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  • keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education
  • keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education
  • keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education
  • keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education
  • keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education
  • keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education
keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education

keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education

$30.00-$39.99/ Set|1 Set/Sets(Min. Order)

Customization:

Customized logo(Min.Order: 100 pieces)
Customized packaging(Min.Order: 100 pieces)
Graphic customization(Min.Order: 100 pieces)
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keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • IoT & Robotics Education: A DIY STEM kit designed to teach electronics, programming, and IoT concepts through hands-on projects. The ESP32 microcontroller enables smart home automation experiments and robotics applications.
  • Modular Electronics Platform: Allows users to assemble and customize circuits, sensors, and components on a wooden house-shaped base, supporting creative project development.

Key features

  • 1. Material Technology

    • With a sturdy wooden body, you can build robust and visually appealing IoT projects that combine durability with a modern design, standing out compared to plastic-based kits*.

  • 2. Interactive Design

    • With a modular design and ESP32 microcontroller, you can easily customize and program smart home systems through intuitive software, enabling hands-on learning 30% faster than traditional non-modular kits*.

  • 3. Performance Parameters

    • With support for multiple sensors and actuators, you can develop complex IoT applications, expanding project capabilities beyond basic setups by up to 40%* compared to limited-functionality starter kits.

  • 4. Scenario Solutions

    • With an educational-focused design, you can teach STEM concepts in classrooms or home environments, offering 20% more project versatility than non-educational kits* thanks to included tutorials and community resources.

  • 5. Certification Standards

    • With RoHS and CE certifications, you can ensure compliance with global safety and environmental standards, meeting stricter requirements than non-certified kits* for trusted use in schools and homes.

Product details

keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit For Electronic DIY STEM Education

The keyestudio IOT Smart Home Kit Robot ESP32 Starter Kit combines a creative wooden house design with modular electronics to empower STEM education and DIY projects. Built with safety-certified components, this kit offers a hands-on platform for learning programming, robotics, and IoT concepts. Its expandable architecture allows users to customize projects from basic circuits to advanced smart home simulations.

Technical specifications

FeatureSpecificationBenefit
MaterialBirch wood body, durable electronic components (ESP32, sensors, actuators)Lightweight yet sturdy construction; reliable performance for long-term use
DesignHouse-shaped modular framework with plug-and-play portsVisually engaging; easy assembly and component swapping for experimentation
MicrocontrollerESP32-WROOM-32D (Dual-Core 240MHz)High-speed processing for real-time IoT applications
Sensors/ActuatorsInfrared, temperature, light, motor driversVersatile input/output capabilities for interactive projects
CertificationsRoHS, CE, EPR (France/Germany)Compliance with global safety and environmental standards
Application ScenarioEducational robotics labs, hobbyist prototyping, STEM workshopsIdeal for teaching IoT principles or building custom smart home systems

Customization guide

Adjustable module slots and sensor ports let users tailor the kit to specific project needs. For example:

  • Expandable sensors: Add motion or humidity sensors for environmental monitoring projects.
  • Custom code integration: Modify firmware to control motors or LED patterns via Arduino/Python.
  • Hardware upgrades: Pair with external Arduino shields or Raspberry Pi for advanced functionality.

Get inspired

Turn your wooden house into a smart home hub! Program automated lighting, motion-activated alarms, or weather-responsive systems. Whether you’re a student mastering IoT basics or a hobbyist prototyping smart devices, this kit transforms abstract concepts into tangible, interactive creations.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Sensor Types Included5 (basic)10 (expanded)15 (specialized)
Processing PowerESP32 StandardESP32 + 15% fasterESP32-C3 (+30% faster)*
ConnectivityWi-FiWi-Fi + BluetoothWi-Fi 6 + BLE 5.0
AI CapabilitiesNoneBasic gesture recognitionMachine learning support
Expansion Ports8 GPIO16 GPIO32 GPIO + USB-C

Supplier's note

  1. Technical Breakthroughs:

    • The modular design allows users to swap components without soldering, reducing learning barriers.
    • The ESP32 microcontroller enables low-power IoT projects (e.g., battery-operated sensors).
    • EPR certifications ensure environmental compliance, appealing to institutional buyers.

  2. Optimal Version Selection:

    • Base Model: Perfect for beginners learning circuits or simple automation (e.g., LED blinking).
    • Advanced Model: Ideal for educators needing multi-sensor projects (e.g., smart garden monitoring).
    • Pro Model: Engineers or advanced makers can leverage AI features for facial recognition or predictive analytics.

With the Pro’s machine learning capabilities, you can train the kit to recognize voice commands—something 20% faster than traditional Arduino boards. Pair this with its 32 GPIO ports to control complex systems like automated irrigation or security setups.

*Performance gains compared to Base Model specifications.

Frequently asked questions

  • Which keyestudio IOT Smart Home Kit model is best for STEM education beginners?

  • How do I maintain the electronic components in the DIY STEM kit?

  • Wood vs Plastic: Why is the kit’s body made of wood for STEM education?

  • Can I customize the Smart Home Kit with additional sensors for projects?

  • Is the keyestudio ESP32 Kit certified for educational safety standards?

  • What age group is this STEM kit suitable for?

  • How does the modular design aid IoT learning in STEM education?

  • Does the Smart Home Kit come with educational support or community resources?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Educational Robotics KitsSchools, competitions, STEM programsMotorized chassis (speed: 0.5-2 m/s), ultrasonic sensors (range: 2-4m)Hands-on robotics learning, real-world applicationHigher cost, requires advanced coding skills (e.g., Python/C++)
DIY Electronics Starter KitsHobbyists, beginners, basic projects50+ components (resistors, LEDs), breadboard (size: 400 holes)Affordable entry point, no prior knowledge neededLimited to simple circuits, no IoT capabilities
IoT Development KitsSmart home prototyping, IoT projectsWi-Fi/Bluetooth 5.0 modules, cloud integration (AWS IoT Core, Azure IoT Hub)Modern tech focus, scalable for enterprise useRequires internet literacy, complex setup
Modular STEM Education KitsClassrooms, DIY STEM projectsESP32 microcontroller (240 MHz dual-core CPU), 10+ sensors (▲ Advanced: 20+)Safe (RoHS/CE/EPR certified), highly customizable (▲ Advanced: 15+ modules)Base version lacks advanced sensors (e.g., LiDAR)
Programmable Arduino KitsMaker communities, prototypingArduino UNO board (ATmega328P MCU), 14 digital I/O pinsLarge open-source community, versatile for hardware/software projectsSteeper learning curve, limited IoT integration
Advanced Maker BoardsServer setups, complex roboticsRaspberry Pi 4 (4GB RAM, 1.5 GHz quad-core CPU), 40 GPIO pinsHigh computational power (Linux-based OS), supports peripherals (▲ Advanced)High power consumption, requires advanced troubleshooting skills

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