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/*
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xdrv_03_energy . ino - Energy sensor support for Tasmota
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Copyright ( C ) 2020 Theo Arends
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This program is free software : you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
This program is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
along with this program . If not , see < http : //www.gnu.org/licenses/>.
*/
# ifdef USE_ENERGY_SENSOR
/*********************************************************************************************\
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* Energy
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\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# define XDRV_03 3
# define XSNS_03 3
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//#define USE_ENERGY_MARGIN_DETECTION
// #define USE_ENERGY_POWER_LIMIT
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# define ENERGY_NONE 0
# define ENERGY_WATCHDOG 4 // Allow up to 4 seconds before deciding no valid data present
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# include <Ticker.h>
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# define D_CMND_POWERCAL "PowerCal"
# define D_CMND_VOLTAGECAL "VoltageCal"
# define D_CMND_CURRENTCAL "CurrentCal"
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# define D_CMND_TARIFF "Tariff"
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# define D_CMND_MODULEADDRESS "ModuleAddress"
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enum EnergyCommands {
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CMND_POWERCAL , CMND_VOLTAGECAL , CMND_CURRENTCAL ,
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CMND_POWERSET , CMND_VOLTAGESET , CMND_CURRENTSET , CMND_FREQUENCYSET , CMND_MODULEADDRESS } ;
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const char kEnergyCommands [ ] PROGMEM = " | " // No prefix
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D_CMND_POWERCAL " | " D_CMND_VOLTAGECAL " | " D_CMND_CURRENTCAL " | "
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D_CMND_POWERSET " | " D_CMND_VOLTAGESET " | " D_CMND_CURRENTSET " | " D_CMND_FREQUENCYSET " | " D_CMND_MODULEADDRESS " | "
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# ifdef USE_ENERGY_MARGIN_DETECTION
D_CMND_POWERDELTA " | " D_CMND_POWERLOW " | " D_CMND_POWERHIGH " | " D_CMND_VOLTAGELOW " | " D_CMND_VOLTAGEHIGH " | " D_CMND_CURRENTLOW " | " D_CMND_CURRENTHIGH " | "
# ifdef USE_ENERGY_POWER_LIMIT
D_CMND_MAXENERGY " | " D_CMND_MAXENERGYSTART " | "
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D_CMND_MAXPOWER " | " D_CMND_MAXPOWERHOLD " | " D_CMND_MAXPOWERWINDOW " | "
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D_CMND_SAFEPOWER " | " D_CMND_SAFEPOWERHOLD " | " D_CMND_SAFEPOWERWINDOW " | "
# endif // USE_ENERGY_POWER_LIMIT
# endif // USE_ENERGY_MARGIN_DETECTION
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D_CMND_ENERGYRESET " | " D_CMND_TARIFF ;
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void ( * const EnergyCommand [ ] ) ( void ) PROGMEM = {
& CmndPowerCal , & CmndVoltageCal , & CmndCurrentCal ,
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& CmndPowerSet , & CmndVoltageSet , & CmndCurrentSet , & CmndFrequencySet , & CmndModuleAddress ,
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# ifdef USE_ENERGY_MARGIN_DETECTION
& CmndPowerDelta , & CmndPowerLow , & CmndPowerHigh , & CmndVoltageLow , & CmndVoltageHigh , & CmndCurrentLow , & CmndCurrentHigh ,
# ifdef USE_ENERGY_POWER_LIMIT
& CmndMaxEnergy , & CmndMaxEnergyStart ,
& CmndMaxPower , & CmndMaxPowerHold , & CmndMaxPowerWindow ,
& CmndSafePower , & CmndSafePowerHold , & CmndSafePowerWindow ,
# endif // USE_ENERGY_POWER_LIMIT
# endif // USE_ENERGY_MARGIN_DETECTION
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& CmndEnergyReset , & CmndTariff } ;
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const char kEnergyPhases [ ] PROGMEM = " |%s / %s|%s / %s / %s||[%s,%s]|[%s,%s,%s] " ;
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struct ENERGY {
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float voltage [ 3 ] = { 0 , 0 , 0 } ; // 123.1 V
float current [ 3 ] = { 0 , 0 , 0 } ; // 123.123 A
float active_power [ 3 ] = { 0 , 0 , 0 } ; // 123.1 W
float apparent_power [ 3 ] = { NAN , NAN , NAN } ; // 123.1 VA
float reactive_power [ 3 ] = { NAN , NAN , NAN } ; // 123.1 VAr
float power_factor [ 3 ] = { NAN , NAN , NAN } ; // 0.12
float frequency [ 3 ] = { NAN , NAN , NAN } ; // 123.1 Hz
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# ifdef SDM630_IMPORT
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float import_active [ 3 ] = { NAN , NAN , NAN } ; // 123.123 kWh
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# endif // SDM630_IMPORT
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float export_active [ 3 ] = { NAN , NAN , NAN } ; // 123.123 kWh
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float start_energy = 0 ; // 12345.12345 kWh total previous
float daily = 0 ; // 123.123 kWh
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float total = 0 ; // 12345.12345 kWh total energy
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unsigned long kWhtoday_delta = 0 ; // 1212312345 Wh 10^-5 (deca micro Watt hours) - Overflows to Energy.kWhtoday (HLW and CSE only)
unsigned long kWhtoday_offset = 0 ; // 12312312 Wh * 10^-2 (deca milli Watt hours) - 5764 = 0.05764 kWh = 0.058 kWh = Energy.daily
unsigned long kWhtoday ; // 12312312 Wh * 10^-2 (deca milli Watt hours) - 5764 = 0.05764 kWh = 0.058 kWh = Energy.daily
unsigned long period = 0 ; // 12312312 Wh * 10^-2 (deca milli Watt hours) - 5764 = 0.05764 kWh = 0.058 kWh = Energy.daily
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uint8_t fifth_second = 0 ;
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uint8_t command_code = 0 ;
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uint8_t data_valid [ 3 ] = { 0 , 0 , 0 } ;
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uint8_t phase_count = 1 ; // Number of phases active
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bool voltage_common = false ; // Use single voltage
bool frequency_common = false ; // Use single frequency
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bool kWhtoday_offset_init = false ;
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bool voltage_available = true ; // Enable if voltage is measured
bool current_available = true ; // Enable if current is measured
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bool type_dc = false ;
bool power_on = true ;
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# ifdef USE_ENERGY_MARGIN_DETECTION
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uint16_t power_history [ 3 ] [ 3 ] = { { 0 } , { 0 } , { 0 } } ;
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uint8_t power_steady_counter = 8 ; // Allow for power on stabilization
bool min_power_flag = false ;
bool max_power_flag = false ;
bool min_voltage_flag = false ;
bool max_voltage_flag = false ;
bool min_current_flag = false ;
bool max_current_flag = false ;
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# ifdef USE_ENERGY_POWER_LIMIT
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uint16_t mplh_counter = 0 ;
uint16_t mplw_counter = 0 ;
uint8_t mplr_counter = 0 ;
uint8_t max_energy_state = 0 ;
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# endif // USE_ENERGY_POWER_LIMIT
# endif // USE_ENERGY_MARGIN_DETECTION
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} Energy ;
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Ticker ticker_energy ;
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/********************************************************************************************/
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char * EnergyFormatIndex ( char * result , char * input , bool json , uint32_t index , bool single = false )
{
char layout [ 16 ] ;
GetTextIndexed ( layout , sizeof ( layout ) , ( index - 1 ) + ( 3 * json ) , kEnergyPhases ) ;
switch ( index ) {
case 2 :
snprintf_P ( result , FLOATSZ * 3 , layout , input , input + FLOATSZ ) ; // Dirty
break ;
case 3 :
snprintf_P ( result , FLOATSZ * 3 , layout , input , input + FLOATSZ , input + FLOATSZ + FLOATSZ ) ; // Even dirtier
break ;
default :
snprintf_P ( result , FLOATSZ * 3 , input ) ;
}
return result ;
}
char * EnergyFormat ( char * result , char * input , bool json , bool single = false )
{
uint8_t index = ( single ) ? 1 : Energy . phase_count ; // 1,2,3
return EnergyFormatIndex ( result , input , json , index , single ) ;
}
/********************************************************************************************/
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bool EnergyTariff1Active ( ) // Off-Peak hours
{
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uint8_t dst = 0 ;
if ( IsDst ( ) & & ( Settings . tariff [ 0 ] [ 1 ] ! = Settings . tariff [ 1 ] [ 1 ] ) ) {
dst = 1 ;
}
if ( Settings . tariff [ 0 ] [ dst ] ! = Settings . tariff [ 1 ] [ dst ] ) {
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if ( Settings . flag3 . energy_weekend & & ( ( RtcTime . day_of_week = = 1 ) | | // CMND_TARIFF
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( RtcTime . day_of_week = = 7 ) ) ) {
return true ;
}
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uint32_t minutes = MinutesPastMidnight ( ) ;
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if ( Settings . tariff [ 0 ] [ dst ] > Settings . tariff [ 1 ] [ dst ] ) {
// {"Tariff":{"Off-Peak":{"STD":"22:00","DST":"23:00"},"Standard":{"STD":"06:00","DST":"07:00"},"Weekend":"OFF"}}
return ( ( minutes > = Settings . tariff [ 0 ] [ dst ] ) | | ( minutes < Settings . tariff [ 1 ] [ dst ] ) ) ;
} else {
// {"Tariff":{"Off-Peak":{"STD":"00:29","DST":"01:29"},"Standard":{"STD":"07:29","DST":"08:29"},"Weekend":"OFF"}}
return ( ( minutes > = Settings . tariff [ 0 ] [ dst ] ) & & ( minutes < Settings . tariff [ 1 ] [ dst ] ) ) ;
}
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} else {
return false ;
}
}
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void EnergyUpdateToday ( void )
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{
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if ( Energy . kWhtoday_delta > 1000 ) {
unsigned long delta = Energy . kWhtoday_delta / 1000 ;
Energy . kWhtoday_delta - = ( delta * 1000 ) ;
Energy . kWhtoday + = delta ;
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}
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RtcSettings . energy_kWhtoday = Energy . kWhtoday_offset + Energy . kWhtoday ;
Energy . daily = ( float ) ( RtcSettings . energy_kWhtoday ) / 100000 ;
Energy . total = ( float ) ( RtcSettings . energy_kWhtotal + RtcSettings . energy_kWhtoday ) / 100000 ;
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if ( RtcTime . valid ) { // We calc the difference only if we have a valid RTC time.
