commit/a7a571b91ea5d28239029cd9374db73e66e69291/_physical_layer_8h_source.html

#if !defined(_RADIOLIB_PHYSICAL_LAYER_H)

#define _RADIOLIB_PHYSICAL_LAYER_H


#include "../../TypeDef.h"

#include "../../Module.h"


// common IRQ values - the IRQ flags in RadioLibIrqFlags_t arguments are offset by this value

enum RadioLibIrqType_t {

  RADIOLIB_IRQ_TX_DONE = 0x00,

  RADIOLIB_IRQ_RX_DONE = 0x01,

  RADIOLIB_IRQ_PREAMBLE_DETECTED = 0x02,

  RADIOLIB_IRQ_SYNC_WORD_VALID = 0x03,

  RADIOLIB_IRQ_HEADER_VALID = 0x04,

  RADIOLIB_IRQ_HEADER_ERR = 0x05,

  RADIOLIB_IRQ_CRC_ERR = 0x06,

  RADIOLIB_IRQ_CAD_DONE = 0x07,

  RADIOLIB_IRQ_CAD_DETECTED = 0x08,

  RADIOLIB_IRQ_TIMEOUT = 0x09,

  RADIOLIB_IRQ_NOT_SUPPORTED = 0x1F, // this must be the last value, intentionally set to 31

};


// some commonly used default values - defined here to ensure all modules have the same default behavior

#define RADIOLIB_IRQ_RX_DEFAULT_FLAGS       ((1UL << RADIOLIB_IRQ_RX_DONE) | (1UL << RADIOLIB_IRQ_TIMEOUT) | (1UL << RADIOLIB_IRQ_CRC_ERR) | (1UL << RADIOLIB_IRQ_HEADER_VALID) | (1UL << RADIOLIB_IRQ_HEADER_ERR))

#define RADIOLIB_IRQ_RX_DEFAULT_MASK        ((1UL << RADIOLIB_IRQ_RX_DONE))

#define RADIOLIB_IRQ_CAD_DEFAULT_FLAGS      ((1UL << RADIOLIB_IRQ_CAD_DETECTED) | (1UL << RADIOLIB_IRQ_CAD_DONE))

#define RADIOLIB_IRQ_CAD_DEFAULT_MASK       ((1UL << RADIOLIB_IRQ_CAD_DETECTED) | (1UL << RADIOLIB_IRQ_CAD_DONE))


struct LoRaRate_t {

  uint8_t spreadingFactor;


  float bandwidth;


  uint8_t codingRate;

};


struct FSKRate_t {

  float bitRate;


  float freqDev;

};


struct LrFhssRate_t {

  uint8_t bw;


  uint8_t cr;


  bool narrowGrid;

};


union DataRate_t {

  LoRaRate_t lora;


  FSKRate_t fsk;


  LrFhssRate_t lrFhss;

};


struct CADScanConfig_t {

  uint8_t symNum;


  uint8_t detPeak;


  uint8_t detMin;


  uint8_t exitMode;


  RadioLibTime_t timeout;


  RadioLibIrqFlags_t irqFlags;


  RadioLibIrqFlags_t irqMask;

};


struct RSSIScanConfig_t {

  float limit;

};


union ChannelScanConfig_t {

  CADScanConfig_t cad;


  RSSIScanConfig_t rssi;

};


enum ModemType_t {

  RADIOLIB_MODEM_FSK = 0,

  RADIOLIB_MODEM_LORA,

  RADIOLIB_MODEM_LRFHSS,

};


class PhysicalLayer {

  public:


    // constructor


    PhysicalLayer(float step, size_t maxLen);


    // basic methods


    #if defined(RADIOLIB_BUILD_ARDUINO)

    int16_t transmit(__FlashStringHelper* fstr, uint8_t addr = 0);


    int16_t transmit(String& str, uint8_t addr = 0);

    #endif


    int16_t transmit(const char* str, uint8_t addr = 0);


    virtual int16_t transmit(const uint8_t* data, size_t len, uint8_t addr = 0);


    #if defined(RADIOLIB_BUILD_ARDUINO)

    int16_t receive(String& str, size_t len = 0);

    #endif


    virtual int16_t sleep();


    virtual int16_t standby();


    virtual int16_t standby(uint8_t mode);


    virtual int16_t startReceive();


    virtual int16_t startReceive(uint32_t timeout, RadioLibIrqFlags_t irqFlags, RadioLibIrqFlags_t irqMask, size_t len);


    virtual int16_t receive(uint8_t* data, size_t len);


