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Schneider Electric HRB1684301-01 user manual Synchronized demand, Block interval demand example

Models: HRB1684301-01

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Chapter 12—Measurements and calculations	PowerLogic™ PM5500 series user manual

The following illustration shows the different ways power demand is calculated using the block interval method. In this example, the interval is set to 15 minutes.

Block interval demand example

Calculation updates every 15 seconds

15-minute interval

15 30 45 60 . . .

Demand value is the average for the last completed interval

Time (sec)

Timed Sliding Block

		Demand value is
	Calculation updates at	the average for
	the end of the interval	the last
		completed
		interval
15-minute interval	15-minute interval	15-min
		Time
1 5	30	(min)
1 5	30	45
	Timed Block

Calculation updates at the end of		Demand value is
the subinterval (5 minutes)		the average for
		the last
		completed
15-minute interval		interval
15-minute interval

						Time
1 5			30			(min)
1 5	20	25	30	35	40	45

Timed Rolling Block

Synchronized demand

You can configure the demand calculations to be synchronized using an external pulse input, a command sent over communications, or the device’s internal real-time clock.

•Input synchronized demand: This method allows you to synchronize the demand interval of your meter with an external digital pulse source (such as another power meter’s digital output) connected to your meter's digital input. This helps synchronize your meter to the same time interval as the other meter for each demand calculation. When setting up this type of demand, you can choose Input Sync Block (input-synchronized block demand) or Input Sync Roll Blk (input- synchronized rolling block demand). Input Sync Roll Blk requires that you specify a subinterval.

•Command synchronized demand: This method allows you to synchronize the demand intervals of multiple meters on a communications network. For example, if a programmable logic controller (PLC) input is monitoring a pulse at the end of a demand interval on a utility revenue meter, you can program the PLC to issue a command to multiple meters whenever the utility meter starts a new demand interval. Each time the command is issued, the demand readings of each meter are calculated for the same interval. When setting up this type of demand, you can

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Schneider Electric HRB1684301-01 user manual Synchronized demand, Block interval demand example