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uint32_t energy_diff = ( uint32_t ) ( Energy . total * 100000 ) - RtcSettings . energy_usage . last_usage_kWhtotal ;
RtcSettings . energy_usage . last_usage_kWhtotal = ( uint32_t ) ( Energy . total * 100000 ) ;
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uint32_t return_diff = 0 ;
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if ( ! isnan ( Energy . export_active [ 0 ] ) ) {
// return_diff = (uint32_t)(Energy.export_active * 100000) - RtcSettings.energy_usage.last_return_kWhtotal;
// RtcSettings.energy_usage.last_return_kWhtotal = (uint32_t)(Energy.export_active * 100000);
float export_active = 0.0 ;
for ( uint32_t i = 0 ; i < Energy . phase_count ; i + + ) {
if ( ! isnan ( Energy . export_active [ i ] ) ) {
export_active + = Energy . export_active [ i ] ;
}
}
return_diff = ( uint32_t ) ( export_active * 100000 ) - RtcSettings . energy_usage . last_return_kWhtotal ;
RtcSettings . energy_usage . last_return_kWhtotal = ( uint32_t ) ( export_active * 100000 ) ;
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}
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if ( EnergyTariff1Active ( ) ) { // Tarrif1 = Off-Peak
RtcSettings . energy_usage . usage1_kWhtotal + = energy_diff ;
RtcSettings . energy_usage . return1_kWhtotal + = return_diff ;
} else {
RtcSettings . energy_usage . usage2_kWhtotal + = energy_diff ;
RtcSettings . energy_usage . return2_kWhtotal + = return_diff ;
}
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}
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}
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void EnergyUpdateTotal ( float value , bool kwh )
{
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// char energy_total_chr[FLOATSZ];
// dtostrfd(value, 4, energy_total_chr);
// AddLog_P2(LOG_LEVEL_DEBUG, PSTR("NRG: Energy Total %s %sWh"), energy_total_chr, (kwh) ? "k" : "");
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uint32_t multiplier = ( kwh ) ? 100000 : 100 ; // kWh or Wh to deca milli Wh
if ( 0 = = Energy . start_energy | | ( value < Energy . start_energy ) ) {
Energy . start_energy = value ; // Init after restart and handle roll-over if any
}
else if ( value ! = Energy . start_energy ) {
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Energy . kWhtoday = ( unsigned long ) ( ( value - Energy . start_energy ) * multiplier ) ;
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}
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if ( ( Energy . total < ( value - 0.01 ) ) & & // We subtract a little offset to avoid continuous updates
Settings . flag3 . hardware_energy_total ) { // SetOption72 - Enable hardware energy total counter as reference (#6561)
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RtcSettings . energy_kWhtotal = ( unsigned long ) ( ( value * multiplier ) - Energy . kWhtoday_offset - Energy . kWhtoday ) ;
Settings . energy_kWhtotal = RtcSettings . energy_kWhtotal ;
Energy . total = ( float ) ( RtcSettings . energy_kWhtotal + Energy . kWhtoday_offset + Energy . kWhtoday ) / 100000 ;
Settings . energy_kWhtotal_time = ( ! Energy . kWhtoday_offset ) ? LocalTime ( ) : Midnight ( ) ;
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// AddLog_P2(LOG_LEVEL_DEBUG, PSTR("NRG: Energy Total updated with hardware value"));
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}
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EnergyUpdateToday ( ) ;
}
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/*********************************************************************************************/
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void Energy200ms ( void )
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{
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Energy . power_on = ( TasmotaGlobal . power ! = 0 ) | Settings . flag . no_power_on_check ; // SetOption21 - Show voltage even if powered off
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Energy . fifth_second + + ;
if ( 5 = = Energy . fifth_second ) {
Energy . fifth_second = 0 ;
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XnrgCall ( FUNC_ENERGY_EVERY_SECOND ) ;
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if ( RtcTime . valid ) {
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if ( ! Energy . kWhtoday_offset_init & & ( RtcTime . day_of_year = = Settings . energy_kWhdoy ) ) {
Energy . kWhtoday_offset = Settings . energy_kWhtoday ;
Energy . kWhtoday_offset_init = true ;
}
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if ( LocalTime ( ) = = Midnight ( ) ) {
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Settings . energy_kWhyesterday = RtcSettings . energy_kWhtoday ;
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RtcSettings . energy_kWhtotal + = RtcSettings . energy_kWhtoday ;
Settings . energy_kWhtotal = RtcSettings . energy_kWhtotal ;
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Energy . period - = RtcSettings . energy_kWhtoday ; // this becomes a large unsigned, effectively a negative for EnergyShow calculation
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Energy . kWhtoday = 0 ;
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Energy . kWhtoday_offset = 0 ;
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RtcSettings . energy_kWhtoday = 0 ;
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Energy . start_energy = 0 ;
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// Energy.kWhtoday_delta = 0; // dont zero this, we need to carry the remainder over to tomorrow
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EnergyUpdateToday ( ) ;
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# if defined(USE_ENERGY_MARGIN_DETECTION) && defined(USE_ENERGY_POWER_LIMIT)
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Energy . max_energy_state = 3 ;
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# endif // USE_ENERGY_POWER_LIMIT
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}
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# if defined(USE_ENERGY_MARGIN_DETECTION) && defined(USE_ENERGY_POWER_LIMIT)
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if ( ( RtcTime . hour = = Settings . energy_max_energy_start ) & & ( 3 = = Energy . max_energy_state ) ) {
Energy . max_energy_state = 0 ;
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}
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# endif // USE_ENERGY_POWER_LIMIT
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}
}
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XnrgCall ( FUNC_EVERY_200_MSECOND ) ;
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}
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void EnergySaveState ( void )
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{
Settings . energy_kWhdoy = ( RtcTime . valid ) ? RtcTime . day_of_year : 0 ;
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Settings . energy_kWhtoday = RtcSettings . energy_kWhtoday ;
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Settings . energy_kWhtotal = RtcSettings . energy_kWhtotal ;
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Settings . energy_usage = RtcSettings . energy_usage ;
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}
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# ifdef USE_ENERGY_MARGIN_DETECTION
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bool EnergyMargin ( bool type , uint16_t margin , uint16_t value , bool & flag , bool & save_flag )
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{
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bool change ;
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if ( ! margin ) return false ;
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change = save_flag ;
if ( type ) {
flag = ( value > margin ) ;
} else {
flag = ( value < margin ) ;
}
save_flag = flag ;
return ( change ! = save_flag ) ;
}
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void EnergyMarginCheck ( void )
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{
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if ( Energy . power_steady_counter ) {
Energy . power_steady_counter - - ;
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return ;
}
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bool jsonflg = false ;
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Response_P ( PSTR ( " { \" " D_RSLT_MARGINS " \" :{ " ) ) ;
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int16_t power_diff [ 3 ] = { 0 } ;
for ( uint32_t phase = 0 ; phase < Energy . phase_count ; phase + + ) {
uint16_t active_power = ( uint16_t ) ( Energy . active_power [ phase ] ) ;
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// AddLog_P2(LOG_LEVEL_DEBUG, PSTR("NRG: APower %d, HPower0 %d, HPower1 %d, HPower2 %d"), active_power, Energy.power_history[phase][0], Energy.power_history[phase][1], Energy.power_history[phase][2]);
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if ( Settings . energy_power_delta [ phase ] ) {
power_diff [ phase ] = active_power - Energy . power_history [ phase ] [ 0 ] ;
uint16_t delta = abs ( power_diff [ phase ] ) ;
