PM5500 user manual
Contents
1. Alarm label Valid range and resolution Units ION Setup Meter display ION Setup Meter display Over Ground Current Over Current Gnd 0 000 to 99999 000 0 to 99999 A Over Voltage L L Over Voltage L L 0 00 to 999999 00 0 to 999999 V Under Voltage L L Under Voltage L L 0 00 to 999999 00 0 to 9999999 V Over Voltage L N Over Voltage L N 0 00 to 999999 00 0 to 9999999 V Under Voltage L N Under Voltage L N 0 00 to 999999 00 0 to 9999999 V Over Active Power Over kW 0 0 to 9999999 0 0 to 9999999 kW Over Reactive Power Over kVAR 0 0 to 9999999 0 0 to 9999999 kVAR Over Apparent Power Over kVA 0 0 to 9999999 0 0 to 9999999 kVA Leading True PF Lead PF True 1 00 to 0 01 and 0 01 to 1 00 Lagging True PF Lag PF True 1 00 to 0 01 and 0 01 to 1 00 Leading Disp PF Lead PF Disp 1 00 to 0 01 and 0 01 to 1 00 Lagging Disp PF Lag PF Disp 1 00 to 0 01 and 0 01 to 1 00 Over Present Active Power Demand Over kW Dmd Pres 0 0 to 9999999 0 0 to 9999999 kW Over Last Active Power Demand Over kW Dmd Last 0 0 to 9999999 0 0 to 9999999 kW Over Predicted Active Power Demand Over kW Dmd Pred 0 0 to 9999999 0 0 to 9999999 kW Over Present Reactive Power Demand Over kVAR Dmd Pres 0 0 to 9999999 0 0 to 9999999 kVAR Over Last Reactive Power Demand Over kVAR Dmd Last 0 0 to 9999999 0 0 to 9999999 kVAR Over Predicted Reactive Power Demand Over kVAR Dmd Pred 0 0 to 9999999 02. eene 73 Configuring input metering using the front panel 73 Demand measurements for input metering see 74 Viewing input metering data ssssssssssseseeeeeeneennnee nens 75 Using the meter s display cernentes 75 Digital output applications ssssssssssssseeeneeeeen enne 75 Digital output application example ee 76 Digital output Setup i ite aet eto eade Ia Led eode brise 76 Configuring digital outputs using ION Setup eene 77 Configuring digital outputs using the front panel se 78 Energy pulsing 2 odori eres eec diee eee eee Eee ege de RE 80 HRB1684301 01 PowerLogic PM5500 series user manual Configuring the alarm energy pulsing LED using the front panel 80 Configuring the LED or digital output for energy pulsing using ION Setup 81 Chapter 9 Meter resets ironic ter ime ce reae ta cup eu nau e Osa Lara na nda arena noe ian ra d Dens Una Du Dunn ada mex Fans MESA dnas sud 83 Front panel meter reset screens sss 83 Global resets 5i eee aad neni 83 Single cip cR 84 Chapter 10 AIarms Me 87 Alarm Overview EC 87 Alairmty POS oc 3 ee eret RR RR DER TF ERU ERR ERIS 87 Vna da T ee gae Rd DN IG NT TG despues e deed nei haba
3. cccccccccceceeceeseseececeeeececeeaueaseseeeeeeeeeseeaeaaeeess 103 Command mode overview cccccccccceeceesseseececeeeeceeceaueeseeeeeeeseeeseeaeensness 104 Time of day mode overview sssssssssssseeeeneneneen een 104 EE IE A Zelo 104 Tariff creation method cccccccccecesssesseceeceeeceecesueeseeeesceeeeeseeaueaaeeeeeess 104 Input mode overview i e ela cepe e eth eat eae 105 Configuring tariffs i eee n ee ee 106 Configuring time of day mode tariffs sse 106 Configuring input mode tariffs using the front panel 106 Chapter 12 Measurements and calculations eeeeeeeeeeee sese see eene ne nennen nnns nana nananana annann nn 109 Real time readings ioo reet cre ente Ladd GYD dde 109 Energy dente d eH epe UR Mete de eode tela Gae 109 Min max Vales au 5 rien rere reti ea cor NEN eu dev ea Fe case NO pao ra ee PER E VR a 109 Power factor sd caso iiio rer ri Eres aa dh eran Ea ro rie CR RFC EEF EF YR NR 109 Power factor min max convention uuu Yrru LLY LLALL I FL ii 110 Power factor sign convention sese ee 110 IEC modem eiu E E a n au NN AR dn SON LL add LEM SUMAS 110 IEEE mode ice un a ND A FO Ru do dd My 111 Power demand ee se Eden n GYT FT Pete ect CS DT TN DN ST 111 Power demand calculation methods Y iini 111 Block interval demand YY YYYY HYLL EY L LL LLALL GL HCC LL LY YF FF
4. NOTICE NOTICE is used to address practices not related to physical injury The safety alert symbol shall not be used with this signal word Please note Electrical equipment should be installed operated serviced and maintained only by qualified personnel No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material A qualified person is one who has skills and knowledge related to the construction installation and operation of electrical equipment and has received safety training to recognize and avoid the hazards involved HRB1684301 01 PowerLogic PM5500 series user manual Notices Class B FCC Part 15 This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the f
5. Input mode overview You can combine these methods if for example you wanted to create a tariff that applies on Mondays from January 1 to June 30 from 09 00 to 17 00 However since only one tariff can be applied at any time you cannot use an everyday or weekday tariff type because you already specified a tariff for the time periods 09 00 to 17 00 Depending on how you configure the tariffs and the maximum number of tariffs supported by your meter you may not be able to assign tariffs for the entire year potentially leaving time gaps that do not have any tariff assigned to them You can use this mode to have the device s digital inputs set which tariff is applied to the energy that is presently being consumed If a digital input is used for multi tariff it cannot be used for an exclusive association such as Demand Sync or Input Metering but digital inputs can be shared with a non exclusive association such as Alarms To make a digital input available for setting tariffs any conflicting associations must be manually removed at the source of the original association The number of different tariffs that can be applied is determined by the number of available digital inputs and the total number of tariffs supported by your device The digital inputs are used as binary counters to identify the appropriate tariff where off 0 and on 1 and most significant bit MSB is digital input 4 and least significant bit LSB is digital inpu
6. Digital output wiring example E TL H Tine m H Yle eee Meter 2 Meter 3 s ter Related topics See Specifications on page 28 for electrical characteristics and limits for the digital outputs See Demand setup on page 40 for details on configuring demand parameters See Power demand calculation methods on page 115 for descriptions of the different demand calculation methods The digital output ports D1 and D2 can be configured using the front panel or ION Setup NOTE It is recommended you use ION Setup to configure the digital outputs as setup parameters that require text entry can only be modified using software 76 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 8 Input Output Configuring digital outputs using ION Setup You can use ION Setup to configure the digital outputs D1 and D2 Start ION Setup Connect to your meter 1 2 3 Navigate to I O configuration gt I O Setup 4 Select a digital output to configure and click Edit The setup screen for that digital output is displayed e Enter a descriptive name for the digital output s Label Configure the other setup parameters as required Click Send to save your changes Digital output setup parameters available through ION Setup Parameter Values Description Label Use this field to change the default label and assign a descriptive name to this digital output Con
7. Enter the setup password default is O then press OK Move the cursor to point to the digital input you want to set up then press Edit Move the cursor to point to the parameter you want to modify then press Edit NOTE If Edit is not displayed it means the parameter is either read only or can only be modified through software 6 Modify the parameter as required then press OK HRB1684301 01 71 Chapter 8 Input Output PowerLogic PM5500 series user manual Input metering Digital input setup parameters available through the front panel Parameter Values Description This can be modified only through software Use this Label m field to assign names to the digital inputs S1 to S4 Debounce is the time delay that compensates for mechanical contact bounce Use this field to set how Debounce Time 0 to 1000 long in milliseconds the external signal must remain in ms a certain state to be considered a valid state change Allowable values are increments of 10 i e 10 20 30 etc up to 1000 ms This field displays how the digital input functions Normal the digital input is either associated with a digital input alarm or it is not associated with another meter function The meter counts and records the number of incoming pulses normally Demand Sync the digital input is associated with one of the input sync demand functions The meter Normal Demand Sync Input uses th
8. Meter configuration Meter configuration is performed through the display panel if your meter equipped with it or through PowerLogic ION Setup ION Setup is a meter configuration tool that can be downloaded for free at www schneider electric com Related topics See the PM5500 series topic in the ION Setup online help or in the JON Setup device configuration guide To download a copy go to www schneider electric com and search for ION Setup device configuration guide HRB1684301 01 13 Chapter 1 Introduction PowerLogic PM5500 series user manual Firmware This user manual is written to be used with meter firmware 1 01 or later See Firmware version model and serial number on page 122 to view your meter s firmware version Meter display language If your meter is equipped with a display screen you can configure the meter to display the measurements in one of the following languages English French Spanish German e Italian e Portuguese e Russian e Chinese See Setting up regional settings on page 44 to change the displayed language and other regional settings 14 HRB1684301 01 Chapter 2 Meter models Hardware reference This section supplements the meter s installation sheet and provides additional information about the meter s physical characteristics and capabilities Related topics See Specifications on page 27 for detailed meter specifications
9. Demand setup menu tree Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to Meter gt Dmd Move the cursor to select Power Demand Current Demand or Input Demand Move the cursor to point to the parameter you want to modify then press Edit Modify the parameter as reguired then press OK HOOD quom O NI Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK Power current or input demand setup parameters Parameter Values Description Timed Sliding Block Timed Block Timed Rolling Block Input Sync Block Input Sync Roll Block See Power demand on page 115 for Cmd Sync Block details Cmd Sync Roll Block Clock Sync Block Clock Sync Roll Block Thermal Method Interval 0 99 Set the demand interval in minutes Applies only to rolling block methods Subinterval 0 99 Define how many subintervals the demand interval should be equally divided into None Digital Output D1 Digital Select which digital output the end of Select Dig Output Output D2 demand interval pulse should be sent to None Digital Input S1 Digital Applies only to input sync methods Select Dig Input Input S2 Digital Input S3 Digital Select which digital input is used to sync Input S4 the demand Applies only to clock sync methods these synchronize the demand interval to the Clock Sync T
10. Meter firmware version You can access information about the meter s OS and RS firmware versions by navigating to Maint gt Setup gt Diag gt Info The OS CRC value is a number that identifies the uniqueness between different OS firmware versions NOTE For MID compliance the meter s firmware upgrade functionality is permanently disabled You cannot upgrade a PM5561 meter s firmware Related topics See the Diag menu descriptions under Maintenance on page 66 for information on other meter diagnostics screens MID protected setup parameters This section describes the setup parameters that are permanently set at the factory and cannot be modified regardless of the lock or unlock settings Front panel LEDs o Alarm energy pulsing LED orange o Heartbeat communications LED green The alarm energy pulsing LED on the meter is permanently set for energy pulsing and cannot be disabled or used for alarms All other setup parameters for the energy pulsing LED are also permanently set and cannot be modified MID protected setup parameters Setup menu Setup submenu MID protected setup parameter Mode Control Energy energy pulsing Pulses per k_h Pulse Rate 10 000 pulses per kWh Channel Parameter Active Energy Del Rec VO LED NOTE The pulses per kWh reflect uncompensated values only This means that the PT and CT values are ignored and the pulses represent the raw energy cal
11. Modify the parameter as required then press OK oan fF VNo Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK Regional settings setup parameters Parameter Values Description English US French Spanish German Select the language you want the meter to Language Italian Portuguese Chinese Russian display Date Format MM DD YY YY MM DD DD MM vv Set how you want the date to be displayed e g month day year Set how you want the time to be displayed Time Format 24Hir AM PM e g 17 00 00 or 5 00 00 PM HMI Mode IEC IEEE Select the standards convention used to display menu names or meter data 7 Press A to exit Press Yes to save your changes Resetting the language To reset the meter to the default language English press and hold the outermost two buttons for 5 seconds Setting up the screen passwords This can only be configured through the front panel The factory default setting for all passwords is 0 zero Changing the default password for screens that are password protected prevents unauthorized personnel from accessing certain screens such as the diagnostics and reset screens NOTICE LOST DATA Record your meter s screen password information in a secure location Failure to follow these instructions can result in data loss If you lose your password you must return the meter
12. See Introduction on page 11 for a description of features supported by your meter e See your product s technical datasheet at www schneider electric com for the most current and complete specifications The meter is available in these models e PM5560 panel mount meter with integrated display fits in a 1 4 DIN panel cutout PM5561 MID compliant panel mount meter with integrated display fits in a 1 4 DIN panel cutout e PM5563 DIN rail mount meter with no display PM5500 series meter models and supplied hardware ee PM5560 PM5561 o Connector kit o Connector kit o Mounting hardware o Mounting hardware o Terminal covers PM5563 o Connector kit HRB1684301 01 15 Chapter 2 Hardware reference PowerLogic PM5500 series user manual LED indicators Alarm energy pulsing LED The LED indicators alert or inform you of meter activity Location of LEDs PM5560 PM5561 PM5563 A Alarm energy pulsing LED Heartbeat serial communications LED as ne IS o OOOOS n c Ethernet communications LEDs M TT 2 W 4 7L 7 E StL 30 81 The alarm energy pulsing LED can be configured for alarm notification or energy pulsing NOTE The alarm energy pulsing LED on the PM5561 is permanently set for energy pulsing and cannot be disabled or
13. Single resets Single resets allow you to clear data only in a specific register or register type 1 Navigate to Maint gt Reset Move the cursor to point to Single Reset then press Select Move the cursor to point to the parameter you want to reset then press Reset If there are additional options for the parameter press Select move the cursor to point to the option you want then press Reset Single reset options Parameter Option Description Clears all accumulated energy values kWh Energy Accumulated KVARh kVAh Select which demand registers to clear Demand Power Current Input Metering power demand current demand or input metering demand Event Queue Clears the alarm event queue register actve alarms list History Log Clears the alarm history log Alarms All Alarm Counts Select Counters then select which counter Counters various alarm to clear choose all or individual alarm counters see the counters listed in the Alarm counter options next table table below All Dig In Timers Digital Input DI1 Select Timers then select which digital Timers Digital Input DI2 input timer to clear choose all or individual Digital Input DI3 digital input timers Digital Input DIA Digital Inputs All Dig In Counters Digital Input DI1 Select Timers then select which digital Counters Digital Input DI2 input counter to clear choose all or individual D
14. The Link LED blinks to indicate the speed at which data is being transmitted or received The Act active LED indicates the meter is communicating through the Ethernet port You cannot configure these LEDs for other purposes Before you begin Carefully read and follow the safety precautions before working with the meter Safety precautions Installation wiring testing and service must be performed in accordance with all local and national electrical codes A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Apply appropriate personal protective equipment PPE and follow safe electrical work practices See NFPA 70E in the USA or applicable local standards Turn off all power supplying this device before working on it Always use a properly rated voltage sensing device to confirm that all power is off Do not exceed the device s ratings for maximum limits Always use grounded external CTs for current inputs Failure to follow these instructions will result in death or serious injury 1 Turn off all power supplying this device before working on it 2 Always use a properly rated voltage sensing device to confirm that all power is off Meter mounting This section describes how to mount the meter HRB1684301 01 17 Chapter 2 Hardware reference PowerLogic PM5500 series user manual Mounting the integrated display model PM5560 PM5561 The meter is designed to be mounted inside
15. c ccceeeeeecceeeeeeseeceeeeeeeeaees A7 Meter setup through Ethernet 999eernennnnn ELLYLL LLALL LLY eme 48 RS 485 port setup eiii degere ES RL re enc hee dents 48 Using a serial communications converter to set up RS 485 49 Using an Ethernet gateway to set up RS 485 eissernir 49 Meter setup through RS 485 sss eee eene 50 Meter configuration using ION Setup sm 51 Chapter 5 Meter Webpages 2 2 122 onc cts aai Ie iege ute abe bach esa ct do anan saa v na Dm aiaa Saca eaa uo noa ek ka AEL duca uaa cnt 53 Accessing the meter webpages sssssseee emen 53 Webpage Ul overview 5 iretur edere rediere neci eden dene e Deon 53 Webpages setup dnte e Re Lu ddd nL 53 Ethernet communications settings eee m 53 Configuring Ethernet settings using a browser ssssessssss 54 Initial Ethernet configuration steps sssssseeee 54 Final Ethernet configuration steps sssssssssseee 54 Configuring Ethernet settings using the front panel 54 User Setup i e tb E ER CIERRE ERR GB 55 Device log export setup sssssssssssssssseseeeeenn nennen enne nnne 55 Viewing the meter webpages sseeem emen 56 MOMitOrihg etm 56 Setting the measurement range sss 56 Diaghosllcs iterat S Ue tede tat Ee cen
16. Active Del Active Rec Active Del Rec Reactive Del Select which accumulated energy channel to monitor and Parameter Reactive Rec use for energy pulsing This setting is ignored when the Reactive Del Rec LED mode is set to Alarm Apparent Del Apparent Rec Apparent Del Rec When configured for energy pulsing this setting defines how many pulses are sent to the LED for every 1 kWh Pulse WE p k h 1to 39999999 1 kVARh or 1kVAh accumulated energy This setting is ignored when the LED mode is set to Alarm 5 Press or to modify the parameter as required then press OK 6 Press A to exit Press Yes to save your changes Configuring the LED or digital output for energy pulsing using ION Setup You can use the ION Setup to configure your meter s LED or digital output for energy pulsing 1 Start ION Setup 2 Connect to your meter 3 Navigate to I O configuration gt Energy Pulsing 4 Select the LED or a digital output to configure and click Edit The setup screen is displayed 5 Enter a descriptive name for the digital output s Label Configure the other setup parameters as required Click Send to save your changes Alarm energy pulsing LED setup parameters available through ION Setup Parameter Values Description Off disables the LED Mode Off Alarm Energy Alarm sets the LED for alarm notification Energy sets the LED for energy pulsing When configured fo
17. HRB1684301 01 PowerLogic PM5500 series user manual Chapter 5 Meter webpages User setup Device log export setup To set up users for 1 Click Setup gt U the webpages ser 2 Configure the parameters as appropriate User Accounts Parameter Description Lists the current usernames for accessing the meter You can add a new user by Name typing the username in a blank cell To remove an existing user select the name and press Delete on your keyboard Lists the current password associated with each user After adding a new username Password you can type a password to associate it with the username As you enter characters for your password the status bar changes to indicate the password strength weak medium strong or very strong Group Select the group the username belongs to e g web user or product master Language Select the language the webpages are displayed in for the selected username 1 Always record changes or additions to the username and password list and store the list in a safe place 3 Click Apply to send and save the new settings to the meter You can set up the meter to export its logs to a web server NOTE Device log export times can vary exponentially depending on the number of records to export To avoid long log export times consider reducing the logging frequency for the recorded items or selecting a more frequent log export schedule e g weekly in
18. under conditions this means the value has gone below the Pickup limit Delay Setpoint Pickup O to 999999 This specifies the number of seconds the signal must stay above the pickup setpoint for over conditions or below the pickup setpoint for under conditions before the alarm is tripped Setpoint Dropout See Standard 1 Sec alarms on page 88 This is the value magnitude you define as the limit for dropping out of the alarm condition For over conditions this means the value has gone below the Dropout limit For under conditions this means the value has gone above the Pickup limit Delay Setpoint Dropout O to 999999 This specifies the number of seconds the signal must stay below the dropout setpoint for over conditions or above the dropout setpoint for under conditions before the alarm condition is ended Priority High Medium Low None This sets the alarm priority and notification options See Alarm priorities on page 94 Select Dig Output Outputs None Digital Output D1 Digital Output D2 Digital Output D1 amp D2 Select the digital output s you want to control when the alarm is triggered 98 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 10 Alarms LED alarm indicator You can use the meter s alarm energy pulsing LED as an alarm indicator Location of alar
19. 15 minute interval completed interval lt 15804560 Timed Sliding Block lt Demand value is Calculation updates at the average for the end of the interval the last completed interval 15 minute interval 15 minute interval 30 Timed Block Calculation updates at the end of lt Demand value is the subinterval 5 minutes the average for the last completed 15 minute interval interval 40 Timed Rolling Block 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
20. Available only when Meter Time is set to Local use this to display the local time relative to GMT Set the sign to plus if local time is ahead of GMT or minus if local time is behind GMT GMT Offset h HH O 1 Currently supports whole integers only 7 Press A to exit Press Yes to save your changes Related topics See Setting up regional settings on page 42 for instructions on changing the format of the displayed date and time To configure the clock using ION Setup see the PM5500 series topic in the ION Setup online help or in the ION Setup device configuration guide available for download at www schneider electric com See TDD calculation on page 122 for details on how the meter calculates TDD Setting up the alarm energy pulsing LED The meter s LED can be configured for alarm indication or energy pulsing Related topics See LED alarm indicator on page 101 for details on setting up the LED for alarms See Energy pulsing on page 81 for details on setting up the LED for energy pulse counting HRB1684301 01 45 Chapter 3 Front panel display and meter setup PowerLogic PM5500 series user manual 46 HRB1684301 01 Chapter 4 Remote meter setup You can configure the meter s setup parameters through the meter s Ethernet or RS 485 communications port The meter is factory configured with default Ethernet and RS 485 communica
21. Chapter 15 Verifying accuracy PowerLogic PM5500 series user manual A warm up time of 30 minutes is recommended before beginning energy accuracy verification testing At the factory the meters are warmed up to their typical operating temperature before calibration to help ensure that the meters will reach their optimal accuracy at operating temperature Most high precision electronic equipment requires a warm up time before it reaches its specified performance levels Energy meter standards allow the manufacturers to specify meter accuracy derating due to ambient temperature changes and self heating Your meter complies with and meets the requirements of these energy metering standards For a list of accuracy standards that your meter complies to contact your local Schneider Electric representative or download the meter brochure from www schneider electric com Reference device or energy standard To help ensure the accuracy of the test it is recommended that you use a reference device or reference energy standard with a specified accuracy that is 6 to 10 times more accurate than the meter under test Before you start testing the reference device or energy standard should be warmed up as recommended by its manufacturer NOTE Verify the accuracy and precision of all measurement equipment used in accuracy testing for example voltmeters ammeters power factor meters Energy pulsing You can configure the meter s alarm
22. Control power wiring i erinnere rne nee dette de rentre Reden 23 Communications sitesi 9 81 ont dioe deed sede ede eh ire tede 23 Serial comrnunications esi dani deter dite eere eee denen 23 RSB SWING einean dn ADDED Y eps dea He keai iN 24 RS 485 cable n deed titre LLY FFAN NIL TA eee Re donet 24 RS 485 maximum cable length eee 24 RS 485 network configuration eese 24 Ethernet communications eese eem een 25 Ethernet configuration esses eterne 25 Digital Outputs kans ywi cre vm ier ER Ree Ren ae ie ERR HERR 25 Digital Ene c 26 Specifications 1er cette tereti ee tine NN Ede HI coenae 27 HRB1684301 01 3 PowerLogic PM5500 series user manual Mechanical dieu i i ail einai 27 Electrical ine ie See Sat ascend aer apes 27 Chapter 3 Front panel display and meter setup 2 ccceceeeececeeeeeeeeeeeeeeeeaeeeeeesesenaeeeseeeeseseeeeeeseeeeeeeees 31 LED indicators etr GG DN dy ddw iH 31 Heartbeat communications LED ou eee eeeecesee nn ne LLY HAY FL An LL A no 31 Alarm energy pulsing LED modes seem 32 Notification ICONS Lt 32 Meter screen merus lt 5 5 cc sc cceecectascderendnasysscsenecctesnaseierhosaderssteespasespeecantioss 33 MON th cq 33 Meter setup screen navigation sss ee 35 Front panel meter Setup ocio
23. Energies Resets E A nergy Single Resets Multi Tariff Setting up the PM5561 You must configure all the lock protected setup parameters before locking the meter When the meter is locked those setup parameters cannot be edited Basic setup menu See Configuring basic setup parameters on page 35 to perform basic setup For MID compliance the Power System must be set to one of the following settings e 3PH4W Wye Gnd three phase 4 wire wye grounded e 3PH3W Dit Ungnd three phase 3 wire delta ungrounded Advanced setup menu See Configuring advanced setup parameters on page 37 to perform advanced setup You must use ION Setup to edit the device label Clock setup menu See Setting the clock on page 44 to change the meter time using the display You can also use ION Setup to set or sync the meter time HRB1684301 01 145 Chapter 17 MID compliance PowerLogic PM5500 series user manual Tariff setup menu Passwords setup menu Initializing the meter See Multi tariff feature on page 103 to configure the energy tariffs See Setting up the screen passwords on page 43 to change the meter screen passwords NOTE When the meter is locked all other passwords can still be modified except for the Energy Resets password Initializing the meter clears the meter s logged data counters and timers It is common practice to initialize the meter after its configuration is complete bef
24. IN Select the size of the 4th Neutral CT secondary in Amps 36 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 3 Front panel display and meter setup Basic setup parameters Continued Parameter Values Description Sys Frequency Hz 50 60 Select the frequency of the electrical power system in Hz Phase Rotation ABC CBA Select the phase rotation of the 3 phase system 7 Press Yes to save your changes Related topics See Power system on page 20 for descriptions and symbols of the different electrical power systems supported by the meter See Meter configuration using ION Setup on page 53 to set up the meter using ION Setup Configuring advanced setup parameters The advanced setup screens let you configure the following Load timer setpoint defines the active load current which is the minimum input current required to start and keep the active load timer counting Peak current demand for total demand distortion specifies the minimum current demand value required to include in total demand distortion calculations Advanced setup menu tree Basic Adv Dmd Tariff oa fF OH 7 Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to Meter gt Advan Move the cursor to point to the parameter you want to modify then press Edit Modify the parameter as requi
25. If the harmonic is greater than the fundamental harmonic this marker is triangular shaped to show that the value is out of range NOTE The display screen only shows odd harmonics up to the 31st harmonic However all individual odd and even harmonics data up to the 63rd harmonic is available through communications and software Individual harmonics data include current harmonics per phase neutral and ground and voltage harmonics line to line line to neutral and neutral to ground Viewing TDD K factor and Crest factor data 1 Navigate to Harm gt TDD K The TDD and K factor per phase information displays Power Quality display screens IEEE mode IEC mode Description TDD TDD Total demand distortion K FA K FA K factor for phase A HRB1684301 01 119 Chapter 13 Power quality PowerLogic PM5500 series user manual Power Quality display screens Continued IEEE mode IEC mode Description K F B K F B K factor for phase B K F C K F C K factor for phase C 2 Navigate to Harm Crest The Crest factor information displays Crest Factor display screens IEEE mode IEC mode Description VL L U Crest factor data for line to line voltage V L N V Crest factor data for line to neutral voltage Amps Crest factor data for current 3 Press A to return to the main display screens NOTE Your meter s Modbus map includes registers for harmonics data for inte
26. If you want to use the digital output you must reduce the output pulse frequency so it is within the limits 132 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 15 Verifying accuracy Using the values from the above example the maximum pulse constant for the digital output is Rie 3600 x digital output maximum pulse frequency _ 3600 x 25 Pmax 285 6 Kmax 315 13 pulses per kWh 6 Set the pulse constant K to a value below Kmax for example 300 pulses kWh Typical sources of test errors then calculate the new maximum output pulse frequency at Pmax KxPmax _ 300 pulses kWh x 285 6 kW New maximum pulse frequency 3600 3600 seconds hour New maximum pulse frequency 23 8 pulses second 23 8 Hz Check the new maximum pulse frequency against the limits for the LED and digital outputs 23 8 Hz lt LED maximum pulse frequency 2 5 kHz 23 8 Hz digital output maximum frequency 25 Hz As expected changing K to a value below Kmax allows you to use the digital output for energy pulsing Follow the procedure in Energy pulsing on page 80 to set the pulse constant K in the meter If excessive errors are observed during accuracy testing examine your test setup and test procedures to eliminate typical sources of measurement errors Loose connections of voltage or current circuits often caused by worn out contacts or terminals Inspect terminals of test equipment ca
