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Alternative method of calculating energy usage
Alternative method of calculating energy usage (#8175)
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@ -33,6 +33,8 @@
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#define BL0940_UREF 33000
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#define BL0940_IREF 2750
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#define BL0940_PULSES_NOT_INITIALIZED -1
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#define BL0940_BUFFER_SIZE 36
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#define BL0940_WRITE_COMMAND 0xA0 // 0xA8 according to documentation
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@ -55,8 +57,11 @@ struct BL0940 {
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long voltage = 0;
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long current = 0;
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long power = 0;
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// long power_cycle_first = 0;
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// long cf_pulses = 0;
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long power_cycle_first = 0;
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long cf_pulses = 0;
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long cf_pulses_last_time = BL0940_PULSES_NOT_INITIALIZED;
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float temperature;
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int byte_counter = 0;
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@ -79,9 +84,9 @@ void Bl0940Received(void) {
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// 55 B9 33 00 DE 45 00 94 02 00 CF E4 70 63 02 00 6C 4C 00 13 01 00 09 00 00 00 00 00 E4 01 00 FE 03 00 72
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// Hd IFRms--- Current- Reserved Voltage- Reserved Power--- Reserved CF------ Reserved TPS1---- TPS2---- Ck
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uint16_t tps1 = Bl0940.rx_buffer[29] << 8 | Bl0940.rx_buffer[28]; // TPS1 unsigned
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if ((Bl0940.rx_buffer[0] != BL0940_PACKET_HEADER) || // Bad header
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(Bl0940.tps1 && ((tps1 < (Bl0940.tps1 -10)) || (tps1 > (Bl0940.tps1 +10)))) // Invalid temperature change
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uint16_t tps1 = Bl0940.rx_buffer[29] << 8 | Bl0940.rx_buffer[28]; // TPS1 unsigned
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if ((Bl0940.rx_buffer[0] != BL0940_PACKET_HEADER) || // Bad header
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(Bl0940.tps1 && ((tps1 < (Bl0940.tps1 -10)) || (tps1 > (Bl0940.tps1 +10)))) // Invalid temperature change
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) {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR("BL9: Invalid data"));
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return;
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@ -91,17 +96,19 @@ void Bl0940Received(void) {
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float t = ((170.0f/448.0f)*(((float)Bl0940.tps1/2.0f)-32.0f))-45.0f;
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Bl0940.temperature = ConvertTemp(t);
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Bl0940.voltage = Bl0940.rx_buffer[12] << 16 | Bl0940.rx_buffer[11] << 8 | Bl0940.rx_buffer[10]; // V_RMS unsigned
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Bl0940.current = Bl0940.rx_buffer[6] << 16 | Bl0940.rx_buffer[5] << 8 | Bl0940.rx_buffer[4]; // I_RMS unsigned
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int32_t power = Bl0940.rx_buffer[18] << 24 | Bl0940.rx_buffer[17] << 16 | Bl0940.rx_buffer[16] << 8; // WATT signed
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Bl0940.power = abs(power) >> 8; // WATT unsigned
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// Bl0940.cf_pulses = Bl0940.rx_buffer[24] << 16 | Bl0940.rx_buffer[23] << 8 | Bl0940.rx_buffer[22]; // CF_CNT unsigned
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Bl0940.voltage = Bl0940.rx_buffer[12] << 16 | Bl0940.rx_buffer[11] << 8 | Bl0940.rx_buffer[10]; // V_RMS unsigned
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Bl0940.current = Bl0940.rx_buffer[6] << 16 | Bl0940.rx_buffer[5] << 8 | Bl0940.rx_buffer[4]; // I_RMS unsigned
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int32_t power = Bl0940.rx_buffer[18] << 24 | Bl0940.rx_buffer[17] << 16 | Bl0940.rx_buffer[16] << 8; // WATT signed
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Bl0940.power = abs(power) >> 8; // WATT unsigned
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int32_t cf_cnt = Bl0940.rx_buffer[24] << 24 | Bl0940.rx_buffer[23] << 16 | Bl0940.rx_buffer[22] << 8; // CF_CNT signed
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Bl0940.cf_pulses = abs(cf_cnt) >> 8;
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AddLog_P2(LOG_LEVEL_DEBUG, PSTR("BL9: U %d, I %d, P %d, T %d"), Bl0940.voltage, Bl0940.current, Bl0940.power, Bl0940.tps1);
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AddLog_P2(LOG_LEVEL_DEBUG, PSTR("BL9: U %d, I %d, P %d, C %d, T %d"),
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Bl0940.voltage, Bl0940.current, Bl0940.power, Bl0940.cf_pulses, Bl0940.tps1);
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if (Energy.power_on) { // Powered on
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Energy.voltage[0] = (float)Bl0940.voltage / Settings.energy_voltage_calibration;
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if (power && (Bl0940.power > Settings.energy_power_calibration)) { // We need at least 1W
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if (power && (Bl0940.power > Settings.energy_power_calibration)) { // We need at least 1W
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Energy.active_power[0] = (float)Bl0940.power / Settings.energy_power_calibration;
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Energy.current[0] = (float)Bl0940.current / (Settings.energy_current_calibration * 100);
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} else {
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@ -163,10 +170,37 @@ void Bl0940EverySecond(void) {
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Bl0940.current = 0;
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Bl0940.power = 0;
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} else {
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/*
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// Calculate energy by using active power
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if (Energy.active_power[0]) {
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Energy.kWhtoday_delta += (Energy.active_power[0] * 1000) / 36;
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EnergyUpdateToday();
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}
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*/
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// Calculate energy by using active energy pulse count
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if (BL0940_PULSES_NOT_INITIALIZED == Bl0940.cf_pulses_last_time) {
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Bl0940.cf_pulses_last_time = Bl0940.cf_pulses; // Init after restart
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} else {
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uint32_t cf_pulses = 0;
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if (Bl0940.cf_pulses < Bl0940.cf_pulses_last_time) { // Rolled over after 0xFFFFFF (16777215) pulses
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cf_pulses = (0x1000000 - Bl0940.cf_pulses_last_time) + Bl0940.cf_pulses;
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} else {
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cf_pulses = Bl0940.cf_pulses - Bl0940.cf_pulses_last_time;
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}
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if (cf_pulses && Energy.active_power[0]) {
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if (cf_pulses < 16) { // max load for SHP10: 4.00kW (3.68kW)
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uint32_t watt256 = (1638400 * 256) / Settings.energy_power_calibration;
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uint32_t delta = (cf_pulses * watt256) / 36;
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Bl0940.cf_pulses_last_time = Bl0940.cf_pulses;
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Energy.kWhtoday_delta += delta;
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} else {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR("BL9: Overload"));
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Bl0940.cf_pulses_last_time = BL0940_PULSES_NOT_INITIALIZED;
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}
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EnergyUpdateToday();
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}
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}
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}
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Bl0940Serial->flush();
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