bool threshold_met = false ;
if ( delta > 0 ) {
if ( Settings . energy_power_delta [ phase ] < 101 ) { // 1..100 = Percentage
uint16_t min_power = ( Energy . power_history [ phase ] [ 0 ] > active_power ) ? active_power : Energy . power_history [ phase ] [ 0 ] ;
if ( 0 = = min_power ) { min_power + + ; } // Fix divide by 0 exception (#6741)
delta = ( delta * 100 ) / min_power ;
if ( delta > Settings . energy_power_delta [ phase ] ) {
threshold_met = true ;
}
} else { // 101..32000 = Absolute
if ( delta > ( Settings . energy_power_delta [ phase ] - 100 ) ) {
threshold_met = true ;
}
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}
}
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if ( threshold_met ) {
Energy . power_history [ phase ] [ 1 ] = active_power ; // We only want one report so reset history
Energy . power_history [ phase ] [ 2 ] = active_power ;
jsonflg = true ;
} else {
power_diff [ phase ] = 0 ;
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}
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}
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Energy . power_history [ phase ] [ 0 ] = Energy . power_history [ phase ] [ 1 ] ; // Shift in history every second allowing power changes to settle for up to three seconds
Energy . power_history [ phase ] [ 1 ] = Energy . power_history [ phase ] [ 2 ] ;
Energy . power_history [ phase ] [ 2 ] = active_power ;
}
if ( jsonflg ) {
char power_diff_chr [ Energy . phase_count ] [ FLOATSZ ] ;
for ( uint32_t phase = 0 ; phase < Energy . phase_count ; phase + + ) {
dtostrfd ( power_diff [ phase ] , 0 , power_diff_chr [ phase ] ) ;
}
char value_chr [ FLOATSZ * 3 ] ;
ResponseAppend_P ( PSTR ( " \" " D_CMND_POWERDELTA " \" :%s " ) , EnergyFormat ( value_chr , power_diff_chr [ 0 ] , 1 ) ) ;
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}
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uint16_t energy_power_u = ( uint16_t ) ( Energy . active_power [ 0 ] ) ;
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2019-08-16 13:41:02 +01:00
if ( Energy . power_on & & ( Settings . energy_min_power | | Settings . energy_max_power | | Settings . energy_min_voltage | | Settings . energy_max_voltage | | Settings . energy_min_current | | Settings . energy_max_current ) ) {
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uint16_t energy_voltage_u = ( uint16_t ) ( Energy . voltage [ 0 ] ) ;
uint16_t energy_current_u = ( uint16_t ) ( Energy . current [ 0 ] * 1000 ) ;
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2019-08-08 15:24:11 +01:00
DEBUG_DRIVER_LOG ( PSTR ( " NRG: W %d, U %d, I %d " ) , energy_power_u , energy_voltage_u , energy_current_u ) ;
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2019-10-18 15:53:30 +01:00
bool flag ;
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if ( EnergyMargin ( false , Settings . energy_min_power , energy_power_u , flag , Energy . min_power_flag ) ) {
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ResponseAppend_P ( PSTR ( " %s \" " D_CMND_POWERLOW " \" : \" %s \" " ) , ( jsonflg ) ? " , " : " " , GetStateText ( flag ) ) ;
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jsonflg = true ;
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}
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if ( EnergyMargin ( true , Settings . energy_max_power , energy_power_u , flag , Energy . max_power_flag ) ) {
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ResponseAppend_P ( PSTR ( " %s \" " D_CMND_POWERHIGH " \" : \" %s \" " ) , ( jsonflg ) ? " , " : " " , GetStateText ( flag ) ) ;
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jsonflg = true ;
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}
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if ( EnergyMargin ( false , Settings . energy_min_voltage , energy_voltage_u , flag , Energy . min_voltage_flag ) ) {
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ResponseAppend_P ( PSTR ( " %s \" " D_CMND_VOLTAGELOW " \" : \" %s \" " ) , ( jsonflg ) ? " , " : " " , GetStateText ( flag ) ) ;
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jsonflg = true ;
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}
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if ( EnergyMargin ( true , Settings . energy_max_voltage , energy_voltage_u , flag , Energy . max_voltage_flag ) ) {
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ResponseAppend_P ( PSTR ( " %s \" " D_CMND_VOLTAGEHIGH " \" : \" %s \" " ) , ( jsonflg ) ? " , " : " " , GetStateText ( flag ) ) ;
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jsonflg = true ;
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}
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if ( EnergyMargin ( false , Settings . energy_min_current , energy_current_u , flag , Energy . min_current_flag ) ) {
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ResponseAppend_P ( PSTR ( " %s \" " D_CMND_CURRENTLOW " \" : \" %s \" " ) , ( jsonflg ) ? " , " : " " , GetStateText ( flag ) ) ;
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jsonflg = true ;
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}
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if ( EnergyMargin ( true , Settings . energy_max_current , energy_current_u , flag , Energy . max_current_flag ) ) {
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ResponseAppend_P ( PSTR ( " %s \" " D_CMND_CURRENTHIGH " \" : \" %s \" " ) , ( jsonflg ) ? " , " : " " , GetStateText ( flag ) ) ;
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jsonflg = true ;
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}
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}
if ( jsonflg ) {
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ResponseJsonEndEnd ( ) ;
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MqttPublishPrefixTopicRulesProcess_P ( TELE , PSTR ( D_RSLT_MARGINS ) , MQTT_TELE_RETAIN ) ;
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EnergyMqttShow ( ) ;
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}
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# ifdef USE_ENERGY_POWER_LIMIT
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// Max Power
if ( Settings . energy_max_power_limit ) {
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if ( Energy . active_power [ 0 ] > Settings . energy_max_power_limit ) {
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if ( ! Energy . mplh_counter ) {
Energy . mplh_counter = Settings . energy_max_power_limit_hold ;
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} else {
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Energy . mplh_counter - - ;
if ( ! Energy . mplh_counter ) {
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ResponseTime_P ( PSTR ( " , \" " D_JSON_MAXPOWERREACHED " \" :%d} " ) , energy_power_u ) ;
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MqttPublishPrefixTopic_P ( STAT , S_RSLT_WARNING ) ;
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EnergyMqttShow ( ) ;
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SetAllPower ( POWER_ALL_OFF , SRC_MAXPOWER ) ;
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if ( ! Energy . mplr_counter ) {
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Energy . mplr_counter = Settings . param [ P_MAX_POWER_RETRY ] + 1 ; // SetOption33 - Max Power Retry count
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}
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Energy . mplw_counter = Settings . energy_max_power_limit_window ;
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}
}
}
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else if ( TasmotaGlobal . power & & ( energy_power_u < = Settings . energy_max_power_limit ) ) {
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Energy . mplh_counter = 0 ;
Energy . mplr_counter = 0 ;
Energy . mplw_counter = 0 ;
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}
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if ( ! TasmotaGlobal . power ) {
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if ( Energy . mplw_counter ) {
Energy . mplw_counter - - ;
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} else {
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if ( Energy . mplr_counter ) {
Energy . mplr_counter - - ;
if ( Energy . mplr_counter ) {
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ResponseTime_P ( PSTR ( " , \" " D_JSON_POWERMONITOR " \" : \" %s \" } " ) , GetStateText ( 1 ) ) ;
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MqttPublishPrefixTopic_P ( RESULT_OR_STAT , PSTR ( D_JSON_POWERMONITOR ) ) ;
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RestorePower ( true , SRC_MAXPOWER ) ;
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} else {
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ResponseTime_P ( PSTR ( " , \" " D_JSON_MAXPOWERREACHEDRETRY " \" : \" %s \" } " ) , GetStateText ( 0 ) ) ;
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MqttPublishPrefixTopic_P ( STAT , S_RSLT_WARNING ) ;
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EnergyMqttShow ( ) ;
