{{::dsmr_level_shifter.png?nolink|}} {{::dsmr-rj12-pinout.png?nolink|}} #include #include #include #include #include #include "dsmr.h" #include SoftwareSerial mySerial(D5, -1, false ); //rx, tx, invert WiFiClient espClient; PubSubClient client(espClient); Ticker ticker; WiFiManager wifiManager; P1Reader reader(&mySerial,0); const char* mqtt_server = "mqtt.server.com"; const char* mqtt_user = ""; const char* mqtt_pass = ""; const char* DSMRidTopic = "DSMR/deviceID"; const char* DSMRdelivered1Topic = "DSMR/eDeliveredT1"; // tariff 1 const char* DSMRdelivered2Topic = "DSMR/eDeliveredT2"; // tariff 2 const char* DSMRreturned1Topic = "DSMR/eReturnedT1"; // tariff 1 const char* DSMRreturned2Topic = "DSMR/eReturnedT2"; // tariff 2 const char* DSMRpDeliveredTopic = "DSMR/pDelivered"; // kW delievered NOW const char* DSMRpReturnedTopic = "DSMR/pReturned"; // kW returned NOW const char* DSMRcurrentl1Topic = "DSMR/currentl1"; // current current on L1 const char* DSMRpDeliveredl1Topic = "DSMR/pDeliveredl1"; // total kWh delivered on L1 const char* DSMRpReturnedl1Topic = "DSMR/pReturnedl1"; // total kWh returned on L1 const char* DSMRgasDeviceTopic = "DSMR/gasDevice"; const char* DSMRgasDeliveredTopic = "DSMR/gasDelivered"; //total m3 gas delivered using MyData = ParsedData< /* String */ identification, /* FixedValue */ energy_delivered_tariff1, /* FixedValue */ energy_delivered_tariff2, /* FixedValue */ energy_returned_tariff1, /* FixedValue */ energy_returned_tariff2, /* FixedValue */ power_delivered, /* FixedValue */ power_returned, /* FixedValue */ current_l1, /* FixedValue */ current_l2, /* FixedValue */ power_delivered_l1, /* FixedValue */ power_delivered_l2, /* FixedValue */ power_returned_l1, /* FixedValue */ power_returned_l2, /* uint16_t */ gas_device_type, /* TimestampedFixedValue */ gas_delivered >; unsigned long last; uint32_t telegramCount; MyData DSMRdata; void setup() { Serial.begin(115200); pinMode(BUILTIN_LED, OUTPUT); ticker.attach(0.6, tick); wifiManager.setAPCallback(configModeCallback); if (!wifiManager.autoConnect("DSMR")) { Serial.println("failed to connect and hit timeout"); ESP.reset(); delay(1000); } ticker.detach(); digitalWrite(BUILTIN_LED, LOW); mySerial.begin(115200, SWSERIAL_8N1); reader.enable(true); last = millis(); telegramCount = 0; delay(200); client.setServer(mqtt_server, 1883); client.setCallback(callback); } void loop() { if (!client.connected()) { reconnect(); } client.loop(); reader.loop(); // Every minute, fire off a one-off reading unsigned long now = millis(); if (now - last > 60000) { reader.enable(true); last = now; } if (reader.available()) { telegramCount++; DSMRdata = {}; String DSMRerror; if (reader.parse(&DSMRdata, &DSMRerror)) // Parse succesful, print result { if (telegramCount > 1563000000) { delay(1000); ESP.reset(); delay(1000); } Serial.print("Device ID :"); Serial.println(String(DSMRdata.identification).c_str()); Serial.print("\n Delivered Tariff 1 :"); Serial.println(String(DSMRdata.energy_delivered_tariff1).c_str()); Serial.print("kWh \n Delivered Tariff 2 :"); Serial.println(String(DSMRdata.energy_delivered_tariff2).c_str()); Serial.print("kWh \n Returned Tariff 1 :"); Serial.println(String(DSMRdata.energy_returned_tariff1).c_str()); Serial.print("kWh \n Returned Tariff 2 :"); Serial.println(String(DSMRdata.energy_returned_tariff2).c_str()); Serial.print("kWh \n Delivered Power :"); Serial.println(String(DSMRdata.power_delivered).c_str()); Serial.print("kW \n Returned Power :"); Serial.println(String(DSMRdata.power_returned).c_str()); Serial.print("kW \n Current