/* ESPurna EMON MODULE Copyright (C) 2016 by Xose PĂ©rez */ #if ENABLE_EMON #include EmonLiteESP emon; double current; char power[8]; // ----------------------------------------------------------------------------- // EMON // ----------------------------------------------------------------------------- void setCurrentRatio(float value) { emon.setCurrentRatio(value); } char * getPower() { return power; } double getCurrent() { return current; } unsigned int currentCallback() { return analogRead(EMON_CURRENT_PIN); } void powerMonitorSetup() { // backwards compatibility String tmp; tmp = getSetting("pwMainsVoltage", EMON_MAINS_VOLTAGE); setSetting("emonMains", tmp); delSetting("pwMainsVoltage"); tmp = getSetting("pwCurrentRatio", EMON_CURRENT_RATIO); setSetting("emonRatio", tmp); delSetting("pwCurrentRatio"); emon.initCurrent( currentCallback, EMON_ADC_BITS, EMON_REFERENCE_VOLTAGE, getSetting("emonRatio", EMON_CURRENT_RATIO).toFloat() ); emon.setPrecision(EMON_CURRENT_PRECISION); } void powerMonitorLoop() { static unsigned long next_measurement = millis(); static bool warmup = true; static byte measurements = 0; static double max = 0; static double min = 0; static double sum = 0; if (!mqttConnected()) return; if (warmup) { warmup = false; emon.warmup(); } if (millis() > next_measurement) { // Safety check: do not read current if relay is OFF if (!relayStatus(0)) { current = 0; } else { current = emon.getCurrent(EMON_SAMPLES); current -= EMON_CURRENT_OFFSET; if (current < 0) current = 0; } if (measurements == 0) { max = min = current; } else { if (current > max) max = current; if (current < min) min = current; } sum += current; ++measurements; float mainsVoltage = getSetting("emonMains", EMON_MAINS_VOLTAGE).toFloat(); //DEBUG_MSG("[ENERGY] Power now: %dW\n", int(current * mainsVoltage)); // Update websocket clients char text[20]; sprintf_P(text, PSTR("{\"emonPower\": %d}"), int(current * mainsVoltage)); wsSend(text); // Send MQTT messages averaged every EMON_MEASUREMENTS if (measurements == EMON_MEASUREMENTS) { double p = (sum - max - min) * mainsVoltage / (measurements - 2); sprintf(power, "%d", int(p)); mqttSend((char *) getSetting("emonPowerTopic", EMON_POWER_TOPIC).c_str(), power); sum = 0; measurements = 0; } next_measurement += EMON_INTERVAL; } } #endif