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SetAllPower ( POWER_ALL_OFF , SRC_MAXPOWER ) ;
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}
}
}
}
}
// Max Energy
if ( Settings . energy_max_energy ) {
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uint16_t energy_daily_u = ( uint16_t ) ( Energy . daily * 1000 ) ;
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if ( ! Energy . max_energy_state & & ( RtcTime . hour = = Settings . energy_max_energy_start ) ) {
Energy . max_energy_state = 1 ;
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ResponseTime_P ( PSTR ( " , \" " D_JSON_ENERGYMONITOR " \" : \" %s \" } " ) , GetStateText ( 1 ) ) ;
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MqttPublishPrefixTopic_P ( RESULT_OR_STAT , PSTR ( D_JSON_ENERGYMONITOR ) ) ;
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RestorePower ( true , SRC_MAXENERGY ) ;
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}
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else if ( ( 1 = = Energy . max_energy_state ) & & ( energy_daily_u > = Settings . energy_max_energy ) ) {
Energy . max_energy_state = 2 ;
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char stemp [ FLOATSZ ] ;
dtostrfd ( Energy . daily , 3 , stemp ) ;
ResponseTime_P ( PSTR ( " , \" " D_JSON_MAXENERGYREACHED " \" :%s} " ) , stemp ) ;
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MqttPublishPrefixTopic_P ( STAT , S_RSLT_WARNING ) ;
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EnergyMqttShow ( ) ;
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SetAllPower ( POWER_ALL_OFF , SRC_MAXENERGY ) ;
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}
}
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# endif // USE_ENERGY_POWER_LIMIT
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}
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void EnergyMqttShow ( void )
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{
// {"Time":"2017-12-16T11:48:55","ENERGY":{"Total":0.212,"Yesterday":0.000,"Today":0.014,"Period":2.0,"Power":22.0,"Factor":1.00,"Voltage":213.6,"Current":0.100}}
2020-10-29 12:37:09 +00:00
int tele_period_save = TasmotaGlobal . tele_period ;
TasmotaGlobal . tele_period = 2 ;
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mqtt_data [ 0 ] = ' \0 ' ;
ResponseAppendTime ( ) ;
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EnergyShow ( true ) ;
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TasmotaGlobal . tele_period = tele_period_save ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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ResponseJsonEnd ( ) ;
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MqttPublishTeleSensor ( ) ;
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}
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# endif // USE_ENERGY_MARGIN_DETECTION
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2019-11-20 19:53:12 +00:00
void EnergyEverySecond ( void )
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{
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// Overtemp check
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if ( TasmotaGlobal . global_update ) {
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if ( TasmotaGlobal . power & & ! isnan ( TasmotaGlobal . temperature_celsius ) & & ( TasmotaGlobal . temperature_celsius > ( float ) Settings . param [ P_OVER_TEMP ] ) ) { // Device overtemp, turn off relays
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char temperature [ 33 ] ;
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dtostrfd ( TasmotaGlobal . temperature_celsius , 1 , temperature ) ;
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AddLog_P2 ( LOG_LEVEL_DEBUG , PSTR ( " NRG: GlobTemp %s " ) , temperature ) ;
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SetAllPower ( POWER_ALL_OFF , SRC_OVERTEMP ) ;
}
}
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// Invalid data reset
uint32_t data_valid = Energy . phase_count ;
for ( uint32_t i = 0 ; i < Energy . phase_count ; i + + ) {
if ( Energy . data_valid [ i ] < = ENERGY_WATCHDOG ) {
Energy . data_valid [ i ] + + ;
if ( Energy . data_valid [ i ] > ENERGY_WATCHDOG ) {
// Reset energy registers
2019-09-15 12:10:32 +01:00
Energy . voltage [ i ] = 0 ;
Energy . current [ i ] = 0 ;
Energy . active_power [ i ] = 0 ;
if ( ! isnan ( Energy . apparent_power [ i ] ) ) { Energy . apparent_power [ i ] = 0 ; }
if ( ! isnan ( Energy . reactive_power [ i ] ) ) { Energy . reactive_power [ i ] = 0 ; }
if ( ! isnan ( Energy . frequency [ i ] ) ) { Energy . frequency [ i ] = 0 ; }
if ( ! isnan ( Energy . power_factor [ i ] ) ) { Energy . power_factor [ i ] = 0 ; }
2020-05-22 16:48:21 +01:00
if ( ! isnan ( Energy . export_active [ i ] ) ) { Energy . export_active [ i ] = 0 ; }
2019-09-01 16:51:25 +01:00
2019-09-21 16:10:52 +01:00
data_valid - - ;
}
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}
}
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if ( ! data_valid ) {
Energy . start_energy = 0 ;
XnrgCall ( FUNC_ENERGY_RESET ) ;
}
# ifdef USE_ENERGY_MARGIN_DETECTION
EnergyMarginCheck ( ) ;
# endif // USE_ENERGY_MARGIN_DETECTION
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}
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/*********************************************************************************************\
* Commands
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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void EnergyCommandCalResponse ( uint32_t nvalue )
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{
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snprintf_P ( XdrvMailbox . command , CMDSZ , PSTR ( " %sCal " ) , XdrvMailbox . command ) ;
ResponseCmndNumber ( nvalue ) ;
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}
void CmndEnergyReset ( void )
{
if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = 3 ) ) {
2017-12-16 14:51:45 +00:00
char * p ;
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unsigned long lnum = strtoul ( XdrvMailbox . data , & p , 10 ) ;
if ( p ! = XdrvMailbox . data ) {
switch ( XdrvMailbox . index ) {
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case 1 :
2019-09-10 11:31:08 +01:00
// Reset Energy Today
2019-09-06 17:02:31 +01:00
Energy . kWhtoday_offset = lnum * 100 ;
Energy . kWhtoday = 0 ;
2019-08-16 13:41:02 +01:00
Energy . kWhtoday_delta = 0 ;
2019-10-16 10:09:48 +01:00
Energy . start_energy = 0 ;
2019-09-06 17:02:31 +01:00
Energy . period = Energy . kWhtoday_offset ;
Settings . energy_kWhtoday = Energy . kWhtoday_offset ;
RtcSettings . energy_kWhtoday = Energy . kWhtoday_offset ;
Energy . daily = ( float ) Energy . kWhtoday_offset / 100000 ;
if ( ! RtcSettings . energy_kWhtotal & & ! Energy . kWhtoday_offset ) {
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Settings . energy_kWhtotal_time = LocalTime ( ) ;
}
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break ;
case 2 :
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// Reset Energy Yesterday
2018-04-30 11:07:48 +01:00
Settings . energy_kWhyesterday = lnum * 100 ;
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break ;
case 3 :
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// Reset Energy Total
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RtcSettings . energy_kWhtotal = lnum * 100 ;
Settings . energy_kWhtotal = RtcSettings . energy_kWhtotal ;
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// Energy.total = (float)(RtcSettings.energy_kWhtotal + Energy.kWhtoday_offset + Energy.kWhtoday) / 100000;
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Settings . energy_kWhtotal_time = ( ! Energy . kWhtoday_offset ) ? LocalTime ( ) : Midnight ( ) ;
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RtcSettings . energy_usage . last_usage_kWhtotal = ( uint32_t ) ( Energy . total * 1000 ) ;
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break ;
}
}
}
2019-10-16 10:09:48 +01:00
else if ( ( XdrvMailbox . index > 3 ) & & ( XdrvMailbox . index < = 5 ) ) {
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uint32_t values [ 2 ] = { 0 } ;
uint32_t position = ParseParameters ( 2 , values ) ;
values [ 0 ] * = 100 ;
values [ 1 ] * = 100 ;
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switch ( XdrvMailbox . index )
{
case 4 :
// Reset energy_usage.usage totals
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if ( position > 0 ) {
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RtcSettings . energy_usage . usage1_kWhtotal = values [ 0 ] ;
}
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if ( position > 1 ) {
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RtcSettings . energy_usage . usage2_kWhtotal = values [ 1 ] ;
}
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Settings . energy_usage . usage1_kWhtotal = RtcSettings . energy_usage . usage1_kWhtotal ;
Settings . energy_usage . usage2_kWhtotal = RtcSettings . energy_usage . usage2_kWhtotal ;
break ;
case 5 :
// Reset energy_usage.return totals
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if ( position > 0 ) {
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RtcSettings . energy_usage . return1_kWhtotal = values [ 0 ] ;