27. 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 112 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 12 Measurements and calculations choose Cmd Sync Block command synchronized block demand or Cmd Sync Roll Block command synchronized rolling block demand Cmd Sync Roll Bik requires that you specify a subinterval Clock synchronized demand This method allows you to synchronize the demand interval to the power meter s internal real time clock This helps you synchronize the demand to a particular time typically on the hour for example at 12 00 am If you select another time of day when the demand intervals are to be synchronized the time must be specified in minutes from midnight For example to synchronize at 8 00 am select 480 minutes When setting up this type of demand you can choose Clock Sync Block clock synchronized block demand or Clock Sync Roll BIk clock synchronized rolling block demand Clock Sync Roll Blk requires that you specify a subinterval Thermal demand Thermal demand calculates the demand based on a thermal response which imitates the function of thermal demand meters The demand calculation updates at the end of each i
28. gt Setup Navigate to I O gt Inp Mtr BON o gt press Edit Enter the setup password default is O then press OK Move the cursor to point to the input metering channel you want to set up then 5 Move the cursor to point to the parameter you want to modify then press Edit NOTE If Edit is not displayed it means the parameter is either read only or can only be modified through software 6 Modify the parameter as reguired then press OK Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK 8 Press A to exit Press Yes to save your changes Input metering setup parameters Description This can be modified only through software Use this field to assign names to the input metering channels Channel 1 to 4 Use this to specify the guantity or value each pulse represents Parameter Values Label Pulse Weight 0 to 99 99999 None Wh kWh MWh VARh kVARh MVARh Unit Code VAh kVAh MVAh gal BTU L m MCF Ibs kg klbs Therm Select the unit of measurement associated with the monitored value see table in Demand measurements for input metering on page 74 Demand Code For time based values such as kWh this provides the associated demand units kW for demand calculations For other values such as kg this can be configured to provide rate information kg h Mode Pulse or Transition
29. this provides the associated demand units KW for demand calculations for other values such as kg this can be configured to provide rate information kg h or kg s Mode Whether pulse counting based on full pulses or transitions For example if each complete pulse represents 125 Wh you can configure for Wh pulsing as follows Pulse Weight pulses Wh 1 125 0 008 Unit Code Wh Demand Code kW this is automatically set Mode pulse 72 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 8 Input Output Input metering setup If you want to configure for kWh pulsing you must adjust the pulse weight calculation and unit code as follows Pulse Weight pulses kWh 1 0 125 Unit Code kWh 8 Input metering can be configured using the front panel or software NOTE It is recommended you use ION Setup to configure input metering as setup parameters that require text entry can only be modified using ION Setup Configuring input metering using ION Setup You can use ION Setup to configure the input metering channels Start ION Setup Connect to your meter 1 2 3 Navigate to I O configuration gt Input metering 4 Select an input metering channel to configure and click Edit The Channel Setup screen is displayed e Enter a descriptive name for the metering channel s Label Configure the other input metering parameters as required Click Send to save
30. 0 to 9999999 kVAR Over Present Apparent Power Demand Over kVA Dmd Pres 0 0 to 9999999 0 0 to 9999999 kVA Over Last Apparent Power Demand Over kVA Dmd Last 0 0 to 9999999 0 0 to 9999999 kVA Over Predicted Apparent Power Demand Over kVA Dmd Pred 0 0 to 9999999 0 0 to 9999999 kVA Over Frequency Over Frequency 0 000 to 99 000 Hz Under Frequency Under Frequency 0 000 to 99 000 Hz Over Voltage Unbalance Over Voltage Unbal 0 000 to 999999 000 0 to 9999999 V Over Voltage THD Over Voltage THD 0 000 to 99 96 Phase Loss Phase Loss 0 00 too 999999 00 0 to 999999 1 Setpoint conditions Some alarms use the system type and the VT or CT ratio to determine the maximum allowed setpoint See Maximum allowable setpoint on page 91 NOTE Some alarms do not apply to all power system configurations For example line to neutral voltage alarms cannot be enabled on 3 phase delta systems A setpoint condition occurs when the magnitude of the signal being monitored crosses the limit specified by the pickup setpoint setting and stays within that limit for a minimum time period specified by the pickup time delay setting The setpoint condition ends when the magnitude of the signal being monitored crosses the limit specified by dropout setpoint setting and stays within that limit for a minimum time period specified by dropout time delay setting The meter supports these types of setpoint conditions Over setpoint When the value rises above the pickup
31. Delay A tripped Dropout Time Delay This specifies the number of seconds the digital input Setpoint Dropout 0 to 999999 must be out of the alarm pickup state before the alarm Delay turns off None Digital Output D1 Digital Output D2 Digital Output D1 amp D2 Select the digital output s you want to control when the alarm is triggered Setting up standard 1 sec alarms Select the standard 1 Sec alarm you want to configure then use the following controls to set up the alarm ION Setup controls are shown in parentheses NOTE It is recommended that you use ION Setup to configure standard 1 Sec alarms ION Setup supports a higher resolution to allow you to specify more decimal places when setting up the pickup setpoint and dropout setpoint values for certain measurements NOTICE UNINTENDED EQUIPMENT OPERATION After configuring alarms in ION Setup Do not use the meter display to make any changes to the alarms otherwise all decimals previously programmed in ION Setup will be lost Failure to follow these instructions can result in incorrect alarm functions Standard 1 sec alarm setup parameters Setting Option or range Description Enable G Bio This enables or disables the alarm Priority High Medium Low None This sets the alarm priority and notification options See Alarm priorities on page 94 Pickup Setpoint Pickup Limit See Standard 1 Sec alarms on page 8
32. Demand _ maximum voltage x maximum current x number of phases Over Voltage Unbalance maximum voltage x VT ratio age x VT ratio Phase Loss maximum vol You can set up a Leading PF or Lagging PF alarm to monitor when the circuit s power factor goes above or below the threshold you specify The Leading PF and Lagging PF alarms use the power factor guadrants as the values on the y axis with guadrant ll on the lowest end of the scale followed by quadrant III quadrant I and finally quadrant IV on the highest end of the scale PF guadrants and related values Guadrant PF values Lead Lag Il 0to 1 Leading capacitive Il 1to00 Lagging inductive Oto1 Lagging inductive IV 1to0 Leading capacitive HRB1684301 01 91 Chapter 10 Alarms PowerLogic PM5500 series user manual Phase loss Logic alarms Leading PF The Leading PF alarm monitors an over setpoint condition A Pickup setpoint AT2 Dropout time delay in seconds B Dropout setpoint EV2 End of alarm condition AT1 Pickup delay period in seconds AT3 Alarm duration in seconds EV1 Start of alarm condition Lagging PF The Lagging PF alarm monitors an under setpoint condition EV1 EV2 A Pickup setpoint AT2 Dropout time delay in seconds B Dropout setpoint EV2 End of alarm condition AT1 Pickup delay per
33. Digital output setup menu tree LED D In Inp Mtr 1 2 3 4 5 Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to I O gt D Out Move the cursor to point to the digital output you want to set up then press Edit Move the cursor to point to the parameter you want to modify then press Edit NOTE If Edit is not displayed it means the parameter is either read only or can only be modified through software 6 7 Modify the parameter as reguired then press OK Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK Press A to exit Press Yes to save your changes 78 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 8 Input Output Digital output setup parameters available through the front panel Parameter Values Description This can be modified only through software Use this Label field to change the default label and assign a descriptive name to this digital output This field displays how the digital output functions External the digital output is controlled remotely either through software or by a PLC using commands sent through communications Demand Sync the digital output is associated with one of the demand systems The meter External Demand Sync sends a pulse to the digital output port at
34. N Over kW Over kVAR Over kVA Lead PF True Lag PF True Lead PF Disp Lag PF Disp Over kW Dmd Pres Over kW Dmd Last Over kW Dmd Pred Over kVAR Dmd Pres Over Select Alarms kVAR Dmd Last Over kVAR Dmd Pred Over kVA Dmd Pres Over kVA Dmd Last Over kVA Dmd Pred Over Frequency Under Frequency Over Voltage Unbal Over Voltage THD Phase Loss Meter Powerup Meter Reset Meter Diagnostic Phase Reversal Digital Alarm S1 through S4 Custom Alarm 1 through 5 Logic Alarm 1 through 10 Applies when Control Mode is set to Alarm Select one or more alarms to monitor Related topics e See Synchronized demand on page 116 for information on using an external source to synchronize meter demand periods See Demand setup on page 40 for details on configuring a digital output to send demand sync pulses to another connected device HRB1684301 01 79 Chapter 8 Input Output PowerLogic PM5500 series user manual Energy pulsing You can configure the meter s alarm energy LED or one of the digital outputs for energy pulsing applications Location of alarm energy pulsing LED PM5560 PM5561 PM5563 A Alarm energy pulsing LED NOTE The alarm energy pulsing LED on the PM5561 is permanently set for energy pulsing and cannot be disabled or used for alarms When set to detect alarms the LED blinks to indicate an alarm condition See Alarm pr
35. Overload 480 V L N 828 V L L Impedance 5 MQ Frequency 50 or 60 Hz 10 45 70 Hz CT primary 32767 A max CT secondary Nominal 5A Class 0 2S or 1 A Class 0 58S Starting current 5 mA Measured current with 50 mA to 10 A overrange and crest factor 20 A continuous Withstand 50 A at 10 sec hr 500 A at 1 sec hr Impedance 0 3 mQ Frequency 50 or 60 Hz 10 45 70 Hz Burden 0 024 VA at 10A AC control power Operating range 100 to 480 V AC 10 Installation category CAT III 600V class per IEC 61010 1 edition 3 Burden 5 0 W 16 0 VA 15 2 VAR max at 480 V AC Frequency 50 or 60 Hz 10 Ride through time 35 ms typical at 120 V L N and maximum burden 129 ms typical at 230 V L N and maximum burden DC control power Operating range 125 to 250 V DC 20 Burden 3 1 W typical 5 0 W maximum at 125 V DC Ride through time 50 ms typical at 125 V DC and maximum burden Digital outputs Number type 2 Form A solid state digital outputs Load voltage 30 V AC 60 V DC maximum Load current 125 mA maximum ON resistance 80 Pulse frequency 25 Hz maximum Meter constant 1 to 9 999 999 pulses per kWh Pulse width 5096 duty cycle 20 ms minimum ON time Leakage current 1 micro Amps Isolation 2 5 kV RMS for 60 seconds Active alarm energy pulsing LED Type Amber LED optical
36. PF lead lag convention Current lead lag and load type Current and voltage in phase resistive 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 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 leads voltage capacitive Current lags voltage inductive Vb 136 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 16 Power energy and power factor PF sign convention Power and PF lead lag Guadrant 2 Q kVAR Quadrant 1 PF lag PO P PF lead ae Q Q B oo S 3 EIE Quadrant 3 Quadrant 4 Q KVAR PF lead lag summary Quadrant Current phase shift Load type PF lead lag Quadrant 1 Current lags voltage Inductive PF lag Quadrant 2 Current leads voltage Capacitive PF lead Quadrant 3 Current lags voltage Inductive PF lag Quadrant 4 Current leads voltage Capacitive PF lead Depending on the regional settings t
37. PQ coordinate system The meter uses the values of real power P and reactive power Q on the PQ coordinate system to calculate apparent power PQ coordinate system Q kVAR Quadrant 2 Quadrant 1 Quadrant 3 Quadrant 4 Q KVAR Power flow Positive power flow P and Q means power is flowing from the power source towards the load Negative power flow P and Q means power is flowing from the load towards the power source HRB1684301 01 135 Chapter 16 Power energy and power factor PowerLogic PM5500 series user manual Energy delivered energy received Power factor PF The meter interprets energy delivered or received according to the direction of real power P flow Energy delivered means positive real power flow P and energy received means negative real power flow P Quadrant Real P power flow Energy delivered or received Quadrant 1 Positive Energy delivered Quadrant 2 Negative Energy received Quadrant 3 Negative Energy received Quadrant 4 Positive Energy delivered Power factor PF is the ratio of real power P to apparent power S and is a number between 0 and 1 BE 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
38. Power Monitoring Expert online help for instructions on how to add your meter into its system for data collection and analysis StruxureWare Power Monitoring Expert user documentation is available in PDF format and can be downloaded from www schneider electric com StruxureWare PowerSCADA Expert is a complete real time monitoring and control solution for large facility and critical infrastructure operations It communicates with your meter for data acquisition and real time control You can use PowerSCADA Expert for e System supervision and alarm management Real time and historical trending event logging and waveform capture PC based custom alarms Related topics See the StruxureWare PowerSCADA Expert online help for instructions on how to add your meter into its system for data collection and analysis StruxureWare PowerSCADA Expert user documentation is available in PDF format and can be downloaded from www schneider electric com Modbus command interface Most of the meter s real time and logged data as well as basic configuration and setup of meter features can be accessed and programmed using a Modbus command interface and the meter s Modbus register list This is an advanced procedure that should only be performed by users with advanced knowledge of Modbus their meter and the power system being monitored For further information on the Modbus command interface contact Technical Support Related topics Se
39. Some of the many features supported by the meter include A fourth current input for direct and accurate measurement of neutral current to help avoid device overload and network outage Two digital outputs for control and energy pulsing applications Four digital inputs with input metering support for WAGES monitoring applications Dual Ethernet switched ports allow fast Ethernet interconnection to other PM5500 series meters using only one IP switch Multiple tariff support 8 tariffs for monitoring energy usage on different days and times Extensive alarming options including logic and custom alarms THD and individual harmonics up to the 63rd order Onboard webpages for displaying real time and logged data using a web browser Onboard data logging support for up to 14 selectable parameters Multiple language support The back lit anti glare display screen can be switched to display meter information in one of the supported languages available on models with a display screen Graphical display of harmonics and phasor diagrams available on models with a display screen You can use the meter can as a stand alone device but its extensive capabilities are fully realized when used as part of an energy management system For applications feature details and the most current and complete specifications of the PM5500 series meters see the PM5000 series technical datasheet at www schneider electric com P
40. analysis Water flow meter Energy meter Energy management system P ce T 15 L pulse Input Metering Channel 1 WAGES analysis software Unit code L Digital input 1 Related topics See Input metering setup on page 73 for details on configuring input metering The digital input ports S1 to S4 can be configured using the front panel or ION Setup software NOTE It is recommended you use ION Setup to configure the digital inputs as setup parameters that require text entry can only be modified using ION Setup Configuring digital inputs using ION Setup You can use ION Setup to configure the digital inputs 1 Start ION Setup 2 Connect to your meter 3 Navigate to I O configuration gt I O Setup 4 Select a digital input to configure and click Edit The setup screen for that digital input is displayed 5 Enter a descriptive name for the digital input s Label 70 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 8 Input Output 6 Configure the other setup parameters as required 7 Click Send to save your changes Digital input setup parameters available through ION Setup Parameter Values Description Label Use this field to change the default label and assign a descriptive name to this digital input Control Mode Normal Demand Sync Input Metering Multi Tariff This field displays how the digital input functions Normal the
41. approximately 10 seconds to stabilize after every source adjustment The meter must be connected to control power in order to conduct accuracy verification testing Refer to your meter s installation documentation for power supply specifications DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Verify the device s power source meets the specifications for your device s power supply Failure to follow these instructions will result in death or serious injury Control equipment Control equipment is required for counting and timing the pulse outputs from the alarm energy pulsing LED or the digital outputs Most standard test benches have an arm equipped with optical sensors to detect LED pulses the photodiode circuitry converts detected light into a voltage signal The reference device or energy standard typically has digital inputs that can detect and count pulses coming from an external source i e the meter s digital output NOTE The optical sensors on the test bench can be disrupted by strong sources of ambient light such as camera flashes florescent tubes sunlight reflections floodlights etc This can cause test errors Use a hood if necessary to block out ambient light Environment The meter should be tested at the same temperature as the testing equipment The ideal temperature is about 23 C 73 F Make sure the meter is warmed up sufficiently before testing HRB1684301 01 127
42. data signal NOTE If some devices in your RS 485 network do not have the C terminal use the bare wire in the RS 485 cable to connect the C terminal from the meter to the terminal on the devices that do not have the C terminal RS 485 maximum cable length The total distance for devices connected on an RS 485 bus should not exceed 1200 m 4000 ft RS 485 network configuration After you have wired the RS 485 port and powered up the meter you must configure the serial communications port in order to communicate with the meter Each device on the same RS 485 communications bus must have a unique address and all connected devices must be set to the same protocol baud rate and parity data format NOTE To communicate with the meter using ION Setup you must set the serial site and all connected devices in the RS 485 network to the same parity setting For meters that do not have a display you must first wire and configure each one separately before connecting these meters to the same RS 485 bus 24 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 2 Hardware reference Ethernet communications Digital outputs Related topics To configure RS 485 communications on a meter equipped with a display panel see Setting up serial communications on page 41 To configure RS 485 communications on a meter that does not have a display panel see RS 485 port setup on page 50 The
43. ed og 57 Meter eee ege E wee e ee 57 Comtim nicatlons aceto certe eee demere tne donee Rer edet dano 57 Maintenance eo i Re Reti p nec destin awh 58 HRB1684301 01 PowerLogic PM5500 series user manual Registers eiii di uu tope WG e IG en ie ee tees 58 Maintenance Log ccccccccccceceeeeeneeeeeeesesaeeeceeceeeaeceeeeeeeaaeeeeeesnsenaeeeeees 58 Exporting data logs 5 gere eiie ete Pues RSet 58 LOGQING OUU aches fers E 58 Chapter 6 Meter logging a aaa Aaaa cece aaa anaes eee Aa E AE aea AE ses nn Eada EA Aaa A Aa aae A aia daadaa 59 Data log i ddd yddu a e me hee at ND emu 59 Setting up the data 0gs senem 59 Saving the data log contents sss em 59 Data log export using ION Setup 60 Data log export using a web browser sse 60 Alarm p 60 Maintenance log iecore teen iere ede diee idee neg eene see Hydd 60 Chapter 7 Viewing meter data eeeseseeseeeeeeeeeee eene nnnnn nnns inne nnn ELN DL interrete nn nn non 61 Viewing meter data from the front panel seseee 61 Displaying data screens sssssssee eene ene 61 Meter data display screens ssssseeee eme een 61 uu YR 62 Ma qp EA 62 Harronlcs e ddd laneis 62 POWeI ii xcu iet eee teorie heli ra dete p eren eiui cess 63 Energy iiie eO n rRNA ASPERA ETE RENE ARES 63 Po
44. includes the time from 01 15 00 through 01 15 59 To create a tariff period that starts right after this you must set the next tariff s start time to 01 16 Although it may appear that there is a gap between these tariffs there is not NOTE You must always set the tariff times to UTC GMT Greenwich Mean Time not local time The GMT Offset h setup parameter does not apply to tariff times Use ION Setup to configure time of day mode tariffs Related topics See Meter configuration using ION Setup on page 51 to configure the tariffs and other parameters using ION Setup Configuring input mode tariffs using the front panel When you set the tariff type to Input the active tariff is determined by the status of the digital inputs 106 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 11 Multi tariff feature Digital inputs are available for tariffs if they are not used or if they are only associated with alarms Normal To make a digital input available you must manually disconnect the conflicting association before configuring tariffs You cannot configure any digital input tariff if digital input 1 is not available for association Likewise digital input 2 must be available to select more than two tariffs The status of the digital inputs is used to calculate the binary value of the active tariff where off O and on 1 The calculation of the number of tariffs value can differ depending on th
45. manufacture date firmware OS operating system and RS reset system and language versions OS CRC cyclic redundancy check is a number that identifies the uniqueness between different OS firmware versions this parameter is only available on certain models e g PM5561 Maint Reset Setup Meter Basic Adv Dmd Tariff Comm Serial Enet Alarm 1 Sec Unary Dig Logic Cust1s vo LED D In D Out Inp Mtr HMI Displ Region Pass Clock Diag Info Meter Displays the meter status 66 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 7 Viewing meter data Maint Continued Displays how many times the meter lost control power and the CL Power date and time of its last occurrence Displays a graphical representation of the power system the Phasor H ON meter is monitoring Displays the numeric magnitude and angles of all voltage and current phases Applies to PM5561 This locks or unlocks the MID protected quantities See Locking or unlocking the meter on page 148 Polar Lock Related topics See Meter resets on page 85 See Front panel meter setup on page 37 See Maintenance and upgrades on page 125 Clock Clock Meter date and time local or GMT Viewing meter data from a web browser You can use a web browser to access the meter webpages and configure the Ethernet port view or export logg
46. must be the same for all devices in a communications loop Click Send to save your changes to the meter You need to reconfigure ION Setup to match the changed settings in order to re establish communications with your meter NOTE If you set the protocol to ASCII 7 ASCII 8 or JBus you cannot use ION Setup to reconnect to the meter ION Setup does not communicate using these protocols 10 Exit ION Setup Meter setup through RS 485 After the meter s RS 485 port is configured and connected to the RS 485 network you can use ION Setup to configure all other meter setup parameters Related topics e See Setting up serial communications on page 39 for details on using the meter s display panel to configure the RS 485 port 50 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 4 Remote meter setup Meter configuration using ION Setup Start ION Setup create a site or if applicable use an existing site then add your meter to the site NOTE When adding your meter as an Ethernet device make sure you enter the meter s address in the Comd ID field See the PM5500 series topic in the ION Setup online help or in the JON Setup device configuration guide To download a copy go to www schneider electric com and search for ION Setup device configuration guide Related topics See Front panel display and meter setup on page 31 to configure the meter using the display pan
47. outputs for use in the following applications e switching applications for example to provide on off control signals for switching capacitor banks generators and other external devices and equipment demand synchronization applications where the meter provides pulse signals to the input of another meter to control its demand period energy pulsing applications where a receiving device determines energy usage by counting the kWh pulses coming from the meter s digital output port The digital outputs can handle voltages less than 30 V AC or 60 V DC 125 mA maximum For higher voltage applications use an external relay in the switching circuit HRB1684301 01 25 Chapter 2 Hardware reference PowerLogic PM5500 series user manual Digital inputs Digital output connections a r o Related topics See Digital output applications on page 77 for digital output use and configuration details The meter is eguipped with four digital input ports S1 to S4 You can configure the digital inputs for use in status monitoring or input metering applications The meter s digital inputs reguire an external voltage source to detect the digital input s on off state The meter detects an on state if the external voltage appearing at the digital input is within its operating range The digital inputs reguire a 18 30 V AC or 12 30 V DC external voltage source to detect the digital input
48. phase demand display demand values for the present demand Pres interval predicted demand Pred based on the current power consumption rate demand for the previous demand Last interval period and recorded peak power demand Peak value Date and timestamp for the peak power demand Peak value Power PQS Phase Active P Reac Q Appr S Dmd Wd Pd 4 Tot A B C VARd Qd 4 Tot A B C VAd Sd Tot A B C Power PQS Power PQS Phase Active P Reac Q Appr S Dmd Wd Pd VARd Od VAd Sd Tot A 1 B 2 C 3 Pk DT Related topics See Power demand on page 115 Energy Wh VAh VARh Tariff T1 T2 T3 T4 T5 T6 T7 T8 Inp Mtr Dmd F lchi ch2 Ch3 Ch4 Energy E T1 T2 T3 T4 T5 T6 T7 T8 Delivered Del received Rec delivered plus received D R and delivered minus received D R accumulated values for active energy Wh apparent energy VAh and reactive energy VARh Displays the available tariffs T1 through T8 Active energy delivered in Wh W P reactive energy delivered Del in VARh VAR Q and apparent energy delivered in VAh VA S energy for the selected tariff Active energy received in Wh W P reactive energy received in Rec VARh VAR Q and apparent energy received in VAh VA S energy for the selected tariff InMet Accumulated values on the input metering channels C
49. s on off state Digital input connections Related topics See Digital input applications on page 71 for digital input use and configuration details 26 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 2 Hardware reference Specifications The information contained in this section is subject to change without notice See your product s technical datasheet at www schneider electric com for the most current and complete specifications For installation and wiring information refer to the meter installation sheet Related topics See MID compliance on page 143 for specifications relevant to the Measuring Instruments Directive MID Mechanical Mechanical characteristics Front display IP52 IP degree of protection Meter body IP30 except connectors IEC 60529 Connectors IP20 with terminal covers installed IP10 without terminal covers IP rating Front display UL Type 12 Panel thickness 6 0 mm 0 25 in maximum Integrated display Gasket thickness 1 0 mm 0 04 in Ip PM5561 Mounting position Vertical Display type Monochrome graphics LCD 128 x 128 resolution Display backlight White LED Viewable area 67 x 62 5 mm 2 64 x 2 46 in Keypad 4 button Nest Green LED heartbeat communications activity Front panel LED indicators INE Amber LED active alarm indicator or energy pulse output Meter body IP30 except connectors IP degr
50. that all power is off Do not exceed the device s ratings for maximum limits Verify the device s power source meets the specifications for your device s power supply Failure to follow these instructions will result in death or serious injury 1 Turn off power to all test equipment Use a properly rated voltage sensing device to confirm power is off 2 Connect the test voltage and current source to the reference device or energy standard Ensure all voltage inputs to the meter under test are connected in parallel and all currents inputs are connected in series Connecting the meter to the reference standard and test equipment Reference device or energy standard V1 V2 V3 VN Test voltage and current source Meter under test 3 Connect the control equipment used for counting the standard output pulses using one of these methods Align the red light sensor on the standard test bench armature over the front Alarm energy LED panel alarm energy LED Connect the meter s digital output to the standard test bench pulse counting Digital output connections NOTE When selecting which method to use be aware that the Alarm energy LED and digital outputs have different pulse rate limits See Energy pulsing considerations on page 131 for details 4 Before performing the verification test let the test equipment power up the meter and apply voltage for at le
51. to Alarm then press OK 3 Press A to exit Press Yes to save your changes HRB1684301 01 99 Chapter 10 Alarms PowerLogic PM5500 series user manual Configuring the LED for alarms using ION Setup You can use the ION Setup to configure your meter s LED for alarming Start ION Setup Connect to your meter Navigate to I O configuration gt Energy Pulsing Select Front Panel LED and click Edit Set the control mode to Alarm oafF ON DR Click Send to save your changes Using alarms for external control Alarm screens You can set the alarm to trigger a digital output which you can then use to control an external relay See Digital output applications on page 77 for details If your meter is equipped with a display use the front panel buttons to navigate to the alarm setup or display screens Alarm setup Alarm display Active Hist Count Unack Alarm display and notification Alarm icon Alarm energy LED Alarm details The meter notifies you when an alarm condition is detected Alarm priorities on page 94 outlines the differences in alarm notification based on alarm priorities When a low medium or high priority alarm is tripped this symbol appears at the top right corner of the display screen indicating that an alarm is active N For high priority alarms the alarm icon remains displayed until you acknowledge the alarm If configured for alarm
