PowerLogic Power Meter PM5350 - English
Contents
1. Energy Alarm LED The energy alarm LED has three modes Off Alarm and Energy e Off Turns off the LED e Alarm The LED flashes when there is an active alarm Energy The LED flashes Setting Up the Energy Alarm LED To begin energy alarm LED setup 1 Scroll to Maint in the menu list 2 Press Maint 3 Press Setup 4 Enter your setup password NOTE The default password is 0000 See Setting Up Passwords on page 24 for information on changing passwords 5 Press I O 6 Press LED To set up the energy alarm LED 1 Press Edit to select the Mode 2 Press and to scroll through a list of modes Schneider PowerLogic PM5350 3 Press OK to select the mode LED m Off continue to Step 11 Alarm continue to Step 11 Energy continue to Step 4 Pulse Weight Ek hi 4 Press W to select Pulse 1 88na ama Weight then press Edit 5 Press to increment the active digit through the numerals 0 9 Channel Active Rec 6 Press to enter the selected value for the active digit and move to the next digit to the left 7 Continue until all values are selected then press OK to enter the pulse weight 8 Press V to select Channel then press Edit 9 Press and to scroll through a list of energy channels 10 Press OK to enter the energy channel Press A to save all selections 1 60 2011 2012 Schneider Electric All Rig2. NOTE The default password is 0000 See Setting Up Passwords on page 24 for information on changing passwords Press Meter Press Basic The Basic Setup screen appears Use the directions in the following sections to set up basic power meter values NOTE If you make changes to the basic power meter setup all alarms disable to prevent undesired alarm operation Confirm alarm configuration and enable the required alarms Setting Up the Power System The power meter has two circuit modes Normal default and Multi Circuit See Supported Power System Configurations on page 11 for more information on power systems in Normal mode See Appendix E on page 77 for information on multi circuit power system configurations 10 O 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Power Meter Basic Setup To set up the power system 1 Press Edit to select Power System 2 Press and A to scroll Schneider PowerLogic PM5350 through the list of supported TERME EM power system configurations Shed eiue E Circuit Made 3 Press OK to select the power system configuration to be metered Power Suzten SPH4W lue Grd UT Connect Direct Con Hormal Supported Power System Configurations The power meter supports several power system configurations See Figure 3 5 and Figure 3 6 and Table 3 2 Table 3 3 and Table 3 4 for details NOTE There are additional
3. Press OK to set the protocol kPratocal Press to select Address Modbus then press Edit Address Press to increment the active digit through the numerals 0 9 pe Press to enter the selected Baud Rate value for the active digit and move to the next digit to the left Continue until all values are selected then press OK to set the address Press V to select Baud Rate then press Edit Press and to scroll through the Baud rate options Press OK to set the Baud rate Press to select Parity then press Edit Press and to scroll through the parity options Press OK to set the parity See Alarms on page 39 for information on setting up alarms 20 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Power Meter HMI Setup Setting Up I O See Input Output Capabilities on page 51 for information on setting up I O Power Meter HMI Setup To begin power meter HMI setup 1 Scroll to Maint in the menu list 2 Press Maint 3 Press Setup 4 Enter your setup password NOTE The default password is 0000 See Setting Up Passwords on page 24 for information on changing passwords 5 Press HMI The HMI Setup screen appears Use the directions in the following sections to set up power meter HMI values Setting Up the Display To set up the display 1 Press Disp The Display screen ap
