marco souza / Coragem_all_sensors

Program test for Coragem

Dependencies:   SX1272 SPI_MX25R

main.cpp@0:9859cc8476f2, 2017-11-05 (annotated)

Committer:
cdupaty
Date:
Sun Nov 05 14:32:09 2017 +0000
Revision:
0:9859cc8476f2
Child:
1:9f961d34dd8d
Adaptation node Lora Arduino vers MBED NUCLEO STM32; D'apr?s C.Pham; http://cpham.perso.univ-pau.fr/LORA/LoRaDevices.html; - Connexion Raspberry Pi etablie

Who changed what in which revision?

UserRevisionLine numberNew contents of line
cdupaty 0:9859cc8476f2 1 /*
cdupaty 0:9859cc8476f2 2 * temperature sensor on analog 8 to test the LoRa gateway
cdupaty 0:9859cc8476f2 3 *
cdupaty 0:9859cc8476f2 4 * Copyright (C) 2016 Congduc Pham, University of Pau, France
cdupaty 0:9859cc8476f2 5 *
cdupaty 0:9859cc8476f2 6 * This program is free software: you can redistribute it and/or modify
cdupaty 0:9859cc8476f2 7 * it under the terms of the GNU General Public License as published by
cdupaty 0:9859cc8476f2 8 * the Free Software Foundation, either version 3 of the License, or
cdupaty 0:9859cc8476f2 9 * (at your option) any later version.
cdupaty 0:9859cc8476f2 10
cdupaty 0:9859cc8476f2 11 * This program is distributed in the hope that it will be useful,
cdupaty 0:9859cc8476f2 12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
cdupaty 0:9859cc8476f2 13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
cdupaty 0:9859cc8476f2 14 * GNU General Public License for more details.
cdupaty 0:9859cc8476f2 15 *
cdupaty 0:9859cc8476f2 16 * You should have received a copy of the GNU General Public License
cdupaty 0:9859cc8476f2 17 * along with the program. If not, see <http://www.gnu.org/licenses/>.
cdupaty 0:9859cc8476f2 18 *
cdupaty 0:9859cc8476f2 19 *****************************************************************************
cdupaty 0:9859cc8476f2 20 * last update: Sep. 29th, 2017 by C. Pham
cdupaty 0:9859cc8476f2 21 * last update: oct 30th , 2017 by C.Dupaty
cdupaty 0:9859cc8476f2 22 */
cdupaty 0:9859cc8476f2 23 #include "mbed.h"
cdupaty 0:9859cc8476f2 24
cdupaty 0:9859cc8476f2 25 #include <SPI.h>
cdupaty 0:9859cc8476f2 26 // Include the SX1272
cdupaty 0:9859cc8476f2 27 #include "SX1272.h"
cdupaty 0:9859cc8476f2 28
cdupaty 0:9859cc8476f2 29 // IMPORTANT
cdupaty 0:9859cc8476f2 30 ///////////////////////////////////////////////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 31 // please uncomment only 1 choice
cdupaty 0:9859cc8476f2 32 //
cdupaty 0:9859cc8476f2 33 #define ETSI_EUROPE_REGULATION
cdupaty 0:9859cc8476f2 34 //#define FCC_US_REGULATION
cdupaty 0:9859cc8476f2 35 //#define SENEGAL_REGULATION
cdupaty 0:9859cc8476f2 36 ///////////////////////////////////////////////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 37
cdupaty 0:9859cc8476f2 38 // IMPORTANT
cdupaty 0:9859cc8476f2 39 ///////////////////////////////////////////////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 40 // please uncomment only 1 choice
cdupaty 0:9859cc8476f2 41 #define BAND868
cdupaty 0:9859cc8476f2 42 //#define BAND900
cdupaty 0:9859cc8476f2 43 //#define BAND433
cdupaty 0:9859cc8476f2 44 ///////////////////////////////////////////////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 45
cdupaty 0:9859cc8476f2 46 #ifdef ETSI_EUROPE_REGULATION
cdupaty 0:9859cc8476f2 47 #define MAX_DBM 14
cdupaty 0:9859cc8476f2 48 // previous way for setting output power
cdupaty 0:9859cc8476f2 49 // char powerLevel='M';
cdupaty 0:9859cc8476f2 50 #elif defined SENEGAL_REGULATION
cdupaty 0:9859cc8476f2 51 #define MAX_DBM 10
cdupaty 0:9859cc8476f2 52 // previous way for setting output power
cdupaty 0:9859cc8476f2 53 // 'H' is actually 6dBm, so better to use the new way to set output power
cdupaty 0:9859cc8476f2 54 // char powerLevel='H';
cdupaty 0:9859cc8476f2 55 #elif defined FCC_US_REGULATION
cdupaty 0:9859cc8476f2 56 #define MAX_DBM 14
cdupaty 0:9859cc8476f2 57 #endif
cdupaty 0:9859cc8476f2 58
cdupaty 0:9859cc8476f2 59 #ifdef BAND868
cdupaty 0:9859cc8476f2 60 #ifdef SENEGAL_REGULATION
cdupaty 0:9859cc8476f2 61 const uint32_t DEFAULT_CHANNEL=CH_04_868;
cdupaty 0:9859cc8476f2 62 #else
cdupaty 0:9859cc8476f2 63 const uint32_t DEFAULT_CHANNEL=CH_10_868;
cdupaty 0:9859cc8476f2 64 #endif
cdupaty 0:9859cc8476f2 65 #elif defined BAND900
cdupaty 0:9859cc8476f2 66 const uint32_t DEFAULT_CHANNEL=CH_05_900;
cdupaty 0:9859cc8476f2 67 #elif defined BAND433
cdupaty 0:9859cc8476f2 68 const uint32_t DEFAULT_CHANNEL=CH_00_433;
cdupaty 0:9859cc8476f2 69 #endif
cdupaty 0:9859cc8476f2 70
cdupaty 0:9859cc8476f2 71 // IMPORTANT
cdupaty 0:9859cc8476f2 72 ///////////////////////////////////////////////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 73 //
cdupaty 0:9859cc8476f2 74 // uncomment if your radio is an HopeRF RFM92W, HopeRF RFM95W, Modtronix inAir9B, NiceRF1276
cdupaty 0:9859cc8476f2 75 // or you known from the circuit diagram that output use the PABOOST line instead of the RFO line
cdupaty 0:9859cc8476f2 76 //#define PABOOST
cdupaty 0:9859cc8476f2 77 ///////////////////////////////////////////////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 78
cdupaty 0:9859cc8476f2 79 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 80 // COMMENT OR UNCOMMENT TO CHANGE FEATURES.
