remove range switching
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69affa4de4
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390aaeaeb7
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@ -1,39 +0,0 @@
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This directory is intended for project header files.
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A header file is a file containing C declarations and macro definitions
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to be shared between several project source files. You request the use of a
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header file in your project source file (C, C++, etc) located in `src` folder
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by including it, with the C preprocessing directive `#include'.
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```src/main.c
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#include "header.h"
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int main (void)
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{
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...
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}
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```
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Including a header file produces the same results as copying the header file
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into each source file that needs it. Such copying would be time-consuming
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and error-prone. With a header file, the related declarations appear
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in only one place. If they need to be changed, they can be changed in one
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place, and programs that include the header file will automatically use the
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new version when next recompiled. The header file eliminates the labor of
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finding and changing all the copies as well as the risk that a failure to
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find one copy will result in inconsistencies within a program.
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In C, the usual convention is to give header files names that end with `.h'.
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It is most portable to use only letters, digits, dashes, and underscores in
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header file names, and at most one dot.
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Read more about using header files in official GCC documentation:
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* Include Syntax
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* Include Operation
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* Once-Only Headers
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* Computed Includes
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https://gcc.gnu.org/onlinedocs/cpp/Header-Files.html
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60
include/ec.h
60
include/ec.h
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@ -8,8 +8,6 @@ float ecEC_ADS_CHANNEL_mean=0;
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bool ec_flag_measurement_available=false;
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#define EC_PIN_RELAY_PROBE 27
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#define EC_PIN_RELAY_RANGEMSB 25
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#define EC_PIN_RELAY_RANGELSB 26
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//#define EC_PIN_ADC 4
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@ -20,11 +18,8 @@ bool ec_flag_measurement_available=false;
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#define EC_FREQUENCY 5000
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#define EC_ARRAY_SIZE 64
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uint16_t ec_array_range00[EC_ARRAY_SIZE]; //00=NC,NC = highest value
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uint16_t ec_array_range01[EC_ARRAY_SIZE];
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uint16_t ec_array_range10[EC_ARRAY_SIZE];
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uint16_t ec_array_range11[EC_ARRAY_SIZE]; //11= NO,NO = lowest value
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uint16_t ec_array_pos=EC_ARRAY_SIZE*4;
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uint16_t ec_array[EC_ARRAY_SIZE];
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uint16_t ec_array_pos=EC_ARRAY_SIZE;
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unsigned long last_measurement_ec=0;
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#define EC_MEASUREMENT_INTERVAL 10000 //complete filtered measurement every x ms
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//One filtered measurement takes EC_READ_INTERVAL*EC_ARRAY_SIZE*4
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@ -40,11 +35,7 @@ enum ECState{IDLE,MEASURE};
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ECState ecstate=IDLE;
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float adc_range00;
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float adc_range01;
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float adc_range10;
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float adc_range11;
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float ec_adc;
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bool ec_measurementReady();
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void ec_startMeasurement();
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@ -60,8 +51,6 @@ void ec_setup() {
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ledcWrite(EC_PWM_CH, 127); //50% duty cycle
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pinMode(EC_PIN_RELAY_PROBE,OUTPUT); //LOW=Calibration/idle, HIGH=Probe connected
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pinMode(EC_PIN_RELAY_RANGELSB,OUTPUT); //LOW=NC, HIGH=NO
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pinMode(EC_PIN_RELAY_RANGEMSB,OUTPUT); //LOW=NC, HIGH=NO
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ec_releaseRelay();
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}
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@ -77,6 +66,7 @@ void ec_loop(unsigned long loopmillis) {
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last_measurement_ec=loopmillis;
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ec_startMeasurement();
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ec_connectProbe(true);
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Serial.println("Measuring EC");
