Schneider Electric iEM3200 Energy delivered imported / energy received exported, Power factor PF

Page 106

Power, energy and power factor

iEM3100 / iEM3200 / iEM3300 series user manual

 

 

Energy delivered (imported) / energy received (exported)

The meter interprets energy delivered (imported) or received (exported) according to the direction of real power (P) flow.

Energy delivered (imported) means positive real power flow (+P) and energy received (exported) means negative real power flow (-P).

Quadrant

Real (P) power flow

Energy delivered (imported) or

received (exported)

 

 

 

 

 

Quadrant 1

Positive (+)

Energy delivered (imported)

 

 

 

Quadrant 2

Negative (-)

Energy received (exported)

 

 

 

Quadrant 3

Negative (-)

Energy received (exported)

 

 

 

Quadrant 4

Positive (+)

Energy delivered (imported)

 

 

 

Power factor (PF)

Power factor (PF) is the ratio of real power (P) to apparent power (S), and is a number between 0 and 1.

P

PF = --

S

An ideal, purely resistive load has no reactive components, so its power factor is one (PF = 1, or unity power factor). A purely inductive or capacitive load no resistive components, so its power factor is zero (PF = 0).

True PF and displacement PF

The meter supports true power factor and displacement power factor values:

True power factor includes harmonic content.

Displacement power factor only considers the fundamental frequency.

PF lead / lag convention

The meter correlates leading power factor (PF lead) or lagging power factor (PF lag) with whether the current waveform is leading or lagging the voltage waveform.

Current phase shift from voltage

For purely resistive loads the current waveform is in phase with the voltage waveform. For capacitive loads, current leads voltage. For inductive loads, current lags voltage.

Current lead / lag and load type

Current and voltage in phase (resistive)

Current leads voltage (capacitive)

Current lags voltage (inductive)

V

Vb

V

Vb

 

V

Vb

Ib

 

 

 

 

Ib

 

Ib

Ia

 

 

 

I

Ia Va

 

 

 

 

 

 

Va

 

 

Va

 

Ic

I

 

 

 

Ic

Ia

 

 

Ic

 

I

 

 

Vc

 

Vc

 

Vc

 

 

 

 

 

 

