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wmbusmeters/src/driver_iem3000.cc

1662 wiersze
59 KiB
C++
Czysty Bezpośredni odnośnik Wina Historia

/*
Copyright (C) 2024 Fredrik Öhrström (gpl-3.0-or-later)
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/>.
*/
#include"meters_common_implementation.h"
namespace
{
struct Driver : public virtual MeterCommonImplementation
{
Driver(MeterInfo &mi, DriverInfo &di);
};
static bool ok = registerDriver([](DriverInfo&di)
{
di.setName("iem3000");
di.setDefaultFields("name,id,total_energy_consumption_kwh,timestamp");
di.setMeterType(MeterType::ElectricityMeter);
di.addLinkMode(LinkMode::T1);
di.addDetection(MANUFACTURER_SEC, 0x02, 0x13);
di.addDetection(MANUFACTURER_SEC, 0x02, 0x15);
di.addDetection(MANUFACTURER_SEC, 0x02, 0x18);
di.setConstructor([](MeterInfo& mi, DriverInfo& di){ return shared_ptr<Meter>(new Driver(mi, di)); });
});
Driver::Driver(MeterInfo &mi, DriverInfo &di) : MeterCommonImplementation(mi, di)
{
addOptionalLibraryFields("firmware_version,manufacturer,meter_datetime,model_version");
addStringField(
"status",
"Status and error flags.",
PrintProperty::STATUS | PrintProperty::INCLUDE_TPL_STATUS);
addStringFieldWithExtractorAndLookup(
"error_flags",
"Error flags.",
PrintProperty::INJECT_INTO_STATUS,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::ErrorFlags),
Translate::Lookup()
.add(Translate::Rule("ERROR_FLAGS", Translate::MapType::IndexToString)
.set(MaskBits(0xffffff))
.add(Translate::Map(0x000000, "CODE_101_EEPROM_ERROR", TestBit::Set))
.add(Translate::Map(0x000010, "CODE_102_NO_CALIBRATION_TABLE", TestBit::Set))
.add(Translate::Map(0x000020, "CODE_201_MISMATCH_BETWEEN_FREQUENCY_SETTINGS_AND_FREQUENCY_MEASUREMENTS", TestBit::Set))
.add(Translate::Map(0x000030, "CODE_202_PHASE_SEQUENCE_REVERSED", TestBit::Set))
.add(Translate::Map(0x000040, "CODE_203_PHASE_SEQUENCE_REVERSED", TestBit::Set))
.add(Translate::Map(0x000050, "CODE_204_TOTAL_ACTIVE_ENERGY_NEGATIVE_DUE_TO_INCORRECT_V_OR_A_CONNECTIONS", TestBit::Set))
.add(Translate::Map(0x000060, "CODE_205_DATE_TIME_RESET_DUE_TO_POWER_FAILUER", TestBit::Set))
.add(Translate::Map(0x000070, "CODE_206_PULSE_MISSING_DUE_TO_OVERSPEED_OF_ENERGY_PULSE_OUTPUT", TestBit::Set))
.add(Translate::Map(0x000080, "CODE_207_ABNORMAL_INTERNAL_CLOCK_FUNCTION", TestBit::Set))
.add(Translate::Map(0x000090, "INTERNAL_DATA_BUS_COMUNICATION_ERROR", TestBit::Set))
));
addNumericFieldWithExtractor(
"total_energy_consumption",
"Total cumulative active imported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
);
addNumericFieldWithExtractor(
"partial_energy_consumption",
"Partial cumulative active imported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.add(VIFCombinableRaw(0x7f0d))
);
addNumericFieldWithExtractor(
"partial_reactive_energy_consumption",
"Partial cumulative reactive imported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(1))
.add(VIFCombinableRaw(0x7f0d))
);
addNumericFieldWithExtractor(
"total_energy_consumption_tariff_{tariff_counter}",
"Total cumulative active imported energy per tariff.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(TariffNr(1),TariffNr(4))
);
addNumericFieldWithExtractor(
"total_energy_production",
"Total cumulative active exported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.add(VIFCombinableRaw(0x7f09))
);
addNumericFieldWithExtractor(
"total_energy_production_tariff_{tariff_counter}",
"Total cumulative active exported energy per tariff.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(TariffNr(1),TariffNr(4))
.set(SubUnitNr(1))
);
addNumericFieldWithExtractor(
"active_tariff",
"Active tariff.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF10")),
Unit::NUMBER
);
addNumericFieldWithExtractor(
"ct_numerator",
"Current transformer ratio (numerator).",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("04FFA015")),
Unit::NUMBER
);
addNumericFieldWithExtractor(
"vt_numerator",
"Voltage transformer ratio (numerator).",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("04FFA115")),
Unit::NUMBER
);
addNumericFieldWithExtractor(
"ct_denominator",
"Current transformer ratio (denominator).",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("04FFA215")),
Unit::NUMBER
);
addNumericFieldWithExtractor(
"vt_denominator",
"Voltage transformer ratio (denominator).",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("04FFA315")),
Unit::NUMBER
);
addStringFieldWithExtractorAndLookup(
"error_flags",
"Error flags.",
DEFAULT_PRINT_PROPERTIES | PrintProperty::INJECT_INTO_STATUS,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("07FFA600")),
Translate::Lookup()
.add(Translate::Rule("ERROR_FLAGS", Translate::MapType::BitToString)
.set(MaskBits(0xffffffffffffffff))
.set(DefaultMessage("OK"))
));
addStringFieldWithExtractorAndLookup(
"warning_flags",
"Warning flags.",
DEFAULT_PRINT_PROPERTIES | PrintProperty::INJECT_INTO_STATUS,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("07FFA700")),
