Official Arduino Portenta H7 Lite Connected Development Board
The Portenta H7 Lite Connected offers the computational power of the Portenta H7 for AI applications and low-latency control solutions, while being more cost-effective due to the absence of a high-resolution video interface.
It bridges the gap between the full H7 and H7 Lite versions, providing a balance of performance and simplicity for Arduino Pro users. This version integrates wireless connectivity, making it an ideal choice for building versatile solutions.
The Arduino Portenta H7 Lite Connected features dual processors, allowing the simultaneous execution of high-level code and real-time tasks. For instance, it can run Arduino-compiled code and MicroPython concurrently, with seamless communication between the two cores using a Remote Procedure Call mechanism.
This makes it perfect for applications where machine learning algorithms need to run alongside real-time sensor and actuator interactions.
Applications:
High-end industrial machinery
Laboratory equipment
Computer vision
PLCs
Robotics controllers
Mission-critical devices
High-speed booting computation (ms)
Features:
Flexible Programming Options: Supports multiple programming environments, including Official Arduino and MicroPython, for versatile development.
Parallel Task Management: Dual-core architecture enables seamless communication between cores, allowing efficient integration of complex functions and algorithms.
Industrial-Grade Applications: Designed for use in industrial settings, especially when combined with the Portenta Vision Shield for real-time video processing.
Power Efficiency: Optimized for low-latency operations, balancing performance with minimal power consumption.
Modular Expansion: High-density connector facilitates easy integration with other Portenta family modules and shields for expanded capabilities.
Robust Debugging Support: Features a JTAG/SWD interface for hardware debugging, supporting development and troubleshooting processes effectively.
1. How to set up the Arduino Portenta H7 Lite Connected board?
You can connect the Arduino Portenta H7 Lite Connected to your computer using a USB-C cable. Next, install the Portenta core from the Arduino Board Manager, then select the correct board in the IDE. Upload a simple sketch to confirm everything is working properly.
2. How to program the Portenta H7 Lite Connected for dual-core processing?
You can leverage the Portenta H7 Lite Connected with its two cores — an ARM Cortex-M7 for demanding tasks and an ARM Cortex-M4 for lower-power operations. This dual-core processing lets you run parallel workloads efficiently. You can program both cores using the Arduino IDE or MicroPython depending on your workflow.
3. How to connect the Arduino Portenta H7 Lite Connected to Wi-Fi or Bluetooth?
The board comes with integrated Wi-Fi and Bluetooth connectivity, which makes wireless communication straightforward. You can use the Arduino WiFiNINA library for network access and the BLE libraries to pair with other smart devices. This Arduino development board handles both protocols reliably for IoT and mobile integrations.
4. How to power the Portenta H7 Lite Connected efficiently?
You can power the board through USB-C during development, or use a Li-Po battery for portable projects. For fixed installations, connect an external DC supply to the appropriate pins. The advanced power management system ensures stable operation across portable and industrial applications.
5. How to integrate sensors and external modules with the Arduino Portenta H7 Lite Connected?
You can connect your sensors, actuators, and displays via the I2C, SPI, and UART interfaces available on the board. The Portenta H7 Lite Connected is fully compatible with other Portenta ecosystem accessories, so you can easily add shields or carriers. This makes expansion straightforward for complex projects.
6. How to use the Portenta H7 Lite Connected for IoT applications?
With its built-in connectivity and cloud compatibility, this board can send and receive data from the Arduino IoT Cloud, AWS IoT, or other platforms. You can use it for remote monitoring, automation, and data analysis projects where real-time updates are essential.
7. How to deploy machine learning models on the Arduino Portenta H7 Lite Connected?
You can train a TensorFlow Lite model on your desktop and then deploy it directly onto the Portenta H7 Lite Connected. The dual-core architecture handles efficient edge AI processing for vision, predictive, or sensor-based applications. This setup is ideal for running inference locally without cloud dependence.
8. How to expand the capabilities of the Portenta H7 Lite Connected board?
You can pair it with accessories like the Portenta Vision Shield or Portenta Max Carrier to add Ethernet, camera, or additional I/O options. This flexibility makes the Portenta H7 Lite Connected ideal for scalable embedded projects that grow with your needs.
1. What is the Arduino Portenta H7 Lite Connected used for?
The Arduino Portenta H7 Lite Connected is a powerful development board designed for IoT applications, edge computing, and industrial automation. You can use it to build compact, high-performance connected devices that require real-time processing and wireless communication. Its small form factor makes it ideal for embedded deployments.
2. What makes the Portenta H7 Lite Connected board different?
The Portenta H7 Lite Connected board features a dual-core microcontroller with WiFi and Bluetooth, setting it apart from standard development boards. You get high-speed processing with seamless wireless communication for advanced IoT and AI-driven projects. This integration simplifies connectivity in smart, standalone systems.
3. Can the Arduino Portenta H7 Lite Connected run complex applications?
Yes, the Arduino Portenta H7 Lite Connected can handle real-time processing and run complex applications like machine learning inference, data logging, and remote device management. You can execute multiple tasks simultaneously using its Cortex-M7 and Cortex-M4 cores. This makes it suitable for demanding edge computing workloads.
4. How does the Portenta H7 Lite Connected support IoT development?
The board supports IoT development with built-in wireless communication, cloud compatibility, and high-performance processing. You can securely transmit sensor data, receive remote commands, and integrate with platforms like Arduino Cloud. Its robust architecture ensures fast, reliable connectivity for mission-critical systems.
5. Is the Arduino Portenta H7 Lite Connected compatible with other Portenta boards?
Yes, the Portenta H7 Lite Connected works seamlessly with other Arduino Portenta modules and carriers, allowing you to expand functionality using breakout boards or industrial shields. You can reuse code and hardware across the Portenta ecosystem. This modularity supports scalable solutions for industrial or AI applications.
6. What types of projects can I build using the Portenta H7 Lite Connected?
You can build smart automation systems, robotics, edge AI inferencing units, and connected monitoring systems with the Arduino Portenta H7 Lite Connected. Use it for predictive maintenance, vision-based control, or remote environmental sensing. Its performance and connectivity make it ideal for professional-grade IoT projects.
7. Does the Portenta H7 Lite Connected support cloud integration?
Yes, the Portenta H7 Lite Connected integrates smoothly with Arduino Cloud and third-party IoT platforms, enabling remote monitoring, control, and firmware updates. You can visualize data, trigger actions, and manage devices from anywhere. This cloud integration enhances the functionality and maintainability of your connected devices.
This product comes with a 1-year manufacturer warranty from the date of purchase, covering manufacturing defects only.
Warranty Void If:
The product shows signs of physical damage, mishandling, exposure to water/moisture, fire, natural calamities, unauthorized repairs, improper storage near heat or direct sunlight, or alteration in any way.
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