52. to view the active alarms list using a web browser 94 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 10 Alarms Alarm setup using the meter display If your meter is equipped with a display 1 Navigate to the alarms setup menu screens and select the alarm you want to set up See Front panel display and meter setup on page 33 for basic instructions on using the front panel buttons to navigate the meter screens 1 Sec UNA Custis 2 Configure the setup parameters as explained in the different alarm setup sections 3 When prompted click Yes to save the changes to the meter NOTE You must use ION Setup to create logic and custom Cust1s alarms After the alarm is created you can use ION Setup or the meter display to modify the alarm parameters NOTE If you used ION Setup to program decimal values on a standard 1 Sec alarm do not use the meter display to make subsequent changes to any alarm parameters inculding enable disable as doing so will cause removal of all decimals previously programmed through ION Setup Alarm setup using ION Setup To set up all alarm types using ION Setup open the Alarming setup screen to view the different alarm types See the ION Setup online help for details Setting up unary alarms Select the unary alarm you want to configure then use the following controls to set up the alarm ION Setup controls are shown in parentheses Una
53. user manual Chapter 9 Meter resets Alarm counter options Continued Power Factor Lead PF Disp Lag PF Disp Alarm counter Option Description Over kW Power Over KVAR Select which alarm counter register to reset from the power alarm condition counters Over kVA Lead PF True Lag PF True Select which alarm counter register to reset from the power factor alarm condition counters Over kW Dmd Pres Over kW Dmd Last Over kW Dmd Pred Over kVAR Dmd Pres Demand Over kVAR Dmd Last Over kVAR Dmd Pred Over kVA Dmd Pres Over kVA Dmd Last Over kW Dmd Pred Select which alarm counter register to reset from the demand alarm condition counters Over Frequency Frequenc 3 d Under Frequency Select which alarm counter register to reset from the frequency alarm condition counters Meter Powerup Meter Reset Una a Meter Diagnostic Phase Reversal Select which alarm counter register to reset from the unary alarm condition counters Digital Alarm DI1 Digital Alarm DI2 Digital Inputs Digital Alarm DI3 Digital Alarm DI4 Select which alarm counter register to reset from the digital input alarm condition counters Custom Alarm 1 Custom Alarm 2 Cust1s Custom Alarm 3 Custom Alarm 4 Custom Alarm 5 Select which alarm counter register to reset from the custom 1 second alarm condition
54. your changes Input metering setup parameters Parameter Values Description Label es Use this field to change the default label and assign a descriptive name to this input metering channel Pulse Weight 0 to 99 99999 Use this field to specify the quantity or value each pulse represents No units Wh kWh MWh VARh KVARh MVARh A Units VAh kVAh MVAh gal BTU SEERE Du measurement associated with the L m MCF Ibs kg klbs Therm see table in Demand For time based values such as kWh this provides the associated demand units KW for demand calculations Rate measurements for input i metering on page 74 For other values such as kg this can be configured to provide rate information kg h Set Mode to Pulse to count only complete pulses Set Mode Pulse or Transition Mode to Transition to count each ON to OFF or OFF to ON status change Select the digital input from the Available Inputs box and OD Inputs Digital Input DI1 to D14 use the right arrow button to assign the input metering Assigned Inputs EI channel to that digital input Configuring input metering using the front panel You can use the front panel to configure the input metering channels HRB1684301 01 73 Chapter 8 Input Output PowerLogic PM5500 series user manual Input metering setup menu tree LED Din DOut Beni Navigate to Maint
55. 3 21 23 31 V L N V Fund 3 11 13 21 23 31 Amps I Fund 3 11 13 21 23 31 TDD K Crest Amps I V L L U V L N V Power POS Phase Active P Reac O Appr S Dmd Wd Pd 4 Tot A B C VARd Qd 4 Tot A B C VAd Sd 4 Tot A B Cc T1 T2 T3 T4 T5 T6 Ach T8 Dmd 4Ch1 Ch2 Ch3 Ch4 Hz F 2 v Amps I V L L U VE N V Amps I V L L U VE N V Amps I Volts U V VL L U V L N V Power PQS Active P Reac Q Appr S PF True Disp Hz F THD THD thd Unbal Amps I V L L U V L N V c o Alarm Active Hist Count Unack D Out D In Load Oper Meter gt Basic Adv Dmd Tariff t Comm gt Serial Enet H Alam 1 Sec Unary Dig Logic Custis H WO pL LED D In D Out Inp Mtr Y HMI Displ Region Pass Y Clock Info Meter CI Pwr Phasor 4 Polar yoy yg Lock PM5561 only Clock 34 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 3 Front panel display and meter setup Meter setup screen navigation The meter s front panel buttons and display screen allow you to navigate and configure the meter s setup parameters The following illustration shows one of the meter set
56. 485 port Up to 32 devices can be connected on a single RS 485 bus In an RS 485 network there is one master device typically an Ethernet to RS 485 gateway It provides the means for RS 485 communications with multiple slave devices for example meters For applications that reguire only one dedicated computer to communicate with the slave devices an RS 232 to RS 485 converter can be used as the master device HRB1684301 01 23 Chapter 2 Hardware reference PowerLogic PM5500 series user manual RS 485 wiring Connect the devices on the RS 485 bus in a point to point configuration with the and terminals from one device connected to the corresponding and terminals on the next device RS 485 wiring Ho H0 RS 485 cable Use a shielded 1 5 twisted pair or 2 twisted pair RS 485 cable to wire the devices Use one twisted pair to connect the and terminals and use the other insulated wire to connect the C terminals RS 485 terminals Common This provides the voltage reference zero volts for the data plus and data minus signals Shield Connect the bare wire to this terminal to help suppress signal noise that may be present Ground the shield wiring at one end only either at the master or the last slave device but not both Data minus This transmits receives the inverting data signals Data plus This transmits receives the non inverting
57. 5 minutes Interval 30 minutes 1 hour Select a time value to set the logging frequency 24 hours Select an item to record from the Available Items available for column then click the double right arrow button to Channels logging can vary based move the item to the Selected column on the meter type To remove an item select it from the Selected column then click the double left arrow button 4 Click OK then Send to save the changes to the meter Saving the data log contents You can use ION Setup or the meter webpages to save the contents of the data log HRB1684301 01 59 Chapter 6 Meter logging PowerLogic PM5500 series user manual Alarm log Maintenance log Data log export using ION Setup 1 4 Start ION Setup and open your meter in data screens mode View Data Screens See the ION Setup Help for instructions Double click Data Log 1 to retrieve the records Once the records have finished uploading right click anywhere on the viewer and select Export CSV from the popup menu to export the entire log NOTE To export only selected records in the log click the first record you want to export hold down the SHIFT key and click the last record you want to export then select Export CSV from the popup menu Navigate to the folder where you want to save the data log file then click Save Data log export using a web browser See Device log export setup on page 57 for i
58. 8 This is the value magnitude you define as the setpoint limit for triggering the alarm For over conditions this means the value has gone above the Pickup limit For under conditions this means the value has gone below the Pickup limit Pickup Time Delay Delay 0 to 999999 This specifies the number of seconds the signal must stay above the pickup setpoint for over conditions or below the pickup setpoint for under conditions before the alarm is tripped Dropout Setpoint Dropout Limit See Standard 1 Sec alarms on page 88 This is the value magnitude you define as the limit for dropping out of the alarm condition For over conditions this means the value has gone below the Dropout limit For under conditions this means the value has gone above the Pickup limit Dropout Time Delay This specifies the number of seconds the signal must stay below the dropout setpoint for over conditions Lead Lag Delay 010393993 or above the dropout setpoint for under conditions before the alarm condition is ended Applies to PF power factor alarms only Use this set the PF value and quadrant to set the pickup setpoint for Pec PONE bead Lag Lead or Lag an over PF condition PF Leading or under PF condition PF Lagging See Power factor PF on page 91 96 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 10 Alarms Se
59. 84301 01 Chapter 12 Real time readings Energy Min max values Power factor Measurements and calculations This section describes how the power meter processes measured and calculated data The power meter measures currents and voltages and reports in real time the RMS Root Mean Squared values for all three phases and neutral The voltage and current inputs are continuously monitored at a sampling rate of 128 points per cycle This amount of resolution helps enable the meter to provide reliable measurements and calculated electrical values for various commercial buildings and industrial applications Related topics See Introduction on page 11 to learn about the meter s capabilities See Viewing meter data on page 61 to learn how to navigate the data screens using the front panel See Using software to view meter data on page 67 for information on energy management software systems The power meter calculates and stores accumulated energy values for real reactive and apparent energy You can view accumulated energy from the display The energy value units automatically change based on the guantity of energy accumulated e g from KWh to MWh then from MWh to TWh Related topics See Energy on page 12 for a list of energy readings See Energy on page 65 to view energy readings using the meter display See Using software to view meter data on page 69 for informat
60. FoN 111 Synchronized demand eeninnnn YY YHHLL LLY YL LL HYL eee 112 Thermal demand 3 orit t YG aerei eed dero Root extr ce ood Dro 113 Current demand ue Freud rer te eo uous vene WW NN rv a E Yer oaa Ve Ea YN MUN NF 113 Predicted demand ae tu alw vinos Fo PIT FRY na coa Fad DF ngen ea WG YY 113 Peak demand A OH RI Dco dete uk ae eve dna eda ee ena EET e Tn eed d 114 Input metering demand sssssssssssssseeeeeeen enne 114 WINS RAS e ieu ANIM UM MAH AU RI AE 114 Operating timer eesssssssssssseesene eene nnne nnne ens 114 Eoad tImer eti Y ees ae Y Duet crew d ces vte n Pe eov ve ege 115 Chapter 13 Power quality ccceeeeeececeeeeeeseeeeee eee eeee eee ee ea aeeeeeeeeseaeeseeeseaaeae sees sn nnn LY sn sat LLA nsns natn enmana a 117 Harmonics oVerViIeW sen einer creer ee ere coepto vic vd eee Eee pra nece 117 Crest factor and K factor cccccccccccceeceesseseecececeseeceeaueaseeeeeeeneeeseeaueneeess 117 Total Harmonic Distortion and Total Demand Distortion 117 Harmonic content calculations eeesssssseeee 118 THD and thd calculations seseeeeeeee 118 TDD calculatiOn eerte erro WN WT FY eet eoe eae n vorn 118 Displaying harmonics data sssssssssssseeseeeeeeee ener 119 Viewing harmonics using the front panel ssen 119 Viewing TDD K factor and Crest factor
61. M5500 series meter models Measured parameters The PM5500 series is available in the following models and mounting options Model Commercial reference Description Front panel mount integrated display 96 x 96 mm form factor PM3560 METSEEMSS60 fits in a 1 4 DIN mounting hole Same as the PM5560 except the meter is calibrated to comply PM5561 METSEPM5561 to strict MID standards and is shipped with sealable covers for the voltage and current inputs Transducer TRAN model no display mounts on a standard PM5563 METSEPM5563 TS35 top hat style DIN rail The meter provides fully bi directional 4 quadrant Class 0 2S accurate energy metering This section lists some of the parameters measured by the meter HRB1684301 01 11 Chapter 1 Introduction PowerLogic PM5500 series user manual Energy Demand Instantaneous Power quality The meter stores all accumulated active reactive and apparent energy parameters in nonvolatile memory e kWh kVARh kVAh delivered and received kWh kVARh kVAh net delivered received kWh kVARh kVAh absolute delivered received Energy registers can be logged automatically on a programmed schedule All energy parameters represent the total for all three phases The meter supports standard demand calculation methods including sliding block fixed block rolling block thermal and synchronized The meter provides present last predict
62. P Reac Q Appr S Power PF Minimum and maximum values for true and displacement PF and True Disp PF sign Hz F Minimum and maximum values for frequency THD Minimum and maximum values for total harmonic distortion THD THD thd or thd Amps I V L L U THD or thd minimum and maximum values for phase or neutral V L N V current line to line voltage and line to neutral voltage Unbal Minimum and maximum values for current unbalance line to line Amps I V L L U V L N v Voltage unbalance and line to neutral voltage unbalance Alarm Active Hist Lists all active alarms Active past alarms Hist the total number each standard alarm has been tripped Count and all Count unacknowledged alarms Unack Unack Related topics See Alarms on page 89 V0 D Out Current status on or off of the selected digital output or digital input Counter shows the total number of times an off to on D In change of state is detected Timer shows the total time in seconds that a digital input or digital output is in the on state Related topics See Input Output on page 71 HRB1684301 01 65 Chapter 7 Viewing meter data PowerLogic PM5500 series user manual Timer Timer Load Real time counter that keeps track of the total number of days hours minutes and seconds an active load is connected to the meter inputs Oper Real time co
63. PowerLogic PM5500 series User manual HRB1684301 01 12 2013 Schneider PowerLogic PM5500 series user manual Contents Safety INTONMAtlON eee 9 Important information ssssssssssssssseee eene enne nnne Please MOLE nacini eaa eurer dete dU e e eae eop dett saut Mei Class B FCC Part 15 Reasonable use and responsibility 10 MODE Cc 10 Trad maf CC 10 Chapter 1 lIntroduction eene inei eai creed cows desde cece od dade et eut Eaa Pa d euh Saaran iadaaa ROY ce Va Dog coc Na Da iEn 11 PM5500 series meter models sese 11 Measured parameters sssssssssssssssessesenes sehen ne tenens 11 Energy E uite eU M od ite E Du qe etatis ient dues GR I FL 12 eniaridi is iecur RETPATR RERO TD T 12 Instantaneous ipi dae eni dde t eere Heiss 12 Power quality ac uei nn Wd GY aeu 12 Data recording Ree eene irae eren ix Di UR dduU 13 Input Output co tin cede ener re tenete tnnt RO ete eee den 13 Other measurements 2 2 cete EI einen Levi ee de e deridet 13 Data display and analysis tools sesee Ynn nn nnnnnnoon 13 Meter configuration iiie tini ertet erectae inci es enc De n pH ei pc et 13 Hun cc 14 Meter display language crece enceinte ente rennen entente 14 Ghia
64. Pulse frequency 2 5 kHz maximum Pulse width 50 duty cycle 200 microseconds minimum ON time Meter constant 1 to 9 999 999 pulses per kWh Wavelength 590 to 635 nm HRB1684301 01 PowerLogic PM5500 series user manual Chapter 2 Hardware reference Electrical characteristics Continued Number type 4 Externally excited digital inputs Voltage ratings ON state 15 30 V AC 15 60 V DC OFF state 0 6 V AC 0 6 V DC Input resistance 100 kQ Freguency 25 Hz maximum Status inputs Pulse width 50 duty cycle 20 ms minimum ON time Response time 10 ms Opto Isolation 2 5 kV RMS for 60 seconds Input burden 2 mA at 24 V AC DC 2 5 mA at 60 V AC DC Environmental characteristics Meter 25 to 70 C 13 to 158 F Operating temperature Display 20 to 70 C 4 to 158 F Display functions to 25 C 13 F with reduced performance Storage temperature Meter and display 40 to 85 C 40 to 185 F Humidity rating 5 to 95 RH non condensing at 50 C 122 F Pollution degree 2 Altitude lt 3000 m 9843 ft Location Not suitable for wet locations EMC electromagnetic compatibility Harmonic current emissions Flicker voltage fluctuation limits Electrostatic discharge Immunity to radiated fields Immunity to fast transients Immunity to surg
65. Repeat for other unacknowledged alarms Active alarms list and alarm history log Alarm memory usage Resetting alarms Each occurrence of a low medium or high priority alarm is stored in the active alarms list and recorded in the alarm history log Alarms are displayed sequentially in the order of their occurrence regardless of priority There are two types of alarm entries primary and secondary The primary entry identifies the alarm The secondary entry provides pickup and dropout information The active alarm list holds 40 entries at a time The list works as a circular buffer replacing old entries as new entries over 40 are entered into the active alarms list The information in the active alarms list is volatile and reinitializes when the meter resets The alarm history log holds 40 entries The log also works as a circular buffer replacing old entries with new entries The information in the alarm history log is nonvolatile and is retained when the meter resets To reset the alarms using the meter display see the alarm parameters under Single resets on page 84 To reset the alarms using ION Setup open the Meter Resets screen and select the alarm parameters to clear Related topics See Monitoring on page 58 to view active alarms and alarm history using the meter webpages 102 HRB1684301 01 Chapter 11 Multi tariff feature This section describes how to set up different tariffs for storing
66. Set Mode to Pulse to count only complete pulses Set Mode to Transition to count each ON to OFF or OFF to ON status change Digital Inputs Digital Input DI1 to DI4 Select the digital input port that is used for input metering Demand measurements for input metering Based on the unit code selected the following demand codes are set or selectable Input metering unit and demand measurements Unit Code Demand Code Description None None Default setting for the input metering channels Wh kWh MWh kW Watt hour kiloWatt hour and MegaWatt hour measurements are converted to calculate demand in kW VARh kVARh MVARh kVAR VAR hour kiloVAR hour and MegaVAR hour measurements are converted to calculate demand in kVAR 74 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 8 Input Output Input metering unit and demand measurements Continued Unit Code Demand Code Description VAh VA hour kiloVA hour and megaVA hour measurements kvan kv are converted to calculate demand in kVA MVAh gal GPH GPM Select GPH to set rate to gallons per hour or GPM to set it to gallons per minute BTU British thermal unit energy measurements are set BTU BTUm to calculate BTUs per hour consumption rate L I hr l min Select liters per hour or per minute consumption rate n mehr m s m3 m Select cubic me
67. Unit Current A A Active Energy Delivered kW Current B A Active Energy Received kW Current C A Active Energy Delivered Received kW Current N A Active Energy Delivered Received kW Current G A Reactive Energy Delivered kVAR Current Avg A Reactive Energy Received kVAR Current Unbalance A 96 Reactive Energy Delivered Received kVAR Current Unbalance B 96 Reactive Energy Delivered Received kVAR Current Unbalance C 96 Apparent Energy Delivered kVA Current Unbalance Worst 96 Apparent Energy Received kVA Voltage A B V Apparent Energy Delivered Received kVA Voltage B C V Apparent Energy Delivered Received kVA Voltage C A V Input Metering CH 01 Accumulation Voltage L L Avg V Input Metering CHO2 Accumulation Voltage A N V Input Metering CHO3 Accumulation Voltage B N V Input Metering CHO4 Accumulation Voltage C N V Active Power Last Demand kW Voltage L N Avg V Active Power Present Demand kW Voltage Unbalance A B 96 Active Power Predicted Demand KW Voltage Unbalance B C Reactive Power Last Demand kVAR Voltage Unbalance C A Reactive Power Present Demand kVAR Voltage Unbalance L L Worst Reactive Power Predicted Demand kVAR Voltage Unbalance A N Apparent Power Last Demand kVA Voltage Unbalance B N Apparent Power Present Demand kVA Voltage Unbalance C N Apparent Power Predicted Demand kVA Voltage Unbalance L N Worst Current A Last Demand A Active Power A kW Current A Present Demand A Active Power B kW Current A Predicted Dem
68. a 1 4 DIN panel cutout 1 Inspect the gasket installed around the perimeter of the front display and make sure it is secured properly and not damaged mm in 92 0 8 3 62 999 92 0 95 3 62 6 4 0 25 3 Line up the tabs of the retainer clips with the slots on either side of the meter While holding the retainers at a slight angle push the retainers in and forward to position them in place In situations where the spacing between meters is tight use a flat head screwdriver with a long narrow shaft to help secure the clips 4 Push the middle of the clip assembly to lock the retainer in place and secure the meter 18 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 2 Hardware reference Mounting the DIN rail mount model PM5563 The meter is designed to be mounted on a TS35 Top Hat style DIN rail 1 Line up the meter to the DIN rail Tilt the meter slightly so the top notch is resting securely on the DIN rail TS35 WW Go 7 5 mm 2 Swing the meter downward and push the bottom part of the meter until you hear an audible click and the meter locks in place Removing the PM5563 1 Insert a flat tip screwdriver into the DIN release clip Pull down the clip until you hear an audible click and the DIN clip is unlocked E 2 Swing the meter out and upwards to remove the meter HRB1684301 01 19 Chapter 2 Hardware reference PowerLogic PM5500 se
69. actor PF register The meter performs a simple algorithm to the PF value then stores it in the PF register The meter and software interpret the PF register for all reporting or data entry fields according to the following diagram How PF value is stored in the PF register Guadrant 1 OsPFs 1 Quadrant 2 1 lt PF lt 0 1 Quadrant 4 OsPFs 1 Quadrant 3 1 lt PF lt O 0 0 1 0 1 0 Quadrant 3 Quadrant2 Quadrant1 Quadrant 4 2 2 1 0 1 00 Quadrant 2 Quadrant 1 1 lt PF register lt 0 0 lt PF register lt 1 Quadrant 3 Quadrant 4 2 lt PF register lt 1 1 lt PF register lt 2 HRB1684301 01 139 Chapter 16 Power energy and power factor PowerLogic PM5500 series user manual PF value is calculated from the PF register value using the following formulas Quadrant PF range PF register PF formula range Quadrant 1 0 to 1 0 to 1 PF value PF register value Quadrant 2 1to0 1to0 PF value PF register value Quadrant 3 0to 1 2 to 1 PF value 2 PF register value Quadrant 4 1to0 1 to 2 PF value 2 PF register value 140 HRB1684301 01 Chapter 17 MID overview MID compliance This section applies only to the PM5561 referred to in the section as the meter and contains descriptions and procedures that supplement the meter installation sheet The information contained here supports the me
70. aeeed 87 Digital alarms 5 Erit Eee ee e e EE Yo 88 Digital alarm with setpoint delay e nn nn Leon 88 Standard alarms 5 iod tee ren e Redde educ reine dece dene d ecu 88 Setpoint conditions 2 2 a eatin dex ede Ld dnd 89 Over setpoint een e de eene eie rene nee FFR End yd 89 Under setpolnt iei outer tpi eet ecu i e RE Ree pese e ones 90 Maximum allowable Setpoint ssee m 91 Power factor PE teme Ded eue 91 Leadirig PF tee e ed Usine ertet ns 92 Lagdging PE iir n rre po eT FEN ERES 92 Phase lOSS senu uen UD 92 I ogic alarmis 3 eere tere estet e o Gy nated 92 Custom alarms scssi isitadi esine Entre te rq epe atp APER e potet pana Re at 93 Alarms setup overview ssssseeeene eene eene nnne enne 94 Built irierror checking 2 12 1 EXP ed a d 00 94 Alarm priorities i i e t E ERR Eres 94 ron Aca e 94 Multiple alarm considerations eeeeeen 94 Alarm setup using the meter display sses m 95 Alarm setup using ION Setup essen em eene 95 Setting up unary alarms seseeeen eee eene 95 Setting up digital alarms ssseeee em emm 95 Setting up standard 1 sec alarms s 96 Setting up logic alarms 2 eene nent cheek Ren Edn onn 97 Logic alarm setup error prompts sesee 98 Setting up custom al
71. ain all data and metering configuration values Under the operating temperature range specified for the meter the NVRAM has an anticipated life of 45 years or longer The meter stores its data logs in a memory chip which has a life expectancy of up to 20 years under the operating temperature range specified for the meter Clock battery The internal battery in the meter keeps its clock running and helps maintain the time even when the meter is powered down The life expectancy of the internal battery is estimated to be over 10 years at 25 C under typical operating conditions Firmware version model and serial number Firmware upgrade You can view the meter s firmware version model and serial number from the display panel or through the meter webpages Using the display panel Navigate to Maint gt Diag gt Info See Maintenance on page 66 for details Using the meter webpages Navigate to Diagnostics gt Meter See Diagnostics on page 59 for details To see if there are firmware upgrades available for your meter search your meter at www schneider electric com NOTE For MID compliance the PM5561 meter s firmware upgrade functionality is permanently disabled Reasons for upgrading your meter s firmware include the following Improve meter performance e g optimize processing speed Enhance existing meter features and functions Add new functionality to the meter e Achieve compliance to stricte
72. alues Description Increase or decrease the value to increase or Contrast 1 9 decrease the display contrast Set how long in minutes before the backlight turns off after a period of inactivity Setting this to Backlight Timeout min 099 0 disables the backlight timeout feature i e backlight is always on Set how long in minutes before the screen turns off after a period of inactivity Setting this to 0 Screen Timeout min ud disables the screen timeout feature i e display is always on 7 Press A to exit Press Yes to save your changes Setting up regional settings You can change the regional settings to localize the meter screens and display data in a different language using local standards and conventions NOTE In order to display a different language other than those listed in the Language setup parameter you need to download the appropriate language file to the meter 42 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 3 Front panel display and meter setup using the appropriate firmware upgrade tool such as DLF3000 See Firmware upgrade on page 126 Regional settings menu tree Displ Pass Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to HMI gt Region Move the cursor to point to the parameter you want to modify then click Edit
73. ame Enter the username for accessing the server Password Enter the password for accessing the server HRB1684301 01 55 Chapter 5 Meter webpages PowerLogic PM5500 series user manual 3 Click Apply to send and save the new settings to the meter NOTE You can use the Test HTTP button to test the meter connection to the web server Related topics See Meter logging on page 59 for information on what data the meter records Viewing the meter webpages Monitoring 1 Start a web browser and enter the meter s IP address When prompted enter your username and password The default login is Username user1 Password pass1 Use the menus along the top banner to select and display the meter s various webpages NOTE Click Home to go to the page that is configured as the meter s homepage e g Monitoring gt Basic Readings This menu allows you to navigate to the following webpages Basic Readings Power Ouality Active Alarms Alarm History Inputs Outputs Data Log Setting the measurement range Click Range to set the minimum and maximum ratings limits for current power and voltage L L and L N Select Enable Auto Scale to automatically set the scale on the graphical dial indicators Basic Readings Parameter Description Real time load current per phase la Ib Ic and average I Avg neutral In and Load Current i f residual ground current lg and min
74. and A Active Power C kW THD Current A Active Power Total kW THD Current B Reactive Power A kVAR THD Current C Reactive Power B kVAR THD Current N Reactive Power C kVAR THD Current G Reactive Power Total kVAR thd Current A Apparent Power A kVA thd Current B Apparent Power B kVA thd Current C Apparent Power C kVA thd Current N Apparent Power Total kVA thd Current G Frequency Hz Min Freq Hz Temperature C Max Active Power A kW Max Total Demand Distortion Max Freq HRB1684301 01 93 Chapter 10 Alarms PowerLogic PM5500 series user manual Alarms setup overview Alarm priorities You can use the meter display or ION Setup to configure unary digital or standard 1 Sec alarms To configure logic and custom alarms you must use ION Setup NOTE If you make changes to the basic power meter setup all alarms are disabled to prevent undesired alarm operation NOTICE UNINTENDED EQUIPMENT OPERATION After modifying any basic setup parameter Verify all standard alarms settings are correct and make adjustments as necessary Re enable all configured alarms Failure to follow these instructions can result in incorrect alarm functions Built in error checking ION Setup dynamically checks incorrect setup combinations When you enable an alarm you must set up the pickup and dropout limits to acceptable values first in order to exit the setup screen Each alarm has a p
75. and environmental conditions In addition the following specifications function limitations and specific conditions relevant to MID EN 50470 1 2006 Class C EN 50470 3 2006 Class C Type of measuring equipment Static watt hour meter Applicable MID standards and class index Indoor use only permanently mounted in residential Intended use commercial or light industrial applications where levels of vibration and shock are of low significance HRB1684301 01 141 Chapter 17 MID compliance PowerLogic PM5500 series user manual Safety precautions Installation and wiring Mechanical environment M1 Electromagnetic EMC environment E2 Applicable measurements Active energy metering only kWh or MWh System types for MID compliant applications 3 phase 4 wire Wye grounded 3 phase 3 wire Delta ungrounded 3 phase 4 wire Wye Voltage at voltage grounded 3 x 57 7 100 to 3 x 400 690 V AC EM MR Delta 3 x 100 to 3 x 600 V L L Minimum current 50 mA Rated secondary current 5A Maximum current 10A Electrical network frequency 50 Hz Location Meter front panel Optical pulse output energy pulsing LED Frequency 2 5 kHz maximum Pulse constant 10 000 pulses per kWh Wavelength 590 to 635 nm 1 See MID protected setup parameters on page 144 for additional details Installation wiring testi
76. and power source sssssseeem eene 127 Control equipment sssssssssssssesee ennemis 127 Environment a CE 127 Reference device or energy standard sese 128 Energy pulsirig icri tote Added De ehh Dart qure tn eked Ge Verifying accuracy test Calculating the number of required pulses 130 Calculating total power sseeee eme 130 Percent error calculation essseeeee 130 Test poilits Ie iere ep e I as a Edo 131 Energy pulsing considerations sse em 131 VT and CT considerations sessseeeneen ee 132 Example calculations sss 132 Adjustments to allow energy pulsing at the digital outputs 132 Typical sources of test errors sssssseeem eee 133 Chapter 16 Power energy and power factor ccscescceeceeeseeeeeeeeeeeneeeeeeeesenaeeee ses nnnne nennt nn trennt tnnt nnne 135 Power PQS cui e eet PER E 135 Power and the PQ coordinate system sse 135 Power TlOW 2 2 eterne tette eio ete eit n E 135 Energy delivered energy received ssssss em 136 Power factor PF eterne ety erede dne YNA rere Ede DE FEN 136 True PF and displacement PF sssseeeeeem mee 136 PF lead lag convention sssssseeem em een 136 Current phase shift from voltage ssss Ynn nnd nnnnHu 136 PF sign convent