    #if defined(RADIOLIB_BUILD_ARDUINO)

    int16_t startTransmit(String& str, uint8_t addr = 0);

    #endif


    int16_t startTransmit(const char* str, uint8_t addr = 0);


    virtual int16_t startTransmit(const uint8_t* data, size_t len, uint8_t addr = 0);


    virtual int16_t finishTransmit();


    #if defined(RADIOLIB_BUILD_ARDUINO)

    int16_t readData(String& str, size_t len = 0);

    #endif


    virtual int16_t readData(uint8_t* data, size_t len);


    virtual int16_t transmitDirect(uint32_t frf = 0);


    virtual int16_t receiveDirect();


    // configuration methods


    virtual int16_t setFrequency(float freq);


    virtual int16_t setBitRate(float br);


    virtual int16_t setFrequencyDeviation(float freqDev);


    virtual int16_t setDataShaping(uint8_t sh);


    virtual int16_t setEncoding(uint8_t encoding);


    virtual int16_t invertIQ(bool enable);


    virtual int16_t setOutputPower(int8_t power);


    virtual int16_t checkOutputPower(int8_t power, int8_t* clipped);


    virtual int16_t setSyncWord(uint8_t* sync, size_t len);


    virtual int16_t setPreambleLength(size_t len);


    virtual int16_t setDataRate(DataRate_t dr);


    virtual int16_t checkDataRate(DataRate_t dr);


    float getFreqStep() const;


    virtual size_t getPacketLength(bool update = true);


    virtual float getRSSI();


    virtual float getSNR();


    virtual RadioLibTime_t getTimeOnAir(size_t len);


    virtual RadioLibTime_t calculateRxTimeout(RadioLibTime_t timeoutUs);


    uint32_t getIrqMapped(RadioLibIrqFlags_t irq);


    int16_t checkIrq(RadioLibIrqType_t irq);


    int16_t setIrq(RadioLibIrqFlags_t irq);


    int16_t clearIrq(RadioLibIrqFlags_t irq);


    virtual uint32_t getIrqFlags();


    virtual int16_t setIrqFlags(uint32_t irq);


    virtual int16_t clearIrqFlags(uint32_t irq);


    virtual int16_t startChannelScan();


    virtual int16_t startChannelScan(const ChannelScanConfig_t &config);


    virtual int16_t getChannelScanResult();


    virtual int16_t scanChannel();


    virtual int16_t scanChannel(const ChannelScanConfig_t &config);


    int32_t random(int32_t max);


    int32_t random(int32_t min, int32_t max);


    virtual uint8_t randomByte();


    int16_t startDirect();


    #if !RADIOLIB_EXCLUDE_DIRECT_RECEIVE

    int16_t setDirectSyncWord(uint32_t syncWord, uint8_t len);


    virtual void setDirectAction(void (*func)(void));


    virtual void readBit(uint32_t pin);


    int16_t available();


    void dropSync();


    uint8_t read(bool drop = true);

    #endif


    virtual int16_t setDIOMapping(uint32_t pin, uint32_t value);


    virtual void setPacketReceivedAction(void (*func)(void));


    virtual void clearPacketReceivedAction();


    virtual void setPacketSentAction(void (*func)(void));


    virtual void clearPacketSentAction();


    virtual void setChannelScanAction(void (*func)(void));


    virtual void clearChannelScanAction();


    virtual int16_t setModem(ModemType_t modem);


    virtual int16_t getModem(ModemType_t* modem);


    #if RADIOLIB_INTERRUPT_TIMING


    void setInterruptSetup(void (*func)(uint32_t));


    void setTimerFlag();


    #endif


#if !RADIOLIB_GODMODE

  protected:

#endif

    uint32_t irqMap[10] = { 0 };


#if !RADIOLIB_EXCLUDE_DIRECT_RECEIVE

    void updateDirectBuffer(uint8_t bit);

#endif


#if !RADIOLIB_GODMODE

  private:

#endif

    float freqStep;

    size_t maxPacketLength;