cdupaty 0:9859cc8476f2 81 // ONLY IF YOU KNOW WHAT YOU ARE DOING!!! OTHERWISE LEAVE AS IT IS
cdupaty 0:9859cc8476f2 82 //#define WITH_EEPROM // tous uncomment a l origine sauf WITH_ACK
cdupaty 0:9859cc8476f2 83 #define WITH_APPKEY
cdupaty 0:9859cc8476f2 84 #define FLOAT_TEMP
cdupaty 0:9859cc8476f2 85 #define NEW_DATA_FIELD
cdupaty 0:9859cc8476f2 86 //#define LOW_POWER
cdupaty 0:9859cc8476f2 87 //#define LOW_POWER_HIBERNATE
cdupaty 0:9859cc8476f2 88 //#define WITH_ACK
cdupaty 0:9859cc8476f2 89 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 90
cdupaty 0:9859cc8476f2 91 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 92 // ADD HERE OTHER PLATFORMS THAT DO NOT SUPPORT EEPROM NOR LOW POWER
cdupaty 0:9859cc8476f2 93 #if defined ARDUINO_SAM_DUE || defined __SAMD21G18A__ || defined TARGET_NUCLEO_L073RZ
cdupaty 0:9859cc8476f2 94 #undef WITH_EEPROM
cdupaty 0:9859cc8476f2 95 #endif
cdupaty 0:9859cc8476f2 96
cdupaty 0:9859cc8476f2 97 #if defined ARDUINO_SAM_DUE || defined TARGET_NUCLEO_L073RZ
cdupaty 0:9859cc8476f2 98 #undef LOW_POWER
cdupaty 0:9859cc8476f2 99 #endif
cdupaty 0:9859cc8476f2 100 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 101
cdupaty 0:9859cc8476f2 102 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 103 // CHANGE HERE THE LORA MODE, NODE ADDRESS
cdupaty 0:9859cc8476f2 104 #define LORAMODE 1
cdupaty 0:9859cc8476f2 105 #define node_addr 6
cdupaty 0:9859cc8476f2 106 //////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 107
cdupaty 0:9859cc8476f2 108 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 109 // CHANGE HERE THE THINGSPEAK FIELD BETWEEN 1 AND 4
cdupaty 0:9859cc8476f2 110 #define field_index 1
cdupaty 0:9859cc8476f2 111 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 112
cdupaty 0:9859cc8476f2 113 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 114 // CHANGE HERE THE READ PIN AND THE POWER PIN FOR THE TEMP. SENSOR
cdupaty 0:9859cc8476f2 115 #define TEMP_PIN_READ PA_0
cdupaty 0:9859cc8476f2 116 // use digital 9 to power the temperature sensor if needed
cdupaty 0:9859cc8476f2 117 #define TEMP_PIN_POWER PA_1
cdupaty 0:9859cc8476f2 118 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 119
cdupaty 0:9859cc8476f2 120 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 121 // CHANGE HERE THE TIME IN MINUTES BETWEEN 2 READING & TRANSMISSION
cdupaty 0:9859cc8476f2 122 unsigned int idlePeriodInMin = 2;
cdupaty 0:9859cc8476f2 123 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 124
cdupaty 0:9859cc8476f2 125 #ifdef WITH_APPKEY
cdupaty 0:9859cc8476f2 126 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 127 // CHANGE HERE THE APPKEY, BUT IF GW CHECKS FOR APPKEY, MUST BE
cdupaty 0:9859cc8476f2 128 // IN THE APPKEY LIST MAINTAINED BY GW.
cdupaty 0:9859cc8476f2 129 uint8_t my_appKey[4]={5, 6, 7, 8};
cdupaty 0:9859cc8476f2 130 ///////////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 131 #endif
cdupaty 0:9859cc8476f2 132
cdupaty 0:9859cc8476f2 133 // we wrapped Serial.println to support the Arduino Zero or M0
cdupaty 0:9859cc8476f2 134 #if defined __SAMD21G18A__ && not defined ARDUINO_SAMD_FEATHER_M0
cdupaty 0:9859cc8476f2 135 #define PRINTLN SerialUSB.println("")
cdupaty 0:9859cc8476f2 136 #define PRINT_CSTSTR(fmt,param) SerialUSB.print(F(param))
cdupaty 0:9859cc8476f2 137 #define PRINT_STR(fmt,param) SerialUSB.print(param)
cdupaty 0:9859cc8476f2 138 #define PRINT_VALUE(fmt,param) SerialUSB.print(param)
cdupaty 0:9859cc8476f2 139 #define FLUSHOUTPUT SerialUSB.flush();
cdupaty 0:9859cc8476f2 140 #else
cdupaty 0:9859cc8476f2 141 #define PRINTLN Serial.println("")
cdupaty 0:9859cc8476f2 142 #define PRINT_CSTSTR(fmt,param) Serial.print(F(param))
cdupaty 0:9859cc8476f2 143 #define PRINT_STR(fmt,param) Serial.print(param)
cdupaty 0:9859cc8476f2 144 #define PRINT_VALUE(fmt,param) Serial.print(param)
cdupaty 0:9859cc8476f2 145 #define FLUSHOUTPUT Serial.flush();
cdupaty 0:9859cc8476f2 146 #endif
cdupaty 0:9859cc8476f2 147
cdupaty 0:9859cc8476f2 148 #ifdef WITH_EEPROM
cdupaty 0:9859cc8476f2 149 #include <EEPROM.h>
cdupaty 0:9859cc8476f2 150 #endif
cdupaty 0:9859cc8476f2 151
cdupaty 0:9859cc8476f2 152 #define DEFAULT_DEST_ADDR 1
cdupaty 0:9859cc8476f2 153
cdupaty 0:9859cc8476f2 154 #ifdef WITH_ACK
cdupaty 0:9859cc8476f2 155 #define NB_RETRIES 2
cdupaty 0:9859cc8476f2 156 #endif
cdupaty 0:9859cc8476f2 157
cdupaty 0:9859cc8476f2 158 #if defined ARDUINO_AVR_PRO || defined ARDUINO_AVR_MINI || defined ARDUINO_SAM_DUE || defined __MK20DX256__ || defined __MKL26Z64__ || defined __MK64FX512__ || defined __MK66FX1M0__ || defined __SAMD21G18A__
cdupaty 0:9859cc8476f2 159 // if you have a Pro Mini running at 5V, then change here
cdupaty 0:9859cc8476f2 160 // these boards work in 3.3V
cdupaty 0:9859cc8476f2 161 // Nexus board from Ideetron is a Mini
cdupaty 0:9859cc8476f2 162 // __MK66FX1M0__ is for Teensy36
cdupaty 0:9859cc8476f2 163 // __MK64FX512__ is for Teensy35
cdupaty 0:9859cc8476f2 164 // __MK20DX256__ is for Teensy31/32
cdupaty 0:9859cc8476f2 165 // __MKL26Z64__ is for TeensyLC
cdupaty 0:9859cc8476f2 166 // __SAMD21G18A__ is for Zero/M0 and FeatherM0 (Cortex-M0)
cdupaty 0:9859cc8476f2 167 #define TEMP_SCALE 3300.0
cdupaty 0:9859cc8476f2 168 #else // ARDUINO_AVR_NANO || defined ARDUINO_AVR_UNO || defined ARDUINO_AVR_MEGA2560
cdupaty 0:9859cc8476f2 169 // also for all other boards, so change here if required.