4. 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Overview Multi Circuit Menu Overview Below is the menu tree when a multi circuit system type is selected Menu Overview on page 9 describes how to use the power meter navigation buttons Figure E 3 Multi Circuit Menu Tree Level 1 Level 2 Amps I Ckt1 Ckt2 Ck3 Dmd Volts U V Ckt1 Ckt2 Ckt 3 Power PQS Ckt 1 Ckt 2 Ckt 3 Pk DT Ckt1 Ckt2 Ckt3 Ckt1 Ckt2 Ckt 3 Dmd Wd Pd VARd Qd VAd Sd Energy E Ckt1 Ckt2 Ckt3 Ckt 2 Ckt 2 THD thd THD thd THD thd Amps I Volts U V Power PQS PE F Hz THD Unbal Amps I VL L U VL N V Reac Q Amps I VL L U VL N V Active P Appr S Amps I VL L U VL N V V L L U V L N V Meter Comm Alarm Disp Region Pass 1 Sec Unary Dig Multi Basic Advan Dmd Dig Info Meter CI Pwr NOTE The number of circuits available for viewing depends on your power system configuration O 2011 2012 Schneider Electric All Rights Reserved 79 PowerLogic Power Meter PM5350 63230 401 203A3 Basic Setup for Multi Circuit Mode 09 2012 Basic Setup for Multi Circuit Mode Follow the steps in Power Meter Basic Setup on page 10 to reach the basic setup screen To select the multi circuit mode 1 Press Edit to select Circuit Mode 2 Press to scroll to Multi Circuit
5. input E c E Press to select Debounce Time then press Edit Press to increment the active Digital Input ble digit through the numerals 0 9 Digital Input DI3 NOTE Units for debounce time Digital Input DI4 are set in 10 millisecond increments Press lt to enter the selected value for the active digit and move to the next digit to the left Continue until all values are selected then press OK to enter the selected number for Debounce Time E Digital Input DI1 Label Digital Input O11 Debounce Time rss 18 Control Mode Hormal The following sections describe the steps for setting up the input in each control mode 52 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 PowerLogic Power Meter PM5350 Digital Inputs Setting Up the Digital Inputs in Normal Mode 1 Press to select Control Mode then press Edit Press and to scroll through Schneider the list of control mode options PowerLogic PM5350 Digital Input O11 Label Digital Input DIi1 Debounce Time mz Press OK to select Normal Press A to save all selections NOTE If the selected digital input already has a demand system association changing 16 the mode displays a Control Mode confirmation screen indicating that the previous associations Hormal will be lost Press Yes to proceed or No to go back to the previous screen 2011 2012 Schneider Electric All Ri
6. External The output turns on when the energize command is received and turns off when the coil hold release command is received In the event of a control power loss the output remembers and returns to the state it was in when the control power loss occurred Alarm The output turns on when an alarm is activated and turns off when the coil hold release command is received 1 See Appendix D Command Interface on page 73for information on commands and using the command interface The following sections describe the steps for setting up the output in each of the control modes and associated behavior modes WARNING HAZARD OF UNINTENDED OPERATION Do not use the PM5350 power meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit e An unexpected change of state of the digital outputs may result when the supply power to the meter is interrupted after a meter firmware upgrade or during front panel or remote configuration Failure to follow these instructions can result in death serious injury or equipment damage O 2011 2012 Schneider Electric All Rights Reserved 55 PowerLogic Power Meter PM5350 63230 401 203A3 Digital Outputs 09 2012 Setting Up the Digital Output To begin digital output setup 1 Scroll to Maint in the menu list 2 Press Maint 3 Press Setup 4 Enter your setup password NOTE The default p
