All categories
Featured selections
Trade Assurance
Buyer Central
Help Center
Get the app
Become a supplier
Alibaba
Electronic Components, Accessories & Telecommunications
Development Boards, Electronic Modules and Kits
Education & Maker Boards
  • Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit
  • Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit
  • Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit
  • Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit
  • Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit
  • Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit
Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit
Ready to Ship
In stock Fast dispatch

Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit

  • 1 - 9 Pieces
    $68.18
  • 10 - 49 Pieces
    $65.91
  • 50 - 99 Pieces
    $63.64
  • >= 100 Pieces
    $59

Customization:

Customized logo(Min.Order: 100 pieces)
Customized packaging(Min.Order: 200 pieces)
Graphic customization(Min.Order: 500 pieces)
View product details

Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • Educational Robotics Platform: Designed for STEM education, enabling learners to explore programming, electronics, and mechanical engineering through hands-on projects.
  • Smart Navigation & Obstacle Avoidance: Equipped with an HC-SR04 sonar sensor for real-time distance measurement, supporting autonomous obstacle detection and path planning.

Key features

  • 1. Material Technology: Durable Construction for Reliable Use

    • With a lightweight metal frame and rugged rubber wheels, you can ensure robust performance in diverse environments. The metal body provides structural integrity, while the rubber tires enhance traction and stability, outperforming plastic-based kits in durability*.

  • 2. Interactive Design: Programmable for Custom Solutions

    • With a user-friendly microcontroller (Arduino-compatible) and integrated sonar sensors, you can design advanced programs for obstacle avoidance or autonomous navigation—20% faster than basic kits lacking built-in sensors*.

  • 3. Performance Parameters: High-Torque Motors for Precision

    • Equipped with high-torque DC motors, you can achieve precise movements and adapt to varied terrain, offering 30% greater power output than standard robotics kits*. This ensures smooth operation even in challenging conditions.

  • 4. Scenario Solutions: Versatile STEM Education Tool

    • Designed for STEM education, this kit enables hands-on learning through customizable projects like line following, obstacle avoidance, and autonomous navigation. Its modular design supports 50% more customization options than non-open-source kits*, making it ideal for classrooms and hobbyists.

  • 5. Certification Standards: Safe and Reliable Learning

    • With CE-certified components and RoHS compliance, you can ensure a safe and eco-friendly learning experience, meeting international safety and environmental standards*.

Product details

Tscinbuny New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit STEM Education Robot Kit

The New Factory Balancing Robot 2WD Open Source 328p Smart Robot Car Kit is a modular STEM education platform designed for hands-on learning in robotics, programming, and engineering. Built with a durable aluminum frame and robust rubber wheels, it combines open-source flexibility with advanced sensors like the HC-SR04 sonar for obstacle avoidance. Ideal for educators and hobbyists, this kit empowers users to customize hardware and software to tackle projects ranging from basic line following to autonomous navigation.

Technical specifications

FeatureSpecificationBenefit
Frame MaterialAluminum alloy (lightweight, corrosion-resistant)Enhanced durability and portability
Motors2x DC geared motors (12V)Smooth, controllable movement for precise tasks
Sensor SuiteHC-SR04 ultrasonic sensorReal-time distance measurement for obstacle avoidance
MicrocontrollerArduino-compatible ATmega328PSupports C/C++/Python programming for custom logic
Power SupplyExternal DC input (6-12V)Flexible power options for extended runtime

Customization guide

Adjustable parameters include:

  • Motor power output (via PWM control) to optimize for terrain or payload needs
  • Sensor range thresholds (via firmware) to customize obstacle detection sensitivity
  • Modular component slots for adding GPS, cameras, or additional sensors

Get inspired

Turn theory into practice! Use this kit to:

  • Teach programming fundamentals with Arduino IDE or Python
  • Build autonomous robots for competitions or classroom experiments
  • Experiment with PID balancing algorithms for advanced robotics projects

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Processor Speed16 MHz20 MHz (+25%)32 MHz (+100%)*
Sensor SuiteHC-SR04 sonar+IR array (8 sensors)+LIDAR +IMU
Payload Capacity0.5kg1.0kg (+100%)2.0kg (+300%)
Battery Life2h (standard)3h (+50%)5h (+150%)

Supplier's note

  1. Technical Breakthroughs:

    • Open-source firmware: Enables direct code modification for advanced customization (vs. proprietary systems).
    • Modular frame design: Allows hardware expansions without voiding compatibility (e.g., adding a Raspberry Pi for AI tasks).
    • Balancing algorithm library: Preloaded PID code reduces development time for inverted pendulum projects.

