wayne roberts / sx12xx_hal

Hardware Abstraction Layer, permitting any LoRa application to use any LoRa radio chip

Dependents:   alarm_slave alarm_master lora_p2p lorawan1v1 ... more

radio chip selection

Radio chip driver is not included, allowing choice of radio device.
If you're using SX1272 or SX1276, then import sx127x driver into your program.
if you're using SX1261 or SX1262, then import sx126x driver into your program.
if you're using SX1280, then import sx1280 driver into your program.
if you're using LR1110, then import LR1110 driver into your program.
If you're using NAmote72 or Murata discovery, then you must import only sx127x driver.
If you're using Type1SJ select target DISCO_L072CZ_LRWAN1 and import sx126x driver into your program.

Pin assigned to arduino LoRa radio shield form-factor

TARGET_MOTE_L152RC/radio_mote.cpp

Committer:
Wayne Roberts
Date:
2018-11-25
Revision:
5:ab124d3842a8
Parent:
0:9c052ff8dd6a

File content as of revision 5:ab124d3842a8:

#include "radio.h"

#define RADIO_RESET              PC_2 //NorAm_Mote Reset_sx
#define RADIO_MOSI               PB_15 //NorAm_Mote SPI2 Mosi
#define RADIO_MISO               PB_14 //NorAm_Mote SPI2 Miso
#define RADIO_SCLK               PB_13 //NorAm_Mote  SPI2 Clk
#define RADIO_NSS                PB_12 //NorAm_Mote SPI2 Nss
 
#define RADIO_DIO_0              PC_6 //NorAm_Mote DIO0 
#define RADIO_DIO_1              PC_10 //NorAm_Mote DIO1 
#define RADIO_DIO_2              PC_8 //NorAm_Mote DIO2 
#define RADIO_DIO_3              PB_4 //NorAm_Mote DIO3 
#define RADIO_DIO_4              PB_5 //NorAm_Mote DIO4 
#define RADIO_DIO_5              PB_6 //NorAm_Mote DIO5
 
#define RFSW1                    PC_4 //NorAm_Mote RFSwitch_CNTR_1
#define RFSW2                    PC_13 //NorAm_Mote RFSwitch_CNTR_2

//                    txpow:   0  1  2  3  4  5  6  7  8  9 10 11 12 13 14  15  16  17  18  19
const uint8_t PaBTable[20] = { 0, 0, 0, 0, 0, 1, 2, 3, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 14, 15 };

//                    txpow:  20 21 22 23 24 25 26 27 28 29 30
const uint8_t RfoTable[11] = { 1, 1, 1, 2, 2, 3, 4, 5, 6, 8, 9 };
 
#include "SPIu.h"
SPIu spi(RADIO_MOSI, RADIO_MISO, RADIO_SCLK); // mosi, miso, sclk
//                   dio0, dio1, nss, spi, rst
SX127x Radio::radio(RADIO_DIO_0, RADIO_DIO_1, RADIO_NSS, spi, RADIO_RESET); // sx1276 arduino shield
SX127x_lora Radio::lora(radio);
SX127x_fsk Radio::fsk(radio);

DigitalOut rfsw1(RFSW1);
DigitalOut rfsw2(RFSW2);

InterruptIn Radio::dio0(RADIO_DIO_0);
InterruptIn Radio::dio1(RADIO_DIO_1);

DigitalOut red(LED1);
DigitalOut yellow(LED3);
#define LED_OFF     1
#define LED_ON      0

void Radio::rfsw_callback()
{
    if (radio.RegOpMode.bits.Mode == RF_OPMODE_TRANSMITTER) {  // start of transmission
        red = LED_ON;
        yellow = LED_OFF;
        if (radio.HF) {
            if (radio.RegPaConfig.bits.PaSelect) { // if PA_BOOST
                rfsw2 = 0;
                rfsw1 = 1;
            } else { // RFO to power amp
                rfsw2 = 1;
                rfsw1 = 0;            
            }
        } else {
            // todo: sx1276
        }
    } else if (radio.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER || radio.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER_SINGLE || radio.RegOpMode.bits.Mode == RF_OPMODE_CAD) { // start of reception
        red = LED_OFF;
        yellow = LED_ON;
        if (radio.HF) {
            rfsw2 = 1;
            rfsw1 = 1;              
        } else {
            // todo: sx1276
        }
    } else { // RF switch shutdown
        yellow = LED_OFF;
        red = LED_OFF;
        rfsw2 = 0;
        rfsw1 = 0;     
    }
}

void
Radio::set_tx_dbm(int8_t dbm)
{
    //int i = dbm;
    RegPdsTrim1_t pds_trim;
    uint8_t adr;

    radio.RegPaConfig.octet = radio.read_reg(REG_PACONFIG);

    if (dbm < 20) {
        radio.RegPaConfig.bits.PaSelect = 1;
        if (dbm < 0)
            dbm = 0;
        radio.RegPaConfig.bits.OutputPower = PaBTable[dbm];
    } else {
        radio.RegPaConfig.bits.PaSelect = 0;
        if (dbm > 30)
            dbm = 30;
        radio.RegPaConfig.bits.OutputPower = RfoTable[dbm-20];
    }

    if (radio.type == SX1276)
        adr = REG_PDSTRIM1_SX1276;
    else
        adr = REG_PDSTRIM1_SX1272;
       
    pds_trim.octet = radio.read_reg(adr);   

    if (radio.RegPaConfig.bits.PaSelect) {
        /* PABOOST used: +2dbm to +17, or +20 */
        if (dbm == 20) {
            dbm -= 3;
            pds_trim.bits.prog_txdac = 7;
            radio.write_reg(adr, pds_trim.octet);
            ocp(150);
        } else if (dbm < 18) {
            pds_trim.bits.prog_txdac = 5;
            radio.write_reg(adr, pds_trim.octet);
            ocp(120);
        }
    } else
        ocp(80);

    radio.write_reg(REG_PACONFIG, radio.RegPaConfig.octet);
} // ..set_tx_dbm()

void Radio::boardInit()
{
    red = LED_OFF;
    yellow = LED_OFF;
}