Contents

PowerLogic PM5500 series Page Contents Remote meter setup Front panel display and meter setupMeter webpages Viewing meter data Meter loggingInput / Output Alarms Meter resetsMulti-tariff feature 103 Maintenance and upgrades Power qualityMeasurements and calculations Verifying accuracy Power, energy and power factorMID compliance Important information Safety informationPlease note Updates Class B FCC PartReasonable use and responsibility TrademarksChapter Introduction PM5500 series meter modelsMeasured parameters ModelPower quality EnergyDemand InstantaneousMeter configuration Data display and analysis toolsData recording Input/OutputFirmware Meter display language Chapter Hardware referenceMeter models PM5500 series meter models and supplied hardware PM5560LED indicators Alarm / energy pulsing LEDHeartbeat / serial communications LED Location of LEDsSafety precautions Before you beginMeter mounting Ethernet communications LEDsMounting the integrated display model PM5560, PM5561 Mounting the DIN rail mount model PM5563 Removing the PM5563Meter wiring Power systemConnector locations Direct connect voltage limitsPower system setup parameters Power system description Meter settingSymbol Direct connect maximumVoltage and current input wiring Balanced system considerationsVoltage input protection Current input protectionControl power wiring CommunicationsNeutral and ground current Serial communicationsRS-485 wiring RS-485 network configurationRS-485 cable RS-485 maximum cable lengthEthernet configuration Ethernet wiring Eth THERNETernet Switch / hubDigital outputs Ethernet communicationsDigital output connections Digital inputsDigital input connections Specifications Mechanical characteristicsElectrical characteristics MechanicalActive alarm / energy Environmental characteristics SafetyEMC electromagnetic compatibility RS-485 communicationsEthernet communications Real-time clockChapter Front panel display and meter setup Heartbeat / communications LEDParts of the display Front panel LEDsAlarm / energy pulsing LED modes Notification iconsNotification icons IconLevel 1 screen menus Ieee display mode Level 1 screen menus IEC display modeNavigation symbols Meter screen menusPM5560 / PM5561 meter display screen menus LevelFront panel meter setup Meter setup screen navigationConfiguring basic setup parameters Basic setup screenBasic setup menu tree Basic setup parametersParameter Values Description 3VTConfiguring advanced setup parameters Advanced setup menu treeAdvanced setup parameters ABC, CBADemand setup menu tree Demand setupPower, current, or input demand setup parameters Multi-tariff setup Communications setupSetting up serial communications Serial communications setup menu treeRS-485 port settings Setting up Ethernet communicationsEthernet communications setup menu tree Alarms setup Input / output setupEthernet port settings BootpHMI settings Setting up the displaySetting up regional settings Display setup menu treeResetting the language Setting up the screen passwordsRegional settings menu tree Regional settings setup parametersSetting the clock Lost passwordPassword setup menu tree Password setup parametersSetting up the alarm / energy pulsing LED Clock setup menu treeClock setup parameters Parameter Display format DescriptionFront panel display and meter setup HRB1684301-01 Chapter Remote meter setup Downloading ION SetupEthernet port setup Using a web browser to set up EthernetRS-485 port setup Meter setup through EthernetClick Setup Ethernet Ethernet & TCP/IPUsing an Ethernet gateway to set up RS-485 Using a serial communications converter to set up RS-485Ascii 8, Ascii Meter setup through RS-485 Meter configuration using ION Setup Remote meter setup HRB1684301-01 Accessing the meter webpages Webpages setupEthernet communications settings Chapter Meter webpagesConfiguring Ethernet settings using a browser Configuring Ethernet settings using the front panelInitial Ethernet configuration steps Final Ethernet configuration stepsUser setup Device log export setupSetting the measurement range Viewing the meter webpagesMonitoring Monitoring Basic ReadingsMeter DiagnosticsCommunications Maintenance Maintenance LogExporting data logs Logging outSetting up the data log Saving the data log contentsChapter Meter logging Data logAlarm log Maintenance logData log export using ION Setup Data log export using a web browserChapter Viewing meter data Viewing meter data from the front panelMeter data display screens Displaying data screensVoltage CurrentHarmonics Power PQS PowerEnergy E Power Factor FrequencyTotal harmonic distortion UnbalanceAlarm AlarmMinimum / maximum Input / OutputTimer TimerMaint LEDUsing ION Setup to view or modify configuration data Using software to view meter dataPower Monitoring Expert Viewing meter data from a web browserPowerSCADA Expert Modbus command interfaceInput / Output Digital input applicationsDigital input setup Configuring digital inputs using ION SetupNavigate to I/O configuration I/O Setup Wages monitoringDigital input setup parameters available through ION Setup Configuring digital inputs using the front panelDigital input setup menu tree Input metering Input metering setup Configuring input metering using ION SetupConfiguring input metering using the front panel Navigate to I/O configuration Input meteringInput metering setup menu tree Demand measurements for input meteringInput metering unit and demand measurements Unit