PowerLogic PM8000 user manual
Contents
1. PM8000 Custom and SNMP Agent standard MIB files SNMP Mapping SNMP manager Input 1 Vila Module software Input 10 a mean MIB files SNMP requires that you load your meter s ION MIB file available for download from www schneider electric com into the NMS Your meter is compliant with MIB II as defined by the standard MIB file RFC 1213 You must install RFC 1213 which is required to read basic network information for the meter for example TCP IP traffic or number of packets received if it is not included with your SNMP manager software Community strings A community string is a text string which acts to help authenticate requests from the NMS to your meter There are two community strings on your meter e Read Only Community this community string is used by SNMP get read only requests The read only community string s initial factory set value is public Read Write Community this community string is used by SNMP set read write requests The read write community string s initial factory set value is private NOTE You can also use the read write community string for SNMP get read only requests If your meter receives an incorrect community string it generates an AuthenticationFailure trap 67 Chapter 9 Protocols 68 PowerLogic PM8000 series user manual System strings A system string is a text string which can be configu2. Sample Var hour test points Var hour test point 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 F 10 of the nominal current 100 of the nominal voltage and nominal frequency at zero Light load z o power factor current lagging voltage by 90 phase angle Inductive load lagging power 100 of the nominal current 100 of the nominal voltage and nominal frequency at 0 87 factor lagging power factor current lagging voltage by 30 phase angle Typical sources of test errors 7EN02 0336 00 If excessive errors are observed during accuracy testing examine your test setup and test procedures to eliminate typical sources of measurement errors e Loose connections of voltage or current circuits often caused by worn out contacts or terminals Inspect terminals of test equipment cables test harness and the meter under test 179 Chapter 22 Revenue PowerLogic PM8000 series user manual e Device ambient temperature is significantly different than 23 C 73 F Floating ungrounded neutral voltage terminal in any configuration with unbalanced phase voltages Inadequate device control power resulting in the device resetting during the test procedure Ambient light interference or sensitivity issues with the optical sensor Un
3. ig Demand Total Demand Delivered Peak Demand Delivered Total TOU Peak Demand Delivered A B TOU Peak Demand Delivered C D Total Demand Received Peak Demand Received Total TOU Peak Demand Received A B TOU Peak Demand Received C D ATT Power Factor Total Min Power Factor Total Max Energy Delivered Received Energy ES TOU Energy Delivered A amp B rou Energy Delivered C amp D Energy Received um H EN50160 Power Frequency gt Power Frequency Compliance H EN50160 Nominal Supply Voltage pl EN50160 Supply Voltage V1 H EN50160 Supply Voltage V2 H EN50160 Supply Voltage V3 pl EN50160 Volts Unbalance H EN50160 Volts Harmonics V1 H EN50160 Volts Harmonics V2 ba EN50160 Volts Harmonics V3 Voltage THD V1 Harmonics V2 Harmonics V3 Harmonics gt Current THD 11 Harmonics 12 Harmonics 13 Harmonics l4 Harmonics Phasors Phasor Diagram Voltage Compliance V1 Voltate Compliance V2 Voltage Compliance V3 Volts Unbalance Compliance Volts Harmonics Compliance V1 Volts Harmonics Compliance V2 Volts Harmonics Compliance V3 Inputs Outputs Viewing data using your meter s display 30 Use the navigation buttons to view data on your meter s display The following examples show how to use the navigation buttons to view data in numeric or graphical format
4. 27 Chapter 5 Display and meter setup PowerLogic PM8000 series user manual Icon Description Unacknowledged historic alarm indicator e Red unacknowledged high priority historic alarm Yellow unacknowledged medium priority historic alarm A NOTE Low priority historical alarms are not indicated The active alarm indicator changes to the historic alarm indicator of the appropriate level when the alarm state is no longer detected by the meter No active or unacknowledged high or medium priority historic alarms Related topics e See Revenue locking on page 173 for more information about your meter s revenue locking feature e See Alarms and alerts on page 147 for more information about your meter s alarms Alarm and status LED indicators Your meter has two LED indicators on the display These LEDs cannot be configured for other uses LED Description Off unpowered Steady green normal operation Status Flashing red no communications remote display only Steady red firmware upgrade required remote display only Flashing red green startup or firmware upgrade sequence in progress Off no active or unacknowledged historic alarms On acknowledged active alarm Alarm Flashing active alarm NOTE Your meter s display backlight flashes for unacknowledged high priority active alarms Related topics See Indicator LEDs on page 21 for a descriptio
5. Parameter Values Description The number of invalid login attempts before access is denied Protocol lockout 0 255 If protocol lockout 0 there is no limit to the number of invalid login attempts and the protocol will never be locked out Session timeout ae minutes The interval between access checks for non session based protocols Enter the lockout duration in minutes Click Events to configure user access event priorities The Event Priorities screen appears Configure the user access event priorities If you have selected standard security click Finish You are prompted to save your security configuration to a file which can be loaded onto other meters NOTE If you chose to save your security file enter a descriptive name and click Save It is recommended that you do not overwrite the default security files If you have selected advanced security click Next to configure user access and passwords Related topics See Configuring network communications using ION Setup on page 90 for instructions on how to enable disable Ethernet protocols and configure protocol port numbers See Security recommendations and best practices on page 49 for recommendations for your meter s security settings Configuring users and passwords using ION Setup advanced security only In order to change security settings you must be logged into ION Setup with an appropriate ION Setup user level You must
6. Download the option module firmware make sure that the firmware matches the option module type Load the firmware onto the meter s internal FTP site using either an FTP program or ION Setup e Power cycle or perform an option bus reset to start the option module firmware upgrade NOTE If the meter is power cycled or an option module reset is performed while there are option module firmware upgrade files loaded on the meter s FTP site the option module firmware is upgraded Related topics e Visit the company website at www schneider electric com and search for PM8000 to see the available firmware and templates See Loading meter firmware using ION Setup on page 84 for more information about loading meter firmware See the online ION Setup help for instructions on how to load meter templates Firmware overview 78 Your meter has the latest firmware loaded onto it at the factory Firmware is your meter s operating system When new firmware is available for your meter you can upgrade to the latest version to get the added features and functionality The firmware version loaded on your meter is shown on your meter s display You can use ION Setup to upgrade the firmware on your meter You must load a meter template as part of the firmware upgrade process You can save your meter s existing framework before performing a firmware upgrade and then reload it back onto the meter if you do not want to chan
7. NOTE To help your meter learn the most accurate values possible it is important that learning occur during a period of normal operation Do not schedule learning during a period of unusual operations in your system Do not modify your meter s configuration during the learning period as it may stop the learning process You can configure the meter so that learned values are applied automatically once the learning period is complete or require that they are reviewed and manually applied Ifa learned value is invalid the learned values are not automatically applied but logged for review Setpoint learning can be used to identify the following values Feature Values High limit Low limit Sustain until ON Sustain until OFF Sag Voltage sag limit Setpoints Alarms Swell Voltage swell limit Learning installation mode and learning duration There are two learning installation modes Manual the meter learns the applicable values but does not begin using the learned values The learned values are recorded for review and you can decide to use the learned values or adjust them as required before manually implementing the learned values Automatic the meter learns the applicable values and begins using those learned values automatically at the end of the learning period If a learned value is invalid the meter does not apply the value but the value is recorded in the event log You can configure the m
8. Clears the digital input status change counters Harmonics Min Max Reset Clears all accumulated maximum and minimum harmonics values stored in the meter Disturbance Count Reset Clears the sag swell event counter The sag swell event counter counts the number of sag swells that have occurred since power up or the last reset to provide power quality information to energy management systems EN50160 Reset Clears all EN50160 parameters and statistics accumulated in the meter Option modules reset Resets communications to the meter s expansion modules Conditional energy reset Clears the conditional energy values stored in the meter Input metering reset Clears the input metering values stored in the meter 1 Related topics These resets are only available through ION Setup See Peak demand reset lockout on page 172 for more information about the peak demand reset lockout Performing meter resets using the display 154 You can perform meter resets from the display after entering a valid password Revenue locked meters must be unlocked to perform resets that impact revenue data Your meter s digital and analog outputs may change state or may nat function during resets HAZARD OF UNINTENDED OPERATION Do not use the meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure
9. Ethernet communications esas aaua 0 0 cece ete 51 Serial COMMUNICATIONS 4 2 05 He ie ia da aed a ae ales 53 Configuring communications using the display 0 000 eee eee eee 55 Protocols ccoo id 57 Protocols ove Mio W dsr aeded epee ees aaa e wee 57 ON ia A eee 57 Modbus oros asetaa a iia 57 Ethernet gateway EtherGate and Modbus gateway ooooccoooooo o 62 FTP Cr AA AAA 64 SNMP o A o a ad dd ado Ald Dei 66 IEG 61890 A eed daa E adda ed Maan ad 70 COMTRADE scooters he teas Sekt Ana deel ie den ee SG Re eats 71 PINS ated tt e ts Soha ne athe ce aa at neat A 71 Time and time synchronization 0 02 eseeeeeeeeeeeee eee eeeeeeeeeeeeeneeseeseesneeeneneseeeeeeneeseneees 73 TIME OVEIVIOW ooo a Me eran asta 73 Time synchronization overview 0 eee 73 Configuring time information using your meter s display 74 Firmware and templates inisini eiii aii codiciada derdesteesneed 77 Firmware and template overview 00000 c eee eee tees 17 Firmware OVEr view da 78 Loading remote display firmware using FTP 0 0 cece ee eee 80 Loading option module firmware using FTP 0 00 e eee eee eee 81 ON Setup coimas iii dni aaa 83 ION Setup overview nuanua aana tees 83 ION Setup device communication 200 0 eee 84 ION Setup device configuration 0 0 eee 84 Advanced ION Setup tasks 0000 cece cee eee 113 Meter webpages
10. FTP compatibility ry GPS True Time Datum Self discovery over Ethernet Ethernet Modbus master IPv6 compatibility Ethernet gateway to XML compatibility downstream serial devices Email functionality Remote data display using Schneider Electric display BREA d lysi ftw and analysis software Lay Measured parameters Your meter provides bi directional 4 quadrant energy metering The following is a selection of some of the values provided by your meter Energy Your meter provides active reactive and apparent energy values including kWh kVARh kVAh delivered and received kWh kVARh kVAh net delivered received kWh kVARh kVAh total delivered received e Volt squared hours and amp squared hours Energy parameters can be logged automatically on a programmed schedule All energy values represent the total for all three phases Demand Your meter supports several demand calculation methods including block rolling block synchronized and predicted demand It can measure demand on any instantaneous value and record peak maximum and minimum demand with time and date information Demand measurements include kW KVAR kVA demand kW KVAR kVA peak demand Amps Volts demand 14 7ENO2 0336 00 PowerLogic PM8000 series user manual Chapter 2 Introduction 7EN02 0336 00 Instantaneous Your meter provides one second and half cycle measurements per phase and totals for many values including
11. Select the status parameter and click Save The Upload COMTRADE files screen is displayed 5 Select the criteria for the COMTRADE files you want to load from your meter s internal FTP site to another network location Click OK NOTE If no COMTRADE files are downloaded the ION Setup status bar provides a descriptive message Related topics See COMTRADE on page 71 for additional information about COMTRADE format waveform data Creating custom displays using ION Setup You can use ION Setup to program new custom displays 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Custom Displays 4 Select Custom Displays from the Front Panel tab and click Edit ION Setup loads your meter s display information into the Display Editor screen 111 Chapter 12 ION Setup Verification 112 PowerLogic PM8000 series user manual Rename delete or change the order of custom displays through the Display Editor screen Click New to add a new display Click Edit to bring up the Display setup screen where you can configure new or existing custom displays Configure your screen type Screen Type Specify the number of parameters displayed on the screen Screen Title Enter the title to be shown at the top of your custom display Click Edit to select the displayed parameters The number of parameters displayed is determined in the Screen Type selection described above Select your digit d
12. e Voltage and current e Apparent power kVA active power kW and reactive power kVAR e Power factor and frequency e Voltage and current unbalance Harmonics Your meter provides harmonic distortion metering recording and real time values for all voltage and current inputs including Individual harmonics including magnitude and phase angle up to the 63 harmonic Total even harmonic distortion TEHD and total odd harmonic distortion TOHD Total harmonic distortion THD or total demand distortion TDD e K factor Crest factor Min max recording Your meter records new minimum and maximum data every recording interval for the following vlaues e Voltage and current KW KVAR and kVA e Power factor e Frequency e Voltage unbalance Plus any measured value Power quality Your meter measures and records voltage and current sags and swells Your meter also has many power quality related features including Disturbance direction detection this allows the meter to analyze disturbance sag swell information to help determine the direction of the disturbance relative to the meter Setpoint learning this allows the meter to learn the power quality characteristics of your system to help identify what constitutes a sag or a swell COMTRADE this allows the meter to save waveform data in COMmon format for TRAnsient Data Exchange COMTRADE on its internal FTP server Your meter includes the following powe
13. ooooooocooococcroo eee 183 DaAlSl ys asec ds dt A atta eee Pd 183 General characteristics 0000 cee tees 184 Remote display ete srta DA E A aie ea cera abate 184 Option modules gt 44 snes ae Fe ed a ge ae GP ee es Dae ISA ees 184 10 PowerLogic PM8000 series user manual 7EN02 0336 00 Chapter1 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 CSA Z462 or applicable local standards Turn off all power supplying this device and the equipment in which it is installed before working on the device or equipment 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 Never short the secondary of a voltage transformer VT Never open circuit a current transformer CT Always use grounded external CTs for current inputs Replace all devices doors and covers before turning on power to this equipment Failure to follow these instructions will result in death or serious injury A WARNING UNINTENDED OPERATION Do not use this device for critical control or protection applications where human or equipment safety relies on the operatio
14. EM energy measured by the meter under test ES energy measured by the reference device or energy standard If accuracy verification indicates that there may be inaccuracies with 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 e See Typical sources of test errors on page 179 for possible causes of test errors See Power factor PF on page 159 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 ensure testing over the entire range ofthe 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 frequency specifications Sample Watt hour test points 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 A frequency at unity power factor or one 1 10 of the nominal current 100 of the nominal voltage and nominal frequency at unity Light load power factor or one 1 Inductive load lagging power 100 of the nominal current 100 of the nominal voltage and nominal frequency at 0 50 factor lagging power factor current lagging voltage by 60 phase angle
15. 1 Navigate to Power Quality gt Harmonics The total harmonic distortion THD screens are displayed 2 Press the more button and select the desired harmonics The per phase harmonics are graphically displayed 3 Press the left and right buttons to move to individual harmonics The harmonic number magnitude and angle are displayed Related topics e See Viewing data using your meter s display on page 30 for instructions on how to navigate and use your meter s display Disturbance direction detection overview 164 Your meter has disturbance direction detection capabilities to help you determine the location of a power system disturbance When a disturbance occurs the meter analyzes the disturbance information to determine the direction of the disturbance relative to the meter This analysis includes a confidence level indicating the level of certainty that the disturbance is in the determined direction and is stored in your meter s event log Disturbance direction detection is enabled on your meter by default and does not require any additional configuration beyond setting the nominal voltage and nominal frequency 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 20 Power quality Disturbance direction detection can help locate the source of a disturbance when used in a system of disturbance direction detection devices as shown in the diagram below Disturbance location Utility Meter
16. 1 reports downstream disturbance Meter 2 reports upstream disturbance Meters report upstream disturbance m o o w gt Meter reports downstream disturbance Meter 2 Power consumer The arrows show the direction the meters have determined for the disturbance With this information you can determine that the disturbance occurred between meter 1 and meter 2 and can focus on that section of your system to find the cause of the disturbance Viewing disturbance direction detection events The results of the disturbance direction detection algorithm appear in the meter s event log The image below shows an example of how the Disturbance Direction Detection event appears in your meter s event log when viewed using ION Setup NOTE You can view your meter s event log through the display and ION Setup O Eile Edit View Insert Tools Window Help ula ale Ble S Ff 210 elelr e Event Log 10 22 2007 2 29 11 918 PM Saq Swell 1 Disturbance End 551 DistState Normal 10 22 2007 2 29 10 702 PM Dist Direction Detection1 DDD Analysis Done Dist Direction Detection 1 Disturbance Direction Detected Upstream High Confidence 10 22 2007 2 29 10 702 PM Sag Swell 1 Disturbance Start 551 DistState Disturbance Related topics See the JON Reference available from www schneider electric com for more detailed information about the Disturbance Direction Detection module See
17. 1110 2014 11 25 15 820 AM Front Panel Remote Display Front Panel RMD connected 11 10 2014 11 29 27 316 AM Ethernet FTP Front Panel Auth FAIL NOTE This example is representative only and your meter s event log may appear different than shown 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 15 Data waveform and event logging Related topics See the ION Reference available from www schneider electric com for more information about the Event Log Controller module and other ION modules e See Viewing data using your meter s display on page 30 for instructions on how to view your meter s event log through the display e See Default event log configuration on page 135 for more information about your meter s events and priorities Default event log configuration Your meter s event log might be used by other components of your power monitoring system Do not change the default event log configuration unless you understand the impact of the change on the power monitoring system components and the data they use and on your meter s memory Changing the default event log configuration should only be undertaken by those with an advanced understanding of ION architecture and their meter s template By default your meter logs all configuration changes meter access events and power system events You can configure certain features such as the digital inputs so an event is logged when the feature ch
18. 3 Navigate Alarming gt Digital Input 4 Configure the digital input alarm settings by selecting an input and clicking Edit Some settings are not configurable and are grayed out Parameter Value Range Description Input Input On Input Off Specifies the input state alarm behavior Input On the alarm is on when the digital input is on Input Off the alarm is on when the digital input is off Force Off Label Checked Unchecked String value Forcing the alarm off disables all functions of the associated input To stop an alarm from being displayed without affecting digital input features set the alarm priority to Info only When available lets you modify the default label so it more clearly identifies the alarm Letters numbers and underscores are permitted Spaces are not permitted Alarm Priority Custom Priority None Info only Low Medium or High 0 255 Specifies the priority level of the digital input alarm To disable the alarm set priority to Info only Select custom priority to view and configure the event priority of the event associated with the alarm The event log cutoff value is displayed for reference event priorities above the cutoff are stored in the meter s event log 5 Click Save to save the changes to the meter 107 Chapter 12 ION Setup 108 PowerLogic PM8000 series user manual Related topics e See Alarms overview on page
19. Big Endian low high Little Endian 16 bit data one word is transmitted with most significant byte first and least significant byte second 7ENO2 0336 00 59 Chapter 9 Protocols PowerLogic PM8000 series user manual 32 bit data two words is transmitted with the most significant word first and the least significant word second Modbus function codes Function Description Master slave 1 Read coil status Master and slave 2 Read input status Master and slave 3 Read holding registers Master and slave 4 Read input registers Master 5 Write to a coil Master 6 Write to a holding register Master and slave 15 Write to multiple coils Master 16 Write to multiple holding registers Master and slave 17 Report slave ID serial only Master and slave 43 subcode 14 Read device identification Master and slave 100 Read scattered holding registers Master and slave Modbus commands A Modbus master command to unit ID 0 is broadcast sent to all Modbus slave devices The only supported broadcast command is preset multiple registers For serial Modbus networks with only one slave device the master can send commands using the single connection one to one address of unit ID 248 regardless of the slave device s actual unit ID Modbus implementation 60 Modbus exception codes Code Name Description 01 Illegal function The requested command is invalid 02 I
20. DATA LOSS NOTICE Record your device s user and password information in a secure location Failure to follow these instructions may result in data loss Screen title Parameter Values Description Password Setup Password 0 to 99999999 Sets the password that must be entered in order to configure parameters using the meter s display NOTE This is also the password used to access the meter s webpages when standard security is enabled Display behavior Display backlight Your meter s display backlight dims after a defined period of inactivity When the meter detects an unacknowledged active high priority alarm the display flashes until the alarm is acknowledged Remote display troubleshooting icons Your meter s remote display shows the following troubleshooting icons in addition to the meter s status LED information Icon Description Your remote display cannot communicate to your meter Check the connection between your meter and the display Check the meter s status LED to confirm that the meter is operating normally Your remote display needs updated firmware for compatibility with your meter Your remote display is undergoing a firmware upgrade Do not disconnect your remote display from your meter 7EN02 0336 00 41 Chapter 5 Display and meter setup PowerLogic PM8000 series user manual Local
21. Description SNM1 Input 1 Voltage line to neutral phase C IEC 68150 is an Ethernet based protocol designed for electrical substations lt is a standardized method of communications developed to support integrated systems composed of multi vendor self describing IEDs intelligent electronic devices that are networked together Your meter can be integrated into an IEC 61850 system as an IED or server supporting concurrent IEC 61850 client connections and an FTP connection used for transferring data or configuration files Related topics Go to the IEC International Electrotechnical Commission website at www iec ch for information about the IEC 61850 protocol e See the IEC 68150 and ION Technology protocol document available from www schneider electric com for more information about how IEC 61850 is implemented on your meter See the JON Reference available from www schneider electric com for a description of the IEC 61850 ION modules Your meter comes configured with a default set of meter data available to IEC 61850 This default set of meter data is used in the default data sets and reports in the ICD file s available for download from www schneider electric com NOTE Select the ICD file that matches your meter s option module configuration 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 9 Protocols COMTRADE DNP 7EN02 0336 00 You must load a valid IEC 61850 configuration CID f
22. Failure to follow these instructions can result in data loss 1 Start ION Setup Open the Setup Assistant for your device Select Communications gt Network Settings and click the TCP IP tab gt Oo N Select a setting and then click Edit Configure the settings for example IP address subnet or gateway to match your communications system 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup 3rd party protocols 7EN02 0336 00 Parameter Value Description This name is associated with your meter when using DPWS Ethernet device name configurable By default it is the meter type and the last 6 characters of its MAC address example PM8000_ 354386 Enable IPv6 Yes no Specifies if IPv6 is enabled or disabled IP address The Internet protocol address of your device Contact your local SubnetMask network administrator The Ethernet IP subnetwork address of your network for parameter values Gateway The Ethernet IP gateway address of your network Specifies the number of seconds the meter waits for Rx timeout configurable eae te communication acknowledgments Modbus TCP Idle fi bl Specify number of seconds the meter waits before disconnecting Timeout comiguradle an idle Modbus TCP connection Specify the port on which Modbus Gateway sends receives Modbus TCP requests Note For Modbus gateway to function properly the serial port protocol must be set
23. Related topics See IEC 61850 on page 70 for more information about IEC 61850 on your device Configuring time and time synchronization using ION Setup You can set the time and date and configure the time synchronization settings using ION Setup NOTE The clock screen is where you set the start date for the time of use feature NOTE You must manually adjust the date and time information if the device is installed in a different time zone location from the computer running ION Setup 1 Start ION Setup 2 Open the Setup Assistant for your device 3 Navigate to Clock and select the Timezone tab 4 Select any parameter and click TimeSync to synchronize your device s date and time with the computer that is running ION Setup Click the DST Settings tab to modify your meter s daylight savings time start and end dates if required 5 Select the parameter that you want to configure and click Edit Enter the password if prompted Parameter Value Definition Sets the timezone based on the timezones available from the computer s operating system Timezone e NOTE This is also where you can synchronize your meter s DST settings with the computer s Specifies the time format of the time sync message UTC Coordinated Universal time for the purposes of meter Time sync type Local time or UTC configuration it is equivalent to Greenwich Mean Time GMT Local time the local time with DST and timezon
24. e See Meter resets on page 153 for more information about the resets you can perform on your meter See Firmware and templates on page 77 for information about uploading option module firmware 7EN02 0336 00 Chapter 7 Security overview Standard and advanced 7EN02 0336 00 Security You can configure standard or advanced security on your meter as well as optional revenue security Your meter comes with configurable security that you can set to either standard or advanced which helps protect against unauthorized configuration of your meter and access to your meter s data through the meter s display or communications Your meter has features that allow you to enable disable Ethernet protocols and port numbers Your meter also supports revenue locking which incorporates revenue security on all revenue related parameters and revenue sealing Your meter ships from the factory with standard security enabled security features Security allows you to configure the following security features to your meter Parameter Standard advanced Details The meter s password is used to confirm user access when Meter password Standard advanced configuring the meter through the display or over communications The default meter password is 0 zero This option allows you to enable or disable the ability to configure Active web server Standard advanced a A your device using webpages Allow Modbus pr
25. kVA 0 00 0 00 0 00 Power Factor Total 1 0000 1 0000 1 0000 Voltaae L L Averaae V 0 00 0 00 0 00 NOTE This graphic is representative only and your meter s webpages may appear differently than shown 7ENO2 0336 00 115 Default webpages The following default webpages are available on your meter Main menu Webpage menu Webpage content Basic readings Energy readings Instantaneous Readings Demand readings Voltage readings Power Quality Trending 8 Forecasting Select the target and interval for trending and forecasting and view the results Monitoring Harmonics R ITI CBEMA SEMI Power Quality Summary NEMA Motor Derating Curve EN50160 Digital inputs Digital outputs Inputs Outputs Analog inputs Analog outputs Control Resets Perform resets and view when previous resets were performed Communications Ethernet i Statistics Serial port Diagnostics Meter Basic Meter Advanced Phasor diagram View the phasor diagram and numeric values Basic Settings Ethernet Advanced settings Basic Settings Serial Port Advanced Settings SNMP Parameters Configure your meter s SNMP parameters Setup NTP Configure your meter s NTP parameters SMTP Configure your meter s SMTP parameters Date amp Time Configure your meter s time and time synchronization Preferences Enter your meter s nameplate information Metering Configure the
26. localizedString Present lt th gt 33 lt tr gt 34 LTES 35 lt td gt localizedString Active Energy lt span unitsreg kWh del rec gt lt span gt lt td gt 36 lt td regname kWh del rec gt lt td gt 37 lt tr gt 38 lt tr gt 39 lt td gt localizedString Reactive Energy lt span unitsreg kVARh del rec gt lt span gt lt td gt 40 lt td regname kVARh del rec gt lt td gt 41 lt tr gt 42 lt table gt 43 lt div gt 44 lt div gt 45 46 47 lt script type text javascript gt 7EN02 0336 00 120 Line Sample HTML 48 49 instantaneousReadings initInstantaneousReadings sample readings 50 51 lt script gt 52 lt div gt Sample webpage data viewing content description Line Description SampleMonitorPane html 1 The HTML filename including the HTML extension html This filename must comply with FTP filename conventions no spaces or special characters The filename without the HTML extension is the name shown on the webpage menu lt h3 target sample readings gt 4 This creates the first webpage content pane sample readings is the name of the webpage content This name must be unique S localizedString Basic Readings lt h3 gt Basic Readings is the title of the webpage content pane This title is translated if possible 5 lt div id sample readings gt
27. meter s power system and display settings Meter setup Screen title Parameter Values Description Vate Wod Volts Mode 4W Wye Delta 3W Wye Single Demo The power system s configuration olts Mode PhaseOrder ABC ACB The power system s phase order The potential transformer s primary winding voltage rating PT Primary 1 to 999 999 99 NOTE PTs are also referred to as a VTs or voltage transformers The potential transformer s secondary winding voltage ratin PT Secondary 1 to 999 999 99 9 NOTE PTs are also referred to as a VTs or voltage transformers PT CT Setup r E gt CT Primary 1 to 999 999 99 The current transformer s primary winding current rating CT Secondary 1 to 999 999 99 dis transformer s secondary winding current 14 Primary 1 to 999 999 99 us current transformer s primary winding current 14 Secondary 1 to 999 999 99 Les current transformer s secondary winding current Va Polarity Normal Inverted The polarity of the potential transformer on Va Voltage Polarity Setup Vb Polarity Normal Inverted The polarity of the potential transformer on Vb Vc Polarity Normal Inverted The polarity of the potential transformer on Vc la Polarity Normal Inverted The polarity of the current transformer on la Ib Polarity Normal Inverted The polarity of the current transformer on Ib Current Polarity Setup Ic Polarity Normal Inverted The polarity of the current transformer on Ic 14
28. select and view additional menu screens and view detailed information about alarms and acknowledge them NOTE Your display may appear differently than shown depending on your meter s power system and display settings NOTE Your navigation icons change color depending on the type of screen being viewed If an icon is gray that navigation option is not available and nothing will happen when you press the button associated with that icon 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 5 Display and meter setup Example viewing the alarm screens Use the display navigation buttons to access the alarm screens display detailed information and acknowledge active and historic alarms 1 Press Gto display the menu Press A or Y until Alarms is highlighted Press to display the alarm screens Press W until Active Alarms is highlighted Press to display Active Alarms The Active Alarms title lists in brackets the total number of active alarms Ci Summary t Alarms 2 Active Alarms gt Historical Alarms lt Basic Readings amp Power 2 Press A or to highlight a specific alarm in this case an unbalanced currents alarm Press to display detailed information about the highlighted alarm and press to return to the Active Alarms screen Press both A and Y simultaneously to acknowledge all active alarms Active Alarms 1 Alarm Details Alarm Over unbal Priority Medium Date 01 22
29. 00 105 Chapter 12 ION Setup PowerLogic PM8000 series user manual Alarming A WARNING UNINTENDED OPERATION Do not use this meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage Configuring setpoint standard alarms using ION Setup You can use ION Setup to configure the standard alarm settings 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Alarming and click the Standard tab 4 Select a setpoint and click Edit 5 Enter unit password and click OK if required The Setpoint Setup screen is displayed 6 Configure the setpoint values as required Parameter Value Range Description When available specifies if the Pickup and Dropoff entries By Percentage By Percentage By Value are by percentage or by value If the option is not available pickup and dropoff entries are by value Forcing the alarm off disables all functions of the associated input Force Off Checked Unchecked y To stop an alarm from being displayed without affecting other meter features set the alarm priority to Info only When available lets you modify the default label so it more Label String value clearly identifies the alarm Letters numbers underscores are permitted Spaces are not permitted Use this setting t
30. 147 for more information about your meter s alarms and alarm configuration Implementing alarm setpoint learning using ION Setup You can use ION Setup to implement setpoint learning which analyzes your power system and recommends settings NOTE Your meter s power system must be stable in order to learn valid setpoint values 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Alarming gt Standard NOTE You can manually configure setpoint values by selecting the setpoint and clicking Edit 4 Select a setpoint and click Learn The Global Setpoint Learning screen is displayed 5 Select the setpoint tabs to view existing configured or learned setpoint information 6 Click Setup The Alarm Learning Setup screen is displayed 7 Configure the learning parameters for each setpoint and click Save Parameter Value Range Description Automatic the learned values are automatically applied if valid Install mode Automatic Manual Manual the learned values are stored for you to review and enter Duration 1 365 Days for maximum learning duration 8 Click Start All to begin setpoint learning for all setpoints When setpoint learning is in progress an asterisk is displayed next to the setpoint Click Abort to stop learning for a specific setpoint To stop all setpoint learning repeat for each setpoint tab 9 Apply the learned setpoint values Automatic
31. 2 sail eda ta A a Ad 23 Safety precautions 2224 iia a a re a o dad 23 A parore sores date eed ecard eee eee ee eee ea ea 23 WINING te ecient hice ohn a we Bln CO TAG ion ak Peed Se ee TEA alee ed N 24 Option MOduIeS a sopie cas da ab die dhe da 25 Default values for commissioning ooococccccoocc eae 25 Display and Meter setup eoococoonconcccccnncccnonnnnnnnnanonnnonnnncnnnnnnnnnnnn one nn cnn ne nnnnnnnnnnnnenannnnes 27 Display OVOIVIEW coat a a A ea a 27 Display MON esca A a a AAA ed 29 Setup MENU A A A a 33 Display behavior pes rara carain aea ad ta a 41 EocaliZation tect eek PAM aoe we ie a a Ras 42 CuStOMPISPIAYS ersed A a A Pace areas deg eee ee 42 Lost User ACCESS curro ai Veda be de Meda ee TRANS wade Rees A 42 AA EnaA E nina Eaa BERAE Eaa E E 43 Option modules overview nasasa aaaea aeee 43 Option modules support o 43 I O option modules nananana aana 44 Option module troubleshooting 00 aea 45 SOGUIILY E E E 47 Security OVErvieW ssc rrrrereritrririie tee eee 47 Security recommendations and best practices 00000 eee o 49 Changing your meter s display password using the display 50 COMMUNICATIONS jsistscssdecsiccccdivedstestesscatesscectteeadedesbintendeeetiieeacenvevensetensenieedceedeeenessene 51 7 Chapter 9 Chapter 10 Chapter 11 Chapter 12 Chapter 13 Chapter 14 Chapter 15 Chapter 16 Chapter 17 PowerLogic PM8000 series user manual
32. 2014 10 08 55 Ack Not Acknowledged Value 15 lt 3 Press Ato display the menu Press to highlight Historical Alarms Press amp to display Historical alarms The Historical Alarms title lists in brackets the total number of historic alarms 4 Press A or Y to highlight a specific alarm in this case a 4 30 voltage interruption alarm Press to display detailed information about the highlighted alarm Press both A and W simultaneously to acknowledge all historical alarms Historical Alarms 8 o O 01 22 2014 4 30 Volt Intrp Ph2 01 22 2014 4 30 Volt Intrp Ph1 O 01 22 2014 Sag Swell 1 5 Press Ato return to the menu 7ENO2 0336 00 31 Chapter 5 Display and meter setup PowerLogic PM8000 series user manual Example viewing the voltage screens Use the display navigation buttons to view screens display detailed information and display graphical representations of measured voltage data 1 Press G to display the menu Press A or Y until Basic Readings is highlighted Press to view the basic readings screens Press Y until Voltage is highlighted Press to view the voltage screens Voltage line to line values are displayed gt Active Alarms gt Historical Alarms Basic Readings d Voltage gt Current gt Frequency amp Power O la 2 Press lll to view a graphical display of historic voltage values then press 888 to return to the numeric display Press 4 to show a list of addi