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ecstate=MEASURE;
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}
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break;
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@ -84,14 +74,10 @@ void ec_loop(unsigned long loopmillis) {
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case MEASURE:
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if (ec_measurementReady()) {
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ec_releaseRelay();
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adc_range00=getMean(ec_array_range00,EC_ARRAY_SIZE); //good for low conductivity/high resistance
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adc_range01=getMean(ec_array_range01,EC_ARRAY_SIZE);
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adc_range10=getMean(ec_array_range10,EC_ARRAY_SIZE);
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adc_range11=getMean(ec_array_range11,EC_ARRAY_SIZE); //good for high conductivity/low resistance
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Serial.println("Finished EC");
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ec_adc=getMean(ec_array,EC_ARRAY_SIZE);
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//ec_mean=0; //TODO select right range of all readings
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ec_flag_measurement_available=true;
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@ -106,36 +92,21 @@ void ec_loop(unsigned long loopmillis) {
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if (loopmillis>last_read_ec+EC_READ_INTERVAL && ec_array_pos/4<EC_ARRAY_SIZE) { //take reading into array if measurement running
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if (loopmillis>last_read_ec+EC_READ_INTERVAL && ec_array_pos<EC_ARRAY_SIZE) { //take reading into array if measurement running
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last_read_ec=loopmillis;
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//flag_print= ec_array_pos==EC_ARRAY_SIZE;
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//ec_array_pos%=EC_ARRAY_SIZE;
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ec_setRange(ec_array_pos/EC_ARRAY_SIZE);
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if (loopmillis>ec_last_change_relay+EC_RELAY_SWITCH_SETTLETIME) { //values have settled
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//uint16_t value=analogRead(EC_PIN_ADC);
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uint16_t value = ADS.readADC(EC_ADS_CHANNEL);
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switch (ec_array_pos/EC_ARRAY_SIZE){ //low range
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case 0:
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ec_array_range00[ec_array_pos%EC_ARRAY_SIZE]=value;
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break;
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case 1:
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ec_array_range01[ec_array_pos%EC_ARRAY_SIZE]=value;
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break;
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ec_array[ec_array_pos]=value;
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case 2:
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ec_array_range10[ec_array_pos%EC_ARRAY_SIZE]=value;
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break;
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case 3:
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ec_array_range11[ec_array_pos%EC_ARRAY_SIZE]=value;
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break;
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}
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ec_array_pos++;
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}
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@ -151,24 +122,13 @@ void ec_startMeasurement() {
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}
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bool ec_measurementReady(){
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if (ec_array_pos/EC_ARRAY_SIZE>=4) { //reached end of both arrays
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if (ec_array_pos>=EC_ARRAY_SIZE) { //reached end of both arrays
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return true;
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}else{
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return false;
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}
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}
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void ec_setRange(uint8_t range) {
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//range low means low resistor value -> NO -> relay High
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uint8_t crange=digitalRead(EC_PIN_RELAY_RANGELSB)+2*digitalRead(EC_PIN_RELAY_RANGEMSB);
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if (crange!=range) { //write only if different
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digitalWrite(EC_PIN_RELAY_RANGELSB,range%2);
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digitalWrite(EC_PIN_RELAY_RANGEMSB,range/2);
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ec_last_change_relay=millis();
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}
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}
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void ec_connectProbe(bool relay) {
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bool val=digitalRead(EC_PIN_RELAY_PROBE);
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@ -180,8 +140,6 @@ void ec_connectProbe(bool relay) {
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void ec_releaseRelay() {
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digitalWrite(EC_PIN_RELAY_PROBE,LOW);
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digitalWrite(EC_PIN_RELAY_RANGEMSB,LOW);
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digitalWrite(EC_PIN_RELAY_RANGELSB,LOW);
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ec_last_change_relay=millis();
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}
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86
src/main.cpp
86
src/main.cpp
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@ -61,7 +61,7 @@ void setup() {
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//Serial.println("Setup finished");
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delay(200);
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Serial.println("time,tempReservoir,EC00,EC01,EC10,EC11");
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Serial.println("time,tempReservoir,EC");