}
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if ( position > 1 ) {
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RtcSettings . energy_usage . return2_kWhtotal = values [ 1 ] ;
}
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Settings . energy_usage . return1_kWhtotal = RtcSettings . energy_usage . return1_kWhtotal ;
Settings . energy_usage . return2_kWhtotal = RtcSettings . energy_usage . return2_kWhtotal ;
break ;
}
2019-09-21 10:31:41 +01:00
}
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2019-10-16 10:09:48 +01:00
Energy . total = ( float ) ( RtcSettings . energy_kWhtotal + Energy . kWhtoday_offset + Energy . kWhtoday ) / 100000 ;
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char energy_total_chr [ FLOATSZ ] ;
dtostrfd ( Energy . total , Settings . flag2 . energy_resolution , energy_total_chr ) ;
char energy_daily_chr [ FLOATSZ ] ;
dtostrfd ( Energy . daily , Settings . flag2 . energy_resolution , energy_daily_chr ) ;
char energy_yesterday_chr [ FLOATSZ ] ;
dtostrfd ( ( float ) Settings . energy_kWhyesterday / 100000 , Settings . flag2 . energy_resolution , energy_yesterday_chr ) ;
2019-09-22 17:30:55 +01:00
char energy_usage1_chr [ FLOATSZ ] ;
dtostrfd ( ( float ) Settings . energy_usage . usage1_kWhtotal / 100000 , Settings . flag2 . energy_resolution , energy_usage1_chr ) ;
char energy_usage2_chr [ FLOATSZ ] ;
dtostrfd ( ( float ) Settings . energy_usage . usage2_kWhtotal / 100000 , Settings . flag2 . energy_resolution , energy_usage2_chr ) ;
char energy_return1_chr [ FLOATSZ ] ;
dtostrfd ( ( float ) Settings . energy_usage . return1_kWhtotal / 100000 , Settings . flag2 . energy_resolution , energy_return1_chr ) ;
char energy_return2_chr [ FLOATSZ ] ;
dtostrfd ( ( float ) Settings . energy_usage . return2_kWhtotal / 100000 , Settings . flag2 . energy_resolution , energy_return2_chr ) ;
Response_P ( PSTR ( " { \" %s \" :{ \" " D_JSON_TOTAL " \" :%s, \" " D_JSON_YESTERDAY " \" :%s, \" " D_JSON_TODAY " \" :%s, \" " D_JSON_USAGE " \" :[%s,%s], \" " D_JSON_EXPORT " \" :[%s,%s]}} " ) ,
XdrvMailbox . command , energy_total_chr , energy_yesterday_chr , energy_daily_chr , energy_usage1_chr , energy_usage2_chr , energy_return1_chr , energy_return2_chr ) ;
2019-08-01 14:46:12 +01:00
}
2019-08-27 16:01:12 +01:00
void CmndTariff ( void )
{
2019-09-25 13:24:49 +01:00
// Tariff1 22:00,23:00 - Tariff1 start hour for Standard Time and Daylight Savings Time
// Tariff2 6:00,7:00 - Tariff2 start hour for Standard Time and Daylight Savings Time
// Tariffx 1320, 1380 = minutes and also 22:00, 23:00
// Tariffx 22, 23 = hours and also 22:00, 23:00
2019-09-10 15:18:23 +01:00
// Tariff9 0/1
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if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = 2 ) ) {
2019-09-25 13:24:49 +01:00
uint32_t tariff = XdrvMailbox . index - 1 ;
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uint32_t time_type = 0 ;
2019-09-25 13:24:49 +01:00
char * p ;
char * str = strtok_r ( XdrvMailbox . data , " , " , & p ) ; // 23:15, 22:30
while ( ( str ! = nullptr ) & & ( time_type < 2 ) ) {
char * q ;
uint32_t value = strtol ( str , & q , 10 ) ; // 23 or 22
Settings . tariff [ tariff ] [ time_type ] = value ;
if ( value < 24 ) { // Below 24 is hours
Settings . tariff [ tariff ] [ time_type ] * = 60 ; // Multiply hours by 60 minutes
char * minute = strtok_r ( nullptr , " : " , & q ) ;
if ( minute ) {
value = strtol ( minute , nullptr , 10 ) ; // 15 or 30
if ( value > 59 ) {
value = 59 ;
}
Settings . tariff [ tariff ] [ time_type ] + = value ;
}
}
if ( Settings . tariff [ tariff ] [ time_type ] > 1439 ) {
Settings . tariff [ tariff ] [ time_type ] = 1439 ; // Max is 23:59
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}
str = strtok_r ( nullptr , " , " , & p ) ;
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time_type + + ;
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}
}
2019-09-10 15:18:23 +01:00
else if ( XdrvMailbox . index = = 9 ) {
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Settings . flag3 . energy_weekend = XdrvMailbox . payload & 1 ; // CMND_TARIFF
2019-08-27 16:01:12 +01:00
}
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Response_P ( PSTR ( " { \" %s \" :{ \" Off-Peak \" :{ \" STD \" : \" %s \" , \" DST \" : \" %s \" }, \" Standard \" :{ \" STD \" : \" %s \" , \" DST \" : \" %s \" }, \" Weekend \" : \" %s \" }} " ) ,
2019-09-10 15:18:23 +01:00
XdrvMailbox . command ,
2019-09-25 13:24:49 +01:00
GetMinuteTime ( Settings . tariff [ 0 ] [ 0 ] ) . c_str ( ) , GetMinuteTime ( Settings . tariff [ 0 ] [ 1 ] ) . c_str ( ) ,
GetMinuteTime ( Settings . tariff [ 1 ] [ 0 ] ) . c_str ( ) , GetMinuteTime ( Settings . tariff [ 1 ] [ 1 ] ) . c_str ( ) ,
2019-11-03 12:51:22 +00:00
GetStateText ( Settings . flag3 . energy_weekend ) ) ; // CMND_TARIFF
2019-08-27 16:01:12 +01:00
}
2019-08-01 14:46:12 +01:00
void CmndPowerCal ( void )
{
2019-08-16 13:41:02 +01:00
Energy . command_code = CMND_POWERCAL ;
2019-08-01 14:46:12 +01:00
if ( XnrgCall ( FUNC_COMMAND ) ) { // microseconds
if ( ( XdrvMailbox . payload > 999 ) & & ( XdrvMailbox . payload < 32001 ) ) {
Settings . energy_power_calibration = XdrvMailbox . payload ;
}
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ResponseCmndNumber ( Settings . energy_power_calibration ) ;
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}
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}
void CmndVoltageCal ( void )
{
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Energy . command_code = CMND_VOLTAGECAL ;
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if ( XnrgCall ( FUNC_COMMAND ) ) { // microseconds
if ( ( XdrvMailbox . payload > 999 ) & & ( XdrvMailbox . payload < 32001 ) ) {
Settings . energy_voltage_calibration = XdrvMailbox . payload ;
}
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ResponseCmndNumber ( Settings . energy_voltage_calibration ) ;
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}
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}
void CmndCurrentCal ( void )
{
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Energy . command_code = CMND_CURRENTCAL ;
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if ( XnrgCall ( FUNC_COMMAND ) ) { // microseconds
if ( ( XdrvMailbox . payload > 999 ) & & ( XdrvMailbox . payload < 32001 ) ) {
Settings . energy_current_calibration = XdrvMailbox . payload ;
}
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ResponseCmndNumber ( Settings . energy_current_calibration ) ;
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}
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}
void CmndPowerSet ( void )
{
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Energy . command_code = CMND_POWERSET ;
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if ( XnrgCall ( FUNC_COMMAND ) ) { // Watt
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EnergyCommandCalResponse ( Settings . energy_power_calibration ) ;
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}
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}
void CmndVoltageSet ( void )
{
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Energy . command_code = CMND_VOLTAGESET ;
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if ( XnrgCall ( FUNC_COMMAND ) ) { // Volt
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EnergyCommandCalResponse ( Settings . energy_voltage_calibration ) ;
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}
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}
void CmndCurrentSet ( void )
{
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Energy . command_code = CMND_CURRENTSET ;
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if ( XnrgCall ( FUNC_COMMAND ) ) { // milliAmpere
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EnergyCommandCalResponse ( Settings . energy_current_calibration ) ;
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}
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}
void CmndFrequencySet ( void )
{
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Energy . command_code = CMND_FREQUENCYSET ;
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if ( XnrgCall ( FUNC_COMMAND ) ) { // Hz
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EnergyCommandCalResponse ( Settings . energy_frequency_calibration ) ;
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}
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}
2018-02-03 22:25:05 +00:00
2019-09-16 15:56:16 +01:00
void CmndModuleAddress ( void )
{
if ( ( XdrvMailbox . payload > 0 ) & & ( XdrvMailbox . payload < 4 ) & & ( 1 = = Energy . phase_count ) ) {
Energy . command_code = CMND_MODULEADDRESS ;
if ( XnrgCall ( FUNC_COMMAND ) ) { // Module address
ResponseCmndDone ( ) ;
}
}
}
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# ifdef USE_ENERGY_MARGIN_DETECTION
void CmndPowerDelta ( void )
{
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if ( ( XdrvMailbox . index > 0 ) & & ( XdrvMailbox . index < = 3 ) ) {
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 32000 ) ) {
Settings . energy_power_delta [ XdrvMailbox . index - 1 ] = XdrvMailbox . payload ;