Translate::Lookup()
.add(Translate::Rule("WARNING_FLAGS", Translate::MapType::BitToString)
.set(MaskBits(0xffffffffffffffff))
.set(DefaultMessage("OK"))
));
addStringFieldWithExtractorAndLookup(
"information_flags",
"Information flags.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("07FFA800")),
Translate::Lookup()
.add(Translate::Rule("INFORMATION_FLAGS", Translate::MapType::BitToString)
.set(MaskBits(0xffffffffffffffff))
.set(DefaultMessage(""))
));
addStringFieldWithExtractorAndLookup(
"alarm_flags",
"alarm flags.",
DEFAULT_PRINT_PROPERTIES | PrintProperty::INJECT_INTO_STATUS,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("07FFA900")),
Translate::Lookup()
.add(Translate::Rule("ALARM_FLAGS", Translate::MapType::BitToString)
.set(MaskBits(0xfffffffffffffff))
.set(DefaultMessage("OK"))
));
addStringFieldWithExtractorAndLookup(
"unknown_vif_FFAD",
"Unknown byte.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("01FFAD00")),
Translate::Lookup()
.add(Translate::Rule("UNKNOWN", Translate::MapType::BitToString)
.set(MaskBits(0xff))
.set(DefaultMessage("OK"))
));
addStringFieldWithExtractor(
"product_no",
"The meter device product number.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build().
set(DifVifKey("0DFFAA00")));
addNumericFieldWithExtractor(
"power_fail",
"Power fail counter.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("04FF9800"))
);
addNumericFieldWithExtractor(
"active_consumption",
"Instantaneous total active imported power.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
);
addNumericFieldWithExtractor(
"active_consumption_l1",
"Instantaneous active imported power for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"active_consumption_l2",
"Instantaneous active imported power for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"active_consumption_l3",
"Instantaneous active imported power for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"reactive_consumption",
"Instantaneous total reactive imported power.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.set(SubUnitNr(1))
);
addNumericFieldWithExtractor(
"reactive_consumption_l1",
"Instantaneous reactive imported power for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.set(SubUnitNr(2))
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"reactive_consumption_l2",
"Instantaneous reactive imported power for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.set(SubUnitNr(2))
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"reactive_consumption_l3",
"Instantaneous reactive imported power for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.set(SubUnitNr(2))
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"apparent_consumption",
"Instantaneous total apparent imported power.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.set(SubUnitNr(2))
);
addNumericFieldWithExtractor(
"apparent_consumption_l1",
"Instantaneous apparent imported power for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.set(SubUnitNr(4))
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"apparent_consumption_l2",
"Instantaneous apparent imported power for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.set(SubUnitNr(4))
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"apparent_consumption_l3",
"Instantaneous apparent imported power for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Power,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyPowerVIF)
.set(SubUnitNr(4))
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"voltage_l1_n",
"Instantaneous voltage between L1 and neutral.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Voltage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Voltage)
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"voltage_l2_n",
"Instantaneous voltage between L2 and neutral.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Voltage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Voltage)
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"voltage_l3_n",
"Instantaneous voltage between L3 and neutral.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Voltage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Voltage)
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"voltage_average_ln",
"Average voltage line to neutral.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Voltage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Voltage)
.add(VIFCombinableRaw(0x7f04))
);
addNumericFieldWithExtractor(
"voltage_l1_l2",
"Instantaneous voltage between L1 and L2.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Voltage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Voltage)
.add(VIFCombinableRaw(0x7f05))
);
addNumericFieldWithExtractor(
"voltage_l2_l3",
"Instantaneous voltage between L2 and L3.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Voltage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Voltage)