33. 5 Configure the parameters as required Parameter Value Range Description Nominal voltage 1 to 999 999 Specifies the nominal voltage value used for sag swell detection Voltage Swell Percentage of nominal ml the swell limit expressed as a percentage of the nominal Voltage Sag Percentage of nominal aie the sag limit expressed as a percentage of the nominal Nominal Current 1 to 999 999 Specifies the nominal current value used for sag swell detection Sag Picku Numero value Specifies the percentage the current must deviate from the 9 P nominal current in order to be classified as a sag Specifies the additional amount that the current must recover in Sag Dropout Numeric value h order to signal the end of the sag Swell Pickup N merid val e Specifies the percentage the current must deviate from the nominal current in order to be classified as a swell Specifies the additional amount that the current must recover in Swell Dropout Numeric value F order to signal the end of the swell Related topics See Alarms overview on page 147 for more information about your meter s alarms and alarm configuration Configuring digital input alarms using ION Setup You can use ION Setup to configure the digital alarm settings When configuring your meter the configuration interface may show all of the possible ports regardless of what is physically available on your meter 1 Start ION Setup 2 Open the Setup Assistant for your meter
34. COMTRADE files format complies with the standard defined by IEC 60255 24 edition 2001 05 1 Start ION Setup 110 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup Custom displays 7EN02 0336 00 2 Open the Setup Assistant for your meter 3 Navigate to Power Quality gt COMTRADE 4 Configure the COMTRADE parameters Parameter Value Description Enabled COMTRADE files are generated Disabled COMTRADE files are not generated The number of COMTRADE records stored on the meter Status Enabled Disabled By default the oldest COMTRADE record will be overwritten by the newest record Depth 1 or more A message is displayed if the Depth value exceeds the available memory A single COMTRADE record uses approximately 45 kB of meter memory COMTRADE records are stored as read only files on your meter s internal FTP server and are deleted when you perform a Master reset of the meter NOTE To configure waveform recording you must disable COMTRADE configure waveform recording and then enable COMTRADE COMTRADE records are not generated if the waveform recorders have inconsistent settings Downloading COMTRADE files using ION Setup You can download COMTRADE waveform records from the meter s internal FTP server to another network location using ION Setup 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Power Quality gt COMTRADE 4
35. Files required to support a particular protocol on your meter such as the MIB file for SNMP Template dcf Protea les and your meter s Modbus register map Remote display bin and option module si9 Firmware upgrade files let you upgrade your remote display or option module s firmware firmware Display and analysis software Documentation for display and analysis software available from Schneider Electric such as StruxureWare Power Monitoring Expert is available for download from www schneider electric com 18 7EN02 0336 00 Chapter 3 Hardware reference This section provides additional information regarding physical characteristics and capabilities Related topics e See your device s installation sheets available from www schneider electric com for installation instructions and specifications e See Specifications on page 181 for additional specifications Meter types The PM8000 series is available in two physical form factors and has several accessories Model Commercial Description reference PM8240 METSEPM8240 Panel mounted meter with integrated display PM8243 METSEPM8243 eerie meter without display which can be connected to a PM8244 METSEPM8244 DIN rail mounted meter packaged with a remote display PM89RD96 METSEPM89RD96 Remote display for DIN meter only PM89M2600 METSEPM89M2600 _ Digital I O option module 2 out 6 in PM89M0024 M
36. In an energy management system the PM8000 meter collects and aggregates data This data is used to perform non critical control or shared with other equipment in the energy management system Data from the meter can be used by energy management software to help with energy cost management trending and forecasting network management power quality analysis and more The meter is user configurable to adapt to many situations Communications allow data to be shared simultaneously across multiple networks built in and optional I O provides monitoring and non critical control capabilities and a variety of display and analysis tools can be used to monitor your system The following graphic outlines your meter s capabilities in an energy management system 7EN02 0336 00 13 Chapter 2 Introduction PowerLogic PM8000 series user manual Power system connections Phase voltage phase current Data analysis tools Z ground current and neutral Power monitoring network 2 current from Wye Delta or single Third party software for 5 Modbus DNP 3 0 MV 90 phase power systems COMTRADE y Ea Corporate network l SS Input output a Z e Pulses Breaker status Energy pulses Communications Dual Ethernet z On site setup RS 485 E AE gis Color LCD displa Protocols Modbus RTU Internet connectivity ION S pay Modbus TCP ION DNP 3 00 etup IEC 61850 FTP GPS Meter webpages ci _ Arbiter GPS Arbiter Vorne
37. Master Connections dialog appears 7 Select the tab that corresponds to the connection you are configuring for example if you selected TCP Connection 1 from Connected via select the TCP 1 tab and configure it based on the connection type Connection type Configuration Select the serial communications port that is connected to the Modbus slave devices from the Serial connection Assigned Port list TCP connection Enter the IP address of the Modbus slave device making sure that the IP port is set to 502 Click OK to return to the Modbus Device dialog 8 Click OK to add the slave device The device now appears on the list Repeat these steps to add all of your Modbus slave devices Related topics See Modbus on page 57 for Modbus master and slave prerequisites for communications wiring and configuration Configuring a Modbus gateway using ION Setup You can configure Modbus gateway on your meter using ION Setup 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup 7EN02 0336 00 Before you begin make sure you have completed the following tasks Confirm the serial network of devices are wired and configured to have the same baud rate serial port settings for example 8N1 and protocol Modbus Confirm each serial device has a unique unit identifier Confirm the serial network of devices are connected to the gateway meter s serial communication port Confirm your gat
38. PPE and follow safe electrical work practices See NFPA 70E in the USA or applicable local standards Turn off all power supplying this device and the equipment in which it is installed before working on the device or equipment Always use a properly rated voltage sensing device to confirm that all power is off Failure to follow these instructions will result in death or serious injury 1 Turn off all power supplying this device and the equipment in which it is installed before working on the device or equipment Always use a properly rated voltage sensing device to confirm that all power is off Open the revenue lock switch cover Locate the revenue lock switch Click the switch to toggle revenue locking on or off Close the revenue lock switch cover and make sure it is firmly in place oa F YN Seal the revenue lock switch cover if required Time of use TOU is often used when a utility has set up schedules with different rates based on time of day type of day and date when energy is consumed You can view the TOU active rates and seasons through your meter s display Related topics e See Viewing data using your meter s display on page 30 for instructions on how to view the TOU active rate and seasons through the meter s display e See the ION Setup online help available from www schneider electric com for instructions on how to configure time of use on your meter See the ION Reference availab
39. Related topics e See the ION Setup online help available from www schneider electric com for more information about the logging memory allocations and other meter logging memory information displayed by the ION Setup Assistant Data logging overview Your meter has data logging capabilities including a special type of data log which is an event log which logs prioritized events Data logs are recorded by your meter and stored in the meter s memory inside configurable data logs Your meter s data logs are retained if the meter loses power Logged data can be used by energy management software Logs can be configured to either overwrite the oldest data when full circular or to stop writing data to the log when the number of logged records reaches the maximum log depth stop when full Your meter ships with a comprehensive data logging configuration consisting of data logs set up to record values at specific intervals or on conditions Your meter s default data logging configuration should be sufficient for most applications but you can also reconfigure existing logs or create new logs for custom applications if needed Your meter can also be configured to email data log information Related topics See Default logging capacity on page 129 for details about your meter s default logging configuration See the Internal email client feature technical note available from www schneider electric com for instructions o
40. Signal type Continuous or pulse 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 23 Specifications Digital inputs Number type 3 externally excited max 30 V AC 60 V DC Frequency lt 25 Hz Minimum pulse width 20 ms Response time 20 ms ON lt 2 5 mA Current draw OFF lt 0 5 mA Event timestamp accuracy 1ms IRIG B IRIG B00x format unmodulated IRIG B time code Coded expressions 0 to 7 are supported but the year data is not used Communications RS 485 communications Number of ports 1 Maximum cable length 1200 m 4000 ft Maximum number of devices unit loads 32 Parity None even odd Baud rate 2400 115200 recommend 19200 Ethernet communications Number of ports 2 the second connector functions as an Ethernet switch for networking devices Cable type CAT5 5e UTP use unshielded cable only Connector type RJ45 modular jack 2 Maximum cable length 100 m 328 ft per TIA EIA 568 5 A Mode 10Base T 100Base TX auto MDIX Data rate up to 100 Mbps Maximum simultaneous transfer connections FTP sessions 2 Default timeout period 90 seconds IEC 61850 maximum simultaneous client connections 4 EMC electromagnetic capability Product standards wanes IEC 61326 1 Immunity to electrostatic discharge IEC 61000 4 2 Immunity to radi
41. The name of the alarm for example Over THD V1 Priority Low medium or high alarm priority Date The date and time the alarm was triggered Duration The duration of the alarm only applies to inactive alarms Ack The date and time when the alarm was acknowledged only applies to acknowledged alarms als Active alarm The maximum value detected when the alarm was triggered Historic alarm The maximum value detected during the duration of the alarm Disabling alarms through your meter s display 150 You can disable alarms through the meter s display when you are performing maintenance tasks on your system and want to prevent nuisance alarms 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 17 Alarms and alerts Alerting 7EN02 0336 00 NOTE To stop an alarm from being displayed without impacting other metering features set the alarm priority to info only A WARNING INACCURATE DATA RESULTS Confirm your alarm is properly configured Failure to follow these instructions can result in death serious injury or equipment damage 1 Navigate to Setup Menu gt Alarm Setup Press the edit button to access the enable disable screen Use the up and down arrows to scroll through the available alarms Simultaneously press the up and down arrow to enable or disable the highlighted alarm 2 Press the select button to confirm your settings 3 Complete the system maintenance tasks 4 Enabl
42. This must match the name of the webpage content in line 4 3 lt th gt localizedString Minimum lt th gt Minimum is the heading for the first column This heading is translated if possible i lt th gt localizedString Present lt th gt Present is the heading for the second column This heading is translated if possible Y lt th gt localizedString Maximum lt th gt Maximum is the heading for the last column This heading is translated if possible lt td gt S localizedString I a j l ais the row heading This heading is translated if possible lt span unitsreg I a gt lt span gt lt td gt This displays the units that the meter has defined for the named register a is lt td regname I a mn gt lt td gt This displays the instantaneous value of the named register a mn 1 a lt td regname I a gt lt td gt This displays the instantaneous value of the named register a de lt td regname I a mx gt lt td gt This displays the instantaneous value of the named register a mx lt td gt S localizedString I b ji b is the second row heading This heading is translated if possible lt span unitsreg I b gt lt span gt lt td gt This displays the units that the meter has defined for the named register b a lt td regname I b mn gt lt td gt This displays the instantaneous value of the named register b mn 38 lt td regname I b gt lt td gt This displays the instantaneous value of the name
43. Volt Intrp Ph1 4 30 voltage interruption power quality alarm for phase 1 4 30 Volt Intrp Ph2 4 30 voltage interruption power quality alarm for phase 2 4 30 Volt Intrp Ph3 4 30 voltage interruption power quality alarm for phase 3 Current Swell Ph1 Current swell alarms for phase 1 Current Swell Ph2 Current swell alarms for phase 2 Current Swell Ph3 Current swell alarms for phase 3 1 on this screen Any Setpoint or Relative Setpoint module with an event priority greater than the low alarm event priority is also displayed You can only enable or disable alarms using the display Alarm configuration is done using ION Setup Alarms with a priority less than low info only or none are not displayed You must configure all the parameters related to the alarm for alarm functions to operate For example for the Over la alarm to operate you must enter the nominal value and the conditions that define an alarm state even if the alarm is shown as Enabled on the Alarm Setup screen 39 Chapter 5 Display and meter setup Language Setup PowerLogic PM8000 series user manual Select the language to be shown on the meter s display By default your meter has the following languages English e Spanish e French e German e Italian e Portuguese Russian Chinese simplified Resets LOST DATA NOTICE Save your meter s data before performing a reset Failure to follow these instructions can result in da
44. affects your meter s measurements Calculate the number of required pulses 178 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 Ne V I PF t 3600 Kt Number of pulses Where Ne number of metering elements used e V test point voltage in line to neutral volts V per phase e test point current in amps A per phase e t test duration in seconds s which must be longer than 30 seconds PF power factor Kt pulse constant programmed in the meter under test in Wh pulse Round up the result of the calculation to the nearest integer number of pulses Example calculation for number of required pulses This example calculates the number of pulses required for an inductive load 3 phase test point with a test duration of 60s the source is configured to use V 120V 5A PF 0 5 the pulse constant of the meter under test is Kt 1 8 Wh pulse 3 120V 5A 0 5 60s 83 3600 18 Round the number up to the nearest integer Number of pulses 9 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 22 Revenue Calculate the percentage error Test points For every test point EM ES 100 Energy Error ES o Where
45. analog signal source 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Expansion Module gt Option I O Modules and select the module tab that corresponds to the option module with the analog input you want to configure 4 Select the analog input channel and click Edit The setup screen for that analog input is displayed 5 Configure the analog input by selecting the parameter and clicking Edit Parameter Value Range Description Zero scale 0 to 109 The minimum source value that matches the minimum analog input signal Full scale 0 to 109 The maximum source value that matches the maximum analog input signal Port The physical analog input port connection Mode Voltage current Determines whether the analog input is monitoring voltage or current 103 Chapter 12 ION Setup 104 PowerLogic PM8000 series user manual The analog input is configured Configuring option module analog outputs using ION Setup You can configure option module analog outputs using ION Setup Analog outputs are available on the optional I O modules you can connect to the base of your meter Calculate your zero scale and full scale values based on the measured value and the analog output range of your meter Make sure that the analog output port that you want to use is properly connected to an analog receiver 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Naviga
46. del rec gt lt td gt This displays the instantaneous value of the named register kVARh del rec 49 instantaneousReadings initInstantaneousReadings sample readings Sample readings is the unique name of the first webpage content name This HTML code updates all of the webpage s values Sample setup webpage 7EN02 0336 00 1 Named registers are listed in the PM8000 Modbus registers map If the desired value is not listed you can reference the value by its ION handle using the following format lt td regname _Ox H t gt lt td gt where HHHH is the hexadecimal value of the ION handle You can create custom setup webpages using the sample webpage stored on your meter Sample webpages are stored in the documents folder on your meter s internal FTP site The PM8000 register map is available from www schneider electric com The PM8000 ION handles document is packaged with the meter firmware file which is available for download from www schneider electric com Custom setup webpages must be stored on your meter s internal FTP site in the folder for Setup The custom webpage is viewed by selecting the Setup main menu tab on your meter s webpage Configuring the HTML code other than where described is an advanced procedure and should only be performed by those with an advanced understanding of webpages and how your meter processes them Sample webpage setup result NOTE This graphic is representative onl
47. high 12 K Fac high V3 THD mean 13 K Fac mean V3 THD high 13 K Fac high 11 THD mean 11 THD high 12 THD mean 12 THD high 13 THD mean 13 THD high 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 15 Data waveform and event logging Energy Demand log The Energy Demand log records energy and demand data used by energy management software to generate reports Changing the logged data can prevent the generation of reports that use this data Sag swell log The Sag swell Log provides details of power quality events By default it logs the following values SS1 DistDur SS1 DistV1Min SS1 DistV1Max SS1 DistV1Avg SS1 DistV1Engy SS1 DistV2Min SS1 DistV2Max SS1 DistV2Avg SS1 DistV2Engy SS1 DistV3Min SS1 DistV3Max SS1 DistV3Avg SS1 DistV3Engy SS1 DistNominal SS1 Swell Lim SS1 Sag Lim EN50160 compliance logs The EN50160 compliance logs are used to record EN50160 compliance parameters EN50160 component EN50160 component Data recorder Data recorder logged logged EN50160 Frq Mg Power frequency and supply magnitude EN50160 PrmHrm1 Parameter data disabled by default EN50160 Hrm Vit Harmonics EN50160 PrmHrm2 EN50160 Intrp Short log interruptions EN50160 Vit Dp1 EN50160 Ovrvit1 EN50160 VIt Dp2 Temporary overvoltage EN50160 Ovrvit2 EN50160 VIt Dp3 Supply voltage dips EN50160 P
48. indicators 7EN02 0336 00 Chapter 17 Alarms and alerts Your meter s alarm priorities correspond to the following event priority ranges Alarm priority Event priority High red 192 255 Medium yellow 128 191 Low blue 64 127 Info only no alarm 1 63 None no alarm or event 0 1 Alarms with priority of info only or none are not indicated or displayed Info only and none event priority Alarms with a priority of info only or none are not shown on the meter s display and do not function as alarms If the alarm s priority is set to info only and the event priority is greater than the event log cutoff value the associated event is recorded in the meter s event log If the alarm s priority is set to none the event priority is automatically set to zero and no associated event is logged in the meter s event log For events that you want to log for future reference or troubleshooting but don t want alarm functions set the alarm priority to info only For nuisance events that frequently occur and you have no desire to log for reference or troubleshooting set the alarm priority to none Related topics See Event log overview on page 134 for more information about event priority and the meter s event log Your meter s display has an alarm indicator to show you what alarm levels have been detected active or historic and whether they have been acknowledged For
49. input port can measure from 4 20 mA and you need to monitor a steam pressure sensor which measures between 0 50 psi of steam The steam pressure sensor s output ranges from 4 20 mA Scaled values Fullscale X Zeroscale Fullscale Af Ax Af Aa 50 psi 50 0 Zeroscale 50 _ _ 20 0 20 4 Zeroscale 50 62 5 12 5 psi 0 psi Meter values Ea 4mA 20 mA Zeroscale Af 20mA Aa 4mA Ax 0mA e Fullscale 50 psi Calculating the Zeroscale value from the equation above gives 12 5 psi Configuring the meter s analog input with Fullscale 50 psi and Zeroscale 12 5 psi produces an output value ranging from 0 50 psi represented by a 4 20 mA signal Example analog output The meter is monitoring a 0 to 120 kW system and outputs the real power over a 4 to 20 mA analog output The receiving device is expecting the 0 to 120 kW signal to be represented by the 4 to 20 mA signal Scaled values Fullscale X Zeroscale Fullscale Af Ax Af Aa 120 kw 120 0 Zeroscale 120 20 0 20 4 Zeroscale 120 150 30 kW 0 kW Meter values 4 mA 20 mA Zeroscale Af 20mA Aa 4mA Ax 0mA e Fullscale 120 kW e X 0kW Calculating the Zeroscale value from the equation above gives 30 kW Configuring the meter s analog output with Fullscale 120 kW and Zeroscale 30 kW produces an output value ranging from 0 120
50. is configurable and the data connection port is automatically assigned to the command connection port number minus 1 65 Chapter 9 Protocols PowerLogic PM8000 series user manual FTP software The recommended FTP software is Filezilla WinSCP or Windows Explorer running on a Windows based machine Related topics See Specifications on page 181 for the maximum number of FTP sessions and default timeout value Accessing your meter s FTP server SNMP 66 You must have FTP software such as Filezilla WinSCP or Windows Explorer running on a Windows based machine to transfer files to and from your meter s internal FTP server 1 Start your FTP software 2 Connect to your meter via FTP by entering your meter s IP address Depending on your FTP software and meter security settings you may be prompted for login credentials NOTE With standard meter security no user configured enter login credentials of 8000 and the meter password to connect to the meter For advanced meter security enter a valid user and password 3 Navigate to the appropriate folder on your meter 4 Close your FTP software to disconnect from the meter The FTP connection automatically disconnects once the FTP timeout period has elapsed Simple Network Management Protocol SNMP is part of the Transmission Control Protocol Internet Protocol TCP IP protocol suite It is an application layer protocol that enables the exchange of netw
51. is intended to help ensure that the correct password is entered for each user 6 Click Finish to save your security configuration to the meter You are prompted to save your security configuration to a file which can be loaded onto other meters NOTE If you chose to save your security file enter a descriptive name and click Save It is recommended that you do not overwrite the default security files Loading an existing security configuration file scf using ION Setup You can load an existing security configuration file scf onto your meter using ION Setup The scf file can be a configuration for either standard or advanced security and must be from the same model of meter In order to change security settings you must be logged into ION Setup with an appropriate ION Setup user level You must also have the appropriate meter level security access to configure meter security 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Security Select Security Mode and click Send The Open dialog box appears 4 Navigate to the location of the scf file you want to load onto your meter Select the scf file and click Open The scf file is loaded onto your meter Configuring your meter as a Modbus slave using ION Setup You can configure your meter as a Modbus slave using ION Setup 89 Chapter 12 ION Setup Network settings 90 PowerLogic PM8000 series user manual Your meter s serial
52. kW represented by a 4 20 mA signal 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 16 Inputs outputs Digital inputs outputs Your meter has three digital inputs and one digital output and you can add digital I O option modules to increase your meter s capabilities Digital I O allows the meter to send and receive digital signals including sending energy pulse information that can be used for verifying accuracy or receiving IRIG B information for time synchronization You can view the digital I O values from your meter s display or webpages For high accuracy applications like IRIG B time synchronization or verifying accuracy use the meter s onboard digital I O Your meter s digital inputs can be used for input metering and incremental energy applications An unexpected change of state of the digital outputs can result when the supply power to the meter is interrupted during an upgrade of the meter s firmware or framework or option module firmware or a during an option module reset A WARNING UNINTENDED OPERATION Do not use this meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage Related topics e See Conditional energy on page 167 for details about your meter s conditional energy feature See Input metering o
53. lt td gt SlocalizedString Ethernet Device Name lt td gt 24 lt td gt lt input name Ethernet Device Name type text gt lt td gt 25 lt tr gt 26 lt tr class minor gt 27 lt td gt S localizedString IP Address lt td gt 28 lt td gt lt input name IP Address type text gt lt td gt 29 lt tr gt 30 lt table gt 31 32 lt div gt 33 34 lt h3 target sample advanced gt localizedString Advanced Settings lt h3 gt 7EN02 0336 00 123 Line Sample HTML 35 lt div id sample advanced gt 36 lt table class formtable id frameFormatDropdownContainer gt 37 lt tr gt 38 lt th gt amp nbsp lt th gt 39 lt th gt amp nbsp lt th gt 40 lt tr gt 41 lt tr gt 42 lt td gt localizedString TCP Keep Alive Minutes lt td gt 48 lt td gt lt input type text name TCP Keep Alive Minutes class small gt lt span unitsreg TCP Keep Alive Minutes gt lt span gt lt td gt 44 lt tr gt 45 lt tr gt 46 lt td gt SlocalizedString Enable Web Server lt td gt 47 lt td gt lt select name Enable Web Server gt lt select gt lt td gt 48 lt tr gt 49 lt table gt 50 51 lt div gt 52 lt div gt 53 54 lt input type submit class apply value localizedString Apply S gt 55 56 lt form gt 57 5
54. manual Chapter 12 ION Setup Parameter Value Range Description Specifies how the meter processes the signal Pulse the meter counts an entire pulse from off on to on off as one input ql KYZ the meter counts a transition from off on or from on off Input Mode Pulse KYZ A C IRIG B as one input A C the meter detects analog signals where the ON condition is based on the presence of an AC signal RIG B the meter detects an IRIG B time synchronization signal Polarity Inverting Non Inverting Specifies if the signal from the digital port is inverted or not inverted Specifies how long in seconds the signal must remain in a state to be considered a valid state change Debounce 0 000 1 000 Defined by your meter s Port hardware Your meter s physical digital input port 1 IRIG B can only be connected to one of the digital inputs located on the meter base not an option module 6 Once the parameter has been configured click OK to save the setting to the meter Configuring option module digital outputs using ION setup You can configure your meter s digital outputs using ION Setup One form A digital output is available on the base of the meter You can add more digital outputs using optional I O modules 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Expansion Module gt Option I O Modules and select the module tab that correspond
55. medium whatsoever without Schneider Electric s permission given in writing You also agree not to establish any hypertext links to this guide or its content Schneider Electric does not grant any right or license for the personal and noncommercial use of the guide or its content except for a non exclusive license to consult it on an as is basis at your own risk All other rights are reserved 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 As standards specifications and designs change from time to time please ask for confirmation of the information given in this publication 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
56. meter s clock The clock is adjusted by synchronizing the meter s time with another time source Time synchronization messages can be automatically generated and sent to your meter from your energy management system software or other time source such as an SNTP NTP server or GPS receiver You can also manually trigger a time synchronization message from your energy management system or configuration software NOTE To help maintain data integrity some energy management systems impose a blackout rule where time synchronization messages near energy interval boundaries are ignored Time synchronization sources 7EN02 0336 00 Use only one time synchronization source or method on each network to help prevent conflicting time synchronization information For meters connected to energy management software the same time synchronization method must be set for all meters connected to the system to help prevent timestamp inconsistencies 73 Chapter 10 Time and time synchronization PowerLogic PM8000 series user manual NOTE If you are configuring your meter clock remotely from another time zone make sure you modify the meter s configuration to match local time For time synchronization sources with a resolution of one second or more the meter time is only adjusted by a time synchronization message if the difference between the meter time and the message time is greater than one second Related topics e See Configuring time and t
57. named register MAC Address 23 lt td gt localizedString Ethernet Device Name lt td gt Ethernet Device Name is the row heading This heading is translated if possible 24 lt td gt lt input name Ethernet Device Name type text gt lt td gt This displays the instantaneous value of the configurable named register Ethernet Device Name in a text edit field The type must match the named register type in this case an alphanumeric string 27 lt td gt S localizedString IP Address lt td gt IP Address is the row heading This heading is translated if possible 28 lt td gt lt input name IP Address type text gt lt td gt This displays the instantaneous value of the configurable named register IP Address in a text edit field The type must match the named register type in this case an alphanumeric string 34 lt h3 target sample advanced gt This creates the second webpage content pane Sample advanced is the name of the webpage content This name must be unique S localizedString Advanced Settings lt h3 gt Advanced Settings is the title of the webpage content pane This title is translated if possible 35 lt div id sample advanced gt This must match the name of the webpage content in line 34 42 lt td gt localizedString TCP Keep Alive Minutes lt td gt TCP Keep Alive Minutes is the row heading This heading is translate
58. 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 CSA Z462 or applicable local standards Turn off all power supplying this device and the equipment in which it is installed before working on the device or equipment 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 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 and the equipment in which it is installed before working on the device or equipment 2 Always use a properly rated voltage sensing device to confirm that all power is off The meter retainer clips located on either side of the meter base and used to secure the meter in the panel do not usually require any tools to install If necessary for panels with limited space you can use a long handled slot screwdriver to help install the meter reta
59. progress verifies the firmware and finishes with an overview stating whether the firmware was successfully uploaded There are no additional tasks specific to your device for this screen It is strongly recommended that you change your meter s display front panel password from the default value of O zero If your meter s display front panel or user passwords are lost or if you configure communications so that you cannot communicate to and configure your meter you must return the meter to the factory where your meter is reset to its factory defaults and all logged data is lost NOTICE DATA LOSS Record your device s display and user password information in a secure location Ensure you maintain sufficient access to communicate to and configure your device Failure to follow these instructions may result in data loss Configuring standard security using ION Setup You can fully configure standard and advanced security on your meter using ION Setup In order to change security settings you must be logged into ION Setup with an appropriate ION Setup user level You must also have the appropriate meter level security access to configure meter security 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Security Select Security Mode and click Edit The open dialog box appears 4 Select the appropriate security configuration file scf to configure your meter Standar
60. s analog output once configured outputs voltage or current signals If your meter s analog output source becomes unavailable N A the analog output level should go to zero 0 V 0 mA under most conditions When your meter is powered off or configured to send voltage the meter registers as a high impedance The electrical signal on the analog output is DC make sure proper polarity is observed when wiring external devices to the analog output ports An unexpected change of state of the analog outputs can result when the supply power to the meter is interrupted during an upgrade of the meter s firmware or framework or option module firmware or a during an option module reset 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 16 Inputs outputs A WARNING UNINTENDED OPERATION Do not use this meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage Related topics e See Configuring I O option module analog inputs using ION Setup on page 103 and Configuring option module analog outputs using ION Setup on page 104 for instructions on how to configure your analog inputs and outputs using ION Setup See the ION Reference available from www schneider electric com for more information about the Analog Input and Analog Output
61. s power suspension for example system stand by and hibernate options Disable the laptop s option to power down when it is closed This prevents a shut down if the laptop is accidentally closed e Disable the laptop s screen saver screen savers can burden the CPU Firmware upgrade considerations Ensure that the firmware version you are upgrading to is compatible with your meter and that the version number is greater than your existing firmware or else you will downgrade your meter Your meter s existing template may not work with different firmware versions if significant meter features have been added or modified Remote display RMD upgrade behavior Your meter s remote display will upgrade as soon as the upgrade file is put in the remote display upgrade folder on your meter s internal FTP site It is deleted as part of the upgrade process NOTE If your meter s remote display loses power during firmware upload the display will revert to its original firmware and you will have to reload the firmware file The results of your remote display firmware upgrade are stored in your meter s event log Detailed information about your remote display such as serial number and firmware version is provided in the Factory module 7EN02 0336 00 79 Chapter 11 Firmware and templates PowerLogic PM8000 series user manual Related topics See Remote display troubleshooting icons on page 41 for a description of the ico
62. s protocol to EtherGate Configure the other serial port parameters as required Related topics See Setting up your meter using the display on page 34 for instructions on how to navigate and use your meter s display FTP Your meter has an internal FTP server where you can load custom webpages and other files onto your meter and where the meter provides files created by meter features such as COMTRADE waveform records File transfer protocol FTP is a standard client server network protocol used to transfer files over TCP Ethernet networks 64 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 9 Protocols FTP memory allocation NOTE You can update the firmware on your meter s accessories using your meter s FTP site Your meter s FTP memory usage changes when you copy a file to the meter s internal FTP site or modify a feature that uses the meter s FTP site If you attempt to load a file onto your meter s FTP site that is too large your FTP program displays an error and you must delete files from your meter s internal FTP site to free up memory before loading the file If you modify a meter feature which uses FTP memory such as increasing the number of COMTRADE waveform records the meter checks to confirm sufficient space is available on its internal FTP site before enabling the modified feature If there is insufficient space the feature is disabled and you must delete files from your meter
63. separately for your meter These covers are included for meter models where sealable voltage and current covers are required to comply with revenue or regulatory standards Replacement hardware You can order replacement mounting and installation hardware for your meter and accessories Indicator LEDs LED locations 08 08 2013 15 33 28 Total Demand Delivered i Energy pulsing 1 439 w Infrared energy pulsing 0 661 kvar Revenue lock status 1 584 ia Remote display connection link Remote display connection activity o ae Related topics e See Alarm and status LED indicators on page 28 for a description of alarm and status LED behavior Energy pulsing LED behavior The visible and infrared LEDs are configured by default to pulse based on the energy kWh received by the meter You can configure the pulse weight pulses per kWh and the energy source Energy pulsing is used to help verify the energy measurement accuracy of your meter for revenue purposes Related topics See Energy pulsing overview on page 145 for more information about energy pulsing on your meter e See Verifying accuracy on page 175 for more information about how to perform accuracy verification testing on your meter 7ENO2 0336 00 21 Chapter 3 Hardware reference Revenue lock LED behavior PowerLogic PM8000 series user manual State Description Off The meter is not re
64. the module in the right hand pane 4 Select the Setup Registers tab 5 Select the SPCS Control Mode register that corresponds to the digital output you want to control through IEC 61850 and click Edit A dialog appears 6 Select IEC 61850 CTLVAL from the dropdown list and click OK 7 Select the Inputs tab 7EN02 0336 00 113 Chapter 12 ION Setup 114 PowerLogic PM8000 series user manual 8 Select the digital output Status register for the digital output that you want to control through IEC 61850 Click Delete NOTE This digital input register must be deleted in order to prevent a circular reference that will cause the affected modules to go offline 9 Click Send to send your changes to the meter 10 Select the Setup Registers tab and confirm that the Digital Output module s setup registers are appropriately configured 11 Select the Inputs tab 12 Select the Source register and click Edit 13 Navigate to the IEC 61850 GGIO Onboard folder and select the SPCS stVal output register that corresponds to the digital output 14 Click OK and Send to save your changes to the meter Related topics e See the JON Reference available from www schneider electric com for information about the IEC 61850 GGIO and Digital output modules See IEC 61850 on page 70 for more information about how IEC 61850 is implemented on your meter 7EN02 0336 00 Chapter 13 Meter webpages Overview This section desc