}
ResponseCmndIdxNumber ( Settings . energy_power_delta [ XdrvMailbox . index - 1 ] ) ;
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}
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}
void CmndPowerLow ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 3601 ) ) {
Settings . energy_min_power = XdrvMailbox . payload ;
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}
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ResponseCmndNumber ( Settings . energy_min_power ) ;
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}
void CmndPowerHigh ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 3601 ) ) {
Settings . energy_max_power = XdrvMailbox . payload ;
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}
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ResponseCmndNumber ( Settings . energy_max_power ) ;
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}
void CmndVoltageLow ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 501 ) ) {
Settings . energy_min_voltage = XdrvMailbox . payload ;
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}
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ResponseCmndNumber ( Settings . energy_min_voltage ) ;
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}
void CmndVoltageHigh ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 501 ) ) {
Settings . energy_max_voltage = XdrvMailbox . payload ;
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}
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ResponseCmndNumber ( Settings . energy_max_voltage ) ;
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}
void CmndCurrentLow ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 16001 ) ) {
Settings . energy_min_current = XdrvMailbox . payload ;
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}
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ResponseCmndNumber ( Settings . energy_min_current ) ;
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}
void CmndCurrentHigh ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 16001 ) ) {
Settings . energy_max_current = XdrvMailbox . payload ;
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}
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ResponseCmndNumber ( Settings . energy_max_current ) ;
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}
# ifdef USE_ENERGY_POWER_LIMIT
void CmndMaxPower ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 3601 ) ) {
Settings . energy_max_power_limit = XdrvMailbox . payload ;
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}
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ResponseCmndNumber ( Settings . energy_max_power_limit ) ;
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}
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2019-08-01 14:46:12 +01:00
void CmndMaxPowerHold ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 3601 ) ) {
Settings . energy_max_power_limit_hold = ( 1 = = XdrvMailbox . payload ) ? MAX_POWER_HOLD : XdrvMailbox . payload ;
}
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ResponseCmndNumber ( Settings . energy_max_power_limit_hold ) ;
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}
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2019-08-01 14:46:12 +01:00
void CmndMaxPowerWindow ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 3601 ) ) {
Settings . energy_max_power_limit_window = ( 1 = = XdrvMailbox . payload ) ? MAX_POWER_WINDOW : XdrvMailbox . payload ;
}
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ResponseCmndNumber ( Settings . energy_max_power_limit_window ) ;
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}
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2019-08-01 14:46:12 +01:00
void CmndSafePower ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 3601 ) ) {
Settings . energy_max_power_safe_limit = XdrvMailbox . payload ;
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}
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ResponseCmndNumber ( Settings . energy_max_power_safe_limit ) ;
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}
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2019-08-01 14:46:12 +01:00
void CmndSafePowerHold ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 3601 ) ) {
Settings . energy_max_power_safe_limit_hold = ( 1 = = XdrvMailbox . payload ) ? SAFE_POWER_HOLD : XdrvMailbox . payload ;
}
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ResponseCmndNumber ( Settings . energy_max_power_safe_limit_hold ) ;
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}
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void CmndSafePowerWindow ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 1440 ) ) {
Settings . energy_max_power_safe_limit_window = ( 1 = = XdrvMailbox . payload ) ? SAFE_POWER_WINDOW : XdrvMailbox . payload ;
}
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ResponseCmndNumber ( Settings . energy_max_power_safe_limit_window ) ;
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}
void CmndMaxEnergy ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 3601 ) ) {
Settings . energy_max_energy = XdrvMailbox . payload ;
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Energy . max_energy_state = 3 ;
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}
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ResponseCmndNumber ( Settings . energy_max_energy ) ;
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}
void CmndMaxEnergyStart ( void )
{
if ( ( XdrvMailbox . payload > = 0 ) & & ( XdrvMailbox . payload < 24 ) ) {
Settings . energy_max_energy_start = XdrvMailbox . payload ;
}
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ResponseCmndNumber ( Settings . energy_max_energy_start ) ;
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}
# endif // USE_ENERGY_POWER_LIMIT
# endif // USE_ENERGY_MARGIN_DETECTION
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void EnergySnsInit ( void )
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{
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XnrgCall ( FUNC_INIT ) ;
2018-02-13 13:30:30 +00:00
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if ( energy_flg ) {
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Energy . kWhtoday_offset = 0 ;
// Do not use at Power On as Rtc was invalid (but has been restored from Settings already)
if ( ( ResetReason ( ) ! = REASON_DEFAULT_RST ) & & RtcSettingsValid ( ) ) {
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Energy . kWhtoday_offset = RtcSettings . energy_kWhtoday ;
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Energy . kWhtoday_offset_init = true ;
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}
Energy . kWhtoday = 0 ;
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Energy . kWhtoday_delta = 0 ;
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Energy . period = Energy . kWhtoday_offset ;
2018-02-04 17:09:09 +00:00
EnergyUpdateToday ( ) ;
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ticker_energy . attach_ms ( 200 , Energy200ms ) ;
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}
}
# ifdef USE_WEBSERVER
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const char HTTP_ENERGY_SNS1 [ ] PROGMEM =
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" {s} " D_POWERUSAGE_APPARENT " {m}%s " D_UNIT_VA " {e} "
" {s} " D_POWERUSAGE_REACTIVE " {m}%s " D_UNIT_VAR " {e} "
2018-09-07 17:15:47 +01:00
" {s} " D_POWER_FACTOR " {m}%s{e} " ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
2019-05-13 17:26:07 +01:00
const char HTTP_ENERGY_SNS2 [ ] PROGMEM =
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" {s} " D_ENERGY_TODAY " {m}%s " D_UNIT_KILOWATTHOUR " {e} "
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" {s} " D_ENERGY_YESTERDAY " {m}%s " D_UNIT_KILOWATTHOUR " {e} "
" {s} " D_ENERGY_TOTAL " {m}%s " D_UNIT_KILOWATTHOUR " {e} " ; // {s} = <tr><th>, {m} = </th><td>, {e} = </td></tr>
2019-09-10 11:31:08 +01:00
const char HTTP_ENERGY_SNS3 [ ] PROGMEM =
" {s} " D_EXPORT_ACTIVE " {m}%s " D_UNIT_KILOWATTHOUR " {e} " ;
2020-08-18 21:09:33 +01:00
# ifdef SDM630_IMPORT
const char HTTP_ENERGY_SNS4 [ ] PROGMEM =
" {s} " D_IMPORT_ACTIVE " {m}%s " D_UNIT_KILOWATTHOUR " {e} " ;
# endif // SDM630_IMPORT
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# endif // USE_WEBSERVER
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void EnergyShow ( bool json )
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{
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for ( uint32_t i = 0 ; i < Energy . phase_count ; i + + ) {
if ( Energy . voltage_common ) {
Energy . voltage [ i ] = Energy . voltage [ 0 ] ;
}
}
float power_factor_knx = Energy . power_factor [ 0 ] ;
2018-09-28 16:02:55 +01:00
2019-09-15 12:10:32 +01:00
char apparent_power_chr [ Energy . phase_count ] [ FLOATSZ ] ;
char reactive_power_chr [ Energy . phase_count ] [ FLOATSZ ] ;
char power_factor_chr [ Energy . phase_count ] [ FLOATSZ ] ;
char frequency_chr [ Energy . phase_count ] [ FLOATSZ ] ;
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if ( ! Energy . type_dc ) {