7. NOTE Units for time delays are set in seconds Press to enter the selected value for the active digit and move to the next digit to the left Continue until all values are selected then press OK to enter the pickup time delay Press V to select Dropout Time Delay then press Edit Follow Steps 8 to 11 for the dropout time delay 63230 401 203A3 09 2012 Schneider PowerLogic PM5350 kDiaital Alarm DII Digital Alarm DIZ Digital Alarm DI3 Digital Alarm DIA Cista sarmo E Fickup Setpoint On Pickup Time Delay cz A Dropout Time Delay 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Setting Up Digital Alarms continued 13 Press V to select Enable then press Edit 14 Press and to scroll between Yes and No 15 Press OK to enable or disable the alarm 16 Press V to select Priority then press Edit 17 Press and to scroll through priority options None High Medium or Low NOTE See Alarm Priorities on page 41 for more information 18 Press OK to set the priority 19 Press V to select Select Digital Output then press Edit 20 Press and to scroll through the list of digital outputs to associate with the alarm 2 Press OK to select a digital output to be associated with the selected alarm 22 f the selected digital output already has an association that will be lost by making the new
8. Rolling Block O 2011 2012 Schneider Electric All Rights Reserved 33 PowerLogic Power Meter PM5350 Demand Readings 34 63230 401 203A3 09 2012 Synchronized Demand The demand calculations can be synchronized by accepting an external pulse input a command sent over communications Input Synchronized Demand You can set up the power meter to accept a demand synch pulse from an external source When the power meter sees a pulse it starts a new demand interval and calculates the demand for the preceding interval The power meter then uses the same time interval as the other meter for each demand calculation Figure 4 3 illustrates this point You can use the standard digital input installed on the meter to receive the synch pulse When setting up this type of demand you select whether it will be input synchronized block or input synchronized rolling block demand The rolling block demand requires that you choose a subinterval Figure 4 3 Demand sync pulse timing Normal Demand Mode External Sync Pulse Demand Timing Billing Meter Demand Timing Utility Meter kusa Sync Pulse Power Meter rower er Demand Timing Demand Timing Slaved to Master Command Synchronized Demand Using command synchronized demand you can synchronize the demand intervals of multiple meters on a communications network For example if a PLC input is monitoring a pulse at the end of a demand interval on a utility revenue meter you coul
9. Scroll through the menu list at the bottom of the screen until you see Alarm Schneider PowerLogic PM5350 Electric Press Alarm E Active Alarms E Press the button beneath Active or Count Over Current Ph Press and A to scroll Under Current Fh through the alarm list Over Current H Press A to return to the Over Current Gnd previous screen Over Voltage L L Under Uoltaae L L x Alarm Counters uer Current Ph Under Current Ph Over Current H Over Current Gnd Over Uoltage L L Under Woltage L L 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Viewing Unacknowledged Alarms and the Alarm History Log PowerLogic Power Meter PM5350 Viewing Alarm Activity and History To view the unacknowledged alarms or the alarm history log 1 Scroll through the menu list at the bottom of the screen until you see Alarm 2 Press Alarm 3 Press the button beneath Unack or Hist 4 Press and A to scroll through the list of primary alarm events 5 Press Detail to view pickup and dropout event details 6 Press V and to scroll through the pickup and dropout event details 7 For unacknowledged alarms press Ack to acknowledge the alarm 8 Press A to return to the alarm list on the previous screen 9 For unacknowledged alarms follow Steps 4 to 7 until all alarms are acknowledged 2011 2012 Schneider Electric All Rights Reserv
10. 0 OverkW pt ONRU perv 12 Led PP Te 4 lewPEDs LO Ip 439 Le E Rs RCE o 2 o 2 23 OO O A ES ER BE 238 o 29 40 O 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Unary Alarms Digital Alarms Multi Circuit Alarms Alarm Priorities PowerLogic Power Meter PM5350 About Alarms Many of the 1 second alarms are three phase alarms Alarm setpoints are evaluated for each of the three phases individually but the alarm is reported as a single alarm The alarm pickup occurs when the first phase exceeds the alarm pickup magnitude for the pickup time delay The alarm is active as long as any phase remains in an alarm state The alarm dropout occurs when the last phase drops below the dropout magnitude for the dropout time delay See Figure 5 2 below Figure 5 2 How the power meter handles setpoint driven alarms Max2 Pickup Setpoint Dropout Setpoint AT lt AT Pickup Delay Dropout Delay EV1 EV2 lg Alarm Period EV1 The power meter records the date and time that the pickup setpoint and time delay were satisfied and the maximum value reached Max1 during the pickup delay period AT Also the power meter performs any tasks assigned to the event such as operation of a digital output EV2 The power meter records the date and time that the dropout