    #if !RADIOLIB_EXCLUDE_DIRECT_RECEIVE

    uint8_t bufferBitPos = 0;

    uint8_t bufferWritePos = 0;

    uint8_t bufferReadPos = 0;

    uint8_t buffer[RADIOLIB_STATIC_ARRAY_SIZE] = { 0 };

    uint32_t syncBuffer = 0;

    uint32_t directSyncWord = 0;

    uint8_t directSyncWordLen = 0;

    uint32_t directSyncWordMask = 0;

    bool gotSync = false;

    #endif


    virtual Module* getMod() = 0;


    // allow specific classes access the private getMod method

    friend class AFSKClient;

    friend class RTTYClient;

    friend class MorseClient;

    friend class HellClient;

    friend class SSTVClient;

    friend class AX25Client;

    friend class FSK4Client;

    friend class PagerClient;

    friend class BellClient;

    friend class FT8Client;

    friend class LoRaWANNode;

    friend class M17Client;

};


#endif

AFSKClient
Client for audio-based transmissions. Requires Arduino tone() function, and a module capable of direc...
Definition AFSK.h:16

AX25Client
Client for AX25 communication.
Definition AX25.h:233

BellClient
Client for Bell modem communication. The public interface is the same as Arduino Serial.
Definition BellModem.h:54

FSK4Client
Client for FSK-4 communication. The public interface is the same as Arduino Serial.
Definition FSK4.h:15

HellClient
Client for Hellschreiber transmissions.
Definition Hellschreiber.h:90

LoRaWANNode
LoRaWAN-compatible node (class A device).
Definition LoRaWAN.h:524

Module
Implements all common low-level methods to control the wireless module. Every module class contains o...
Definition Module.h:73

MorseClient
Client for Morse Code communication. The public interface is the same as Arduino Serial.
Definition Morse.h:94

PagerClient
Client for Pager communication.
Definition Pager.h:62

PhysicalLayer
Provides common interface for protocols that run on LoRa/FSK modules, such as RTTY or LoRaWAN....
Definition PhysicalLayer.h:151

PhysicalLayer::invertIQ
virtual int16_t invertIQ(bool enable)
Set IQ inversion. Must be implemented in module class if the module supports it.
Definition PhysicalLayer.cpp:246

PhysicalLayer::clearChannelScanAction
virtual void clearChannelScanAction()
Clears interrupt service routine to call when a channel scan is finished.
Definition PhysicalLayer.cpp:526

PhysicalLayer::checkOutputPower
virtual int16_t checkOutputPower(int8_t power, int8_t *clipped)
Check if output power is configurable. Must be implemented in module class if the module supports it.
Definition PhysicalLayer.cpp:256

PhysicalLayer::startReceive
virtual int16_t startReceive()
Sets module to received mode using its default configuration.
Definition PhysicalLayer.cpp:130

PhysicalLayer::randomByte
virtual uint8_t randomByte()
Get one truly random byte from RSSI noise. Must be implemented in module class.
Definition PhysicalLayer.cpp:401

PhysicalLayer::finishTransmit
virtual int16_t finishTransmit()
Clean up after transmission is done.
Definition PhysicalLayer.cpp:159

PhysicalLayer::checkIrq
int16_t checkIrq(RadioLibIrqType_t irq)
Check whether a specific IRQ bit is set (e.g. RxTimeout, CadDone).
Definition PhysicalLayer.cpp:322

PhysicalLayer::setFrequencyDeviation
virtual int16_t setFrequencyDeviation(float freqDev)
Sets FSK frequency deviation from carrier frequency. Only available in FSK mode. Must be implemented ...
Definition PhysicalLayer.cpp:231

PhysicalLayer::getPacketLength
virtual size_t getPacketLength(bool update=true)
Query modem for the packet length of received payload. Must be implemented in module class.
Definition PhysicalLayer.cpp:287

PhysicalLayer::setPacketSentAction
virtual void setPacketSentAction(void(*func)(void))
Sets interrupt service routine to call when a packet is sent.
Definition PhysicalLayer.cpp:514

PhysicalLayer::setDIOMapping
virtual int16_t setDIOMapping(uint32_t pin, uint32_t value)
Configure DIO pin mapping to get a given signal on a DIO pin (if available).
Definition PhysicalLayer.cpp:500

PhysicalLayer::readData
virtual int16_t readData(uint8_t *data, size_t len)
Reads data that was received after calling startReceive method.
Definition PhysicalLayer.cpp:206

PhysicalLayer::dropSync
void dropSync()
Forcefully drop synchronization.
Definition PhysicalLayer.cpp:424