65. to the power source 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 The following diagram shows how voltage and current waveforms shift based on load type under ideal laboratory conditions Current lead lag and load type Current and voltage in phase resistive Current leads voltage capacitive Current lags voltage inductive 158 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 19 Power and power factor Power factor PF Power factor PF is the ratio of real power P to apparent power S and is provided as a number between 1 and 1 or as a percentage from 100 to 100 where the sign is determined by convention PF MIU An ideal purely resistive load has no reactive components so its power factor is one PF 1 or unity power factor Inductive or capacitive loads introduce a reactive power Q component to the circuit which causes the PF to become closer to zero Related topic See Power and power factor conventions on page 157 for power factor sign convention information True PF and displacement PF PF min max convention 7EN02 0336 00 The meter supports true power factor and displacement power factor values True power factor includes harmonic content Displacement po
66. try to correct the interference by one or more of the following 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 of the receiver Consult the dealer or an experienced radio TV technician for help The user is cautioned that any changes or modifications not expressly approved by Schneider Electric could void the user s authority to operate the equipment CAN ICES 3 B NMB 3 B 7EN02 0336 00 PowerLogic PM8000 series user manual About this manual About this manual This manual discusses features of the PowerLogic PM8000 series power meter and provides installation and configuration instructions Throughout the manual the term meter refers to all models of the PM8000 All differences between the models such as a feature specific to one model are indicated with the appropriate model number or description This manual assumes you have an understanding of power metering and are familiar with the equipment and power system in which your meter is installed Topics not covered by this manual 7EN02 0336 00 This manual does not provide configuration information for advanced features where an expert user would perform advanced configuration It also does not include instructions on how to incorporate meter data or perform meter configuration using energy management systems or
67. webpages Modify your meter s Ethernet settings to those provided by your network system administrator before connecting the device to your local area network LAN After the meter s Ethernet port is configured and connected to the LAN you can use ION Setup to configure other meter setup parameters 51 Chapter 8 Communications PowerLogic PM8000 series user manual Related topics e See Setting up your meter using the display on page 34 for instructions on how to configure Ethernet communications using your meter s display See Self discovery over Ethernet on page 53 for instructions on how to connect to and identify your meter over a directly connected network e See Configuring network communications using ION Setup on page 90 for instructions on how to configure your meter s Ethernet communications using ION Setup See the ION Reference available from www schneider electric com for more information about the Communications module and its settings Protocols ports and connections The Ethernet protocols supported by your device allow simultaneous connections on the following IP service ports Protocol Port default Number of connections ION 7700 DNP 20000 el Modbus TCP 502 Modbus RTU over Ethernet 7701 Modbus TCP dedicated 502 32 EtherGate 7801 1 FTP 21 20 2 Webserver HTTP 80 10 SNMP 161 N A SMTP server email outgoing only 25 1 NTP 123 1 IEC 618
68. with protocol access events Once a user is locked out the device will not accept login attempts from that user on that protocol and communications method until the lockout duration has passed Invalid login attempts accumulate until the user has completed a valid login or been locked out For example once USERO1 has been locked out using ION over Ethernet USERO1 cannot access the device using ION over Ethernet until the lockout duration has 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 7 Security passed even if USERO1 enters the correct password However if the user enters the correct USER password combination before being locked out the invalid attempt counter is reset to zero Even if the user is locked out using ION over Ethernet that user can still access the device by entering the correct USER password combination over a different protocol and communications method for example connecting to the device s RS 485 serial port using Modbus protocol Related topics e See Configuring standard security using ION Setup on page 87 for instructions on how to set basic security and configure communications protocol lockouts e See Protocols ports and connections on page 52 for details of the supported Ethernet protocols enabling disabling protocols and changing port numbers See Specifications on page 181 for the number of configurable users in advanced security See the ION Reference for more i
69. 2 ION Setup 7EN02 0336 00 Parameter Description System contact Enter the name of your SNMP system administrator System name Enter a descriptive name for your meter System location Enter your meter s location 5 Review the rest of the SNMP information and modify if necessary Related topics See the SNMP on page 66 for more information about how SNMP is implemented on your device Loading an IEC 61850 configuration file using ION Setup You can load an IEC 61850 configuration CID file using ION Setup over an Ethernet connection You must have e The IEC 68150 configuration file stored in a location accessible by ION Setup The configuration file is created by customizing the IEC 61850 device ICD file which can be downloaded from www schneider electric com FTP access to your meter from the computer running ION Setup NOTE Your meter can have only one IEC 61850 configuration CID file loaded onto its internal FTP site If additional CID files are loaded IEC 61850 functions are deactivated until the additional files are removed 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Communications gt 3rd Party Protocols and select the IEC 61850 tab 4 Highlight a parameter and click Upload Navigate to where you stored your meter s CID file select the file and click Open Your meter reviews the CID file to determine if it is valid This process may tak
70. 50 102 4 1 These 8 simultaneous connections can be used by ION Modbus TCP Modbus RTU over Ethernet or DNP You can have a maximum of 3 DNP connections 2 This is used for the meter s webpages By enabling or disabling TCP IP protocols you can control whether or not your meter accepts new socket connection requests from the TCP IP protocols supported by the meter Changing settings does not impact existing connections Depending on the protocol you can also change the port number Ifyou configure communications so that you cannot communicate to and configure your meter you must return the meter to the factory where your meter is reset to its factory defaults and all logged data is lost NOTICE DATA LOSS Ensure you maintain sufficient access to communicate to and configure your device Failure to follow these instructions may result in data loss Related topics See Protocols on page 57 for more information about the protocols supported by your meter e See Network settings on page 90 for instructions on how to enable disable your meter s TCP IP protocols using ION Setup 52 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 8 Communications Ethernet topologies Your device s Ethernet ports have the same IP address The second Ethernet port acts as an Ethernet switch to help simplify network connections and reduce installation time and costs by having shorter Ethernet cable
71. 8 59 lt script type text javascript gt 60 61 SetupPane init formSampleSettings 62 formChangeDetection initFormChangeDetection formSampleSettings dialogFormChanges 63 64 lt script gt 65 lt div gt Sample setup webpage content description Line Description SampleSetupPane html 1 The HTML filename including the HTML extension html This filename must comply with FTP filename conventions no spaces or special characters The filename without the HTML extension is the name shown on the webpage menu 4 lt form id formSampleSettings gt formSampleSettings is the name of the webpage content This name must be unique lt h3 target sample basic gt 7 This creates the first webpage content pane sample basic is the name of the webpage content This name must be unique SSlocalizedString Basic Settings lt h3 gt Basic Settings is the title of the webpage content pane This title is translated if possible 3 lt div id sample basic gt This must match the name of the webpage content in line 7 m lt td gt localizedString Ethernet lt td gt Ethernet is the subheading This heading is translated if possible 7EN02 0336 00 124 Line Description 19 lt td gt localizedString MAC Address lt td gt MAC Address is the row heading This heading is translated if possible 20 lt td regname MAC Address gt lt td gt This displays the value of the read only
72. Configure your meter s IP Address and other network information as required NOTE Your meter s default IP address is 169 254 0 10 2 Press the down button to access the next screen of meter communications settings and configure as required Related links See Setup menu on page 33 for a description how to navigate and use your meter s display 7EN02 0336 00 55 Chapter 8 Communications PowerLogic PM8000 series user manual 56 7EN02 0336 00 Chapter 9 Protocols Protocols overview ION Modbus 7EN02 0336 00 Your meter supports several different protocols over its Ethernet and serial connections Your meter s default protocol implementation meets the needs of most systems with only basic configuration You can customize these implementations to meet your specific needs these are advanced procedures that require an understanding of ION architecture the supported protocols and the communications network and power system that your meter is connected to ION is the native protocol and architecture of your meter The basic building blocks of ION architecture are the ION modules each of which is specialized to perform a specific task and contains data and instructions on how to manage that data ION modules are combined linked together to create the meter s functions and features ION modules that are linked together to perform a specialized task are called a framework such as the Power Quality framework
73. E Status LED F l H G Home button Pressing the home button takes you to the associated menu screen If you are in a data screen pressing the home button takes you to the display menu and pressing home twice takes you to the summary display screen If you are in a setup screen pressing home takes you to the setup menu and pressing home again takes you to the display menu Revenue lock icon The revenue lock icon indicates the lock status of the meter When gray and open the meter is unlocked When green and closed the meter is locked You can lock and unlock your meter using the revenue lock switch located on the body of your meter Alarm icon The alarm icon indicates the highest level and state of alarms detected by your meter For example if the meter detects a low priority and a high priority active alarm the alarm icon indicates a high priority active alarm NOTE Alarms can only be viewed and acknowledged through your meter s display Icon Description Active alarm indicator Red high priority alarm state detected Yellow medium priority alarm state detected Blue low priority alarm state detected E The alarm indicator flashes until you acknowledge the alarm The alarm indicator changes to the historic alarm indicator of the appropriate level when the alarm state is no longer detected by the meter NOTE Your meter s display backlight flashes for unacknowledged high priority active alarms
74. E M Single interval block Time min Calculation updates at the end Demand value is the average for of the subinterval 5 minutes the last completed interval 15 minute interval 2 45 Time min Sliding window rolling block Power utilities generally bill commercial customers based on their peak usage levels called peak demand in kW and energy consumption in kWh Peak or maximum demand is the highest demand level recorded over the billing period You can view peak demand values on your meter s display 171 Chapter 21 Energy and demand 172 PowerLogic PM8000 series user manual Peak demand reset lockout The demand reset lockout time sets the minimum time allowed between consecutive demand resets the meter ignores any attempts to reset demand that occur within the lockout period The peak demand reset lockout period is user configurable with a default value of 25 days Related topics e See the ION Setup online help available from www schneider electric com for instructions on how to configure the peak demand reset lockout period e See Meter resets on page 153 for more information about the resets available on your meter 7EN02 0336 00 Chapter 22 Revenue Revenue overview This section describes your meter s revenue related features revenue locking time of use PT CT potential transformer current transformer correction and the recommended process for verifying the accuracy of you
75. ETSEPM89M0024 Analog I O option module 2 out 4 in PM8000SK METSEPM8000SK PM8000 voltage and current sealing kit METSEPMAK METSEPMAK PM8000 mounting adapter kit for remote display and DIN meter Related topics See the PM8000 catalog pages available from www schneider electric com or consult your local Schneider Electric representative for the most up to date information about your device its options and accessories Panel meter Voltage inputs c basa ma7 B Control power Digital inputs 3 J Revenue lock switch cover Digital output H G Gasket Ethernet 2 Current inputs Option module connector Display Mounting hardware and accessories not shown 7EN02 0336 00 19 Chapter 3 Hardware reference PowerLogic PM8000 series user manual DIN meter Voltage inputs Control power Digital inputs 3 Revenue lock switch cover Digital output RS 485 Ethernet 2 Current inputs Option module connector e rjo mni mjojojo gt Remote display connector Mounting hardware and accessories not shown Related topics See the PM8000 catalog pages available from www schneider electric com or consult your local Schneider Electric representative for information about your device its options and accessories Remote meter display RMD The remote meter display can be used with DIN me
76. Event log overview on page 134 for more information about your meter s event log 7ENO2 0336 00 165 Chapter 20 Power quality PowerLogic PM8000 series user manual 166 7EN02 0336 00 Chapter 21 Energy and demand This section includes information on the energy monitoring features of your meter conditional energy and WAGES water air gas electricity steam input metering It also provides information on the different power demand calculation methods you can configure on your meter Conditional energy Conditional energy allows you to define an accumulation period for real and reactive energy using one of your meter s digital inputs You can use conditional energy to track four quadrant accumulated energy during a specific period for example you may want to track accumulated energy values during a particular process controlled using a programmable logic controller PLC Conditional energy is accumulated until it is reset The conditional energy reset date and time information is stored in the meter s event log Related topics e See Configuring conditional energy using ION Setup on page 98 for instructions on how to enable and trigger conditional energy accumulation See Power and power factor conventions on page 157 for a detailed description of four quadrant energy values WAGES monitoring overview Water air gas electric and steam WAGES monitoring allows you to monitor and analyze of your energy s
77. For applications requiring high accuracy such as energy pulsing to verify accuracy the digital output on the meter base is recommended Your meter s digital and analog outputs may change state during a firmware upgrade Option modules are offline during an option module firmware upgrade they will not communicate to the meter and the outputs may change state during the upgrade process Analog I O option modules 44 Your meter s analog I O option modules can measure and output either low voltage or current using standard analog transducers such as 4 20 mA current transducers Analog option module data viewing To view analog option module data on your meter s display go to Inputs Outputs and select either Analog Inputs or Analog Outputs If there are no I O of the specified type an informative message is displayed To view analog option module data on your meter s webpages connect to your meter s webpages go to Monitoring gt Inputs Outputs and select either Analog Inputs or Analog Outputs If there are no I O of the specified type an informative message is displayed 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 6 Option modules Related topics See Analog inputs outputs on page 141 for information about analog I O Digital I O option modules You can add digital I O option modules to increase your meter s capabilities Digital option module data viewing To view digital option module
78. Polarity Normal Inverted The polarity of the current transformer on 14 V Nominal 1 to 999 999 The nominal normal voltage of the power system Nominal Values Nominal 1 to 999 999 The nominal normal current of the power system Nominal Frequency 50 60 The nominal normal frequency of the power system 7EN02 0336 00 37 Chapter 5 Display and meter setup Communications Setup PowerLogic PM8000 series user manual Screen title Parameter Values Description Sets the IP address for the meter IP Address i As defined by your network s system NOTE Your meter s default IP address is 169 254 0 10 IP Address Setup SubnetMask administrator Used if subnetting applies to your network Gateway Used in networks with multiple segments MAC Address Not configurable Your meter s media access control MAC address Specifies if rapid spanning tree protocol RSTP is enabled Enable RSTP Yes No NOTE If local network loop or ring Ethernet topologies are required you must enable RSTP for your meter s Ethernet Setup Ethernet communications to function Enable ION Over TCP Yes No Specifies if ION protocol communications are enabled over Ethernet Enable Web Server Yes No Specifies if the meter s internal web server is enabled Primary DNS Sets the address for the primary DNS server that is DNS SSi As defined by your network s system configured to resolve do
79. Power quality and compliance e Trending and forecasting e Energy revenue metering Meter events Your meter also logs voltage and current waveform data when a sag or swell is detected You must enter your power system s nominal values and configure your meter so that it can identify sags and swells You can configure your meter s setpoint learning feature to learn your power system s normal operating values and use that information to help identify voltage sags and swells Logged data can be retrieved by energy management software Related topics e See Minimum configuration requirements for basic metering on page 37 for information on entering your nominal values through the meter s display Default logging capacity 7EN02 0336 00 The following table summarizes the default logging depths and intervals for your meter s onboard data and waveform recorders m Log name Depth Interval 1 Revenue Log 3360 35 days 900 seconds 15 minutes 9 Loss Log 3360 35 days 900 seconds 15 minutes 2 3 4 Historic Logs 3360 35 days 900 seconds 15 minutes 39 Daily Nominal Log 450 Triggered on demand 7 8 Harmonics Logs 840 35 days 3600 seconds 1 hour N A Waveform recorders 6 total 30 Triggered on demand N A COMTRADE records 1 Triggered by waveform recording 10 Energy Demand EgyDmd Log 3360 35 days 900 seconds 15 minutes 5 Sag Swell Log 100 Triggered on demand N A Event Log 500 T
80. PowerLogic PM8000 series User manual 7EN02 0336 00 11 2014 o 0 A DANGER PELIGRO DARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH RIESGO DE DESCARGA ELECTRICA EXPLOSION O DESTELLO DE ARCO RISQUE DELECTROCUTION DEXPLOSION OU D ARC ELECTRIQUE Schneider PowerLogic PM8000 ION CE chneider Electric PowerLogic PM8000 16 01 2014 48 Phasor Di magnitude Ano Schneider Safety information Important information Please note 7EN02 0336 00 Read these instructions carefully and look at the equipment to become familiar with the device before trying to install operate service or maintain it The following special messages may appear throughout this bulletin or on the equipment 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 a hazardous situation which if not avoided will result in death or serious injury A WARNING WARNING indicates a hazardous situation which if not avoided could result in death or seri
81. Primary Secondary PT 120 00 120 00 CT _5 000 5 000 14 CT 5 000 5 000 9 Press amp to change the value of the highlighted digit 0 9 Press to go to the next digit Press to enter the new value When the confirmation screen is displayed press to confirm the new value or to revert to the original value 36 7ENO2 0336 00 PowerLogic PM8000 series user manual Minimum configuration Setup parameters Chapter 5 Display and meter setup Related topics e See Minimum configuration requirements for basic metering on page 37 for information on the values that must be configured on your meter e See Security on page 47 for information about the security features of your meter requirements for basic metering At a minimum you must configure the following parameters to help your meter perform basic metering functions Setup screen Screen Minimum configuration Volts Mode PT CT Setup Nominal values Volts Mode PT CT and 14 CT Primary and Secondary V nominal nominal Nominal Frequency Meter Setup NOTE You must also configure all the parameters related to the meter features you are using for example you must configure the DNS server address if you are using the meter s DNS feature The following sections list the parameters that can be configured using your meter s display NOTE Some parameters may appear differently than shown depending on your
82. These different functional frameworks are then grouped together to define the entire meter and are collectively referred to as the device template Your meter ships with a default device template which provides extensive capabilities You can also configure your meter s template to modify your meter s existing functions or to create new functions Related topics See the JON Reference available from www schneider electric com for further information about ION architecture and a detailed description of the different ION modules e See the JON Device Template Reference available from www schneider electric com for details on the modules and their configuration in your meter s default template Modbus is a master slave communications protocol where the master initiates transactions and the slave s responds with the requested information or action Your device can function as a Modbus slave or Modbus master depending on how it is configured Your device comes with Modbus slave functionality configured and ready to use You can add custom Modbus information to the default Modbus slave data provided by your device Key terms Term Definition Modbus gateway A communications method that lets you communicate through an Ethernet gateway device to a Modbus serial network connected to that device A device that issues commands and receives responses from Modbus slave devices Serial Me masier Modbus networks can only have
83. VII avg mean kVAR tot mean VII avg high KVAR tot high VII avg low kVAR tot low V unbal mean kVA tot mean V unbal high kVA tot high V unbal low kVA tot low la mean PF lag mean la high PF lag high la low PF lag low lb mean PF lead mean Ib high PF lead high Ib low PF lead low Ic mean Freq mean Ic high Freq high Ic low Freq low Loss log The Loss Log is configured to record loss values By default it logs the following values Parameter Description MU la 2h int Phase A interval current squared hours MU Ib 2h int Phase B interval current squared hours MU Ic 2h int Phase C interval current squared hours MU Vilab 2h int Phase A interval voltage Line to Line squared hours MU Vilbc 2h int Phase B interval voltage Line to Line squared hours MU Vllca 2h int Phase C interva voltage Line to Line squared hours MU Vin a 2h int Phase A interval voltage Line to Neutral squared hours MU Vin b 2h int Phase B interval voltage Line to Neutral squared hours MU Vin c 2h int Phase C interva voltage Line to Neutral squared hours Harmonics logs Two harmonics logs record various harmonics data including K factor and Total Harmonic Distortion THD These recorders are labeled Harm Mean Log and Harm High Log By default they log the following values Harm Mean Log Harm High Log V1 THD mean 11 K Fac mean V1 THD high 11 K Fac high V2 THD mean 12 K Fac mean V2 THD
84. YZ the meter counts a transition from off on or from on off as one input A C the meter detects analog signals where the ON condition is based on the presence of an AC signal IRIG B1 the meter detects an IRIG B time synchronization signal Polarity Inverting Non Inverting Specifies if the signal from the digital port is inverted or not inverted Debounce Port 0 000 1 000 Defined by your meter s hardware Specifies how long in seconds the signal must remain in a state to be considered a valid state change Your meter s physical digital input port 1 IRIG B can only be connected to one of the digital inputs located on the meter base not an option module You must also configure your meter s clock to use IRIG B time synchronization 5 Once the parameter has been configured click OK to save the setting to the meter Related topics e See Time synchronization overview on page 73 for IRIG B time synchronization information Configuring onboard digital outputs using ION setup You can configure your meter s digital outputs using ION Setup One form A digital output is available on the base of the meter You can add more digital outputs using optional I O modules 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to either onboard or expansion I O Digital Outputs and select a digital output tab 4 Configure the digital output by selec
85. ach has tab an area where the module s ports are listed for viewing and configuration The module s type and status is displayed Status examples Description None No option module detected Normal The option module is operating normally Option module added A new option module is detected Option module removed The option module has been removed Invalid SI9 The option module s firmware is not supported Invalid card The option module type is not supported In the option module tabs you can also reset your meter s option modules This power cycles all the option modules Option module functions are not available during a bus reset and option module digital and analog outputs will change state A WARNING UNINTENDED OPERATION Do not use this meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage Configuring I O option module analog inputs using ION Setup You can configure analog inputs using ION Setup Analog inputs are available on the optional I O modules you can connect to the base of your meter Calculate your zero scale and full scale values based on the analog source and the input range of your meter Make sure that the analog input port that you want to use is properly configured and connected to a valid external
86. ack a rejection to the request If the meter receives a write command to a read only Modbus register address exception code 3 illegal value is returned Fixed and configurable Modbus map Your device has a fixed static register map for meter data and a flexible user configured register map Modbus security Your meter s onboard security options include Modbus specific settings These security settings may need to be configured in order to write Modbus data to the meter Modbus TCP ports Port Descriptions 502 Modbus TCP 7701 Modbus RTU over Ethernet Serial In order for your meter to operate as a serial Modbus device you must complete the following prerequisites Prerequisite Description The device s serial connection must be wired correctly Wirin a The Modbus slave devices must have communications wiring to the Modbus master Slave for your meter to be a serial Modbus slave the meter s protocol must be set to Protocol Modbus RTU Master and slave devices must use the same format rotoco Master for your meter to be a serial Modbus master the meter s protocol must be set to Modbus Master Baud rate The baud rate must be the same for all devices on the serial Modbus network The communication stop bits and parity for example 8N1 must be the same for all devices Stop bits ana parity on the serial Modbus network Each device on the serial Modbus network must ha
87. active high priority alarms the meter s display will also flash until the alarm is acknowledged There is also an alarm LED to indicate the meter s alarm condition Alarm Alarm icon Alarm icon flash Alarm LED Meter display Flash if not gt x Flash if not acknowledged Flash if not Active high Red solid bell acknowledged Steady if acknowledged acknowledged e Flash if not i i Flash if not acknowledged Active medium Yellow solid bell acknowledged Steady if No flash acknowledged e Flash if not Flash if not acknowledged Active low Blue solid bell acknowledged Steady i No flash acknowledged Flash if not ee Flash if not acknowledged Historic high Red outline bell acknowledged Steady if No flash acknowledged e Flash if not PERI Flash if not acknowledged Historic medium Yellow outline bell acknowledged Steady i No flash acknowledged Flash if not eiii 3 Flash if not acknowledged Historic low Blue outline bell acknowledged Steady if No flash acknowledged 149 Chapter 17 Alarms and alerts Default alarms PowerLogic PM8000 series user manual Alarm Alarm icon Alarm icon flash Alarm LED Meter display No active or unacknowledged alarms 9 8Y Solid bell No flash Off No flash If there are multiple active alarms the meter displays the alarm condition associated with the most important active alarm If there are multiple una
88. ad its information A Gateway meter B Ethernet single TCP connection C Serial network of devices D Master device one only For EtherGate you must install the serial devices configure them and connect them to your Ethernet connected gateway meter Ensure that each serial device is configured with the same protocol and baud rate and has a unique unit ID Configure the gateway meter s serial port to use the EtherGate protocol create the EtherGate site in ION Setup or an energy management system and add the serial devices to the EtherGate site NOTE EtherGate supports only one master device Related topics e See Configuring an EtherGate gateway using ION Setup on page 93 for instructions on setting up an EtherGate gateway e See Specifications on page 181 for how many serial devices your meter can support In a Modbus gateway configuration a Modbus master device can communicate using Ethernet through the gateway meter to downstream serial devices A Modbus request is sent through Ethernet using Modbus TCP to the gateway meter If this request is addressed with the slave ID of one of the downstream serial devices the meter forwards the message to that device using Modbus RTU When the downstream device responds the gateway meter forwards the response back to the 63 Chapter 9 Protocols PowerLogic PM8000 series user manual Modbus master In addition to Modbus slave
89. addresses 0 247 the Modbus gateway supports slave address 255 which sends a Modbus request to the gateway meter only A Gateway meter B Ethernet multiple Modbus master TCP connections C Downstream serial Modbus slave devices D Multiple Modbus master devices The maximum number of Modbus gateway Ethernet connections available is equal to the number of Modbus TCP connections the gateway meter can handle For Modbus gateway you must install the serial Modbus slave devices configure them and connect them to your Ethernet connected Modbus gateway meter Ensure that each serial device is configured to communicate over Modbus with the same baud rate and has a unique unit ID Configure the gateway meter s serial port to use the Modbus master protocol and enable the Modbus gateway feature create a Modbus gateway site in ION Setup or an energy management system and add the serial devices to the Modbus gateway site Related topics e See Configuring a Modbus gateway using ION Setup on page 92 for instructions on setting up a Modbus gateway e See Specifications on page 181 for how many serial devices your meter can support Configuring EtherGate using the display You can use the meter s display to configure a serial port to use the EtherGate protocol 1 Navigate to Setup Menu gt Communications Setup and go to the serial communications setup screen 2 Setthe serial port
90. al lockout settings Enter a lockout duration Set the priority of meter access events 4 Configure users advanced security only Determine user access Set user passwords Communications protocol lockout overview 48 The communications protocol lockout security feature allows you to set the number of invalid login attempts that each user can make using a particular protocol and communications method before being locked out a user is defined as a user login and password combination For protocols that are not session based ION you can configure how often the device registers invalid login attempts by configuring the session timeout You can also configure the lockout duration for all configurable protocols NOTE If protocol lockout is set to 0 zero there is no limit to the number of invalid login attempts and the protocol will never be locked out However the invalid login attempt events are recorded if the meter access events are configured to record invalid access attempts Session timeout specifies the active duration for a protocol during this time repeated invalid login attempts using the same USER password combination are not registered repeated invalid attempts with different combinations are still registered Session timeout only applies to protocols which are not session based and send credentials with each packet and should be configured to help prevent accidental lockouts and filling the meter s event log
91. also have the appropriate meter level security access to configure meter security You must have configured the standard security settings on your meter using ION Setup 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup Serial Settings 7EN02 0336 00 This task assumes that you are in the user configuration screen in the security wizard in ION Setup 1 Inthe user passwords screen select check the user that you want to configure to view the user access options 2 Select the appropriate values to configure the user s access Access Description Time sync The user can set the meter s time and time synchronization parameters Read The user can view all parameters except the security configuration Peak demand reset The user can reset peak demand values Test mode The user can put the meter into test mode not applicable to the PM8000 Full meter config The user can configure all aspects of the meter except demand resets test mode or security Security config The user can configure security Some access levels require that multiple access options be selected 3 Select the user and click Password The password entry screen appears 4 Enter the desired password and click OK 5 Continue configuring user access and passwords for each unique user of the meter NOTE Select Show password when user selected to display the password associated with that user This feature
92. anges state for example the digital input changes from off to on The event log is controlled by the Event Log Controller module which allows you to set a priority cutoff for event logging Events with a priority number greater than the cutoff value are logged and events with lower priorities are discarded By default this value is set so that all relevant events are recorded in the meter s event log Event priority values range from 0 to 255 with a typical cutoff value of 5 NOTE Alarms are generated by events from certain ION modules The alarm level is determined by the priority of the associated event To disable the alarm but still record the associated event set the alarm priority to info only To disable the alarm and the event set the alarm priority to none Related topics See the JON Reference available from www schneider electric com for more information about the Event Log Controller module and event priorities for specific ION modules See Alarms overview on page 147 for details of alarm operation and configuration Waveform recording overview 7EN02 0336 00 Your meter is able to record voltage and current waveform information Waveform information is used to help identify power system disturbances which are an increasing concern for industrial plants hospitals data centers and other facilities where the equipment is sensitive to voltage or current sags swells and momentary interruptions Waveform i
93. antity of option modules attached to your meter you may need to reduce your meter s maximum operating temperature For a panel mount meter one limitation on the number of modules that can be attached is the physical strength of the meter mounting hardware If your meter is mounted in an area subject to vibration or other physical stresses your meter s ability to physically support multiple option modules and maintain a seal against the mounting surface may be affected 43 Chapter 6 Option modules PowerLogic PM8000 series user manual NOTICE EQUIPMENT DAMAGE Do not exceed the maximum number of option modules Failure to follow these instructions will result in equipment damage Related topics e See Specifications on page 181 for more information about the maximum number and type of attached option modules I O option modules I O option modules provide increased digital and analog input output I O capabilities for your meter A WARNING UNINTENDED OPERATION Do not use the meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage These I O modules can be used to monitor the status of breakers control analog or digital transducers or receive signals that can be interpreted to provide WAGES data for your energy system
94. as a Modbus slave on a serial network Modbus master Modbus RTU Your meter Your meter as a Modbus slave over Ethernet Modbus master Ethernet r Modbus TCP aa E A El 5 E e Your meter 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 9 Protocols Your meter as a Modbus master with serial Modbus slave devices A E Your meter Ethernet S a f EJ RS 485 Modbus RTU Modbus slaves Your meter as a Modbus master with Ethernet Modbus slave devices Modbus slaves Ethernet oh ay g e Your meter o e Supported features Modbus data classes Class Description Coils Digital bits that can be read and written to Input status Digital bits that can be read Input registers 16 bit integers that can be read Holding registers 16 bit integers that can be read and written to Modbus data formats Format Type of Modbus registers used Unsigned 16 bit Integer 1 Signed 16 bit Integer 1 Unsigned 32 bit Integer 2 Signed 32 bit Integer 2 Unsigned 32 bit M10k Integer 2 Signed 32 bit M10k Integer 2 IEEE float Floating point 2 Packed Boolean for inputs Integer 1 Packed Boolean for coils Integer 1 Unsigned 16 bit read write Integer 1 Signed 64 bit Integer 4 1 Meters acting as Modbus masters support two versions of IEEE float with different word orders high low
95. ata viewing webpage content Line Sample HTML 1 SampleMonitorPane html 2 lt div class content fit gt 3 lt div class accordion gt 4 lt h3 target sample readings gt S localizedString Basic Readings lt h3 gt 5 lt div id sample readings gt 6 lt table class datatable gt 7 lt tr gt 8 lt th gt snbsp lt th gt 9 lt th gt localizedString Minimum lt th gt 10 lt th gt localizedString Present lt th gt 11 lt th gt localizedString Maximum lt th gt 12 lt tr gt 13 lt tr class minor gt 14 lt td gt S localizedString I a lt span unitsreg I a gt lt span gt lt td gt 15 lt td regname I a mn gt lt td gt 16 lt td regname I a gt lt td gt 17 lt td regname I a mx gt lt td gt 18 lt tr gt 19 lt tr class minor gt 20 lt td gt S localizedString I b lt span unitsreg I b gt lt span gt lt td gt 21 lt td regname I b mn gt lt td gt 22 lt td regname I b gt lt td gt 23 lt td regname I b mx gt lt td gt 24 lt tr gt 25 lt table gt 26 lt div gt 27 lt h3 target sample energy gt S localizedString Energy Readings lt h3 gt 28 lt div id sample energy gt 29 lt table class datatable gt 30 lt tr gt 31 lt th gt amp nbsp lt th gt 32 lt th gt
96. ate onto your meter clears the meter s recorded data NOTICE DATA LOSS Ensure that all important data has been recorded before uploading firmware or a template to your device Failure to follow these instructions can result in data loss Typical workflows To update your meter to the latest available firmware and factory template Download the latest firmware and template for your meter Load the firmware onto your meter the firmware upgrade process includes upgrading the meter template 7EN02 0336 00 77 Chapter 11 Firmware and templates PowerLogic PM8000 series user manual To take an existing meter out of service and replace it with a new meter Save the template from the existing meter Load the existing meter s template onto the new meter the new meter will now have the customized features from the existing meter To update your meter s firmware without updating your meter s template e Save your meter s template Download the latest firmware Load the firmware onto your meter When prompted for a template file select the template you saved from your meter To update the firmware on your meter s remote display Download the display firmware Load the firmware onto the meter s internal FTP site using either an FTP program or ION Setup The results of the firmware update are stored in the meter s event log To update the firmware on your meter s option module s