Code Demand Code DescriptionViewing input metering data Using the meter’s displayDigital output applications Digital output wiring example Digital output setupDigital output application example Configuring digital outputs using ION Setup Digital output setup parameters available through ION SetupConfiguring digital outputs using the front panel Digital output setup menu treeThis can be modified only through software. Use this Location of alarm / energy pulsing LED Alarm / energy pulsing LED settings menu treeEnergy pulsing PM5560, PM5561 PM5563Navigate to I/O configuration Energy Pulsing Alarm / energy pulsing LED setup parametersOption or range Description Input / Output HRB1684301-01 Meter resets Front panel meter reset screensGlobal resets Reset menu treeSingle resets Single reset optionsAlarm counter options Alarm counter Option DescriptionOver kW Meter resets HRB1684301-01 Chapter Alarms Alarm overviewAlarm types Unary alarmsStandard alarms Digital alarmsDigital alarm with setpoint delay Setpoint conditions Over setpointUnder setpoint ΔT2 ΔT3 EV1 EV2Power factor PF Standard alarm maximum setpoint valuesMaximum allowable setpoint PF quadrants and related valuesLogic alarms Phase lossLeading PF Lagging PFCustom alarms parameter list Custom alarmsAlarm parameter Unit Alarms setup overview Alarm prioritiesBuilt-in error-checking Active alarmsAlarm setup using the meter display Alarm setup using ION SetupSetting up unary alarms Setting up digital alarmsSetting up standard 1-sec alarms Setting up logic alarms Logic alarm setup parametersNand NORLogic alarm setup error prompts Setting up custom alarmsCustom alarm setup parameters LED alarm indicator Configuring the LED for alarms using the meter displayAlarm display and notification Alarm screensAlarm details Active alarms Alarm historyAlarm counter Acknowledging alarmsAlarm memory usage Active alarms list and alarm history logResetting alarms Multi-tariff feature example Multi-tariff featureMulti-tariff feature overview Command mode overview Time of day mode overviewTariff validity Tariff creation methodInput mode overview Configuration 1 8 tariff assignment using 3 digital inputs1Configuration 2 8 tariff assignment using 4 digital inputs Digital input requirements for required number of tariffsConfiguring tariffs Configuring time of day mode tariffsConfiguring input mode tariffs using the front panel Tariff setup menu treeTo configure input mode tariffs using the front panel Navigate to Meter TariffMulti-tariff feature 108 HRB1684301-01 Power factor Chapter Measurements and calculationsReal-time readings EnergyPower factor min/max convention Power factor sign conventionIEC mode Power factor minimum and maximumPower demand Power demand calculation methodsIeee mode Block interval demandSynchronized demand Block interval demand exampleCurrent demand Predicted demandThermal demand Thermal demand exampleTimer Operating timerPeak demand Input metering demand Predicted demand exampleLoad timer Measurements and calculations 116 HRB1684301-01 Chapter Power quality Harmonics overviewCrest factor and K-factor Total Harmonic Distortion and Total Demand DistortionTHD and thd calculations Harmonic content calculationsTDD calculation Displaying harmonics data Viewing harmonics using the front panelViewing TDD, K-factor and Crest factor data Crest Factor display screens Viewing THD/thd using the front panelTHD or thd display screens Chapter Maintenance and upgrades MaintenanceTroubleshooting LED indicators Wrench iconFirmware upgrade Clock batteryMeter firmware and upgrade method Meter memoryUsing DLF300 to upgrade firmware Click ContinueClick Add Device FTPClick Edit Settings Upgrading the Ethernet cardDiagnostics screen Technical assistanceInfo, Meter and Cl Pwr Phasors126 HRB1684301-01 Chapter Verifying accuracy Testing overviewAccuracy test requirements Energy pulsing Reference device or energy standardLocation of energy pulsing LED Verifying accuracy test Percent error calculation Calculating total powerCalculating the number of required pulses Test points Energy pulsing considerationsWatt-hour test points example Var-hour test points exampleVT and CT considerations Adjustments to allow energy pulsing at the digital outputsExample calculations Typical sources of test errors Output isVerifying accuracy 134 HRB1684301-01 Chapter Power, energy and power factor Power PQSPower and the PQ coordinate system Power flowPower factor PF True PF and displacement PFCurrent phase shift from voltage Energy delivered / energy receivedPF sign in IEC mode Power and PF lead / lagPF sign convention PF lead / lag summaryPF sign in Ieee mode Power factor sign in IEC modePower factor sign in Ieee mode PF sign PF sign +Power factor register format How PF value is stored in the PF registerPF value PPF registerQuadrant PF range PF register PF formula RangeSpecifications relevant to MID Chapter MID complianceMID overview MID compliance for the meterInstallation and wiring MID complianceInstalling the terminal covers PM5561 default screenDefault PM5561 display screen Location of terminal coversMID-protected setup parameters Lock-protected setup parametersMID-protected setup parameters Setup menu Setup submenu MID-protected setup parameterSetting up the PM5561 Basic setup menuAdvanced setup menu Clock setup menuTariff setup menu Passwords setup menuInitializing the meter Locking or unlocking the 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