This Arduino Library is making LoRa-E5 development much simpler for developper LoRa-E5 is a LoRaWAN module make by Seeed studio.
- Download the Zip file from the github releases menu
- In Arduino, go to sketch / include library / Add a library ZIP
- Load the downloaded Zip file
- Now you can import the library (Disk91 LoRaE5 library)
- Watch the examples in Arduino / Files / Examples / Disk91 LoRa-E5 library
- LoRaE5 module detection over different Serial ports on WIO
- LoRaWan configuration persistence
- Uplink / Downlink
- Synchronous and Asynchronous use
- Duty Cycle user management
- EU868
- US915
- AS923_1/2/3/4
- KR920
- IN865
Disk91_LoRaE5(
bool nothing = false // if anyone can explain me why w/o param the constructer generate compilation error ?!?
);
Disk91_LoRaE5(
uint16_t atTimeoutMs, // Default timeout in Ms for AT command execution
Serial_ * logSerial = NULL // When set, the library debug is enabled
);
Disk91_LoRaE5(
Serial_ * logSerial = NULL // When set, the library debug is enabled
);
~Disk91_LoRaE5();
bool begin(
uint8_t portType = DSKLORAE5_HWSEARCH, // where to find the LoRa-E5 board
__HWSERIAL_T * hwSerial = NULL, // for HWSERIAL_CUSTOM, link the associated Serial
SoftwareSerial * swSerial = NULL, // for SWSERIAL_CUTSOM, link the associated SoftwareSerial
int16_t ssRxPort = -1, // for SWSERIAL_PINS, specify the RX & TX Pin, the SSerial will be initialized
int16_t ssTxPort = -1
);
bool setup( // Setup the LoRaWAN stack with the stored credentials
bool selfDC = false, // when true, the duty cycle management is not managed by the module but the user application
bool withADR = false // when true, the ADR is turned ON
);
bool setup( // Setup the LoRaWAN stack
uint8_t zone, // radio zone selection
uint8_t deveui[], // deviceEUI in the normal order for the bytes
uint8_t appeui[], // applicationEUI in the normal order for the bytes
uint8_t appkey[], // applicationKEY in the normal order for the bytes
bool selfDC = false, // when true, the duty cycle management is not managed by the module but the user application
bool withADR = false // when true, the ADR is turned ON
);
bool persistConfig( // Store the LoRaWan configuration into module EEPROM for restoring later
// this allows to update WIO firmware without loosing the LoRaWan credentials
uint8_t zone, // radio zone selection
uint8_t deveui[], // deviceEUI in the normal order for the bytes
uint8_t appeui[], // applicationEUI in the normal order for the bytes
uint8_t appkey[] // applicationKEY in the normal order for the bytes
);
bool haveStoredConfig(); // Returns true when a configuration has already been stored in the E5 memory
bool clearStoredConfig(); // Purge the stored configuration for E5
bool sendReceive_sync( // send a message on LoRaWan expert an ack at least, eventually a downlink, return true when sent is a success and expect a ack
uint8_t port, // LoRaWan port
uint8_t * data, // Data / payload to be transmitted
uint8_t sz, // Size of the data, when 0 Join only is proceeded
uint8_t * rxBuffer, // Downlink buffer, make sure it will be large enought, no verification
uint8_t * rxSize, // uint8_t containing the rxBuffer size and returning the downlink message size
uint8_t * rxPort, // uint8_t pointer for returnin the downlink port
uint8_t sf = 9, // Spread Factor , use DSKLORAE5_SF_UNCHANGED to keep the previous one
uint8_t pwr = 14, // Transmission power, use DSKLORAE5_DW_UNCHANGED to keep the previous one
uint8_t retries = 0 // Number of retry, use DSKLORAE5_RT_UNCHANGED to keep the previous one. retry = 0 means 1 uplink, no retry
);
bool send_sync( // send a message on LoRaWan, return true when sent is a success
uint8_t port, // LoRaWan port
uint8_t * data, // Data / payload to be transmitted
uint8_t sz, // Size of the data, when 0 Join only is proceeded
bool acked = false, // Ack / Downlink request
uint8_t sf = 9, // Spread Factor , use DSKLORAE5_SF_UNCHANGED to keep the previous one
uint8_t pwr = 14, // Transmission power, use DSKLORAE5_DW_UNCHANGED to keep the previous one
uint8_t retries = 0 // Number of retry, use DSKLORAE5_RT_UNCHANGED to keep the previous one. retry = 0 means 1 uplink, no retry
);
bool join_sync( // Join only (join is automatically executed on send but you can decide to join sepratly)
uint8_t sf = 9, // Spread Factor , use DSKLORAE5_SF_UNCHANGED to keep the previous one
uint8_t pwr = 14 // Transmission power, use DSKLORAE5_DW_UNCHANGED to keep the previous one
);
bool isJoined(); // return true when the device has joined the network
bool isAcked(); // return true when the previous uplink has been confirmed as received
bool isDownlinkPending(); // return true when the previous uplink got a downlink pending response
bool isDownlinkReceived(); // return true when the previous uplink got a downlink response
int16_t getRssi(); // return last Ack RSSI when the previous uplink has been confirmed as received or DSKLORAE5_INVALID_RSSI
int16_t getSnr(); // return last Ack SNR when the previous uplink has been confirmed as received or DSKLORAE5_INVALID_SNR
Initial version.