77. ard and the meter under test Total power is calculated as follows For a balanced 3 phase Wye system 1 kW 1000 W Ptot 3xVLN xIx PF x NOTE A balanced 3 phase system assumes the voltage current and power factor values are the same for all phases For a single phase system 1kW 1000 W Ptot VLN xI x PF x Where e Ptot total instantaneous power in kilowatts kW e VLN test point line to neutral voltage in volts V test point current in amps A PF power factor The result of the calculation is rounded up to the nearest integer Percent error calculation For every test point EM ES Energy Error x 100 130 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 15 Verifying accuracy Test points Where e EM energy measured by the meter under test ES energy measured by the reference device or energy standard NOTE If accuracy verification reveals inaccuracies in your meter they may be caused by typical sources of test errors If there are no sources of test errors present please contact your local Schneider Electric representative Related topics See Typical sources of test errors on page 133 for possible causes of test errors See Power energy and power factor on page 135 for information on how the meter calculates power factor The meter should be tested at full and light loads and at lagging inductive power factors to help
78. arms sse eene 98 LED alarm indicator i e ie 5 een nui LLYWELYN TL Fod dT FFF eee ies Eee 99 Configuring the LED for alarms using the meter display 99 Configuring the LED for alarms using ION Setup 100 Using alarms for external control ese 100 DACIHEJer a EE 100 Alarm display and notification sse 100 Ano E 100 Alarm energy LED use scii ere ese ES MALL YW se 100 Alarm details rere eter RED Errat ee Sic dene var tesserae 100 Active alarmmiS creed ERR TD ddn ERR Ran 101 Viewing active alarm details ssssssssseeeee 101 Alarm history i e uii irc ees hii eet ee e eee 101 Viewing alarm history details see 101 Alarm Counter sac E 101 Rollover value dti Ga dud YL dd de ii ddd tees 101 Acknowledging alarms 00 eee ceeeeee Yn YY YL LY LL YALE Y LL emen 101 Active alarms list and alarm history log c ccceeseeceeeeeeeeeeeeaeeeeeeeeeaees 102 Alarm memory USAGE eii i inen ete ined za reed ine Ee escas ede red dens 102 Resetting alarms eet e tn t eae 102 Chapter 11 Multi tariff feature 5 uu oud de ed educi doas dee dec eec co contr ed Or cea ve Tv Roa tea ei Ad 103 HRB1684301 01 PowerLogic PM5500 series user manual Multi tariff feature example sse 103 Multi tariff feature overview
79. ase 4 wire open Delta center tapped 240 V L N 240 VL N p 415 V L N 415 V L N 3VT 480 V L L 480 V L L 3PH4W Opn Dit Ctr Tp 3 phase 4 wire Delta center tapped 240 V LN AVEN 415 VL N 415 V L N 3VT 3PH4W Dit Ctr Tp 480 V L L 480 V L L N HRB1684301 01 21 Chapter 2 Hardware reference PowerLogic PM5500 series user manual Power system setup parameters Continued Power system description Direct connect maximum of VTs T Symbol if required Meter setting UL IEC 3 phase 4 wire ungrounded Wye 347 V L N 347 V L N N 600 V L L 600 V L L Sore V 3PH4W Wye Ungnd 3 phase 4 wire grounded Wye 347 V L N 400 V L N m N 600 V L L gaa via SVTor2VT 3PH4W Wye Gnd 1 3 phase 4 wire resistance grounded Wye 347 V L N 347 V L N N 600VL L B o viu SYTOFEVT 3PH4W Wye Res Gnd Voltage and current input wiring For wiring instructions and safety precautions see the meter installation sheet that was shipped with your meter or download a copy at www schneider electric com Voltage input protection The meter s voltage inputs must be wired to fuses breakers and a disconnect switch If using a voltage transformer VT both primary and secondary sides of the VT must be wired to fuses breakers and disconnect switches Clearly label the device s disconnect circuit mechanism and install it within easy reach of the operator The
80. ast 30 seconds This helps stabilize the internal circuitry of the meter 5 Set the meter s power system to 3PH4W Wye Gnd 3 phase 4 wire Wye with ground HRB1684301 01 129 Chapter 15 Verifying accuracy PowerLogic PM5500 series user manual 6 Depending on the method selected for counting the energy pulses configure the meter s alarm energy LED or one of the digital outputs to perform energy pulsing Set the meter s energy pulse constant so it is in sync with the reference test equipment 7 Perform accuracy verification on the test points Run each test point for at least 30 seconds to allow the test bench equipment to read an adequate number of pulses Allow 10 seconds of dwell time between test points Calculating the number of required pulses The reference test equipment typically requires you to specify the number of pulses required for a test duration of t seconds Normally the number of pulses required is at least 25 pulses and the test duration is greater than 30 seconds Use the following formula to calculate the required number of pulses t Number of pulses Ptot x K x 3600 Where Ptot total instantaneous power in kilowatts KW K the meters pulse constant setting in pulses per kWh e t test duration in seconds typically greater than 30 seconds Calculating total power The test voltage and current source supplies the same test signals to both the energy reference stand
81. ay the following harmonics data is available Numeric magnitude and angle of the fundamental first harmonic Graphical display of the 3rd to 31st harmonics expressed as a percentage of the fundamental harmonic Viewing harmonics using the front panel You can view harmonics data using the front panel 1 Navigate to Harm The Harmonics screen displays with the following menu options Harmonics display screens IEEE mode IEC mode Description VL L U Line to line voltage harmonics data V L N V Line to neutral voltage harmonics data Amps Current harmonics data TDD K TDD K Total demand distortion and K factor data Crest Crest Crest factor data Press the voltage or current harmonics you want to view The fundamental 1st harmonic s numeric magnitudes and angles for all phases are displayed Press 3 11 13 21 or 23 31 to view the graphs for the 3rd to 11th 13th to 21st or 23rd to 31st harmonics respectively For example to display the 13th to 21st harmonics screen press 13 21 Example 13th to 21st harmonics for line to neutral voltage Phase A Phase B Phase C 13 15 17 19 21 a 13 2123 31 p The vertical axis of the harmonics graph indicates the harmonic s magnitude as a percentage of the fundamental harmonic and is scaled based on the largest harmonic displayed At the top of each vertical bar is a marker that shows the maximum value of the harmonic
82. be configured using the front panel or ION Setup Related topics See Input Output on page 71 for a comprehensive description and setup instructions See Specifications on page 28 for electrical characteristics and limits of the meter s I O ports HRB1684301 01 41 Chapter 3 Front panel display and meter setup PowerLogic PM5500 series user manual HMI settings The HMI human machine interface setup screens allow you to control the general appearance and behavior of the display screens change the regional settings or change the meter passwords Related topics Toconfigure the front panel display using ION Setup see the PM5500 series topic in the ION Setup online help or in the ON Setup device configuration guide available for download at www schneider electric com Setting up the display You can change the display screen s contrast or the screen backlight and timeout settings Display setup menu tree Region Pass Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to HMI gt Disp Move the cursor to point to the parameter you want to modify then press Edit Modify the parameter as required then press OK oa F WN Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK Display setup parameters Parameter V
83. bles test harness and the meter under test Meter ambient temperature is significantly different than 23 C 73 F Floating ungrounded neutral voltage terminal in any configuration with unbalanced phase voltages Inadequate meter control power resulting in the meter resetting during the test procedure Ambient light interference or sensitivity issues with the optical sensor Unstable power source causing energy pulsing fluctuations Incorrect test setup not all phases connected to the reference device or the energy standard All phases connected to the meter under test should also be connected to the reference meter standard Moisture condensing humidity debris or pollution present in the meter under test HRB1684301 01 133 Chapter 15 Verifying accuracy PowerLogic PM5500 series user manual 134 HRB1684301 01 Chapter 16 Power PQS Power energy and power factor This section describes how the meter interprets and calculates power and power factor A typical AC electrical system load has both resistive and reactive inductive or capacitive components Resistive loads consume real power P and reactive loads consume reactive power Q Apparent power S is the vector sum of real power P and reactive power Q S yP Q Real power is measured in watts W or kW reactive power is measured in vars VAR or KVAR and apparent power is measured in volt amps VA or kVA Power and the
84. cated in parentheses Unary 4 Digital 4 Standard 29 Logic 10 Custom 5 Unary alarms A unary alarm is the simplest type of alarm it monitors a single behavior event or condition Unary alarms Alarm label Description Meter Power Up Meter powers on after losing control power Meter Reset Meter resets for any reason Meter Diagnostic Meter s self diagnostic feature detects a problem Phase Reversal Meter detects a phase rotation different than expected HRB1684301 01 87 Chapter 10 Alarms PowerLogic PM5500 series user manual Digital alarms Digital alarms monitor the ON or OFF state of the meter s digital inputs S1 to S4 Digital alarms Alarm label Description Digital Alarm S1 Digital input 1 Digital Alarm S2 Digital input 2 Digital Alarm S3 Digital input 3 Digital Alarm S4 Digital input 4 Digital alarm with setpoint delay To prevent false triggers from erratic signals you can set up a time delay for the digital alarm Adding setpoint delays to a digital alarm EV1 EV2 A Pickup setpoint 1 ON AT2 Dropout time delay in seconds B Dropout setpoint 0 OFF EV2 End of alarm condition AT1 Pickup time delay in seconds AT3 Alarm duration in seconds EV1 Start of alarm condition NOTE To prevent filling the alarm log with nuisance alarm trips the digital alarm is automa
85. ck interval demand method types you specify a period of time interval or block that the power meter uses for the demand calculation Select configure how the power meter handles that interval from one of these different methods Timed Sliding Block Select an interval from 1 to 60 minutes in 1 minute increments If the interval is between 1 and 15 minutes the demand calculation updates every 15 seconds If the interval is between 16 and 60 minutes the demand calculation updates every 60 seconds The power meter displays the demand value for the last completed interval Timed Block Select an interval from 1 to 60 minutes in 1 minute increments The power meter calculates and updates the demand at the end of each interval Timed Rolling Block Select an interval and a subinterval The subinterval must divide evenly into the interval for example three 5 minute subintervals for a 15 minute interval Demand is updated at the end of each subinterval The power meter displays the demand value for the last completed interval HRB1684301 01 111 Chapter 12 Measurements and calculations PowerLogic PM5500 series user manual Synchronized demand 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 lt Demand value is the every 15 seconds average for the last
86. counters Logic Alarm 1 Logic Alarm 2 Logic Alarm 3 Logic Alarm 4 Logic Alarm 5 Logic Logic Alarm 6 Logic Alarm 7 Logic Alarm 8 Logic Alarm 9 Logic Alarm 10 Select which alarm counter register to reset from the logic alarm condition counters HRB1684301 01 85 Chapter 9 Meter resets PowerLogic PM5500 series user manual 86 HRB1684301 01 Chapter 10 Alarms This section describes the meter s alarms feature An alarm is the meter s means of notifying you when an alarm condition is detected such as an error or an event that falls outside of normal operating conditions A WARNING UNINTENDED OPERATION Do not use this device for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow this instruction can result in death or serious injury Alarm overview When an alarm is tripped the meter records the alarm event and the alarm indicator appears on the meter display if it is a low medium or high priority alarm The alarm can also be used to trigger another event such as controlling a digital output NOTE If configured for alarms the alarm energy pulsing LED flashes when the alarm is tripped See LED alarm indicator on page 99 to set up the LED for alarms Alarm types The meter supports these types of alarms total available indi
87. covers help prevent tampering with the meter s voltage and current measurement inputs The terminal covers enclose the terminals the conductor fixing screws and a suitable length of the external conductors and their insulation The terminal covers are secured by tamper resistant meter seals The meter terminal covers must be installed by a qualified installer The installation of both the voltage and current terminal covers is required to provide tamper evidence for MID installations Location of terminal covers Voltage terminal cover Voltage terminal sealing point Current terminal cover ojojoj gt Current terminal sealing points 2 1 Install the voltage terminal cover A and apply the seal at the sealing point B 2 Install the current terminal cover C and apply the seals at the sealing points D PM5561 default screen The meter s default home screen displays the following information Default PM5561 display screen Accumulated real energy delivered received System frequency Active tariff Power system setting mlo o u gt Locked unlocked icon Related topics See Front panel display and meter setup on page 31 for detailed information on front panel menu navigation LED indicators and display screen notification icons HRB1684301 01 143 Chapter 17 MID compliance PowerLogic PM5500 series user manual
88. cquistion Address setup register Mode Default Use 85 16 as the first two values of the IP address then convert the last two hexadecimal values of IP Parameters the MAC address to decimal and use this as the last two values of the IP address Example MAC address 00 80 67 82 B8 C8 Default IP 85 16 184 200 IP Address The internet protocol address of your device The Ethernet IP subnetwork address of your network subnet Mask subnet mask Default Gateway The Ethernet IP gatway address of your network 1 FQDN fully qualified device name is not supported The device name is not automatically sent to a DNS server when a DHCP request is sent In order to use device name instead of IP address your IT administrator must manually add the device name to the DNS Press Apply to send and save the new settings to the meter Disconnect the meter from the computer Final Ethernet configuration steps 1 4 Re establish the the computer s connection to your LAN plug the computer s Ethernet cable back to your LAN connection or re enable wireless communications to the LAN Connect the meter s Ethernet port to your LAN Open a web browser and enter the meter s IP address in the address box Log in to the meter webpages Configuring Ethernet settings using the front panel See Setting up Ethernet communications on page 40 for details on using the front panel to configure the Ethernet port 54
89. culated from the metering inputs Lock protected setup parameters This section lists the meter s lock protected setup parameters for MID compliance After the meter is locked these setup parameters are protected and cannot be edited The setup parameters can be accessed from the maintenance menu screen Use the front panel buttons to navigate to the Maint gt Setup menu 144 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 17 MID compliance Lock protected setup parameters Setup menu Setup submenu Lock protected setup parameter Power System VT Connect VT Primary V and VT Secondary v CTon Terminal Basic CT Primary A CT Secondary A CT Primary Neu A and CT Sec Neu A Sys Frequency Phase Rotation Meter Advanced Label Tariff Mode HMI User Passwords Energy Resets Clock Date 1 f using VTs i e if VT Connect is set to 3VT or 2VT 2 For 3PH4W Wye Gnd systems that measure 14 current i e if CT on Terminal is set to 11 12 I3 IN Lock protected functions This section lists the meter s lock protected functions for MID compliance After the meter is locked these functions are disabled These functions can be accessed from the maintenance menu screen Use the front panel buttons to navigate to the Maint gt Reset menu Lock protected functions Menu Submenu Lock protected function Global Resets Meter Initialization all
90. d trademarks of Schneider Electric in France the USA and other countries Other 35 rue Joseph Monier trademarks used are the property of their respective owners CS 30323 HRB1684301 01 12 2013 F 92506 Rueil Malmaison Cedex www schneider electric com 2013 Schneider Electric All Rights Reserved Schneider Electric
91. d BOOTP hexadecimal values of the MAC address to decimal and use this as the last two values of the IP address Example MAC address 00 80 67 82 B8 C8 Default IP 85 16 184 200 DHCP Dynamic Host Configuration Protocol BOOTP Bootstrap Protocol IP Address The internet protocol address of your device Contact your local network administrator for parameter values The Ethernet IP subnetwork address of your Subnet network subnet mask Gateway The Ethernet IP gateway address of your network Controls whether your device s webserver and HTTP Server webpages are active or not Enabled Disabled This is the meter s device name and is factory set to PM55 xxx where xxx is the serial number of the meter This can be used as a DNS entry that maps the device name to the IP address assigned by the DHCP server Device Name see description 7 Press A to exit Press Yes to save your changes Related topics See Configuring Ethernet settings using a browser on page 56 to set up the Ethernet port using the meter webpages An alarm is the meter s means of notifying you when an alarm condition is detected such as an error or an event that falls outside of normal operating conditions Related topics See Alarms on page 89 for a comprehensive description and detailed setup instructions The meter s input output I O ports extend the capabilities of the meter The I O ports can
92. data ssssssusss 119 Viewing THD thd using the front panel sseeem 120 Chapter 14 Maintenance and upgrades sisssessseieseseeseeeen nennen nnnm ELLY nen nitet nennen nanna 121 Maintenance cree rrer e eae YT Tea e Fo perde ee YM YN YNN CY dt 121 Wrench icon 0 0 ce E EE EE A A ET 121 Troubleshooting LED indicators cccccceceeeeeeeceeeeeeeeeeeeeeeeetenneneeees 121 Meterimemory 42x 1 wy E EE A A 122 Clock battery r eere dore N ecce 122 Firmware version model and serial number eeeue ui LL 122 Firmware upgrade 2 0i eerte oan rei bee desee eased eatin fetes 122 Using DLF300 to upgrade firmware e 123 Upgrading the Ethernet card ssses emm 124 Technical assistance u ninasid nnne nennen nnn nina nne 125 Diagnostics Screen oeste Spe Ub eode Eo De d I Oe evi ede ss 125 Info Meter and Cl PWF aer errorae Tea erano edesvacevaseacebienvenes 125 PhaSOI S idein co porro Fedd cos P a ko needa NUN YY Esa For de dva agere Ddod 125 HRB1684301 01 7 PowerLogic PM5500 series user manual Maintenance log idi er i edie vee eben ete 126 Chapter 15 Verifying accuracy esses eene enne saseeeeeeseeseseeeesaseaeeseseaeenseeesaseenseneenensneenenes 127 Testing OVervieW lun eee o aie a idl A FF e Xe et etes 127 Accuracy test requirements ssssssssssseseeeeeeenee nnns 127 Signal
93. digital input is either associated with a digital input alarm or it is not associated with another meter function The meter counts and records the number of incoming pulses normally Demand Sync the digital input is associated with one of the input sync demand functions The meter uses the incoming pulse to synchronize its demand period with the external source Input Metering the digital input is associated with one of the input metering channels The meter counts and records the number of incoming pulses and related consumption data associated with the pulses Multi Tariff the digital input is associated with the multi tariff function See Input mode overview on page 105 Debounce 0 to 1000 Debounce is the time delay that compensates for mechanical contact bounce Use this field to set how long in milliseconds the external signal must remain in a certain state to be considered a valid state change Allowable values are increments of 10 i e 10 20 30 etc up to 1000 ms Associations This field displays additional information if the digital input is already associated with another meter function Configuring digital inputs using the front panel You can use the front panel to configure the digital inputs Digital input setup menu tree LED BEN Dou inp we a RON Navigate to I O gt D In Navigate to Maint gt Setup
94. download the Modbus map 120 HRB1684301 01 Chapter 14 Maintenance Wrench icon Maintenance and upgrades This section describes maintenance information and upgrade procedures for the meter A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Do not attempt to service the meter CT and PT inputs may contain hazardous currents and voltages Do not perform a dielectric hi pot or Megger test on the meter High voltage testing of the meter may damage it Before performing hi pot or Megger testing on any equipment in which the meter is installed disconnect all input and output wires to the meter Failure to follow these instructions will result in death or serious injury The meter does not contain any user serviceable parts There are no moving parts inside the meter that require cleaning Donotopen the meter Opening the meter will void the warranty Only manufacturer authorized service personnel should service the meter Contact your local sales representative or Technical Support if the meter requires servicing The wrench icon appears on the top corner of the display screen to alert you of an overvoltage condition or a potential hardware or firmware problem in the meter that requires attention It could also indicate that the energy LED is in an overrun state Navigate to Maint gt Diag gt Meter to view details of the meter status Make note of the information shown on the scree
95. e RS 485 port setup on page 50 for instructions on configuring the RS 485 port using ION Setup Setting up Ethernet communications The Ethernet setup screen allows you to assign the meter a unique IP address so you can use software to access the meter s data or configure the meter remotely through the Ethernet port Before configuring the Ethernet parameters make sure you obtain your meter s IP address information from your network administrator or IT department Ethernet communications setup menu tree Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to Comm gt Enet Move the cursor to point to the parameter you want to modify then press Edit Modify the parameter as required then press OK oa fF ON o gt Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK 40 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 3 Front panel display and meter setup Alarms setup Input output setup Ethernet port settings Parameter Values Description This controls the network protocol for your device what the meter uses to obtain its IP address Stored Use the static value programmed in the IP Address setup register Default Use 85 16 as the first two values of the Stored Default DHCP IP address then convert the last two IP Metho
96. e Conducted immunity 150kHz to 80MHz Immunity to magnetic fields Immunity to voltage dips Immunity to damped oscillatory waves Radiated emissions Conducted emissions Safety IEC 61000 3 2 IEC 61000 3 3 IEC 61000 4 2 IEC 61000 4 3 IEC 61000 4 4 IEC 61000 4 5 IEC 61000 4 6 IEC 61000 4 8 IEC 61000 4 11 IEC 61000 4 12 FCC part 15 EN55022 Class B FCC part 15 EN55022 Class B Europe LVD compliance EN61010 1 2010 U S and Canada cULus UL61010 1 2012 CSA22 2 No 61010 1 12 Protective class Protective class ll Double insulated for user accessible parts RS 485 communications Number of ports 1 Maximum cable length 1219 m 4000 ft Unit loads Up to 32 devices on the same bus Pari Even Odd None 1 stop bit for Odd or Even parity 2 stop arity 3 bits for None Baud rate 9600 19200 38400 baud Protocol Modbus RTU Modbus ASCII 7 or 8 bit JBUS Firmware and language file update Update via the communication port using DLF3000 Isolation 2 5 kV RMS double insulated HRB1684301 01 29 Chapter 2 Hardware reference PowerLogic PM5500 series user manual Ethernet communications Number of ports 2 same MAC address the second Ethernet jack functions as an Ethernet switch for daisy chaining devices Maximum cable length 100 m 328 ft per TIA EIA 568 5 A Mode 10Base T 100Base TX Auto MDIX Prot
97. e alarm history log and alarm notification alarm icon alarm LED is turned off Viewing alarm history details 1 Navigate to Alarm gt Hist 2 Select the alarm you want to view the latest ones appear on top Press Detail NOTE For unacknowledged high priority alarms the Ack option appears on this screen Press Ack to acknowledge the alarm or return to the previous screen if you do not want to acknowledge the alarm The alarm details show the date and time of the alarm event the type of event e g dropout or unary which phase the alarm condition was detected on and the value that caused the alarm condition to turn ON or OFF NOTE Alarm details are not available if the alarm priority is set to None Every occurrence of each type of alarm is counted and recorded in the meter To view the alarm counters 1 Select Alarm gt Count The Alarms Counter screen displays 2 Scroll through the list to view the number of alarm occurrences for each type of alarm Rollover value The alarm counters roll over to zero after reaching the value 9999 This applies to high priority alarms You can use the meter display or software to acknowledge alarms HRB1684301 01 101 Chapter 10 Alarms PowerLogic PM5500 series user manual To acknowledge alarms using the meter display 1 Navigate to Alarm gt Unack 2 Select the alarm you want to acknowledge Press Detail 3 Press Ack to acknowledge the alarm 4
98. e ede Spree qud ceto 146 Passwords setup menu ssssssseeeeeeee eem ener enne 146 Initializing the meter cone cetelachesccnasesscbeuh ade LL YRU End Sgod NAY LIB cate screeaneets 146 Locking or unlocking the meter ssssse mem 146 HRB1684301 01 Safety information Important information gt N Read these instructions carefully and look at the eguipment to become familiar with the device before trying to install operate service or maintain it The following special messages may appear throughout this manual or on the eguipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure The addition of either symbol to a Danger or Warning safety label indicates that an electrical hazard exists which will result in personal injury if the instructions are not followed This is the safety alert symbol It is used to alert you to potential personal injury hazards Obey all safety messages that follow this symbol to avoid possible injury or death A DANGER DANGER indicates an imminently hazardous situation which if not avoided will result in death or serious injury A WARNING WARNING indicates a potentially hazardous situation which if not avoided can result in death or serious injury A CAUTION CAUTION indicates a potentially hazardous situation which if not avoided can result in minor or moderate injury
99. e incoming pulse to synchronize its demand Metering Multi Tariff period with the external source Input Metering the digital input is associated with one of the input metering channels The meter counts and records the number of incoming pulses and related consumption data associated with the pulses Multi Tariff the digital input is associated with the multi tariff function See Input mode overview on page 105 Control Mode 7 Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK 8 Press A to exit Press Yes to save your changes Related topics See Synchronized demand on page 112 for information on using an external source to synchronize meter demand periods See Input metering setup on page 73 for details on associating a digital input for input metering applications Your meter s digital inputs can be used to count pulses from transducers and convert the pulses to energy measurements Your meter s input metering channels count pulses received from the digital inputs assigned to that channel The incoming pulses are used in calculating and measuring consumption data e g BTU kWh L kg Each channel must have the following values configured to match the pulse data Pulse Weight the pulses per unit value Unit Code the unit of measure associated with the monitored value Demand Code for time based values such as kWh
100. e number of digital inputs that can be selected i e inputs that can be associated with multi tariff To configure input mode tariffs using the front panel 1 Navigate to Maint gt Setup 2 Enter the setup password default is O then press OK 3 Navigate to Meter gt Tariff 4 With the cursor pointing to Mode press Edit 5 Press or to change the setting to Input then press OK NOTE If a digital input association error prompt displays you must exit from the tariff setup screens and remove the digital input association 6 Navigate to Tariffs then press Edit 7 Press or to change the number of tariffs you want to set up The maximum number of tariffs that you can apply is determined by the number of available digital inputs as described in the table Digital input requirements for required number of tariffs on page 105 Press OK 8 Navigate to Inputs then press Edit 9 If applicable press or to change how many digital inputs you want to use to control which tariff is selected active Press OK 10 Press A to exit then Yes to save your changes Related topics To configure the tariffs using ION Setup see the PM5500 series topic in the ION Setup online help or in the ION Setup device configuration guide available for download at www schneider electric com HRB1684301 01 107 Chapter 11 Multi tariff feature PowerLogic PM5500 series user manual 108 HRB16
101. e your meter s Modbus register list at www schneider electric com for the Modbus mapping information and basic instructions on command interface 68 HRB1684301 01 Chapter 8 Input Output This section describes the meter s I O input output features The meter is eguipped with four 4 digital input ports S1 to S4 and two 2 Form A digital output ports D1 and D2 After you wire the meter s digital I O ports you can configure these ports so you can use the meter to perform I O functions Digital input applications Digital inputs are typically used for monitoring the status of external contacts or circuit breakers They can also be used for pulse counting or input metering applications such as WAGES water air gas electricity steam monitoring The meter s digital inputs require an external voltage source to detect the digital input s on off state The meter detects an on state if the external voltage appearing at the digital input is within its operating range DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Apply appropriate personal protective equipment PPE and follow safe electrical work practices See NFPA 70E in the USA or applicable local standards Turn off all power supplying this device before working on it Always use a properly rated voltage sensing device to confirm that all power is off Do not exceed the device s ratings for maximum limits Do not use th
102. ed and peak maximum demand and a date timestamp when the peak demand occurred Peak demand registers can be reset manually password protected or logged and reset automatically on a programmed schedule Demand measurements include kW KVAR kVA demand total and per phase Amps demand average per phase and neutral 4th CT Demand calculation for pulse input metering WAGES The meter provides highly accurate 1 second measurements including true RMS per phase and total for e 3 phase voltage line to line line to neutral 3 phase current neutral and ground current e Active KW reactive KVAR and apparent kVA power True PF power factor Displacement PF System frequency Voltage line to line line to neutral and current unbalance The meter provides complete harmonic distortion metering recording and real time reporting up to the 63rd harmonic for all voltage and current inputs Individual harmonics odd harmonics up to 63rd Total harmonic distortion THD thd for current and voltage line to line line to neutral Total demand distortion TDD e K factor Crest factor Neutral current metering and ground current calculation 12 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 1 Introduction Data recording The meter records the following e Each new minimum and new maximum value with date and timestamp for all instantaneous values and for each phase A