.add(VIFCombinableRaw(0x7f06))
);
addNumericFieldWithExtractor(
"voltage_l3_l1",
"Instantaneous voltage between L3 and L1.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Voltage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Voltage)
.add(VIFCombinableRaw(0x7f07))
);
addNumericFieldWithExtractor(
"voltage_average_ll",
"Average voltage line to line.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Voltage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Voltage)
.add(VIFCombinableRaw(0x7f08))
);
addNumericFieldWithExtractor(
"current_l1",
"Instantaneous current in the L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Amperage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Amperage)
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"current_l2",
"Instantaneous current in the L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Amperage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Amperage)
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"current_l3",
"Instantaneous current in the L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Amperage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Amperage)
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"current_average",
"Average current in all phases.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Amperage,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::Amperage)
.add(VIFCombinableRaw(0x7f00))
);
addNumericFieldWithExtractor(
"frequency",
"Frequency of AC",
DEFAULT_PRINT_PROPERTIES,
Quantity::Frequency,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("05FF0B")),
Unit::HZ);
addNumericFieldWithExtractor(
"power",
"Power factor.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("05FF0A")),
Unit::FACTOR);
addNumericFieldWithExtractor(
"power_l1",
"Power factor for phase L1.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("02FFE0FF8100")),
Unit::FACTOR,
0.001
);
addNumericFieldWithExtractor(
"power_l2",
"Power factor for phase L2.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("02FFE0FF8200")),
Unit::FACTOR,
0.001
);
addNumericFieldWithExtractor(
"power_l3",
"Power factor.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("02FFE0FF8300")),
Unit::FACTOR,
0.001
);
addNumericFieldWithExtractor(
"power_phase_angle",
"Total power phase angle.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Angle,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("02FFD200")),
Unit::DEGREE,
0.1
);
addNumericFieldWithExtractor(
"phase_angle_power_l1",
"Power phase angle for phase L1.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Angle,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("02FFD2FF8100")),
Unit::DEGREE,
0.1
);
addNumericFieldWithExtractor(
"phase_angle_power_l2",
"Power phase angle for phase L2.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Angle,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("02FFD2FF8200")),
Unit::DEGREE,
0.1
);
addNumericFieldWithExtractor(
"phase_angle_power_l3",
"Power phase angle for phase L3.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Angle,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("02FFD2FF8300")),
Unit::DEGREE,
0.1
);
addNumericFieldWithExtractor(
"total_reactive_energy_consumption",
"Total cumulative reactive kvarh imported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Reactive_Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(1)),
Unit::KVARH
);
addNumericFieldWithExtractor(
"total_reactive_energy_consumption_tariff_{tariff_counter}",
"Total cumulative reactive kvarh imported energy per tariff.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(2))
.set(TariffNr(1),TariffNr(4))
);
addNumericFieldWithExtractor(
"total_reactive_energy_production",
"Total cumulative reactive kvarh exported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Reactive_Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(1))
.add(VIFCombinableRaw(0x7f09)),
Unit::KVARH
);
addNumericFieldWithExtractor(
"total_reactive_energy_production_tariff_{tariff_counter}",
"Total cumulative reactive kvarh exported energy per tariff.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(3))
.set(TariffNr(1),TariffNr(4))
);
addNumericFieldWithExtractor(
"current_quadrant",
"The quadrant in which the current is measured.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("01FF9700")),
Unit::NUMBER
);
addNumericFieldWithExtractor(
"current_quadrant_l1",
"The quadrant in which the current is measured for phase L1.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("01FF97FF8100")),
Unit::NUMBER
);
addNumericFieldWithExtractor(
"current_quadrant_l2",
"The quadrant in which the current is measured for phase L2.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("01FF97FF8200")),
Unit::NUMBER
);
addNumericFieldWithExtractor(
"current_quadrant_l3",
"The quadrant in which the current is measured for phase L3.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("01FF97FF8300")),
