kopia lustrzana https://github.com/weetmuts/wmbusmeters
268 wiersze
11 KiB
C++
268 wiersze
11 KiB
C++
/*
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Copyright (C) 2017-2022 Fredrik Öhrström (gpl-3.0-or-later)
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include"meters_common_implementation.h"
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namespace
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{
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struct Driver : public virtual MeterCommonImplementation
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{
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Driver(MeterInfo &mi, DriverInfo &di);
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};
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static bool ok = registerDriver([](DriverInfo&di)
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{
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di.setName("em24");
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di.setDefaultFields(
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"name,id,"
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"total_energy_consumption_kwh,total_energy_production_kwh,"
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"total_reactive_energy_consumption_kvarh,total_reactive_energy_production_kvarh,"
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"total_apparent_energy_consumption_kvah,total_apparent_energy_production_kvah,"
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"timestamp");
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di.setMeterType(MeterType::ElectricityMeter);
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di.addLinkMode(LinkMode::C1);
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di.addDetection(MANUFACTURER_KAM, 0x02, 0x33);
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di.addDetection(MANUFACTURER_GAV, 0x02, 0x00);
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di.setConstructor([](MeterInfo& mi, DriverInfo& di){ return shared_ptr<Meter>(new Driver(mi, di)); });
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});
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Driver::Driver(MeterInfo &mi, DriverInfo &di) : MeterCommonImplementation(mi, di)
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{
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addStringFieldWithExtractorAndLookup(
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"status",
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"Status of meter.",
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DEFAULT_PRINT_PROPERTIES | PrintProperty::STATUS,
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FieldMatcher::build()
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.set(MeasurementType::Instantaneous)
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.set(VIFRange::ErrorFlags),
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{
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{
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{
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"ERROR_FLAGS",
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Translate::Type::BitToString,
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AlwaysTrigger, MaskBits(0xff),
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"OK",
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{
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{ 0x01, "V_1_OVERFLOW" },
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{ 0x02, "V_2_OVERFLOW" },
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{ 0x04, "V_2_OVERFLOW" },
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{ 0x08, "I_1_OVERFLOW" },
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{ 0x10, "I_2_OVERFLOW" },
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{ 0x20, "I_3_OVERFLOW" },
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{ 0x40, "FREQUENCY" },
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}
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},
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},
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});
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addStringFieldWithExtractorAndLookup(
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"error",
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"Any errors currently being reported, this field is deprecated and replaced by the status field.",
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DEFAULT_PRINT_PROPERTIES | PrintProperty::DEPRECATED,
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FieldMatcher::build()
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.set(MeasurementType::Instantaneous)
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.set(VIFRange::ErrorFlags),
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{
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{
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{
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"ERROR_FLAGS",
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Translate::Type::BitToString,
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AlwaysTrigger, MaskBits(0xff),
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"",
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{
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{ 0x01, "V_1_OVERFLOW" },
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{ 0x02, "V_2_OVERFLOW" },
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{ 0x04, "V_2_OVERFLOW" },
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{ 0x08, "I_1_OVERFLOW" },
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{ 0x10, "I_2_OVERFLOW" },
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{ 0x20, "I_3_OVERFLOW" },
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{ 0x40, "FREQUENCY" },
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}
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},
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},
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});
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addNumericFieldWithExtractor(
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"total_energy_consumption",
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"The total energy consumption recorded by this meter.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Energy,
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VifScaling::Auto,
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FieldMatcher::build()
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.set(MeasurementType::Instantaneous)
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.set(VIFRange::AnyEnergyVIF)
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);
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addNumericFieldWithExtractor(
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"power",
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"Power measured by this meter at the moment.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Power,
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VifScaling::AutoSigned,
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FieldMatcher::build()
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.set(MeasurementType::Instantaneous)
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.set(VIFRange::AnyPowerVIF)
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);
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addNumericFieldWithExtractor(
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"total_energy_production",
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"The total energy backward (production) recorded by this meter.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Energy,
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VifScaling::Auto,
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FieldMatcher::build()
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.set(MeasurementType::Instantaneous)
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.set(VIFRange::AnyEnergyVIF)
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.add(VIFCombinable::BackwardFlow)
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);
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addNumericFieldWithExtractor(
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"total_reactive_energy_consumption",
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"The reactive total energy consumption recorded by this meter.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Reactive_Energy,
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VifScaling::None,
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FieldMatcher::build()
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.set(DifVifKey("04FB8275"))
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);
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addNumericFieldWithExtractor(
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"total_reactive_energy_production",
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"The total reactive energy backward (production) recorded by this meter.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Reactive_Energy,
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VifScaling::None,