97. ate your maximum kWh pulse pulse weight value To calculate the kWh pulse pulse weight value divide the highest kW value you can expect by the required pulse rate Make sure the required pulse rate does not exceed the maximum pulse rate for the digital output NOTE To convert from kWh pulse to pulse kWh you must invert take the reciprocal of the value For example 1 8 kWh pulse becomes 0 556 pulse kWh Example For a maximum load of 1600 kW and a pulse rate of 2 pulses per second calculate the kWh pulse value as follows 1 Convert 1600 kW load into kWh second 1600 kW 1hr 1600 kWh 1600 kWh 3600 sec X kWh 1sec X 0 444 kWh sec 2 Calculate the kWh required per pulse 0 444 kWh sec 2 pulses per second 0 222 kWh pulse 3 Adjust for the KY giving one pulse per 2 transitions if necessary 0 222 kWh pulse 2 0 111 kWh pulse 7EN02 0336 00 Chapter 17 Alarms overview Alarm types 7EN02 0336 00 Alarms and alerts Your meter can display various alarms through the display and can be configured to send an alert A WARNING INACCURATE DATA RESULTS Confirm your alarm is properly configured Failure to follow these instructions can result in death serious injury or equipment damage An alarm is a notification of a specific event that is annunciated through the display and can be viewed and acknowledged using your meter s display You can configure your meter to generate and dis
98. ated fields IEC 61000 4 3 Immunity to fast transients IEC 61000 4 4 Immunity to surges IEC 61000 4 5 Immunity to conducted disturbances IEC 61000 4 6 Immunity to power frequency magnetic fields IEC 61000 4 8 Immunity to conducted disturbances 2 150 kHz CLC TR 50579 Immunity to voltage dips and interruptions IEC 61000 4 11 Immunity to ring waves IEC 61000 4 12 FCC part 15 Radiated and conducted emissions ICES 003 EN55022 EN55011 Surge withstand capability SWC ANSI C37 90 1 Safety Safety construction IEC EN 61010 1 ed 3 CAT III 400 VLN 690 V LL UL 61010 1 ed 3 and CSA C22 2 No 61010 1 ed 3 CATIII 347 V LN 600 V LL IEC EN 62052 11 Protective Class II 7EN02 0336 00 183 Chapter 23 Specifications General characteristics Clock LEDs Other Remote display Option modules 184 PowerLogic PM8000 series user manual Characteristic Specifications Clock drift 20 ppm max at 25 C 77 F Battery backup time Minimum 7 years under specified storage conditions LED Characteristic Specifications Type Visible orange infrared Energy pulsing LEDs visible and infrared _ Wavelength 600 609 nm orange 825 925 nm infrared Maximum pulse rate 42 69 Hz based on line frequency Characteristic Specification Meter start time Typical 18 seconds po
99. ault value Display password also for logging onto meter webpages 0 Username for logging onto meter webpages 8000 IP address 169 254 0 10 Subnet mask 255 255 0 0 Gateway 0 0 0 0 Unit ID 1 Language English 25 Chapter 4 Mounting and installation PowerLogic PM8000 series user manual Related topics e See Setup menu on page 33 for instructions on how to perform basic configuration using the display e See Self discovery over Ethernet on page 53 for information on how your meter can automatically appear on your network e See Meter webpages on page 115 for instructions on how to perform basic configuration using your meter s webpages See the ION Setup online help available from www schneider electric com for instructions on how to connect to and configure your meter 26 7EN02 0336 00 Chapter 5 Display overview 7EN02 0336 00 Display and meter setup Your meter can have either an integrated or an optional remote display The display allows you to view meter data and perform basic configuration The integrated and remote display screens have the same meter data and setup screens Only meters without an integrated display can use the remote display A B c A Date time B Revenue lock icon C Alarm icon Summary D Display Vin avg 119 90v E Navigation icons lav 4 3307 D F Navigation buttons G Home button kWh debrec 0 000 kwn 0 921 7 H Alarm LED
100. aximum learning duration The actual learning duration may vary depending on the stability of the system If the system is stable for a period equal to one quarter of the maximum learning duration learning is complete otherwise the learning period will be the maximum learning duration 137 Chapter 15 Data waveform and event logging PowerLogic PM8000 series user manual Example Setpoint learning duration in a stable system In this example the learning duration is 30 days When the system is stable for 7 5 days one quarter of 30 days learning is complete 115 Learned swell limit 110 110 105 100 95 Percentage of nominal 90 Learned sag limit 87 85 Maximum duration remaining 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 0 Stable learning time O 0 012 340 0 12 3 45 001 2 34 5 6 7 7 5 Example Setpoint learning duration in an unstable system In this example the learning duration is 30 days Because the system is not stable for 7 5 days one quarter of 30 days learning is complete at the end of the maximum learning duration 115 Learned swell limit 115 110 105 100 Percentage of nominal 95 90 Learned sag limit 87 85 Maximum duration remaining 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 111098 7 6 5 4 3 2 1 0 Stable learning time 0 0 012 300123 45 6 00412345 6700412 4 5 01 Related topics See Imple
101. being monitored Related topics e See Viewing data using your meter s display on page 30 for information on how to view total harmonic distortion values on your meter s display See the JON Reference available from www schneider electric com for details about the Harmonics Measurement module Phasors are used to represent the voltage and current relative magnitude and angles They can be viewed through your meter s display or webpages The length of the lines in the phasor diagram represent the relative magnitude of the voltages with respect to the other phase voltages and the currents with respect to the other phase currents All angles are measured with respect to the Va V1 phase The Va V1 phasor is fixed to the right hand horizontal axis positive x axis Positive angles are measured counterclockwise 163 Chapter 20 Power quality PowerLogic PM8000 series user manual Numeric values are provided for the magnitude and relative angle for each voltage and current phase Phasor information can be used to troubleshoot incorrect connections on the meter s voltage and current inputs if you know how the phasors should be oriented for your power system Related topics e See Viewing data using your meter s display on page 30 for instructions on how to navigate and use your meter s display Viewing harmonics information using the display You can view detailed harmonics data through your meter s display
102. c com e The option module connected to your meter and have access to your meter s internal FTP site FTP access to your meter from the computer running ION Setup All option modules do not perform their regular functions during firmware upgrade they will not communicate to the meter and the outputs may change state during the upgrade process 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 these instructions can result in death serious injury or equipment damage 1 Obtain the option module firmware SI9 files that you want to load onto your option module s Save the files where they can be accessed by the computer running ION Setup 2 Start ION Setup 3 Open the Setup Assistant for your meter 4 Select the Template screen 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup Basic setup screen Security 7EN02 0336 00 5 Click the Firmware Upgrade tab then click Upgrade Enter your meter s password if prompted and click OK 6 Navigate to where you have stored the option module firmware Select the Option Module firmware file SI9 as the file type Select the option module firmware S1I9 file and click Open Enter your ION Setup password when prompted and click OK 7 Adialog box describes the firmware upgrade
103. cking Edit 5 Click Setup The Alarm Learning Setup screen is displayed Configure the learning parameters Parameter Value Range Description Automatic the learned values are automatically applied Install mode Automatic Manual Manual the learned values are stored for you to review and enter Duration 1 365 Days for maximum learning duration Click Start to begin sag swell learning Click Abort to stop learning 6 Apply the learned sag swell limits Automatic the limits are automatically applied unless there are issues with the learning process Manual navigate to Power quality gt Sag Swell Select the Swell limit or Sag limit and click Learn Click Install to apply the learned limits NOTE If you click Install while learning is in progress in either manual or automatic installation mode it stops the learning process and prompts you for confirmation that you want to stop learning and install the learned limits Once you have confirmed the learned limits are automatically installed or prepared for manual installation Related topics e See Setpoint learning overview on page 137 for more information about setpoint learning including sag swell learning Power Quality Configuring waveform recording using ION Setup You can configure waveform recording using ION Setup For waveform recording to trigger automatically you must enter your system s nominal normal voltage and curren
104. cknowledged historic alarms the meter displays the alarm condition associated with the most important unacknowledged historic alarm NOTE To stop an alarm from being displayed without impacting other metering features set the alarm priority to info only Your meter comes with the following default alarms NOTE Some alarms require configuration in order to operate Name Priority Description Current Sag Ph1 3 High Current sag alarms for phase 1 2 3 Current Swell Ph1 3 High Current swell alarms for phase 1 2 3 Sag Swell High Voltage sag swell alarm Over unbal Medium Over unbalanced current alarm Over V unbal Medium Over unbalanced voltage alarm Over THD V1 3 Medium Over total harmonic distortion THD voltage alarms Over kW P sd Medium Over kW sliding demand alarm Overla c 1 3 4 Medium Over current alarms V1 V3 Setpoint Medium Voltage setpoint alarms Freq Setpoint Medium Frequency setpoint alarm 4 30 Volt Intrp Ph1 3 Low 4 30 voltage interruption power quality alarms Digital input alarms Digital In Info only Number of alarms determined by the total number of available digital inputs NOTE These alarms are not displayed by default Alarm information You can view the following information about an alarm from your meter s display Only alarms with a priority of low medium or high are displayed Parameter Description Alarm
105. connection must be wired and configured correctly The same mode of serial communication must be used for all devices on the network Your meter does not require any Modbus specific configuration to act as a Modbus slave device over Ethernet 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Communications gt Serial settings Select the tab for the serial port you want to configure 4 Highlight the parameter and click Edit to configure the serial ports Modbus parameters as required Parameter Setting Protocol Modbus RTU or Modbus master 1 Off if the meter is a Modbus slave Salas On if the meter is a Modbus master 5 Configure the meter s other serial port parameters as required Related topics e See your device s Modbus map available from www schneider electric com for Modbus register information Configuring network communications using ION Setup You can configure your device s Ethernet settings using ION Setup If you are connected to your device over Ethernet changing Ethernet configuration parameters without another method of configuration enabled may cause loss of communications with your device and render it inoperable In this case a factory reconfiguration of your device is required which resets your device to its factory defaults and all logged data is lost NOTICE DATA LOSS Ensure you maintain sufficient access to communicate to and configure your device
106. d allows you to configure basic security and communications protocol lockout Advanced includes the standard security features and adds user access password security settings 87 Chapter 12 ION Setup 88 10 PowerLogic PM8000 series user manual The standard options or advanced options configuration screen appears Configure the security parameters as required some parameters can only be configured using advanced security Parameter Standard advanced Details Meter password Standard advanced Default meter password is 0 zero This option allows you to enable or disable the ability to configure Active web server Standard advanced 3 your device using webpages Allow Modbus programming This option can only be enabled in advanced security and is Advanced Only disabled for standard security Allow front panel Standard advanced This option allows you to enable or disable the ability to configure programming your device using the display Allow broadcasting time synchronization This option can only be disabled in advanced security and is Advanced only enabled for standard security Click Next to configure protocol access information The protocol lockout screen is displayed In the protocol lockout screen select the protocols that you want to be protected by the protocol lockout function Select each protocol and click Edit to configure the protocol specific parameters
107. d if possible 43 lt td gt lt input type text name TCP Keep Alive Minutes class small gt This displays the instantaneous value of the configurable named register TCP Keep Alive Minutes in a text edit field 1 The type must match the named register type in this case an alphanumeric string lt span unitsreg TCP Keep Alive Minutes gt lt span gt lt td gt This displays the units that the meter has defined for the named register TCP Keep Alive Minutes NOTE There are no defined units for TCP Keep Alive Minutes so no units are displayed 46 lt td gt S localizedString Enable Web Server lt td gt Enable Web Server is the row heading This heading is translated if possible 47 lt td gt lt select name Enable Web Server gt lt select gt lt td gt Enable Web Server is the named register that is displayed Named registers are listed in the PM8000 registers map The type must match the named register type in this case an enumerated value that is displayed as a drop down list 61 SetupPane init formSampleSettings This must match the webpage content name from line 4 62 formChangeDetection initFormChangeDetection formSampleSettings dialogFormChanges This must match the webpage content name from line 4 This HTML code updates all of the webpage s values 1 Named registers are listed in the PM8000 registers map If the desired value is not li
108. d register p 5 lt td regname I b mx gt lt td gt This displays the instantaneous value of the named register bmx lt h3 target sample energy gt 27 This creates the second webpage content pane Sample energy is the name of the webpage content This name must be unique SS localizedString Energy Readings lt h3 gt Energy Readings is the title of the webpage content pane This title is translated if possible m lt div id sample energy gt This must match the name of the webpage content in line 27 7EN02 0336 00 121 Line Description 32 lt th gt localizedString Present lt th gt Present is the heading for the last column This heading is translated if possible 35 lt td gt localizedString Active Energy Active Energy is the row heading This heading is translated if possible lt span unitsreg kWh del rec gt lt span gt lt td gt This displays the units that the meter has defined for the named register kWh del rec lt td regname kWh del rec gt lt td gt 36 This displays the instantaneous value of the named register kWh del rec 39 lt td gt localizedString Reactive Energy Reactive Energy is the row heading This heading is translated if possible lt span unitsreg kVARh del rec gt lt span gt lt td gt This displays the units that the meter has defined for the named register kVARh del rec 40 lt td regname kVARh
109. data on your meter s display go to Inputs Outputs and select either Digital Inputs or Digital Outputs If there are no I O of the specified type an informative message is displayed To view digital option module data on your meter s webpages connect to your meter s webpages go to Monitoring gt Inputs Outputs and select either Digital Inputs or Digital Outputs If there are no I O of the specified type an informative message is displayed Related topics e See Digital inputs outputs on page 145 for information about digital I O Option module troubleshooting Option module reset 7EN02 0336 00 Your meter s option modules operate sequentially if one module is non functional all downstream modules may be affected If your meter cannot communicate with an option module by default it cycles power to that module and all downstream modules making multiple attempts to communicate After the maximum number of communication attempts has been exceeded the meter will remove power to that module and all downstream modules When troubleshooting option modules attach each option module directly to the meter and verify its operation If each option module operates when directly connected use combinations of modules or known good modules to help identify the issue Events related to option module initialization and operation are stored in your meter s onboard event log Perform an option bus reset to restart the option bus and re init
110. displayed values PF Convention IEEE IEC Specifies whether IEEE or IEC power factor conventions are applied to displayed values Numeric Format Setup Digit Grouping 1000 0 1 000 0 1 000 0 Specifies how digits are grouped for display Volts Resolution 1 1 X 1 XXX 1 XXXX Specifies the number of decimal places displayed for voltages Current Resolution 1 1 X 1 XXX 1 XXXX Specifies the number of decimal places displayed for currents Power Resolution 1 1 X 1 XXX 1 XXXX Specifies the number of decimal places displayed for power and energy measurements Date Time Clock Setup Screen title Parameter Values Description Date amp Time Setup Time Format 12 H 24 H Specifies how the time is displayed Date Format MMIDD YYYY DD MM YYYY YYYY MM DD Specifies how the date is displayed TZ Offset 12 00 00 to 12 00 00 Sets the time zone of the meter s location relative to UTC DST Offset 3 00 00 to 3 00 00 Sets the daylight savings time offset of the meter s location 38 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 5 Display and meter setup Screen title Parameter Values Description Clock Source Internal Line Freq COMM Specifies the time synchronization source s COM1 Ethernet Ethernet ION Ethernet al ee Lage i Clock Setup Time Sync Source DNP IRIG B Specifies t
111. e several minutes The CID status indicates whether the meter has received and validated an IEC 61850 CID file and is operating as an IEC 61850 server Related topics e See IEC 61850 on page 70 for more information about IEC 61850 on your device Configuring additional data for IEC 61850 using ION Setup You can map additional data to IEC 61850 using ION Setup You must have a valid IEC 61850 configuration file loaded onto your meter for IEC 61850 functionality but it is not necessary for configuring additional data NOTE You can configure additional data at any time whether or not IEC 61850 is operating on your meter 1 Start ION Setup 2 Open the Setup Assistant for your meter 95 Chapter 12 ION Setup Clock 96 PowerLogic PM8000 series user manual 3 Navigate to Communications gt 3rd Party Protocols and select the IEC 61850 tab 4 Select the information type that corresponds to the type of meter information that you want to add to your IEC 61850 data Select analog for numeric information and digital for boolean or binary information Click Edit The custom configuration screen is displayed 5 Select the desired meter value from those available If the value you want is not shown select Show all available registers 6 Select an IEC 61850 leaf to associate with the meter data and click gt gt to map the value Click lt lt to unmap values Click OK to send and save your changes to the meter
112. e PM8000 Modbus registers map from www schneider electric com 1 Connect to your meter s internal FTP site 2 Goto web gt examples Select samplereadings html to create a data value webpage or select sampleconfiguration html to create a configuration parameters webpage 3 Save a copy of the sample file This filename is the webpage name 4 Open your webpage in an HTML or webpage editor program 5 Modify the webpage to reference the desired meter data or parameters from the Modbus registers map and update the other fields where required Save your custom webpage 118 The meter will display translated content if it exists in the meter s memory If translated content is not available English is displayed 6 Connect to your meter s internal FTP site If you have created a data viewing webpage copy your custom webpage to web gt monitoring If you have created a configuration webpage copy your custom webpage to web gt setup 7 Login to your meter s webpages Your custom webpage is available from the webpage menu under the monitoring data viewing or setup configuration tab Related topics See Sample data viewing webpage on page 119 for a detailed description of the webpage s configurable fields e See Sample setup webpage on page 122 for detailed description of the webpage s configurable fields See FTP on page 64 for instructions on how to connect to your meter over FTP Sa
113. e information applied COM1 Ethernet Sets which device port accepts time synchronization messages Time sync source Ethernet ION Ethernet A i DNP IRIG B Time synchronization messages on other ports are ignored 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup Demand Energy pulsing 7EN02 0336 00 Parameter Value Definition Sets the source for the clock Internal the meter s internal clock Clock Source Internal Line frequency Line frequency the frequency of the measured power system as COMM the clock source COMM the meter s communication port used by the GPS time sync source Numeric Bounded Specifies the amount of time the meter clock is moved forward DST Offset Format Elapsed Interval when entering Daylight Savings A value of zero disables this Format feature and clock does not adjust for DST Specifies the start day of the week used for Trending and Forecasting Start of the Week Monday Sunday NOTE Changing the start day of the week clears all trending and forecasting data For SNTP NTP time synchronization you must set the Time sync type to UTC and the Time sync source to Ethernet For GPS IRIG B time synchronization you must set the Time sync source to IRIGB and the Clock Source to COMM 6 For SNTP NTP time synchronization you must also enter the following information under Commu
114. e methods Align the red or infrared light sensor on the standard test bench armature over the Energy pulsing LED corresponding energy pulsing LED Connect the meter s onboard digital output to the standard test bench pulse counting Digital output connections NOTE When selecting which method to use be aware that the energy pulsing LEDs and digital output may have different pulse rate limits 5 Before performing the verification test let the test equipment power up the meter and apply voltage for at least 30 seconds This helps stabilize the internal circuitry of the meter 7EN02 0336 00 177 Chapter 22 Revenue PowerLogic PM8000 series user manual 6 Set the meter s volts mode to 4W Wye 4 wire Wye 7 Disable PT CT correction unless you want the correction included in the verification test 8 Depending on the method selected for counting the energy pulses configure the meter s energy pulsing LEDs or the digital output to perform energy pulsing Set the meter s energy pulse constant so it is synchronized with the reference test equipment 9 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 Related topics e See PT CT correction on page 174 for details of how PT CT corrections also called instrument transformer correction
115. e slave device information entered for mastering Your device s Modbus register information map is available for download from www schneider electric com The Modbus register information includes e registers and mapped values formats and scaling e additional details where applicable Configuring your meter for Modbus using the display You can use the display to configure your meter as a Modbus slave or partially configure your meter for Modbus mastering NOTE Before your begin your meter s communications must be wired and configured Your meter does not require any Modbus specific configuration to act as a Modbus slave device over Ethernet 1 Navigate to Setup Menu gt Communications Setup and select the serial communications setup screen 2 Configure the serial ports Modbus parameters as required Parameter Setting Protocol Modbus RTU or Modbus master 3 Off if the meter is a Modbus slave mates Bids On if the meter is a Modbus master 3 Configure the meter s other serial port parameters as required For Modbus master you must add the Modbus slave devices using ION Setup Related topics See Setting up your meter using the display on page 34 for instructions on display menu navigation Ethernet gateway EtherGate and Modbus gateway 62 Ethernet gateway is a communications method that allows you to communicate through a gateway device to a serial network When a meter wi
116. e the alarms you disabled in step 1 Related topics See Setting up your meter using the display on page 34 for instructions on how to navigate and use your meter s display An alert is an external notification produced by the meter to indicate changes for example a change of state for a digital input or a power quality event such as a sag or swell Alerts are generated when a pulse or trigger that is configured to indicate the alert condition activates You can configure alerts to send notification emails or messages to your energy management system through your meter s existing Ethernet communications connections You can configure alert messages as a simple text string or you can also include device information You can configure the alert s priority so that alerts are also recorded in the meter s event log You can configure multiple alerts on a single meter each having different activation triggers messages and or transmission types For instance you can have two alerts one generating an email the other sending a message to your energy management system but using the same trigger conditions or you can have two alerts with different conditions that send two unique emails to two different email addresses You can also generate alerts based on triggers from devices connected to your meter Creating alerts is an advanced feature that requires familiarity with ION architecture and your power system and communications netw
117. ed topics e See Option modules on page 43 for a description of how the ports are named based on the option module location with respect to the meter base IRIG B time synchronization You can connect an IRIG B time source to one of meter s digital inputs for IRIG B time synchronization for improved accuracy use the digital inputs on the meter base For IRIG B time synchronization you must configure both the meter s digital input and the meter s clock Related topics e See Configuring onboard digital inputs using ION Setup on page 101 for instructions on how to set your meter s digital inputs for IRIG B time synchronization e See Configuring time and time synchronization using ION Setup on page 96 for instructions on how to configure your meter s time synchronization settings for IRIG B time synchronization Analog inputs outputs 7EN02 0336 00 Your meter s analog I O option modules can measure and output either low voltage or current using standard analog transducers such as 4 20 mA current transducers For analog input operation your meter takes an analog input signal and provides the resulting scaled value For analog output operation your meter takes an input value and scales it to the appropriate signal value to send out the physical analog output port You can view analog I O values from your meter s display or webpages 141 Chapter 16 Inputs outputs PowerLogic PM8000 series user man
118. elect the tab for the communications port that the serial network is connected to Select Protocol and click Edit The protocol selection screen appears Set the protocol to EtherGate Create an Ethernet gateway site to access the serial network of devices through your gateway meter 93 Chapter 12 ION Setup 94 PowerLogic PM8000 series user manual Creating an Ethernet gateway site using ION Setup You can create an EtherGate or Modbus gateway site in ION Setup to view serial devices connected to your meter when it is functioning as an Ethernet gateway You must have Ethernet gateway communications configured and your gateway and serial devices connected and communicating 1 Start ION Setup 2 Right click on your workstation icon and select Insert Item The New Network item dialog appears 3 Select Site and click OK The New Site dialog appears 4 Select the General tab and configure the site Parameter Values Options Description Name Ethernet gateway site name Comm Link Ethernet Ethernet communications Ethernet options Gateway Ethernet gateway communications Gateway Info IP address of the Ethernet gateway meter IP Addr Gateway Info 7801 for EtherGate Port 7801 502 502 for Modbus gateway 5 Click OK to create the site 6 Right click on your newly created site and select Insert Item The New Network Item dialog appears 7 Make sure your newly created Ethernet gate
119. enerate COMTRADE files and store them on the meter s internal FTP site COMTRADE is configured as part of the default waveform recording but not enabled from the factory COMTRADE can be used in conjunction with IEC 61850 NOTE If you are generating COMTRADE waveform information the associated waveform recorders cannot be modified unless COMTRADE is disabled If the waveform recorders are not configured identically COMTRADE waveform information will not be generated Related topics See the COMTRADE and ION technology technical note for detailed information about COMTRADE file formats and implementation See Configuring COMTRADE waveform recording using ION Setup on page 110 for instructions on how to enable and configure COMTRADE waveform recording See FTP on page 64 for information about your meter s FTP connections and folders The Distributed Network Protocol Version 3 0 DNP 3 0 is an open protocol used in the electric utility industry for communications and interoperability among substation 71 Chapter 9 Protocols Supported features Default implementation 72 PowerLogic PM8000 series user manual computers Remote Terminal Units RTUs Intelligent Electronic Devices IEDs e g meters and master stations Your meter can be integrated into a DNP network as a DNP slave Your meter supports a maximum of three concurrent connections sessions using the DNP 3 0 protocol one for each serial por
120. er 22 Revenue 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 e Turn off all power supplying this device and the equipment in which it is installed before working on the device or equipment 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 e 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 all power supplying this device and the equipment in which it is installed before working on the device or equipment 2 Use a properly rated voltage sensing device to confirm power is off 3 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 A Reference device or energy standard B Test voltage and current sources C Device under test 4 Connect the control equipment used for counting the standard output pulses using one of thes
121. eter records the maximum value Max during the alarm period Disturbance sag swell alarms You must configure nominal voltage and current for these alarms to function For voltage disturbances enter the percentage deviation from the nominal that defines a sag or swell For current disturbances enter the percentage deviation from the nominal that defines the pickup and dropout points for a current sag or a current swell Digital alarms These alarms are triggered when the associated digital input changes state You can configure the alarm to be active when the digital input is on or off depending on the alarm s purpose For example if you used a digital input to monitor a breaker that is always supposed to be on you would set the alarm to be active when the breaker has tripped NOTE To stop a digital alarm from being displayed set the alarm priority to info only Disabling force off the digital alarm off will disable all functions of the associated digital input Related topics See the JON Reference available from www schneider electric com for more information about the Setpoint and Relative Setpoint module Digital Input module Sag Swell module and Disturbance Analyzer modules e See Configuring setpoint standard alarms using ION Setup on page 106 for instructions on how to configure alarms on your meter using ION Setup 148 7EN02 0336 00 PowerLogic PM8000 series user manual Alarm event priorities Alarm
122. eway meter is communicating over Ethernet Start ION Setup Open the Setup Assistant for your meter Navigate to Communications gt Serial settings and select the tab for the communications port that the serial network is connected to Select Protocol and click Edit The protocol selection screen appears Set the protocol to Modbus Master Navigate to Communications gt Network settings and select the TCP IP tab Select Modbus Gateway and click Edit The Modbus gateway selection screen is displayed Select the communications port that the serial network is connected to and you just set to use the Modbus master protocol and click OK The Modbus gateway connection is created Create an Ethernet gateway site to access the serial network of devices through your gateway meter Configuring an EtherGate gateway using ION Setup You can configure EtherGate on your meter using ION Setup Before you begin make sure you have completed the following tasks Confirm the serial network of devices are wired and configured to have the same baud rate serial port settings for example 8N1 and protocol ION Confirm each serial device has a unique unit identifier Confirm the serial network of devices are connected to the gateway meter s serial communication port Confirm your gateway meter is communicating over Ethernet Start ION Setup Open the Setup Assistant for your meter Navigate to Communications gt Serial settings and s
123. example Your meter s onboard digital input S1 is monitoring a flowmeter BF5 installed inside bottle filling equipment The desired measurement quantity is bottles shift numbers of bottles filled during an eight hour shift Each bottle takes 0 4 liters of liquid and the flowmeter pulses once for every 100 liters Your energy management system has a demand period of 15 minutes and calculates the input metering data using an hourly rate Pulse weight calculation 100 liters pulse 0 4 liters bottle 250 bottles pulse Parameter Value Assigned Input S1 Standard quantity Cleared Pulse Weight 250 Units Bottles BF5 Rate Bottles shift Demand period 15 minutes Scaling 1 Time Base 8 hours Incremental energy 7EN02 0336 00 Incremental energy allows you to define a start time end time and the time interval increments for incremental energy accumulation At the end of each interval the energy accumulated during that period is stored By default the meter only records the previous interval s incremental energy and the instantaneous energy accumulations in the active interval The first interval of incremental energy accumulation begins at the specified start time Incremental energy ends at the specified end time which may result in a truncated interval if the interval duration does not divide evenly into the overall incremental energy duration for example an interval duration of
124. firmware related icons shown on your meter s remote display See Loading remote display firmware using ION Setup on page 85 for instructions on how to load remote display firmware using ION Setup Loading option module firmware using FTP You can upload firmware to your meter s option modules by loading the firmware upgrade file onto your meter s internal FTP site You must have e Your meter s option module firmware upgrade SI9 file s You can download upgrade files from www schneider electric com The option module connected to your meter and have access to your meter s internal FTP site Your meter s digital and analog outputs may change state during a firmware upgrade Option modules are offline during an option module firmware upgrade they will not communicate to the meter and the outputs may change state during the upgrade process 44 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 these instructions can result in death serious injury or equipment damage NOTE If your meter s option module loses power during firmware upload the option module will revert to its original firmware and you will have to reload the firmware file 1 Connect to your meter s internal FTP site Open the option module upgrade optionModuleUpg folder 2 Drag the
125. formation Installation sheets Multilingual installation sheets are shipped with each device or accessory and provide the information required to install the product ION reference The ION reference describes ION architecture the common software architecture in all ION devices and provides an explanation of each of the ION modules ION device template reference The ION device template reference details the type and quantity of ION modules available on your device and how they are configured in the default template ION Setup ION Setup is a free meter configuration tool that can be downloaded for free at www schneider electric com It has online help that provides instructions on how to connect to and configure your meter using ION Setup Technical notes Technical notes provide instructions for using meter features and for creating custom configurations 17 Chapter 2 Introduction PowerLogic PM8000 series user manual Protocol documents Each protocol document contains information explaining how your meter interacts with a protocol such as DNP 3 0 IEC 61850 and MV 90 Additional files Additional files for your meter are available for download from www schneider electric com File type Description Firmware upg Firmware upgrade files let you upgrade your meter s firmware to get new features Template files let you replace your meter s existing template with an updated template with new features
126. ge 181 for information on the IRIG B standard and specifications There are no additional documented tasks specific to your device for this screen NOTE This screen is where you can configure the energy pulsing for accuracy verification testing 97 Chapter 12 ION Setup Energy applications 98 PowerLogic PM8000 series user manual Configuring energy pulsing using ION Setup You can configure your meter s digital output and energy pulsing LED for energy pulsing Ensure that the digital output port or energy pulsing LED is available for energy pulsing and not associated with another function When configuring your meter the configuration interface may show all of the possible ports regardless of what is physically available on your meter NOTE For applications where accuracy is important use the digital output or energy pulsing LED located on the base of the meter 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Select Energy pulsing 4 Select LED and configure the following basic parameters for your meter s energy pulsing LED Parameter Description Source The energy source used for LED energy pulsing W Kt The amount of source energy required to make the LED pulse The minimum time in seconds between LED pulse transitions W Pulse Width Pp NOTE There is a minimum 50 duty cycle on all pulses Pulsing normally indicates that the energy pulsing LED should be operating no
127. ge your meter s template Your meter s remote display and option module use firmware information from the meter but they may also need to have their internal firmware updated if internal components change To load and update to your meter s remote display firmware you need to copy the file to your meter s internal FTP server 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 11 Firmware and templates You can download firmware files from www schneider electric com Related topics e See the online ION Setup help available from www schneider electric com for more information on downloading saving and loading your meter s template Laptop computer upgrade considerations Laptop computers generally have different default power properties than desktop computers Incorrect power options can adversely affect device upgrading because the connection between the laptop and the device must be maintained in order for the upgrade to proceed If the laptop s hard disk shuts down or the laptop enters system standby mode this connection is broken and the upgrade procedure must be restarted If you are upgrading your meter s firmware using a laptop computer follow these guidelines e Plug the laptop computer into a wall outlet Do not run the laptop on its battery Configure the laptop s hard disks so that they do not shut down after a certain period of time for example set to never Turn off the laptop