Unit::NUMBER
);
addNumericFieldWithExtractor(
"input_metering_cumulation",
"Input metering accumulation.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::CumulationCounter)
);
addNumericFieldWithExtractor(
"pulse_duration",
"Energy pulse duration.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("03FF2C"))
);
addNumericFieldWithExtractor(
"pulse_weight",
"Energy pulse weight.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("05FF2E"))
);
addNumericFieldWithExtractor(
"pulse_constant",
"Energy pulse constant.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("05FF2F"))
);
addNumericFieldWithExtractor(
"resettable_energy_consumption",
"Resettable cumulative active imported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.add(VIFCombinableRaw(0x7f72))
);
addNumericFieldWithExtractor(
"resettable_energy_production",
"Resettable cumulative active exported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(1))
.add(VIFCombinableRaw(0x7f72))
);
addNumericFieldWithExtractor(
"resettable_reactive_energy_consumption",
"Resettable cumulative reactive imported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(2))
.add(VIFCombinableRaw(0x7f72))
);
addNumericFieldWithExtractor(
"resettable_reactive_energy_production",
"Resettable cumulative reactive exported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(3))
.add(VIFCombinableRaw(0x7f72))
);
addNumericFieldWithExtractor(
"reset_energy_consumption",
"Number of times the resettable energy imported value has been reset.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRaw(0x7f71))
);
addNumericFieldWithExtractor(
"reset_energy_production",
"Number of times the resettable active energy exported value has been reset.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRaw(0x7f71))
.set(SubUnitNr(1))
);
addNumericFieldWithExtractor(
"reset_reactive_energy_consumption",
"Number of times the resettable reactive energy imported value has been reset.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRaw(0x7f71))
.set(SubUnitNr(2))
);
addNumericFieldWithExtractor(
"reset_reactive_energy_production",
"Number of times the resettable reactive energy exported value has been reset.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRaw(0x7f71))
.set(SubUnitNr(3))
);
addNumericFieldWithExtractor(
"energy_co2",
"Energy in co2.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Mass,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("0EFFF9C400")),
Unit::KG,
0.01
);
addNumericFieldWithExtractor(
"co2_conversion",
"CO2 conversion factor (kg * 10-3 /kWh).",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("04FFA400")),
Unit::FACTOR
);
addNumericFieldWithExtractor(
"energy_currency",
"Energy in currency.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("0EFFF9C900"))
);
addNumericFieldWithExtractor(
"currency_conversion",
"Currency conversion factor (curr * 10-3 /kWh).",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("04FFA500")),
Unit::FACTOR
);
addNumericFieldWithExtractor(
"total_apparent_energy_consumption",
"Total cumulative apparent kvah imported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Apparent_Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(4)),
Unit::KVAH
);
addNumericFieldWithExtractor(
"total_apparent_energy_production",
"Total cumulative apparent kvah exported energy.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Apparent_Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(5)),
Unit::KVAH
);
addNumericFieldWithExtractor(
"total_energy_consumption_l1",
"Total imported active energy for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"total_energy_consumption_l2",
"Total imported active energy for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"total_energy_consumption_l3",
"Total imported active energy for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"total_reactive_energy_consumption_l1",
"Total imported reactive energy for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(2))
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"total_reactive_energy_consumption_l2",
"Total imported reactive energy for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(2))
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"total_reactive_energy_consumption_l3",
"Total imported reactive energy for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(2))
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"total_apparent_energy_consumption_l1",
"Total imported apparent energy for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(4))
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"total_apparent_energy_consumption_l2",
"Total imported apparent energy for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(4))
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"total_apparent_energy_consumption_l3",