11. 10 amp circuit breaker on 11 Figure E 1 and has established the normal expected load for that circuit is 5 amps The user wants to be notified if the current increases above 5 amps by 20 or by 40 of the circuit breaker rating or if the breaker trips See Multi Circuit Alarms on page 85 for a description of all alarm parameters and setup Dig Input D11 Select Dig Input NOTE See Monitoring for Tripped Status with a Digital Input on page 91 for digital input wiring and alarm setup O 2011 2012 Schneider Electric All Rights Reserved 77 PowerLogic Power Meter PM5350 Overview 78 63230 401 203A3 09 2012 Figure E 1 3CKT L N System Type Wiring Diagram V1 V2 V3 VN EUN B E N E L2 N CKT 2 S1p 82 L3 N CKT 3 Figure E 2 Alarm Pickup and Dropout on a 10 Amp Circuit Current on circuit in Amps 1 second 1 second 1 second 41 u Event 1 Event 2 Event 3 Event 4 Event 1 Current increase triggers High Pickup Event 2 Current increase triggers High High Pickup Event 3 Current drop triggers High High Dropout NOTE The last event prior to return to nominal current is the dropout of the last active pickup only Event 4 Current increase means breaker trip is expected NOTE A current value in excess of the circuit breaker rating does not trigger the Tripped status Only auxiliary contact closure on the digital input associated with the alarm will trigger the Tripped status
12. Appendix C Appendix D Appendix E Alarms Input Output Capabilities Maintenance and Troubleshooting Specifications Communications Wiring Power Factor Register Format Command Interface Multi Circuit Applications 63230 401 203A3 09 2012 Power Analysis VAISS su noe oou raesetu e das ov dn fut ota S Red lr amet Pour eee 37 ADOUPAIGIAS A mH M 39 TESECONG Alar Siig ss RE Nt QU M EUER 40 UBndgEVJATSFPITIS asan a 41 BBY 6 ire PA 2 dag aee oC 41 ulti Circuit AIIN Sw Ses a ul ua et et 41 Alamu PNONUES TTE EO T RTT 41 Using an Alarm to Control a Relay Output eeeseeeseeeeeeen 42 ATarmSetp 43 99 cq Odin TUNE Li o FUIS qu S adr Oboe QI dn seen i Os mah Re 42 Setting Up 1 Second Alarms sis 43 setting Up Unary Alanis sai eo a E eed obe tbe i are ED ie eua a aede ruis 45 Setting Up Digital Alarms sis 46 Viewing Alarm Activity and History sise 48 Viewing Active Alarms and Alarm Counters 4 48 Viewing Unacknowledged Alarms and the Alarm History Log 49 DIAT SL SR T cr M 51 Setting Up the DigitalInputs 2 ierat tao e nn Ea ie Dexia Ee OE 52 Setting Up the Digital Inputs in Normal Mode ccccceeseeeeeeeeeeeeeeeeeeeeeesaaees 53 Setting Up the Digital Inputs in Demand Sync Mode seeeesss 54 BIarrovieohtgec Pm 55 Setting Up the Digital OUIDUL x cauto iin
13. Level 2 menu items Some Level 2 items have Level 3 items The navigation buttons work consistently across all menu levels Press gt to scroll through all menu items on a level Figure 3 4 Menu Tree Level 1 Level 2 VL L U VL N V Power PQS Phase Dmd Wd Pd VARd Qd VAd Sd Active P Reac Q Appr S Energy E Wh VAh VARh Amps I 2011 2012 Schneider Electric All Rights Reserved Amps I Volts U V V L L U Amps I VL L U VL N V VL L U VL N V Power PQS PF F Hz THD Unbal Amps I VL L U VL N V Reac Q Amps I VL L U VL N V Active P Appr S Amps I VL L U VL N V V L N V Count Unack Global Single Meter Comm Alarm Disp Region Pass 1 Sec Unary Dig Basic Advan Dmd Info Meter CI Pwr PowerLogic Power Meter PM5350 63230 401 203A3 Setting Up the Power Meter 09 2012 Setting Up the Power Meter The power meter ships with many default values already set up To change values navigate to the appropriate screen and enter new values Use the instructions in the following sections to change values New values are automatically saved when you exit the screen and accept the confirmation request Power Meter Basic Setup To begin power meter basic setup 1 Scroll to Maint in the menu list 2 Press Maint 3 Press Setup 4 Enter your setup password