PhysicalLayer::transmit
int16_t transmit(const char *str, uint8_t addr=0)
C-string transmit method.
Definition PhysicalLayer.cpp:53

PhysicalLayer::read
uint8_t read(bool drop=true)
Get data from direct mode buffer.
Definition PhysicalLayer.cpp:431

PhysicalLayer::getTimeOnAir
virtual RadioLibTime_t getTimeOnAir(size_t len)
Get expected time-on-air for a given size of payload.
Definition PhysicalLayer.cpp:300

PhysicalLayer::checkDataRate
virtual int16_t checkDataRate(DataRate_t dr)
Check the data rate can be configured by this module. Must be implemented in module class if the modu...
Definition PhysicalLayer.cpp:278

PhysicalLayer::getChannelScanResult
virtual int16_t getChannelScanResult()
Read the channel scan result.
Definition PhysicalLayer.cpp:361

PhysicalLayer::clearPacketSentAction
virtual void clearPacketSentAction()
Clears interrupt service routine to call when a packet is sent.
Definition PhysicalLayer.cpp:518

PhysicalLayer::setSyncWord
virtual int16_t setSyncWord(uint8_t *sync, size_t len)
Set sync word. Must be implemented in module class if the module supports it.
Definition PhysicalLayer.cpp:262

PhysicalLayer::setDataRate
virtual int16_t setDataRate(DataRate_t dr)
Set data. Must be implemented in module class if the module supports it.
Definition PhysicalLayer.cpp:273

PhysicalLayer::setModem
virtual int16_t setModem(ModemType_t modem)
Set modem for the radio to use. Will perform full reset and reconfigure the radio using its default p...
Definition PhysicalLayer.cpp:530

PhysicalLayer::clearPacketReceivedAction
virtual void clearPacketReceivedAction()
Clears interrupt service routine to call when a packet is received.
Definition PhysicalLayer.cpp:510

PhysicalLayer::calculateRxTimeout
virtual RadioLibTime_t calculateRxTimeout(RadioLibTime_t timeoutUs)
Calculate the timeout value for this specific module / series (in number of symbols or units of time)...
Definition PhysicalLayer.cpp:305

PhysicalLayer::setIrq
int16_t setIrq(RadioLibIrqFlags_t irq)
Set interrupt on specific IRQ bit(s) (e.g. RxTimeout, CadDone). Keep in mind that not all radio modul...
Definition PhysicalLayer.cpp:330

PhysicalLayer::setPreambleLength
virtual int16_t setPreambleLength(size_t len)
Set preamble length. Must be implemented in module class if the module supports it.
Definition PhysicalLayer.cpp:268

PhysicalLayer::startDirect
int16_t startDirect()
Configure module parameters for direct modes. Must be called prior to "ham" modes like RTTY or AX....
Definition PhysicalLayer.cpp:405

PhysicalLayer::setFrequency
virtual int16_t setFrequency(float freq)
Sets carrier frequency. Must be implemented in module class.
Definition PhysicalLayer.cpp:221

PhysicalLayer::setDirectSyncWord
int16_t setDirectSyncWord(uint32_t syncWord, uint8_t len)
Set sync word to be used to determine start of packet in direct reception mode.
Definition PhysicalLayer.cpp:439

PhysicalLayer::startTransmit
int16_t startTransmit(const char *str, uint8_t addr=0)
Interrupt-driven Arduino String transmit method. Unlike the standard transmit method,...
Definition PhysicalLayer.cpp:148

PhysicalLayer::getFreqStep
float getFreqStep() const
Gets the module frequency step size that was set in constructor.
Definition PhysicalLayer.cpp:283

PhysicalLayer::transmitDirect
virtual int16_t transmitDirect(uint32_t frf=0)
Enables direct transmission mode on pins DIO1 (clock) and DIO2 (data). Must be implemented in module ...
Definition PhysicalLayer.cpp:212

PhysicalLayer::getRSSI
virtual float getRSSI()
Gets RSSI (Recorded Signal Strength Indicator) of the last received packet.
Definition PhysicalLayer.cpp:292

PhysicalLayer::available
int16_t available()
Get the number of direct mode bytes currently available in buffer.
Definition PhysicalLayer.cpp:420

PhysicalLayer::receive
virtual int16_t receive(uint8_t *data, size_t len)
Binary receive method. Must be implemented in module class.
Definition PhysicalLayer.cpp:111

