provided, you can unleash your imagination with DIY expansions to build unique creations and functionalities! Each model includes a program, comprehensive tutorial, and instructional video, making it easy to get started with no prior knowledge required!
Bubble Machine
By combining the fan module, knob module, and servo, you can create a fun bubble machine that blows bubbles!
Learning objectives: Discover the programming logic behind the fan module, programmable buttons, and servo control, along with the corresponding command blocks.
Learning objectives: Discover the programming logic behind the fan module, programmable buttons, and servo control, along with the corresponding command blocks.
Catapult
Build your very own catapult using the knob module and servos to launch objects with precision and fun!
Learning objectives: Discover the programming logic behind the programmable buttons, and servo control, along with the corresponding command blocks.
Learning objectives: Discover the programming logic behind the programmable buttons, and servo control, along with the corresponding command blocks.
Safe Box
By integrating the digital tube module, knob module, and servo, you can unlock the safe with a password.
Learning objectives: Learn how to create variables and understand the underlying programming logic.
Learning objectives: Learn how to create variables and understand the underlying programming logic.
Phone Pan-Tilt
Integrate a servo to create a pan-tilt for your phone, enabling horizontal rotation for capturing photos.
Learning objectives: Learn to create variables and grasp the programming logic behind the programmable button and servo control.
Learning objectives: Learn to create variables and grasp the programming logic behind the programmable button and servo control.
Hot Water Cooling Device
To cool hot water effectively, you can incorporate a light sensor, fan module, and servos.
Learning objectives: Understand the working principle of the light sensor and learn how to use the corresponding command blocks.
Learning objectives: Understand the working principle of the light sensor and learn how to use the corresponding command blocks.
Color Sorter
By incorporating a color sensor and servo, you can create an automatic color sorting system.
Learning objectives: Understand the working principle of the color sensor and learn to use the corresponding command blocks effectively.
Learning objectives: Understand the working principle of the color sensor and learn to use the corresponding command blocks effectively.
Pile Driver
Create an automatic pile driver using a knob module and servos.
Learning objectives: Understand the working principle of the programmable button and servo control, and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of the programmable button and servo control, and learn to effectively use the corresponding command blocks.
Mousetrap
To enable an automatic object-capturing function, incorporate an infrared obstacle avoidance sensor and servos.
Learning objectives: Understand the working principle of the infrared obstacle avoidance sensor, and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of the infrared obstacle avoidance sensor, and learn to effectively use the corresponding command blocks.
Elevator
Simulate a lifting function using a knob module and servos.
Learning objectives: Understand the working principle of the programmable button and servo control, and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of the programmable button and servo control, and learn to effectively use the corresponding command blocks.
Intelligent Storage Box
Create a storage box with automatic lids using an ultrasonic sensor and servos.
Learning objectives: Learn the working principle of the ultrasonic sensor and how to effectively use the corresponding command blocks.
Learning objectives: Learn the working principle of the ultrasonic sensor and how to effectively use the corresponding command blocks.
Intelligent Laundry Rack
Achieve automatic clothing storage and retrieval using programmable buttons and servos.
Learning objectives: Understand the working principle of programmable buttons and servo control, and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of programmable buttons and servo control, and learn to effectively use the corresponding command blocks.
Somatosensory Goal Keeper
Create a somatosensory goal keeper using an acceleration sensor and servos.
Learning objectives: Understand the working principle of the acceleration sensor, and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of the acceleration sensor, and learn to effectively use the corresponding command blocks.
Sound-Controlled Fan
Using a sound sensor, fan module, and servos, users can control the opening and rotation of the fan through sound activation.
Learning objectives: Understand the working principle of the sensor and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of the sensor and learn to effectively use the corresponding command blocks.
Intelligent Stop Pole
By incorporating an ultrasonic sensor and servos, this block pole can be automatically lifted to simulate a parking lot barrier.
Learning objectives: Understand the working principle of the ultrasonic sensor and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of the ultrasonic sensor and learn to effectively use the corresponding command blocks.
Rhythm Table Lamp
Using a sound sensor and RGB module, the lamp’s lighting will change in response to variations in voice speed.
Learning objectives: Understand the working principle of the sound sensor and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of the sound sensor and learn to effectively use the corresponding command blocks.
Blender
By adding an ultrasonic module and servos, you can create a functional coffee blender.