14. P takes you back to the first digit Press to increment and to decrement the active digit through the numerals 0 9 the letters A Z the or any other possible selections To change a numerical value Press lt to enter the selected value for the active digit and move to the next digit to the left At the maximum number of digits the takes you back to the first digit Press to increment the active digit through the numerals 0 9 and and To select a value from a list Press to scroll up and to scroll down through the list of available selections Press OK to enter the selected value Icons The icons flash to indicate the power meter LCD is operational Wrench lcon The power meter requires maintenance Heartbeat Icon The power meter LCD is operational Alarm Icon See About Alarms on page 39 and Alarm Priorities on page 41 LEDs There are two LEDs on the power meter display the energy alarm LED and the heartbeat comms LED Energy Alarm LED Configure the energy alarm LED in the following three ways Energy Indicator Flashes at a rate proportional to the amount of energy consumed allows the accuracy of the power meter to be verified e Alarm Flashes as long as there are any active high priority alarms The LED blinks until the alarm is acknowledged Off Default NOTE See Setting Up the Energy Alarm LED on page 60 for more information Heartbeat
15. Schneider PowerLogic PM5350 Electric 3 Press OK to select the Multi Circuit option Multi Circuit Power Syster MULTI 2CET LL UT Connect Setting Up the Power System To set up the power system for multi circuit mode 1 Press to select Power System then Press Edit 2 Press and to scroll through Schneider PowerLogic PM5350 Electric the list of supported power Basic Setup system configurations Mii ndis Circuit Mode 3 Press OK to select the power i system configuration to be Multi Circuit metered Power Syster MULTI SCET LH UT Connect Direct Con 80 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Basic Setup for Multi Circuit Mode Supported Power System Configurations The power meter supports additional power system configurations in multi circuit mode See Figure E 4 and Table E 1 for details Figure E 4 Power System Configurations for Multi Circuit Applications 3PHAW Wye Grounded 3PH4W Wye Resistance Grounded 3PH3W Wye Ungrounded 3PH3W Wye Resistance Grounded SPHAW Wye Gnd 3PHAW Wye Res Gnd 3PH3W Wye Ungnd 3PH3W Wye Res Gnd Table E 1 Power System Configurations for Multi Circuit Applications Power System Number CTs Voltage Connections Configuration of Wires Meter Terminal Meter Terminal Qty Qty Meter Terminal V1 V2 V3 MULTI 3CKT LN 11 12 13 VN to Ground I2 13 V1 V3 V2 V3 V3
16. THD Total Harmonic Distortion U Voltage line to line V Volts VT Voltage Transformer also known as PT Potential Transformer VAR Volt ampere reactive Vmax Maximum voltage Vmin Minimum voltage 96 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Index A alarm icon 42 LED 41 alarm LED Ts 39 alarms digital 41 setup icon 3 LED 39 list of standard over under 40 multi circuit 85 priorities 4 setup 42 digital 46 multi circuit 66 87 standard over under 43 unary standard over under 40 setup 43 unary 41 setup 45 viewing activity 48 viewing history multi circuit 89 B block interval demand method 32 C command interface 73 protected 74 unprotected TS comms LED 7 communications setup 20 CT setup 14 multi circuit 82 D demand predicted 35 setup 17 thermal 35 demand power calculation 32 demand readings 32 demand power calculation methods 32 peak demand 36 predicted demand 35 digital alarms setup 46 digital input 5 operating modes 5 setup 52 digital inputs receiving a synch pulse 34 digital output 55 behavior 55 control mode 55 setup 56 display menu overview 9 operating 5 setup 2l 22 E energy LED 7 energy readings 36 F firmware 2 fixed block 32 H heartbeat icon 5 heartbeat LED 7 HMI setup 21 icon 5 alarm 3 39 42 heartbeat 5 maintenance 3 64 incremental energy interval 36 input synchronized demand 34 inputs