PhysicalLayer::scanChannel
virtual int16_t scanChannel()
Check whether the current communication channel is free or occupied. Performs CAD for LoRa modules,...
Definition PhysicalLayer.cpp:365

PhysicalLayer::setDirectAction
virtual void setDirectAction(void(*func)(void))
Set interrupt service routine function to call when data bit is received in direct mode....
Definition PhysicalLayer.cpp:490

PhysicalLayer::clearIrqFlags
virtual int16_t clearIrqFlags(uint32_t irq)
Clear interrupt on a specific IRQ bit (e.g. RxTimeout, CadDone). Must be implemented in module class.
Definition PhysicalLayer.cpp:347

PhysicalLayer::setEncoding
virtual int16_t setEncoding(uint8_t encoding)
Sets FSK data encoding. Only available in FSK mode. Must be implemented in module class.
Definition PhysicalLayer.cpp:241

PhysicalLayer::standby
virtual int16_t standby()
Sets module to standby.
Definition PhysicalLayer.cpp:121

PhysicalLayer::random
int32_t random(int32_t max)
Get truly random number in range 0 - max.
Definition PhysicalLayer.cpp:374

PhysicalLayer::readBit
virtual void readBit(uint32_t pin)
Function to read and process data bit in direct reception mode. Must be implemented in module class.
Definition PhysicalLayer.cpp:494

PhysicalLayer::setOutputPower
virtual int16_t setOutputPower(int8_t power)
Set output power. Must be implemented in module class if the module supports it.
Definition PhysicalLayer.cpp:251

PhysicalLayer::receiveDirect
virtual int16_t receiveDirect()
Enables direct reception mode on pins DIO1 (clock) and DIO2 (data). Must be implemented in module cla...
Definition PhysicalLayer.cpp:217

PhysicalLayer::setChannelScanAction
virtual void setChannelScanAction(void(*func)(void))
Sets interrupt service routine to call when a channel scan is finished.
Definition PhysicalLayer.cpp:522

PhysicalLayer::startChannelScan
virtual int16_t startChannelScan()
Interrupt-driven channel activity detection method. Interrupt will be activated when packet is detect...
Definition PhysicalLayer.cpp:352

PhysicalLayer::getIrqMapped
uint32_t getIrqMapped(RadioLibIrqFlags_t irq)
Convert from radio-agnostic IRQ flags to radio-specific flags.
Definition PhysicalLayer.cpp:310

PhysicalLayer::setDataShaping
virtual int16_t setDataShaping(uint8_t sh)
Sets GFSK data shaping. Only available in FSK mode. Must be implemented in module class.
Definition PhysicalLayer.cpp:236

PhysicalLayer::setPacketReceivedAction
virtual void setPacketReceivedAction(void(*func)(void))
Sets interrupt service routine to call when a packet is received.
Definition PhysicalLayer.cpp:506

PhysicalLayer::setBitRate
virtual int16_t setBitRate(float br)
Sets FSK bit rate. Only available in FSK mode. Must be implemented in module class.
Definition PhysicalLayer.cpp:226

PhysicalLayer::getSNR
virtual float getSNR()
Gets SNR (Signal to Noise Ratio) of the last received packet. Only available for LoRa modem.
Definition PhysicalLayer.cpp:296

PhysicalLayer::getModem
virtual int16_t getModem(ModemType_t *modem)
Get modem currently in use by the radio.
Definition PhysicalLayer.cpp:535

PhysicalLayer::sleep
virtual int16_t sleep()
Sets module to sleep.
Definition PhysicalLayer.cpp:117

PhysicalLayer::getIrqFlags
virtual uint32_t getIrqFlags()
Read currently active IRQ flags. Must be implemented in module class.
Definition PhysicalLayer.cpp:338

PhysicalLayer::setIrqFlags
virtual int16_t setIrqFlags(uint32_t irq)
Set interrupt on DIO1 to be sent on a specific IRQ bit (e.g. RxTimeout, CadDone). Must be implemented...
Definition PhysicalLayer.cpp:342

PhysicalLayer::clearIrq
int16_t clearIrq(RadioLibIrqFlags_t irq)
Clear interrupt on a specific IRQ bit (e.g. RxTimeout, CadDone). Keep in mind that not all radio modu...
Definition PhysicalLayer.cpp:334