cdupaty 0:9859cc8476f2 170 #define TEMP_SCALE 5000.0
cdupaty 0:9859cc8476f2 171 #endif
cdupaty 0:9859cc8476f2 172
cdupaty 0:9859cc8476f2 173 #ifdef LOW_POWER
cdupaty 0:9859cc8476f2 174 // this is for the Teensy36, Teensy35, Teensy31/32 & TeensyLC
cdupaty 0:9859cc8476f2 175 // need v6 of Snooze library
cdupaty 0:9859cc8476f2 176 #if defined __MK20DX256__ || defined __MKL26Z64__ || defined __MK64FX512__ || defined __MK66FX1M0__
cdupaty 0:9859cc8476f2 177 #define LOW_POWER_PERIOD 60
cdupaty 0:9859cc8476f2 178 #include <Snooze.h>
cdupaty 0:9859cc8476f2 179 SnoozeTimer timer;
cdupaty 0:9859cc8476f2 180 SnoozeBlock sleep_config(timer);
cdupaty 0:9859cc8476f2 181 //#elif defined ARDUINO_AVR_FEATHER32U4
cdupaty 0:9859cc8476f2 182 //#define LOW_POWER_PERIOD 8
cdupaty 0:9859cc8476f2 183 //#include "Adafruit_SleepyDog.h"
cdupaty 0:9859cc8476f2 184 #else // for all other boards based on ATMega168, ATMega328P, ATMega32U4, ATMega2560, ATMega256RFR2, ATSAMD21G18A
cdupaty 0:9859cc8476f2 185 #define LOW_POWER_PERIOD 8
cdupaty 0:9859cc8476f2 186 // you need the LowPower library from RocketScream
cdupaty 0:9859cc8476f2 187 // https://github.com/rocketscream/Low-Power
cdupaty 0:9859cc8476f2 188 #include "LowPower.h"
cdupaty 0:9859cc8476f2 189
cdupaty 0:9859cc8476f2 190 #ifdef __SAMD21G18A__
cdupaty 0:9859cc8476f2 191 // use the RTC library
cdupaty 0:9859cc8476f2 192 #include "RTCZero.h"
cdupaty 0:9859cc8476f2 193 /* Create an rtc object */
cdupaty 0:9859cc8476f2 194 RTCZero rtc;
cdupaty 0:9859cc8476f2 195 #endif
cdupaty 0:9859cc8476f2 196 #endif
cdupaty 0:9859cc8476f2 197 unsigned int nCycle = idlePeriodInMin*60/LOW_POWER_PERIOD;
cdupaty 0:9859cc8476f2 198 #endif
cdupaty 0:9859cc8476f2 199
cdupaty 0:9859cc8476f2 200 double temp;
cdupaty 0:9859cc8476f2 201 unsigned long nextTransmissionTime=0L;
cdupaty 0:9859cc8476f2 202 char float_str[20];
cdupaty 0:9859cc8476f2 203 uint8_t message[100];
cdupaty 0:9859cc8476f2 204 int loraMode=LORAMODE;
cdupaty 0:9859cc8476f2 205
cdupaty 0:9859cc8476f2 206 #ifdef WITH_EEPROM
cdupaty 0:9859cc8476f2 207 struct sx1272config {
cdupaty 0:9859cc8476f2 208
cdupaty 0:9859cc8476f2 209 uint8_t flag1;
cdupaty 0:9859cc8476f2 210 uint8_t flag2;
cdupaty 0:9859cc8476f2 211 uint8_t seq;
cdupaty 0:9859cc8476f2 212 // can add other fields such as LoRa mode,...
cdupaty 0:9859cc8476f2 213 };
cdupaty 0:9859cc8476f2 214
cdupaty 0:9859cc8476f2 215 sx1272config my_sx1272config;
cdupaty 0:9859cc8476f2 216 #endif
cdupaty 0:9859cc8476f2 217
cdupaty 0:9859cc8476f2 218 // ajoute par C.Dupaty
cdupaty 0:9859cc8476f2 219 //Serial pcmain(USBTX, USBRX); // tx, rx
cdupaty 0:9859cc8476f2 220 DigitalOut temp_pin_power(TEMP_PIN_POWER);
cdupaty 0:9859cc8476f2 221 AnalogIn temp_pin_read(TEMP_PIN_READ);
cdupaty 0:9859cc8476f2 222
cdupaty 0:9859cc8476f2 223 void setup()
cdupaty 0:9859cc8476f2 224 {
cdupaty 0:9859cc8476f2 225 int e;
cdupaty 0:9859cc8476f2 226
cdupaty 0:9859cc8476f2 227 // for the temperature sensor
cdupaty 0:9859cc8476f2 228 //pinMode(TEMP_PIN_READ, INPUT);
cdupaty 0:9859cc8476f2 229 // and to power the temperature sensor
cdupaty 0:9859cc8476f2 230 //pinMode(TEMP_PIN_POWER,OUTPUT);
cdupaty 0:9859cc8476f2 231
cdupaty 0:9859cc8476f2 232 #ifdef LOW_POWER
cdupaty 0:9859cc8476f2 233 #ifdef __SAMD21G18A__
cdupaty 0:9859cc8476f2 234 rtc.begin();
cdupaty 0:9859cc8476f2 235 #endif
cdupaty 0:9859cc8476f2 236 #else
cdupaty 0:9859cc8476f2 237 // digitalWrite(TEMP_PIN_POWER,HIGH);
cdupaty 0:9859cc8476f2 238 temp_pin_power=1;
cdupaty 0:9859cc8476f2 239 #endif
cdupaty 0:9859cc8476f2 240
cdupaty 0:9859cc8476f2 241 wait_ms(3000);
cdupaty 0:9859cc8476f2 242 /*
cdupaty 0:9859cc8476f2 243 // Open serial communications and wait for port to open:
cdupaty 0:9859cc8476f2 244 #if defined __SAMD21G18A__ && not defined ARDUINO_SAMD_FEATHER_M0
cdupaty 0:9859cc8476f2 245 SerialUSB.begin(38400);
cdupaty 0:9859cc8476f2 246 #else
cdupaty 0:9859cc8476f2 247 Serial.begin(38400);
cdupaty 0:9859cc8476f2 248 #endif
cdupaty 0:9859cc8476f2 249 */
cdupaty 0:9859cc8476f2 250
cdupaty 0:9859cc8476f2 251 // Print a start message
cdupaty 0:9859cc8476f2 252 printf("%s","Simple LoRa temperature sensor\n");
cdupaty 0:9859cc8476f2 253 printf("%s","--------------------------------\n");
cdupaty 0:9859cc8476f2 254 printf("%s","---- VERSION NUCLEO STM32-------\n");
cdupaty 0:9859cc8476f2 255 printf("%s","--------------------------------\n");
cdupaty 0:9859cc8476f2 256 #ifdef ARDUINO_AVR_PRO
cdupaty 0:9859cc8476f2 257 printf("%s","Arduino Pro Mini detected\n");
cdupaty 0:9859cc8476f2 258 #endif
cdupaty 0:9859cc8476f2 259 #ifdef ARDUINO_AVR_NANO
cdupaty 0:9859cc8476f2 260 printf("%s","Arduino Nano detected\n");
cdupaty 0:9859cc8476f2 261 #endif
cdupaty 0:9859cc8476f2 262 #ifdef ARDUINO_AVR_MINI
cdupaty 0:9859cc8476f2 263 printf("%s","Arduino Mini/Nexus detected\n");
cdupaty 0:9859cc8476f2 264 #endif
cdupaty 0:9859cc8476f2 265 #ifdef ARDUINO_AVR_MEGA2560
cdupaty 0:9859cc8476f2 266 printf("%s","Arduino Mega2560 detected\n");
cdupaty 0:9859cc8476f2 267 #endif
cdupaty 0:9859cc8476f2 268 #ifdef ARDUINO_SAM_DUE
cdupaty 0:9859cc8476f2 269 printf("%s","Arduino Due detected\n");
cdupaty 0:9859cc8476f2 270 #endif
cdupaty 0:9859cc8476f2 271 #ifdef __MK66FX1M0__
cdupaty 0:9859cc8476f2 272 printf("%s","Teensy36 MK66FX1M0 detected\n");
cdupaty 0:9859cc8476f2 273 #endif
cdupaty 0:9859cc8476f2 274 #ifdef __MK64FX512__
cdupaty 0:9859cc8476f2 275 printf("%s","Teensy35 MK64FX512 detected\n");
cdupaty 0:9859cc8476f2 276 #endif
cdupaty 0:9859cc8476f2 277 #ifdef __MK20DX256__
cdupaty 0:9859cc8476f2 278 printf("%s","Teensy31/32 MK20DX256 detected\n");
cdupaty 0:9859cc8476f2 279 #endif
cdupaty 0:9859cc8476f2 280 #ifdef __MKL26Z64__
cdupaty 0:9859cc8476f2 281 printf("%s","TeensyLC MKL26Z64 detected\n");
cdupaty 0:9859cc8476f2 282 #endif
cdupaty 0:9859cc8476f2 283 #ifdef ARDUINO_SAMD_ZERO
cdupaty 0:9859cc8476f2 284 printf("%s","Arduino M0/Zero detected\n");
cdupaty 0:9859cc8476f2 285 #endif
cdupaty 0:9859cc8476f2 286 #ifdef ARDUINO_AVR_FEATHER32U4
cdupaty 0:9859cc8476f2 287 printf("%s","Adafruit Feather32U4 detected\n");
cdupaty 0:9859cc8476f2 288 #endif
cdupaty 0:9859cc8476f2 289 #ifdef ARDUINO_SAMD_FEATHER_M0
cdupaty 0:9859cc8476f2 290 printf("%s","Adafruit FeatherM0 detected\n");
cdupaty 0:9859cc8476f2 291 #endif
cdupaty 0:9859cc8476f2 292
cdupaty 0:9859cc8476f2 293 // See http://www.nongnu.org/avr-libc/user-manual/using_tools.html
cdupaty 0:9859cc8476f2 294 // for the list of define from the AVR compiler
cdupaty 0:9859cc8476f2 295
cdupaty 0:9859cc8476f2 296 #ifdef __AVR_ATmega328P__
cdupaty 0:9859cc8476f2 297 printf("%s","ATmega328P detected\n");
cdupaty 0:9859cc8476f2 298 #endif
cdupaty 0:9859cc8476f2 299 #ifdef __AVR_ATmega32U4__
cdupaty 0:9859cc8476f2 300 printf("%s","ATmega32U4 detected\n");
cdupaty 0:9859cc8476f2 301 #endif
cdupaty 0:9859cc8476f2 302 #ifdef __AVR_ATmega2560__
cdupaty 0:9859cc8476f2 303 printf("%s","ATmega2560 detected\n");
cdupaty 0:9859cc8476f2 304 #endif
cdupaty 0:9859cc8476f2 305 #ifdef __SAMD21G18A__
cdupaty 0:9859cc8476f2 306 printf("%s","SAMD21G18A ARM Cortex-M0 detected\n");
cdupaty 0:9859cc8476f2 307 #endif
cdupaty 0:9859cc8476f2 308 #ifdef __SAM3X8E__
cdupaty 0:9859cc8476f2 309 printf("%s","SAM3X8E ARM Cortex-M3 detected\n");
cdupaty 0:9859cc8476f2 310 #endif
cdupaty 0:9859cc8476f2 311
cdupaty 0:9859cc8476f2 312 #ifdef TARGET_NUCLEO_L073RZ
cdupaty 0:9859cc8476f2 313 printf("%s","NUCLEO L073RZ detected\n");
cdupaty 0:9859cc8476f2 314 #endif
cdupaty 0:9859cc8476f2 315
cdupaty 0:9859cc8476f2 316 // Power ON the module
cdupaty 0:9859cc8476f2 317 sx1272.ON();
cdupaty 0:9859cc8476f2 318
cdupaty 0:9859cc8476f2 319 #ifdef WITH_EEPROM
cdupaty 0:9859cc8476f2 320 // get config from EEPROM
cdupaty 0:9859cc8476f2 321 EEPROM.get(0, my_sx1272config);
cdupaty 0:9859cc8476f2 322
cdupaty 0:9859cc8476f2 323 // found a valid config?
cdupaty 0:9859cc8476f2 324 if (my_sx1272config.flag1==0x12 && my_sx1272config.flag2==0x34) {
cdupaty 0:9859cc8476f2 325 printf("%s","Get back previous sx1272 config\n");
cdupaty 0:9859cc8476f2 326
cdupaty 0:9859cc8476f2 327 // set sequence number for SX1272 library
cdupaty 0:9859cc8476f2 328 sx1272._packetNumber=my_sx1272config.seq;
cdupaty 0:9859cc8476f2 329 printf("%s","Using packet sequence number of ");
cdupaty 0:9859cc8476f2 330 printf("%d", sx1272._packetNumber);
cdupaty 0:9859cc8476f2 331 printf("\n");
cdupaty 0:9859cc8476f2 332 }
cdupaty 0:9859cc8476f2 333 else {
cdupaty 0:9859cc8476f2 334 // otherwise, write config and start over
cdupaty 0:9859cc8476f2 335 my_sx1272config.flag1=0x12;
cdupaty 0:9859cc8476f2 336 my_sx1272config.flag2=0x34;
cdupaty 0:9859cc8476f2 337 my_sx1272config.seq=sx1272._packetNumber;
cdupaty 0:9859cc8476f2 338 }
cdupaty 0:9859cc8476f2 339 #endif
cdupaty 0:9859cc8476f2 340
cdupaty 0:9859cc8476f2 341 int error_config_sx1272=0;
cdupaty 0:9859cc8476f2 342
cdupaty 0:9859cc8476f2 343 // Set transmission mode and print the result
cdupaty 0:9859cc8476f2 344 printf("%s","\n-------------------------DEBUT Setting mode -----------> \n");
cdupaty 0:9859cc8476f2 345 e = sx1272.setMode(loraMode);
cdupaty 0:9859cc8476f2 346 printf("%s","\n-------------------------FIN Setting mode -----------> \n");
cdupaty 0:9859cc8476f2 347 if (e) error_config_sx1272=1;
cdupaty 0:9859cc8476f2 348 printf("%s","Setting Mode: state ");
cdupaty 0:9859cc8476f2 349 printf("%d", e);
cdupaty 0:9859cc8476f2 350 printf("\n");
cdupaty 0:9859cc8476f2 351
cdupaty 0:9859cc8476f2 352 // enable carrier sense
cdupaty 0:9859cc8476f2 353 sx1272._enableCarrierSense=true;
cdupaty 0:9859cc8476f2 354 #ifdef LOW_POWER
cdupaty 0:9859cc8476f2 355 // TODO: with low power, when setting the radio module in sleep mode
cdupaty 0:9859cc8476f2 356 // there seem to be some issue with RSSI reading
cdupaty 0:9859cc8476f2 357 sx1272._RSSIonSend=false;
cdupaty 0:9859cc8476f2 358 #endif
cdupaty 0:9859cc8476f2 359
cdupaty 0:9859cc8476f2 360 // Select frequency channel
cdupaty 0:9859cc8476f2 361 e = sx1272.setChannel(DEFAULT_CHANNEL);
cdupaty 0:9859cc8476f2 362 if (e) error_config_sx1272=1;
cdupaty 0:9859cc8476f2 363 printf("%s","Setting Channel: state ");
cdupaty 0:9859cc8476f2 364 printf("%d", e);
cdupaty 0:9859cc8476f2 365 printf("\n");
cdupaty 0:9859cc8476f2 366
cdupaty 0:9859cc8476f2 367 // Select amplifier line; PABOOST or RFO
cdupaty 0:9859cc8476f2 368 #ifdef PABOOST
cdupaty 0:9859cc8476f2 369 sx1272._needPABOOST=true;
cdupaty 0:9859cc8476f2 370 // previous way for setting output power
cdupaty 0:9859cc8476f2 371 // powerLevel='x';
cdupaty 0:9859cc8476f2 372 #else
cdupaty 0:9859cc8476f2 373 // previous way for setting output power
cdupaty 0:9859cc8476f2 374 // powerLevel='M';
cdupaty 0:9859cc8476f2 375 #endif
cdupaty 0:9859cc8476f2 376
cdupaty 0:9859cc8476f2 377 // previous way for setting output power
cdupaty 0:9859cc8476f2 378 // e = sx1272.setPower(powerLevel);
cdupaty 0:9859cc8476f2 379
cdupaty 0:9859cc8476f2 380 e = sx1272.setPowerDBM((uint8_t)MAX_DBM);
cdupaty 0:9859cc8476f2 381 if (e) error_config_sx1272=1;
cdupaty 0:9859cc8476f2 382 printf("%s","Setting Power: state ");
cdupaty 0:9859cc8476f2 383 printf("%d", e);
cdupaty 0:9859cc8476f2 384 printf("\n");
cdupaty 0:9859cc8476f2 385
cdupaty 0:9859cc8476f2 386 // Set the node address and print the result
cdupaty 0:9859cc8476f2 387 e = sx1272.setNodeAddress(node_addr);
cdupaty 0:9859cc8476f2 388 if (e) error_config_sx1272=1;
cdupaty 0:9859cc8476f2 389 printf("%s","Setting node addr: state ");
cdupaty 0:9859cc8476f2 390 printf("%d", e);
cdupaty 0:9859cc8476f2 391 printf("\n");
cdupaty 0:9859cc8476f2 392
cdupaty 0:9859cc8476f2 393 // Print a success message
cdupaty 0:9859cc8476f2 394 if (!error_config_sx1272) printf("%s","SX1272 successfully configured\n");
cdupaty 0:9859cc8476f2 395 else printf("%s","ERREUR DE CONFIGURATION DU SX1272\n");
cdupaty 0:9859cc8476f2 396
cdupaty 0:9859cc8476f2 397 wait_ms(500);
cdupaty 0:9859cc8476f2 398 }
cdupaty 0:9859cc8476f2 399
cdupaty 0:9859cc8476f2 400 char *ftoa(char *a, double f, int precision)
cdupaty 0:9859cc8476f2 401 {
cdupaty 0:9859cc8476f2 402 long p[] = {0,10,100,1000,10000,100000,1000000,10000000,100000000};
cdupaty 0:9859cc8476f2 403
cdupaty 0:9859cc8476f2 404 char *ret = a;
cdupaty 0:9859cc8476f2 405 long heiltal = (long)f;
cdupaty 0:9859cc8476f2 406 //modifie pa C.Dupaty
cdupaty 0:9859cc8476f2 407 // itoa(heiltal, a, 10);
cdupaty 0:9859cc8476f2 408 sprintf(a,"%d",heiltal);
cdupaty 0:9859cc8476f2 409 while (*a != '\0') a++;
cdupaty 0:9859cc8476f2 410 *a++ = '.';
cdupaty 0:9859cc8476f2 411 long desimal = abs((long)((f - heiltal) * p[precision]));
cdupaty 0:9859cc8476f2 412 if (desimal < p[precision-1]) {
cdupaty 0:9859cc8476f2 413 *a++ = '0';
cdupaty 0:9859cc8476f2 414 }
cdupaty 0:9859cc8476f2 415
cdupaty 0:9859cc8476f2 416 //modifie pa C.Dupaty
cdupaty 0:9859cc8476f2 417 // itoa(desimal, a, 10);
cdupaty 0:9859cc8476f2 418 sprintf(a,"%d",desimal);
cdupaty 0:9859cc8476f2 419
cdupaty 0:9859cc8476f2 420
cdupaty 0:9859cc8476f2 421 return ret;
cdupaty 0:9859cc8476f2 422 }
cdupaty 0:9859cc8476f2 423
cdupaty 0:9859cc8476f2 424
cdupaty 0:9859cc8476f2 425 //////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 426 // programme principal , loop sur Arduino
cdupaty 0:9859cc8476f2 427 //////////////////////////////////////////////////////////////
cdupaty 0:9859cc8476f2 428 int main(void)
cdupaty 0:9859cc8476f2 429 {
cdupaty 0:9859cc8476f2 430 long startSend;
cdupaty 0:9859cc8476f2 431 long endSend;
cdupaty 0:9859cc8476f2 432 uint8_t app_key_offset=0;
cdupaty 0:9859cc8476f2 433 int e;
cdupaty 0:9859cc8476f2 434
cdupaty 0:9859cc8476f2 435 setup();
cdupaty 0:9859cc8476f2 436
cdupaty 0:9859cc8476f2 437 while(1) { /////////////// debut boucle
cdupaty 0:9859cc8476f2 438 //printf("%s","\n-------------------------BOUCLE SANS FIN -----------> \n");
cdupaty 0:9859cc8476f2 439 //while(1);
cdupaty 0:9859cc8476f2 440
cdupaty 0:9859cc8476f2 441 #ifndef LOW_POWER
cdupaty 0:9859cc8476f2 442 // 600000+random(15,60)*1000
cdupaty 0:9859cc8476f2 443 if (millis() > nextTransmissionTime) {
cdupaty 0:9859cc8476f2 444 #endif
cdupaty 0:9859cc8476f2 445
cdupaty 0:9859cc8476f2 446 #ifdef LOW_POWER
cdupaty 0:9859cc8476f2 447 // digitalWrite(TEMP_PIN_POWER,HIGH);
cdupaty 0:9859cc8476f2 448 temp_pin_power=1;
cdupaty 0:9859cc8476f2 449 // security?
cdupaty 0:9859cc8476f2 450 wait_ms(200);
cdupaty 0:9859cc8476f2 451 #endif
cdupaty 0:9859cc8476f2 452
cdupaty 0:9859cc8476f2 453 temp = 0;
cdupaty 0:9859cc8476f2 454 int value;
cdupaty 0:9859cc8476f2 455
cdupaty 0:9859cc8476f2 456 for (int i=0; i<10; i++) {
cdupaty 0:9859cc8476f2 457 // change here how the temperature should be computed depending on your sensor type
cdupaty 0:9859cc8476f2 458 //
cdupaty 0:9859cc8476f2 459 value = temp_pin_read;
cdupaty 0:9859cc8476f2 460 temp += (value*TEMP_SCALE/1024.0)/10;
cdupaty 0:9859cc8476f2 461
cdupaty 0:9859cc8476f2 462 printf("%s","Reading ");
cdupaty 0:9859cc8476f2 463 printf("%d", value);
cdupaty 0:9859cc8476f2 464 printf("\n");
cdupaty 0:9859cc8476f2 465 wait_ms(100);
cdupaty 0:9859cc8476f2 466 }
cdupaty 0:9859cc8476f2 467
cdupaty 0:9859cc8476f2 468 #ifdef LOW_POWER
cdupaty 0:9859cc8476f2 469 //digitalWrite(TEMP_PIN_POWER,LOW);
cdupaty 0:9859cc8476f2 470 temp_pin_ower=0;
cdupaty 0:9859cc8476f2 471 #endif
cdupaty 0:9859cc8476f2 472
cdupaty 0:9859cc8476f2 473 printf("%s","Mean temp is ");
cdupaty 0:9859cc8476f2 474 temp = temp/10;
cdupaty 0:9859cc8476f2 475 printf("%f", temp);
cdupaty 0:9859cc8476f2 476 printf("\n");
cdupaty 0:9859cc8476f2 477
cdupaty 0:9859cc8476f2 478 #ifdef WITH_APPKEY
cdupaty 0:9859cc8476f2 479 app_key_offset = sizeof(my_appKey);
cdupaty 0:9859cc8476f2 480 // set the app key in the payload
cdupaty 0:9859cc8476f2 481 memcpy(message,my_appKey,app_key_offset);
cdupaty 0:9859cc8476f2 482 #endif
cdupaty 0:9859cc8476f2 483
cdupaty 0:9859cc8476f2 484 uint8_t r_size;
cdupaty 0:9859cc8476f2 485
cdupaty 0:9859cc8476f2 486 #ifdef FLOAT_TEMP
cdupaty 0:9859cc8476f2 487 ftoa(float_str,temp,2);
cdupaty 0:9859cc8476f2 488
cdupaty 0:9859cc8476f2 489 #ifdef NEW_DATA_FIELD
cdupaty 0:9859cc8476f2 490 // this is for testing, uncomment if you just want to test, without a real temp sensor plugged
cdupaty 0:9859cc8476f2 491 //strcpy(float_str, "21.55567");
cdupaty 0:9859cc8476f2 492 r_size=sprintf((char*)message+app_key_offset,"\\!#%d#TC/%s",field_index,float_str);
cdupaty 0:9859cc8476f2 493 #else
cdupaty 0:9859cc8476f2 494 // this is for testing, uncomment if you just want to test, without a real temp sensor plugged
cdupaty 0:9859cc8476f2 495 //strcpy(float_str, "21.55567");
cdupaty 0:9859cc8476f2 496 r_size=sprintf((char*)message+app_key_offset,"\\!#%d#%s",field_index,float_str);
cdupaty 0:9859cc8476f2 497 #endif
cdupaty 0:9859cc8476f2 498
cdupaty 0:9859cc8476f2 499 #else
cdupaty 0:9859cc8476f2 500
cdupaty 0:9859cc8476f2 501 #ifdef NEW_DATA_FIELD
cdupaty 0:9859cc8476f2 502 r_size=sprintf((char*)message+app_key_offset, "\\!#%d#TC/%d", field_index, (int)temp);
cdupaty 0:9859cc8476f2 503 #else
cdupaty 0:9859cc8476f2 504 r_size=sprintf((char*)message+app_key_offset, "\\!#%d#%d", field_index, (int)temp);
cdupaty 0:9859cc8476f2 505 #endif
cdupaty 0:9859cc8476f2 506 #endif
cdupaty 0:9859cc8476f2 507
cdupaty 0:9859cc8476f2 508 printf("%s","Sending ");
cdupaty 0:9859cc8476f2 509 printf("%s",(char*)(message+app_key_offset));
cdupaty 0:9859cc8476f2 510 printf("\n");
cdupaty 0:9859cc8476f2 511
cdupaty 0:9859cc8476f2 512 printf("%s","Real payload size is ");
cdupaty 0:9859cc8476f2 513 printf("%d", r_size);
cdupaty 0:9859cc8476f2 514 printf("\n");
cdupaty 0:9859cc8476f2 515
cdupaty 0:9859cc8476f2 516 int pl=r_size+app_key_offset;
cdupaty 0:9859cc8476f2 517
cdupaty 0:9859cc8476f2 518 sx1272.CarrierSense();
cdupaty 0:9859cc8476f2 519
cdupaty 0:9859cc8476f2 520 startSend=millis();
cdupaty 0:9859cc8476f2 521
cdupaty 0:9859cc8476f2 522 #ifdef WITH_APPKEY
cdupaty 0:9859cc8476f2 523 // indicate that we have an appkey
cdupaty 0:9859cc8476f2 524 sx1272.setPacketType(PKT_TYPE_DATA | PKT_FLAG_DATA_WAPPKEY);
cdupaty 0:9859cc8476f2 525 #else
cdupaty 0:9859cc8476f2 526 // just a simple data packet
cdupaty 0:9859cc8476f2 527 sx1272.setPacketType(PKT_TYPE_DATA);
cdupaty 0:9859cc8476f2 528 #endif
cdupaty 0:9859cc8476f2 529
cdupaty 0:9859cc8476f2 530 // Send message to the gateway and print the result
cdupaty 0:9859cc8476f2 531 // with the app key if this feature is enabled
cdupaty 0:9859cc8476f2 532 #ifdef WITH_ACK
cdupaty 0:9859cc8476f2 533 int n_retry=NB_RETRIES;
cdupaty 0:9859cc8476f2 534
cdupaty 0:9859cc8476f2 535 do {
cdupaty 0:9859cc8476f2 536 e = sx1272.sendPacketTimeoutACK(DEFAULT_DEST_ADDR, message, pl);
cdupaty 0:9859cc8476f2 537
cdupaty 0:9859cc8476f2 538 if (e==3)
cdupaty 0:9859cc8476f2 539 printf("%s","No ACK");
cdupaty 0:9859cc8476f2 540
cdupaty 0:9859cc8476f2 541 n_retry--;
cdupaty 0:9859cc8476f2 542
cdupaty 0:9859cc8476f2 543 if (n_retry)
cdupaty 0:9859cc8476f2 544 printf("%s","Retry");
cdupaty 0:9859cc8476f2 545 else
cdupaty 0:9859cc8476f2 546 printf("%s","Abort");
cdupaty 0:9859cc8476f2 547
cdupaty 0:9859cc8476f2 548 } while (e && n_retry);
cdupaty 0:9859cc8476f2 549 #else
cdupaty 0:9859cc8476f2 550 e = sx1272.sendPacketTimeout(DEFAULT_DEST_ADDR, message, pl);
cdupaty 0:9859cc8476f2 551 #endif
cdupaty 0:9859cc8476f2 552 endSend=millis();
cdupaty 0:9859cc8476f2 553
cdupaty 0:9859cc8476f2 554 #ifdef WITH_EEPROM
cdupaty 0:9859cc8476f2 555 // save packet number for next packet in case of reboot
cdupaty 0:9859cc8476f2 556 my_sx1272config.seq=sx1272._packetNumber;
cdupaty 0:9859cc8476f2 557 EEPROM.put(0, my_sx1272config);
cdupaty 0:9859cc8476f2 558 #endif
cdupaty 0:9859cc8476f2 559
cdupaty 0:9859cc8476f2 560 printf("%s","LoRa pkt size ");
cdupaty 0:9859cc8476f2 561 printf("%d", pl);
cdupaty 0:9859cc8476f2 562 printf("\n");
cdupaty 0:9859cc8476f2 563
cdupaty 0:9859cc8476f2 564 printf("%s","LoRa pkt seq ");
cdupaty 0:9859cc8476f2 565 printf("%d", sx1272.packet_sent.packnum);
cdupaty 0:9859cc8476f2 566 printf("\n");
cdupaty 0:9859cc8476f2 567
cdupaty 0:9859cc8476f2 568 printf("%s","LoRa Sent in ");
cdupaty 0:9859cc8476f2 569 printf("%ld", endSend-startSend);
cdupaty 0:9859cc8476f2 570 printf("\n");
cdupaty 0:9859cc8476f2 571
cdupaty 0:9859cc8476f2 572 printf("%s","LoRa Sent w/CAD in ");
cdupaty 0:9859cc8476f2 573 printf("%ld", endSend-sx1272._startDoCad);
cdupaty 0:9859cc8476f2 574 printf("\n");
cdupaty 0:9859cc8476f2 575
cdupaty 0:9859cc8476f2 576 printf("%s","Packet sent, state ");
cdupaty 0:9859cc8476f2 577 printf("%d", e);
cdupaty 0:9859cc8476f2 578 printf("\n");
cdupaty 0:9859cc8476f2 579
cdupaty 0:9859cc8476f2 580 printf("%s","Remaining ToA is ");
cdupaty 0:9859cc8476f2 581 printf("%d", sx1272.getRemainingToA());
cdupaty 0:9859cc8476f2 582 printf("\n");
cdupaty 0:9859cc8476f2 583
cdupaty 0:9859cc8476f2 584 #if defined LOW_POWER && not defined ARDUINO_SAM_DUE
cdupaty 0:9859cc8476f2 585 printf("%s","Switch to power saving mode\n");
cdupaty 0:9859cc8476f2 586
cdupaty 0:9859cc8476f2 587 e = sx1272.setSleepMode();
cdupaty 0:9859cc8476f2 588
cdupaty 0:9859cc8476f2 589 if (!e)
cdupaty 0:9859cc8476f2 590 printf("%s","Successfully switch LoRa module in sleep mode\n");
cdupaty 0:9859cc8476f2 591 else
cdupaty 0:9859cc8476f2 592 printf("%s","Could not switch LoRa module in sleep mode\n");
cdupaty 0:9859cc8476f2 593
cdupaty 0:9859cc8476f2 594 FLUSHOUTPUT
cdupaty 0:9859cc8476f2 595 wait_ms(50);
cdupaty 0:9859cc8476f2 596
cdupaty 0:9859cc8476f2 597 #ifdef __SAMD21G18A__
cdupaty 0:9859cc8476f2 598 // For Arduino M0 or Zero we use the built-in RTC
cdupaty 0:9859cc8476f2 599 //LowPower.standby();
cdupaty 0:9859cc8476f2 600 rtc.setTime(17, 0, 0);
cdupaty 0:9859cc8476f2 601 rtc.setDate(1, 1, 2000);
cdupaty 0:9859cc8476f2 602 rtc.setAlarmTime(17, idlePeriodInMin, 0);
cdupaty 0:9859cc8476f2 603 // for testing with 20s
cdupaty 0:9859cc8476f2 604 //rtc.setAlarmTime(17, 0, 20);
cdupaty 0:9859cc8476f2 605 rtc.enableAlarm(rtc.MATCH_HHMMSS);
cdupaty 0:9859cc8476f2 606 //rtc.attachInterrupt(alarmMatch);
cdupaty 0:9859cc8476f2 607 rtc.standbyMode();
cdupaty 0:9859cc8476f2 608
cdupaty 0:9859cc8476f2 609 printf("%s","SAMD21G18A wakes up from standby\n");
cdupaty 0:9859cc8476f2 610 FLUSHOUTPUT
cdupaty 0:9859cc8476f2 611 #else
cdupaty 0:9859cc8476f2 612 nCycle = idlePeriodInMin*60/LOW_POWER_PERIOD + random(2,4);
cdupaty 0:9859cc8476f2 613
cdupaty 0:9859cc8476f2 614 #if defined __MK20DX256__ || defined __MKL26Z64__ || defined __MK64FX512__ || defined __MK66FX1M0__
cdupaty 0:9859cc8476f2 615 // warning, setTimer accepts value from 1ms to 65535ms max
cdupaty 0:9859cc8476f2 616 timer.setTimer(LOW_POWER_PERIOD*1000 + random(1,5)*1000);// milliseconds
cdupaty 0:9859cc8476f2 617
cdupaty 0:9859cc8476f2 618 nCycle = idlePeriodInMin*60/LOW_POWER_PERIOD;
cdupaty 0:9859cc8476f2 619 #endif
cdupaty 0:9859cc8476f2 620 for (int i=0; i<nCycle; i++) {
cdupaty 0:9859cc8476f2 621
cdupaty 0:9859cc8476f2 622 #if defined ARDUINO_AVR_PRO || defined ARDUINO_AVR_NANO || defined ARDUINO_AVR_UNO || defined ARDUINO_AVR_MINI || defined __AVR_ATmega32U4__
cdupaty 0:9859cc8476f2 623 // ATmega328P, ATmega168, ATmega32U4
cdupaty 0:9859cc8476f2 624 LowPower.powerDown(SLEEP_8S, ADC_OFF, BOD_OFF);
cdupaty 0:9859cc8476f2 625
cdupaty 0:9859cc8476f2 626 //LowPower.idle(SLEEP_8S, ADC_OFF, TIMER2_OFF, TIMER1_OFF, TIMER0_OFF,
cdupaty 0:9859cc8476f2 627 // SPI_OFF, USART0_OFF, TWI_OFF);
cdupaty 0:9859cc8476f2 628 #elif defined ARDUINO_AVR_MEGA2560
cdupaty 0:9859cc8476f2 629 // ATmega2560
cdupaty 0:9859cc8476f2 630 LowPower.powerDown(SLEEP_8S, ADC_OFF, BOD_OFF);
cdupaty 0:9859cc8476f2 631
cdupaty 0:9859cc8476f2 632 //LowPower.idle(SLEEP_8S, ADC_OFF, TIMER5_OFF, TIMER4_OFF, TIMER3_OFF,
cdupaty 0:9859cc8476f2 633 // TIMER2_OFF, TIMER1_OFF, TIMER0_OFF, SPI_OFF, USART3_OFF,
cdupaty 0:9859cc8476f2 634 // USART2_OFF, USART1_OFF, USART0_OFF, TWI_OFF);
cdupaty 0:9859cc8476f2 635 #elif defined __MK20DX256__ || defined __MKL26Z64__ || defined __MK64FX512__ || defined __MK66FX1M0__
cdupaty 0:9859cc8476f2 636 // Teensy31/32 & TeensyLC
cdupaty 0:9859cc8476f2 637 #ifdef LOW_POWER_HIBERNATE
cdupaty 0:9859cc8476f2 638 Snooze.hibernate(sleep_config);
cdupaty 0:9859cc8476f2 639 #else
cdupaty 0:9859cc8476f2 640 Snooze.deepSleep(sleep_config);
cdupaty 0:9859cc8476f2 641 #endif
cdupaty 0:9859cc8476f2 642 #else
cdupaty 0:9859cc8476f2 643 // use the wait_ms function
cdupaty 0:9859cc8476f2 644 wait_ms(LOW_POWER_PERIOD*1000);
cdupaty 0:9859cc8476f2 645 #endif
cdupaty 0:9859cc8476f2 646 printf("%s",".");
cdupaty 0:9859cc8476f2 647 FLUSHOUTPUT
cdupaty 0:9859cc8476f2 648 wait_ms(10);
cdupaty 0:9859cc8476f2 649 }
cdupaty 0:9859cc8476f2 650
cdupaty 0:9859cc8476f2 651 wait_ms(50);
cdupaty 0:9859cc8476f2 652 #endif
cdupaty 0:9859cc8476f2 653
cdupaty 0:9859cc8476f2 654 #else
cdupaty 0:9859cc8476f2 655 printf("%ld ", nextTransmissionTime);
cdupaty 0:9859cc8476f2 656 printf("%s","Will send next value at ");
cdupaty 0:9859cc8476f2 657 // use a random part also to avoid collision
cdupaty 0:9859cc8476f2 658 nextTransmissionTime=millis()+(unsigned long)idlePeriodInMin*60*1000+(unsigned long)(rand()%60+15)*1000;
cdupaty 0:9859cc8476f2 659 printf("%ld", nextTransmissionTime);
cdupaty 0:9859cc8476f2 660 printf("\n");
cdupaty 0:9859cc8476f2 661 }
cdupaty 0:9859cc8476f2 662 #endif
cdupaty 0:9859cc8476f2 663
cdupaty 0:9859cc8476f2 664 }// fin boucle
cdupaty 0:9859cc8476f2 665
cdupaty 0:9859cc8476f2 666 //return (0);
cdupaty 0:9859cc8476f2 667
cdupaty 0:9859cc8476f2 668 }