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}
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@ -95,58 +95,56 @@ void loop() {
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}
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if (loopmillis>last_print+10000 && loopmillis>60000) {
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if (loopmillis>last_print+2000) {
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//if (ec_flag_measurement_available && getReading) {
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last_print=loopmillis;
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getReading=false;
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ec_flag_measurement_available=false;
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digitalWrite(PIN_LED,LOW);
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if (ec_flag_measurement_available) {
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last_print=loopmillis;
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getReading=false;
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ec_flag_measurement_available=false;
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digitalWrite(PIN_LED,LOW);
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Serial.print(millis()/1000.0,2); Serial.print(",");
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Serial.print(getMeanf(tempCmean_reservoir,TEMPMEAN_SIZE)); Serial.print(",");
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//Serial.print(getMean(sm_mean,SM_SIZE)); Serial.print(",");
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Serial.print(millis()/1000.0,2); Serial.print(",");
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Serial.print(getMeanf(tempCmean_reservoir,TEMPMEAN_SIZE)); Serial.print(",");
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//Serial.print(getMean(sm_mean,SM_SIZE)); Serial.print(",");
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Serial.print(adc_range00); Serial.print(",");
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Serial.print(adc_range01); Serial.print(",");
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Serial.print(adc_range10); Serial.print(",");
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Serial.print(adc_range11);
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Serial.println();
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Serial.print(ec_adc);
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Serial.println();
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/*
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/*
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if (isValueArrayOKf(tempCmean_reservoir,TEMPMEAN_SIZE,DEVICE_DISCONNECTED_C)){
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Serial.print("\t Treservoir="); Serial.print(getMeanf(tempCmean_reservoir,TEMPMEAN_SIZE)); Serial.print("\t Tair="); Serial.print(getMeanf(tempCmean_air,TEMPMEAN_SIZE));
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}else{
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Serial.print("\t waiting for temperature");
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if (isValueArrayOKf(tempCmean_reservoir,TEMPMEAN_SIZE,DEVICE_DISCONNECTED_C)){
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Serial.print("\t Treservoir="); Serial.print(getMeanf(tempCmean_reservoir,TEMPMEAN_SIZE)); Serial.print("\t Tair="); Serial.print(getMeanf(tempCmean_air,TEMPMEAN_SIZE));
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}else{
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Serial.print("\t waiting for temperature");
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}
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if (isValueArrayOKf(waterlevelMean,WATERLEVELMEAN_SIZE,-1.0)){
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float _max=getMaxf(waterlevelMean,WATERLEVELMEAN_SIZE);
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float _min=getMinf(waterlevelMean,WATERLEVELMEAN_SIZE);
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float _filteredWaterlevel=getFilteredf(waterlevelMean,WATERLEVELMEAN_SIZE,8);
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float _meanWaterlevel=getMeanf(waterlevelMean,WATERLEVELMEAN_SIZE);
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Serial.print("\t Dist="); Serial.print(_filteredWaterlevel); Serial.print("mm"); Serial.print("(+- "); Serial.print((_max-_min)/2.0); Serial.print(")"); Serial.print(" [mean="); Serial.print(_meanWaterlevel); Serial.print("]");
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}else{
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Serial.print("\t waiting for distance");
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}
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Serial.print("\t Flow="); Serial.print(flow,2);
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Serial.print("\t Flowsum="); Serial.print(flow_counter_sum);
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Serial.println();
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*/
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}
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if (isValueArrayOKf(waterlevelMean,WATERLEVELMEAN_SIZE,-1.0)){
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float _max=getMaxf(waterlevelMean,WATERLEVELMEAN_SIZE);
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float _min=getMinf(waterlevelMean,WATERLEVELMEAN_SIZE);
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float _filteredWaterlevel=getFilteredf(waterlevelMean,WATERLEVELMEAN_SIZE,8);
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float _meanWaterlevel=getMeanf(waterlevelMean,WATERLEVELMEAN_SIZE);
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Serial.print("\t Dist="); Serial.print(_filteredWaterlevel); Serial.print("mm"); Serial.print("(+- "); Serial.print((_max-_min)/2.0); Serial.print(")"); Serial.print(" [mean="); Serial.print(_meanWaterlevel); Serial.print("]");
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}else{
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Serial.print("\t waiting for distance");
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}
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Serial.print("\t Flow="); Serial.print(flow,2);
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Serial.print("\t Flowsum="); Serial.print(flow_counter_sum);
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Serial.println();
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*/
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//}
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}
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}
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