"Total imported apparent energy for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(4))
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"total_energy_production_l1",
"Total exported active energy for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(1))
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"total_energy_production_l2",
"Total exported active energy for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(1))
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"total_energy_production_l3",
"Total exported active energy for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(1))
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"total_reactive_energy_production_l1",
"Total exported reactive energy for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(3))
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"total_reactive_energy_production_l2",
"Total exported reactive energy for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(3))
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"total_reactive_energy_production_l3",
"Total exported reactive energy for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(3))
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"total_apparent_energy_production_l1",
"Total exported apparent energy for L1 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(5))
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"total_apparent_energy_production_l2",
"Total exported apparent energy for L2 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(5))
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"total_apparent_energy_production_l3",
"Total exported apparent energy for L3 phase.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(5))
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"total_net_energy",
"Active net energy total.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(6))
);
addNumericFieldWithExtractor(
"total_net_energy_l1",
"Active net energy total for phase L1.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(6))
.add(VIFCombinableRaw(0x7f01))
);
addNumericFieldWithExtractor(
"total_net_energy_l2",
"Active net energy total for phase L2.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(6))
.add(VIFCombinableRaw(0x7f02))
);
addNumericFieldWithExtractor(
"total_net_energy_l3",
"Active net energy total for phase L3.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(6))
.add(VIFCombinableRaw(0x7f03))
);
addNumericFieldWithExtractor(
"total_net_reactive_energy",
"Active net energy total.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(7)),
Unit::KVARH
);
addNumericFieldWithExtractor(
"total_net_reactive_energy_l1",
"Active net reactive energy total for phase L1.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(7))
.add(VIFCombinableRaw(0x7f01)),
Unit::KVARH
);
addNumericFieldWithExtractor(
"total_net_reactive_energy_l2",
"Active net reactive energy total for phase L2.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(7))
.add(VIFCombinableRaw(0x7f02)),
Unit::KVARH
);
addNumericFieldWithExtractor(
"total_net_reactive_energy_l3",
"Active net reactive energy total for phase L3.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(7))
.add(VIFCombinableRaw(0x7f03)),
Unit::KVARH
);
addNumericFieldWithExtractor(
"total_net_apparent_energy",
"Active net energy total.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(8)),
Unit::KVAH
);
addNumericFieldWithExtractor(
"total_net_apparent_energy_l1",
"Active net apparent energy total for phase L1.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(8))
.add(VIFCombinableRaw(0x7f01)),
Unit::KVAH
);
addNumericFieldWithExtractor(
"total_net_apparent_energy_l2",
"Active net apparent energy total for phase L2.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(8))
.add(VIFCombinableRaw(0x7f02)),
Unit::KVAH
);
addNumericFieldWithExtractor(
"total_net_apparent_energy_l3",
"Active net apparent energy total for phase L3.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Energy,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::AnyEnergyVIF)
.set(SubUnitNr(8))
.add(VIFCombinableRaw(0x7f03)),
Unit::KVAH
);
addNumericFieldWithExtractor(
"last_partial_energy_reset",
"Date and time of last partial energy reset,",
DEFAULT_PRINT_PROPERTIES,
Quantity::PointInTime,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::DateTime)
.add(VIFCombinableRaw(0x7f0c))
);
addNumericFieldWithExtractor(
"last_input_metering_reset",
"Date and time of last input metering reset.",
DEFAULT_PRINT_PROPERTIES,
Quantity::PointInTime,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::DateTime)
.add(VIFCombinableRaw(0x7f0e))
);
addStringFieldWithExtractorAndLookup(
"digital_input",
"Digital input status.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::DigitalInput),
Translate::Lookup()
.add(Translate::Rule("INPUT", Translate::MapType::BitToString)
.set(MaskBits(0xffffff))
));
addStringFieldWithExtractorAndLookup(