128. he community string used for SNMP get read only requests Read write Community Name Enter the community string used for SNMP set read write requests NOTE You can use the read write community string for SNMP get read only requests Enable SNMP Traps Enable disable Enables or disables SNMP trapping on your meter Enable High Priority Alarms Yes no Enables trapping of events that create high priority alarms Enable Med Priority Alarms Yes no Enables trapping of events that create medium priority alarms Enable Low Priority Alarms Yes no Enables trapping of events that create low priority alarms Enter the maximum number of trap messages to be stored before the Report Buffer Size 1 30 trap messages are sent Traps are sent when the number of trap messages is equal to or greater than this value 1 300 Enter the maximum duration for trap messages to be held Trap Report Hold Time s conds messages are sent when the time after a trap event has occurred is equal to or greater than this value Trap Revr1 Addr Trap Revr4 Addr Enter up to four trap receiver IP addresses where trap messages will be sent 4 Click Apply to configure the meter s SNMP parameters 7EN02 0336 00 117 Viewing files using your meter s webpages You can load files of a variety of standard formats such as pdf jog and png into the webpage folders on your meter s internal FTP site where they can be
129. he following example shows how to use the navigation buttons to select parameters enter numeric information or select parameter values from lists NOTE Your display may appear differently than those shown depending on your meter s power system and display and localization settings NOTE Your navigation icons change color depending on the type of screen being viewed If an icon is gray that navigation option is not available and nothing will happen when you press the button associated with that icon NOTE Your meter goes back to displaying data after a period of inactivity in the setup menu screens NOTE Your meter locks you out of display configuration after you have exceeded the maximum number of attempts to enter an password 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 5 Display and meter setup Your meter s default display password is O zero Example setting volts mode and PT CT ratios Use the display navigation buttons to set your meter s volts mode and PT ratios NOTE Potential transformers PT are also known as voltage transformers VT 1 Press to display the menu Press Y until Setup Menu is highlighted Press to display the Setup Menu The Setup Menu lists the setup selections on your meter O Nameplate Custom Screens Setup Menu Meter Setup gt Communications Setup gt Display Setup gt Date Time Clock Setup 2 Press amp or to highlight the different setup menu se
130. he port to receive time synchronization signals Time Sync Type UTC Local Specifies whether time synchronization signals are received in local time or UTC 7EN02 0336 00 Alarm Setup UNINTENDED OPERATION equipment damage A WARNING 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 these instructions can result in death serious injury or You can disable alarms through the display in order to prevent nuisance alarms Screen title Parameter Description Over unbal Over unbalanced current alarm Over THD V1 V1 over total harmonic distortion THD voltage alarm Over THD V2 V2 over total harmonic distortion THD voltage alarm Over THD V3 V3 over total harmonic distortion THD voltage alarm Over P sd Over kW sliding demand alarm Over la la over current alarm Over Ib lb over current alarm Over Ic Ic over current alarm Over 14 14 over current alarm Over V unbal Over unbalanced voltage alarm V1 Setpoint V1 setpoint alarm 1 V2 Setpoint V2 setpoint alarm Alarm Setup V3 Setpoint V3 setpoint alarm Freq Setpoint Frequency setpoint alarm Sag Swell 1 Voltage sag swell alarm Current Sag Ph1 Current sag alarms for phase 1 Current Sag Ph2 Current sag alarms for phase 2 Current Sag Ph3 Current sag alarms for phase 3 4 30
131. hen the breaker reaches its limit for the number of trips you can use the digital output to light an LED next to the breaker to help remind maintenance personnel know it is due to be replaced e You can use a digital output to pulse based on energy measurements You can use an analog input to monitor an analog flowmeter to measure how much water flows through a pipe and use the meter s analog output to send a signal to an analog controlled valve to modify the valve position and change the flow rate Your PM8000 meter base has e 3 digital inputs 1 form A digital output e 2 energy pulsing LEDs one visible one infrared You can view information about your meter s I O through the display and webpages and configure your meter s I O using ION Setup NOTE The digital outputs can handle voltages less than their specified maximum For higher voltage applications use an external relay in the switching circuit 7EN02 0336 00 139 Chapter 16 Inputs outputs PowerLogic PM8000 series user manual Related topics e See your device s installation instructions available from www schneider electric com for I O wiring and installation instructions Input output ION modules You need to configure the following ION modules in order to use the meter s digital or analog I O e Digital input uses the Digital Input module which tells the meter how to interpret incoming signals e Digital output uses one of three ION module
132. ialize the option modules attached to your meter Information about your option module s type serial number firmware version and present status is available in the Factory and Diagnostics modules Related topics See the ION Reference available from www schneider electric com for more information about the Factory and Diagnostics modules During an option module reset your option module may not operate normally and digital and analog outputs may change state 45 Chapter 6 Option modules 46 PowerLogic PM8000 series user manual A WARNING UNINTENDED OPERATION Do not use this meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage You can reset your meter s option module bus through the display or using ION Setup This power cycles all the modules attached to your meter If you have queued firmware updates for your option modules on your meter s internal FTP site the firmware updates are performed Your option modules do not operate normally during an option module reset By default your meter is configured so that your meter automatically performs an option bus reset when needed to help keep the option modules operating normally Contact Technical Support for instructions on changing this default configuration Related topics
133. ici ias 115 OVGIVIOW eva viene pat dee Reel hala ed Bead de edd eee bead 115 Accessing the meter s webpages 000 cee eee eae 116 Trending and forecasting ccconmncccnnnnannnnninanannnnnnnnnnn nn nr rnnn cnn rra 127 Trending and forecasting overview ooooocccocccocc eee 127 Trending and forecasting implementation 0 000 eee eee 127 Data waveform and event logging cccononnccconnininccnnnnssrrnnnnn recen 129 OVEIVIEW iaa CA at a OE ec 129 Data logging Overview 0 cc ete eee 131 Event log OVerview coi o palatal eed 134 Waveform recording Overview 00 0c eae 135 Setpoint learning overview 0 0 cee 137 INputs OUtPUIS ii 139 Inputs outputs overview saasaa ee 139 Analog inputs outputs asasan aaaea 141 Digital inputs outputs riein aie s aae a a eee 145 Alarms and alerts voii ai 147 7EN02 0336 00 PowerLogic PM8000 series user manual 7EN02 0336 00 Chapter 18 Chapter 19 Chapter 20 Chapter 21 Chapter 22 Chapter 23 Alarms overview ooo 147 Alarm types vestir ahaa kG Se Se e AO 147 De tault alarms 12200 di Anda base da a de dd 150 Alarm intormatiom sh eea A A A ia Sa bee we dee a a 150 Disabling alarms through your meters display oooocoocccoooo o 150 AJENG ici a A ae 151 A TT TATT cs TT 153 Resets overview o 153 Meter resets caue nananana aaae aea alas at 153 Power and power factor meccecconicoinncnra criadas ind ia id 157 Powe
134. ied at the factory in accordance with International Electrotechnical Commission IEC and American National Standards Institute ANSI standards Your digital power meter typically does not require re calibration However in some installations a final accuracy verification of the meter is required especially if the meter is 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 approximately 10 seconds to stabilize after every source adjustment The meter must be connected to control power in order to conduct accuracy verification testing Control equipment Control equipment is required for counting and timing the pulse outputs from the energy pulsing LED or the digital output e 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 sou
135. ified direct connect maximum voltage you must use PTs potential transformers to step down the voltages Serial communications RS 485 wiring Devices connected to the bus including the meter converter s and other hardware must be wired as follows Connect the shield of each segment of the cable to ground at one end only e Isolate cables as much as possible from sources of electrical noise Use an intermediate terminal strip to connect each device to the bus This allows for easy removal of a device for servicing if necessary Install a Watt termination resistor between the positive and negative terminals of the device at each end of a straight line bus The resistor should match the nominal impedance of the RS 485 cable Consult the cable manufacturer for the cable impedance value Turn on RS 485 biasing if your meter is the RS 485 master device Avoid device connections that cause a branch or Tee in the main RS 485 bus as they can lead to signal reflections that may result in interference Do not connect more that two cables at any connection point on the RS 485 bus 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 4 Mounting and installation Option modules RS 485 terminals Data plus This transmits receives the non inverting data signals Data minus This transmits receives the inverting data signals e Shield Connect the bare wire to this terminal to help suppress signal noise
136. ified for your device s features and settings Loading meter firmware using ION Setup You can load firmware onto your meter using ION Setup You can download firmware for your meter from www schneider electric com You must load a meter template as part of the firmware upgrade process You can save your meter s existing template by navigating to Template gt Save to PC in the ION Setup Assistant and clicking Save to save your meter s template as a DCF file You can also use a template that you have saved from another meter of the same type or download a factory template from www schneider electric com 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup 7EN02 0336 00 Ensure that you record your meter s user and password information in a secure location before upgrading the meter s firmware If your meter s user and password information is lost you must return the meter for factory reconfiguration which resets your meter to its factory defaults and destroys all logged data Your meter s digital and analog outputs may change state during a firmware upgrade 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 these instructions can result in death serious injury or equipment damage 1 Obtain the meter firmware UPG and framewor
137. ile into the meter s internal FTP site in order to activate the IEC 61850 features of your meter NOTE Your meter can have only one IEC 61850 configuration CID file loaded onto its internal FTP storage If additional CID files are loaded IEC 61850 functions are deactivated until the additional files are removed Your meter has up to five dedicated IEC 61850 client connections You can load the IEC 61850 configuration file and configure the IEC 61850 custom modules using ION Setup Related topics See FTP on page 64 for information about your meter s FTP connections and folders See Loading an IEC 61850 configuration file using ION Setup on page 95 for instructions on how to load your meter s CID file e See Configuring additional data for IEC 61850 using ION Setup on page 95 for instructions on how to add extra meter data to IEC 61850 e See Configuring digital outputs for IEC 61850 control using ION Setup on page 113 for instructions on how to configure your meter s digital outputs for IEC 61850 COMTRADE stands for COMmon format for TRAnsient Data Exchange defined by IEC 60255 24 edition 2001 05 and defines a common format for power quality event disturbance data in order to simplify retrieval analysis and exchange of disturbance data between multiple sources and vendors The format of your meter s COMTRADE files is as defined by IEC 60255 24 edition 2001 05 Your meter can automatically g
138. ime synchronization using ION Setup on page 96 for instructions on configuring your meter s time synchronization settings Supported time synchronization sources The following time synchronization sources are available to your meter e Meter configuration software ION Setup Configuration software can manually synchronize the time of your meter based on the clock of the computer running the configuration software Configuration software synchronization is usually performed when the meter is initially commissioned Energy management system Energy management systems can synchronize the time of your meter to be consistent with other meters on the network Simple Network Time Protocol SNTP SNTP can synchronize the time of your meter up to 1 second of other meters on an Ethernet network For SNTP time synchronization your meter must be connected to an Ethernet network that has an active SNTP server and be configured with the server s information e GPS receiver IRIG B A GPS receiver using IRIG B can synchronize the time of a meter up to 1 ms of Coordinated Universal Time UTC A dedicated serial network is required to implement a GPS scheme For IRIG B one of your meter s digital inputs must be connected to the IRIG B network and the digital input must be configured for IRIG B time synchronization in addition to configuring your meter s clock NOTE Use the digital inputs located on the meter base for IRIG B time synchro
139. iner clips 23 Chapter 4 Mounting and installation PowerLogic PM8000 series user manual Mounting adaptors Wiring There are different mounting adaptor accessories that can help when installing your meter in existing panels and cutouts where the default mounting hardware is not appropriate Mounting adaptors are ordered separately from the meter Related topics See the PM8000 catalog pages available from www schneider electric com or consult your local Schneider Electric representative for information about your device its options and accessories This information is supplemental to the installation sheets that shipped with your meter or accessory Remote display mounting and wiring Meter wiring 24 The remote display can only be used with the DIN meter it cannot be used by meters with an integrated display The remote display s power and communications is provided through a single direct point to point connection from the remote display to the DIN meter Power system wiring 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 maximum voltage limits The maximum voltage allowed for direct connection may be lower than the manufacturer specified limits depending on the local electrical codes and regulations If your system voltage is greater than the spec
140. ion modules 4 based on mechanical stress and required IP rating Panel mount 25 C to Max temp 13 F to Max temp Maximum operation temperature is based on the quantity and type of attached option modules Operating temperature Max temp nee 6 in onan in 70 C 158 F 0 4 0 1 70 C 158 F 0 2 60 C 140 F 1 2 2 4 Mounting position Horizontal TS35 DIN rail IP IP30 except connectors Maximum number of option modules 4 25 C to Max temp 13 F to Max temp Maximum operation temperature is based on the DIN meter quantity and type of attached option modules Operating temperature Max temp Cok 6 in ad in 70 C 158 F 0 4 0 1 70 C 158 F 0 2 60 C 140 F 1 2 2 4 Vibration IEC 60068 2 6 Shock IEC 60068 2 27 Electrical characteristics 7EN02 0336 00 Type of measurement RMS up to the 63rd harmonic on three phase systems 128 samples per cycle zero blind 181 Chapter 23 Specifications Accuracy PowerLogic PM8000 series user manual NOTE Reactive energy and demand values are based on the fundamental and do not include higher harmonics Other energy and demand values are measured using the entire signal including harmonics Contact Technical Support for more information IEC 62053 22 active energy Class 0 2S IEC 62053 24 reactive energy Class 0 5S IEC 61557 12 PMD SD K70 0 2 and PMD SS K70 0 2 0 2 Active powe
141. ion regarding physical characteristics and capabilities Related topics e See your device s installation instructions available from www schneider electric com for installation instructions and specifications e See the PM8000 catalog pages available from www schneider electric com or consult your local Schneider Electric representative for information about option modules available for your meter Option modules overview Option modules are ordered separately from your meter and can be connected to your meter without specialized equipment Up to four option modules can be added to your meter Option modules are identified based on the physical order of the attached modules The option module attached directly to the meter is module A the module attached to module A is module B and so on The option module identifier is added to the ION module name and ION label to uniquely describe each possible combination of option modules Option module A Option module B Option module C Option module D Meter m o o o For example a meter with two option modules consisting of an analog option module directly attached to the meter A and a digital option module attached second B describes the Q2 analog output of module A as Port A Q2 and the S3 digital input of module B as Port B S3 Option modules support Maximum number of option modules 7EN02 0336 00 Depending on the type and qu
142. isplay properties Resolution Specifies the number of decimal places displayed Last Digit Specifies whether the last number is rounded or truncated Click Send to save the changes in the meter Performing meter resets using ION Setup Y ou can perform meter resets on your meter using ION Setup Revenue locked meters must be unlocked to perform resets that impact revenue data Meter resets clear the meter s onboard data logs and other related information NOTICE DATA LOSS Ensure all important data from the device has been retrieved before performing a reset Failure to follow these instructions can result in data loss eS N Open the Setup Assistant for your meter Select the Verification screen Select Normal Mode and click Display Select the desired tab in the Normal Mode dialog box Depending on the tab selected different resets are available Tab Reset available Energy Master Reset Peak Reset Master Reset Rolling Demand Volts Amps and Power Master Reset Cnd Reset Conditional Energy Master Reset IM n Reset NOTE n is the input metering number for example IM1 Peak Reset Master Reset Input Metering 5 Click the appropriate button to perform the reset 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup For some resets the meter indicates that the reset is in progress Do not configure or power down your meter until
143. it indicates that the reset is complete or some parameters may not be completely reset Related topics See Revenue locking on page 173 for more information on revenue locked meters Reports There are no additional tasks specific to your device for this screen Advanced ION Setup tasks These configuration tasks are intended for advanced users with a thorough understanding of ION architecture the features of their device and the power system in which it is installed Configuring digital outputs for IEC 61850 control using ION Setup You can configure your digital outputs so that they can be used for non critical control via IEC 61850 Your meter has a comprehensive default implementation of IEC 61850 which meets the needs of most systems with only basic configuration You can customize this implementation so that IEC 61850 can be used to control your meter s digital outputs this is an advanced procedure that requires in depth knowledge of your meter its underlying architecture and the system in which it is installed 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 these instructions can result in death serious injury or equipment damage 1 Start ION Setup 2 Connect to your meter in advanced mode 3 Navigate to the GGIO Onboard folder and double click on
144. ization Custom displays Lost user access 42 Related topics See Loading remote display firmware using FTP on page 80 for instructions on how to load remote display firmware The localization settings on the meter affect how information is displayed as well as how some values are calculated Options include language number formats as well as the IEEE Institute of Electrical and Electronics Engineers or IEC International Electrotechnical Commission conventions used for power power factor and energy You can configure your meter s localization settings using ION Setup Related topics e See the online ION Setup help available from www schneider electric com for instructions on how to connect to and configure your meter See Power and power factor conventions on page 157 for details on IEEE and IEC power and power factor conventions You can create custom displays using ION Setup Related topic e See Creating custom displays using ION Setup on page 111 for instructions on how to create custom displays on your meter If you lose your meter s user access information contact your local Schneider Electric representative for instructions on how to return your meter for factory reconfiguration NOTE Have your meter s serial number available for reference 7EN02 0336 00 Chapter 6 Option modules This section supplements the option module installation sheets and provides additional informat
145. k DCF that you want to load onto your meter Save the files where they can be accessed by the computer running ION Setup Start ION Setup Open the Setup Assistant for your meter Select the Template screen a FF eS DN Click the Firmware Upgrade tab then click Upgrade Enter your meter s password if prompted and click OK 6 Navigate to the meter firmware UPG file and click Open Enter your ION Setup password when prompted and click OK 7 Navigate to the meter framework DCF file and click OK The Template Paste Options dialog box appears Select the check boxes for the settings you want to retain not overwrite and click OK A dialog box describes the template upload and firmware upgrade progress verifies the firmware and finishes with an overview stating whether the firmware and framework were successfully uploaded onto your meter Loading remote display firmware using ION Setup This procedure is specific to the DIN meters with a remote display and cannot be performed on meters with an integrated display You can load updates to your meter s remote display firmware using ION Setup over an Ethernet connection You must have Your meter s remote display firmware update BIN file You can download update files from www schneider electric com The remote display connected to your meter FTP access to your meter from the computer running ION Setup NOTE If your meter s remote display loses po
146. kWh del rec kVARh del kVARh rec kVARh del rec kVAh del kVAh rec kVAh del rec The following meter information is always provided by default and cannot be configured Voltsmode Model number Serial number Device name Firmware version MIB version If you change your meter s default values you must modify the custom MIB file to reflect the new values Changing your meter s default SNMP configuration assumes that you have an advanced understanding of ION architecture SNMP and the communications network and power system that your meter is connected to Related topics See the ION Reference available from www schneider electric com for detailed information on the SNMP Mapping module Configuring your SNMP MIB file 7EN02 0336 00 You must configure your MIB file if you have modified the default SNMP information provided by the meter in order for the MIB file labels to reflect the modified values Download the ION MIB file from www schneider electric com NOTE You should only configure the variable name and description Changing other fields in your MIB file may cause the client software to report problems or return errors when trying to retrieve or view parameters The variable name must conform to the following rules e The first character must be a letter The first character must be lower case The name must not contain any special characters such as amp The name must not contain spaces 1 Open you
147. ked meters You can perform various meter resets through the meter s display or ION Setup Your meter s digital and analog outputs may change state or may not function during resets A WARNING HAZARD OF UNINTENDED OPERATION Do not use the meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage Meter resets clear the meter s onboard data logs and other related information NOTICE DATA LOSS Ensure all important data from the device has been retrieved before performing a reset Failure to follow these instructions can result in data loss 153 Chapter 18 Resets PowerLogic PM8000 series user manual Reset Description Master Reset Clears all the cumulative and derived quantities from the meter including demand peak demand energy and revenue parameters Clears meter event and waveform logs Clears COMTRADE waveform records from the meter s internal FTP server Clears the meter s data logs Peak Demand Reset Clears the peak demand values logged in the meter NOTE The peak demand reset has a lockout period that sets the minimum time allowed between consecutive resets Min Max Reset Clears all accumulated maximum and minimum values stored in the meter Digital Input Count Reset
148. lable from www schneider electric com for a detailed description of the EN50160 data and statics measured by your meter to monitor compliance to the EN50160 standard See the 4 30 compliance and ION meters technical note available from www schneider electric com for details on how your meter complies with the 4 30 standard Sag swell overview Your meter monitors your power system s voltage and current for sags and swells INCITS CBEMA Type 2 and Type 3 disturbances it then reports the disturbance s magnitude and duration You can manually enter the limits criteria used by the meter to identify a sag or swell or you can have your meter learn sag swell limits by monitoring your power system Related topics e See Configuring waveform recording using ION Setup on page 109 for instructions on how to manually enter sag swell limits e See Implementing sag swell limit learning using ION Setup on page 108 for instructions on to start setpoint learning and have the learned values used by your meter to identify sags swells See Waveform recording overview on page 135 for details on how your meter records voltage and current waveform information Harmonics overview 7EN02 0336 00 Voltage and current harmonics are measured or calculated by your device for use in standards compliance and power quality analysis Harmonics are integer multiples of the fundamental frequency of your monitored power system Harm
149. lashes if your meter detects an active alarm condition Depending on the priority of the alarm your meter s display also flashes You can view and acknowledge active alarms and historic alarms and events through the display and software webpages An active alarm becomes a historic alarm when the alarm condition no longer exists Meter internal web server feature Your meter s internal web server provides quick and easy access to real time energy and basic power quality information without special software using an on board web server combined with an Ethernet port The built in web pages display selected energy and power quality information through the web enabled device these pages also support basic meter configuration Email messaging feature You can configure your meter to automatically email information whether notification of a high priority event or a regularly scheduled send of logged data to an external email address Specify the type of event that triggers an email alert such as a power quality disturbances or interval for logged data Email messages from your meter are received like any other email message Supported protocols Your meter s fundamental protocol and architecture is ION You can integrate the meter into various industry standard networks Data that the meter measures can be made available to other devices using Modbus DNP 3 0 and SNMP as well as the MV 90 translation system You can configure the meter to impo
150. lated topics See the ION Reference available from www schneider electric com for more information about the Factory and Diagnostic module Loading remote display firmware using FTP You can upload firmware to your meter s remote display by loading the firmware upgrade file onto your meter s internal FTP site You must have e Your meter s remote display firmware upgrade BIN file You can download upgrade files from www schneider electric com e The remote display connected to your meter and have access to your meter s internal FTP site 1 Connect to your meter s internal FTP site Open the remote display upgrade rmdUpg folder 2 Drag the remote display firmware file into the remote display upgrade folder The file is immediately transferred to the remote display and is not stored on the meter 3 Watch your meter s display to confirm the firmware upgrade is taking place 4 Review the remote display firmware upgrade details stored in the meter s event log to confirm that the upload was successful 80 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 11 Firmware and templates Related topics e See Accessing your meter s FTP server on page 66 for instructions on how to connect to your meter using FTP e See Event log overview on page 134 for instructions on how to view your meter s event log e See Remote display troubleshooting icons on page 41 for more information about the
151. lay NOTE Your display may appear differently than shown depending on your meter s power system and display settings NOTE Some setup parameters cannot be configured when revenue security is enabled 7ENO02 0336 00 33 Chapter 5 Display and meter setup Meter Setup Communications Setup Display Setup Date Time Clock Setup gt Alarm Setup Language Setup Time of Use Setup Resets Password Setup Related topics PowerLogic PM8000 series user manual PT CT Setup Voltage Polarity Setup Current Polarity Setup Nominal Values IP Address Setup Ethernet Setup DNS Setup COM1 Setup NTP Address SMTP Address Screen Setup Ed Label amp Symbol Setup Eg Numeric Format Setup Date amp Time Setup Eg Clock Setup Alarm Setup Language Setup TOU Active Rates TOU Season Resets Password Setup See Revenue locking on page 173 for more information about your meter s revenue security and protected parameters e See Security on page 47 for information about front panel display programming security settings e See Accessing the meters webpages on page 116 for instructions on how to access your meter s webpages e See ION Setup device configuration on page 84 for instructions on how to configure your meter using ION Setup Setting up your meter using the display 34 Use the navigation buttons and displayed parameters to configure your meter T
152. le and generate an alarm based on the meter s state for example the meter powering up Alarms have two states Active the meter detects the alarm condition is met e Historical the alarm condition previously existed but the condition has since returned to a non alarm state 147 Chapter 17 Alarms and alerts PowerLogic PM8000 series user manual Setpoint standard alarms You must define the pickup dropout and set the time delay for these alarms You can define the pickup and dropout values as actual values or as a percentage of the nominal value and set the time delay to minimize nuisance alarms The setpoint alarms operate as either over or under alarms or as bounding alarms both over and under values are alarmed Example of over setpoint alarm operation 4 A Pickup B Dropout AT1 Pickup time delay AT2 Dropout time delay AT3 Alarm duration EV1 Start of alarm MAX Maximum value for alarm EV2 End of alarm When the monitored value rises above the pickup A and remains there long enough to satisfy the pickup time delay period AT1 the setpoint alarm is active When the value falls below the dropout B and remains there long enough to satisfy the dropout time delay period AT2 the alarm is no longer active and becomes a historic alarm The meter records the date and time when the alarm event starts EV1 and when it ends EV2 The m
153. le ports regardless of what is physically available on your meter One of your device s digital inputs must be connected and configured to define when conditional energy is accumulated 1 Start ION Setup 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Energy Applications gt Digital Input Based Review the digital inputs assigned to applications to help ensure there are no conflicting usages 4 Select Conditional Energy and click Edit The Conditional Energy Setup screen is displayed 5 Select Enabled to enable the conditional energy feature 6 Click Select to define the digital input The input s state determines whether conditional energy is accumulated When this digital input is on conditional energy is accumulated NOTE It is recommended to set Assigned Input to No Connection to disable the conditional energy feature by removing any port associations 7 Click OK to save your configuration Configuring standard input metering using ION Setup You can configure input metering with standard units and rates using ION Setup When configuring your meter the configuration interface may show all of the possible ports regardless of what is physically available on your meter NOTE Your device s digital input must be connected to the input metering pulse source Review the digital inputs assigned to applications to help you understand yo
154. le from www schneider electric com for a description of the Time of Use module and its settings The primary application for PT CT potential transformer current transformer correction is to apply correction factors for ratio errors and phase angle errors to instrument transformers PT CT correction also called instrument transformer correction can help reduce the need to replace transformers in installations where high accuracy is required PT CT correction is done for each current and voltage input to the meter and only affects 1 second power meter data and values derived from it such as energy or demand No high speed harmonics or waveform values are affected by the correction 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 22 Revenue NOTE For those familiar with ION architecture the relevant 1 second Power Meter module outputs are compensated using the Instr Xformer ITC Correction module and therefore so are all other modules that use that Power Meter module s data Related topics See the ION Setup online help available from www schneider electric com for instructions on how to configure PT CT correction on your device See the JON Reference available from www schneider electric com for detailed information about the Instr Xformer Correction ITC module and how it applies PT CT correction to your device Verifying accuracy Testing overview 7EN02 0336 00 All meters are tested and verif
155. lections Highlight Meter Setup and press to select the meter setup screens The Volts Mode setup screen is displayed 3 Press to highlight Volts Mode Press to edit the Volts Mode The Enter Password screen is displayed Volts Mode Volts Mode PhaseOrder 4 Press amp to change the value of the highlighted digit 0 9 Press to go to the next digit Press to enter your password The volts mode configuration screen is displayed Enter Password 0000000f 7ENO2 0336 00 35 Chapter 5 Display and meter setup PowerLogic PM8000 series user manual 5 Press A or Y to highlight the desired volts mode from the list in this case 3W WYE Press to select the highlighted volts mode A confirmation screen is displayed showing your meter s previous setting and newly selected setting Volts Mode 4W WYE DELTA 3W WYE 6 Press to confirm and the new setting is applied to your meter Press to cancel and maintain your meter s original setting Confirm Change Previous New DEMO IW WYE Accept change o 7 In the Volts Mode screen press to go to the PT CT Setup screen 8 Inthe PT CT Setup screen press 9 to highlight the potential transformer PT or current transformer CT value for editing Press 33 to edit the highlighted value NOTE If you have exceeded the password timeout period you are prompted to enter your meter s display password PT CT Setup
156. llegal address This code indicates one of the following The requested address is invalid for that function The requested address is not within the valid register range for this device The requested address is protected by device security 03 Illegal value This code indicates one of the following The requested value is not allowed for that register in the device The requested register is part of a multi word value Modbus invalid read registers responses Invalid type Read response Unmapped unused register 0x8000 Reserved register responses by type Float32 Signed integer 16 bit 0x8000 Unsigned integer 16 bit OxFFFF Signed integer 32 bits 0x80000000 Unsigned integer 32 bits OxFFFFFFFF Signed integer 64 bits 0x8000000000000000 OxFFC00000 NaN Not a number 4 Unmapped unused registers are registers that will never be used by the meter and therefore have no defined format Reserved registers have a defined format and are intended for use by the meter its options or its variants 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 9 Protocols Modbus best practices 7EN02 0336 00 Modbus invalid write registers response If the meter receives a write command to a Modbus register address that does not have a register mapped the meter does not respond No data is written or stored and the meter does not send b
157. main names etu aa j administrator Sets the address for the secondary DNS server that is Secondary DNS z configured to resolve domain names ION Modbus RTU Modbus Master DNP eer Protocol v3 00 EtherGate GPS Truetime Datum Pe ie cauca tiens protocolifor your meters RS GPS Arbiter GPS Arbiter Vorne Factory p Baud Rate 2400 4800 9600 19200 38400 57600 Sets the data rate in bits per second 115200 COM1 Setup RTS Delay Oto1 Sets the transmit delay in seconds f Sets the meter s unique ID on the RS 485 network Unit ID 1 to 9999 NOTE Modbus serial device range 0 to 247 Serial Port 8N1 8N2 8E1 8E2 801 802 Sets the parity and stop bits for the port RS485 Bias Off On Turns on biasing when mastering devices over the RS 485 port As defined by your network s system Specifies the IP address of the SNTP or NTP server used NTP Address NTP Server administrator by the meter for time synchronization SMTP Address SMTP Server As defined by your network s system Specifies the IP address of the SMTP server used by the administrator meter for sending email Display Setup Screen title Parameter Values Description Specifies how many seconds the display s backlight Screen Setup Backlight Timeout 0 to 720 remains lit after the last button press Phase Lbls ABC 123 Sets the voltage and current phase labels Specifies whether IEEE or IEC measurement symbols are Label amp Symbol Setup Measurement Symbols IEEE IEC applied to
158. menting sag swell limit learning using ION Setup on page 108 for instructions on how to configure learning for determination of sags or swells e See Implementing alarm setpoint learning using ION Setup on page 108 for instructions on how to configure learning for determination of power system events See the ION Reference available from www schneider electric com for more information on Sag Swell Setpoint and Relative Setpoint modules 138 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 16 Inputs outputs Chapter 16 Inputs outputs Inputs outputs overview Your meter has onboard digital I O which can be increased by adding optional digital and analog I O modules to expand your meter s I O capabilities Your meter s digital and analog outputs may change state when being configured during an option module reset or power cycle or during firmware or framework upgrade A WARNING UNINTENDED OPERATION Do not use the meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage Your meter s inputs are used to monitor and receive signals from external sources and its outputs are used to send signals to external sources Example You can use a digital input to monitor a breaker to verify how many times the breaker trips W
159. module settings How to calculate analog I O zero scale and full scale values 7EN02 0336 00 Your meter receives an analog signal through its analog input port and scales it before displaying or logging the value Your meter can also output a scaled analog signal based on measured values such as power You must calculate the zero scale and full scale values to help ensure the scaled values are correctly interpreted Analog inputs will show a value below zero scale if an open circuit is detected on the input port The relationship between the analog source range the zero and full scale values and the final value provided by your meter is as follows Scaled values Af Aa Fullscale X Fullscale Af Ax Fullscale Zeroscale Solving for Zeroscale Fullscale X Zeroscale Fullscale Af Ax Af Aa X Meter values Aa Af Zeroscale e Aa the lowest reading in the nominal operating range that is measured by the meter s analog input port or produced by the meter s analog output port Af the highest reading in the nominal operating range that is measured by the meter s analog input port or produced by the meter s analog output port Ax the analog input source minimum value or the external analog receiver s minimum value X the scaled equivalent of Ax 143 Chapter 16 Inputs outputs PowerLogic PM8000 series user manual 144 Example analog input The meter s analog
