interfisch
/
sensoresp
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity

add sensoresp2 with mhz19 and sds018

This commit is contained in:
interfisch 2020-10-23 09:14:43 +02:00
parent 0c6306e8d6
commit 53c65bd46c
2 changed files with 195 additions and 5 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

32
platformio.ini
View File

@ -13,9 +13,9 @@
[platformio] [platformio]
#For Config upload comment in data_dir line and flash with platformio run -t uploadfs --environment sensorespx #For Config upload comment in data_dir line and flash with platformio run -t uploadfs --environment sensorespx
#data_dir=data_sensoresp1 #data_dir=data_sensoresp1
data_dir=data_sensoresp2
#data_dir=data_sensoresp3 #data_dir=data_sensoresp3
data_dir=data_sensoresp4 #data_dir=data_sensoresp4
#Arbeitszimmer #Arbeitszimmer
[env:sensoresp1] [env:sensoresp1]
@ -55,6 +55,34 @@ lib_deps =
Homie@3.0.0 Homie@3.0.0
#Wohnzimmer Air Quality
[env:sensoresp2]
platform = espressif8266
board = d1_mini
framework = arduino
monitor_port = /dev/ttyUSB0
monitor_speed = 115200
build_flags =
-D SENSOR_MHZ19
-D MHZ19_SERIAL_RX=D5
-D MHZ19_SERIAL_TX=D6
-D dataMHZ19_minchange=10
-D dataMHZ19_readdelay=10*1000
-D SENSOR_SDS018
-D SDS018_SERIAL_RX=D7
-D SDS018_SERIAL_TX=D8
-D dataSDS018_pm25_minchange=4
-D dataSDS018_pm10_minchange=4
lib_deps =
MHZ19@0.0.1
EspSoftwareSerial@6.8.1
Homie@3.0.0
#Wohnzimmer #Wohnzimmer
[env:sensoresp3] [env:sensoresp3]
platform = espressif8266 platform = espressif8266