17. The power meter characteristics below are specific to multi circuit mode See Power Meter Characteristics on page 29 for a list of all power meter characteristics Table E 2 Power Meter Characteristics in Multi Circuit Mode Energy Values Per Circuit Active energy Delivered 0 to 9 2 x 10 Wh Reactive energy Delivered Received 0 to 9 2 x 1018 VARh Apparent energy Delivered 0 to 9 2 x 10 VAh Demand Values Current Average Per circuit Active reactive apparent power Total Per circuit Maximum Demand Values Total Maximum active power T Per circuit Total Maximum reactive power _ Per circuit Maximum apparent power Total pp p Per circuit Table E 3 Demand Readings Demand Current Average or Per Circuit Last Complete Interval Present Incomplete Interval Predicted Peak Demand Real Power 39 Total or Per Circuit Last Complete Interval Present Incomplete Interval Predicted Peak Demand Reactive Power 39 Total or Per Circuit Last Complete Interval Present Incomplete Interval Predicted Peak Demand Apparent Power 39 Total or Per Circuit Last Complete Interval Present Incomplete Interval Predicted Peak 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Multi Circuit Alarms Multi Circuit Alarms The power meter has nine multi circuit alarms These alarms are only available when Multi Circuit mode is selected Alarm
18. The power meter maintains a counter for each alarm to keep track of the total number of occurrences see Figure 5 1 Figure 5 1 Alarm Counters Schneider PowerLogic PM5350 Alarm Counters k ver Current Ph Under Current Ph Over Current H Over Current Gnd uer Uoltage L L Under Uoltaae L L FL JAN UD If you make changes to the basic power meter setup all alarms are disabled to prevent undesired alarm operation Confirm alarm configuration and enable required alarms NOTE Only alarms that apply to the selected power system configuration can be enabled The available alarms for this power meter are described in the following sections 2011 2012 Schneider Electric All Rights Reserved 39 PowerLogic Power Meter PM5350 63230 401 203A3 About Alarms 09 2012 1 Second Alarms The power meter has 29 standard 1 second over under alarms See Table 5 1 for a complete list Use the display to configure 1 second alarms with the following values Enable disable default or enable e Pickup Setpoint magnitude Pickup Time Delay in seconds Dropout Setpoint magnitude Dropout Time Delay in seconds Table 5 1 List of Standard 1 Second Over Under Alarms Number Label 01 Over Current Phase 02 UnderCurent Phase 03 Over Current Neutral 0 OverCument Ground 05 OveVolage tl 06 Under Voltage LL O0 Over Voltage LN 08 Under VoliageLN
19. accepting pulse from another meter 34 multi circuit L LED 7 41 alarm ds 39 60 comms T 63 energy p 60 heartbeat Y 63 multi circuit 92 M maintenance icon 95 64 memory power meter memory 61 menu 9 79 metered values demand readings 32 energy readings real time readings min max power factor conventions 3 real time readings 30 multi circuit alarm activity 89 alarms 85 event types 89 phase setup 86 87 value 2011 2012 Schneider Electric All Rights Reserved PowerLogic Power Meter PM5350 Index characteristics 84 command interface 90 CT options 82 demand readings 84 LED 92 menu 79 metering 84 outputs 92 overview 7 power systems 80 quick read block 90 setup 77 tripped status 9 voltage connection 82 P password default 10 recovery 6l peak demand calculation 36 power analysis values 37 power factor 3 71 min max conventions 3 register format 71 power meter accessories advanced setup 16 basic setup 10 box contents 2 characteristics 29 multi circuit 84 clock setup 24 comms setup demand setup 17 firmware hardware 1 HMI setup 21 memory 61 reset 25 specifications 65 predicted demand calculation 35 R readings demand 32 real time readings 29 min max values 30 reset global 26 of peak demand values 36 single 27 rolling block 33 RS 485 30 S semaphore 74 setup alarms 48 circuit mode 80 communications cT 14 82 97 PowerLogic Power Meter PM