160. most up to date and complete specifications See your remote meter display s installation sheet for remote meter display specifications See your option module s installation sheet for option module specifications Visit the company website at www schneider electric com and search for PM8000 to get additional or updated documentation 185 Chapter 23 Specifications PowerLogic PM8000 series user manual 186 7EN02 0336 00 Schneider Electric 35 rue Joseph Monier CS 30323 F 92506 Rueil Malmaison Cedex www schneider electric com 2014 Schneider Electric All Rights Reserved 7ENO02 0336 00 11 2014 Schneider Electric ION PowerLogic and Modbus are either trademarks or registered trademarks of Schneider Electric in France the USA and other countries Other trademarks used are the property of their respective owners
161. mple data viewing webpage You can create custom data viewing webpages using the sample webpage stored on your meter The sample webpages are stored in the documents folder on your meter s internal FTP site The PM8000 Modbus register map is available from www schneider electric com If required the PM8000 ION handles document is packaged with the meter firmware file which is available for download from www schneider electric com The data viewing webpage must be stored on your meter s internal FTP site in the folder for Monitoring The custom webpage is viewed by selecting the Monitoring main menu tab on your meter s webpage Configuring the HTML code other than where described is an advanced procedure and should only be performed by those with an advanced understanding of webpages and how your meter processes them Sample webpage data viewing result NOTE This graphic is representative only and your meter s webpages may appear different than shown A Powerlogic PM8000 PIA8000_354417 Monitoring Me AS Jutpul SampleMonitorPane HTML filename Content pane title Row heading Setup Maintenance Basic Readings Cc aA D b A Energy Readings E Minimum 0 00 0 00 F Present 3 76 5 01 Maximum 3 76 5 01 Units nmol o 0 gt Column heading Named register instantaneous value Second content pane title 7EN02 0336 00 119 Sample d
162. n how to configure your meter to email logged data Default data logging configuration 7EN02 0336 00 The default data logging configuration might be used by other components of your power monitoring system Do not change the default configuration of any of the logs unless you understand the impact of the change on these power monitoring system components and the data they use and on your meter s memory Revenue log The Revenue Log is configured for use with UTS MV 90 billing software The default values logged by the Revenue Log are as follows Parameter Description kWh del int Interval kWh delivered kWh rec int Interval kWh received 131 Chapter 15 Data waveform and event logging PowerLogic PM8000 series user manual Parameter Description kVARh del int Interval KVARh delivered kVARh rec int Interval KVARh received Historic data logs Three historic data logs are used to record standard power system quantities such as phase current phase voltage and power factor These logs are labeled Hist Mean Log Hist High Log and Hist Low Log By default they log the following values Hist Mean Log Hist High Log Hist Low Log VII ab mean l avg mean Vil ab high l avg high VII ab low avg low VII bc mean 4 mean VII bc high 1 4 high VII bc low 14 low VII ca mean kW tot mean VII ca high kW tot high VII ca low kW tot low
163. n of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage 7EN02 0336 00 11 Chapter 1 Safety precautions PowerLogic PM8000 series user manual 12 7EN02 0336 00 Chapter 2 Introduction PM8000 overview The PowerLogic PM8000 series power and energy meters help meet the needs of your energy monitoring and cost management applications All PM8000 meters comply to international metering accuracy standards You can customize your meter by loading specialized frameworks and adding option modules and incorporating mounting accessories into the physical installation Meter features Feature True RMS metering to the 63rd harmonic Active kW reactive kKVAR and apparent kVA power 600 V direct connection on voltage inputs Minimum maximum readings of metered data Power quality readings THD Downloadable firmware and template Configuration through integrated or remote display Modbus master Ethernet gateway protocols supported Web interface Sag Swell capture for voltage and currents Time synchronization to 1 ms accuracy Dual port Ethernet two physical ports one Ethernet IP address WAGES support Time of use support Trending and forecasting Alarms active and historic display viewing and acknowledgment Multiple languages supported Your meter in an energy management system
164. n of the meter s communication and status LEDs Navigation symbols Navigation symbols are displayed on the bottom of the screen above their corresponding navigation button NOTE If the symbol is gray that navigation function is not available Symbol Description y More Pressing this button displays additional screens Left Pressing this button moves the displayed cursor one position to the left If you are in a more or info screen it returns you to the previous screen Right 3 Pressing this button moves the displayed cursor one position to the right 28 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 5 Display and meter setup More screens access Overrange indication Display menu 7EN02 0336 00 Symbol Description Up Pressing this button takes you to the previous screen or menu item Down Pressing this button takes you to the next screen or menu item Select Pressing this button selects or confirms the highlighted value Cancel Pressing this button cancels the current selection and returns you to the previous screen Graphic EGO Pressing this button takes you to a graphical data display Numeric Pressing this button takes you to a numeric data display Info Pressing this button takes you to a detailed information screen Edit Pressing this button allows you to edit the displayed parameter AO gt Pressi
165. nd ION meters technical note available from www schneider electric com for more information about your meter s EN50160 compliance Advanced logging configuration Adding or deleting data logs or their parameters outside of the ION Setup Assistant should only be undertaken by those with an advanced understanding of ION architecture and their meter s template Related topics See the ION Reference available from www schneider electric com for more information about ION Architecture and ION modules Event log overview 134 Your meter records events produced by the meter s ION modules or external meter events Meter events such as meter configuration or changes to l O state have priority values associated with them so you can control what events are logged Each event has a priority based on its type and severity and for most events you can configure the priority The event log records the date and time of the event along with relevant details about the event Your meter s event log can be viewed through the meter s display and ION Setup Event log data example Date Time Cause Value Effect Value 11 10 2014 11 21 13 577 4M Ethemet FTP Front Panel Auth FAIL 11 10 2014 11 21 43 000 AM Front Panel Remote Display Front Panel File received on RMD 11 10 2014 11 24 45 000 AM _ Front Panel Remote Display Front Panel RMD firmware upgrade successful 11 10 2014 11 24 48 1354M Front Panel Remote Display Front Panel RMD disconnected
166. nformation about the Security Options Security User and Communications modules Security recommendations and best practices Recommended security configuration The following meter configuration is recommended to help improve security on your meter Ensure that your meter requires a password for configuration through the display or communications e Configure the protocol lockouts to help minimize access to your meter Enable advanced security on your meter Configure users and passwords to help minimize access to your meter Save a copy of your meter s ION Setup security configuration scf file in a secure location for future reference or troubleshooting Your meter s security configuration file can be loaded onto other meters of the same type to configure their security settings Password best practices 7EN02 0336 00 e Change your meter s display front panel password from the default value of 0 zero Make your meter s display and user specific passwords as complex as possible Schedule regular changes to your meter s display and user passwords e Record your meter s display and user passwords in a secure location If your meter s user access information is lost you must return the meter to the factory where your meter is reset to its factory defaults and all logged data is lost NOTICE DATA LOSS Record your device s user and password information in a secure location Failure to follow these ins
167. nformation is also used to help ensure compliance with power quality standards In addition to measuring and recording numerical values for voltage and current your meter can also capture the sinusoidal waveform data The current and voltage waveform data provides additional information for analysis of the system s power quality or a power quality event 135 Chapter 15 Data waveform and event logging PowerLogic PM8000 series user manual You can manually trigger waveform recordings or configure them to trigger automatically when there is a power quality or power system event For waveform recording to trigger automatically you must enter your system s nominal normal voltage and current values and then the amount of deviation from the nominal required to trigger waveform recording Your meter s waveform data storage format is defined by e Cycles the number of cycles based on your power system s frequency included in the waveform its duration Samples samples per cycle which is the number of waveform data points collected in each cycle This gives you the option to record a lot of information for a very short duration or less information over a longer duration You can also configure a delay in starting waveform recording which allows you to record pre and post event data You can use your meter to detect ITI CBEMA type disturbances and can determine information regarding the magnitude and duration of each di
168. ng these buttons allow you to navigate parameter tables in the setup screens 0 Pressing both buttons allows you to perform the described action Pressing the navigation button associated with the more icon brings up a list of additional screens related to the displayed screen Press cancel to remove the list If you do nat press any button the list automatically disappears after a short period of time If any value measured by the meter is too large to fit on the meter s display the meter initially reduces the size of the text to try and make the value fit If the value is still too large to be displayed the meter truncates the value starting with the least significant digit and encloses the truncated value in a red box The display menu allows you to select data for viewing and to access the setup menu NOTE Your meter s menus may appear slightly different than shown depending on your display settings 29 Chapter 5 Display and meter setup PowerLogic PM8000 series user manual a gt Alarms Active Alarms Basic Readings Historical Alarms i Volts L N Volts Il Average Volts II Min Volts Il Max Volts In Average Volts In Min Volts In Max 1 Volts Unbalanced Current Min la Ib Ic Min 14 Max la lb Ic _ Max 14 Power Summary Power Power Total Power Phase A i Power Phase B Power Phase C Power Total Min Power Total Max
169. nications gt Network Settings gt NTP Parameter Value Definition NTP specifies NTP time synchronization SNTP specifies SNTP time synchronization Enable NTP Time Sync NTP SNTP No NOTE SNTP is recommended for revenue related applications No neither NTP nor SNTP time synchronization are used Numeric value or elapsed Specifies how often the meter synchronizes over SNTP NTP Time Sync Interval y interval value NOTE This parameter is not used for NTP NTP Event Logging Specifies the minimum time difference in milliseconds for a time synchronization to be logged as an event Threshold 1000 to 1000000 i i NTP only This parameter can be configured to help prevent the meter s y event log from being flooded with time synchronization events NTP Server Server IP address or Specifies the IP address or fully qualified domain name if domain name DNS is active of the SNTP or NTP server 7 For serial GPS time synchronization you must also enter the following information under Communications gt Serial settings Parameter Definition Protocol Select the GPS setting that matches your GPS receiver Baud rate The recommended baud rate for GPS time synchronization is 9600 bps Serial port The recommended stop bits parity for GPS time synchronization is 8N1 Related topics See Time and time synchronization on page 73 for more information about time and time synchronization on your meter See Electrical characteristics on pa
170. nization and other high accuracy applications GPS over serial A GPS receiver can synchronize the time of a meter up to 1 ms of Coordinated Universal Time UTC For GPS over serial your meter s serial port must be connected to a GPS receiver and the serial port communications must be configured with the correct protocol setting Network Time Protocol NTP NTP can typically synchronize the time of a meter to 10 to 100 ms depending on network configuration To implement NTP time synchronization your meter must be connected to an Ethernet network that has an active NTP server and be configured with the server s information Configuring time information using your meter s display 74 1 Goto Setup Menu gt Date Time Clock Setup gt Date amp Time Setup 2 Configure your time and date formats time zone offset and daylight savings time offset Press the down button to access the Clock Setup screen 3 Configure the clock and time synchronization source and the time synchronization time format 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 10 Time and time synchronization Related topics 7EN02 0336 00 See Setting up your meter using the display on page 34 for instructions on how to navigate and user your meter s display 75 Chapter 10 Time and time synchronization PowerLogic PM8000 series user manual 76 7EN02 0336 00 Chapter 11 Firmware and templates You can load different firm
171. ns The two Ethernet connections have the same IP address you cannot connect your meter to two different Ethernet networks Ethernet communications Connections Ethernet LEDs Configuration 7EN02 0336 00 The meter supports a single IP address on both of its two physical Ethernet connections Related topics e See your device s installation instructions available from www schneider electric com for communication connection details Your meter has two LEDs that indicate the status of its Ethernet communications On valid Ethernet connection Link data rate Yellow data rate is 10 Mbps Green data rate is 100 Mbps Act activity Flashing green data is being transferred Related topics e See your meter s installation sheet for Ethernet wiring information See Ethernet communications on page 183 for your meter s Ethernet specifications In order to use Ethernet communications you must configure your device s IP address you must also configure the subnet and gateway information if required by your network You need to enter network information for any Ethernet servers used by the device such as for SNTP time synchronization NOTE Contact your network system administrator for your IP address and other Ethernet network configuration values Configure your device s Ethernet settings by using the display or directly connecting to your meter and using a web browser to access the device s
172. ns displayed by the remote display when a display firmware upgrade is required See the JON Reference available from www schneider electric com for more information about the Factory module Option module s upgrade behavior To upgrade option modules you must load the upgrade file into the appropriate folder on the meter s internal FTP site The upgrade is triggered by either a power cycle or option module reset After the upgrade is performed the upgrade file is deleted from the meter s internal FTP site before the option module is reset to run the new firmware The option module firmware will not upgrade if more than one upgrade file is in the folder The upgrade file must be the correct file type and match the type of module being upgraded All option modules do not perform their regular functions during firmware upgrade If more than one option module is being upgraded the firmware on the option module closest to the meter is done first then the next closest proceeding to the furthest module from the meter base requiring upgrading A single option module firmware upgrade should not take more than five minutes The option module upgrade results are stored in your meter s event log Detailed information about the option module such as serial number and firmware version is provided in the Factory module Information about the option module type and details of the option module s state is provided in the Diagnostics module Re
173. ntal energy End time 12 01 am to 12 00 am The end time must be after the start time and be less than or equal to 12 am midnight Interval duration Configurable The increment period for the incremental energy duration Your changes are made to the meter NOTE Configuring any parameter resets the incremental energy values recorded by your meter A WARNING UNINTENDED OPERATION Do not use this meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Failure to follow these instructions can result in death serious injury or equipment damage Configuring onboard digital inputs using ION Setup You can use ION Setup to configure your meter s digital inputs Digital inputs are available on your meter You can add more digital inputs using optional I O modules 1 2 Start ION Setup Open the Setup Assistant for your meter Navigate to I O gt Digital Inputs The tabs correspond to each digital input Click on the tab for the digital input you want to edit Configure the digital input by selecting the parameter and clicking Edit 101 Chapter 12 ION Setup PowerLogic PM8000 series user manual Parameter Value Range Description Input Mode Pulse KYZ A C IRIG B Specifies how the meter processes the signal Pulse the meter counts an entire pulse from off on to on off as one input K
174. o provide a value for when the alarm turns Pickup Numeric value on Pickup Dela Numerevalue This specifies the number of seconds the digital input must P y be in the alarm pickup state before the alarm turns on Use this setting to provide a value for when the alarm turns Dropout Numeric value off Dropout Delay Numeric value This specifies the number of seconds the digital input must be below the alarm dropoff state before the alarm turns off None Info only Low Medium Specifies the priority level of the standard alarm To Alarm Priority or High disable the alarm set priority to Info only Select custom priority to view and configure the event priority of the event associated with the alarm The event log cutoff value is displayed for reference priorities above the cutoff are stored in the meter s event log Custom Priority 0 255 7 Click Save to save the settings to your meter Related topics See Alarms overview on page 147 for more information about your meter s alarms and alarm configuration Configuring sag swell alarms using ION Setup You can use ION Setup to configure the sag swell alarm settings 106 7EN02 0336 00 PowerLogic PM8000 series user manual 7EN02 0336 00 Chapter 12 ION Setup 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Alarming gt Sag Swell 4 Select a parameter and click Edit
175. ogramming This option can only be enabled in advanced security and is disabled Advanced only for standard security Allow front panel This option allows you to enable or disable the ability to configure programming Standard advanced your device using the display This option can only be disabled in advanced security and is enabled for standard security Allow broadcasting time synchronization Advanced only This option allows you to configure the number of access attempts Proto COINGCKOUL eee before lockout lockout duration and meter access event priorities Advanced security user configuration Advanced security allows you to configure users with specific access levels and passwords 47 Chapter 7 Security PowerLogic PM8000 series user manual Security configuration process The following is an overview of the process to configure security on your meter Security configuration process 1 Review security recommendations 2 Set basic security options Change the display front panel password Disable broadcasting time synchronization advanced security only Enable disable display front panel and Webserver programming Enable disable Modbus programming advanced security only 3 Configure communications protocol lockout options 3a Configure protocol specific settings Set the number of attempts before the protocol is locked out Set the session timeout 3b Configure glob
176. ols the frequency of Harmonics logging Programming your meter to write to any data recorder at continuous intervals shorter than 60 seconds heavy logging configuration can cause loss of data in the event of a power failure NOTICE DATA LOSS Use an uninterruptible power supply UPS if you program your meter for heavy logging Failure to follow these instructions can result in data loss Data log memory calculations 130 The amount of memory required to store data and event logs depends on the number of parameters being logged and the frequency with which these parameters are logged The memory required is calculated as follows Memory consumption for each record in Bytes number of parameters x 5 8 For example a data log recording three parameters consumes 23 Bytes of data If the data is recorded every 15 minutes for 35 days the data log requires approximately 80 kiloBytes of logging memory 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 15 Data waveform and event logging Waveform record memory calculations The meter can simultaneously capture waveforms triggered by events on all channels to a maximum of 96 cycles for each waveform record The memory required is calculated as follows Memory consumption for each waveform in Bytes 2 x number of samples per cycle 12 x number of cycles in waveform x 2 32 A single waveform record requires approximately 8 kB of memory
177. on Onboard digital output port Digital Output Port D1 D1 Port D1 Form A output Calibration Pulser Wh Pulser LED N A kWh Pulse LED Energy pulsing Onboard digital input ports Port S1 S1 Port S1 Externally excited Digital Input Port S2 S2 Port S2 Externally excited Port S3 S3 Port S3 Externally excited 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 16 Inputs outputs Hardware port Port name oe ION module type ION module name device label ION label Description Option module s digital input ports Port A S1 S6 Port B S1 S6 j igi Digital Input Port A B C D S1 S6 S1 S6 Option module digital Port C S1 S6 inputs Port D S1 S6 Option module s digital output ports Port A D1 D2 Port B D1 D2 j igi Digital Output Port A B C D D1 D2 Relay 1 Relay 2 Option module digital Port C D1 D2 output Port D D1 D2 Option module s analog input ports Port A A1 A4 Port B A1 A4 j Analog Input Port A B C D A1 A4 A1 A4 Option module analog Port C A1 A4 input Port D A1 A4 Option module s analog output ports Port A Q1 Q2 Port B Q1 Q2 i Analog Output Port A B C D Q1 Q2 Q1 Q2 Ppa module analog Port C Q1 Q2 output Port D Q1 Q2 NOTE When configuring your meter the configuration interface may show all of the possible ports regardless of what is physically available on your meter Relat
178. on the RS 485 bias when the meter is acting as a master over RS 485 communications and turn off the RS 485 bias when the meter is acting as a slave You can configure RS 485 biasing through the meter s display or ION Setup RS 485 and gateway communications Your meter can act as a gateway from the devices on the RS 485 bus to another communications port on the meter For example you can configure your meter as an Ethernet gateway which lets you communicate through the meter s Ethernet port to the serial devices connected to the meter s RS 485 port using the ION protocol EtherGate or Modbus protocol Modbus gateway Related topics e See the Configuring an EtherGate gateway using ION Setup on page 93 for instructions on how to configure EtherGate on your meter e See the Configuring a Modbus gateway using ION Setup on page 92 for instructions on how to configure Modbus gateway on your meter Configuring communications using the display You can configure your meter s basic communications settings using the display Before configuring Ethernet parameters make sure you obtain your meter s IP address and other network information from your network administrator or IT department Before configuring serial parameters make sure you have a unique unit ID for your meter and know the serial network settings protocol baud rate parity and stop bits 1 Goto Setup Menu gt Communications Setup gt IP Address Setup
179. one Modbus master per network 57 Chapter 9 Protocols PowerLogic PM8000 series user manual Term Definition Serial Modbus protocol format Modbus RTU transmits data using binary Master and slave Modbus RTU devices must use the same format Identifies the data to read write Modbus register maps are available for Modbus slave Modbus register address devices and detail the information available from the slave device More than one register may be used to store a single value A device that responds to Modbus commands and performs actions or provides information Modbus slave back to the Modbus master Most Modbus networks contain multiple slave devices Modbus TCP The Ethernet Modbus protocol format Modbus unit ID The identifier for a slave Modbus device Related topics See Ethernet gateway EtherGate and Modbus gateway on page 62 for more information about Modbus gateways e See Configuring custom Modbus data using ION Setup on page 91 for instructions on adding custom Modbus data to your device e Download your device s Modbus map available from www schneider electric com See the JON Reference available from www schneider electric com for details about the Modbus Master Device Modbus Master Map Modbus Master Options and Data Mapping modules Go to www modbus org for information about the Modbus protocol Modbus network examples 58 Your meter
180. onics information is valuable for power quality analysis determining properly rated transformers maintenance and troubleshooting and is required for compliance to system power quality standards such as EN50160 and meter power quality standards such as IEC 61000 4 30 161 Chapter 20 Power quality PowerLogic PM8000 series user manual Harmonics measurements include per phase magnitudes and angles relative to the fundamental frequency of the phase A voltage for the fundamental and higher harmonics The device s power system configuration determines which phases are present and how line to line or line to neutral voltage harmonics and current harmonics are calculated Harmonics are used to identify whether the supplied system power meets required power quality standards or if non linear loads are affecting your power system Power system harmonics can cause current flow on the neutral conductor and damage to equipment such as increased heating in electric motors Power conditioners or harmonic filters can be used to minimize unwanted harmonics Your meter provides harmonic information up to the 63rd harmonic Harmonic information can be viewed on the meter s display and is recorded by your meter Related topics See Viewing harmonics information using the display on page 164 for information on how to view harmonics values on your meter s display See the JON Reference available from www schneider electric com for de
181. option module firmware file into the appropriate option module folder Repeat for all modules that you want to load firmware onto 3 Power cycle or perform an option module reset to upload the new firmware to the option module s 4 Review the option module firmware update details stored in the meter s event log to confirm that the upgrade was successful 7EN02 0336 00 81 Chapter 11 Firmware and templates PowerLogic PM8000 series user manual Related topics e See Accessing your meter s FTP server on page 66 for instructions on how to connect to your meter using FTP See Event log overview on page 134 for instructions on how to view your meter s event log See Loading option module firmware using ION Setup on page 86 for instructions on how to load option module firmware using ION Setup 82 7EN02 0336 00 Chapter 12 ION Setup This section details the device configuration you can perform using ION Setup ION Setup overview ION Setup is a free downloadable device configuration tool Devices can be configured over communications links whether they are locally or remotely located Devices such as your meter based on ION architecture have two different configuration methods using ION Setup The standard method uses the setup assistant a user friendly tool that walks you through the process of setting up your meter It is the recommended method for most users The advanced method allows you to
182. ork To create an alert you must configure the Alert module using a configuration tool You must also configure your device s communications as needed to send the alerts such as configuring your meter s SMTP settings and connecting it via Ethernet to an SMTP mail server in order to send an alert by email 151 Chapter 17 Alarms and alerts PowerLogic PM8000 series user manual Related topics e See the ION meter alerts technical note available from www schneider electric com for detailed information on creating and configuring alerts See the ION Reference available from www schneider electric com for detailed information about the Alert module and its operation 152 7EN02 0336 00 Chapter 18 Resets overview Meter resets 7EN02 0336 00 Resets Resets allow you to clear various accumulated parameters stored on your meter or re initialize meter accessories Meter resets clear your meter s onboard data logs and other related information Resets are typically performed after you make changes to the meter s basic setup parameters such as PT CT settings to clear obsolete or invalid data in preparation for putting the meter into active service You must enter a valid password in order to perform a reset NOTE Revenue locked meters must be unlocked to perform meter resets that affect revenue data Related topics See Revenue locking on page 173 for more information locking and unlocking revenue loc
183. ork management information between devices allowing you to manage network performance and to identify and solve problems on networks with devices of various types Your meter supports SNMP once you have enabled SNMP on your meter You need to upload the your meter s MIB file available from www schneider electric com into the NMS managing your meter Key terms Term Definition Agent Software resident on the managed device which interfaces between the device and the NMS Managed device Your meter in the SNMP network Community string A text string that helps authenticate requests between the managed device and the NMS Any parameter referenced in the MIB file for example the parameters linked to the SNMP Managed object Mapping module on your meter MIB A management information base which organizes the OIDs in a hierarchical tree A network management station manager or client that executes applications to monitor and NMS control devices An NMS must have the standard and custom MIB files and SNMP manager software OID An object identifier that uniquely identifies and labels a managed object in the MIB Trap receiver An NMS that is configured to receive traps and whose IP address is an SNMP trap destination 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 9 Protocols SNMP implementation 7EN02 0336 00 The meter in an SNMP system Trap receiver s PAP Oy SNMP over Ethernet
184. os an 3 g 23 I OG Na 065 q CO e E d PE Active Power Active Power Exported Received W Imported Delivered W kW kWH 180 Active Power Active Power Exported Received W Imported Delivered W ma 5 Re gg 9 a 2 25 28 28 o Qe D S 2 5 Ss 2 a Quadrant 3 5 S PF lagging inductive E 2 Power factor sign convention IEEE IEC 270 KVAR kVARH Quadrant 1 PF lagging inductive Power factor sign convention IEEE IEC kW kWH L T Quadrant 4 PF leading capacitive Power factor sign convention IEEE IEC Apparent active and reactive power PQS A typical AC electrical system load has both resistive and reactive inductive or capacitive components Resistive loads consume real power P Reactive power Q is either consumed inductive loads or generated capacitive loads 7EN02 0336 00 157 Chapter 19 Power and power factor PowerLogic PM8000 series user manual Apparent power S is the capacity of your measured power system to provide real and reactive power Q Quadrant 2 E aw x PF lead P PA Quadrant 3 Q kVAR kVAR Quadrant 1 Quadrant 4 The units for power are watts W or kW for real power P vars VAR or kVAR for reactive power Q and volt amps VA or kVA for apparent power S Positive real power P flows from source to load and negative real power P flows from the load
185. ou start testing the reference device or energy standard should be warmed up as recommended by its manufacturer Verify the accuracy and precision of all measurement equipment used in accuracy testing for example voltmeters ammeters power factor meters Energy pulsing Your meter has two energy pulsing LEDs one visible light and one infrared located on the meter base These LEDs emit pulses that are then used to determine the accuracy of the meter s energy measurements The pulses of light indicate accumulated energy the meter s accumulations are compared with the reference standard s accumulated energy in order to help determine the meter s accuracy Your meter also has a digital output that can be used for energy pulsing The relay closes low impedance and then opens high impedance to represent a pulse If the accuracy testing equipment has a voltage requirement a current limited wetting supply voltage must be provided NOTE Digital outputs on option modules should not be used meter accuracy testing Related topics e See Electrical characteristics on page 181 for your device s power supply measurement accuracy and other specifications e See LED locations on page 21 for the location of the energy pulsing LEDs e See Energy pulsing overview on page 145 for instructions on how to configure your meter s digital output for energy pulsing 7EN02 0336 00 PowerLogic PM8000 series user manual Chapt
186. our meter s onboard data logs Configuring custom input metering using ION Setup You can configure input metering with custom units and rates using ION Setup When configuring your meter the configuration interface may show all of the possible ports regardless of what is physically available on your meter NOTE Your device s digital input must be connected to the input metering pulse source Review the digital inputs assigned to applications to help you understand your existing configuration 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Energy Applications gt Digital Input Based 4 Select the input metering channel you want to configure and click Edit The Input Metering Channel Setup screen is displayed a Select Enabled to enable the input metering feature 6 Click Select to define which digital input is the pulse source for the input metering channel NOTE It is recommended to set Assigned Input to No connection to disable the input metering channel by removing any port associations 7 Clear the Standard quantity checkbox The screen changes to display custom input metering parameters 8 Configure the remaining parameters as required Parameter Description Pulse Weight Enter the value per pulse Enter the measurement units associated with the pulse Units NOTE Include source identification information by entering O followed by the source identifier En
187. our meter supports the following protocols on its RS 485 serial port Protocol ION Modbus RTU Modbus Master DNP 3 0 EtherGate GPS Truetime Datum GPS Arbiter GPS Arbiter Vorne 1 These protocol settings are for connecting to a GPS receiver communicating in serial ASCII format Related topics e See Protocols on page 57 for more information about the protocols supported by your meter Your meter has one RS 485 connection Related topics See the RS 485 communications on page 183 for maximum devices and wire length e See your device s installation instructions available from www schneider electric com for communication connection details Before connecting your device to the RS 485 bus use the meter s display webpages or ION Setup to configure your meter s default RS 485 settings so that it has a unique unit identifier address and the following settings match the rest of the devices on the RS 485 bus e Protocol e Baud rate e Parity and stop bits You can configure the following settings to help optimize communications performance e RTS delay e RS 485 bias 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 8 Communications You can use a communications converter USB to RS 485 or RS 232 to RS 485 or an Ethernet gateway device to connect to your meter RS 485 bias You can use the RS 485 bias setting to fine tune communications Turn
188. ours long The second incremental energy interval is from 3 pm to 10 pm and is also seven hours long The third interval is from 10 pm to 12 am and is only 2 hours long because 12 am is the specified end time These intervals repeat every 24 hours until the configuration is changed or incremental energy feature is disabled Related topics e See Configuring incremental energy using ION Setup on page 100 for instructions on how to configure your meter s start and end times and interval values Demand Demand also referred to as power demand is a measure of average power consumption over a fixed time interval Peak or maximum demand is the highest demand level recorded over the billing period Your meter calculates the average current demand and kW kVAR and kVA demand using sliding window demand methods The meter supports coincident demand values when a peak demand is detected Your meter s default configuration is suitable for most applications or you can customize it for your specific application You can configure the minimum time between consecutive demand resets NOTE If not specified references to demand are assumed to mean power demand 170 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 21 Energy and demand Related topics See Peak demand reset lockout on page 172 for information about your meter s peak demand reset lockout feature See the ION Setup online help for inst
189. ous injury A CAUTION CAUTION indicates a hazardous situation which if not avoided could result in minor or moderate injury NOTICE NOTICE is used to address practices not related to physical injury 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 Notices Notices Legal information FCC Part 15 notice PowerLogic PM8000 series user manual The Schneider Electric brand and any registered trademarks of Schneider Electric Industries SAS referred to in this guide are the sole property of Schneider Electric SA and its subsidiaries They may not be used for any purpose without the owner s permission given in writing This guide and its content are protected within the meaning of the French intellectual property code Code de la propri t intellectuelle frangais referred to hereafter as the Code under the laws of copyright covering texts drawings and models as well as by trademark law You agree not to reproduce other than for your own personal noncommercial use as defined in the Code all or part of this guide on any
190. over Ethernet an IPv6 address is automatically generated from your meter s MAC address and self discovery takes place over IPv6 For example a meter with a MAC address of 0060784173393 appears on the network as PM8000_ 713393 Double clicking the meter s network icon takes you to the meter s webpages where you can view data and perform basic meter configuration NOTE For self discovery the meter must be connected directly to the computer using only a cable or switches and not by a router Serial communications 7EN02 0336 00 The meter supports serial communications through the RS 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 require only one dedicated computer to 53 Chapter 8 Communications PowerLogic PM8000 series user manual communicate with the slave devices an RS 232 to RS 485 converter can be used as the master device Related topics e See your device s installation instructions available from www schneider electric com for details on how to physically wire your meter s RS 485 connections e See RS 485 communications on page 183 for specifications related to serial communications Serial protocols and ports RS 485 connections RS 485 configuration 54 Y