103. ed meter data read the contents of the meter registers and view real time meter data See Meter webpages on page 55 Using ION Setup to view or modify configuration data You can use ION Setup to view or modify the meter setup parameters See Meter configuration using ION Setup on page 53 Using software to view meter data There are different software systems and methods you can use to access or display the meter data This can range from using a simple Modbus register interface to read stored values in the meter s registers to viewing intelligent information from the meter through an energy management system Power Monitoring Expert StruxureWare Power Monitoring Expert is a complete supervisory software package for power management applications The software collects and organizes data gathered from your facility s electrical network and presents it as meaningful actionable information via an intuitive web interface See the Power Monitoring Expert online help for instructions on how to add your meter to the system Power Monitoring Expert communicates with devices on the network to provide Real time monitoring through a multi user web portal Trend graphing and aggregation Power quality analysis and compliance monitoring Preconfigured and custom reporting HRB1684301 01 67 Chapter 7 Viewing meter data PowerLogic PM5500 series user manual PowerSCADA Expert Related topics See the StruxureWare
104. ee of protection i i IEC 60529 Connectors IP20 with terminal covers installed IP10 DIN rail mount model without terminal covers PM5563 Mounting position 35 mm DIN rail Amber LED active alarm indicator energy pulsing LED indicators top Yt D Green LED heartbeat communications activity Electrical Electrical characteristics True RMS up to the 63rd harmonic on three phase 3P Type of measurement 3P N 128 samples per cycle zero blind IEC 61557 12 PMD SD SS K70 0 2 Active energy Mh Class 0 2S as per IEC 62053 22 Reactive ener 2h 9y Class 2 as per IEC 62053 23 Measurement Active power 0 2 as per IEC 61557 12 accuracy Reactive power 1 as per IEC 61557 12 Apparent power 0 5 as per IEC 61557 12 Current 5 A nominal per 0 15 phase Voltage L N 0 1 Frequency 0 05 HRB1684301 01 27 Chapter 2 Hardware reference PowerLogic PM5500 series user manual Electrical characteristics Continued Voltage unbalance 2 0 Power quality Voltage harmonics 2 0 accuracy as per Voltage THD 2 0 IEG 619912 Current harmonics 2 0 Current THD 2 0 VT primary 1 0 MV AC max Voltage inputs Measured voltage 20 to 400 V L N 20 to 690 V L L Wye or 20 to 600 V L L Delta UL Listed up to 347 V L N 600 V L L Measurement category CAT III 6 kV rated impulse voltage Current inputs
105. el HRB1684301 01 51 Chapter 4 Remote meter setup PowerLogic PM5500 series user manual 52 HRB1684301 01 Chapter 5 Meter webpages This section describes the meter s webpages The meter s Ethernet connection allows you to access the meter so you can view data and perform some basic configuration and data export tasks using a web browser Accessing the meter webpages Webpage UI overview Webpages setup Open a web browser and enter the meter s IP address in the address box When prompted enter your username and password NOTE The webpages are accessed through the meter s Ethernet port so it must be configured properly See Configuring Ethernet settings using a browser on page 54 for instructions on changing the factory default Ethernet settings The meter webpages contain typical elements as shown below Company logo Meter brand and model Home Lo 3go jut Menu commands Basic Readings E Greta C Power Voltage LL Ia Vaega 100 _ af FTN Fd rq 120 4 Van V 120 4 Vbn V IL Parameter Minimum Present Load Current A la 0 045 0 056 0 065 Ib 0 045 0 056 0 065 lc 0 045 0 056 0 065 Avg 0 045 0 056 0 065 In 0 136 0 167 0194 Ig baad iv Power a Firmware version Company and copyright statement User name You can configure the Ethernet port user names and passwords and device log exports through t
106. el menu navigation LED indicators and display screen notification icons See Remote meter setup on page 47 for information on communications port setup using the meter webpages and meter configuration using ION Setup See Alarms on page 87 for information on alarm indicators and the alarm notification icon See Maintenance and upgrades on page 121 for information on the wrench maintenance icon and troubleshooting abnormal LED behavior Meter data display screens The screen menu items are listed below The titles listed are for the HMI mode in IEEE with the corresponding titles in IEC mode in square brackets Related topics See Setting up regional settings on page 44 for details on changing the HMI mode HRB1684301 01 61 Chapter 7 Viewing meter data PowerLogic PM5500 series user manual Current lavg la Ib Ic In lg Amps I Phase Instantaneous current measurements for each phase and neutral Ia 11 Ib 12 Ic I3 In Dmd Summary of peak current demand values at the last demand interval for each phase and neutral la 11 Ib I2 Ic I3 In Real time demand Pres peak demand Peak and predicted lavg la 11 Ib I2 Ic I3 In Ig demand Pred for the present interval Average demand for the previous Last interval Pk DT Date and timesta
107. elect Dmd System 0 to 9999 Power Current Input Metering This setting defines the pulse width ON time in seconds Applies when Control Mode is set to Demand Sync Select the demand system to monitor HRB1684301 01 77 Chapter 8 Input Output PowerLogic PM5500 series user manual Digital output setup parameters available through ION Setup Continued Parameter Values Description Select Alarms Over Current Ph Under Current Ph Over Current N Over Current Gnd Over Voltage L L Under Voltage L L Over Voltage L N Under Voltage L N Over kW Over kVAR Over kVA Lead PF True Lag PF True Lead PF Disp Lag PF Disp Over kW Dmd Pres Over kW Dmd Last Over kW Dmd Pred Over kVAR Dmd Pres Over kVAR Dmd Last Over kVAR Dmd Pred Over kVA Dmd Pres Over kVA Dmd Last Over kVA Dmd Pred Over Frequency Under Frequency Over Voltage Unbal Over Voltage THD Phase Loss Meter Powerup Meter Reset Meter Diagnostic Phase Reversal Digital Alarm S1 through S4 Custom Alarm 1 through 5 Logic Alarm 1 through 10 Applies when Control Mode is set to Alarm Select one or more alarms to monitor Associations This field displays additional information if the digital output is already associated with another meter function Configuring digital outputs using the front panel You can use the front panel to configure the digital outputs
108. en 1 to 0 Power factor minimum and maximum Negative PF values 0 Positive PF values Minimum PF Maximum PF Power factor sign convention You can set the power factor sign PF sign convention by changing the HMI mode to either IEC or IEEE Power factor sign convention Reactive Reactive Power In Power In L Quadrant T 2 vars positive power factor Reverse Power Flow vars negative watts negative watts negative watts positive G vars positive power factor Normal Power Flow Real Power In watts positive vars negative watts vars positive Ai power factor Reverse Power Flow watts negative vars negative oL 1 watts positive vars positive power factor Normal watts positive vars negative Power Flow Real power factor power factor power factor power factor Curad Ouadrant L Quadrant Quadrant L 4 T 3 4 T IEC mode IEEE mode IEC mode In IEC mode the PF sign follows the direction of power flow PF sign is positive for positive normal power flow PF sign is negative for negative reverse power flow 110 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 12 Measurements and calculations Power demand IEEE mode In IEEE mode the PF sign is determined by the ty
109. energy LED or one of the digital outputs for energy pulsing The meter is equipped with an alarm energy pulsing LED When configured for energy pulsing the LED emits pulses that are then used to determine the accuracy of the meter s energy measurements Location of energy pulsing LED PM5560 PM5561 PM5563 A Alarm energy pulsing LED OOOO amp NOTE The alarm energy pulsing LED on the PM5561 is permanently set for energy pulsing and cannot be disabled or used for alarms The meter is equipped with digital outputs When you configure a digital output for energy pulsing the meter sends voltage pulses to the digital output port which are then used to determine the accuracy of the meter s energy measurements Related topics See Energy pulsing on page 80 for configuration instructions using the front panel or ION Setup 128 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 15 Verifying accuracy Verifying accuracy test The following are guidelines for testing the meter your meter shop may have specific testing methods A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Apply appropriate personal protective equipment PPE and follow safe electrical work practices See NFPA 70E in the USA or applicable local standards Turn off all power supplying this device before working on it Always use a properly rated voltage sensing device to confirm
110. energy consumed This is typically used to verify the power meter s accuracy Related topics See Energy pulsing on page 81 for details on changing the LED mode for energy pulsing applications See LED alarm indicator on page 101 for details on changing the LED mode for alarming applications To alert you about meter state or events notification icons appear at the top left or top right corner of the display screen Notification icons Icon Description ce The wrench icon indicates that the power meter is in an overvoltage condition or requires maintenance It could also indicate that the energy LED is in an overrun state See Maintenance and upgrades on page 121 The alarm icon indicates an alarm condition has occurred See Alarm display and notification on page 102 and Alarm priorities on page 96 32 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 3 Front panel display and meter setup Meter screen menus Menu tree All meter screens are grouped logically according to their function You can access any available meter screen by first selecting the Level 1 top level screen that contains it Level 1 screen menus IEEE display mode Amps j Volts_ gt Harm gt Power b Energy J gt PF p Hz P THD H Unbal MnMx Alarm yo Timer Maint Clock H Level 1 screen menus IEC display m
111. energy until you send another Modbus command that sets a different tariff Related topics Search your meter s Modbus register list at www schneider electric com to download the Modbus map You can use this mode to create a tariff schedule that specifies where the meter stores energy or input metered data based on the time of year month day the type of day every day weekend weekday or a specific day of the week or time of day The data collected from the different tariffs can then be used in energy audits or similar costing and budget planning purposes Tariff validity A valid tariff has certain conditions and limitations Each tariff must cover a unique time period tariffs cannot overlap but there can be periods with no tariff Any number of tariffs from none to the maximum number of tariffs can be applied Time of day tariffs do not adjust for daylight savings time Time of day tariffs include February 29th in leap years however it is not recommended to have February 29th as a start or end date as that tariff would be invalid for non leap years Except for leap years tariff dates are not year specific if you wanted to create a tariff that starts on the first Monday in August you need to enter the date for that year then manually update the tariff information for the subseguent years e DST daylight savings time is not supported by the meter Tariff creation method Your device performs validati
112. energy values in registers that correspond to each of those tariffs An example of when this feature can be used is when a utility has set up tariff schedules with different rates based on what day or time of day energy is consumed The meter supports configuration of up to 8 different tariffs Multi tariff feature example Power Time 3D Tariff energy containers In the above illustration the area under the power curve equals the energy consumed Typically the utility sets tariff schedules so the cost of energy is higher during high demand or high energy consumption times How these tariff energy containers are configured determines how fast these containers fill which correlates to increasing energy costs The price per kWh is lowest at tariff T1 and highest at tariff T2 Multi tariff feature overview The meter supports multiple tariffs to measure and monitor energy usage that can be used in billing or cost applications There are different tariff modes you can use to determine what tariff is applied and when Command mode Time of Day mode and Input mode HRB1684301 01 103 Chapter 11 Multi tariff feature PowerLogic PM5500 series user manual Command mode overview Time of day mode overview You can use this mode to send a Modbus command to the device which sets the active tariff This tariff is applied to the measured
113. ensure testing over the entire range of the meter The test amperage and voltage input rating are labeled on the meter Refer to the installation sheet or data sheet for your meter s nominal current voltage and freguency specifications Watt hour test points example Watt hour test point Sample accuracy verification test point 100 to 200 of the nominal current 100 of the nominal voltage and nominal Full load frequency at unity power factor or one 1 10 of the nominal current 100 of the nominal voltage and nominal frequency Light load at unity power factor or one 1 Inductive load lagging power factor 100 of the nominal current 100 of the nominal voltage and nominal frequency at 0 50 lagging power factor current lagging voltage by 60 phase angle Var hour test point Var hour test points example Sample accuracy verification test point Full load 100 to 200 of the nominal current 100 of the nominal voltage and nominal frequency at zero power factor current lagging voltage by 90 phase angle Light load 10 of the nominal current 100 of the nominal voltage and nominal frequency at zero power factor current lagging voltage by 90 phase angle Inductive load lagging power factor 100 of the nominal current 100 of the nominal voltage and nominal frequency at 0 87 lagging power factor current lagging voltage by 30 phase angle Energy pulsing cons
114. ersion in your email or have it readily available if calling Technical Support Setting the clock The Clock setup screens allow you to set the meter s date and time NOTE You must always set or sync the meter time to UTC GMT Greenwich Mean Time not local time Use the GMT Offset h setup parameter to display the correct local time on the meter 44 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 3 Front panel display and meter setup Clock setup menu tree Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to Clock Move the cursor to point to the parameter you want to modify then press Edit Modify the parameter as required then press OK oa fF ON Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK Clock setup parameters Parameter Display format Description Set the current date using the format displayed Date DD MM YY MM DD YY on screen where DD day MM month and YY MM DD YY year Time HH MM SS 24 hour format Use the 24 hour format to set the current time in HH MM SS AM or PM UTC GMT Select GMT to display the current time in UTC Greenwich Mean Time zone Meter Time GMT Local To display local time set this parameter to Local then use GMT Offset h to display local time in the proper time zone
115. f the IP address Example MAC address 00 80 67 82 B8 C8 Default IP address 85 16 184 200 IP Parameters IP Address The internet protocol address of your device Subnet Mask The Ethernet IP subnetwork address of your network Default Gateway The Ethernet IP gatway address of your network 7 Click Apply to send and save the new settings to the meter 8 Click Logout to exit the meter s webpages After the meter s Ethernet port is configured and connected to the LAN you can Use a web browser to connect to the meter webpages and configure Ethernet settings webpage users and data log export schedules Use ION Setup to configure all other meter setup parameters Related topics e See Setting up Ethernet communications on page 40 for details on using the meter s display panel to configure the Ethernet port Use ION Setup to modify the meter s default RS 485 settings before connecting the meter to the RS 485 bus The meter is factory configured with the following default serial communications settings Protocol Modbus RTU Address 1 Baud rate 19200 Parity Even You can use a communications converter USB to RS 485 or RS 232 to RS 485 or Ethernet gateway device to connect to the meter 48 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 4 Remote meter setup Using a serial communications converter to set up RS 485 NOTE Configuring the serial communications set
116. for factory reconfiguration which resets your device to its factory defaults and destroys all logged data HRB1684301 01 43 Chapter 3 Front panel display and meter setup PowerLogic PM5500 series user manual Password setup menu tree Meter Comm Alarm yo Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to HMI gt Pass Move the cursor to point to the parameter you want to modify then press Edit Modify the parameter as required then press OK oa fF ON Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK Password setup parameters Parameter Values Description Sets the password for accessing the meter setup Setup 0000 9999 screens Maint gt Setup Sets the password for resetting the meter s Energy Resets 0000 9999 accumulated energy values Demand Resets 0000 9999 Sets the password for resetting the meter s recorded peak demand values Min Max Resets 0000 9999 Sets the password for resetting the meter s recorded minimum and maximum values 7 Press A to exit Press Yes to save your changes Lost password Visit www schneider electric com for support and assistance with lost passwords or other technical problems with the meter Make sure you include your meter s model serial number and firmware v
117. fuses circuit breakers must be rated for the installation voltage and sized for the available fault current Fuse for neutral terminal is required if the source neutral connection is not grounded See the meter installation sheet for fuse ratings Current input protection For all connected current inputs use a CT shorting block to short circuit the secondary leads of the CTs before removing the current input connections to the meter NOTE Ground any unused current inputs Balanced system considerations In situations where you are monitoring a balanced 3 phase load you may choose to connect only one or two CTs on the phase s you want to measure and then configure the meter so it calculates the current on the unconnected current input s NOTE For a balanced 4 wire Wye system the meter s calculations assume that there is no current flowing through the neutral conductor 22 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 2 Hardware reference Neutral and ground current Control power wiring Communications Serial communications Balanced 3 phase Wye system with 2 CTs The current for the unconnected current input is calculated so that the vector sum for all three phase currents equal zero Balanced 3 phase Wye or Delta system with 1 CT The currents for the unconnected current inputs are calculated so that their magnitude and phase angle are identical and equally distributed and the vect
118. ge by counting the KWh pulses coming from the meter s digital output port HRB1684301 01 75 Chapter 8 Input Output PowerLogic PM5500 series user manual Digital output setup A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Apply appropriate personal protective equipment PPE and follow safe electrical work practices See NFPA 70E in the USA or applicable local standards Turn off all power supplying this device before working on it Always use a properly rated voltage sensing device to confirm that all power is off Do not exceed the device s ratings for maximum limits Donotuse this device for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions will result in death or serious injury NOTE Be aware that an unexpected change of state of the digital outputs may result when the supply power to the meter is interrupted or after a meter firmware upgrade Digital output application example You can connect one of your meter s digital outputs to a relay that switches on a generator and the other digital output to send a demand sync pulse to other meters In the following example the first meter Meter 1 controls and sets the demand period 900 seconds of the other meters Meter 2 Meter 3 Meter 4 through the output pulse occurring at the end of the first meter s demand interval
119. gration into your power or energy management system Related topics See Front panel display and meter setup on page 31 for front panel menu navigation details e Search your meter s Modbus register list at www schneider electric com to download the Modbus map Viewing THD thd using the front panel You can view THD thd data using the front panel 1 Navigate to THD On the THD thd Select screen press THD to display values that use the calculation method based on the fundamental harmonic or thd to display values that use the calculation method based on the RMS value of all harmonics in that phase including the fundamental THD or thd display screens IEEE mode IEC mode Description Amps Total harmonic distortion data for per phase and neutral currents V L L U V L N V Total harmonic distortion data line to line voltage Total harmonic distortion data line to neutral voltage 2 Pressthe current or voltage THD or thd values you want to view The total harmonic distortion percentage values are displayed 3 Press A to return to the main display screens NOTE Your meter s Modbus map includes registers for total harmonic distortion data for integration into your power or energy management system Related topics See Front panel display and meter setup on page 31 for front panel menu navigation details Search your meter s Modbus register list at www schneider electric com to
120. h 1 to Ch 4 for the selected tariff Inp Mtr Dmd Accumulated values on the input metering channels Ch 1 to Ch 4 Summary of demand values for input metering channels Ch 1 to Ch 4 in the previous Last demand interval Ch 1 Ch 2 Ch 3 Ch 4 Demand values for present Pres and previous Last interval periods predicted demand Pred based on the current consumption rate and recorded peak demand Peak value for the selected input metering channel PkDT Date and timestamp for the peak demand reading HRB1684301 01 63 Chapter 7 Viewing meter data PowerLogic PM5500 series user manual Related topics See Multi tariff feature on page 105 Power Factor PF True Disp PF True power factor values per phase and total PFa PF1 PFb True PF2 PFc PF3 Total PF sign and load type capacitive lead inductive lag Displacement power factor values per phase and total PFa Disp PF1 PFb PF2 PFc PF3 Total PF sign and load type capacitive lead inductive lag Frequency Hz F Hz F Frequency Freq average voltage Vavg average current lavg and total power factor PF values Total harmonic distortion Amps I V L L U V L N V Amps I V L L U V L N V THD THD THD ratio of harmonic content to the fundamental for phase curren
121. he meter shows positive or negative power factor according to IEC or IEEE standards PF sign in IEC mode When the regional setting is set to IEC mode the meter correlates power factor sign PF sign with the direction of real power P flow For positive real power P the PF sign is positive For negative real power P the PF sign is negative HRB1684301 01 137 Chapter 16 Power energy and power factor PowerLogic PM5500 series user manual Power factor sign in IEC mode Q kVAR Quadrant 2 Quadrant 1 L S S aw aw B PF sign PF sign PF sign PO P PF sign T X xL 8 oo S PT Quadrant 3 Quadrant 4 Q kVAR PF sign in IEEE mode When the regional setting is set to IEEE mode the meter correlates power factor sign PF sign with the PF lead lag convention also load type For PF lag inductive the PF sign is positive For PF lead capacitive the PF sign is negative Power factor sign in IEEE mode Q KVAR Quadrant 2 Quadrant 1 i a TW E aw g PF sign PF sign PF sign EO P PF sign P e Quadrant 3 Quadrant 4 Q KVAR 138 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 16 Power energy and power factor Power factor register format Each power factor value PF value occupies one floating point register for power f
122. he webpages Setup menu Ethernet communications settings The meter is factory configured with default Ethernet settings You must change the default settings before connecting the meter to your network HRB1684301 01 53 Chapter 5 Meter webpages PowerLogic PM5500 series user manual Configuring Ethernet settings using a browser Before connecting the meter to your LAN you must first configure the Ethernet settings Initial Ethernet configuration steps 1 Disconnect your computer from the network If your computer has wireless communications make sure you disable the wireless network connection as well Use an Ethernet cable to connect the computer to one of the meter s Ethernet ports Open a web browser and enter 169 254 0 10 in the address box Log in to the meter webpages The default login is Username user1 Password pass1 Click Setup gt Ethernet Modify the Ethernet setup parameters with the settings your system administrator assigned for the meter then press Apply Ethernet amp TCP IP Parameter Description Ethernet MAC Address Displays the meter s factory programmed MAC address This information is read only and cannot be changed This controls the network protocol for your device which the meter uses to obtain its IP address DHCP Dynamic Host Configuration Protocol BOOTp Bootstrap Protocol m Static Use the static value programmed in the IP IP Address A
123. ications www contains the webpages and java script files You can add custom webpages or modify the existing ones in this folder To upgrade your Ethernet card firmware use an FTP client such as FileZilla Start your FTP client Click Edit gt Settings In the tree view click Transfers gt File Types Set Default transfer type to Binary then click OK a fF ON Type the meter s IP address in the Host field and log in using your credentials The factory default settings are Username user2 Password pass2 6 You may leave the Port field blank the default FTP port setting is 21 Click Quickconnect 7 Inthe local site pane navigate to the folder where you downloaded the communications card firmware then open the FW folder 8 Navigate to the FW folder in the remote site pane i e the meter 9 Select all files in the FW folder from the local site then upload it to the FW folder on the remote site 10 If prompted that the target file already exists select or confirm to overwrite the target file Select Apply to current queue only if this option exists in the FTP client you are using 11 Repeat the previous file transfer steps this time selecting all files in the www folder 124 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 14 Maintenance and upgrades 12 Exit the ftp client afer the file transfer completes successfully Technical assistance Visit www schne
124. ider electric com for support and assistance with lost passwords or other technical problems with the meter Make sure you include your meter s model serial number and firmware version in your email or have it readily available if calling Technical Support Diagnostics screen For meters equipped with a display screen you can use the Diagnostics screens to obtain information that may help you troubleshoot meter problems Info Meter Cl Pwr Phasor gt Polar Info Meter and CI Pwr See Maintenance on page 68 for description of the Info information Meter and CL Pwr loss of control power diagnostics screens Phasors Phasors are used to represent the voltage and current magnitudes and phase angles Uen M Van 120 0 U 2 0 0 Ia 50 A 330 0 Wan Ubn 118 0 U 240 0 Ib Ta bg Ib 5 0 A 210 0 A Polar ah T The graph on the Phasors screen shows a representation of the phase angles in degrees with the size of the lines representing the relative RMS magnitude of the voltages with respect to the other phase voltages and the currents with respect to the other phase currents The phasor for phase A voltage is set to a phase angle of zero and all other phase angles are measured relative to phase A The Polar screen shows the RMS value and phase angle of each voltage and current phases HRB1684301 01 125 Chapter 14 Maintenance and upgrades PowerLogic PM5500 series
125. iderations The meter s alarm energy LED and digital outputs are capable of energy pulsing within the following limits Energy pulsing limits Description Alarm energy LED Digital output Maximum pulse frequency 2 5 kHz 25 Hz 1 pulse per kWh 9 999 999 pulses per kWh Minimum pulse constant Maximum pulse constant The pulse rate depends on the voltage current and PF of the input signal source the number of phases and the VT and CT ratios If Ptot is the instantaneous power in kW and K is the pulse constant in pulses per kWh then the pulse period is 3600 _ 1 Pul iod i ds penod i seconds K xPtot Pulse frequency Hz HRB1684301 01 131 Chapter 15 Verifying accuracy PowerLogic PM5500 series user manual VT and CT considerations The test points are always taken at the secondary side regardless of whether VTs or CTs are used Ptot is derived from the values of the voltage and current inputs at the secondary side and takes into account the VT and CT ratios If VTs and CTs are used you must include their primary and secondary ratings in the equation For example in a balanced 3 phase Wye system with VTs and CTs Ptot 3x VLN x IL primary y CT primary pp x LW VT secondary CTsecondary 1000 W Example calculations A balanced 3 phase Wye system uses 480 120 volt VTs and 100 5 amp CTs The signals at the secondary side are 119 volts li
126. igital Input DI3 digital input counters Digital Input DIA All Dig Out Timers Select Timers then select which digital Timers Digital Output DO1 output timer to clear choose all or individual Digital Output DO2 digital output timers Digital Outputs All Dig Out Counters Select Timers then select which digital Counters Digital Output DO1 output counter to clear choose all or Digital Output DO2 individual digital output counters Active Load Timer Clears and restarts the load operation timer Multi Tariff Clears accumulated values in all tariff register Input Metering Reset All InptMtr Reset InpMtr Chan 1 Reset InpMtr Chan 2 Reset InpMtr Chan 3 Reset InpMtr Chan 4 Select which input metering channel InpMtr Chan to clear choose all or individual input metering channels Enter the reset password default is O then press OK Press Yes to confirm the reset or No to cancel and return to the previous screen Alarm counter options Alarm counter Option Description Over Current Ph Current Under Current Ph Select which alarm counter register to reset from Over Current N the current alarm condition counters Over Current Gnd Over Voltage L L Under Voltage L L Over Voltage L N Votage Under yolage UN a nin Over Voltage Unbal Over Voltage THD Phase Loss 84 HRB1684301 01 PowerLogic PM5500 series
127. ime 0 2359 meter s internal clock Define what time of day you want to synchronize the demand 8 Press Yes to save your changes 38 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 3 Front panel display and meter setup Related topics See Power demand on page 115 for detailed descriptions on demand parameters characteristics and type Multi tariff setup The meter s multi tariff feature allows you to use up to 8 different tariff containers to store accumulated energy data The Tariff setup screens allow you to configure how and when to apply the different tariffs Related topics See Multi tariff feature on page 105 for a comprehensive description and setup instructions using the front panel To configure the tariffs using ION Setup see the PM5500 series topic in the ION Setup online help or in the ION Setup device configuration guide available for download at www schneider electric com Communications setup After wiring the meter s serial and Ethernet communications ports you can configure these ports so you can connect to the meter remotely and use device configuration software such as ION Setup to configure the meter Related topics See Serial communications on page 23 for details on wiring and configuring the meter s RS 485 port Setting up serial communications The Serial setup screen allows you to configure the meter s RS 485 communicat