20. all alarm selections and return to the previous screen Press A to save all 1 second alarm selections 63230 401 203A3 09 2012 Schneider PowerLogic PM5350 yer Current Ph a Priority Hiah uM ver Current Ph Select Dia Output Digital Output DO1 NOTE The Over Demand alarms are applicable for systems in which the energy is delivered to the customer only 44 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Setting Up Unary Alarms To set up unary alarms 1 14 Press Unary The unary alarm Select screen appears Press V and A to scroll through the list of unary alarms Press Edit to select an alarm to be configured Press Edit to select Enable Press and to scroll between Yes and No Press OK to enable or disable the alarm Press V to select Priority Press and to scroll through priority options Low None High or Medium NOTE See Alarm Priorities on page 41 for more information Press OK to set the priority Press W to select Select Digital Output then press Edit NOTE The digital output behavior mode must be Timed or Coil Hold to turn on when a unary alarm event occurs Press and to scroll through the list of digital outputs to associate with the alarm Press OK to select a digital output to be associated with the selected alarm If the selected digital output already has an assoc
21. display if the heartbeat LED flashes but the display is blank the display may not be functioning properly or may have timed out see Setting Up the Display continued on page 22 If the display is blank and the LED is not lit verify that control power is connected to the power meter O 2011 2012 Schneider Electric All Rights Reserved 63 PowerLogic Power Meter PM5350 63230 401 203A3 Getting Technical Support 09 2012 Table 7 1 Troubleshooting Potential Problem Possible Cause Possible Solution Go to Maint gt Diag Event messages display to indicate the reason the icon is illuminated Note these event messages and call Technical Support or contact your local sales representative for assistance When the maintenance wrench icon is illuminated it indicates an event has occurred which may require attention The maintenance wrench icon is illuminated on the power meter display The display is blank after The power meter may not be Verify that the power meter line and terminals receivina the necessa ower are receiving the necessary power appiying Control powere i 2m Verify that the heartbeat LED is blinking the power meter The display may have timed out Press a button to see if the display timed out Check that the correct values have been entered for power meter setup parameters Incorrect setup values CT and VT ratings Nominal Frequency and so on See Setting Up the Power Meter on page 10 for s
22. do not appear in the unacknowledged alarms list Multi Circuit Event Types The Event parameter is Pickup or Dropout except for multi level alarms Table E 5 Events by Alarm Type Alarm Type Multi Level Ckt 1 Multi Level Ckt 2 Multi Level Ckt 3 KW Demand Ckt 1 KW Demand Ckt 2 KW Demand Ckt 3 2011 2012 Schneider Electric All Rights Reserved Event HH Pickup HH Dropout H Pickup H Dropout L Pickup L Dropout LL Pickup LL Dropout Tripped NOTE Other multi level alarm types are suppressed when the event type is Tripped Pickup Dropout Pickup Dropout 89 PowerLogic Power Meter PM5350 63230 401 203A3 Multi Circuit Alarms 09 2012 Multi Circuit Alarm on Phase The Phase parameter shows the phase on which the alarm event occurred Table E 6 Multi Circuit Alarm on Phase by Power System Type MULTI 1CKT WYE A B C Any or all AB NENNEN NENNEN AS A B C Any or all A B C Any or all Multi Circuit Alarm Values The Value field shows the alarm trigger point For multi level alarms the value is in amps For KW and KW Demand alarms it is the pickup or dropout value Command Interface with Multi Level Alarms See Command Interface on page 73 for information on using the command interface The command number and parameters for Multi Level Alarm Setup are available in the register list For information on accessing the register list see Register List on page 6