191. p 92 PowerLogic PM8000 series user manual Related topics e Refer to your device s Modbus map available from www schneider electric com for Modbus register information Configuring your meter as a Modbus master using ION Setup You can configure your device to Modbus master slave devices over serial or Ethernet Make sure your master and slave devices have the prerequisite communications wiring and configuration before configuring your meter as a Modbus master NOTE Devices supporting multiple simultaneous Modbus TCP connections can have communications delays Adjust your network timeout settings to accommodate this The meter as a Modbus master over TCP IP attempts to communicate with a slave device for up to 100 seconds as per the RFC1122 standard before moving on to the next slave device 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Communications gt 3rd Party Protocols and click on the Modbus Master tab 4 Click Add to add a Modbus slave device The Modbus Device dialog appears 5 Enter the Modbus slave information Enter the Modbus slave device s name and a label suffix if applicable Select the device type of the slave device from Device Type Enter the unit ID of the Modbus slave device into Slave ID Select the serial or TCP connection from Connected via This is the connection from the Modbus master to the slave device 6 Click Connections The Modbus
192. parameters that impact metered data Maintenance Custom No default content 1 Accessing the meter s webpages 7EN02 0336 00 By default the Maintenance menu is empty and the menu is not displayed until information is added to it You can access the meter s webpages through the meter s Ethernet connection using a web browser You must have cookies enabled in order to access your meter s webpages Ifyou configure communications so that you cannot communicate to and configure your meter you must return the meter to the factory where your meter is reset to its factory defaults and all logged data is lost NOTICE DATA LOSS Ensure you maintain sufficient access to communicate to and configure your device Failure to follow these instructions may result in data loss 1 Open a web browser and enter your meter s IP address in the address box The webpage login prompt is displayed 116 2 Enter a valid username and password select your desired Language from the drop down list and click Log In Your meter s webpages are displayed NOTE The username and password are defined by your meter s security configuration if standard security is enabled the password is the same as the display password with a default username of 8000 The default display password is O zero To help increase the security of your meter s configuration and data configure your meter s username and passwords to be differen
193. play alarms when predefined events are detected in the meter s measured values or operating states Your meter also records and stores meter events in the meter s onboard event log Your meter comes with many alarms Some are preconfigured while others need to be configured before your meter can generate alarms Your meter s default alarms can be customized as needed such as changing the priority You can create custom alarms using the advanced features of your meter NOTE To stop an alarm from being displayed without impacting other metering features set its alarm priority to info only Related topics See Event log overview on page 134 for more information about your meter s on board event log See the ION Reference available from www schneider electric com for more information about the Setpoint module Your meter has the following types of alarms Type Description Setpoint alarms define an alarm by comparing the actual value of a parameter to a specified limit or range of values These include measured voltage and current values and calculated Setpoint standard power quality values Some setpoint alarms use high speed measurements for up to 1 millisecond resolution Digital Digital alarms define an alarm condition based on a digital input s on off state Disturbance sag swell Disturbance alarms define an alarm based on a measured sag or swell Unary Unary alarms are not configurab
194. portant data has been recorded before configuring device Failure to follow these instructions can result in data loss Related topics e See the online ION Setup help available from www schneider electric com for instructions on how to use ION Setup and how to connect to your device using ION Setup ION Setup device communication Your device communicates to ION Setup using the ION protocol through its RS 485 serial communications port or over Ethernet If you are communicating over Ethernet there are IP service ports set to the ION protocol so you do not need to perform any additional device configuration to access your device using ION Setup If you are communicating over RS 485 you will need to set the serial communications protocol to ION as well as configuring the rest of your serial communications settings Related topics See Serial communications on page 53 for instructions on how to configure your meter s serial communication ION Setup device configuration Template screen 84 The best practice for configuring your device is to go through all the screens in the setup assistant and fill in the appropriate information for each feature as you go The setup assistant has on screen information and step by step wizards to help guide you through the process of configuring your device s features This section contains additional information for ION Setup configuration tasks that are unique or have been mod
195. pulses from transducers and convert the pulses to energy measurements for WAGES applications Your meter s input metering channels count pulses received from the digital inputs assigned to each 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 e Pulse weight the value per pulse e Units the unit of measure associated with the metered quantity e Rate the time base associated with input metering accumulations For units with a defined rate this value is used for scaling Demand period how frequently the input metering data is calculated in your energy management system You can use standard units and rates to configure input metering or you can create custom input metering parameters for specialized applications Standard input metering example Your meter s onboard digital input S1 is monitoring a flow meter identified as FL3 that sends one pulse for every 100 liters of water Your energy management system has a demand period of 15 minutes and calculates the input metering data using an hourly rate Parameter Value Assigned Input S1 Standard quantity Selected Pulse Weight 100 Units L Rate l hr Demand period 15 minutes Source ID FL3 168 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 21 Energy and demand Custom input metering
196. r IEC 61557 12 Class 0 2 11 Reactive power IEC 61557 12 Class 1 Measurement 0 5 accuracy Apparent power IEC 61557 12 Class 0 5 10 2 Current per phase IEC 61557 12 Class 0 2 10 2 Voltage L N IEC 61557 12 Class 0 2 0 02 Frequency IEC 61557 12 Class 0 02 IEC 61000 4 30 Class S IEC 62586 1 PQI S FI1 0 5 Voltage unbalance IEC 61557 12 Class 0 5 12 Voltage harmonics Power quality IEC 61557 12 Class 2 accuracy 2 Voltage THD IEC 61557 12 Class 2 12 Current harmonics IEC 61557 12 Class 2 12 Current THD IEC 61557 12 Class 2 Voltage and current inputs Control power Inputs outputs 182 Voltage inputs VT PT primary 1 0 MV AC max Specified accuracy voltage 57 to 400 V L N 100 to 690 V L L Wye or 100 to 600 V L L Delta Specified accuracy frequency 42 to 69 Hz 50 60 Hz nominal Current inputs Specified accuracy current range 50 mA to 10A AC DC control power Operating range 50 60 Hz 10 90 to 415 VAC L N 10 400 Hz 90 to 120 VAC 10 120 to 300 V DC 10 Ride through time 100 ms 6 cycles at 60 Hz min any condition 200 ms 12 cycles at 60 Hz typ 120 V AC 500 ms 30 cycles at 60 Hz typ 415 V AC Digital output Number type 1 Form A Solid State max 30 V AC 60 V DC 75mA On resistance 13 to 40 Q at 25 C 77 F Pulse frequency lt 25 Hz
197. r and power factor conventions assas sasaaa aeee 157 Powertactor PF eeaeee de A A AA 159 PoWer Quality eccerre ita dia 161 Sag swell overview o oooooooco ee 161 Harmonics OVErmView see eaa a Fab edge cea pee ele ae bale 24 161 Crest factor and K factor overview 0 000 cece eee 162 Total harmonic distortion overview 00 cee eee eee eee 163 Phasor oveni Woo aeae ae Gade es wae ce aaa A A a ee 163 Viewing harmonics information using the display 2000 e uae 164 Disturbance direction detection overview 220 cee eee eee 164 Viewing disturbance direction detection events 2 000 eee 165 Energy and demand siz sccccccescetcciessccttecteesttttieceesttuiceegesceteestescecncerwesstuedeeesstntceraests 167 Conditional energy sh es i ee be Ming i ea Y 167 WAGES monitoring overview 0000 eae 167 Incremental energy avila raton rra road 169 Demand td id did dd a Pas ee a de 170 PRROVOMUC ii tee Hoe veieaen en tecnica cian dca E 173 Revenue overvieW oo 173 Revenue lock waits Sa Gann ehde adem ad a Aa Gen 173 TIME GHUSE 5 ctr Bie wena US a ats aol Gly ies ARS dg tat gata wd 174 PTE T COMECH ON ii Ge Mel oe Oe PAS A EE a aT 174 Verifying ACCUTACY viscid seeders ee ie a ee ee vn dee al 175 DPECMTICAION Sa tt TAT 181 Mechanical characteristics ooooooooooococo 181 Electrical characteriStiCs 2 2 s ai debs c rro aaa 181 EMC electromagnetic capability
198. r meter Revenue locking Revenue locking your meter helps prevent modifications to revenue related settings and data on your meter or tampering with your meter s voltage and current connections Revenue locking may be required to help meet government regulations and utility security requirements or can be used to help ensure the validity of revenue data Related topics See the PM8000 catalog pages available from www schneider electric com or consult your local Schneider Electric representative for information about your device its options and accessories Download the JON Device Template Reference available from www schneider electric com to view a complete listing of revenue locked parameters and data See Revenue lock LED behavior on page 22 for revenue lock LED behavior Revenue lock switch You can revenue lock your meter using the revenue lock switch located on the meter base This switch is accessed through a sealable cover gt Revenue lock switch cover E e Sealing point E q gS Revenue LED o E 7EN02 0336 00 173 Chapter 22 Revenue PowerLogic PM8000 series user manual Revenue locking your meter Time of use PT CT correction 174 You can revenue lock and unlock your meter using the revenue lock switch located on the meter base A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Apply appropriate personal protective equipment
199. r meter s MIB file in a text editing program such as Notepad 2 Update the variable name and description so they match the meter values connected to the SNMP Mapping module 69 Chapter 9 Protocols IEC 61850 Implementation 70 PowerLogic PM8000 series user manual 3 Save your meter s MIB file Make sure you keep the original file extension of MIB Example This example shows an original and an updated OID entry in an MIB file where the default meter value of voltage line to neutral phase A is modified in the meters SNMP Mapping module and is now connected to voltage line to neutral phase C Original OID entry Vin_a OBJECT TYPE SYNTAX DisplayString SIZE 0 255 ACCESS read only STATUS mandatory DESCRIPTION Host Meter Voltage Line A to Neutral Units V Volts schneiderElectric 34 You must update the variable name and description to match the meter values connected to the SNMP Mapping module Value Original Updated Variable name Vin_a Vin_c Description Host Meter Voltage Line A to Neutral Units V Host Meter Voltage Line C to Neutral Units V P Volts schneiderElectric 34 Volts schneiderElectric 34 The SNMP client software reads the original and updated file as follows Original Updated variable name Vin_a Description SNM1 Input 1 Voltage line to neutral phase A variable name Vin_c
200. r quality compliance EN50160 Your meter measures and presents statistics for determining EN50160 compliance e IEC 61000 4 30 Your meter complies with the IEC 61000 4 30 power quality standard e IEC 62586 1 Your meter complies with the IEC 62586 1 power quality standard 15 Chapter 2 Introduction PowerLogic PM8000 series user manual Localization options The meter can be customized to use different regional settings including e The language used for the display and webpages Time date and digit formats EC IEEE symbols and calculations Data display and analysis tools Software Your meter integrates with display and analysis software available from Schneider Electric such asStruxureWare Power Monitoring Expert that lets you analyze and monitor your system and produce reports for different departments in your organization This software is designed to make use of your meter s advanced capabilities You can also use the data acquired by the meter in a variety of third party systems Display Use the meter s display for local monitoring and standalone applications The color LCD display lets you view real time values events and alarms and perform basic device configuration Connect a remote display to a meter without an integrated display to get the same functions as those provided on the integrated display Active and historical alarms The meter s display shows an alarm icon and the alarm LED f
201. rce for example 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 175 Chapter 22 Revenue 176 PowerLogic PM8000 series user manual 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 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 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 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 y
202. rder to signal the end of the sag Specifies the percentage the current must deviate from the nominal Current Swell Pickup Numeric value pe current in order to be classified as a swell Specifies the additional amount that the current must recover in Current Swell Dropout Numeric value order to signal the end of the event 4 Navigate to Power Quality and click the Sag Swell tab to configure your meter s waveform recording parameters Parameter Description Sag Swell depth Specifies the number of records the sag swell data log can hold Waveform depth Specifies the maximum number of waveform records stored on the meter Specifies the number of samples per cycle and the number of cycles that are stored in a Waveform format waveform record Specifies the number of cycles recorded after the waveform is triggered Post event cycles NOTE The maximum number of post event cycles cannot exceed the number of cycles in the waveform record Specifies the difference in magnitude between the start and end thresholds for a power quality ja 0 Hysteresis event NOTE COMTRADE status must be set to Disabled before modifying the waveform format Configuring COMTRADE waveform recording using ION Setup You can enable and configure COMTRADE waveform recording using ION Setup COMTRADE is configured as part of the default waveform recording but not enabled from the factory Your meters
203. red to provide information about your meter There are three system strings on your meter System contact enter the name of the SNMP system administrator System name enter a descriptive name for your meter e System location enter a description of your meter s location SNMP trapping SNMP trapping allows your meter s agent to notify the NMS of events with an unsolicited SNMP message a trap of the meter s alarm event You can enter up to four IP addresses for SNMP trap notification for generic and enterprise specific traps For enterprise traps you must also define the number of events or maximum time delay before SNMP traps are sent to the NMS SNMP trapping is only supported on SNMP v2 Generic SNMP traps supported by your meter are e Coldstart the meter SNMP agent is starting Linkup the SNMP agent is enabled AuthenticationFailure the meter SNMP agent has received an incorrect community value Enterprise specific SNMP traps supported by your meter are Low trap of events with a low event priority e Medium trap of events with a medium event priority e High trap of events with a high event priority Trap Event priority range Low 64 127 Medium 128 191 High 192 255 NOTE The number of events or maximum time delay settings only apply to enterprise SNMP traps SNMP Mapping module The SNMP Mapping module is linked by default to the most commonly used meter values
204. ribes the meter s webpages The meter s Ethernet connection allows you to access the meter so you can view data and perform trending and forecasting and some basic configuration using a web browser You can also view standard filetypes through the meter s webpages and create custom webpages for your meter A WARNING INACCURATE DATA RESULTS Do not rely solely on data displayed on the display or in software to determine if this device is functioning correctly or complying with all applicable standards Do not use data displayed on the display or in software as a substitute for proper workplace practices or equipment maintenance Failure to follow these instructions can result in death serious injury or equipment damage Webpage interface Your meter comes with default webpages that contain the typical elements shown below A Meter brand and Powerlogic pm8oo0 A B 8000 Logout model PM8000_413401 January 7 2000 2 B Username Monitoring Mer SES C Main menu Instantaneous Readings Basic Readings D Webpage menu Trending amp Forecasting D Minimum Present Maximum E Webpage content Power Quality Summary Load Current Inputs Outputs La A 0 00 0 00 19 94 1b A 0 00 0 00 19 94 Ic A E 0 00 0 00 19 94 14 A 0 00 0 00 19 94 15 A 0 00 0 00 39 87 Average A 0 00 0 00 19 94 Current Unbalance 0 00 Power Active kW 0 00 0 00 0 00 Reactive kVAR 0 00 0 00 0 00 Apparent
205. riggered on demand Se E i 335 EN50160 Logs varies EN50160 intervals 6 16 37 38 40 4 30 Logs varies 1EC61000 4 30 intervals 129 Chapter 15 Data waveform and event logging PowerLogic PM8000 series user manual Changing the log depths Use ION Setup to change the number of records depth stored in the log Changing how log records information circular or stop when full is an advanced procedure to change the RecordMode setup register in the Data Recorder and Waveform Recorder modules Data logs and circular format waveform recorders have a minimum depth of 2 records Changing the log intervals You can use ION Setup to change the logging intervals for the revenue and energy demand log Changing the interval for other data logs is an advanced procedure to modify the Periodic Timer module s Period setup register which triggers the data log s recording Do not change the Periodic Timer module s Sync Mode setup register The default Periodic Timer modules that control the frequency of different data recording are as follows Revenue Log Trg controls the frequency of the logging of revenue values e Loss Log Trg controls the frequency of Loss Compensation Data logging EgyDmd Log Trg controls the frequency of logging for the Energy and Demand Log this log is used by ION Enterprise software to generate reports e Hist Log Trg controls the frequency of Historic Data logging Harm Log Trg contr
206. rm f V Parameter data EN50160 VIt Dp4 EN50160 Prm VIr disabled by default EN50160 Vit Dp5 7EN02 0336 00 EN50160 Vunbal Voltage unbalance The meter logs EN50160 counter data for present and previous observation periods as well as EN51060 events 4 30 compliance logs Four 4 30 compliance logs are used to log parameters related to the International Electrotechnical Commission s IEC 61000 4 30 standards power quality compliance and to create reports Data recorder 4 30 parameters logged PqFlag v1 V2 V3 V1 THD Total Harmonic Distortion V2 THD V3 THD NegSeqComp Vneg Vpos ZeroSeqComp Vzero Vpos Power Freq 4 30 10m Log Power Frequency 4 30 10s Freq PqFlag PqFlag v1 V2 V3 V1 THD Total Harmonic Distortion V2 THD V3 THD NegSeqComp Vneg Vpos ZeroSeqComp Vzero Vpos Power Freq 4 30 2hr Log 133 Chapter 15 Data waveform and event logging PowerLogic PM8000 series user manual Data recorder 4 30 parameters logged PqFlag V1 V2 V3 4 30 3s Log V1 THD Total Harmonic Distortion V2THD V3 THD NegSeqComp Vneg Vpos ZeroSeqComp Vzero Vpos 4 30 V Intrp DrtnAll e Voltage interruption duration all voltages Related topics See the 4 30 Compliance and ION Meters technical note available from www schneider electric com for more information about your meter s 4 30 compliance See the EN50160 2010 compliance a
207. rmally Wh pulse ovrld Pulsing suspended indicates that the energy pulsing LED is not able to pulse quickly enough Modify the W Kt value to decrease the number of energy pulses NOTE Only configure parameters other than those described if you have advanced knowledge of ION and the power system your meter is connected to 5 Select an energy pulsing source tab such as Wh Del to configure energy pulsing using your meter s digital output Parameter Description The amount of energy source required to make one pulse For example in the Wh Del tab the Kt Kt value would be amount of real energy delivered Wh Del per pulse The minimum time in seconds between pulse transitions Pulse Width B NOTE There is a minimum 50 duty cycle on all pulses Port Select an output port from the list Only available output ports are shown Pulsing normally indicates that the output port should be operating normally source ovrid Pulsing suspended indicates that the output port is not able to pulse quickly enough Modify the Kt value to decrease the number of energy pulses NOTE Only configure parameters other than those described if you have advanced knowledge of ION and the power system your meter is connected to Configuring conditional energy using ION Setup You can enable and configure conditional energy settings using ION Setup When configuring your meter the configuration interface may show all of the possib
208. rt data from other devices on 16 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 2 Introduction these networks Your meter supports the IEC 61850 protocol and COMTRADE waveform data format Your meter also supports IPv6 DPWS and RSTP Ethernet protocols ION Setup device configuration tool ION Setup is a free configuration tool for your meter that allows you to remotely configure your meter s features over Ethernet or serial communications Use the Setup Assistant to guide you through the process of configuring your meter Use the real time data screens to verify your meter s configuration Use the data screens to view your meter s recorded data Use the charting function to view your meter s recorded waveforms You can download ION Setup from www schneider electric com NOTE Advanced users with a thorough understanding of their meter s architecture protocols and the power system in which their meter is installed can use the advanced mode of ION Setup to create specialized features on their meter Related topics e See the online ION Setup help available from www schneider electric com for instructions on connecting to your meter and accessing the Setup Assistant Additional information and files 7EN02 0336 00 The most up to date documentation about your meter is available for download from www schneider electric com You can also contact your local Schneider Electric representative for more in
209. ructions on how to configure demand on your meter See the ION Reference available from www schneider electric com for detailed information on how Sliding Window Demand modules measure and calculate demand values e See Viewing data using your meter s display on page 30 for instructions on how to navigate and use your meter s display Sliding window demand Peak demand 7EN02 0336 00 To calculate demand values your meter uses the sliding window averaging or rolling interval method which divides the demand interval into a set number of subintervals of specified duration The demand is measured electronically based on the average load level over the most recent set of subintervals Sliding window demand also provides predicted demand values Examples of sliding wndow demand This example shows two different ways of configuring a 15 minute demand interval e Single interval also called block or timed block the 15 minute demand interval is defined as a single subinterval with a duration of 15 minutes Sliding window also called rolling block the 15 minute demand interval is defined as three subintervals with a duration of 5 minutes each This method offers better response time than a single interval Demand value is the average for Calculation updates at the last completed interval the end of the interval N 15 minute interval 15 minute interval 15 minute interval gt lt pes 30
210. runs between devices without needing additional Ethernet routers or repeaters Your Ethernet connection source should be installed in a location that helps minimize the overall Ethernet cable routing length and complexity of your network Each of your device s Ethernet ports has full transmit receive bandwidth this means they do not split the signal so connecting both of your device s Ethernet ports should not impact your communications speed When wiring your meter s Ethernet communications it is recommended to only use straight line topology If local network loop or ring Ethernet topologies are required you must enable RSTP rapid spanning tree protocol for your meter s Ethernet communications to function Internet protocol IP versions and supported features Your meter supports both IPv4 and IPv6 local addressing Your meter supports DPWS devices profile for web services This feature allows for self discovery of the meter when directly connected on IPv6 local area networks Related topics e See Configuring network communications using ION Setup on page 90 for instructions on how to enable and disable IPv6 on your meter Self discovery over Ethernet When you connect your meter directly to your computer your meter automatically appears on the network By default the meter is named PM8000_ lt last six digits of MAC address gt NOTE You do not need to configure your meter s IP address for self discovery
211. s FTP site to increase the available space before enabling the feature FTP file structure and permissions Your meter s FTP folder structure is as follows e COMTRADE you can read COMTRADE files from these folders but you cannot delete or add files to these folders e 1EC61850 you can add an IEC 61850 configuration CID file to this folder to activate the IEC 61850 protocol functions of your meter optionModuleUpg and rmdUpg you can load firmware update files for your meter s remote display or option modules into these folders documents this folder is intended for user storage You can read write and delete any type of files in this folder e web this folder is where the meter s default webpages are stored and where you can add custom webpages to the meter by copying them into the appropriate sub folders FTP filename requirements FTP filenames are limited to standard ASCII characters meaning that they cannot contain a blank space quotation marks or lt or gt and are limited to 68 characters in length including the file extension The character is only used as part of the FTP file directory information NOTE FTP files from your meter can only be accessed and modified by Windows based machines Supported FTP features 7EN02 0336 00 Ports Port Description 21 Command connection 20 Data connection active and passive Your meter s command connection FTP port
212. s depending on the application Digital Output module monitors a change of state to control relay operation via a hardware output device Pulser module transfers high speed pulses to a hardware pulse counting device that is used to track energy usage Calibration Pulser module integrates instantaneous power inputs then outputs high speed pulses to an LED that can be monitored for energy accuracy verification NOTE All of these modules can act as intermediaries between the physical hardware port and the other modules in the meter They define the characteristics of the outgoing signals Analog input uses the Analog Input module which tells the meter how to interpret an incoming analog voltage or current signal from transducers Analog output uses the Analog Output module to deliver a continuous direct voltage or current analog signal to transducers Input output ION modules ports and labels You can configure the Digital Output Digital Input Analog Input Analog Output Pulser and Calibration Pulser ION modules to specify which port handles the outgoing or incoming signals To assign a port to one of these modules simply modify the Port setup register by picking a port from the enumerated list The following tables describe the ports that can be configured to handle outgoing or incoming signals 140 Hardware port Port name nae ION module type ION module name device label ION label Descripti
213. s to the module with the digital output you want to configure 4 Select the digital output channel and click Edit The setup screen for that digital output is displayed 5 Configure the digital output by selecting the parameter and clicking Edit Parameter Value Range Description Link this input to the value that drives the state of the digital output Source Digital Boolean If Source is not linked the digital output state is driven by the Force ON Force OFF values Link this input to a pulse that forces the digital output on for the Force ON Pulse PulseWidth duration regardless of the Source input Force OFF Pulse Link this input to a pulse that forces the digital output off Normal Pulse Pulsing this input will switch the driver of the digital output from Force ON to Source Polarity Inverting non inverting Specifies if the signal to the digital port is inverted or not inverted Specifies the duration of the pulse in seconds PulseWidth 0 2 000 000 A ae Setting this parameter to 0 sets the digital output continuously on Port A The physical digital output port connection Only available ports are shown 1 These parameters are only valid when pulse width is set to 0 The digital output is configured Logging There are no additional tasks specific to your device for this screen Revenue There are no additional tasks specific to your device for this screen 7EN02 0336
214. s webpages on page 116 for instructions on how to access your meter s webpages e See Viewing trending and forecasting data on your meter s webpages on page 127 for instructions on how to view trending and forecasting data e See Configuring time and time synchronization using ION Setup on page 96 for instructions on how to reset your meter s start day of the week Viewing trending and forecasting data on your meter s webpages 7EN02 0336 00 You can select data for forecasting and trending and view the resulting information using your meter s webpages For trending and forecasting to operate your meter must have accumulated data for at least two of the specified intervals for example if you want to view a daily graph your meter must have accumulated data for at least two previous days before the present day 1 Log in to your meter s webpages 127 Chapter 14 Trending and forecasting PowerLogic PM8000 series user manual 2 Click Monitoring gt Trending amp Forecasting 3 Select the Target and Interval The graph for the selected data is displayed 128 7EN02 0336 00 Chapter 15 Data waveform and event Overview logging This section describes the meter s logging features Your meter can support up to 50 logs data recorders which can each record up to 16 different parameters Your meter has a number of onboard default logs also called data recorders that are used to store data related to e
215. software other than ION Setup ION Setup is a free configuration tool available for download from www schneider electric com Please contact your local Schneider Electric representative to learn what additional training opportunities are available regarding ION meters Topics not covered by this manual PowerLogic PM8000 series user manual 6 7EN02 0336 00 PowerLogic PM8000 series user manual Table of contents 7EN02 0336 00 Chapter 1 Chapter 2 Chapter 3 Chapter 4 Chapter 5 Chapter 6 Chapter 7 Chapter 8 NOUCES dista rara A pa 4 About this manual 0 000 tees 5 Safety precautions sico aana 11 MACHO UICC ON E E E saa inanaaeancnnantestnssaasacveacaaneatens 13 PM8000 overview o 13 Your meter in an energy management system 0 0 0 13 Localization options 0 0 20 cee ee 16 Data display and analysis tools 0 0 00 eee eae 16 Supported protocols 0 00 cece eee ee 16 ION Setup device configuration tool 1 2 0 0 ae 17 Additional information and files 000000 17 Hardware reverence s m ada 19 Meter ypes ccsciedas tara A Tear Dea A 19 Remote meter display RMD 00 00 cece eae 20 Option modules o 20 Mounting adaptors 0 0 eet eee 20 Other accessories 0000 ete 21 Indicator LEDS saa iaa ic a bee Ree eee ee ee a a a 21 Mounting and installation ooonoccnnnicnnnnnnnnacnnccnnnannn nn cnn rn nr 23 Before You Deg
216. stable power source causing energy pulsing fluctuations e Incorrect test setup not all phases connected to the reference device or the energy standard All phases connected to the device under test should also be connected to the reference meter standard e Moisture condensing humidity debris or pollution present in the device under test 180 7EN02 0336 00 Chapter 23 Specifications The information contained in this section is subject to change without notice You can download updated documentation from www schneider electric com or contact your local Schneider Electric representative for the latest updates This section provides additional specifications for your meter and accessories See your device s installation sheet for specifications related to installation such as measured voltage and current ranges inputs outputs and control power information See your product s technical datasheet at www schneider electric com for the most up to date and complete specifications Mechanical characteristics Mechanical compliance Model Characteristic Specification Mounting position Vertical IP IP30 meter body except connectors IP54 front display Display type Y VGA color graphic TFT LCD 320 x 240 resolution Display backlight White LED Viewable area 70 6 x 52 9 mm 2 78 x 2 08 in Keypad 5 button Maximum number of opt
217. sted you can refer ence the value by its ION handle using the following format lt td regname _Ox HHH gt lt td gt where HHH is the hexadecimal value of the ION handle 7EN02 0336 00 125 7EN02 0336 00 126 Chapter 14 Trending and forecasting Trending and forecasting overview Trending and forecasting is a feature on your device that predicts the next set of measured or calculated data by plotting and analyzing trends in historical data Trending and forecasting data is a useful tool to help analyze changes in load and power quality and forecasting values such as demand For your meter s trending and forecasting feature to work you only need to give the meter time to accumulate data Related topics See the ION Reference available from www schneider electric com for detailed information about the Trending and Forecasting module Trending and forecasting implementation Data used for trending and forecasting is logged for the following intervals Every hour for the last 24 hours e Every day for the last month Every week for the last 8 weeks Every month for the last 12 months The following parameters are configured for trending and forecasting by default kW sd del rec demand Freq frequency Vil ab la mean VII bc b mean VII ca lc mean VII avg avg mean You can configure the start day of the week for trending and forecasting using ION Setup Related topics e See Accessing the meter
218. sturbance This information can be used by your energy management system to plot the disturbance on a CBEMA curve COMTRADE waveform data is available from your meter NOTE If you are generating COMTRADE waveform information the associated waveform recorders cannot be modified unless COMTRADE is disabled If the waveform recorders are not configured identically COMTRADE waveform information will not be generated Key terms Term Definition COMTRADE COMmon format for TRAnsient Data Exchange COMTRADE is a common format for waveform data A curve that graphically describes an AC input voltage envelope which can be typically tolerated by ITI CBEMA information technology equipment Meter waveform information is plotted on this curve to help evaluate power quality Nominal The normal or usual parameter value For example the nominal voltage for many power systems is 120 V Sag A power event where the voltage or current drops below the nominal value Swell A power event where the voltage or current rises above the nominal value Related topics See the ION Reference available from www schneider electric com for more information on the Waveform Recorder module and its settings See COMTRADE on page 71 for more information about COMTRADE waveform data e See Minimum configuration requirements for basic metering on page 37 for information on the values that must be configured for your me
219. synchronization methods to adjust its internal clock Your meter s internal clock is used for keeping time timestamping data and determining intervals for time based measurements The meter s clock does not affect externally logged data Your meter monitors the passage of time using the frequency of an internal oscillator or the frequency of the line power being measured You can view your meter s time and date information using the display or through software To improve your meter clock s accuracy you can use an external time reference such as a Global Positioning System GPS signal Your meter s battery maintains the internal clock when the meter is unpowered Your meter displays local time based on the meter s time sync source and settings for timezone and daylight savings time You can configure your meter s date and time format Related topics e See Configuring time and time synchronization using ION Setup on page 96 for instruction on configuring your meter s clock settings See the Time synchronization and timekeeping technical note available from www schneider electric com for more information about time formats and settings See the JON Reference available from www schneider electric com for a detailed description of the Clock module and its operation Time synchronization overview The time synchronization source and the duration between time synchronization messages determines the accuracy of the
220. t up to three using Ethernet or a combination of both Combinations available depend on the meter s communications options A session consists of all incoming and outgoing DNP Master Slave traffic on one of the meter s communications ports Your meter is pre configured for basic DNP Slave functionality For serial DNP communications you must assign the DNP protocol to the appropriate serial communication port on your meter you do not have to configure your meter s Ethernet port s You can modify your meter s default DNP map using configuration software Importing data using DNP 3 0 Data can be imported into the meter from a DNP control relay or analog output device This is an advanced feature intended for users with an in depth understanding of the DNP 3 0 and ION protocols Related topics See the PM8000 DNP 3 0 Device Profile document available from www schneider electric com for detailed information on your meter s default DNP map and implementation See the online ION Setup help for instructions on connecting to your meter and accessing the Setup Assistant which can be used to modify your meter s DNP port settings and default DNP map e See the Multiport DNP 3 0 and ION Technology technical note available from www schneider electric com for more information on how your meter supports DNP 3 0 7EN02 0336 00 Chapter 10 Time and time synchronization Time overview Your meter supports different time types and time
221. t from the default values The meter s Monitoring webpage is displayed showing real time data 3 Select the main menu tab that corresponds to the category of information you want to view and select the webpage menu from the list on the left The webpage content is displayed Click the webpage content headings to expand and view the meter s data 4 Select Setup to view and edit your meter s configuration Related topics e See Trending and forecasting on page 127 for instructions on configuring and viewing logging and trending information on the meter s webpages e See Security overview on page 47 for instructions on how to configure security settings on your meter Configuring SNMP using your meter s webpages You can configure SNMP trapping using your meter s webpages You must download the ION MIB file from www schneider electric com 1 Connect to your meter s webpages 2 Goto Setup gt SNMP Parameters 3 Configure your meter s SNMP parameters by selecting the parameter value Parameter Range Description Enable SNMP Yes no Enables or disables SNMP on your meter SNMP Port Number 161 default Enter your meter s SNMP port number System contact Enter the name of your SNMP system administrator System name Enter a descriptive name for your meter System location Enter your meter s location Read only Community Name Enter t
222. t values and then the amount of deviation from the nominal required to trigger waveform recording 7EN02 0336 00 109 Chapter 12 ION Setup PowerLogic PM8000 series user manual Changing your meter s waveform recording configuration clears your meter s existing waveform records NOTICE DATA LOSS Ensure that all important data has been recorded before configuring waveform recording Failure to follow these instructions can result in data loss 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Alarming and click the Sag Swell tab Configure your meter s sag swell detection parameters Parameter Value Range Description Nominal voltage 0 999 999 Specifies the nominal voltage value used for sag swell detection Specifies how much a measured value must exceed the nominal in F Voltage Swell Percentage of nominal order to be consideredia lt well Voltage Sag Percentage of nominal Specifies how much a measure value must fall below the nominal in 9 9 9 order to be considered a sag TEA Nominal current O 999 999 Specifies the nominal current used by Swell and Sag limit for a current sag or a current swell Specifies the percentage the current must deviate from the nominal Current Sag Pickup Numenevate current in order to be classified as a sag Specifies the additional amount that the current must recover in Current Sag Dropoff Numeric value o