RTTYClient
Client for RTTY communication. The public interface is the same as Arduino Serial.
Definition RTTY.h:17

SSTVClient
Client for SSTV transmissions.
Definition SSTV.h:121

RadioLibTime_t
unsigned long RadioLibTime_t
Type used for durations in RadioLib.
Definition TypeDef.h:642

RadioLibIrqFlags_t
uint32_t RadioLibIrqFlags_t
Type used for radio-agnostic IRQ flags. IRQ to enable corresponds to the bit index (RadioLibIrq_t)....
Definition TypeDef.h:648

CADScanConfig_t
Channel scan configuration interpretation in case LoRa CAD is used.
Definition PhysicalLayer.h:89

CADScanConfig_t::timeout
RadioLibTime_t timeout
Timeout in microseconds.
Definition PhysicalLayer.h:103

CADScanConfig_t::detPeak
uint8_t detPeak
Number of peak detection symbols.
Definition PhysicalLayer.h:94

CADScanConfig_t::symNum
uint8_t symNum
Number of symbols to consider signal present.
Definition PhysicalLayer.h:91

CADScanConfig_t::exitMode
uint8_t exitMode
Exit mode after signal detection is complete - module-specific value.
Definition PhysicalLayer.h:100

CADScanConfig_t::irqFlags
RadioLibIrqFlags_t irqFlags
Optional IRQ flags to set, bits offset by the value of RADIOLIB_IRQ_.
Definition PhysicalLayer.h:106

CADScanConfig_t::irqMask
RadioLibIrqFlags_t irqMask
Optional IRQ mask to set, bits offset by the value of RADIOLIB_IRQ_.
Definition PhysicalLayer.h:109

CADScanConfig_t::detMin
uint8_t detMin
Number of minimum detection symbols.
Definition PhysicalLayer.h:97

FSKRate_t
Data rate structure interpretation in case FSK is used.
Definition PhysicalLayer.h:47

FSKRate_t::bitRate
float bitRate
FSK bit rate in kbps.
Definition PhysicalLayer.h:49

FSKRate_t::freqDev
float freqDev
FSK frequency deviation in kHz.
Definition PhysicalLayer.h:52

LoRaRate_t
Data rate structure interpretation in case LoRa is used.
Definition PhysicalLayer.h:32

LoRaRate_t::spreadingFactor
uint8_t spreadingFactor
LoRa spreading factor.
Definition PhysicalLayer.h:34

LoRaRate_t::bandwidth
float bandwidth
LoRa bandwidth in kHz.
Definition PhysicalLayer.h:37

LoRaRate_t::codingRate
uint8_t codingRate
LoRa coding rate.
Definition PhysicalLayer.h:40

LrFhssRate_t
Data rate structure interpretation in case LR-FHSS is used.
Definition PhysicalLayer.h:59

LrFhssRate_t::narrowGrid
bool narrowGrid
Grid spacing.
Definition PhysicalLayer.h:67

LrFhssRate_t::cr
uint8_t cr
Coding rate.
Definition PhysicalLayer.h:64

LrFhssRate_t::bw
uint8_t bw
Bandwidth.
Definition PhysicalLayer.h:61

RSSIScanConfig_t
Channel scan configuration interpretation in case RSSI threshold is used.
Definition PhysicalLayer.h:116

RSSIScanConfig_t::limit
float limit
RSSI limit in dBm.
Definition PhysicalLayer.h:118

ChannelScanConfig_t
Common channel scan configuration structure.
Definition PhysicalLayer.h:125

ChannelScanConfig_t::rssi
RSSIScanConfig_t rssi
Interpretation for modems that use RSSI threshold.
Definition PhysicalLayer.h:130

ChannelScanConfig_t::cad
CADScanConfig_t cad
Interpretation for modems that use CAD (usually LoRa modems)
Definition PhysicalLayer.h:127

DataRate_t
Common data rate structure.
Definition PhysicalLayer.h:74

DataRate_t::lrFhss
LrFhssRate_t lrFhss
Interpretation for LR-FHSS modems.
Definition PhysicalLayer.h:82

DataRate_t::lora
LoRaRate_t lora
Interpretation for LoRa modems.
Definition PhysicalLayer.h:76

DataRate_t::fsk
FSKRate_t fsk
Interpretation for FSK modems.
Definition PhysicalLayer.h:79