  2. Version Selection Guidance:

    • Base Model: Ideal for beginners and classroom labs needing foundational robotics skills (e.g., obstacle-avoidance projects).
    • Advanced Model: Targets intermediate users requiring multi-sensor integration (e.g., autonomous navigation with IR/LIDAR fusion).
    • Pro Model: Designed for advanced developers and competitions, with industrial-grade payloads and battery life (e.g., warehouse simulation projects).

With the Pro Model’s LIDAR and IMU, you can create robots capable of 3D mapping and real-time balancing—critical for robotics competitions. The Base Model’s simplicity ensures accessibility for first-time learners, while the Advanced Model’s expandability bridges the gap to professional-grade applications.

Frequently asked questions

  • Which 2WD robot car kit is best for STEM education beginners?

  • How do I maintain the sonar sensor on my balancing robot car kit?

  • Metal vs. plastic frame: Which is better for robot car kits?

  • Can I customize the balancing robot with additional sensors?

  • Is this robot kit RoHS-certified for educational use?

  • Which 2WD robot kit supports obstacle avoidance for STEM projects?

  • Does the Arduino 328p support open-source programming?

  • How do I replace the rubber wheels on my 2WD robot car kit?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Entry-Level Educational Robot KitsSTEM education, hobbyist projects2WD aluminum chassisCost-effective (▲), beginner-friendly, open-source code (Arduino IDE)Limited sensor types (e.g., single HC-SR04 ▲▲ in Advanced), requires basic coding skills
Advanced Robotics Development PlatformsProfessional R&D, complex projectsHigh-torque DC motors (5V/300RPM), ROS compatibility, LIDAR (RPLIDAR A2)Modular design (▲▲▲), supports SLAM algorithms, industrial-grade performanceExpensive (▲▲▲), steep learning curve, requires advanced hardware knowledge
Industrial Automation Training KitsVocational training, factory simulationsIndustrial PLC (IEC 61131-3), pneumatic actuators, safety certificationsReal-world application alignment, safety-compliant (▲▲), durable constructionHeavy (15kg+), high cost, limited portability
Autonomous Vehicle Simulation KitsAI/ML prototyping, self-driving researchGPS + IMU integration, SLAM-enabled navigation, 360° LiDAR (▲▲▲ vs Base)Precise path planning (▲▲), ROS2 compatibility, aerial/ground versatilityFragile components, requires dedicated workspace, power-intensive
Sensor Integration Development KitsIoT prototyping, environmental monitoringMulti-sensor array (temperature/humidity/gas), LoRa/Wi-Fi (▲▲), 285 GSM materialVersatile data collection (▲▲), networked connectivity, weather-resistant (IP67)Limited mobility (▲▲), requires external power, complex sensor calibration
Programmable Drone KitsFPV racing, aerial photographyQuadcopter frame, FPV camera (720p), brushless motors (2212 1100KV)Aerial mobility (▲▲▲), live video streaming, modular payload supportRequires open space (▲▲▲), fragile propellers, short battery life (15–20 mins)

Related searches

40oz stainless steel wine tumbleruniform material fabric fabric for uniformFastrack Couples WatchWellfar engine piston ringdiesel engine gasket kitsilk ranunculus bouquetflower printed bedding set600ml plastic water bottleSnake Skin Handbagchrome sticker custom 3d decals electroform870-2635mhz panel antenna planar dual bandmens luxury shaving kit with double8K gold diamond earringssewing machines with prices industrial sewinggalvanized palisade fence

The Product Description is generated by third-party, and Alibaba.com is not liable for any risks related to inaccuracies or the infringement of third-party rights.

The information in this Product Description may differ from the details on the product listing page on Alibaba.com. Additionally, the contents may not be updated in real-time with the product listing page on Alibaba.com, and there may be delays in reflecting the most updated information. The description on product listing page takes precedence. You shall not rely on this Product Description in making transaction decisions.

The comparison data is based on manufacturer information and industry standards. Actual results may vary depending on individual use cases. It is advisable to verify details with the supplier for the most accurate information.