add vl6180 as waterlevel sensor
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@ -1,12 +1,17 @@
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#ifndef _WATERLEVEL_H_
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#define _WATERLEVEL_H_
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#include <Wire.h>
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#include <VL6180X.h>
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#include <HCSR04.h>
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#define HCSR04_PIN_ECHO 17
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#define HCSR04_PIN_TRIGGER 16
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#define HCSR04_TIMEOUT 5000 //default is 100000 (uS)
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#define READINTERVAL_HCSR04 200
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VL6180X sensor;
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// To try different scaling factors, change the following define.
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// Valid scaling factors are 1, 2, or 3.
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#define SCALING 1
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#define READINTERVAL_WATERLEVEL 200
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#define WATERLEVELMEAN_SIZE 32
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#define WATERLEVELMEAN_FILTER_CUTOFF 8 //max value is around WATERLEVELMEAN_SIZE/2
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@ -16,13 +21,10 @@ uint16_t waterlevelMean_array_pos=0;
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float waterlevel=WATERLEVEL_UNAVAILABLE; //distance from floor to water surface [mm]
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float watervolume=WATERLEVEL_UNAVAILABLE; //calculated Volume in Reservoir
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uint16_t waterlevel_failcounter=0;
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#define WATERLEVEL_MAXFAILS 15 //maximum counter value
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#define WATERLEVEL_FAILTHRESHOLD 10 //if failcounter is greater or equal this value waterlevel will not be valid
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//Calibration
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float waterlevel_calib_offset_measured=0; //Sollwert
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float waterlevel_calib_offset_sensor=178.67; //Istwert
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float waterlevel_calib_offset_sensor=0; //Istwert
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float waterlevel_calib_reservoirArea=27*36.5; //area in cm^2
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@ -32,8 +34,13 @@ float waterlevel_heightToVolume(float distance);
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void waterlevel_setup() {
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//HCSR04.begin(HCSR04_PIN_TRIGGER, HCSR04_PIN_ECHO);
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HCSR04.begin(HCSR04_PIN_TRIGGER, HCSR04_PIN_ECHO,HCSR04_TIMEOUT, HCSR04.eUltraSonicUnlock_t::unlockSkip);
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Wire.begin();
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sensor.init();
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sensor.configureDefault();
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sensor.setScaling(SCALING);
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sensor.setTimeout(500);
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for (uint16_t i=0;i<WATERLEVELMEAN_SIZE;i++) {
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waterlevelMean_array[i]=-1; //-1 is also timeout value
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@ -42,32 +49,20 @@ void waterlevel_setup() {
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void waterlevel_loop(unsigned long loopmillis) {
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static unsigned long last_read_hcsr04;
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if (loopmillis>=last_read_hcsr04+READINTERVAL_HCSR04) {
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last_read_hcsr04=loopmillis;
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float temperature=20.0;
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if (tempCmean_air!=DEVICE_DISCONNECTED_C) { //sensor ok
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temperature=tempCmean_air;
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}
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static unsigned long last_read_waterlevel;
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if (loopmillis>=last_read_waterlevel+READINTERVAL_WATERLEVEL) {
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last_read_waterlevel=loopmillis;
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uint16_t distance=sensor.readRangeSingleMillimeters();
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double* distances = HCSR04.measureDistanceMm(temperature);
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double distance=distances[0];
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//Serial.print("Distance reading:"); Serial.println(distance);
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if (distance!=WATERLEVEL_UNAVAILABLE) { //successful
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waterlevelMean_array[waterlevelMean_array_pos]=distance;
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waterlevelMean_array_pos++;
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waterlevelMean_array_pos%=WATERLEVELMEAN_SIZE;
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if (waterlevel_failcounter>0) { //reduce failcounter if sucessfull
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waterlevel_failcounter--;
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}
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}else{
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if (waterlevel_failcounter<WATERLEVEL_MAXFAILS) {
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waterlevel_failcounter++;
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}
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}
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if (isValueArrayOKf(waterlevelMean_array,WATERLEVELMEAN_SIZE,WATERLEVEL_UNAVAILABLE)){
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//float _distance=getFilteredf(waterlevelMean_array,WATERLEVELMEAN_SIZE,WATERLEVELMEAN_FILTER_CUTOFF);
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@ -81,13 +76,6 @@ void waterlevel_loop(unsigned long loopmillis) {
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//Serial.print("\t Dist="); Serial.print(_filteredWaterlevel); Serial.print("mm"); Serial.print("(+- "); Serial.print((getMaxf(waterlevelMean,WATERLEVELMEAN_SIZE)-getMinf(waterlevelMean,WATERLEVELMEAN_SIZE))/2.0); Serial.print(")"); Serial.print(" [mean="); Serial.print(_meanWaterlevel); Serial.print("]");
