mbedOS client example, modified to push X-Nucleo-IKS01A1/2 Environmental Sensor data to mbed Cloud Connector.
Dependencies: X_NUCLEO_IKS01A1 X_NUCLEO_IKS01A2
The application is derived from the official mbedOS client example (link) and has been tested using a X-NUCLEO-IKS01A2 (default) or a X-NUCLEO-IKS01A1 motion and environmental sensors expansion board connected to a ST NUCLEO-F429ZI platform.
The following steps should be performed to make the application work:
- Register and login into ARM mbed Connector.
- Replace the default and empty security.h file with the one associated with your account and provided by the Connector (Security Credentials menu).
- In order to use X-NUCLEO-IKS01A1 instead of default X-NUCLEO-IKS02A1 comment out the IKS01A2 macro definition in main.cpp file.
- Choose NUCLEO-F429ZI as a target either from online compiler or from CLI, compile and flash.
- Connect the board to your ethernet network, open a serial terminal (params 115200N1) and wait that the client is connected to the mbed Connector.
- Press user button to start acquiring and pushing the environmental (pressure, temperature and humidity) data.
Note: environmental data are expressed using IPSO representation based on OMA LWM2M standard.
docs/radio_module_identify.md
- Committer:
- nikapov
- Date:
- 2017-04-26
- Revision:
- 0:003e60a0deb8
File content as of revision 0:003e60a0deb8:
## Radio module identification * Make sure that you are using the same radio modules on both server and client sides: * If the radio module on the gateway router supports the 2.4 GHz frequency band, the client side must have an mbed 6LoWPAN shield that uses a 2.4 GHz radio module (such as Atmel AT86RF233). * If the radio module on the gateway router supports the sub-GHz frequency band, the client side must have an mbed 6LoWPAN shield that uses a sub-GHz radio module (such as Atmel AT86RF212B). * An easy way to identify which frequency band your setup uses is to check the **Antenna size** on the radio module: * The sub-GHz band antenna is larger than the 2.4 GHz antenna. * For the client side (mbed 6LoWPAN shield connected to an FRDM-K64F board), see the image below: ![](img/Radio_Identifications.png) * For the gateway router, see the image below: ![](img/Radio_Identifications_GW.png)