128. imum and maximum recorded values Real kW reactive kVAR and apparent kVA power minimum and maximum Power recorded values Power Factor Total Real time power factor lead or lag minimum and maximum recorded values Real time line to line voltage Vab Vbc Vca and average VLL Avg line to Voltage neutral voltage Van Van Vcn and average VLN Avg Frequency Real time frequency minimum and maximum recorded values Real time current demand per phase la Ib Ic demand last interval peak Demand Current demand with date and timestamp and the date and time when demand values were last reset Demand Power Real time real kW reactive KVAR and apparent kVA power demand Accumulated values for delivered and received real energy kWh reactive energy Energy KVARh and apparent energy kVAh and the date and time when energy values were last reset 56 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 5 Meter webpages Diagnostics Power Quality Parameter Description THD Current Percent total harmonic distortion for each phase current and neutral Current Unbalance _ Percent current unbalance per phase and worst recorded unbalance THD VL L Percent total harmonic distortion for each line to line phase voltage Percent voltage unbalance for each line to line phase voltage and worst recorded voltage unbalance THD VL N Pe
129. ing the alarm energy pulsing LED also flashes to indicate the meter has detected an alarm condition See LED alarm indicator on page 99 Details about the alarms can be viewed from the active alarms Active alarm history Hist alarm counters Count and unacknowledged alarms Unack screens 100 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 10 Alarms Active alarms Alarm history Alarm counter Acknowledging alarms When an alarm condition becomes true alarm ON the alarm is displayed on the active alarms screen The alarm details for low medium and high priority alarms are also recorded in the alarm history log Viewing active alarm details 1 Navigate to Alarm gt Active 2 Select the alarm you want to view the latest ones appear on top Press Detail NOTE For unacknowledged high priority alarms the Ack option appears on this screen Press Ack to acknowledge the alarm or return to the previous screen if you do not want to acknowledge the alarm The alarm details show the date and time of the alarm event the type of event e g pickup or unary which phase the alarm condition was detected on and the value that caused the alarm condition NOTE Alarm details are not available if the alarm priority is set to None The alarm history log keeps a record of active alarms and past alarms When an active alarm condition becomes false alarm OFF the event is recorded in th
130. iod in seconds AT3 Alarm duration in seconds EV1 Start of alarm condition The phase loss alarm is an under setpoint alarm It monitors the voltages on a 3 phase system and triggers the alarm when one or two phases fall below the pickup setpoint setting and remains there long enough to satisfy the pickup time delay period When all of the phases rises above the dropout setpoint setting and remains there long enough to satisfy the dropout time delay period the alarm condition is set to OFF The meter supports up to 10 logic alarms Logic Alarm 1 to 10 A logic alarm is used to monitor up to four different inputs or parameters The logic alarm is tripped when the individual states of all the inputs A B C D cause the output Y of a logic operation to be true COOoU The logic alarm inputs can only be linked using software 92 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 10 Alarms Custom alarms Custom alarms Cust1s are setpoint driven alarms similar to the standard 1 Sec alarms A custom alarm s input parameters and setpoint subtypes can only be configured using software The pickup setpoint and dropout setpoint limits are set to 999999 to 999999 Custom alarms parameter list Alarm parameter Unit Alarm parameter
131. ion 15 oderint ne tide eode dne teen tede ide den 137 PF signiin IEG mode eter eorr cre eti eet iid 137 PF signi in IEEE mode a a entities rn 138 Power factor register format sssssse ee 139 Chapter 17 MID compliance esses enne enne nennen nnn nn nnn nn nnne nint ne niin s nnn nn nn nn nno 141 MID OV6ervIGW iu ee un LU d ER ance ented DR REPRE Re RE 141 SCOPE M 141 MID compliance for the meter ssssssssseseeneneeenn 141 Specifications relevant to MID ssssssssssssee eene 141 Safety precautions ssssssssssssssssseseeeeeneen ARR YL LL enne 142 Installation and wiring sseeseen mme 142 Installing the terminal covers sssee mem 143 PM5561 default screen icit de rtp eee ien 143 Meter firmware version sseeene em emen 144 MID protected setup parameters sse em 144 Lock protected setup parameters ssss em 144 Lock protected functions sssssssssssssssseseeeeeren enne 145 Setting up the PM5561 xad ede ceret eed deed 145 Basic setup menu 4 ideo ue 145 Advanced setup menu cccccceceecececeeeneeceeeeeeceeeeeeeeeceeeeeeeeseseeaeeeeeeeeeaees 145 Clock setup menu sssssssssssssesseseeeeer ener enne nnne nennen 145 Tariff set p menu nne eere i quse toii t
132. ion on energy management software systems The meter s real time readings are updated once every 50 cycles for 50 Hz systems or once every 60 cycles for 60 Hz systems When the readings reach their lowest or highest value the meter updates and saves these min max minimum and maximum quantities in non volatile memory Power factor PF is the ratio of real power P to apparent power S and is a number between zero 0 and one 1 In a purely resistive circuit PF is equal to 1 unity PF Inductive or capacitive loads increase the reactive power Q component in the circuit which causes the PF to become less than 1 Power factor can have a positive or negative sign depending on the type of load or direction of power flow See Power factor sign convention on page 110 HRB1684301 01 109 Chapter 12 Measurements and calculations PowerLogic PM5500 series user manual Power factor min max convention The meter uses the following convention for power factor minimums and maximums For negative PF readings the minimum PF value is the measurement closest to 0 for PF readings between 0 to 1 For positive PF readings the minimum PF value is the measurement closest to 1 for PF readings between 1 to 0 For negative PF readings the maximum PF value is the measurement closest to 1 for PF readings between 0 to 1 For positive PF readings the maximum PF value is the measurement closest to 0 for PF readings betwe
133. ions port so you can use software to access the meter s data or configure the meter remotely Serial communications setup menu tree Serial Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to Comm gt Serial Move the cursor to point to the parameter you want to modify then press Edit Modify the parameter as reguired then press OK Oa F O N Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK HRB1684301 01 39 Chapter 3 Front panel display and meter setup PowerLogic PM5500 series user manual RS 485 port settings Parameter Values Description Select the communications format used to transmit data The protocol must be the same for all devices in a communications loop Modbus Jbus ASCII 8 Bit Protocol ASCII 7 Bit Set the address for this device The address must be Address 1 to 247 unique for each device in a communications loop For Jbus protocol set the device ID to 255 Select the speed for data transmission The baud rate Baud Rate 9600 19200 38400 must be the same for all devices in a communications loop Select None if the parity bit is not used The parity Parity Even Odd None setting must be the same for all devices in a communications loop 7 Press A to exit Press Yes to save your changes Related topics Se
134. iorities on page 96 for a description of the LED behavior based on different alarms When the LED is set to energy pulsing the meter sends a readable pulse or signal based on the measured energy This pulse can be used for accuracy verification or as an input to another energy monitoring system The meter uses the pulse constant setting in pulses per k_h to determine the freguency and number of pulses sent to the LED where k_h kWh kVARh or kVAh depending on the energy parameter selected The LED setup screen allows you to configure the alarm energy pulsing LED for alarming or energy pulsing applications Configuring the alarm energy pulsing LED using the front panel You can use the front panel display to configure your meter s LED for alarming or energy pulsing application Alarm energy pulsing LED settings menu tree D In D Out Inp Mtr Navigate to Maint gt Setup Enter the setup password default is O then press OK Navigate to I O gt LED Move the cursor to point to the parameter you want to modify then press Edit BON 80 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 8 Input Output Alarm energy pulsing LED setup parameters Setting Option or range Description Disabled turns off the LED completely Mode Disabled Alarm Energy Alarm sets the LED for alarm notification Energy sets the LED for energy pulsing
135. irmware file and click Open Select the firmware then click Next SU 9 OV ges oM If you haven t defined an upgrade system yet Click New then type in the box to assign a system name Click Add then type in the box to assign a communications connection name Select the communications driver Modbus TCP Driver or Serial Driver 8 Click Continue If you are using Modbus over TCP to upgrade type the meter s IP address in the box then click OK 10 Click Add Device Type in the box to assign a device name Select the device type from the list Select the connection name i e the one you defined in the previous step 11 Click Next 12 Make sure the connection name i e the one you defined in the previous step is still selected Enter the device address 13 Select the protocol e g Modbus 14 Click OK 15 Click Next 16 Select the device name from the Download Candidate Devices pane then click the right arrow button to move the selection to the Download Target Devices pane 17 Select the meter firmware in the Firmware to field 18 Click Next 19 Click Health Check to confirm the meter is communicating The Health Status shows Passed to indicate successful communications 20 Click Next HRB1684301 01 123 Chapter 14 Maintenance and upgrades PowerLogic PM5500 series user manual 21 The Firmware Update Group shows the connection name the firmware version and sta
136. is device for critical control or protection applications where human or eguipment safety relies on the operation of the control circuit Failure to follow these instructions will result in death or serious injury Wiring the digital inputs Related topics See Specifications on page 27 for electrical characteristics and limits for the digital inputs HRB1684301 01 69 Chapter 8 Input Output PowerLogic PM5500 series user manual WAGES monitoring Digital input setup WAGES monitoring allows you to record and analyze all energy sources and utilities usage Your energy system may use several different types of energy For example you may consume steam or compressed air for industrial processes electricity for lights and computers water for cooling and natural gas for heating WAGES monitoring collects the usage information from all these different energy sources to enable a more complete energy analysis WAGES information can help you Identify losses or inefficiencies Modify demand to reduce costs Optimize energy source usage WAGES application example You can connect your meter s digital input to a transducer that sends a pulse for every 15 liters of water After configuring an input metering channel and assigning it to the digital input the meter is able to detect and record the incoming pulses An energy management system can then use the information from the meter to perform WAGES
137. larms with 1s timestamping Parameters configured for data logging Data alarm history diagnostics and maintenance logs Input Output The meter provides the status of the digital inputs and digital outputs Other measurements The meter also provides the following measurements O timer shows how long an input or output has been ON Operating timer shows how long the meter has been powered Load timer shows how much time a load has been running based on the specified minimum current for the load timer setpoint setting Data display and analysis tools The meter integrates seamlessly with display and analysis software available from Schneider Electric such as StruxureWare Power Monitoring Expert and StruxureWare PowerSCADA Expert Power Monitoring Expert software lets you analyze and monitor your system and produce reports for any department in an organization Power Monitoring Expert is designed to make use of all the meter s available advanced capabilities You can also use data acquired by the meter in a variety of third party systems PowerSCADA Expert lets you control your system with high reliability performance and data integrity PowerSCADA Expert is designed to help reduce outages and increase power efficiency It is built to handle simple to complex user requirements Related topics See the Power Monitoring Expert and PowerSCADA Expert product pages at www schneider electric com for more information
138. led to prevent undesired alarm operation After saving the changes confirm all configured standard alarm settings are still valid reconfigure them as required and re enable the alarms HRB1684301 01 35 Chapter 3 Front panel display and meter setup PowerLogic PM5500 series user manual Basic setup menu tree Adv Dmd Tariff Navigate to Maint gt Setup Navigate to Meter gt Basic Daa OOND make your changes then press OK Basic setup parameters Enter the setup password default is O then press OK Move the cursor to point to the parameter you want to modify then press Edit Modify the parameter as required then press OK Move the cursor to point to the next parameter you want to modify press Edit Parameter Values Description Select the power system type power transformer the meter is wired to 1PH2W LN Single phase 2 wire line to neutral 1PH2W LL Single phase 2 wire line to line 1PH3W LL with N Single phase 3 wire line to line with neutral 3PH3W Dit Ungnd 3 phase 3 wire ungrounded delta 3PH3W Dit Crnr Gnd 3 phase 3 wire corner grounded delta 3PH3W Wye Ungnd Power System 3 phase 3 wire ungrounded wye 3PH3W Wye Gnd 3 phase 3 wire grounded wye 3PH3W Wye Res Gnd 3 phase 3 wire resistance grounded wye 3PH4W Opn Dit Ctr Tp 3 phase 4 wire center tapped open delta 3PH4W Dit Ctr T
139. m energy pulsing LED PM5560 PM5561 OOOOS8S PM5563 A Alarm energy pulsing LED When set to detect alarms the LED blinks to indicate an alarm condition See Alarm priorities on page 94 for a description of the LED behavior based on different alarms NOTE The alarm energy pulsing LED on the PM5561 is permanently set for energy pulsing and cannot be used for alarms Configuring the LED for alarms using the meter display You can use the meter display to configure the alarm energy pulsing LED for alarming 1 Navigate to the LED setup menu screen Alarm energy pulsing LED setup parameters Setting Option or range Description Mode Disabled Alarm Energy Disabled turns off the LED completely Alarm sets the LED for alarm notification Energy sets the LED for energy pulsing Parameter Active Del Active Rec Active Del Rec Reactive Del Reactive Del Rec Apparent Del Apparent Rec Apparent Del Rec Select which accumulated energy channel to monitor and use for energy pulsing This setting is ignored when the LED mode is set to Alarm Pulse Wt p k_h 1 to 9999999 When configured for energy pulsing this setting defines how many pulses are sent to the LED for every 1 kWh 1 KVARh or 1kVAh accumulated energy This setting is ignored when the LED mode is set to Alarm 2 Set the mode
140. mber of phases Over Ground Current Over Voltage L L Under Voltage L L Over Voltage L N Under Voltage L N Over Active Power maximum current x CT ratio maximum voltage x VT ratio maximum voltage x VT ratio age x VT ratio age x VT ratio maximum vol maximum vol maximum voltage x maximum current x number of phases Over Reactive Power maximum voltage x maximum current x number of phases Over Apparent Power maximum voltage x maximum current x number of phases Over Present Active Power Demand maximum voltage x maximum current x number of phases x x x x x Over Last Active Power Demand maximum voltage x maximum current x number of phases Over Predicted Active Power Demand maximum voltage x maximum current x number of phases Over Present Reactive Power Demand maximum voltage x maximum current x number of phases Over Last Reactive Power Demand maximum voltage x maximum current x number of phases Over Predicted Reactive Power Demand maximum voltage x maximum current x number of phases Over Present Apparent Power Demand maximum voltage x maximum current x number of phases Over Last Apparent Power Demand maximum voltage x maximum current x number of phases x x x x x x x x x x x x Over Predicted Apparent Power
141. meter supports Modbus TCP HTTP and FTP protocols and can communicate at data speeds up to 100 Mbps through its Ethernet communications port The meter supports a single IP address between two 10 100Base T Ethernet ports The second Ethernet port functions as an Ethernet switch which allows you to have shorter Ethernet cable runs between the meters without reguiring additional Ethernet routers or repeaters This helps simplify network connections and reduce installation time and costs Use a Cat 5 cable to connect the meter s Ethernet port Your Ethernet connection source should be installed in a location that minimizes the overall Ethernet cable routing length Ethernet wiring Ethernet Switch hub Ethernet Ethernet Ethernet Ethernet configuration To communicate with the meter through Ethernet all devices must have a unique IP address and be set to the same subnet mask and gateway NOTE For meters that do not have a display you must configure each one separately in order to set a unigue IP address for each device To configure Ethernet communications on a meter equipped with a display panel see Setting up Ethernet communications on page 42 To configure Ethernet communications on a meter that does not have a display panel see Using a web browser to set up Ethernet on page 49 The meter is eguipped with two Form A digital output ports D1 D2 You can configure the digital
142. mp for the peak demand readings Ig Average lavg neutral In and residual ground Ig current Related topics See Current demand on page 117 Voltage Volts U V V L L U Line to line phase voltage Vab U12 Vbc U23 Vca U31 V L N V Line to neutral phase voltage Van V1 Vbn V2 Vcn V3 Harmonics VL L U m Fund 3 11 13 21 23 31 V L N V nm Fund 3 11 13 21 23 31 Amps I Fund 3 11 13 21 23 31 TDD K Crest Amps I V L L U V L N V Harm V L L U Line to line voltage harmonics data Numeric magnitude and Fund 3 11 13 21 23 31 angle for the fundamental harmonic and graphical representation of harmonics for the 3rd to 11th 13th to 21st and 23rd to 31st odd harmonics for each line to line phase voltage Vab U12 Vbc U23 Vca U31 VL NIV Fund 3 11 13 21 23 31 Line to neutral voltage harmonics data Numeric magnitude and angle for the fundamental harmonic and graphical representation of harmonics for the 3rd to 11th 13th to 21st and 23rd to 31st odd harmonics for each line to neutral phase voltage Van V1 Vbn V2 Vcn V3 Amps I Current harmonics data Numeric magnitude and angle for the Fund 3 11 13 21 23 31 fundamental harmonics and graphical representation of harmonics for the 3rd to 11th 13th to 21st and 23rd to 31st odd harmonics for each phase current la 11 Ib 12 Ic 13 TDD K Total demand di
143. n then contact Technical Support Troubleshooting LED indicators Abnormal heartbeat serial communications LED behavior could mean potential problems with the meter Heartbeat serial communications LED behavior Problem Probable causes Possible solutions If using a serial to RS 485 converter trace Communications wiring and check that all wiring from the computer LED flash rate does not change to the meter is properly terminated when data is sent from the host Perform a hard reset turn off control power computer to the meter then re apply power If the problem persists contact Technical Support Internal hardware problem i iMd Perform a hard reset turn off control power Heartbeat serial communications to the meter then re apply power If the LED remains lit and does not flash Internal hardware problem ae PP y power problem persists contact Technical ON and OFF Support Heartbeat serial communications LED flashes but the display is Display setup parameters BE incorrectly set See Setting up the display on page 44 HRB1684301 01 121 Chapter 14 Maintenance and upgrades PowerLogic PM5500 series user manual Meter memory If the problem is not fixed after troubleshooting contact Technical Support for help Make sure you have your meter s firmware version model and serial number information available The meter uses its non volatile memory NVRAM to ret
144. nd if load is for last Partial Interval added during interval completed Demand predicted demand increases interval A to reflect increased demand redicted demand if no load is added Time 1 00 1 06 1 15 Change in Load Peak demand The maximum values for the KWD KVARD and kVAD power or peak demand is maintained in the meter s non volatile memory The peak for each value is the highest average reading since the meter was last reset The power meter also stores the date and time when the peak demand occurred In addition to the peak demand the power meter also stores the coinciding average 3 phase power factor The average 3 phase power factor is defined as demand KW demand kVA for the peak demand interval Related topics See Demand on page 12 for a list of available peak demand readings See Single resets on page 86 to reset peak demand values using the meter display Input metering demand The power meter supports up to 4 input metering channels one for each digital input The input metering channels can be used to measure water air gas electric and steam utilities WAGES Typical WAGES utility meters have no communications capabilities but they usually have a pulse output The utility meter sends a pulse to its output each time a preset guantity or amount of WAGES energy is consumed or delivered This preset guantity or amount is referred to as the pulse weight To monitor the utilit
145. nds B Dropout setpoint EV2 End of alarm condition AT1 Pickup delay period in seconds AT3 Alarm duration in seconds EV1 Start of alarm condition Min1 Minimum value recorded during pickup period Min2 Minimum value recorded during alarm period The meter records the date and time when the alarm event starts EV1 and when it ends EV2 The meter also performs any task assigned to the event such as operating a digital output The meter also records minimum values Min1 Min2 before during or after the alarm period 90 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 10 Alarms Maximum allowable setpoint Power factor PF The meter is programmed to help prevent user data entry errors Limits have been set for the standard 1 Sec alarms The maximum setpoint value you can enter for some of the standard alarms depend on the voltage transformer ratio VT ratio current transformer ratio CT ratio system type i e number of phases and or the maximum voltage and maximum current limits programmed at the factory NOTE VT ratio is the VT primary divided by the VT secondary and CT ratio is the CT primary divided by the CT secondary Standard alarm maximum setpoint values Standard alarm Maximum setpoint value Over Phase Current maximum current x CT ratio Under Phase Current maximum current x CT ratio Over Neutral Current maximum current x CT ratio x nu
146. ne to neutral and 4 99 amps with a power factor of 0 85 The desired pulse output frequency is 20 Hz 20 pulses per second 1 Calculate the typical total output power Ptot Ptot 3 x 119 x 480 x 4 99 x 100 x 0 85 x LEW 120 5 1000 W 121 14kW 2 Calculate the pulse constant K K 3600 x pulse frequency _ 3600 second hour x 20 pulses second Ptot 121 14 kW K 594 4 pulses kWh 3 At full load 200 of nominal current 10 A and power factor PF 1 calculate the maximum total output power Pmax Pmax 3x 119x Ax 10x DE x1 x 1 kW 5 1000 W 285 6 kW 4 Calculate the maximum output pulse frequency at Pmax _ K xPmax _ 5944 pulses kWh x 285 6 kW Maximum pulse frequency 4 2 L LL 3600 3600 seconds hour Maximum pulse frequency 47 2 pulses second 47 2 Hz 5 Check the maximum pulse frequency against the limits for the LED and digital outputs 47 2 Hz lt LED maximum pulse frequency 2 5 kHz 47 2 Hz gt digital output maximum pulse frequency 25 Hz NOTE The maximum pulse frequency is within the limits for LED energy pulsing However the maximum pulse frequency is greater than the limits for digital output energy pulsing Pulse output frequencies greater than 25 Hz will saturate the digital output and cause it to stop pulsing Therefore in this example you can only use the LED for energy pulsing Adjustments to allow energy pulsing at the digital outputs
147. ng and service must be performed in accordance with all local and national electrical codes A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Apply appropriate personal protective equipment PPE and follow safe electrical work practices See NFPA 70E in the USA or applicable local standards Turn off all power supplying this device before working on it Always use a properly rated voltage sensing device to confirm that all power is off Do not exceed the device s ratings for maximum limits Donotuse this device for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Never short the secondary of a voltage transformer VT Never open circuit a current transformer CT Always use grounded external CTs for current inputs Failure to follow these instructions will result in death or serious injury 1 Turn off all power supplying this device before working on it 2 Always use a properly rated voltage sensing device to confirm that all power is off Refer to the installation sheet that shipped with your meter for meter installation and wiring instructions Related topics See Meter mounting on page 17 and Meter wiring on page 20 for additional information 142 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 17 MID compliance Installing the terminal covers The voltage and current terminal
148. nic content for current HCI HCI J HI2 HI3 HI4 HCI harmonic content current is equal to the RMS value of all the non fundamental current harmonic components HI2 HIn in one phase of the power system THD and thd calculations The meter supports two methods of calculating total harmonic distortion THD and thd THD is a quick measure of the total distortion present in a waveform and is the ratio of harmonic content to the fundamental The meter uses the following equation to calculate THD THD EC x 100 HI Where H1 is equal to the fundamental harmonic thd is an alternate method for calculating total harmonic distortion It uses the RMS value for the total harmonic content rather than the fundamental content The meter uses the following equation to calculate thd HC A4 H1 HC thd x 100 TDD calculation TDD total demand distortion evaluates the harmonic currents between an end user and a power source The harmonic values are based on a point of common coupling PCC which is a common point where each user receives power from the power source The meter uses the following equation to calculate TDD TDD HCIAY HCIB 2 HCIC 2 ILoad x 100 Where ILoad is equal to the maximum demand load on the power system 118 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 13 Power quality Displaying harmonics data For meters equipped with a front panel displ
149. nstructions on saving the data log from the webpages Alarm records are stored in the meter s alarm history log You can use the meter s display or a web browser to view the alarm history log Related topics See Active alarms list and alarm history log on page 102 to view the alarm records using the meter s display See Viewing the meter webpages on page 58 to view the alarm records using a web browser The meter records maintenance type events such as changes to meter setup You can use a web browser to view the contents of the maintenance log Related topics See Viewing the meter webpages on page 58 to view the maintenance log using a web browser 60 HRB1684301 01 Chapter 7 Viewing meter data You can view meter data from the meter s front panel display a web browser or through software Viewing meter data from the front panel This section applies to meters that are equipped with a front panel display The Summary screen displays real time values for average voltage and current Vavg lavg total power Ptot and energy consumption E Del Summary screen Menu selection buttons B _ Scroll right navigation button Displaying data screens To display data screens press the button below the appropriate menu To see more menu items press the gt navigation button Related topics See Front panel display and meter setup on page 31 for information on front pan
150. nterval You can set the demand interval from 1 to 60 minutes in 1 minute increments The following illustration shows the thermal demand calculation In this example the interval is set to 15 minutes Thermal demand example The interval is a window of time that moves across the timeline 99 alee eee eee mm 90 7 Last completed demand interval oO oO o S5 xL Time minutes 0 15 minute next interval 15 minute interval Calculation updates at the end of each interval Current demand The power meter calculates current demand using one of the methods described in Power demand calculation methods on page 111 You can set the demand interval from 1 to 60 minutes in 1 minute increments for example 15 minutes Predicted demand The power meter calculates predicted demand for the end of the present interval for kW KVAR and kVA demand This prediction takes into account the energy consumption so far within the present partial interval and the present rate of consumption Predicted demand is updated every second The following illustration shows how a change in load can affect predicted demand for the interval In this example the interval is set to 15 minutes HRB1684301 01 113 Chapter 12 Measurements and calculations PowerLogic PM5500 series user manual Predicted demand example Beginning of interval 15 minute interval Demand Predicted dema
151. ocol Modbus TCP HTTP FTP DHCP BOOTP Firmware and language file update Update via the communication port using DLF3000 Real time clock Clock drift 0 4 seconds per day typical Battery backup time 4 5 years without control power typical Related topics e For additional information visit the website at www schneider electric com and search for PM5500 technical datasheet 30 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 3 Front panel display and meter setup Chapter 3 Front panel display and meter setup This section applies to meters that are equipped with a front panel display The front panel display lets you use the meter to perform various tasks such as setting up the meter displaying data screens acknowledging alarms or performing resets Parts of the display Navigation menu selection buttons o 0 OG Heartbeat communications LED green Alarm energy pulsing LED orange Navigation symbols or menu options Power Sustem SPH4U Wye Unand UT Connect 2UT FUT Primary CU 4888 Right notification area Screen title Left notification area rj o mimjo oj uo Cursor LED indicators The meter has two LED indicators on the front panel Front panel LEDs Alarm energy pulsing LED orange o Heartbeat communications LED green NOTE For the PM5561 model the ala
152. ode l I bB vv Ham H Pes bl E M PF HM F THD H Ln bal jH _MnMx 4 Alarm l O j4 Timer Maint H Clock Use the buttons to navigate the different meter screens The navigation symbols and their functions are explained below Navigation symbols Symbol Description p Scroll right and display more menu items A Exit screen and go up one level v Move cursor down the list of options or display more items below A Move cursor up the list of options or display more items above lt q Move cursor one character to the left gt Move cursor one character to the right Increase the highlighted value or show the next item in the list Show the previous item in the list When you reach the last screen press again to cycle through the screen menus This summarizes the meter screens IEEE menus shown with the corresponding IEC menus in parentheses see Setting up regional settings on page 42 For detailed descriptions of the meter screens see Viewing meter data on page 63 HRB1684301 01 33 Chapter 3 Front panel display and meter setup PowerLogic PM5500 series user manual PM5560 PM5561 meter display screen menus Level 1 Level 2 Level 3 ps S Phase lavg la Ib Ic In Ig V L L U Fund 3 11 1