223. ta loss The following resets can be performed using the display Screen title Parameter Description Resets Master Reset Clears all the cumulative and derived quantities from the meter including demand peak demand energy revenue and test mode parameters Clears meter event and waveform logs Clears COMTRADE waveform records from the meter s internal FTP server Clears the meter s data logs Peak Demand Reset Clears the peak demand values logged in the meter Min Max Reset Clears all accumulated maximum and minimum values stored in the meter Digital Input Count Reset Clears the digital input state change counters Harmonics Min Max Reset Clears all accumulated maximum and minimum harmonics values stored in the meter Disturbance Count Reset Clears the sag swell event counter EN50160 Reset Clears all EN50160 parameters and statistics accumulated in the meter Option Modules Reset Restarts all option modules attached to the meter Password Setup It is strongly recommended that you change your meter s display front panel password from the default value of 0 Zero If your meter s user access information is lost you must return the meter to the factory where your meter is reset to its factory defaults and all logged data is lost 40 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 5 Display and meter setup
224. tails about the Harmonics Measurement and Harmonics evaluation modules See Default data logging configuration on page 131 for information on how harmonic information is logged on your meter Crest factor and K factor overview 162 Crest factor is the ratio of peak to RMS values and is available for both voltage and current For a pure sinusoidal waveform crest factor is equal to the square root of 2 The meter uses the following equation to calculate crest factor V eak Crest factor HS RMS lpeak Crest factor RMS K factor relates to 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 with out exceeding rated temperature rise limits The K factor is equal to the sum of the squares of the harmonic currents multiplied by the squares of the harmonic order The meter uses the following equation to calculate K factor 63 gt xh h 1 K factor 2 0 h 1 Where h is the harmonic order and lp is the RMS current of harmonic order h Related topics e See the JON Reference available from www schneider electric com for details about the Harmonics Measurement module See Harmonics logs on page 132 for information on how K factor information is logged on your meter 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 20 Power quali
225. te to Expansion Module gt Option I O Modules and select the module tab that corresponds to the option module with the analog output you want to configure 4 Select the analog output channel and click Edit The setup screen for that analog output is displayed 5 Configure the analog output by selecting the parameter and clicking Edit Parameter Value Range Description Zero scale 0 to 109 The minimum source value that matches the minimum analog output signal Full scale 0 to 109 The maximum source value that matches the maximum analog output signal Port The physical analog output port connection Mode Voltage current Determines whether the analog output is putting out voltage or current The analog output is configured Configuring option module digital inputs using ION Setup You can use ION Setup to configure your meter s digital inputs Digital inputs are available on your meter You can add more digital inputs using optional I O modules 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Expansion Module gt Option I O Modules and select the module tab that corresponds to the option module with the digital input you want to configure 4 Select the digital input channel and click Edit The setup screen for that digital input is displayed 5 Configure the digital input by selecting the parameter and clicking Edit 7EN02 0336 00 PowerLogic PM8000 series user
226. ter the frequency in minutes that input metering data is calculated in your energy Demand Period management system Rate Enter the rate associated with the defined Units Scaling Select the scaling value based on the relationship between Units and Rate Time Base Select the value and units to match the Rate 9 Click OK to save your configuration 10 Configure your meter to log the input metering data if required Related topics e See the ION Setup online help available from www schneider electric com for instructions on how to add input metering data to your meter s onboard data logs Configuring incremental energy using ION Setup You can configure incremental energy using ION Setup 1 Start ION Setup 2 Open the Setup Assistant for your meter 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup Onboard I O 7EN02 0336 00 3 4 Navigate to Energy Applications gt Incremental Energy Select Status and click Edit The incremental energy configuration screen is displayed NOTE To display parameters for configuration select Enable Select the parameter to configure and click Edit Parameter Range Description Status Enable disable Enables the incremental energy feature The incremental energy first interval s start time The start time must be prior to the end time for energy accumulation Start time 12 00 am to 11 59 pm The end time for increme
227. ter to perform power quality calculations e See Setpoint learning overview on page 137 for information about configuring your meter to learn your power system s normal acceptable range of values Default waveform recording configuration Your meter s waveform recording operates once your nominal values are configured Your meter has the following default waveform recorders 136 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 15 Data waveform and event logging Waveform recorder Description Wfm Rc V1 Sg Sw V1 voltage waveforms recorded during a defined sag or swell event Wfm Rc V2 Sg Sw V2 voltage waveforms recorded during a defined sag or swell event Wfm Rc V3 Sg Sw V3 voltage waveforms recorded during a defined sag or swell event Wfm Rc 11 Sg Sw 11 current waveforms recorded during a defined sag or swell event Wfm Rc 12 Sg Sw 12 current waveforms recorded during a defined sag or swell event Wfm Rc 13 Sg Sw 13 current waveforms recorded during a defined sag or swell event Setpoint learning overview 7EN02 0336 00 Your meter can detect disturbances or values that are outside of a defined acceptable range If you do not know what that acceptable range is or what threshold constitutes a voltage disturbance your meter can learn these values by monitoring normal operating values to determine what constitutes a voltage sag or swell in order to help identify high and low setpoints
228. ters lt has the same buttons icons and LEDs as the display on a panel meter and is powered by the connection to the meter A remote display cannot be used with meters that have an integrated display A Gasket a z E B Alignment pin location C Display connection D MT 2 B D Mounting post c lo e Mounting hardware and accessories not shown Option modules Option modules are ordered separately from your meter and can be connected to your meter without specialized equipment Related topics See the PM8000 catalog pages available from www schneider electric com or consult your local Schneider Electric representative for information about option modules available for your meter Mounting adaptors There are different mounting adaptor accessories that can help when installing your meter in existing panels and cutouts where the default mounting hardware is not appropriate Mounting adaptor kits are ordered separately from the meter Related topics e See the PM8000 catalog pages available from www schneider electric com or consult your local Schneider Electric representative for information about mounting adaptors available for your meter 20 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 3 Hardware reference Other accessories Voltage and current input covers Sealable voltage and current input covers are available and can be ordered
229. th gateway capabilities is installed on an Ethernet network a master device such as an energy management system can communicate through the 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 9 Protocols EtherGate Modbus gateway 7EN02 0336 00 gateway meter to a serial network of devices connected to the gateway meter s serial port s The maximum number of devices on the serial network is determined by the limitations of the gateway meter s serial port There are two types of Ethernet gateways that you can configure on your meter EtherGate a single TCP connection communicates through the gateway meter to a serial network of ION devices Modbus gateway up to a maximum of 32 Modbus master TCP connections communicate through the gateway meter to a serial network of Modbus devices The meter can function as an Ethernet gateway EtherGate EtherGate is a protocol agnostic communications method that lets you communicate through a gateway meter to a serial network of devices letting ION or other RTU over TCP data pass through the gateway meter to other networks including third party systems When a meter installed on the Ethernet network has EtherGate enabled a master device such as an energy management system can communicate through the gateway meter to a serial network of devices wired to the gateway meter s COM port You must create an additional communications connection to the gateway meter in order to re
230. that may be present Ground the shield wiring at one end only either at the master or the last slave device but not both o Signal common This provides the voltage reference zero volts for the RS 485 signals NOTE If some devices in your RS 485 network do not have the common C terminal use the bare wire in the RS 485 cable to connect the common terminal from the meter to the shield terminal on the devices that do not have the common terminal Ethernet communications Your meter s dual port Ethernet connections enable you to use straight line or network loop ring topologies If local network loop Ethernet topologies are required you must enable RSTP for your meter s Ethernet communications to function Only use unshielded CAT5 5e UTP Ethernet cables to wire your meter s Ethernet communications Other cable types may provide an undesired ground path NOTICE EQUIPMENT DAMAGE Only use unshielded CAT5 5e UTP Ethernet cables Failure to follow these instructions may result in equipment damage Perform an option bus reset to restart the option bus and re initialize the option modules attached to your meter Related topics See Option modules on page 43 for more information about option modules e See Resets on page 153 for more information about the resets available on your meter Default values for commissioning 7EN02 0336 00 Parameter Def
231. the setpoint values are automatically applied unless the learning process has issues or the learned values are invalid Manual navigate to Alarming gt Setpoints and click Learn On each setpoint tab click Install to apply the learned values to that setpoint NOTE If you click Install while learning is in progress in either manual or automatic installation mode it stops the learning process and prompts you for confirmation that you want to stop learning and install the learned values Once you confirm the learned values are automatically installed or prepared for manual installation Related topics e See Setpoint learning overview on page 137 for more information about setpoint learning Implementing sag swell limit learning using ION Setup You can use ION Setup to implement voltage sag swell learning which analyzes your power system and recommends settings 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup NOTE Your meter s power system must be stable in order to learn valid sag swell limits You must have configured your meter s nominal voltage in order to learn valid sag swell limits 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Alarming gt Sag Swell 4 Select the Voltage Swell or Voltage Sag and click Learn The Global Setpoint Learning screen is displayed NOTE You can manually configure the limit values by selecting the parameter and cli
232. three hours with an overall duration of five hours truncates the last interval duration to two hours The latest value for the specified end time is midnight 24 00 Your start time must be before the end time and after midnight and the period over which incremental energy is accumulated cannot include midnight This is because your meter s start and end times are defined relative to midnight Start 6am End 12am Incremental energy accumulates from 6am to midnight in intervals of 3 hours interval 3hrs Start 6am End 2am Incremental energy will not function End time must be after start time and before or equal to interval 3hrs midnight Incremental energy helps provide information for analyzing energy and power usage against present or future utility rates and is useful for comparing different time of use rate structures When configuring incremental energy shorter incremental energy periods provide more granular data which can make the data easier to use for comparison purposes 169 Chapter 21 Energy and demand PowerLogic PM8000 series user manual Incremental energy example Start time 8 am or 08 00 End time 12 am or 24 00 Interval 420 minutes 7 hours A First interval 08 00 to 15 00 B Second interval 15 00 to 22 00 Third interval 22 00 to 24 00 o The first incremental energy interval is from 8 am start time to 3 pm and is seven h
233. ting the parameter and clicking Edit Parameter Value Range Description Source Digital Boolean Link this input to the value that drives the state of the digital output If Source is not linked the digital output state is driven by the Force ON Force OFF values Force ON Force OFF Normal Pulse Pulse Pulse Link this input to a pulse that forces the digital output on for the PulseWidth duration regardless of the Source input Link this input to a pulse that forces the digital output off Pulsing this input will switch the driver of the digital output from Force ON to Source Polarity Inverting non inverting Specifies if the signal to the digital port is inverted or not inverted PulseWidth 0 2 000 000 Specifies the duration of the pulse in seconds Setting this parameter to O sets the digital output continuously on Port The physical digital output port connection Only available ports are shown 1 The digital output is configured Expansion Modules Option I O modules These parameters are only valid when pulse width is set to 0 You can configure your meter s I O option modules using ION Setup 102 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 12 ION Setup 7EN02 0336 00 The I O option module screen has tabs corresponding to the four possible option module based on how the option modules are connected to the meter E
234. tional screens Vil ab 207 806 208 258 Vil ab 207 98 v ha Vi bo 207 84 y pelted Wied 207 76v ean MPU maat v wt 888 VIl bc 207 849 208 246 es 3 Press amp or Y to highlight an additional screen in this case Volts II Average Press to go to the highlighted screen Volts Il Average displays the average line to line voltage Vil ab 208 02 v MAA d a Volts II Min Volts I Max 32 7ENO2 0336 00 PowerLogic PM8000 series user manual Chapter 5 Display and meter setup 4 Press ll to view a graphical display of average voltage values then press 888 to return to the numeric display Press to return to Volts L L Volts L L Average 5 Press Y to view Volts L N which also has additional screens and the ability to view the information in a graphical format Vina 119 91 y Vin b 119 93y Vin e 119 97 v a v u 6 Press W again to view Volts Unbalanced This is the last voltage screen so W is grayed out and unavailable Press A to return to Volts L N and press A again to return to Volts L L Volts Unbalanced V unbal 0 03 hal Setup menu Meter configuration can be performed through the display using the meter s webpages or through software This section contains information on how to set up the meter using the display You must have your meter s security settings configured to allow front panel display programming in order to set up the meter using the disp
235. to Modbus Master Modbus Gateway Disabled COM1 The media access control MAC address is factory set and is for MAC address Read only reference only 5 Click the Protocols tab 6 Select a protocol and then click Edit Select whether the protocol connection requests are accepted by the meter and configure the port number Existing connections are not affected but any new connections must comply with the meter s latest settings NOTE The protocol port number is not configurable on all protocols Related topics e See Configuring standard security using ION Setup on page 87 for instructions on how to configure protocol read write access Configuring custom Modbus data using ION Setup You can configure your meter s Modbus map using ION Setup 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Communications gt 3rd party protocols and click on the Modbus slave tab 4 Select the map name and click Edit The Modbus map editor is displayed 5 Select a parameter and click Edit to configure the data associated with that register value the register value the register s format and scaling 6 Click Add to add a new Modbus register Delete to remove a Modbus register Set Name to create a new name for your Modbus map or Save As to save your Modbus map as a separate file 7 Click OK Your Modbus changes are implemented on your meter 91 Chapter 12 ION Setu
236. to follow these instructions can result in death serious injury or equipment damage 44 WARNING Meter resets clear the meter s onboard data logs and other related information DATA LOSS reset NOTICE Ensure all important data from the device has been retrieved before performing a Failure to follow these instructions can result in data loss 1 Navigate to Setup Menu gt Resets 2 Press the edit button to access the configuration menu and use the up and down buttons to navigate through and select the resets you want to perform Press the select button to perform the resets 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 18 Resets Related topics e See Revenue locking on page 173 for more information on revenue locked meters 7EN02 0336 00 155 Chapter 18 Resets PowerLogic PM8000 series user manual 156 7EN02 0336 00 Chapter 19 Power and power factor This section describes how the meter interprets and calculates power and power factor NOTE The descriptions in this section assume that you are an electrical energy consumer not a supplier Power and power factor conventions Values for power and power factor are interpreted according to the conventions shown in the diagram below Quadrant 2 kVAR kVARH PF leading capacitive Power factor sign convention 90 IEEE IEC ee T lt 12 i gt 5 524 wv g2 peL 2a 53
237. to make them available to SNMP Modification of the SNMP Mapping module is an advanced procedure that should only be undertaken by those with an advanced understanding of SNMP ION architecture and their meter s template Related topics See the ION Reference available from www schneider electric com for detailed information on the SNMP Mapping SNMP Options and Alarm Options modules e See Configuring SNMP using your meter s webpages on page 117 for instructions on how to configure your meter s SNMP functions using your meter s webpages See Configuring SNMP using ION Setup on page 94 for instructions on how to configure your meter s SNMP functions using ION Setup 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 9 Protocols Default SNMP mapping Enabling SNMP provides SNMP access to the meter values linked to the SNMP Mapping module You can configure the SNMP Mapping module to link to different meter values By default the following meter values are linked to the SNMP Mapping module la kVAR tot Vil ca Vin avg Ib mean kW sd mx del rec Ib kVA tot VII avg Freq Ic mx kW sd del Ic PF sign tot Vina la mx Ic mean kW sd rec lavg VII ab Vin b la mean kW sd mx del kW sd del rec kW tot VII bc Vin c Ib mx kW sd mx rec kVAR sd mx del kVAR sd mx rec kVAR sd mx del rec kVAR sd del kVAR sd rec kVAR sd del rec kVA sd mx del kVA sd mx rec kVA sd mx del rec kVA sd del kVA sd rec kVA sd del rec kWh del kWh rec
238. tructions may result in data loss 49 Chapter 7 Security PowerLogic PM8000 series user manual Additional security recommendations Disable communications for all unused Ethernet network protocols e For the highest level of security use a revenue locked meter with advanced security enabled and configured for minimum access e Save a copy of your meter s security configuration scf file in a secure location for future reference or troubleshooting Your meter s security configuration file can be loaded onto other meters of the same type to configure their security settings Set your meter s time synchronization source to a secure communications port and disable time synchronization on all other ports Related topics See Protocols ports and connections on page 52 for more information about your meter s Ethernet network protocols Changing your meter s display password using the display You can change your display password using your meter s display NOTE The display password is also used as the webpage password if standard security is enabled 1 Goto Setup Menu gt Password Setup 2 Configure your meter s display password Related links e See Setting up your meter using the display on page 34 for instructions on how to configure your meter using the display 50 7EN02 0336 00 Chapter 8 Communications Your meter has one RS 485 connection and two Ethernet connectio
239. ty Total harmonic distortion overview Phasor overview 7EN02 0336 00 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 The meter uses the following series of equations to calculate THD Harmonic content calculations Harmonic content Hc is equal to the RMS value of all the non fundamental harmonic components in one phase of the power system and this value is used in THD calculations The meter uses the following equation to calculate Hc Ho HQ Hg Hy 2 THD calculations THD is a quick measure of the total distortion present in a waveform and is the ratio of harmonic content Hc to the fundamental harmonic H The meter uses the following equation to calculate THD He THD g x100percent 1 thd and TDD Your meter can be configured to provide thd total harmonic distortion using the total RMS value for the content rather than the fundamental content and TDD total demand distortion the harmonic current distortion against the maximum demand of the electrical system thd He 100 t RMS percen H TDD C x100percent Demandyax This is an advanced procedure that should only be performed by users with an advanced knowledge of power quality ION architecture and the power system
240. ual Analog input voltage and current mode Analog input behavior Analog output behavior 142 In current mode the analog inputs have a low input resistance while the meter is powered on and a high input resistance when the meter is powered off In voltage mode the analog inputs have a high input resistance regardless of whether the meter is powered or not NOTE When unpowered your meter s analog inputs act like they are in voltage mode high input resistance When connected to a current output transducer this high resistance can create a high voltage Standard i e 4 to 20 mA current transducers have open circuit protection and are able to handle a high input resistance however if non standard transducers are used high voltages may be generated Your meter s analog input has circuitry to limit this voltage but it may not be sufficient with a very high power current source NOTICE EQUIPMENT DAMAGE Ensure the analog input is configured for the correct voltage or current mode before connecting or activating the current transducer e Do not exceed the device s ratings for maximum limits Failure to follow these instructions will result in equipment damage Related topics See Option modules on page 184 for your option module s analog voltage and current range specifications Analog inputs may show a value below zero scale if an open circuit is detected on the input port Your meter
241. ur existing configuration 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Energy Applications gt Digital Input Based 4 Select the input metering channel you want to configure and click Edit The Input Metering Channel Setup screen is displayed a Select Enabled to enable the input metering feature 6 Click Select to define which digital input is the pulse source for the input metering chamnel NOTE It is recommended to set Assigned Input to No connection to disable the input metering channel by removing any port associations 7 Configure the remaining parameters as required Parameter Description Pulse Weight Enter the value per pulse Select the measurement units associated with the pulse Enter the frequency in minutes that input metering data is calculated in your energy management system Demand Period Rate Select the rate associated with the defined Units Enter a data identifier This value is added to the input metering channel s data to uniquely Source ID identify the data within your energy management system 8 Click OK to save your configuration 9 Configure your meter to log the input metering data if required 7EN02 0336 00 99 Chapter 12 ION Setup 100 PowerLogic PM8000 series user manual Related topics e See the ION Setup online help available from www schneider electric com for instructions on how to add input metering data to y
242. ve a unique unit ID also called the Unit ID device address Ethernet In order for your meter to operate as an Ethernet Modbus device you must complete the following prerequisites NOTE You do not need to perform any Modbus specific configuration for your meter to function as a Modbus slave device over Ethernet Prerequisite Description Ethernet All devices must have a working Ethernet connection IP address All devices must have a unique IP address Port All devices must be communicating over Ethernet port 502 for Modbus TCP NOTE Devices supporting multiple simultaneous Modbus TCP connections can have communications delays Adjust your network timeout settings to accommodate this 61 Chapter 9 Protocols Modbus map PowerLogic PM8000 series user manual Modbus master In order for your meter to operate as a Modbus master you must complete the following prerequisites NOTE These settings are required in addition to the serial or Ethernet Modbus prerequisites Prerequisite Description Modbus slave devices All Modbus slave devices must be communicating and appropriately configured Modbus mastering serial devices the master s serial port protocol must be set to Modbus master Modbus mastering Ethernet devices the master must be communicating to the slave devices over Ethernet port 502 Protocol Mastered devices The Modbus master device must have th
243. venue locked On The meter is revenue locked Flashing New revenue lock state is pending power cycle your meter to set the revenue lock to on or off Remote display connector LED behavior 22 There are two LEDs in the remote display connector LED Description Green On link established link Off no link established with the remote display Check the connections to the remote display and DIN meter Yellow Flashing active communications between the meter and the remote display activity no communication activity Check remote display and meter operation tivit Off icati tivity Check te displ d met ti 7EN02 0336 00 Chapter 4 Before you begin Mounting and installation This section provides supplemental information to help mount and install your meter It is intended to be used in conjunction with the installation sheet that ships in the box with your meter and accessories See your device s installation sheet for information related to installation such as dimensions mounting and wiring instructions The latest technical documentation related to your meter and accessories is available for download from www schneider electric com Carefully read and follow the safety precautions and instructions in the installation sheet before working with your meter or accessory Safety precautions Mounting Panel mount meters 7EN02 0336 00 Installation wiring testing and service must be
244. verview on page 168 for details about your meter s input metering feature e See IRIG B time synchronization on page 141 for information about IRIG B time synchronization e See Configuring onboard digital inputs using ION Setup on page 101 for instructions on how to configure your digital inputs e See Configuring onboard digital outputs using ION setup on page 102 for instructions on how to configure your digital outputs Energy pulsing overview 7EN02 0336 00 You can use your meter s digital output or energy pulsing LEDs for energy pulsing Energy pulsing is when 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 You must calculate your pulse values as either pulses per kWh or as kWh per pulse as defined by your meter and set the energy value as active reactive or apparent delivered received or delivered plus received For applications where energy pulsing accuracy is required use the meter s onboard digital output 145 Chapter 16 Inputs outputs 146 PowerLogic PM8000 series user manual Related topics e See Verifying accuracy on page 175 for instructions on how to perform accuracy verification testing on your meter See the JON Reference available from www schneider electric com for more information about Calibration Pulser and Pulser modules Calcul
245. view and configure the ION modules directly This is an advanced procedure that should only be done by those users who are expert in ION architecture and the systems in which the device is installed In addition to configuring your device you can generate reports and view real time and logged data using ION Setup Basic configuration can be done using your device s display or web pages but many features are configured using ION Setup You can download ION Setup from www schneider electric com It is recommended that you always upgrade to the latest version of ION Setup to help properly configure features available on your device 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 these instructions can result in death serious injury or equipment damage Refer to the online ION Setup help for precautions and detailed information A WARNING INACCURATE DATA RESULTS Verify that associated devices and ION Setup are configured correctly Failure to follow these instructions can result in death serious injury or equipment damage 7EN02 0336 00 83 Chapter 12 ION Setup PowerLogic PM8000 series user manual Performing resets and configuring features such as data or waveform recorders will clear recorded data NOTICE DATA LOSS Ensure that all im
246. viewed using your meter s webpages Videos in mp4 format can be played in most browsers The filenames must be compatible with your meter s FTP filename requirements NOTE Image files are shown at full size 100 Scale images to the desired size before loading them onto your meter s internal FTP site 1 Access your meter s internal FTP site 2 Open the web folder Copy your file into the subfolder that corresponds to the webpage main menu tab you want to access your file from 3 Connect to your meter s webpages Select the main menu item that corresponds to the folder where you stored your file in step 2 Your file is listed in the webpage menu 4 Select your file from the webpage menu to view Example To view a schematic diagram oneline pdf of your power system from the Monitoring menu of your meter s webpages 1 Access your meter s internal FTP site 2 Copy oneline pdf into web gt monitoring 3 Access your meter s internal webpages and select the Monitoring menu In the webpage menu click oneline pdf to view your power system schematic Related topics See FTP on page 64 for instructions on how to connect to your meter over FTP See FTP filename requirements on page 65 for a listing of characters not permitted in a FTP filename Creating custom webpages for your meter 7EN02 0336 00 You can create custom webpages to view data or access configuration parameters from your meter Download th
247. ware versions and templates onto your meter Firmware and template overview Firmware is your meter s operating system that enables the functions of your meter Your meter s template defines the meter s features such as its power measurement and analyzing functionality Your meter ships from the factory with a default template or you can customize your meter s template to create features specific to your meter s application You can save your customized template and upload it to other meters of the same type You can view your meter s firmware version on your meter s display webpages and through ION Setup You can upgrade your meter s firmware and template using ION Setup Firmware updates and new factory templates are available for download from www schneider electric com Your meter and accessories do not operate normally during firmware and template upgrades Your meter s digital and analog outputs may change state during a firmware upgrade Option modules are offline during an option module firmware upgrade they will not communicate to the meter and the outputs may change state during the upgrade process 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 these instructions can result in death serious injury or equipment damage Loading firmware or templ
248. way site is selected in Attach to Select Device and click OK The New Device dialog appears 8 Enter the details of your serial device Click OK to add the serial device to your Ethernet gateway site Repeat for all the serial devices on the gateway meter NOTE Use a separate standard Ethernet connection in ION Setup to connect to and read data from your Ethernet gateway meter Configuring SNMP using ION Setup You can enable SNMP and configure SNMP trapping using ION Setup You must download the ION MIB file from www schneider electric com 1 Start ION Setup 2 Open the Setup Assistant for your meter 3 Navigate to Communications gt Network Settings and select the SNMP tab 4 Configure your meter s SNMP parameters by selecting the parameter and clicking Edit Click OK in the editing screen to set the parameter value Parameter Description Enable SNMP Enables or disables SNMP on your meter Enable Traps Enables or disables SNMP trapping on your meter Trap Revr Addr1 Trap Revr Addr4 Enter up to four trap receiver IP addresses where trap messages will be sent Read only community Enter the community string used for SNMP get read only requests i Enter the community string used for SNMP set read write requests Read write community i i NOTE You can use the read write community string for SNMP get read only requests 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 1
249. wer during firmware upload the display will revert to its original firmware and you will have to reload the firmware file 85 Chapter 12 ION Setup 86 PowerLogic PM8000 series user manual 1 Obtain the remote display firmware BIN that you want to load onto your display Save the files where they can be accessed by the computer running ION Setup Start ION Setup Open the Setup Assistant for your meter Select the Template screen a fF DN Click the Firmware Upgrade tab then click Upgrade Enter your meter s password if prompted and click OK 6 Navigate to where you have stored the remote display firmware Select the Remote Display firmware file BIN as the file type Select the remote display firmware BIN file and click Open Enter your ION Setup password when prompted and click OK A dialog box describes the firmware upgrade progress verifies the firmware and finishes with an overview stating whether the firmware was successfully uploaded Loading option module firmware using ION Setup You can upload firmware to your meter s option modules using ION Setup over an Ethernet connection You can only upload firmware to the same type of module if you have different types of option modules connected to your meter you must perform the upload process for each module type You must have Your meter s option module firmware upgrade SI9 file You can download upgrade files from www schneider electri
250. wer factor only considers the fundamental frequency NOTE Unless specified the power factor displayed by the meter is true power factor 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 e The maximum PF value is the measurement closest to 1 For positive PF readings The maximum PF value is the measurement closest to 1 e The minimum PF value is the measurement closest to 0 159 Chapter 19 Power and power factor PowerLogic PM8000 series user manual 160 7EN02 0336 00 Chapter 20 Power quality Your meter measures voltage and current harmonics up to the 63rd harmonic and calculates several harmonic distortion values as well as K factor and crest factor values You must configure your meter with nominal values for voltage current and frequency for the power system being monitored in order for the meter to perform power quality calculations Your meter also creates a phasor diagram including numeric values for magnitude and angle to represent your power system Related topics e See Minimum configuration requirements for basic metering on page 37 for instructions on setting basic metering values through your meter s display e See Specifications on page 181 for the power quality standards your meter is compliant to e See the Power quality ION meters and EN50160 2010 technical note avai
251. wer up to measurement Meter memory 512 MB Data update rate Regular data 1 second High speed 50 60 Hz half cycle Advanced security users Up to 16 users Characteristic Specification IP degree of protection IEC 60529 Front IP54 Rear IP30 Cable CAT5 5e UTP use unshielded cable only Mounting position Vertical Display type Ya VGA color graphic TFT LCD 320 x 240 resolution Display backlight White LED Viewable area 70 6 x 52 9 mm 2 78 x 2 08 in Keypad 5 button Model Characteristic Specification METSEPM89M0024 Max analog input current voltage 20 mA 30 V DC Analog lt 300 Q current mode i Input resistance 2 out 4 in gt 500 KQ voltage mode Modules per PM8000 series meter Up to 4 METSEPM89M0024 25 C to Max temp 13 F to Max temp Analog Maximum operating temperature is based on the quantity and type of attached option modules 2 out 4 in and Operating temperature for PM8000 series Max temp Digital Analog t METSEPM89M2600 meter 70 C 158 F 0 4 0 1 aaa 70 C 158 F 0 2 2 out 6 in 60 C 140 F 1 2 2 4 7EN02 0336 00 PowerLogic PM8000 series user manual Chapter 23 Specifications 7EN02 0336 00 Related topics Visit the website at www schneider electric com and search for PM8000 technical datasheet for the
252. y and your meter s webpages may appear different than shown 122 A HTML filename Powerlogic PM8000 Useri Logout B Content pane title PM8000_354417 anuary 28 2000 08 44 04 a C Sub heading Monitoring Control Diagnostics Setup Maintenance D Row heading thernet Basic Settings B A E Named register value al F Second content pane title SNMP Parameter c ae D MAC Address 006078354417 E SMTP Ethernet Device Name Pms000_354417 Jate amp IP Address 10 168 64 138 Advanced Settings F v A SampleSetupPane Sample setup webpage content Line Sample HTML SampleSetupPane html 2 3 lt div class content fit gt 4 lt form id formSampleSettings gt 5 6 lt div class accordion gt 7 lt h3 target sample basic gt S localizedString Basic Settings lt h3 gt 8 lt div id sample basic gt 9 lt table class formtable gt 10 lt tr gt 11 lt th gt amp nbsp lt th gt 12 lt th gt amp nbsp lt th gt 13 lt tr gt 14 lt tr gt 15 lt td gt localizedString Ethernet lt td gt 16 lt td gt amp nbsp lt td gt 17 lt tr gt 18 lt tr class minor gt 19 lt td gt S localizedString MAC Address lt td gt 20 lt td regname MAC Address gt lt td gt 21 lt tr gt 22 lt tr class minor gt 23
253. ystem s energy sources and utilities usage Your meter s digital inputs can be used to count pulses from transducers and convert the pulses to energy measurements for WAGES applications This can help you Identify losses or inefficiencies e Modify demand to reduce costs e Optimize energy source usage Your energy system may use several different types of energy You may consume steam or compressed air for industrial processes electricity for lights and computers water for cooling and natural gas for heating WAGES collects the usage information from all these different energy sources for a more complete energy analysis WAGES example You can connect your meter s digital input to a transducer that sends a pulse for every 15 kiloliters 4000 US Gal of water This information is then labeled scaled given a 7EN02 0336 00 167 Chapter 21 Energy and demand PowerLogic PM8000 series user manual unit of measure and logged in the meter s onboard memory for subsequent loading into your energy management system Water flowmeter Energy management system Energy meter A JL A y 15 kL pulse Digital input 1 Label Water_main S Pulseweight 15 WAGES analysis Units kiloliter Scaling 1 no scaling Related topics See Input metering overview on page 168 for a description of how your meter supports WAGES information Input metering overview Your meter s digital inputs can be used to count
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