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Easily Bring Your Ideas to Life, No Matter Your Skill Level


In this three-part webinar series, now available on demand, you will learn how to start designing quickly using our award-winning Integrated Development Environments (IDEs) with production-ready code generation tools and best-in-class rapid prototyping hardware.

Join our experts as they explain the versatility of the Curiosity Nano board and show how easy it is to take your idea from concept to prototype. In this series, you will receive step-by-step instructions and learn about demo applications from our experts.  

You May Now View the Sessions On Demand


Rapid Prototyping With Curiosity Nano: Part I

In part one of this three-part webinar series, you will learn how to create a system to capture sensor data and control actuators via an I2C interface. This method is widely adopted in many embedded applications such as IoT, fan control, industrial automation, smart appliances and more.

The demo will utilize the PIC32CM MC00 Curiosity Nano Evaluation Kit, MikroElektronika Click boards™ and the MPLAB® Harmony v3 software framework.

Rapid Prototyping With Curiosity Nano: Part II

In part two of this three-part webinar series, you will learn how to create a system to capture sensor data and display it via the Universal Asynchronous Receiver-Transmitter (UART) and the Serial Peripheral Interface (SPI). This method is widely adopted in many embedded applications such as IoT, wearables, portable health devices and more.

The demo will utilize the SAM E51 Curiosity Nano Evaluation Kit, MikroElektronika Click boards and the MPLAB Harmony v3 software framework.

Rapid Prototyping With Curiosity Nano: Part III

When you pair the Curiosity Nano development platform with Click boards, you can expand your designs quickly and effortlessly. In the final installment of this three-part webinar series, you will learn how to add more functionality to the project created in part one of this webinar series by:

  • Displaying the data captured by sensors via the SPI
  • Adding wireless capability via the UART

The demo will utilize the PIC32CM MC00 Curiosity Nano Evaluation Kit, MikroElektronika Click boards and the MPLAB Harmony v3 software framework.