153. ollowing measures Reorient or relocate the receiving antenna Increase the separation between the equipment and receiver Connect the equipment to an outlet on a circuit different from that to which the receiver is connected Consult the dealer or an experienced radio TV technician for help This Class B digital apparatus complies with Canadian ICES 003 Reasonable use and responsibility This product must be installed connected and used in compliance with prevailing standards and or installation regulations If this product is used in a manner not specified by the manufacturer the protection provided by the product may be impaired The safety of any system incorporating this product is the responsibility of the assembler installer of the system Updates As standards specifications and designs change from time to time always ask for confirmation of the information given in this publication Trademarks PowerLogic and Schneider Electric are trademarks or registered trademarks of Schneider Electric in France the USA and other countries 10 HRB1684301 01 Chapter 1 Introduction The PowerLogic PM5500 series power and energy meters offer value for the demanding needs of your energy monitoring and cost management applications All meters in the PM5500 series range comply to Class 0 2S accuracy standards and feature high quality reliability and affordability in a compact and easy to install format
154. on checks as you enter tariff information it prompts you to change the information that you have entered or set the tariff to disabled if the tariff configuration is invalid These checks can include Start and end times must be different for example you cannot create a tariff that starts at 02 00 and also ends at 02 00 Start time can only be earlier than end time for tariffs that are applied every day You can create a daily tariff that starts at 06 00 and ends at 02 00 but these times are only valid for the Everyday tariff and invalid for the other tariff types Start day must be earlier than end day if the days are in the same month You cannot create a tariff that starts June 15 and ends June 12 There are two methods of creating tariffs Time of year tariffs divide the year into multiple sections usually seasons where each section has one or more day types For example an eight tariff configuration using this method could have Spring Summer Fall and Winter seasons that also use different weekend and weekday tariffs Daily tariffs can divide days by day of the week a weekday a weekend or every day and can specify the time of day For example an eight tariff configuration could have every day in the year divided into three hour tariff periods or could have four tariffs for weekends and four tariffs for weekdays 104 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 11 Multi tariff feature
155. or sum for all three phase currents equal zero NOTE You must always use 3 CTs for 3 phase 4 wire center tapped Delta or center tapped open Delta systems The fourth current input 14 can be used to measure current flow In in the neutral conductor which can then be used to calculate residual current The meter refers to residual current as ground current Ig For 4 wire Wye systems ground current is calculated as the difference between the measured neutral current and the vector sum of all measured phase currents For wiring instructions and safety precautions see the meter installation sheet that was shipped with your meter or download a copy at www schneider electric com The meter can be powered from an AC or DC power source L1 and L2 are non polarized If using an AC power supply with neutral connect neutral to the meter s L2 terminal Always use a fuse on L1 Fuse L2 when connecting an ungrounded neutral to the control power If using a control power transformer fuse both primary and secondary sides of the transformer The fuses circuit breakers must be rated for the installation voltage and sized for the available fault current This section provides additional information about the communications ports and topologies supported by the meter You must wire and configure the RS 485 port and or the Ethernet port in order to communicate with the meter The meter supports serial communications through the RS
156. ore adding it to an energy management system 1 After configuring all the meter setup parameters navigate through the different meter display screens and make sure the displayed data is valid 2 See Global resets on page 83 for instructions on clearing the meter s recorded logged data counters and timers 3 Select Meter Initialization to clear all recorded data Locking or unlocking the meter After you initialize the meter you must lock it in order to conform to MID standards Choose a number from 1 to 9999 for the lock password record it and store the password in a secure place NOTICE IRRECOVERABLE PASSWORD Record your meter s lock password information in a secure location Failure to follow these instructions can result in a permanently locked meter 1 Navigate to Maint gt Lock 2 Set Security Lock by entering a non zero password 3 Select Yes to confirm locking the meter then exit the screen A lock icon appears on the upper left corner of the screen 4 Make sure you record and store the Lock password in a secure location A lost Lock password cannot be recovered NOTE To change the lock password unlock the meter then lock it again using a different password Make sure you record this new password and store it in a secure place 146 HRB1684301 01 PowerLogic PM5500 series user manual User manual Modbus PowerLogic and Schneider Electric are either trademarks or registere
157. p 3 phase 4 wire center tapped delta 3PH4W Wye Ungnd 3 phase 4 wire ungrounded wye 3PH4W Wye Gnd 3 phase 4 wire grounded wye 3PH4W Wye Res Gnd 3 phase 4 wire resistance grounded wye Select how many voltage transformers VT are connected to the electrical power system VT Connect Direct Con Direct connect no VTs used 2VT 2 voltage transformers 3VT 3 voltage transformers VT Primary V 1 to 1 000 000 Enter the size of the VT primary in Volts VT Secondary V 100 110 115 120 Select the size of the VT secondary in Volts 1 12 13 11 12 11 13 12 I3 11 12 13 11 12 13 IN CT Primary A 1 to 1000000 CT Secondary A 1 5 CT on Terminal CT Primary Neu A 1 to 32767 Define how many current transformers CT are connected to the meter and which terminals they are conn ected to 1 CT connected to 11 terminal 1 CT connected to I2 terminal 1 CT connected to I3 terminal 2 CT connected to l1 I2 terminals 2 CT connected to I1 I3 terminals 2 CT connected to I2 I3 terminals 3 CT connected to l1 I2 I3 terminals 4 CT connected to 11 I2 I3 IN terminals Enter the size of the CT primary in Amps Select the size of the CT secondary in Amps This parameter displays when CT on Terminal is set to 11 12 13 IN Enter the size of the 4th Neutral CT primary in Amps CT Sec Neu A 1 5 This parameter displays when CT on Terminal is set to 11 12 13
158. pe of load inductive or capacitive contributing to the reactive power component of apparent power PF sign is positive for capacitive loads leading power factor PF sign is negative for inductive loads lagging power factor Related topics See Setting up regional settings on page 44 to change the HMI mode See Power energy and power factor on page 139 to learn how the meter calculates power factor Power demand is a measure of average power consumption over a fixed time interval NOTE If not specified references to demand is assumed to mean power demand The meter measures instantaneous consumption and can calculate demand using various methods Related topics See Demand setup on page 40 to set up demand using the front panel Power demand calculation methods Block interval demand Power demand is calculated by dividing the energy accumulated during a specified period by the length of that period How the power meter performs this calculation depends on the method and time parameters you select for example timed rolling block demand with a 15 minute interval and 5 minute subinterval To be compatible with electric utility billing practices the power meter provides the following types of power demand calculations Block interval demand e Synchronized demand Thermal demand You can configure the power demand calculation method from the front panel or using ION Setup For blo
159. pter 2 Hardware refererce acne sto 221 1 bottle tiiine ie cuban iie ED Fest aa Zea sa za uec doa ds eene k e Eaa AAE 15 Meter models sier tek ested eis ite itii ier efe te d i deep tad 15 LED indicators ie eie rere te Ae qe pee ieee 16 Alarm energy pulsing LED sseee emen 16 Heartbeat serial communications LED see 16 Ethernet communications LEDS s 17 Before you begln Verres te iie ei e diese FA 17 Safety precautions sssssssssssssssssesseee eene ener enne tenen nnn 17 Meter mounting i 5 2 a encoder cei actis ave due Ce ere eoe qe etn 17 Mounting the integrated display model PM5560 PM5561 18 Mounting the DIN rail mount model PM5563 sse 19 Removing the PM5563 sse eene 19 Meter WirlIg eei erste a ce ede ddn ID eee ieee oa 20 Power Syster 3 e eee e ete e ee ee 20 Direct connect voltage limits sse mm 20 Voltage and current input wiring sesssssseeeennns 22 Voltage input protection enne 22 Current input protection eee enne 22 Balanced system considerations ccccccecesecceeeeeeeeeeeeeeeeeeeaeeeeeeeeaees 22 Balanced 3 phase Wye system with 2 CTs ssssseeeee 23 Balanced 3 phase Wye or Delta system with 1 CT ss 23 Neutral and ground current ssssssseeeenenem enne 23
160. py See Device log export setup on page 55 for details on configuring the meter to perform regular data log exports according to a set schedule To export the meter data logs manually click Manual Export Click Logout to exit the meter webpages 58 HRB1684301 01 Chapter 6 Meter logging This section describes the meter s logging feature Meter data and events are stored in these logs e Data log Alarm log Maintenance log Data log The meter is shipped from the factory with data logging enabled for selected values Typically delivered energy kWh kVARh and kVAh is logged by default but you can configure the meter to record other measurements Setting up the data log Use ION Setup to configure data logging You can select up to 14 items to record in the data log and the frequency logging interval that you want those values updated NOTICE LOST DATA Save the contents of the data log before configuring it Failure to follow these instructions can result in data loss 1 Start ION Setup and open your meter in setup screens mode View Setup Screens See the ION Setup Help for instructions 2 Double click Data Log 1 Set up the logging frequency and measurements data to log Data Log 1 setup parameters Parameter Values Description Set this parameter to enable or disable data Status Enable Disable UM logging in the meter 1 minute 5 minutes 10 minutes 1
161. r energy pulsing this defines how many pulses are sent to the LED PUISE VYE B E Dr HU O for every 1 kWh 1 KVARh or 1kVAh of accumulated energy Active Energy Delivered Active Energy Received Active Energy Del Rec Reactive Energy Delivered Channel Reactive Energy Received E an channel to Reactive Energy Del Rec gy P g Apparent Energy Delivered Apparent Energy Received Apparent Energy Del Rec Related topics See Alarm display and notification on page 102 for details on using the front panel to view and acknowledge alarms See Alarm priorities on page 96 for a detailed description on the alarm energy pulsing LED s behavior when it is configured for alarm notification HRB1684301 01 81 Chapter 8 Input Output PowerLogic PM5500 series user manual 82 HRB1684301 01 Chapter 9 Meter resets Reset commands clear the meter s onboard data logs and related registers Meter resets are typically performed after you make changes to the meter s basic setup parameters such as power system frequency or PT CT settings to clear invalid or obsolete data in preparation for putting the meter into active service The meter reset commands are grouped into two categories Global Resets and Single Resets Related topics For meter reset procedures using ION Setup see Meter configuration using ION Setup on page 51 Front panel meter reset screens Global resets To access the meter re
162. r industry standards The meter contains firmware that can be upgraded using the following methods Meter firmware and upgrade method Firmware type Upgrade method Description os DLF3000 The OS operating system firmware contains code that controls the meter s features Language DLF3000 The language file contains translation strings to set the meter s display to the selected language 122 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 14 Maintenance and upgrades Meter firmware and upgrade method Continued Firmware type Upgrade method Description The FPGA app field programmable gate array application FPGA app DLF3000 firmware provides seamless transition between the meter s physical hardware and the firmware code The Ethernet files control how the meter webpages are displayed The files in the FW folder contains the code and initialization files to run Ethernet communications The www folder contains the webpages and javascript files Ethernet FTP Using DLF300 to upgrade firmware 1 Download the latest version of DLF3000 from www schneider electric com then install it on your computer NOTE DLF3000 is a free Schneider Electric utility for downloading firmware to your meter Download your meter s firmware from www schneider electric com Start DLF3000 Click Add Navigate to the folder where you saved your meter s firmware Select the f
163. r n Ser aiin 35 Configuring basic setup parameters ssesssee em 35 Configuring advanced setup parameters sesser 37 Demand Setup ti eee in ree repe b ee EHI dn 38 Multi tariff Set p 1 cote coute Lotte entere tern pte pde au cress 39 Communications setup essen eene eee nnne 39 Setting up serial communications se em 39 Setting up Ethernet communications ee 40 Alarms Setup 1 eue reor RE ERE ER ERE Dd CL YU dd 41 Input output setup vs ui eic eet red re ted oeste ete ea ree FYNY CED 41 HMl Settifigs iie een eas 42 Setting up the display sss eren 42 Setting up regional settings sse 42 Resetting the language siccin 2 geredet otn ote ea ta cede e dedi red 43 Setting up the screen passwords sese em 43 l ost password iiec cnni HO wd eri te SEL cote ed egi b ee aeeai eaaa 44 Setting the Glock iini i ee I d be Tee cade cs 44 Setting up the alarm energy pulsing LED ee 45 Chapter 4 Remote meter Setup 25 1 1L reset tI fastu te A eaaa r a aaa raa Paaa sadedevsssenuteeeadeahiedeeseeces 47 Downloading ION Setup ssseeene emen nennen nere 47 Upgrading ION Setup sssseeeenen eene nennen 47 Ethernet port setup ccccccccccceececeneaeceeeeseeeeeeeeeeeeeaaaeeseeesaaaeaeeeesesanaeeesenees 47 Using a web browser to set up Ethernet 0
164. rcent total harmonic distortion for each line to neutral phase voltage VL L Unbalance Percent voltage unbalance for each line to neutral phase voltage and worst DC recorded voltage unbalance Active Alarms Parameter Description This is a list of active unacknowledged alarm events with a date timestamp for Event each event the value that triggered the alarm e g pickup and a description of the event type 1 Click the event number to display additional details about the alarm for example the actual pickup or dropout value and which phase the alarm condition occurred Alarm History Parameter Description This is a historical list of acknowledged alarm events with a date timestamp for Event each event the value that triggered the alarm e g pickup and a description of the event type 1 Click the event number to display additional details about the alarm for example the actual pickup or dropout value and which phase the alarm condition occurred Inputs Outputs Parameter Description Inputs Displays the current status of the digital inputs Outputs Displays the current status of the digital outputs Data Log Description A list of timestamped data recorded in the meter s data log energy delivered in Wh VARh and VAh This menu allows you to navigate to the Meter and Communications webpages Meter This webpage contains information abou
165. red then press OK Move the cursor to point to the next parameter you want to modify press Edit make your changes then press OK Advanced setup parameters Parameter Values Description This label identifies the device e g Power Label _ Meter You cannot use the front panel to edit this parameter Use ION Setup to change the device label Specifies the minimum average current at the load before the timer starts The meter begins Load Timer Setpt A 0 9 counting the number of seconds the load timer is on i e whenever the readings are equal to or above this average current threshold Specifies the minimum peak current demand at the load for inclusion in total demand distortion TDD calculations If the load current is below the minimum peak current Pk dmd for TDD A 0 9 demand threshold the meter does not use the readings to calculate TDD Set this to O zero if you want the power meter to use the metered peak current demand for this calculation Press Yes to save your changes HRB1684301 01 37 Chapter 3 Front panel display and meter setup PowerLogic PM5500 series user manual Related topics See Meter configuration using ION Setup on page 53 to set up the meter using ION Setup Demand setup Demand is a measure of average consumption over a fixed time interval Use the Demand setup screens to define power demand current demand or input metering demand
166. ries user manual Meter wiring Power system For wiring instructions and safety precautions see the meter installation sheet that was shipped with your meter or download a copy at www schneider electric com Wire connections to the meter s voltage inputs control power digital outputs digital status inputs and RS 485 communications are terminated using the supplied pluggable wire connectors When wiring the meter s current inputs terminate the wire ends with ring or split ring crimp connectors Use the meter installation sheet when wiring the meter Connector locations Voltage inputs o Control power Ethernet ports Digital outputs Current inputs Digital status inputs ojmlm co o gt RS 485 port This section outlines typical reguirements for wiring the voltage and current inputs of the meter to the electrical power system For wiring instructions and safety precautions see the meter installation sheet that was shipped with your meter or download a copy at www schneider electric com Related topics e See Specifications on page 27 for voltage and current input limits Direct connect voltage limits You can connect the meter s voltage inputs directly to the phase voltage lines of the power system if the power system s line to line or line to neutral voltages do not exceed the meter s direct connect ma
167. riority level Use priorities to distinguish between events that require immediate action and those that do not require action Alarm notification through the meter display Alarm notification and recording method Alarm priority Alarm LED Alarm icon Alarm details Alarm logging Blinks while the alarm is Blinks while the alarm is active Alarm Click Details to display what caused the High icon remains displayed until alarm to pickup or drop off Click Ack to Recorded in alarm log active acknowledged acknowledge the alarm Medium Blinks DUE ATA Blinks while the alarm is active Glick Details to display what caused the Recorded in alarm log active alarm to pickup or drop off Low Blinks while the alarmis Blinks while the alarm is active Click Details to display what caus d the Recorded in alarm log active alarm to pickup or drop off None No activity None None Recorded in event log only 1 If the alarm energy pulsing LED is configured for alarming Active alarms When a pickup event occurs the active alarm list appears on the meter display s Active Alarms screen Press Detail to see more event information See Active alarms on page 101 for more information Multiple alarm considerations If multiple alarms with different priorities are active at the same time the display shows the alarms in the order they occurred Related topics See Monitoring on page 56
168. rm energy pulsing LED is factory set for energy pulsing only and cannot be modified or disabled Heartbeat communications LED The green heartbeat communications LED blinks at a slow steady rate to indicate the meter is operational The LED flashes at a variable faster rate when the meter is communicating over a Modbus serial communications port You cannot configure this LED for other purposes NOTICE UNINTENDED EGUIPMENT OPERATION A heartbeat LED that remains lit and does not blink or flash indicates a hardware problem In this case power down the meter and reapply power If the LED still does not blink or flash contact Technical Support Failure to follow these instructions may render your device inoperable HRB1684301 01 31 Chapter 3 Front panel display and meter setup PowerLogic PM5500 series user manual Related topics See Troubleshooting LED indicators on page 125 for additional maintenance information Alarm energy pulsing LED modes Notification icons The orange alarm energy pulsing LED can be configured for alarm notification or energy pulsing When configured for alarm notification this LED flashes when a high medium or low priority alarm is tripped The LED provides a visual indication of an active alarm condition or an inactive but unacknowledged high priority alarm When configured for energy pulsing this LED flashes at a rate proportional to the amount of
169. rmonic Distortion THD and Total Demand Distortion TDD and tdd Harmonics are integer multiples of the fundamental frequency of the power system Harmonics information is valuable for power quality analysis determining properly rated transformers maintenance and troubleshooting Harmonics measurements include per phase magnitudes and angles for the fundamental and higher harmonics relative to the fundamental frequency The meter s power system setting defines which phases are present and determines how line to line or line to neutral voltage harmonics and current harmonics are calculated Harmonics data provide information to determine how non linear loads affect the power system For example power system harmonics can cause current flow on the neutral conductor increase heating in electric motors and eventually damage connected equipment Power conditioners or harmonic filters can be used to minimize unwanted harmonics Crest factor is the ratio of peak to RMS voltage values For a pure sinusoidal waveform crest factor is equal to 1 414 The meter uses the following equation to calculate crest factor V ak Crest factor 2 RMS K factor relates the heating effect of a distorted current in a transformer to a sinusoidal current with the same RMS magnitude it describes a transformer s ability to serve non linear loads without exceeding rated temperature rise limits The K factor is equal to the sum of the squares of
170. ry alarm setup parameters Setting Option or range Description Yes checked or No z Enable cleared This enables or disables the alarm Priority High Medium Low None This sets the alarm priority and notification options See Alarm priorities on page 94 None Select Dig Output Digital Output D1 Select the digital output s you want to control when the Outputs Digital Output D2 alarm is triggered Digital Output D1 amp D2 Setting up digital alarms Select the digital alarm you want to configure then use the following controls to set up the alarm ION Setup controls are shown in parentheses Digital alarm setup parameters Setting Option or range Description Yes checked or No Enable cleared This enables or disables the alarm This sets the alarm priority and notification options Priority High Medium Low None See Alarm priorities on page 94 HRB1684301 01 95 Chapter 10 Alarms PowerLogic PM5500 series user manual Digital alarm setup parameters Continued Select Dig Output Outputs Setting Option or range Description Pickup Setpoint On Off Use this setting to control when to trip the alarm based Setpoint Pickup on the state of the digital input On or Off Pickup Time Dela This specifies the number of seconds the digital input p Y 10 to 999999 must be in the alarm pickup state before the alarm is
171. set screens navigate to Maint gt Reset Reset menu tree Maint Reset Global resets allow you to clear all data of a particular type such as all energy values or all minimum maximum values Meter Initialization is a special command that clears the meter s recorded logged data counters and timers It is common practice to initialize the meter after its configuration is completed before adding it to an energy management system 1 Navigate to Maint gt Reset 2 Move the cursor to point to Global Reset then press Select 3 Move the cursor to point to the parameter you want to reset then press Reset Global reset options Parameter Description Meter Initialization Clears all data listed in this table energy demand min max values counters logs timers and input metering data Energies Clears all accumulated energy values kWh kVARh kVAh Demands Clears all the demand registers Min Max Clears all the minimum and maximum registers Alarm Counts amp Logs Clears all the alarm counters and alarm logs I O Counts amp Timers Clears all the I O counters and resets all the timers Input Metering Clears all input metering energy data 4 Enter the reset password default is O then press OK Press Yes to confirm the reset or No to cancel and return to the previous screen HRB1684301 01 83 Chapter 9 Meter resets PowerLogic PM5500 series user manual
172. set the device ID to 255 Address 1 to 247 This value is used in both Ethernet and serial communications you may need to update your Ethernet settings to re establish Ethernet communications Select the speed for data transmission The baud rate Baud Rate 9600 19200 38400 must be the same for all devices in a communications loop Select None if the parity bit is not used The parity Parity Even Odd None setting must be the same for all devices in a communications loop Click Send to save your changes to the meter You need to reconfigure ION Setup to match the changed settings in order to re establish communications with your meter NOTE If you set the protocol to ASCII 7 ASCII 8 or JBus you cannot use ION Setup to reconnect to the meter ION Setup does not communicate using these protocols 10 Exit ION Setup Using an Ethernet gateway to set up RS 485 NOTE Configuring the serial communications settings using this method may cause ION Setup to lose communications when the changes are sent to your meter You must HRB1684301 01 49 Chapter 4 Remote meter setup PowerLogic PM5500 series user manual reconfigure ION Setup to match the new settings to re establish communications with your meter 1 oa 5 o 9 If applicable disconnect all serial devices presently connected to the Ethernet gateway s RS 485 port Configure the Ethernet gateway s serial port settings to ma
173. setpoint setting and remains there long enough to satisfy the pickup time delay period AT1 the alarm condition is set to ON When the value falls below the dropout setpoint setting and remains there long enough to satisfy the dropout time delay period AT2 the alarm condition is set to OFF HRB1684301 01 89 Chapter 10 Alarms PowerLogic PM5500 series user manual A Pickup setpoint AT2 Dropout time delay in seconds B Dropout setpoint EV2 End of alarm condition AT1 Pickup time delay period in seconds AT3 Alarm duration in seconds EV1 Start of alarm condition Max1 Maximum value recorded during pickup period Max2 Maximum value recorded during alarm period The meter records the date and time when the alarm event starts EV1 and when it ends EV2 The meter also performs any task assigned to the event such as operating a digital output The meter also records maximum values Max1 Max2 before during or after the alarm period Under setpoint When the value falls below the pickup setpoint setting and remains there long enough to satisfy the pickup time delay period AT1 the alarm condition is set to ON When the value rises above the dropout setpoint setting and remains there long enough to satisfy the dropout time delay period AT2 the alarm condition is set to OFF EV1 EV2 A Pickup setpoint AT2 Dropout time delay in seco
174. stead of monthly 1 Click Setup gt D evice Log Export 2 Make sure that the Transport setting is enabled e g set to HTTP Configure the parameters as appropriate Device Log Export Parameter Values Description Transport Disabled HTTP Select Disabled to disable exporting of meter data logs or select HTTP to enable exporting of meter data logs Schedule Daily Weekly Monthly Select Daily to set the meter data log export to once a day Use the Time of Day field to select what time the data log export occurs each day Select Weekly to set the meter data log export to once a week Use the Time of Day and Day of Week fields to select what time and day the data log export occurs each week Select Monthly to set the meter data log export to once a month Use the Time of Day and Day of Month fields to select what time and day the data log export occurs each month HTTP Parameters Server IP Address Enter the IP address of the server for the data log export Server TCP Port Enter the server port number for HTTP communications Proxy Server IP Address Enter the proxy server IP address Proxy Server TCP Port Enter the proxy server TCP port number Enter the network path of the folder where the data logs PATH are to be exported Field Name Enter the name of the exported data log Host Name If using a virtual host name enter the name here Usern
175. stortion and K factor data for each phase voltage K F A K F 1 K F B K F 2 K F C K F 3 Crest Crest factor data for each phase current la 11 Ib 12 Ic I3 ams I V L L U V L N V line to line phase voltage Vab U12 Vbc U23 Vca U31 and line to neutral phase voltage Van V1 Vbn V2 Vcn V3 Related topics See Power quality on page 121 62 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 7 Viewing meter data Power Summary of real time power consumption values for total active power in kW Total Ptot total reactive power in kVAR Total Otot and total apparent power in kVA Total Stot Per phase and total power values for active power in kW A P1 B P2 C P3 Total Ptpt reactive power in kVAR A Q1 B Q2 C Q3 Total Qtot and apparent power in kVA A S1 B S2 C S3 Total Stot Summary of peak power demand values in the previous Last demand interval period for active power in kW reactive power in kVAR and apparent power in kVA Total and per phase peak power demand values in the previous Last demand interval for active power demand Wd P reactive power demand VARd Q and apparent power demand VAd S For the selected power demand screen active reactive or apparent each of these sub screens total and per
176. t 1 By this definition digital input 1 must be associated with the multi tariff feature in order to set the tariff to Input mode Digital input requirements for required number of tariffs Number of Digital inputs required tariffs required Configuration 1 Configuration 2 1 1 digital input 1 1 digital input 1 2 1 digital input 1 2 digital input 1 and 2 3 2 digital input 1 and 2 2 digital input 1 and 2 4 2 digital input 1 and 2 3 digital input 1 2 and 3 5 3 digital input 1 2 and 3 3 digital input 1 2 and 3 6 3 digital input 1 2 and 3 3 digital input 1 2 and 3 7 3 digital input 1 2 and 3 3 digital input 1 2 and 3 8 3 digital input 1 2 and 3 4 digital input 1 2 3 and 4 Configuration 1 8 tariff assignment using 3 digital inputs Tariff Digital input 4 Digital input 3 Digital input 2 Digital input 1 T1 N A 0 0 0 T2 N A 0 0 1 T3 N A 0 1 0 T4 N A 0 1 1 T5 N A 1 0 0 T6 N A 1 0 1 T7 N A 1 1 0 T8 N A 1 1 1 There is no inactive tariff with this configuration Configuration 2 8 tariff assignment using 4 digital inputs Tariff Digital input 4 Digital input 3 Digital input 2 Digital input 1 None 0 0 0 0 T1 0 0 0 1 T2 0 0 1 0 T3 0 0 1 1 T4 0 1 0 0 HRB1684301 01 105 Chapter 11 Multi tariff feature PowerLogic PM5500 series user manual Config