if ( Energy . current_available & & Energy . voltage_available ) {
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for ( uint32_t i = 0 ; i < Energy . phase_count ; i + + ) {
float apparent_power = Energy . apparent_power [ i ] ;
if ( isnan ( apparent_power ) ) {
apparent_power = Energy . voltage [ i ] * Energy . current [ i ] ;
}
if ( apparent_power < Energy . active_power [ i ] ) { // Should be impossible
Energy . active_power [ i ] = apparent_power ;
}
2018-09-28 14:48:42 +01:00
2019-09-15 12:10:32 +01:00
float power_factor = Energy . power_factor [ i ] ;
if ( isnan ( power_factor ) ) {
power_factor = ( Energy . active_power [ i ] & & apparent_power ) ? Energy . active_power [ i ] / apparent_power : 0 ;
if ( power_factor > 1 ) {
power_factor = 1 ;
}
}
if ( 0 = = i ) { power_factor_knx = power_factor ; }
float reactive_power = Energy . reactive_power [ i ] ;
if ( isnan ( reactive_power ) ) {
reactive_power = 0 ;
uint32_t difference = ( ( uint32_t ) ( apparent_power * 100 ) - ( uint32_t ) ( Energy . active_power [ i ] * 100 ) ) / 10 ;
if ( ( Energy . current [ i ] > 0.005 ) & & ( ( difference > 15 ) | | ( difference > ( uint32_t ) ( apparent_power * 100 / 1000 ) ) ) ) {
// calculating reactive power only if current is greater than 0.005A and
// difference between active and apparent power is greater than 1.5W or 1%
reactive_power = ( float ) ( RoundSqrtInt ( ( uint32_t ) ( apparent_power * apparent_power * 100 ) - ( uint32_t ) ( Energy . active_power [ i ] * Energy . active_power [ i ] * 100 ) ) ) / 10 ;
}
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
2019-05-13 17:26:07 +01:00
}
2018-09-28 14:48:42 +01:00
2019-09-15 12:10:32 +01:00
dtostrfd ( apparent_power , Settings . flag2 . wattage_resolution , apparent_power_chr [ i ] ) ;
dtostrfd ( reactive_power , Settings . flag2 . wattage_resolution , reactive_power_chr [ i ] ) ;
dtostrfd ( power_factor , 2 , power_factor_chr [ i ] ) ;
}
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
2019-05-13 17:26:07 +01:00
}
2019-09-15 12:10:32 +01:00
for ( uint32_t i = 0 ; i < Energy . phase_count ; i + + ) {
float frequency = Energy . frequency [ i ] ;
if ( isnan ( Energy . frequency [ i ] ) ) {
frequency = 0 ;
}
dtostrfd ( frequency , Settings . flag2 . frequency_resolution , frequency_chr [ i ] ) ;
2018-09-28 14:48:42 +01:00
}
}
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char voltage_chr [ Energy . phase_count ] [ FLOATSZ ] ;
char current_chr [ Energy . phase_count ] [ FLOATSZ ] ;
char active_power_chr [ Energy . phase_count ] [ FLOATSZ ] ;
2020-08-18 21:09:33 +01:00
# ifdef SDM630_IMPORT
char import_active_chr [ Energy . phase_count ] [ FLOATSZ ] ;
2020-10-03 11:46:58 +01:00
# endif // SDM630_IMPORT
2020-05-22 16:48:21 +01:00
char export_active_chr [ Energy . phase_count ] [ FLOATSZ ] ;
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for ( uint32_t i = 0 ; i < Energy . phase_count ; i + + ) {
dtostrfd ( Energy . voltage [ i ] , Settings . flag2 . voltage_resolution , voltage_chr [ i ] ) ;
dtostrfd ( Energy . current [ i ] , Settings . flag2 . current_resolution , current_chr [ i ] ) ;
dtostrfd ( Energy . active_power [ i ] , Settings . flag2 . wattage_resolution , active_power_chr [ i ] ) ;
2020-08-18 21:09:33 +01:00
# ifdef SDM630_IMPORT
dtostrfd ( Energy . import_active [ i ] , Settings . flag2 . energy_resolution , import_active_chr [ i ] ) ;
2020-10-03 11:46:58 +01:00
# endif // SDM630_IMPORT
2020-05-22 16:48:21 +01:00
dtostrfd ( Energy . export_active [ i ] , Settings . flag2 . energy_resolution , export_active_chr [ i ] ) ;
2019-09-15 12:10:32 +01:00
}
2020-05-22 16:48:21 +01:00
char energy_total_chr [ FLOATSZ ] ;
dtostrfd ( Energy . total , Settings . flag2 . energy_resolution , energy_total_chr ) ;
2019-09-01 16:51:25 +01:00
char energy_daily_chr [ FLOATSZ ] ;
2019-08-16 13:41:02 +01:00
dtostrfd ( Energy . daily , Settings . flag2 . energy_resolution , energy_daily_chr ) ;
2019-09-01 16:51:25 +01:00
char energy_yesterday_chr [ FLOATSZ ] ;
2018-09-07 17:15:47 +01:00
dtostrfd ( ( float ) Settings . energy_kWhyesterday / 100000 , Settings . flag2 . energy_resolution , energy_yesterday_chr ) ;
2019-09-22 13:00:34 +01:00
2019-09-25 13:24:49 +01:00
2020-05-22 16:48:21 +01:00
bool energy_tariff = false ;
char energy_usage_chr [ 2 ] [ FLOATSZ ] ;
char energy_return_chr [ 2 ] [ FLOATSZ ] ;
2019-09-25 13:24:49 +01:00
if ( Settings . tariff [ 0 ] [ 0 ] ! = Settings . tariff [ 1 ] [ 0 ] ) {
2020-05-22 16:48:21 +01:00
dtostrfd ( ( float ) RtcSettings . energy_usage . usage1_kWhtotal / 100000 , Settings . flag2 . energy_resolution , energy_usage_chr [ 0 ] ) ; // Tariff1
dtostrfd ( ( float ) RtcSettings . energy_usage . usage2_kWhtotal / 100000 , Settings . flag2 . energy_resolution , energy_usage_chr [ 1 ] ) ; // Tariff2
dtostrfd ( ( float ) RtcSettings . energy_usage . return1_kWhtotal / 100000 , Settings . flag2 . energy_resolution , energy_return_chr [ 0 ] ) ; // Tariff1
dtostrfd ( ( float ) RtcSettings . energy_usage . return2_kWhtotal / 100000 , Settings . flag2 . energy_resolution , energy_return_chr [ 1 ] ) ; // Tariff2
energy_tariff = true ;
2019-09-15 17:05:23 +01:00
}
2017-12-16 14:51:45 +00:00
2019-09-22 13:00:34 +01:00
char value_chr [ FLOATSZ * 3 ] ; // Used by EnergyFormatIndex
2019-09-15 12:10:32 +01:00
char value2_chr [ FLOATSZ * 3 ] ;
char value3_chr [ FLOATSZ * 3 ] ;
2017-12-16 14:51:45 +00:00
if ( json ) {
2020-10-29 12:37:09 +00:00
bool show_energy_period = ( 0 = = TasmotaGlobal . tele_period ) ;
2019-09-10 11:31:08 +01:00
2020-05-22 16:48:21 +01:00
ResponseAppend_P ( PSTR ( " , \" " D_RSLT_ENERGY " \" :{ \" " D_JSON_TOTAL_START_TIME " \" : \" %s \" , \" " D_JSON_TOTAL " \" :%s " ) ,
2019-09-15 17:05:23 +01:00
GetDateAndTime ( DT_ENERGY ) . c_str ( ) ,
2020-05-22 16:48:21 +01:00
energy_total_chr ) ;
if ( energy_tariff ) {
ResponseAppend_P ( PSTR ( " , \" " D_JSON_TOTAL D_CMND_TARIFF " \" :%s " ) ,
EnergyFormatIndex ( value_chr , energy_usage_chr [ 0 ] , json , 2 ) ) ;
}
ResponseAppend_P ( PSTR ( " , \" " D_JSON_YESTERDAY " \" :%s, \" " D_JSON_TODAY " \" :%s " ) ,
2019-09-15 17:05:23 +01:00
energy_yesterday_chr ,
energy_daily_chr ) ;
2020-08-18 21:09:33 +01:00
# ifdef SDM630_IMPORT
if ( ! isnan ( Energy . import_active [ 0 ] ) ) {
ResponseAppend_P ( PSTR ( " , \" " D_JSON_IMPORT_ACTIVE " \" :%s " ) ,
EnergyFormat ( value_chr , import_active_chr [ 0 ] , json ) ) ;
if ( energy_tariff ) {
ResponseAppend_P ( PSTR ( " , \" " D_JSON_IMPORT D_CMND_TARIFF " \" :%s " ) ,
EnergyFormatIndex ( value_chr , energy_return_chr [ 0 ] , json , 2 ) ) ;
}
}
2020-10-03 11:46:58 +01:00
# endif // SDM630_IMPORT
2020-08-18 21:09:33 +01:00
2020-05-22 16:48:21 +01:00
if ( ! isnan ( Energy . export_active [ 0 ] ) ) {
2019-09-22 13:00:34 +01:00
ResponseAppend_P ( PSTR ( " , \" " D_JSON_EXPORT_ACTIVE " \" :%s " ) ,
2020-05-22 16:48:21 +01:00
EnergyFormat ( value_chr , export_active_chr [ 0 ] , json ) ) ;
if ( energy_tariff ) {
2020-05-22 17:31:14 +01:00
ResponseAppend_P ( PSTR ( " , \" " D_JSON_EXPORT D_CMND_TARIFF " \" :%s " ) ,
2020-05-22 16:48:21 +01:00
EnergyFormatIndex ( value_chr , energy_return_chr [ 0 ] , json , 2 ) ) ;
}
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}
2019-09-15 17:05:23 +01:00
2019-09-10 11:31:08 +01:00
if ( show_energy_period ) {
2020-10-13 23:30:01 +01:00
float energy = ( float ) ( RtcSettings . energy_kWhtoday - Energy . period ) / 100 ;
2019-09-10 11:31:08 +01:00
Energy . period = RtcSettings . energy_kWhtoday ;
char energy_period_chr [ FLOATSZ ] ;
dtostrfd ( energy , Settings . flag2 . wattage_resolution , energy_period_chr ) ;
ResponseAppend_P ( PSTR ( " , \" " D_JSON_PERIOD " \" :%s " ) , energy_period_chr ) ;
}
2019-09-15 12:10:32 +01:00
ResponseAppend_P ( PSTR ( " , \" " D_JSON_POWERUSAGE " \" :%s " ) ,
EnergyFormat ( value_chr , active_power_chr [ 0 ] , json ) ) ;
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if ( ! Energy . type_dc ) {
if ( Energy . current_available & & Energy . voltage_available ) {
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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ResponseAppend_P ( PSTR ( " , \" " D_JSON_APPARENT_POWERUSAGE " \" :%s, \" " D_JSON_REACTIVE_POWERUSAGE " \" :%s, \" " D_JSON_POWERFACTOR " \" :%s " ) ,
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EnergyFormat ( value_chr , apparent_power_chr [ 0 ] , json ) ,
EnergyFormat ( value2_chr , reactive_power_chr [ 0 ] , json ) ,
EnergyFormat ( value3_chr , power_factor_chr [ 0 ] , json ) ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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if ( ! isnan ( Energy . frequency [ 0 ] ) ) {
ResponseAppend_P ( PSTR ( " , \" " D_JSON_FREQUENCY " \" :%s " ) ,
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EnergyFormat ( value_chr , frequency_chr [ 0 ] , json , Energy . frequency_common ) ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
}
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if ( Energy . voltage_available ) {
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ResponseAppend_P ( PSTR ( " , \" " D_JSON_VOLTAGE " \" :%s " ) ,
EnergyFormat ( value_chr , voltage_chr [ 0 ] , json , Energy . voltage_common ) ) ;
