Skip to content

"IoT Made Easy!" - Connect the AVR-IoT WA/WG Development Board to Microsoft Azure

Notifications You must be signed in to change notification settings

MicrochipTech/AzureDemo_AVR-IoT_Wx

Repository files navigation

Provisioning the Microchip AVR-IoT WA/WG Development Board for Azure IoT Services

Introduction

This document describes how to connect the AVR-IoT WA or WG Development Board (featuring an 8-bit ATmega4808 AVR MCU, ATECC608A secure element, and ATWINC1510 Wi-Fi network controller module) to Azure IoT Hub. The AVR-IoT WA/WG Development Board will be provisioned for use with Azure IoT services using self-signed X.509 certificate-based authentication.

Software Installation Requirements

Hardware Requirements

  • AVR-IoT (WA or WG) Development Board

Instructions

  1. If you don't already have one, create a free Azure account.

  2. Sign into the Azure Portal.

  3. Follow the steps in the section titled "Create an IoT Hub" to use the Azure CLI to create your own resource group and IoT Hub within the resource group.

  4. Clone this repository using Git Command Line or GitHub Desktop. Alternatively, you can download the ZIP file of this repository and extract the ZIP file directly onto your PC's hard drive.

    GitHub 01

  5. Connect the AVR-IoT development board to the PC using a standard micro-USB cable. Generate and provision the required X.509 certificates by opening a Command Prompt or PowerShell window. Navigate to the location of the IoT Provisioning Tool which was previously downloaded (e.g. \iotprovision-bin-2.10.7.12.134\windows64). Execute the following command line:

    .\iotprovision-bin.exe -c azure

    NOTE: Ignore the error messages at the end regarding 'demo-azure'

  6. The IoT Provisioning Tool should have created a hidden folder named .microchip_iot located in the user's "home" directory (e.g. C:\Users\username). Configure your O.S. to show hidden files & folders, and then confirm that the Root CA, Signer CA, and device certificates were generated in this hidden folder. The device certificate wiil be located in a sub-folder corresponding to the kit's USB serial number (e.g. ATML3203071800001079).

    CRT 01

  7. Create copies of the 3 certificates (root-ca.crt, signer-ca.crt, device.crt) and rename them using the *.pem extension (root-ca.pem, signer-ca.pem, device.pem).

    PEM 01

  8. In the kit's USB serial number sub-folder, open the azure-device-id.txt file and note the device ID that is used for the Common Name field in the device certificate (e.g. sn0123460B75A64D68FE). Save this device ID information for use in a future step as this string will be used to identify your device's connection to the IoT Hub.

  9. Launch the Microchip Studio IDE. A picture of the AVR-IoT development board should appear in its own dedicated window within the IDE - showing that Microchip Studio has successfully connected to the AVR-IoT development board. Do not proceed until the connection to the board has been verified with the appearance of this pop-up window.

    Kit Window

  10. Modify the credentials of your wireless network, IoT Hub, and device in the provided example demo project.

    • Open the avr.iot-azure-demo.atsln project located in the AVR-IoT_Azure_Demo\firmware folder. Studio Step 01 Studio Step 02a
    • In the Solution Explorer window, expand the "cloud" sub-folder and double-click on cloud.h. Studio Step 02b
    • Modify the SSID and network password (PSK) for your wireless Access Point. Studio Step 02c
    • Modify the COMMON_NAME with your device ID string which was discovered in a previous step. Studio Step 02d
    • Go to the Azure Portal and click on your IoT Hub name. Studio Step 02de
    • Copy the name shown in the IoT Hub's Hostname field by clicking on the icon to the right of the string. Studio Step 02e
    • Modify (by pasting from the clipboard) the HOST_ENDPOINT definition with the value copied from the Hostname field. Studio Step 02f
    • Review and confirm that the 4 required settings were updated correctly for your scenario, and that every value is enclosed in double quotes. The following snippet is an example of one possible scenario: Studio Step 02g
  11. Rebuild and program the solution onto the AVR-IoT development board.

    Studio Step 03 Studio Step 04 Studio Step 05 Studio Step 06

  12. Go back into your Azure Portal account and click on your IoT Hub. Using the left-hand navigation pane, click on Devices and then + Add Device

  13. Enter/paste your Device ID and select X.509 CA Signed for Authentication type, then hit the Save button.

  14. Confirm that your new device has been successfully registered with your IoT Hub.

    Hub Step 02b

  15. Using the left-hand navigation pane, click on Certificates under Security settings, then click on the + Add icon.

  16. Type in any arbitrary Certificate name (e.g. your initials), upload the signer-ca.pem file that was generated in a previous step, check the box for "Set certificate status to verified on upload", then click on Save. The uploaded signer CA certificate can now be used by your IoT Hub to authenticate devices which have a leaf certificate derived from the signer CA certificate.

  17. Power cycle the AVR-IoT development board by unplugging and then plugging the micro-USB cable back into the board's USB connector. After a few moments, the Blue (WIFI) and Green (CONN) LEDs should turn constantly ON while the Yellow (DATA) LED blinks - signifying that the board has connected to the IoT Hub and is periodically sending data to the Cloud.

  18. In your Azure Portal account, using the left-hand navigation pane, click on Devices under Device management, then click on your device name.

    Hub Step 06

  19. Click on the Device Twin icon, then confirm that "connectionState" = "Connected".

    Hub Step 07 Hub Step 08

  20. Monitor the telemetry events being sent from the device to your IoT Hub. Open a Command Prompt or PowerShell window and execute the following command line:

    az iot hub monitor-events --hub-name {MyIoTHubName} --device-id {MyDeviceID}

    Note: replace {MyIoTHubName} and {MyDeviceID} with their actual names

  21. Each telemetry event has a payload field containing a value ("L") corresponding to the on-board light sensor (lumens) and a second value ("T") corresponding to the on-board temperature sensor (deg C). Increase the ambient light source shining directly on top of the board and observe that the "L" value increases substantially compared to before the additional light source was applied. Similarly, if you are able to change the ambient temperature of the board easily, you can also see the "T" value change accordingly. When finished, hit [CTRL-Z] to exit the monitoring process.

    Monitor Step 01

About

"IoT Made Easy!" - Connect the AVR-IoT WA/WG Development Board to Microsoft Azure

Topics

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published