Learning objectives: Understand the working principle of the ultrasonic sensor and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principle of the ultrasonic sensor and learn to effectively use the corresponding command blocks.
Crane
By utilizing programmable buttons and servos, you can design a mini 2DOF crane that enables both horizontal and vertical movements.
Learning objectives: Understand the working principles of the ultrasonic sensor and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principles of the ultrasonic sensor and learn to effectively use the corresponding command blocks.
Basketball Shooting Device
Utilizing a digital module and infrared obstacle avoidance sensor, you can create a basketball counter that automatically tracks goals.
Learning objectives: Understand the working principles of the digital tube and infrared obstacle avoidance sensor, and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principles of the digital tube and infrared obstacle avoidance sensor, and learn to effectively use the corresponding command blocks.
Pinball Machine
By utilizing programmable buttons and servos, you can develop your own pinball machine.
Learning objectives: Understand the working principles of programmable buttons and servo control, and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principles of programmable buttons and servo control, and learn to effectively use the corresponding command blocks.
Mobile Shooting
By using a light sensor and servos, you can set up a target shooting machine that responds to infrared signals.
Learning objectives: Understand the working principles of the light sensor and servo control, and learn to effectively use the corresponding command blocks.
Learning objectives: Understand the working principles of the light sensor and servo control, and learn to effectively use the corresponding command blocks.
Versatile Shapes, Flexible Expansion
Compatible with Hiwonder Series Sensors
The block kit is compatible with Hiwonder series sensors, offering a consistent style, interface, and mounting holes.
Compatible with Other Blocks for Easy Expansion
The kit is compatible with other blocks, allowing for flexible expansion and recreation, enabling idle toys to support programming learning.
Programmable Wireless Controller
The kit includes over 200 blocks, allowing you to construct hundreds of models. In addition to the 20 pre-designed models, you can unleash your creativity with DIY expansions to build unique creations and functionalities!
| Product Parameters | |||
| Programming software | Madecode online web programming, micro:bit (Graphical programming/ JavaScript) | Control system | micro:bit + micro:bit expansion board |
| Output | Fan module, dot matrix display, buzzer, digital tube, LGS-01 servo, RGB module, 2-channel motor port, 6-channel servo port | Input | Temperature sensor, ultrasonic sensor, obstacle avoidance sensor, light sensor, color sensor, acceleration sensor, electronic compass, sound sensor, knob module |
| Communication interface | USB interface | Power supply | 18650 3.7V LiPo battery*2 |
| Packing box size | 22*19*10cm | Product weight | about 0.76kg |
| Size (with package) | 31*26*16cm | Weight (with package) | 1.2kg |
| Product Parameters | |
| Camera model | Nuwa-HP60C |
| Programming software | Madecode online web programming, micro:bit (Graphical programming/ JavaScript) |
| Control system | micro:bit + micro:bit expansion board |
| Output | Fan module, dot matrix display, buzzer, digital tube, LGS-01 servo, RGB module, 2-channel motor port, 6-channel servo port |
| Input | Temperature sensor, ultrasonic sensor, obstacle avoidance sensor, light sensor, color sensor, acceleration sensor, electronic compass, sound sensor, knob module |
| Communication interface | USB interface |
| Power supply | 18650 3.7V LiPo battery*2 |
| Packing box size | 22*19*10cm |
| Product weight | about 0.76kg |
| Size (with package) | 31*26*16cm |
| Weight (with package) | 1.2kg |
DaDa:bit Packing List
| Item | Specification |
| Camera model | Nuwa-HP60C |
| Programming software | Madecode online web programming, micro:bit (Graphical programming/ JavaScript) |
| Control system | micro:bit + micro:bit expansion board |
| Output | Fan module, dot matrix display, buzzer, digital tube, LGS-01 servo, RGB module, 2-channel motor port, 6-channel servo port |
| Input | Temperature sensor, ultrasonic sensor, obstacle avoidance sensor, light sensor, color sensor, acceleration sensor, electronic compass, sound sensor, knob module |
| Communication interface | USB interface |
| Power supply | 18650 3.7V LiPo battery*2 |
| Packing box size | 22*19*10cm |
| Product weight | about 0.76kg |
| Size (with package) | 31*26*16cm |
| Weight (with package) | 1.2kg |