"digital_input_status",
"Digital input status.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("02FF32")),
Translate::Lookup()
.add(Translate::Rule("INPUT_STATUS", Translate::MapType::BitToString)
.set(MaskBits(0xff))
));
addStringFieldWithExtractorAndLookup(
"digital_output",
"Digital output status.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::DigitalOutput),
Translate::Lookup()
.add(Translate::Rule("OUTPUT", Translate::MapType::BitToString)
.set(MaskBits(0xffffff))
));
addStringFieldWithExtractorAndLookup(
"digital_output_association",
"Digital output association.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("03FF2D")),
Translate::Lookup()
.add(Translate::Rule("OUTPUT_ASSOCIATION", Translate::MapType::BitToString)
.set(MaskBits(0xffffff))
));
addStringFieldWithExtractorAndLookup(
"digital_input_association",
"Digital input association.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("03FF30")),
Translate::Lookup()
.add(Translate::Rule("INPUT_ASSOCIATION", Translate::MapType::BitToString)
.set(MaskBits(0xffffff))
));
addStringFieldWithExtractorAndLookup(
"digital_output_association",
"Digital output association.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey( "02FF36")),
Translate::Lookup()
.add(Translate::Rule("OUTPUT_ASSOCIATION", Translate::MapType::BitToString)
.set(MaskBits(0xffff))
));
addStringFieldWithExtractorAndLookup(
"overload_alarm_setup",
"Overload alarm setup.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("02FF34")),
Translate::Lookup()
.add(Translate::Rule("OVERLOAD_ALARM", Translate::MapType::BitToString)
.set(MaskBits(0xff))
));
addNumericFieldWithExtractor(
"pickup_setpoint",
"Pickup setpoint.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("05FF35")));
addStringFieldWithExtractorAndLookup(
"activated_status",
"Activated status.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("02FF37")),
Translate::Lookup()
.add(Translate::Rule("ACTIVATED_STATUS", Translate::MapType::BitToString)
.set(MaskBits(0xff))
));
addStringFieldWithExtractorAndLookup(
"unack_status",
"Unacknowledged status.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("02FF38")),
Translate::Lookup()
.add(Translate::Rule("UNACK_STATUS", Translate::MapType::BitToString)
.set(MaskBits(0xff))
));
addNumericFieldWithExtractor(
"last_alarm",
"Date and time of last alarm.",
DEFAULT_PRINT_PROPERTIES,
Quantity::PointInTime,
VifScaling::Auto, DifSignedness::Signed,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(VIFRange::DateTime)
.add(VIFCombinableRaw(0x7f39))
);
addNumericFieldWithExtractor(
"last_alarm",
"Last alarm value.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("05FF3A")),
Unit::NUMBER);
addNumericFieldWithExtractor(
"operating_time",
"Operating time. Unit is unknown, please fix!",
DEFAULT_PRINT_PROPERTIES,
Quantity::Time,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("06FF20")),
Unit::Year);
addNumericFieldWithExtractor(
"phases",
"Number of phases.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF21")));
addNumericFieldWithExtractor(
"wires",
"Number of wires.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF22")),
Unit::NUMBER);
addNumericFieldWithExtractor(
"vts",
"Number of voltaget transformers VT:s.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF25")));
addNumericFieldWithExtractor(
"vt_primary",
"Primary voltage transformer VT.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("05FF26")),
Unit::NUMBER);
addNumericFieldWithExtractor(
"vt_secondary",
"Secondary voltage transformer VT.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF27")),
Unit::NUMBER);
addNumericFieldWithExtractor(
"cts",
"Number of current transformers CT:s.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF28")));
addNumericFieldWithExtractor(
"ct_primary",
"Primary current transformer CT.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF29")),
Unit::NUMBER);
addNumericFieldWithExtractor(
"ct_secondary",
"Secondary current transformer CT.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF2A")),
Unit::NUMBER);
addNumericFieldWithExtractor(
"vt_connection_type",
"Voltage transformer connection type.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Dimensionless,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF2B")),
Unit::NUMBER);
addStringFieldWithExtractorAndLookup(
"power_system_configuration",
"Power system configuration.",
DEFAULT_PRINT_PROPERTIES,
FieldMatcher::build()
.set(MeasurementType::Instantaneous)
.set(DifVifKey("03FF23")),
Translate::Lookup()
.add(Translate::Rule("POWER_SYS_CONFIG", Translate::MapType::BitToString)
.set(MaskBits(0xffffff))
));
addNumericFieldWithExtractor(
"nominal_frequency",
"Nominal frequency.",
DEFAULT_PRINT_PROPERTIES,
Quantity::Frequency,
VifScaling::None, DifSignedness::Signed,
FieldMatcher::build()
.set(DifVifKey("03FF24")),
Unit::HZ);
}
}
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