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}
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if ( Energy . current_available ) {
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ResponseAppend_P ( PSTR ( " , \" " D_JSON_CURRENT " \" :%s " ) ,
EnergyFormat ( value_chr , current_chr [ 0 ] , json ) ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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XnrgCall ( FUNC_JSON_APPEND ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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ResponseJsonEnd ( ) ;
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# ifdef USE_DOMOTICZ
if ( show_energy_period ) { // Only send if telemetry
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dtostrfd ( Energy . total * 1000 , 1 , energy_total_chr ) ;
DomoticzSensorPowerEnergy ( ( int ) Energy . active_power [ 0 ] , energy_total_chr ) ; // PowerUsage, EnergyToday
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dtostrfd ( ( float ) RtcSettings . energy_usage . usage1_kWhtotal / 100 , 1 , energy_usage_chr [ 0 ] ) ; // Tariff1
dtostrfd ( ( float ) RtcSettings . energy_usage . usage2_kWhtotal / 100 , 1 , energy_usage_chr [ 1 ] ) ; // Tariff2
dtostrfd ( ( float ) RtcSettings . energy_usage . return1_kWhtotal / 100 , 1 , energy_return_chr [ 0 ] ) ;
dtostrfd ( ( float ) RtcSettings . energy_usage . return2_kWhtotal / 100 , 1 , energy_return_chr [ 1 ] ) ;
DomoticzSensorP1SmartMeter ( energy_usage_chr [ 0 ] , energy_usage_chr [ 1 ] , energy_return_chr [ 0 ] , energy_return_chr [ 1 ] , ( int ) Energy . active_power [ 0 ] ) ;
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if ( Energy . voltage_available ) {
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DomoticzSensor ( DZ_VOLTAGE , voltage_chr [ 0 ] ) ; // Voltage
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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if ( Energy . current_available ) {
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DomoticzSensor ( DZ_CURRENT , current_chr [ 0 ] ) ; // Current
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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}
# endif // USE_DOMOTICZ
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# ifdef USE_KNX
if ( show_energy_period ) {
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if ( Energy . voltage_available ) {
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KnxSensor ( KNX_ENERGY_VOLTAGE , Energy . voltage [ 0 ] ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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if ( Energy . current_available ) {
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KnxSensor ( KNX_ENERGY_CURRENT , Energy . current [ 0 ] ) ;
}
KnxSensor ( KNX_ENERGY_POWER , Energy . active_power [ 0 ] ) ;
if ( ! Energy . type_dc ) {
KnxSensor ( KNX_ENERGY_POWERFACTOR , power_factor_knx ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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KnxSensor ( KNX_ENERGY_DAILY , Energy . daily ) ;
KnxSensor ( KNX_ENERGY_TOTAL , Energy . total ) ;
KnxSensor ( KNX_ENERGY_START , Energy . start_energy ) ;
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}
# endif // USE_KNX
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# ifdef USE_WEBSERVER
} else {
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if ( Energy . voltage_available ) {
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WSContentSend_PD ( HTTP_SNS_VOLTAGE , EnergyFormat ( value_chr , voltage_chr [ 0 ] , json , Energy . voltage_common ) ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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if ( Energy . current_available ) {
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WSContentSend_PD ( HTTP_SNS_CURRENT , EnergyFormat ( value_chr , current_chr [ 0 ] , json ) ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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WSContentSend_PD ( HTTP_SNS_POWER , EnergyFormat ( value_chr , active_power_chr [ 0 ] , json ) ) ;
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if ( ! Energy . type_dc ) {
if ( Energy . current_available & & Energy . voltage_available ) {
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WSContentSend_PD ( HTTP_ENERGY_SNS1 , EnergyFormat ( value_chr , apparent_power_chr [ 0 ] , json ) ,
EnergyFormat ( value2_chr , reactive_power_chr [ 0 ] , json ) ,
EnergyFormat ( value3_chr , power_factor_chr [ 0 ] , json ) ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
2019-05-13 17:26:07 +01:00
}
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if ( ! isnan ( Energy . frequency [ 0 ] ) ) {
WSContentSend_PD ( PSTR ( " {s} " D_FREQUENCY " {m}%s " D_UNIT_HERTZ " {e} " ) ,
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EnergyFormat ( value_chr , frequency_chr [ 0 ] , json , Energy . frequency_common ) ) ;
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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}
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}
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WSContentSend_PD ( HTTP_ENERGY_SNS2 , energy_daily_chr , energy_yesterday_chr , energy_total_chr ) ;
if ( ! isnan ( Energy . export_active [ 0 ] ) ) {
WSContentSend_PD ( HTTP_ENERGY_SNS3 , EnergyFormat ( value_chr , export_active_chr [ 0 ] , json ) ) ;
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}
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# ifdef SDM630_IMPORT
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if ( ! isnan ( Energy . import_active [ 0 ] ) ) {
WSContentSend_PD ( HTTP_ENERGY_SNS4 , EnergyFormat ( value_chr , import_active_chr [ 0 ] , json ) ) ;
}
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# endif // SDM630_IMPORT
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XnrgCall ( FUNC_WEB_SENSOR ) ;
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# endif // USE_WEBSERVER
}
}
/*********************************************************************************************\
* Interface
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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bool Xdrv03 ( uint8_t function )
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{
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bool result = false ;
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if ( FUNC_PRE_INIT = = function ) {
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energy_flg = ENERGY_NONE ;
XnrgCall ( FUNC_PRE_INIT ) ; // Find first energy driver
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}
else if ( energy_flg ) {
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switch ( function ) {
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case FUNC_LOOP :
XnrgCall ( FUNC_LOOP ) ;
break ;
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case FUNC_EVERY_250_MSECOND :
XnrgCall ( FUNC_EVERY_250_MSECOND ) ;
break ;
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case FUNC_EVERY_SECOND :
XnrgCall ( FUNC_EVERY_SECOND ) ;
break ;
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case FUNC_SERIAL :
result = XnrgCall ( FUNC_SERIAL ) ;
break ;
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# ifdef USE_ENERGY_MARGIN_DETECTION
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case FUNC_SET_POWER :
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Energy . power_steady_counter = 2 ;
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break ;
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# endif // USE_ENERGY_MARGIN_DETECTION
case FUNC_COMMAND :
result = DecodeCommand ( kEnergyCommands , EnergyCommand ) ;
break ;
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}
}
return result ;
}
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bool Xsns03 ( uint8_t function )
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{
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bool result = false ;
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if ( energy_flg ) {
switch ( function ) {
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case FUNC_EVERY_SECOND :
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EnergyEverySecond ( ) ;
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break ;
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case FUNC_JSON_APPEND :
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EnergyShow ( true ) ;
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break ;
# ifdef USE_WEBSERVER
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case FUNC_WEB_SENSOR :
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EnergyShow ( false ) ;
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break ;
# endif // USE_WEBSERVER
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case FUNC_SAVE_BEFORE_RESTART :
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EnergySaveState ( ) ;
break ;
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case FUNC_INIT :
EnergySnsInit ( ) ;
break ;
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}
}
return result ;
}
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# endif // USE_ENERGY_SENSOR