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FieldMatcher::build()
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.set(MeasurementType::Instantaneous)
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.set(DifVifKey("04FB82F53C"))
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);
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addNumericFieldWithCalculator(
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"total_apparent_energy_consumption",
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"Calculated: the total apparent energy consumption.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Apparent_Energy,
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"sqrt("
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" (total_energy_consumption_kwh * total_energy_consumption_kwh) "
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" +"
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" (total_reactive_energy_consumption_kvarh * total_reactive_energy_consumption_kvarh)"
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" )");
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addNumericFieldWithCalculator(
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"total_apparent_energy_production",
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"Calculated: the total apparent energy production.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Apparent_Energy,
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R"STR(
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sqrt( (total_energy_production_kwh * total_energy_production_kwh) +
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(total_reactive_energy_production_kvarh * total_reactive_energy_production_kvarh) )
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)STR");
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addNumericFieldWithExtractor(
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"amperage_at_phase_1",
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"Amperage at phase L1.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Amperage,
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VifScaling::Auto,
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FieldMatcher::build()
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.set(DifVifKey("04FDD9FC01"))
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);
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addNumericFieldWithExtractor(
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"amperage_at_phase_2",
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"Amperage at phase L2.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Amperage,
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VifScaling::Auto,
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FieldMatcher::build()
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.set(DifVifKey("04FDD9FC02"))
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);
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addNumericFieldWithExtractor(
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"amperage_at_phase_3",
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"Amperage at phase L3.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Amperage,
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VifScaling::Auto,
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FieldMatcher::build()
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.set(DifVifKey("04FDD9FC03"))
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);
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addNumericFieldWithExtractor(
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"voltage_at_phase_1",
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"Voltage at phase L1.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Voltage,
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VifScaling::Auto,
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FieldMatcher::build()
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.set(DifVifKey("04FDC8FC01"))
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);
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addNumericFieldWithExtractor(
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"voltage_at_phase_2",
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"Voltage at phase L2.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Voltage,
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VifScaling::Auto,
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FieldMatcher::build()
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.set(DifVifKey("04FDC8FC02"))
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);
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addNumericFieldWithExtractor(
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"voltage_at_phase_3",
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"Voltage at phase L3.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Voltage,
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VifScaling::Auto,
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FieldMatcher::build()
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.set(DifVifKey("04FDC8FC03"))
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);
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addNumericFieldWithExtractor(
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"raw_frequency",
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"Frequency in 0.1 Hz",
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DEFAULT_PRINT_PROPERTIES | PrintProperty::HIDE,
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Quantity::Frequency,
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VifScaling::None,
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FieldMatcher::build()
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.set(DifVifKey("02FB2E"))
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);
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addNumericFieldWithCalculator(
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"frequency",
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"Frequency of AC.",
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DEFAULT_PRINT_PROPERTIES,
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Quantity::Frequency,
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"raw_frequency_hz / 10 counter");
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}
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}
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// Test: Elen em24 66666666 NOKEY
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// telegram=|35442D2C6666666633028D2070806A0520B4D378_0405F208000004FB82753F00000004853C0000000004FB82F53CCA01000001FD1722|
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// {"media":"electricity","meter":"em24","name":"Elen","id":"66666666","status":"I_3_OVERFLOW V_2_OVERFLOW","error":"I_3_OVERFLOW V_2_OVERFLOW","total_energy_consumption_kwh":229,"total_energy_production_kwh":0,"total_reactive_energy_consumption_kvarh":63,"total_reactive_energy_production_kvarh":458,"total_apparent_energy_consumption_kvah":237.507895,"total_apparent_energy_production_kvah":458,"frequency_hz":null,"timestamp":"1111-11-11T11:11:11Z"}
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// |Elen;66666666;229;0;63;458;237.507895;458;1111-11-11 11:11.11
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// Test: Elen2 em24 02020202 NOKEY
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// telegram=|4144361C0202020200028C209A7A9A0030252F2F_04050100000004FB82750000000004FB82F53C00000000042A0000000001FD17002F2F2F2F2F2F2F2F2F2F2F2F2F|
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// {"error": "","id": "02020202","media": "electricity","meter": "em24","name": "Elen2","power_kw": 0,"status": "OK","timestamp": "1111-11-11T11:11:11Z","total_apparent_energy_consumption_kvah": 0.1,"total_apparent_energy_production_kvah": null,"total_energy_consumption_kwh": 0.1,"total_reactive_energy_consumption_kvarh": 0,"total_reactive_energy_production_kvarh": 0,"frequency_hz":null}
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// |Elen2;02020202;0.1;null;0;0;0.1;null;1111-11-11 11:11.11
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// telegram=|8144361C0202020200028C20357A351070252F2F_04050100000004FB82750000000004FB82F53C00000000042A0000000004FB140000000004FB943C0000000004FDD9FC010000000004FDD9FC020000000004FDD9FC030000000004FDC8FC011709000004FDC8FC02EC04000004FDC8FC03EC04000002FB2EF40101FD17002F2F2F|
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// {"amperage_at_phase_1_a": 0,"amperage_at_phase_2_a": 0,"amperage_at_phase_3_a": 0,"error": "","frequency_hz": 50,"id": "02020202","media": "electricity","meter": "em24","name": "Elen2","power_kw": 0,"status": "OK","timestamp": "1111-11-11T11:11:11Z","total_apparent_energy_consumption_kvah": 0.1,"total_apparent_energy_production_kvah": null,"total_energy_consumption_kwh": 0.1,"total_reactive_energy_consumption_kvarh": 0,"total_reactive_energy_production_kvarh": 0,"voltage_at_phase_1_v": 232.7,"voltage_at_phase_2_v": 126,"voltage_at_phase_3_v": 126}
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// |Elen2;02020202;0.1;null;0;0;0.1;null;1111-11-11 11:11.11
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