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}
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if (waterlevel_failcounter>=WATERLEVEL_FAILTHRESHOLD) { //too many failed readings
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waterlevel=WATERLEVEL_UNAVAILABLE;
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watervolume=WATERLEVEL_UNAVAILABLE;
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/*if (debug) {
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Serial.print("Waterlevel Failcounter="); Serial.println(waterlevel_failcounter);
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}*/
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}
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}
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}
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@ -17,7 +17,7 @@ monitor_speed = 115200
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lib_deps =
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https://github.com/milesburton/Arduino-Temperature-Control-Library/
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d03n3rfr1tz3/HC-SR04@^1.1.2
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https://github.com/emilv/ArduinoSort/
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robtillaart/ADS1X15@^0.3.9
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256dpi/MQTT@^2.5.1
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https://github.com/pololu/vl6180x-arduino
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29
src/main.cpp
29
src/main.cpp
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@ -5,6 +5,7 @@
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#include "wifi_functions.h"
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bool debug=true; //print Serial information
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bool mqtt=false;
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@ -26,7 +27,7 @@ ADS1115 ADS(0x48);
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// ######## Water Level
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//#include "waterlevel.h"
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#include "waterlevel.h"
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// ######## Flow Rate
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@ -55,10 +56,12 @@ void setup() {
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pinMode(PIN_LED,OUTPUT);
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digitalWrite(PIN_LED,LOW);
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Serial.begin(115200);
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if (mqtt) {
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WiFi.begin(ssid, pass);
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client.begin(mqtt_host, net);
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client.onMessage(messageReceived);
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connect();
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}
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//init ADS1115
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if (!ADS.begin()) {
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@ -70,8 +73,8 @@ void setup() {
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Serial.println("Setup EC");
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ec_setup();
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//Serial.println("Setup Waterlevel");
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//waterlevel_setup();
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Serial.println("Setup Waterlevel");
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waterlevel_setup();
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Serial.println("Setup Temperature");
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temperature_setup();
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@ -113,7 +116,7 @@ void loop() {
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temperature_loop(loopmillis);
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//waterlevel_loop(loopmillis);
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waterlevel_loop(loopmillis);
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flow_loop(loopmillis);
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@ -146,15 +149,10 @@ void loop() {
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last_check=loopmillis;
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if (tempCmean_air==DEVICE_DISCONNECTED_C || tempCmean_reservoir==DEVICE_DISCONNECTED_C || tempCmean_case==DEVICE_DISCONNECTED_C) {
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valueError=true;
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}
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//if (waterlevel==WATERLEVEL_UNAVAILABLE) {
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// valueError=true;
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//}
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if (sm_mean1==SM_DISCONNECTED || sm_mean2==SM_DISCONNECTED) {
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valueError=true;
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}
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if (debug) {
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Serial.println("_______________________");
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Serial.print(millis()/1000.0,2); Serial.println(":");
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@ -216,10 +213,10 @@ void loop() {
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Serial.print(ec25);
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Serial.println();
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/*Serial.print("Waterlevel distance,volume = "); Serial.print(waterlevel); Serial.print(","); Serial.print(watervolume);
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if (waterlevel_failcounter>0) {
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Serial.print(" fails="); Serial.print(waterlevel_failcounter);
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}*/
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Serial.print("Waterlevel,Volume = ");
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Serial.print(waterlevel); Serial.print(",");
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Serial.print(watervolume);
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Serial.println();
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@ -229,7 +226,7 @@ void loop() {
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}
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if (mqtt_loop(loopmillis)) {
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if (mqtt && mqtt_loop(loopmillis)) {
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if (sendallnext_flag) {
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sendallnext_flag=false;
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enableTiming=false;
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