l1 :"); Serial.println(String(DSMRdata.current_l1).c_str()); Serial.print("A \n Current l2 :"); Serial.println(String(DSMRdata.current_l2).c_str()); Serial.print("A \n Delivered Power l1 :"); Serial.println(String(DSMRdata.power_delivered_l1).c_str()); Serial.print("kW \n Delivered Power l2 :"); Serial.println(String(DSMRdata.power_delivered_l2).c_str()); Serial.print("kW \n Returned Power l1 :"); Serial.println(String(DSMRdata.power_returned_l1).c_str()); Serial.print("kW \n Returned Power l2 :"); Serial.println(String(DSMRdata.power_returned_l2).c_str()); Serial.print("kW \n Gas Device :"); Serial.println(String(DSMRdata.gas_device_type).c_str()); Serial.print("\n Delivered Gas :"); Serial.println(String(DSMRdata.gas_delivered).c_str()); Serial.println("m3"); client.publish(DSMRidTopic,String(DSMRdata.identification).c_str()); client.publish(DSMRdelivered1Topic,String(DSMRdata.energy_delivered_tariff1).c_str()); client.publish(DSMRdelivered2Topic,String(DSMRdata.energy_delivered_tariff2).c_str()); client.publish(DSMRreturned1Topic,String(DSMRdata.energy_returned_tariff1).c_str()); client.publish(DSMRreturned2Topic,String(DSMRdata.energy_returned_tariff2).c_str()); client.publish(DSMRpDeliveredTopic,String(DSMRdata.power_delivered).c_str()); client.publish(DSMRpReturnedTopic,String(DSMRdata.power_returned).c_str()); client.publish(DSMRcurrentl1Topic,String(DSMRdata.current_l1).c_str()); client.publish(DSMRcurrentl2Topic,String(DSMRdata.current_l2).c_str()); client.publish(DSMRpDeliveredl1Topic,String(DSMRdata.power_delivered_l1).c_str()); client.publish(DSMRpDeliveredl2Topic,String(DSMRdata.power_delivered_l2).c_str()); client.publish(DSMRpReturnedl1Topic,String(DSMRdata.power_returned_l1).c_str()); client.publish(DSMRpReturnedl2Topic,String(DSMRdata.power_returned_l2).c_str()); client.publish(DSMRgasDeviceTopic,String(DSMRdata.gas_device_type).c_str()); client.publish(DSMRgasDeliveredTopic,String(DSMRdata.gas_delivered).c_str()); } } } void tick() { //toggle state int state = digitalRead(BUILTIN_LED); digitalWrite(BUILTIN_LED, !state); } void configModeCallback (WiFiManager *myWiFiManager) { Serial.println("Entered config mode"); Serial.println(WiFi.softAPIP()); //if you used auto generated SSID, print it Serial.println(myWiFiManager->getConfigPortalSSID()); //entered config mode, make led toggle faster ticker.attach(0.2, tick); } void callback(char* topic, byte* payload, unsigned int length) { Serial.print("Message arrived ["); Serial.print(topic); Serial.print("] "); for (int i = 0; i < length; i++) { Serial.print((char)payload[i]); } Serial.print("\n"); } void reconnect() { while (!client.connected()) { Serial.print("Attempting MQTT connection..."); String clientId = "ESP8266Client-"; clientId += String(random(0xffff), HEX); if (client.connect(clientId.c_str(),mqtt_user, mqtt_pass)) { Serial.println("connected"); client.subscribe(DSMRidTopic); client.subscribe(DSMRdelivered1Topic); client.subscribe(DSMRdelivered2Topic); client.subscribe(DSMRreturned1Topic); client.subscribe(DSMRreturned2Topic); client.subscribe(DSMRpDeliveredTopic); client.subscribe(DSMRpReturnedTopic); client.subscribe(DSMRcurrentl1Topic); client.subscribe(DSMRcurrentl2Topic); client.subscribe(DSMRpDeliveredl1Topic); client.subscribe(DSMRpDeliveredl2Topic); client.subscribe(DSMRpReturnedl1Topic); client.subscribe(DSMRpReturnedl2Topic); client.subscribe(DSMRgasDeviceTopic); client.subscribe(DSMRgasDeliveredTopic); } else { Serial.print("failed, rc="); Serial.print(client.state()); Serial.println(" try again in 5 seconds"); delay(5000); } } }