#include <LoRa.h>
Initialize the library with the specified frequency.
LoRa.begin(frequency);
frequency
- frequency in Hz (433E6
,868E6
,915E6
)
Returns 1
on success, 0
on failure.
Override the default NSS
, NRESET
, and DIO0
pins used by the library. Must be called before LoRa.begin()
.
LoRa.setPins(ss, reset, dio0);
ss
- new slave select pin to use, defaults to10
reset
- new reset pin to use, defaults to9
dio0
- new DIO0 pin to use, defaults to2
. Must be interrupt capable via attachInterrupt(...).
This call is optional and only needs to be used if you need to change the default pins used.
To save further pins one could connect the reset pin of the MCU with reset pin of the radio thus resetting only during startup.
reset
- set to-1
to omit this pin
The dio0 pin can be used for transmission finish callback and/or receiving callback, check onTxDone
and onReceive
.
Override the default SPI interface used by the library. Must be called before LoRa.begin()
.
LoRa.setSPI(spi);
spi
- new SPI interface to use, defaults toSPI
This call is optional and only needs to be used if you need to change the default SPI interface used, in the case your Arduino (or compatible) board has more than one SPI interface present.
Override the default SPI frequency of 10 MHz used by the library. Must be called before LoRa.begin()
.
LoRa.setSPIFrequency(frequency);
frequency
- new SPI frequency to use, defaults to8E6
This call is optional and only needs to be used if you need to change the default SPI frequency used. Some logic level converters cannot support high speeds such as 8 MHz, so a lower SPI frequency can be selected with LoRa.setSPIFrequency(frequency)
.
Stop the library
LoRa.end()
Start the sequence of sending a packet.
LoRa.beginPacket();
LoRa.beginPacket(implicitHeader);
implicitHeader
- (optional)true
enables implicit header mode,false
enables explicit header mode (default)
Returns 1
if radio is ready to transmit, 0
if busy or on failure.
Write data to the packet. Each packet can contain up to 255 bytes.
LoRa.write(byte);
LoRa.write(buffer, length);
byte
- single byte to write to packet
or
buffer
- data to write to packetlength
- size of data to write
Returns the number of bytes written.
Note: Other Arduino Print
API's can also be used to write data into the packet
End the sequence of sending a packet.
LoRa.endPacket();
LoRa.endPacket(async);
async
- (optional)true
enables non-blocking mode,false
waits for transmission to be completed (default)
Returns 1
on success, 0
on failure.
WARNING: TxDone callback uses the interrupt pin on the dio0
check setPins
function!
Register a callback function for when a packet transmission finish.
LoRa.onTxDone(onTxDone);
void onTxDone() {
// ...
}
onTxDone
- function to call when a packet transmission finish.
Check if a packet has been received.
int packetSize = LoRa.parsePacket();
int packetSize = LoRa.parsePacket(size);
size
- (optional) if> 0
implicit header mode is enabled with the expected a packet ofsize
bytes, default mode is explicit header mode
Returns the packet size in bytes or 0
if no packet was received.
WARNING: Receive callback uses the interrupt pin on the dio0
, check setPins
function!
Register a callback function for when a packet is received.
LoRa.onReceive(onReceive);
void onReceive(int packetSize) {
// ...
}
onReceive
- function to call when a packet is received.
Puts the radio in continuous receive mode.
LoRa.receive();
LoRa.receive(int size);
size
- (optional) if> 0
implicit header mode is enabled with the expected a packet ofsize
bytes, default mode is explicit header mode
The onReceive
callback will be called when a packet is received.
int rssi = LoRa.packetRssi();
Returns the averaged RSSI of the last received packet (dBm).
float snr = LoRa.packetSnr();
Returns the estimated SNR of the received packet in dB.
int rssi = LoRa.rssi();
Returns the current RSSI of the radio (dBm). RSSI can be read at any time (during packet reception or not)
long freqErr = LoRa.packetFrequencyError();
Returns the frequency error of the received packet in Hz. The frequency error is the frequency offset between the receiver centre frequency and that of an incoming LoRa signal.
int availableBytes = LoRa.available()
Returns number of bytes available for reading.
Peek at the next byte in the packet.
byte b = LoRa.peek();
Returns the next byte in the packet or -1
if no bytes are available.
Read the next byte from the packet.
byte b = LoRa.read();
Returns the next byte in the packet or -1
if no bytes are available.
Note: Other Arduino Stream
API's can also be used to read data from the packet
Put the radio in idle (standby) mode.
LoRa.idle();
Put the radio in sleep mode.
LoRa.sleep();
Change the TX power of the radio.
LoRa.setTxPower(txPower);
LoRa.setTxPower(txPower, outputPin);
txPower
- TX power in dB, defaults to17
outputPin
- (optional) PA output pin, supported values arePA_OUTPUT_RFO_PIN
andPA_OUTPUT_PA_BOOST_PIN
, defaults toPA_OUTPUT_PA_BOOST_PIN
.
Supported values are 2
to 20
for PA_OUTPUT_PA_BOOST_PIN
, and 0
to 14
for PA_OUTPUT_RFO_PIN
.
Most modules have the PA output pin connected to PA BOOST,
Change the frequency of the radio.
LoRa.setFrequency(frequency);
frequency
- frequency in Hz (433E6
,868E6
,915E6
)
Change the spreading factor of the radio.
LoRa.setSpreadingFactor(spreadingFactor);
spreadingFactor
- spreading factor, defaults to7
Supported values are between 6
and 12
. If a spreading factor of 6
is set, implicit header mode must be used to transmit and receive packets.
Change the signal bandwidth of the radio.
LoRa.setSignalBandwidth(signalBandwidth);
signalBandwidth
- signal bandwidth in Hz, defaults to125E3
.
Supported values are 7.8E3
, 10.4E3
, 15.6E3
, 20.8E3
, 31.25E3
, 41.7E3
, 62.5E3
, 125E3
, 250E3
, and 500E3
.
Change the coding rate of the radio.
LoRa.setCodingRate4(codingRateDenominator);
codingRateDenominator
- denominator of the coding rate, defaults to5
Supported values are between 5
and 8
, these correspond to coding rates of 4/5
and 4/8
. The coding rate numerator is fixed at 4
.
Change the preamble length of the radio.
LoRa.setPreambleLength(preambleLength);
preambleLength
- preamble length in symbols, defaults to8
Supported values are between 6
and 65535
.
Change the sync word of the radio.
LoRa.setSyncWord(syncWord);
syncWord
- byte value to use as the sync word, defaults to0x12
Enable or disable CRC usage, by default a CRC is not used.
LoRa.enableCrc();
LoRa.disableCrc();
Enable or disable Invert the LoRa I and Q signals, by default a invertIQ is not used.
LoRa.enableInvertIQ();
LoRa.disableInvertIQ();
Set LNA Gain for better RX sensitivity, by default AGC (Automatic Gain Control) is used and LNA gain is not used.
LoRa.setGain(gain);
gain
- LNA gain
Supported values are between 0
and 6
. If gain is 0, AGC will be enabled and LNA gain will not be used. Else if gain is from 1 to 6, AGC will be disabled and LNA gain will be used.
Generate a random byte, based on the Wideband RSSI measurement.
byte b = LoRa.random();
Returns random byte.