177. t the meter Meter Information displays the meter model serial number and manufacture date Firmware Version displays the version numbers of the installed firmware OS RS Ethernet Language and FPGA Communications This webpage displays the meter s current time and the meter s last boot time This webpage also contains diagnostics information for Ethernet HTTP server HTTP client and Modbus server This data aids in troubleshooting communications Click Reset to clear the stored information on this page HRB1684301 01 57 Chapter 5 Meter webpages PowerLogic PM5500 series user manual Maintenance Exporting data logs Logging out This menu allows you to navigate to the Registers and Maintenance Log webpages Registers The Read Device Registers page allows you to access the meter and read a specified block of Modbus registers 1 Enter values in the Starting Register and Number of Registers fields 2 Select the number format of the registers Decimal Hexadecimal Binary ASCII or Float 3 Click Read Maintenance Log The Maintenance Log page displays a record of meter events and in particular changes to meter setup Each event is date timestamped The Value field shows a brief description what changed and the Event Type specifies which area of the meter was affected Related topics Go to www schneider electric com and search for your meter s Modbus register list to download a co
178. t up Ethernet You can perform the initial configuration of your meter s Ethernet settings using the following steps 1 Disconnect your computer from the network If your computer has wireless communications make sure you disable the wireless network connection as well 2 Use an Ethernet cable to connect the computer to one of the meter s Ethernet ports 3 Open a web browser and enter 169 254 0 10 in the address field HRB1684301 01 47 Chapter 4 Remote meter setup PowerLogic PM5500 series user manual Meter setup through Ethernet RS 485 port setup Log in to the meter webpages The default login values are Username user1 Password pass1 Click Setup gt Ethernet Modify the Ethernet setup parameters with the settings your system administrator assigned for the meter Ethernet amp TCP IP Parameter Description Ethernet MAC Address Displays the meter s factory programmed MAC address This information is read only and cannot be changed This controls the network protocol for your device which the meter uses to obtain its IP address DHCP Dynamic Host Configuration Protocol BOOTp Bootstrap Protocol UN Static Use the static value programmed in the IP Address Acquistion IP Address setup register Mode e Default Use 85 16 as the first two values of the IP address then convert the last two hexadecimal values of the MAC address to decimal and use this as the last two values o
179. t you want to Edit compare against each other The logic alarm is set when the result of the specified logic operation on all inputs is true Enable y A a Orie This enables or disables the alarm cleared ION Setup lets you modify the default label so it more Label Logic Alarm 1 to Logic clearly identifies your logic alarm You can only use Alarm 10 default labels letters numbers and underscores Spaces are not allowed Output of AND operation is True only if all inputs are AND True NAND Output of NAND operation is True if one or more inputs are False Type OR Output of OR operation is True if one or more inputs are True Output of NOR operation is True only if all inputs are NOR False Output of XOR operation is True if only one input is XOR True and all other inputs are False C A This sets the alarm priority and notification options Priority High Medium Low None See Alarm priorities on page 94 None Select Dig Output Digital Output D1 Select the digital output s you want to control when the Outputs Digital Output D2 alarm is triggered Digital Output D1 amp D2 HRB1684301 01 97 Chapter 10 Alarms PowerLogic PM5500 series user manual Logic alarm setup error prompts Both the meter and ION Setup have error checking provisions and alert you with an error message if the following actions are attempted The output of a logic alarm is used as an input to itself The same so
180. tch the meter s default serial communications settings Baud rate 19200 Parity Even Connect the meter s RS 485 port to the Ethernet gateway Connect the Ethernet gateway to the LAN Start ION Setup in Network mode Add an Ethernet gateway site and set its properties IP address IP address of the Ethernet gateway Port 502 for Modbus RTU Add a meter to the site and set its properties Type PowerLogic PM5000 series Power Meter Unit ID 1 Use the RS 485 Base Comm setup screen to modify the meter s serial communications settings RS 485 port settings Parameter Values Description Select the communications format used to transmit data The protocol must be the same for all devices in a Modbus RTU JBus communications loop FFO ASCII 8 ASCII 7 ION Setup does not support ASCII 8 ASCII 7 or JBus protocols Set the address for this device The address must be unique for each device in a communications loop For JBus protocol set the device ID to 255 Address 1 to 247 This value is used in both Ethernet and serial communications if you change this value you need to update your meter properties in ION Setup to re establish Ethernet communications Select the speed for data transmission The baud rate Baud Rate 9600 19200 38400 must be the same for all devices in a communications loop Select None if the parity bit is not used The parity Parity Even Odd None setting
181. ter s declaration of compliance with the Measuring Instruments Directive 2004 22 EC Directive 2004 22 EC is the Measuring Instruments Directive MID from the European Parliament amp Council that harmonises many aspects of legal metrology across the EU states Scope Although MID applies to various measuring instruments the scope of this section is limited only to the MID standards that apply to AC electricity metering eguipment EN 50470 1 2006 Electricity metering eguipment a c Part 1 General reguirements tests and test conditions Metering eguipment class indexes A B and C EN 50470 3 2006 Electricity metering eguipment a c Part 3 Particular reguirements Static meters for active energy class indexes A B and C Related topics Search the internet for Measuring Instruments Directive or Directive 2004 22 EC for more information MID compliance for the meter The meter complies to these MID standards and class indexes EN 50470 1 2006 Class C EN 50470 3 2006 Class C The meter achieves MID compliance through application of Annex B Type Examination and Annex D Declaration of Conformity to Type Based on Quality Assurance of the Production Process Specifications relevant to MID The meter meets all specifications listed in Specifications on page 27 See that section for mechanical and electrical specifications such as IP rating rated operating conditions protective class
182. ters per hour per second or per minute consumption rate Thousand cubic feet volume measurements are MCF cfm converted to calculate cubic feet per minute consumption rate Ibs Ib hr Kilopound klbs measurements are converted to klbs calculate pounds per hour consumption rate Kilogram measurements are set to calculate kilogram kg kg hr per hour consumption rate British therm equivalent to 100 000 BTU heat Therm Thm h measurements are set to calculate therm per hour consumption rate Viewing input metering data You can use the front panel to view the input metering data Using the meter s display Navigate to the energy screens and select the input metering channel to Ch1 Ch4 to view the data VARh Tariff Inp Mtr Ch 1 Ch2 Ch3 Ch4 NOTE The display screen shows accumulation values from 0 to 99999 The display rolls over to zero when accumulated value reaches 100000 and starts incrementing again Digital output applications Digital outputs are typically used in switching applications for example to provide on off control signals for switching capacitor banks generators and other external devices and eguipment They can also be used in demand synchronization applications where the meter provides pulse signals to the input of another meter to control its demand period The digital output can also be used in energy pulsing applications where a receiving device determines energy usa
183. the end Control Mode Alarm Energy of every demand interval Alarm the digital input is associated with the alarm system The meter sends a pulse to the digital output port when the alarm is triggered Energy The digital output is associated with energy pulsing When this mode is selected you can select the energy parameter and the set the pulse rate pulses kW Normal this applies when control mode is set to External or Alarm The digital output remains in the ON state until an OFF command is sent by the computer or PLC Timed the digital output remains ON for the period defined by the On Time setup register Coil Hold this applies when control mode is set to Behavior Mode Normal Timed Coil Hold External or Alarm For a unary alarm that is associated with a digital output you must set Behavior Mode to Coil Hold The output turns on when the energize command is received and turns off when the coil hold release command is received In the event of a control power loss the output remembers and returns to the state it was in when control power was lost On Time s 0 to 9999 This defines the pulse width ON time in seconds Power Current Input Applies when Control Mode is set to Demand Sync Select Dind System Metering Select the demand system to monitor Over Current Ph Under Current Ph Over Current N Over Current Gnd Over Voltage L L Under Voltage L L Over Voltage L N Under Voltage L
184. the harmonic currents multiplied by the squares of the harmonic order The meter uses the following equation to calculate K factor oo K factor Y Ih xh h 1 Where n is the harmonic order and In is the true RMS current of harmonic order n Total Harmonic Distortion and Total Demand Distortion Total Harmonic Distortion THD is a measure of the total per phase voltage or current harmonic distortion present in the power system It provides a general indication of the quality of a waveform THD is calculated for each phase of both voltage and current Total Demand Distortion TDD is the per phase harmonic current distortion against the full load demand of the electrical system TDD indicates the impact of harmonic distortion in the system For example if your system is showing high THD values but a HRB1684301 01 117 Chapter 13 Power quality PowerLogic PM5500 series user manual low demand the impact of harmonic distortion on your system might be insignificant However at full load the THD value for the current harmonics is equal to TDD so this could negatively impact your system The meter uses the following series of equations to calculate THD and TDD Harmonic content calculations 1 Calculate harmonic content HC HC J H2 H3 H4 2 Hc harmonic content is equal to the RMS value of all the non fundamental harmonic components in one phase of the power system 2 Calculate the harmo
185. tically disabled if the digital input changes state more than 4 times in one second or more than 10 times in ten seconds See Digital input setup on page 72 to adjust the Debounce setting for the digital inputs Standard alarms Standard 1 Sec alarms have a detection rate egual to the 50 60 meter cycle which is nominally 1 second if the meter s freguency setting is configured to match the system freguency 50 or 60 Hz These setpoint driven alarms monitor certain behaviors events or unwanted conditions in your electrical system Many of the standard alarms are three phase alarms Alarm setpoints are evaluated for each of the three phases individually but the alarm is reported as a single alarm The alarm pickup occurs when the first phase exceeds the alarm pickup magnitude for the pickup time delay The alarm is active as long as any phase remains in an alarm state The alarm dropout occurs when the last phase drops below the dropout magnitude for the dropout time delay Standard 1 Sec alarms Alarm label Valid range and resolution Units ION Setup Meter display ION Setup Meter display Over Phase Current Over Current Ph 0 000 to 99999 000 0 to 99999 Under Phase Current Under Current Ph 0 000 to 99999 000 0 to 99999 Over Neutral Current Over Current N 0 000 to 99999 000 0 to 99999 88 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 10 Alarms Standard 1 Sec alarms Continued
186. tings using this method may cause ION Setup to lose communications when the changes are sent to your meter You must reconfigure ION Setup to match the new settings to re establish communications with your meter 1 a o Mb 9 Configure the serial communications converter s settings to be compatible with the meter s default serial communications settings Connect the meter s RS 485 port to the serial communications converter Connect the communications converter to the computer Start ION Setup in Network mode Add a serial site and set its properties Comm Link Serial Comm Port select which serial or USB port the communications converter is attached to Baud rate 19200 Format select a format with even parity Add a meter to the site and set its properties Type PowerLogic PM5000 series Power Meter Unit ID 1 Use the setup screens to modify the meter s setup parameters Use the RS 485 Base Comm setup screen to modify the meter s serial communications settings RS 485 port settings Parameter Values Description Select the communications format used to transmit data The protocol must be the same for all devices in a Modbus RTU JBus communications loop ASCII 8 ASCII 7 ION Setup does not support ASCII 8 ASCII 7 or JBus protocols Protocol Set the address for this device The address must be unique for each device in a communications loop For JBus protocol
187. tions port settings You must modify the default settings before connecting the meter to your Ethernet or RS 485 network To do this you need a web browser to configure the Ethernet port ION Setup to configure the RS 485 port NOTE Your meter s serial communications port ID Com1 ID is used in both Ethernet and serial communications you need to change the Com1 ID meter property in ION Setup if you modify the meter s RS 485 address Downloading ION Setup Ethernet port setup Go to www schneider electric com and search for ION Setup to download a copy of the installation file Upgrading ION Setup If you already have an existing installation of ION Setup it is recommended that you upgrade it to the latest version in order to access new ION Setup features or enhancements and properly configure features available on your device Refer to the online help to learn how to use ION Setup Use a web browser to connect to the meter webpages and modify the default Ethernet settings before connecting the meter to your local area network LAN The meter is factory configured with the following default Ethernet communications settings e IP address 169 254 0 10 e Subnet mask 255 255 0 0 Gateway 0 0 0 0 HTTP server Enabled Device name PM55 xxxxxxxxxx where xxxxxxxxxx is the meter s factory serial number with leading zeros if serial number is less than 10 characters IP method Stored Using a web browser to se
188. trol Mode Behavior Mode External Demand Sync Alarm Energy Normal Timed Coil Hold This field displays how the digital output functions External the digital output is controlled remotely either through software or by a PLC using commands sent through communications Demand Sync the digital output is associated with one of the demand systems The meter sends a pulse to the digital output port at the end of every demand interval Alarm the digital input is associated with the alarm system The meter sends a pulse to the digital output port when the alarm is triggered Energy The digital output is associated with energy pulsing When this mode is selected you can select the energy parameter and the set the pulse rate pulses kW Normal this mode applies when control mode is set to External or Alarm The digital output remains in the ON state until an OFF command is sent by the computer or PLC Timed the digital output remains ON for the period defined by the On Time setup register Coil Hold this mode applies when control mode is set to External or Alarm For a unary alarm that is associated with a digital output you must set Behavior Mode to Coil Hold The output turns on when the energize command is received and turns off when the coil hold release command is received In the event of a control power loss the output remembers and returns to the state it was in when control power was lost On Time s S
189. ts la I1 Ib I2 Ic 13 In line to line voltages Vab U12 Amps I V L L U V L N V Vbc U23 Vca U31 and line to neutral voltages Van V1 Vbn V2 Vcn V3 thd thd ratio of harmonic content to the rms value of total harmonic content phase currents la 11 Ib 12 Ic I3 In line to line Amps I V L L U V L N V voltages Vab U12 Vbc U23 Vca U31 and line to neutral voltages Van V1 Vbn V2 Vcn V3 Related topics See Power quality on page 121 Unbalance Unbal Percent unbalance readings for line to line voltage V L L U line to neutral voltage V L N V and current Amps I 64 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 7 Viewing meter data Minimum maximum Amps I Volts U V Power PQS PF Hz F THD Unbal Alarm Input Output VL L U VL N V Active P Reac Q Appr S True Disp THD thd Amps I V L L U V L N V MnMx MnMx Summary of maximum values for line to line voltage line to neutral voltage phase current and total power Amps I Minimum and maximum values for phase current Volts U V Minimum and maximum values for line to line voltage and line V L L U V L N V to neutral voltage Power PQS Minimum and maximum values for active reactive and apparent Active
190. tting up logic alarms Standard 1 sec alarm setup parameters Continued Setting Option or range Description DO Set Point Lead Lag Applies to PF power factor alarms only Use this set the PF value and quadrant to set the dropout setpoint Lead Lag Lead or Lag for an over PF condition PF Leading or under PF ips condition PF Lagging See Power factor PF on page 91 None Select Dig Output Outputs Digital Output D1 Digital Output D2 Digital Output D1 amp D2 Select the digital output s you want to control when the alarm is triggered Use ION Setup to configure logic alarms NOTE You must first configure the alarms you want to use as inputs to a logic alarm For example if you use a standard 1 Sec alarm as one of the inputs you must set up its setpoint pickup dropout and delay parameters 1 Select the logic alarm you want to set up then click Edit 2 Select the alarms you want to use as inputs to the logic alarm Click the double arrow button to move the selected alarm to the Selected max 4 box then click OK Repeat to add more inputs to the logic alarm Configure the rest of the alarm setup parameters click OK then Send to save your changes to the meter Logic alarm setup parameters Setting Option or range Description See the preceding procedure This button allows you to select up to 4 input parameters tha
191. tus should be Oueued The Group Device List shows the device or devices being upgraded Click Download NOTE A warning message displays Warning Relays on PowerLogic Metering Devices will be de energized if selected for download and will remain in this mode until a successful download is completed Press OK to start the download 22 Click OK The Firmware Upgrade Group status changes to Active then updates to show the current upgrade progress in percent complete The Group Device List status shows Entering Download Mode then changes to Downloading when the firmware is being downloaded to the meter Estimated Time Remaining shows the firmware download progress You can also check the progress on meters eguipped with a display panel The meter display shows Download in progress and a shows a dynamically incrementing number for Percent Complete up to 100 23 When the firmware upgrade is complete the Firmware Update Group status shows Complete Passed The Group Device List status shows Successful Download Click Finished 24 To exit the download firmware program click Yes when prompted to quit DLF Upgrading the Ethernet card The Ethernet card is the hardware component in your meter that is responsible for Ethernet communications The Ethernet files are contained in two folders FW and www FW contains the code and other initialization files that run Ethernet commun
192. unter for the total number of days hours minutes and seconds the meter has been powered Related topics See Timer on page 118 Maintenance Ea Y Meter Basic Adv Dmd Tariff gt l Comm gt Serial Cust1s Pl MO 4 LED D In DOut Inp Mir gt l Alarm 1 Sec Unary Dig Logic Bl HMI gt Displ Region Pass gt l Clock H Meter gt l Cl Pwr Phasor gt Polar sot ony Screens to perform global or single resets Meter configuration screens Basic screens to define the power system and power system components elements Adv screens to set up the active load timer and define the peak demand current for inclusion in TDD calculations Dmd screens to set up power demand current demand and input metering demand Tariff screens to set up tariffs Screens to set up serial and Ethernet communications Screens to set up standard 1 Sec unary digital logic and custom Cust1s alarms Screens to set up the alarm energy pulsing LED digital inputs digital outputs and input metering channels Screens to configure display settings edit regional settings and set up front panel meter access passwords Screens to set up the meter date and time Diagnostic screens provide meter information for troubleshooting Model serial number
193. up screens Basic setup screen NEIN Power System SPH4M Wye Unand UT Connect CT Secondary CH 5 Sus Frequency Hz 2uT FUT Primary cU 4306 68 kPhase Rotation In this example the down arrow w indicates there are more parameters below the selected option Press the down arrow button to display additional parameters The down arrow disappears when the last item in the list is selected and there are no more parameters to display Front panel meter setup Meter configuration can be performed directly through the front panel buttons or remotely through software This section contains instructions on setting up the meter using the front panel Related topics See Remote meter setup on page 49 to set up the meter through communications Configuring basic setup parameters Proper configuration of the meter s basic setup parameters is essential for accurate measurement and calculations Use the Basic Setup screen to define the electrical power system that the meter is monitoring NOTICE UNINTENDED EQUIPMENT OPERATION After modifying any basic setup parameter Verify all standard alarms settings are correct and make adjustments as necessary Re enable all configured alarms Failure to follow these instructions can result in incorrect alarm functions If standard 1 sec alarms have been configured and you make subsequent changes to the meter s basic setup all alarms are disab
194. urce is duplicated as another input on the same logic alarm The source register used is invalid or is a nonexistent parameter Setting up custom alarms Use ION Setup to configure custom Cust1s alarms 1 Select the custom alarm you want to set up then click Enable to display the available setup options 2 Use the dropdown list to select the parameter you want to set for your custom alarm Use the Label box to define a name for your custom alarm 4 Use the dropdown list to select the setpoint condition you want to monitor Over Alarm condition occurs when the value goes above the pickup setpoint setting Under Alarm condition occurs when the value goes below the pickup setpoint setting Over absolute Alarm condition occurs when the absolute value goes above the pickup setpoint setting Under absolute Alarm condition occurs when the absolute value goes below the pickup setpoint setting 5 Configure the rest of the alarm setup parameters click OK then Send to save your changes to the meter Custom alarm setup parameters Setting Option or range Description Enable Yes checked or No cleared This enables or disables the alarm Setpoint Pickup See Standard 1 Sec alarms on page 88 This is the value magnitude you define as the setpoint limit for triggering the alarm For over conditions this means the value has gone above the Pickup limit For
195. uring tariffs Configuration 2 8 tariff assignment using 4 digital inputs Continued T5 0 1 0 1 T6 0 1 1 0 T7 0 1 1 1 T8 1 0 0 0 This digital input configuration 0000 means there are no active tariffs all tariffs are disabled E Any configuration above 8 i e 1001 and higher is invalid and therefore ignored by the meter the active tariff does not change This section explains how to set up tariffs Tariff setup menu tree Maint Reset Setup Meter Basic Adv Dmd You can change the tariff mode using the front panel When the meter is set to command mode for tariffs the active tariff is controlled by Modbus commands sent from your energy management system or other Modbus master Related topics e Search your meter s Modbus register list at www schneider electric com to download the Modbus map Configuring time of day mode tariffs When the meter is set to time of day for tariffs the active tariff is determined by the day type the start and end times and the start and end dates The time of day tariff is not a calendar the meter does not calculate the corresponding day of the week to a specific date but February 29th is considered a valid date if you are programming the meter during a leap year When you enter tariff times using the front panel be aware that the displayed minute value includes the entire minute For example an end time of 01 15
196. used for alarms When configured for alarm notification this LED flashes when a high medium or low priority alarm is tripped The LED provides a visual indication of an active alarm condition or an inactive but unacknowledged high priority alarm When configured for energy pulsing this LED flashes at a rate proportional to the amount of energy consumed This is typically used to verify the power meter s accuracy Related topics See Energy pulsing on page 80 for details on configuring the alarm energy pulsing LED for energy pulsing See LED alarm indicator on page 99 for details on configuring the alarm energy pulsing LED for alarming Heartbeat serial communications LED The heartbeat serial communications LED blinks at a slow steady rate to indicate the meter is operational The LED flashes at a variable faster rate when the meter is communicating over a Modbus serial communications port 16 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 2 Hardware reference You cannot configure this LED for other purposes NOTICE UNINTENDED EQUIPMENT OPERATION A heartbeat LED that remains lit and does not blink or flash indicates a hardware problem In this case power down the meter and reapply power If the LED still does not blink or flash contact Technical Support Failure to follow these instructions may render your device inoperable Ethernet communications LEDs
197. user manual Phasors can be used to troubleshoot incorrect connections on the meter s voltage and current inputs The phasors can reveal switched phase wiring or polarity errors NOTE If two phasor lines overlap i e if they have the same relative phase angle only one phase label is visible as phasor diagram labels are overwritten dynamically on the display panel Maintenance log The meter s maintenance log can be accessed using the webpages See Diagnostics on page 59 126 HRB1684301 01 Chapter 15 Testing overview Verifying accuracy All meters are tested and verified at the factory in accordance with International Electrotechnical Commission IEC and American National Standards Institute ANSI standards Your digital power meter does not require re calibration However in some installations a final accuracy verification of the meters is required especially if the meters will be used for revenue or billing applications The most common method for testing meter accuracy is to apply test voltages and currents from a stable power source and compare the meter s readings with readings from a reference device or energy standard Accuracy test requirements Signal and power source The meter maintains its accuracy during voltage and current signal source variations but its energy pulsing output needs a stable test signal to help produce accurate test pulses The meter s energy pulsing mechanism needs
198. wer Factor CI 64 Freguency esiste A E A A AEA T 64 Total harmonic distortion sssssseeee emen 64 MEIcu SPEED FRY DH RY NFYFC ie edea eaei a daeta 64 Minimum maxirm tm 2 022 2 RR dod rod ddd RED FYDR YY 65 Alarm a ete ee tte e YT FFI EF 65 Ig e wA O Ure aqu 65 He 66 Maintenance iere Etro Pe OR EE ir 66 Gi qoc M 67 Viewing meter data from a web browser ssssssesssenee 67 Using ION Setup to view or modify configuration data ssssse 67 Using software to view meter data sssssee eme 67 Power Monitoring Expert nennen nnns 67 PowerSCADA Expert airin niidi dee dre trennen dede 68 Modbus command interface ssesseeeeee emm enn 68 Ghapter 8 Input OutpUt 1 1 recitare rie Ln LY WRN raaa FYN nA nue ca avum uro daw WYN wen NOL wy THAU OLA Y ana dla a Dan nno d a Du and 69 Digital input applications sssen mm 69 WAGES monitoring iei ale eee eed ee ieee 70 WAGES application example eeeee 70 Digital inp t setup 5 nenne ete dienes iretur ertet dee dried ec 70 Configuring digital inputs using ION Setup sene 70 Configuring digital inputs using the front panel sssse 71 Inp t metering 7 rere red trei ERE Rr AES DL OE AED Ee ERAI ER HERI Reda Input metering setup Configuring input metering using ION Setup
199. ximum voltage limits The meter s voltage measurement inputs are rated by the manufacturer for up to 400 V L N 690 V L L However the maximum voltage allowed for direct connection may be lower depending on the local electrical codes and regulations In US and Canada the maximum voltage on the meter voltage measurement inputs may not exceed 347 V L N 600 V L L If your system voltage is greater than the specified direct connect maximum voltage you must use VTs voltage transformers to step down the voltages 20 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 2 Hardware reference Power system setup parameters Power system description Direct connect maximum Symbol Meter setting UL IEC of VTs if required Single phase 2 wire line to neutral 480 V L N 480 V L N 1 VT 1PH2W LN Single phase 2 wire line to line 600 V L L 600 V L L 1VT 1PH2W LL Single phase 3 wire line to line with neutral 347 V L N 400 V L N 600 V L L 690 V L L 21 1PH3W LL with N 3 phase 3 wire Delta ungrounded 3PH3W Dit Ungnd 3 phase 3 wire Delta corner grounded 600 V L L 600 V L L 2VT 3PH3W Dit Crnr Gnd 3 phase 3 wire Wye ungrounded 600 V L L 600 V L L 2VT 3PH3W Wye Ungnd 600 V L L 600 V L L 2VT 3 phase 3 wire Wye grounded 600 V L L 600 V L L 2VT 3PH3W Wye Gnd 3 phase 3 wire Wye resistance grounded 600 V L L 600 V L L 2VT 3PH3W Wye Res Gnd 3 ph
200. y meter connect its pulse output to the power meter s digital input Use ION Setup to associate the digital input for input metering and configure the input metering operation mode pulse weight consumption units and demand units Related topics See Digital input setup on page 72 for details on configuring the digital inputs See Input metering setup on page 75 for details on configuring input metering Timer The meter supports an active load timer and an operating timer Use the meter display to navigate to the Timer screens Operating timer The operating timer Timer gt Oper keeps track of how long the meter has been powered up 114 HRB1684301 01 PowerLogic PM5500 series user manual Chapter 12 Measurements and calculations Load timer The load timer keeps track of how much time the input current exceeds the specified load timer setpoint current Related topics See Configuring advanced setup parameters on page 39 to set up the minimum current for the load timer setpoint HRB1684301 01 115 Chapter 12 Measurements and calculations PowerLogic PM5500 series user manual 116 HRB1684301 01 Chapter 13 Harmonics overview Crest factor and K factor Power quality This section describes the meter s power quality features and how to access power quality data The meter measures voltage and current harmonics up to the 63rd harmonic and calculates Total Ha
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