168
src/main.cpp
View File

@ -104,7 +104,7 @@ struct sensordata
// SW Serial // SW Serial
//SW Serial RX: to mhz19 tx (green cable) //SW Serial RX: to mhz19 tx (green cable)
//SW Serial TX: to mhz19 rx (blue cable) //SW Serial TX: to mhz19 rx (blue cable)
//co2 sensor needs 5v. Connect USB 5V directly (not through wemos d1 onboard diode which gives only 4.7V!) //co2 sensor needs 5v. Maybe better to Connect USB 5V directly (not through wemos d1 onboard diode which gives only 4.7V! at '5V' output)
//if ABC is disabled (see in setup function) sensor should be calibrated manually. leave outdoors (=400ppm) with no direct sunlight for >20min, then connect HD pin to GND for at least 7 seconds. //if ABC is disabled (see in setup function) sensor should be calibrated manually. leave outdoors (=400ppm) with no direct sunlight for >20min, then connect HD pin to GND for at least 7 seconds.
/* Pinout (view from top, connector at the bottom) /* Pinout (view from top, connector at the bottom)
@ -118,9 +118,15 @@ struct sensordata
* \-----------------/ * \-----------------/
* | | | | | * | | | | |
* Vo Rx Tx NC HD * Vo Rx Tx NC HD
*
* [Connector]
*/ */
#ifndef SOFTWARESERIAL_H
#include <SoftwareSerial.h> #include <SoftwareSerial.h>
#define SOFTWARESERIAL_H
#endif
SoftwareSerial mhz19_swSerial; SoftwareSerial mhz19_swSerial;
#define BAUD_RATE_MHZ19 9600 #define BAUD_RATE_MHZ19 9600
@ -133,6 +139,31 @@ struct sensordata
int mhz19_readValue_reimplemented(Stream *_streamRef, MHZ19 *_mhz19Ref); //declare function int mhz19_readValue_reimplemented(Stream *_streamRef, MHZ19 *_mhz19Ref); //declare function
#endif #endif
#ifdef SENSOR_SDS018
struct sensordata dataSDS018_pm25;
struct sensordata dataSDS018_pm10;
//SDS18 dust sensor for 2.5µm and 10µm
//Needs 5V
bool sds018_dustok=false;
float value_pm25=-1;
float value_pm10=-1;
#ifndef SOFTWARESERIAL_H
#include <SoftwareSerial.h>
#define SOFTWARESERIAL_H
#endif
SoftwareSerial sds018_swSerial;
#define BAUD_RATE_SDS018 9600
unsigned long lastread_sds018=0; //to save last read time for both readings
void readSDS018();
#endif
// data/homie/config.json hochladen mit platformio run --target uploadfs // data/homie/config.json hochladen mit platformio run --target uploadfs
// config contains homie device name, mqtt ip and wifi credentials // config contains homie device name, mqtt ip and wifi credentials
@ -251,6 +282,17 @@ void setup() {
} }
#endif #endif
#ifdef SENSOR_SDS018
Serial.println("initializing sds018");
sds018_swSerial.begin(BAUD_RATE_SDS018, SWSERIAL_8N1, SDS018_SERIAL_RX, SDS018_SERIAL_TX, false, 256);
#ifdef dataSDS018_pm25_minchange
dataSDS018_pm25.minchange=dataSDS018_pm25_minchange;
#endif
#ifdef dataSDS018_pm10_minchange
dataSDS018_pm10.minchange=dataSDS018_pm10_minchange;
#endif
#endif
Homie_setFirmware(FW_NAME, FW_VERSION); Homie_setFirmware(FW_NAME, FW_VERSION);
Homie_setBrand(FW_NAME); Homie_setBrand(FW_NAME);
@ -290,6 +332,11 @@ void setup() {
#ifdef SENSOR_MHZ19 #ifdef SENSOR_MHZ19
sensorNode.advertise("co2"); sensorNode.advertise("co2");
#endif #endif
#ifdef SENSOR_SDS018
sensorNode.advertise("dust_pm25");
sensorNode.advertise("dust_pm10");
#endif
Serial.println("connecting.."); Serial.println("connecting..");
@ -547,7 +594,74 @@ void loop_MHZ19()
} }
#endif #endif
#ifdef SENSOR_SDS018
void loop_SDS018_pm25()
{
sensordata &d=dataSDS018_pm25;
bool _changed=false;
if (millis() >= (d.lastreadtime+d.readdelay)) {
if (millis() >= (lastread_sds018+d.readdelay)) {
readSDS018(); //reads values into value_pm25 und value_pm10
}
//Homie.getLogger() << "read pm25: " << value_pm25 << ".read pm10: " << value_pm10 << " status=" << dust_ok << endl;
if (fabs(d.lastsentvalue-value_pm25)>=d.minchange){
_changed=true;
}
d.lastreadtime=millis();
}
if (_changed || millis() >= (d.lastsent+d.senddelaymax)) {
Serial.print("Sending SDS018_pm25. reason=");
if (_changed) Serial.println("change"); else Serial.println("time");
checkESPStatus();
Homie.getLogger() << "read pm25: " << value_pm25 << " status=" << sds018_dustok << endl;
if (sds018_dustok){ //send no dust values if sensor not ok
sensorNode.setProperty("dust_pm25").send(String(value_pm25));
}else{
Homie.getLogger() << "sds018 dust not ok. didnt sent" << endl;
}
d.lastsentvalue=value_pm25;
d.lastsent=millis();
}
}
void loop_SDS018_pm10()
{
sensordata &d=dataSDS018_pm10;
bool _changed=false;
if (millis() >= (d.lastreadtime+d.readdelay)) {
if (millis() >= (lastread_sds018+d.readdelay)) {
readSDS018(); //reads values into value_pm25 und value_pm10
}
//Homie.getLogger() << "read pm25: " << value_pm25 << ".read pm10: " << value_pm10 << " status=" << dust_ok << endl;
if (fabs(d.lastsentvalue-value_pm10)>=d.minchange){
_changed=true;
}
d.lastreadtime=millis();
}
if (_changed || millis() >= (d.lastsent+d.senddelaymax)) {
Serial.print("Sending SDS018_pm10. reason=");
if (_changed) Serial.println("change"); else Serial.println("time");
checkESPStatus();
Homie.getLogger() << "read pm10: " << value_pm10 << " status=" << sds018_dustok << endl;
if (sds018_dustok){ //send no dust values if sensor not ok
sensorNode.setProperty("dust_pm10").send(String(value_pm10));
}else{
Homie.getLogger() << "sds018 dust not ok. didnt sent" << endl;
}
d.lastsentvalue=value_pm10;
d.lastsent=millis();
}
}
#endif
@ -579,8 +693,10 @@ void loopHandler() {
loop_MHZ19(); loop_MHZ19();
#endif #endif
#ifdef SENSOR_SDS018
loop_SDS018_pm25();
loop_SDS018_pm10();
#endif
@ -671,4 +787,50 @@ int mhz19_readValue_reimplemented(Stream *_streamRef, MHZ19 *_mhz19Ref) { //same
return co2; return co2;
} }
#endif
#ifdef SENSOR_SDS018
void readSDS018()
{
lastread_sds018=millis();
// https://github.com/crystaldust/sds018/blob/master/sds018.ino
uint8_t mData = 0;
uint8_t mPkt[10] = {0};
uint8_t mCheck = 0;
while( sds018_swSerial.available() > 0 ) {
//Serial.println("serial available");
for( int i=0; i<10; ++i ) {
mPkt[i] = sds018_swSerial.read();
//Serial.println( mPkt[i], HEX );
}
if( 0xC0 == mPkt[1] ) {
Serial.println("read density");
// Read dust density.
// Check
uint8_t sum = 0;
for( int i=2; i<=7; ++i ) {
sum += mPkt[i];
}
if( sum == mPkt[8] ) {
uint8_t pm25Low = mPkt[2];
uint8_t pm25High = mPkt[3];
uint8_t pm10Low = mPkt[4];
uint8_t pm10High = mPkt[5];
value_pm25 = ( ( pm25High * 256.0 ) + pm25Low ) / 10.0;
value_pm10 = ( ( pm10High * 256.0 ) + pm10Low ) / 10.0;
sds018_dustok=true;
/*Serial.print( "PM2.5: " );
Serial.print( pm25 );
Serial.print( "\nPM10 :" );
Serial.print( pm10 );
Serial.println();*/
}
}
sds018_swSerial.flush();
}
}
#endif #endif