SX1276 Shield based Applications
Dependencies: X_NUCLEO_IKS01A1 LoRaWAN-lib SX1276Lib mbed
LoRaWAN-SX1276-Application Demo uses SX1276MB1LAS mbed component shield on a nucleo board platform to demonstrate a Class-A LoRaWAN device in the 915MHz ISM band for North American region. It uses the LoRaWAN-lib and SX1276Lib libraries.
Comissioning.h (LoRaWAN Network Configuration)
The end-device can be activated in one of the two ways:
Over the Air (OTA) activation can be enabled as shown in the figure below.
The end-device must be configured with the following parameters:
LORAWAN_DEVICE_EUI
(8 Bytes) : Fist 3 Bytes is the Organizationally Unique Identifier (OUI) followed by 5 bytes of unique ID. If not defined by user, then the firmware automatically assigns one to the end-deviceLORAWAN_APPLICATION_EUI
(8 Bytes)LORAWAN_APPLICATION_KEY
(or DEVKEY) (16 Bytes)
Activation by Personalization (ABP) can be enabled as shown in the figure below.
The end-device must be configured with the following parameters:
LORAWAN_DEVICE_ADDRESS
(4 Bytes) : If not defined by user, then the firmware automatically assigns one to the end-deviceLORAWAN_NWKSKEY
(16 Bytes)LORAWAN_APPSKEY
(16 Bytes)
Config.h (LoRaWAN Communication Parameters)
- Mode of Operation : Hybrid
If the end-device needs to be configured to operate over 8-channels, then
Hybrid Mode
needs to be enabled
- Mode of Operation : Frequency Hop
If the end-device needs to be configured to operate over 64-channels, then
Hybrid Mode
needs to be disabled
- Delay between successive JOIN REQUESTs :
The delay between successive Join Requests (until the end-device joins the network) can be configured using the parameter
OVER_THE_AIR_ACTIVATION_DUTYCYCLE
- Inter-Frame Delay :
One can change the delay between each frame transmission using
APP_TX_DUTYCYCLE
It is advisable thatAPP_TX_DUTYCYCLE
is greater than or equal to 3sec.
- Data Rate :
The data rate can be configured as per LoRaWAN specification using the paramter
LORAWAN_DEFAULT_DATARATE
. The range of values are DR_0, DR_1, DR_2, DR_3 and DR_4
- Confirmed/Unconfirmed Messages :
The uplink message or payload can be chosen to be confirmed or unconfirmed using the parameter
LORAWAN_CONFIRMED_MSG_ON
. When set to 1, the transmitted messages need to be confirmed with anACK
by the network server in the subsequent RX window. When set to 0, noACK
is requested.
- ADR ON/OFF :
The ADR can be enabled or disabled using the parameter
LORAWAN_ADR_ON
. When set to 1, ADR is enabled and disabled when set to 0.
- Application Port :
The application port can be set using parameter
LORAWAN_APP_PORT
. A few examples are associated to specific Application Port, and are defined in Config.h
- Payload Length :
The lenght of the payload (in bytes) to be transmitted can be configured using
LORAWAN_APP_DATA_SIZE
- Transmit Power :
The transmit power can be configured using
LORAWAN_TX_POWER
(LoRaMAC verifies if the set power is compliant with the LoRaWAN spec and FCC guidelines)
The baud-rate for serial terminal display is 115200
Diff: app/LoRaEventProc.cpp
- Revision:
- 3:4bca7f8f731a
- Parent:
- 2:78df92a365c2
- Child:
- 4:aad57e03bf82
diff -r 78df92a365c2 -r 4bca7f8f731a app/LoRaEventProc.cpp --- a/app/LoRaEventProc.cpp Sat Aug 27 04:03:02 2016 +0000 +++ b/app/LoRaEventProc.cpp Thu Apr 06 16:35:17 2017 +0000 @@ -23,6 +23,8 @@ bool AppLed = 0; +uint8_t AppCase = 0; + /*! * \brief Prepares the payload of the frame based on application port */ @@ -92,6 +94,105 @@ break; } + + // IKAS sensor using Cayenne Payload Format + case 9: + { +#ifdef USE_CAYENNE_LPP + uint8_t ptrIndex = 0; + + uint16_t AppSize = 0; + + uint8_t tmp[2] = {0}; + + //Point the pointer to position index of Tx Buffer + LoRaApp.ApplicationPtrPos( ptrIndex ); + + AppCase = AppCase > 3 ? 0 : AppCase; + + while( 1 ) + { + switch( AppCase ) + { + case 0: + { + tmp[0] = 0; + tmp[1] = 115; // Data Type PRESSURE: 115 + LoRaApp.ApplicationAppendData( tmp, 2 ); + + /*! + * Read Pressure + * Appends 2 Bytes to TX buffer + */ + LoRaApp.ApplicationCall( AppPressr ); + + AppSize += maxLPPsize[AppCase]; + + break; + } + + case 1: + { + tmp[0] = 1; + tmp[1] = 103; // Data Type TEMP: 103 + LoRaApp.ApplicationAppendData( tmp, 2 ); + + /*! + * Read Temperature + * Appends 1 Byte to TX buffer + */ + LoRaApp.ApplicationCall( AppTemp ); + + AppSize += maxLPPsize[AppCase]; + + break; + } + + case 2: + { + tmp[0] = 2; + tmp[1] = 104; // Data Type HUMIDITY: 103 + LoRaApp.ApplicationAppendData( tmp, 2 ); + + /*! + * Read Humidity + * Appends 1 Byte to TX buffer + */ + LoRaApp.ApplicationCall( AppHumid ); + + AppSize += maxLPPsize[AppCase]; + + break; + } + + case 3: + { + tmp[0] = 3; + tmp[1] = 113; // Data Type Accl: 113 + LoRaApp.ApplicationAppendData( tmp, 2 ); + /*! + * Read Accelerometer + */ + LoRaApp.ApplicationCall( AppAccl ); // Generate Accelerometer data bytes + + AppSize += maxLPPsize[AppCase]; + + break; + } + } + + AppCase++; + + if( AppSize + maxLPPsize[AppCase] > LORAWAN_APP_DATA_SIZE ) + { + break; + } + } + + AppDataSize = AppSize; +#endif + break; + } // Push-Button Demo case 11: