// ********************************************************************************************************** // WeatherShield R2 (BME280 sensor) sameple sketch that works with Moteinos equipped with RFM69W/RFM69HW // It sends periodic weather readings (temp, hum, atm pressure) from WeatherShield to the base node Moteino // For use with MoteinoMEGA you will have to revisit the pin definitions defined below // http://www.LowPowerLab.com/WeatherShield // Example setup (with R1): http://lowpowerlab.com/blog/2015/07/24/attic-fan-cooling-tests/ // ********************************************************************************** // Copyright Felix Rusu 2016, http://www.LowPowerLab.com/contact // ********************************************************************************** // License // ********************************************************************************** // This program is free software; you can redistribute it // and/or modify it under the terms of the GNU General // Public License as published by the Free Software // Foundation; either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will // be useful, but WITHOUT ANY WARRANTY; without even the // implied warranty of MERCHANTABILITY or FITNESS FOR A // PARTICULAR PURPOSE. See the GNU General Public // License for more details. // // Licence can be viewed at // http://www.gnu.org/licenses/gpl-3.0.txt // // Please maintain this license information along with authorship // and copyright notices in any redistribution of this code // ********************************************************************************** #include //get it here: https://github.com/lowpowerlab/rfm69 #include //get it here: https://github.com/lowpowerlab/rfm69 #include //get it here: https://github.com/lowpowerlab/rfm69 #include //get it here: https://github.com/lowpowerlab/spiflash #include //included in Arduino IDE (www.arduino.cc) #include //included in Arduino IDE (www.arduino.cc) #include //get it here: https://github.com/sparkfun/SparkFun_BME280_Breakout_Board/tree/master/Libraries/Arduino/src #include //get it here: https://github.com/lowpowerlab/lowpower //writeup here: http://www.rocketscream.com/blog/2011/07/04/lightweight-low-power-arduino-library/ //********************************************************************************************* //************ IMPORTANT SETTINGS - YOU MUST CHANGE/CONFIGURE TO FIT YOUR HARDWARE ************ //********************************************************************************************* #define GATEWAYID 1 #define NODEID 40 #define NETWORKID 100 //#define FREQUENCY RF69_433MHZ //#define FREQUENCY RF69_868MHZ #define FREQUENCY RF69_915MHZ //Match this with the version of your Moteino! (others: RF69_433MHZ, RF69_868MHZ) #define ENCRYPTKEY "sampleEncryptKey" //has to be same 16 characters/bytes on all nodes, not more not less! //#define IS_RFM69HW //uncomment only for RFM69HW! Leave out if you have RFM69W! //********************************************************************************************* #define ENABLE_ATC //comment out this line to disable AUTO TRANSMISSION CONTROL #define ATC_RSSI -75 //********************************************************************************************* #define SEND_LOOPS 15 //send data this many sleep loops (15 loops of 8sec cycles = 120sec ~ 2 minutes) #define SLEEP_FASTEST SLEEP_15MS #define SLEEP_FAST SLEEP_250MS #define SLEEP_SEC SLEEP_1S #define SLEEP_LONG SLEEP_2S #define SLEEP_LONGER SLEEP_4S #define SLEEP_LONGEST SLEEP_8S period_t sleepTime = SLEEP_LONGEST; //period_t is an enum type defined in the LowPower library (LowPower.h) //********************************************************************************************* #define BATT_MONITOR_EN A3 //enables battery voltage divider to get a reading from a battery, disable it to save power #define BATT_MONITOR A7 //through 1Meg+470Kohm and 0.1uF cap from battery VCC - this ratio divides the voltage to bring it below 3.3V where it is scaled to a readable range #define BATT_CYCLES 2 //read and report battery voltage every this many sleep cycles (ex 30cycles * 8sec sleep = 240sec/4min). For 450 cyclesyou would get ~1 hour intervals #define BATT_FORMULA(reading) reading * 0.00322 * 1.475 // >>> fine tune this parameter to match your voltage when fully charged #define BATT_LOW 3.6 //(volts) #define BATT_READ_LOOPS SEND_LOOPS*10 // read and report battery voltage every this many sleep cycles (ex 30cycles * 8sec sleep = 240sec/4min). For 450 cycles you would get ~1 hour intervals between readings //***************************************************************************************************************************** #ifdef __AVR_ATmega1284P__ #define LED 15 // Moteino MEGAs have LEDs on D15 #define FLASH_SS 23 // and FLASH SS on D23 #else #define LED 9 // Moteinos have LEDs on D9 #define FLASH_SS 8 // and FLASH SS on D8 #endif //#define BLINK_EN //uncomment to blink LED on every send //#define SERIAL_EN //comment out if you don't want any serial output #ifdef SERIAL_EN #define SERIAL_BAUD 115200 #define DEBUG(input) {Serial.print(input);} #define DEBUGln(input) {Serial.println(input);} #define SERIALFLUSH() {Serial.flush();} #else #define DEBUG(input); #define DEBUGln(input); #define SERIALFLUSH(); #endif //***************************************************************************************************************************** #ifdef ENABLE_ATC RFM69_ATC radio; #else RFM69 radio; #endif SPIFlash flash(FLASH_SS, 0xEF30); //WINDBOND 4MBIT flash chip on CS pin D8 (default for Moteino) BME280 bme280; char Pstr[10]; char Fstr[10]; char Hstr[10]; char buffer[50]; void setup(void) { #ifdef SERIAL_EN Serial.begin(SERIAL_BAUD); #endif pinMode(LED, OUTPUT); radio.initialize(FREQUENCY,NODEID,NETWORKID); #ifdef IS_RFM69HW radio.setHighPower(); //uncomment only for RFM69HW! #endif radio.encrypt(ENCRYPTKEY); //Auto Transmission Control - dials down transmit power to save battery (-100 is the noise floor, -90 is still pretty good) //For indoor nodes that are pretty static and at pretty stable temperatures (like a MotionMote) -90dBm is quite safe //For more variable nodes that can expect to move or experience larger temp drifts a lower margin like -70 to -80 would probably be better //Always test your ATC mote in the edge cases in your own environment to ensure ATC will perform as you expect #ifdef ENABLE_ATC radio.enableAutoPower(ATC_RSSI); #endif sprintf(buffer, "WeatherMote - transmitting at: %d Mhz...", FREQUENCY==RF69_433MHZ ? 433 : FREQUENCY==RF69_868MHZ ? 868 : 915); DEBUGln(buffer); //initialize weather shield BME280 sensor bme280.settings.commInterface = I2C_MODE; bme280.settings.I2CAddress = 0x77; bme280.settings.runMode = 3; //Normal mode bme280.settings.tStandby = 0; bme280.settings.filter = 0; bme280.settings.tempOverSample = 1; bme280.settings.pressOverSample = 1; bme280.settings.humidOverSample = 1; radio.sendWithRetry(GATEWAYID, "START", 6); Blink(LED, 100);Blink(LED, 100);Blink(LED, 100); if (flash.initialize()) flash.sleep(); for (uint8_t i=0; i<=A5; i++) { if (i == RF69_SPI_CS) continue; if (i == FLASH_SS) continue; pinMode(i, OUTPUT); digitalWrite(i, LOW); } SERIALFLUSH(); readBattery(); } unsigned long doorPulseCount = 0; char input=0; double F,P,H; byte sendLoops=0; byte battReadLoops=0; float batteryVolts = 5; char* BATstr="BAT:5.00v"; //longest battery voltage reading message = 9chars byte sendLen; void loop() { if (battReadLoops--<=0) //only read battery every BATT_READ_LOOPS cycles { readBattery(); battReadLoops = BATT_READ_LOOPS-1; } if (sendLoops--<=0) //send readings every SEND_LOOPS { sendLoops = SEND_LOOPS-1; //read BME sensor bme280.begin(); P = bme280.readFloatPressure() * 0.0002953; //read Pa and convert to inHg F = bme280.readTempF(); H = bme280.readFloatHumidity(); bme280.writeRegister(BME280_CTRL_MEAS_REG, 0x00); //sleep the BME280 dtostrf(F, 3,2, Fstr); dtostrf(H, 3,2, Hstr); dtostrf(P, 3,2, Pstr); sprintf(buffer, "BAT:%sv F:%d H:%d P:%s", BATstr, Fstr, Hstr, Pstr); sendLen = strlen(buffer); radio.sendWithRetry(GATEWAYID, buffer, sendLen, 1); //retry one time DEBUG(buffer); DEBUG(" (packet length:"); DEBUG(sendLen); DEBUGln(")"); #ifdef BLINK_EN Blink(LED, 5); #endif } //When this sketch is on a node where you can afford the power to keep the radio awake all the time // you can make it receive messages and also make it wirelessly programmable // otherwise this section can be removed if (radio.receiveDone()) { boolean reportStatusRequest=false; DEBUG('[');DEBUG(radio.SENDERID);DEBUG("] "); for (byte i = 0; i < radio.DATALEN; i++) DEBUG((char)radio.DATA[i]); flash.wakeup(); // wireless programming token check - this only works when radio is kept awake to listen for WP tokens CheckForWirelessHEX(radio, flash, true); //first send any ACK to request DEBUG(" [RX_RSSI:");DEBUG(radio.RSSI);DEBUG("]"); if (radio.ACKRequested()) { radio.sendACK(); DEBUG(" - ACK sent."); } DEBUGln(); } SERIALFLUSH(); flash.sleep(); radio.sleep(); //you can comment out this line if you want this node to listen for wireless programming requests LowPower.powerDown(sleepTime, ADC_OFF, BOD_OFF); DEBUGln("WAKEUP"); } void readBattery() { unsigned int readings=0; //enable battery monitor on WeatherShield (via mosfet controlled by A3) pinMode(BATT_MONITOR_EN, OUTPUT); digitalWrite(BATT_MONITOR_EN, LOW); for (byte i=0; i<5; i++) //take several samples, and average readings+=analogRead(BATT_MONITOR); //disable battery monitor pinMode(BATT_MONITOR_EN, INPUT); //highZ mode will allow p-mosfet to be pulled high and disconnect the voltage divider on the weather shield batteryVolts = BATT_FORMULA(readings / 5.0); dtostrf(batteryVolts,3,2, BATstr); //update the BATStr which gets sent every BATT_CYCLES or along with the MOTION message if (batteryVolts <= BATT_LOW) BATstr = "LOW"; } void Blink(byte PIN, byte DELAY_MS) { pinMode(PIN, OUTPUT); digitalWrite(PIN,HIGH); delay(DELAY_MS/2); digitalWrite(PIN,LOW); delay(DELAY_MS/2); }