90° 270°

90° 270°

90° 270°

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DOCA0005EN-04

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Contents IEM3100 / iEM3200 / iEM3300 series Page DOCA0005EN-04 Important information Safety informationPlease note FCC Part 15 notice Document scope About the bookRelated documents Validity noteContents Chapter Power, energy and power factor 105 Chapter SpecificationsChapter Troubleshooting 103 Chapter Communications via M-BusSafety precautions Hazard of Electric SHOCK, EXPLOSION, or ARC FlashSafety precautions DOCA0005EN-04 Chapter Overview Main characteristicsWhat is in this chapter? Overview of meter functions5 a meters Digital outputs Or overload alarm Pulse output onlyFunction IEM32 series Typical applicationsIEM31 and iEM33 series Typical applicationsOverview IEM31 and iEM32 meters Hardware and installationDimensions IEM33 metersAll meters Meter sealing points Hardware overviewIEM3100 / iEM3110 / iEM3115 Direct measurement up to 63 a Digital input IEM3200 / iEM3210 / iEM3215 Measurement with CTs IEM3235 Measurement with CTs and M-Bus communications IEM3275 Measurement with CTs and LonWorks communications IEM3300 / iEM3310 Direct measurement up to 125 aDigital input iEM3355 / iEM3365 DIN rail mounting and dismounting Mounting the meter on a DIN railDismounting the meter from a DIN rail Pulse output wiring iEM3110 / iEM3210 / iEM3310 Input, output and communications wiringDigital input wiring iEM3115 / iEM3215 Bus communications wiring iEM3135 / iEM3235 / iEM3335 M-Bus communications connection is polarity-independentVoltage input protection Power system wiringLonWorks communications wiring iEM3175 / iEM3275 / iEM3375 Current input protection for 1 a and 5 a metersPower system Direct measurement meter wiringFuses and disconnect switch IEMPower system Wiring Power system WiringSingle-phase systems with CTs 1 a meter wiringMA fuses and disconnect switch Shorting block Three-phase systems with CTs Three-phase systems with CTs and VTs Hardware and installation DOCA0005EN-04 Data display Front panel display and meter setup1234.5 Data display screen overviewExample navigating the display screens Data display screensPhase 3 Current Data display screens iEM3150 / iEM3250 / iEM3350Resetting accumulated energy using the display ResetsMulti Tariff feature Reset DescriptionDevice clock Clock behavior on power interruptionMeter status information Date/time formatEntering configuration mode Device configurationSetting the clock initially Front panel display in configuration modeModifying parameters Com. Protection settingExample Configuring a list value Selecting a value from a listCanceling an entry Configuration mode menusExample configuring a numeric value Section Parameter Options Description 1PH2W L-L 1PH3W L-L-NConfiguration menu for iEM3150 / iEM3350 Com.Protection Contrast Password Reset Config By Internal Clock Configuration menus for iEM3200 / iEM3210 / iEM3215 Configuration menus for iEM3250 Com.Protection 3PH3W 3PH4W Section Parameter Options Description Front panel display and meter setup DOCA0005EN-04 Communications via Modbus RS-485 Modbus communications settingsCommunications LED indicator for Modbus devices Modbus communication overviewTable format Modbus functionsFunction list Unit tableCommand request Command interfaceCommand interface overview Command resultSet Date/Time Command listCommand Action Size Type Unit Range Description Action Size Type Unit Range Description NumberSet Tariff iEM3155 / iEM3255 / iEM3355 Set Pulse Output iEM3155 / iEM3255 / iEM3355Size Type Unit Range Description Overload Alarm Setup iEM3155 / iEM3255 / iEM3355 Input Metering Setup iEM3155 / iEM3255 / iEM3355Communications Setup Reset Input Metering Counter iEM3155 / iEM3255 / iEM3355 Meter Setup and StatusReset Partial Energy Counters Modbus register listInput Metering Setup iEM3155 / iEM3255 / iEM3355 Energy Pulse Output Setup iEM3155 / iEM3255 / iEM3355Command Interface CommunicationDigital Output iEM3155 / iEM3255 / iEM3355 Current, voltage, power, power factor and frequencyDigital Input iEM3155 / iEM3255 / iEM3355 Meter DataEnergy, energy by tariff and input metering Read Device Identification Overload Alarm iEM3155 / iEM3255 / iEM3355Energy values 32-bit floating point Object ID Name/Description Length Value LonWorks communications overview LED indicators for LonWorks metersCommunications via LonWorks LonWorks communication implementationSystem variables Location of the service pin and Neuron IDGeneral variables Green communications LEDEnergy and energy by tariff measurements Type DescriptionInstantaneous RMS measurements Alarm status System configuration informationDigital input configuration and status information Meter status informationDate/time setup Meter configuration propertiesResets Network variable label Type Description ActionInput metering setup Basic setupDigital input setup Struct Members Range / options DescriptionNetwork propagation rate setup Overload alarm setupMulti Tariff setup Range / options DescriptionInstalling and registering the LonMaker plug-in Plug-in has the following tabs Browsing the meter using the LonMaker plug-inLonMaker plug-in interface Tab name DescriptionMeter Status Communications via LonWorks DOCA0005EN-04 Bus communications overview Configuring basic communications settingsCommunications via M-Bus Key termsBus protocol support Bus protocol implementationFixed data header Variable data structure telegram informationData record header information Manufacturer-specific Vife codes Description Bin HexBin Hex Telegram information for data recordsMeter information Primary VIF Primary VifeData format Instantaneous measurementsDate and time information Data format Primary VIFDigital input and output status information Power system configuration informationData format Primary Vife Supported Vife codes for meter configuration Telegram information for meter configurationAlarm status information Action Description Bin HexMulti Tariff setup Date/time setupPower system setup Data format Primary VIF DescriptionOverload alarm setup and acknowledgment Digital input setupDigital output setup Baud rateAccessing the meter using the tool Bus tool for data display and meter configurationInstalling the M-Bus tool ResetsViewing meter data using the M-Bus tool Select Setup Config to switch to configuration mode Configuring the meter using the M-Bus toolSection Description Communications via M-Bus DOCA0005EN-04 BACnet protocol support Communications via BACnetBACnet communications overview Related topicsFollowing standard object types are supported Configuring basic communication parametersBACnet communications implementation Object typeChange of Value COV subscriptions Communications LED indicator for BACnet metersBACnet object and property information Device objectAnalog Input objects Object ID Units Default COV Object name / descriptionEnergy and energy by tariff measurements Instantaneous RMS measurements Meter informationCommunications settings information Digital input and output setting informationBinary Input objects CommandAnalog Value object Object ID Object name / descriptionCommunications via BACnet DOCA0005EN-04 Power system inputs iEM31 meters Chapter SpecificationsElectrical characteristics Power system inputs iEM33 metersCharacteristic Value Meters Power system inputs iEM32 metersInputs and outputs Environmental characteristics Mechanical characteristicsMeasurement accuracy Modbus communications Internal clockLonWorks communications Bus communications BACnet communicationsSpecifications 102 DOCA0005EN-04 Diagnosis screen lists any current diagnostic codes TroubleshootingDo not open the meter. Opening the meter voids the warranty Diagnosis screenDiagnostic codes Description Possible solutionPower and the PQ coordinate system Power, energy and power factorPower PQS Power flowEnergy delivered imported / energy received exported Power factor PFTrue PF and displacement PF PF lead / lag conventionPF lead / lag summary Power and PF lead / lagPF sign convention PF sign in IECQuadrant Power factor register formatTo +1 To +1 +1 to +2Quadrant PF range PF formulaPower, energy and power factor 110 DOCA0005EN-04 Page Schneider Electric 35, rue Joseph Monier CS30323