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Connecting a node to a cloud solution provider can be done using a 6LoWPAN protocol conveyed on sub GHz connectivity through a bridge connected to an appropriate long-range wireless network enabling a range of IoT applications including remote sensing, actuation and device management.

We provide ready-to-use software libraries and real-life firmware code examples to manage node-to-bridge and bridge-to-cloud connections.

 

subghz connected node block diagram

All tools & software

    • Part number
      Status
      Description
      Type
      Supplier

      FP-NET-6LPETH1

      Active

      STM32 ODE function pack for connecting 6LoWPAN IoT nodes to the Internet through an Ethernet network

      STM32 ODE Function Pack SW ST

      FP-NET-6LPWIFI1

      Active

      STM32Cube function pack for connecting 6LoWPAN IoT nodes to the Internet through a Wi-Fi Network

      STM32 ODE Function Pack SW ST

      FP-SNS-6LPNODE1

      Active

      STM32Cube function pack for IoT sensor node connection to 6LoWPAN networks through sub-1GHz RF communication

      STM32 ODE Function Pack SW ST

      X-CUBE-SUBG2

      Active

      Sub-1 GHz RF communication software expansion for STM32Cube based on S2-LP

      STM32Cube Expansion Packages ST
      FP-NET-6LPETH1

      Description:

      STM32 ODE function pack for connecting 6LoWPAN IoT nodes to the Internet through an Ethernet network
      FP-NET-6LPWIFI1

      Description:

      STM32Cube function pack for connecting 6LoWPAN IoT nodes to the Internet through a Wi-Fi Network
      FP-SNS-6LPNODE1

      Description:

      STM32Cube function pack for IoT sensor node connection to 6LoWPAN networks through sub-1GHz RF communication
      X-CUBE-SUBG2

      Description:

      Sub-1 GHz RF communication software expansion for STM32Cube based on S2-LP