23. have occurred F The Data register displays the executed parameters of a successful command and the invalid parameters based on data type of an unsuccessful command O Ww nm O There are two command interfaces protected and unprotected described in the following sections O 2011 2012 Schneider Electric All Rights Reserved 73 PowerLogic Power Meter PM5350 Using the Protected Command Interface 63230 401 203A3 09 2012 Using the Protected Command Interface 74 To issue a meter command using the protected command interface you must have a command semaphore To get a semaphore read the semaphore Modbus register see the Command Interface section of the online Register List on page 64 The power meter will return a 0 or a nonzero number e fOisreturned someone else owns the semaphore You must wait for the semaphore to be available before sending a command e fanonzero number is returned you now own the semaphore The semaphore is provided once until it is released or has been inactive for approximately 4 minutes Once you have the semaphore subsequent reads of the semaphore register will return 0 until you release the semaphore or it times out To send a meter command using the protected command interface 1 Read the semaphore register and record the meter response This is your semaphore 2 Build the packet to be written to the command block 3 Write the packet as a Modbus block write enter
24. kHeter Initialization Energies Demands Pina Alarm Counts amp Logs IO Counts amp Timers 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Single Resets PowerLogic Power Meter PM5350 Reset the Power Meter Single resets allow you to reset specific items individually Use the single reset option to reset he following values 2011 2012 Schneider Electric All Rights Reserved Energy Demand Alarms Digital Inputs Digital Outputs Load Operation Timer reset a value for the selected item Press V to select Single Resets then press Select Press V and A to scroll to the item you want to reset ini Enerau PowerLogic PM5350 single Resets Press Select NOTE If you selected energy or demand a password is required Enter the reset password for the selected item Demand Alarms Digital Inputs Digital Outputs Active Load Timer In the item Reset screen press V and A to select the specific value you wish to reset NOTE The example displays a demand reset with Demand selected for reset Press Reset to reset the selected value a Reset Energy A confirmation screen appears Press Yes to reset the Accumulated selected value Press No to return to the previous screen 27 PowerLogic Power Meter PM5350 Reset the Power Meter 28 63230 401 203A3 09 2012 2011 2012 Schneider Electric All Rights Reserved 63
25. rate communication speed 9600 19200 38400 baud Digital Outputs Digital Outputs Modes External Alarm Demand Sync 2 Electromechanical relays Digital Inputs Digital Inputs Modes Normal Demand Sync 4 digital inputs Min Max Values for Real Time Readings When any one second real time reading reaches its highest or lowest value the power meter saves the values in its nonvolatile memory These values are called the minimum and maximum min max values From the power meter display you can View all min max values since the last reset and the reset date and time See Table 4 1 for a list of the minimum and maximum values stored in the power meter Reset min max values See Reset the Power Meter on page 25 All running min max values are arithmetic minimum and maximum values For example the minimum phase A B voltage is the lowest value in the range 0 to 1200 kV that has occurred since the min max values were last reset 30 O 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Power Factor Min Max Conventions PowerLogic Power Meter PM5350 Min Max Values for Real Time Readings The four quadrant encoded floating point register values of power factor PF values falls between the minimum and maximum values on a continuous scale for all real time readings 2 PF 2 The minimum value represents the measurement closest to 2 and the maximum value is the measurement closest to 2 on
26. selection a confirmation screen appears Press Yes to accept the changes and return to the previous screen Press No to keep the existing configuration in use and return to the previous screen 23 Press A to save all alarm selections and return to the previous screen 24 Press A to save all digital alarm selections 2011 2012 Schneider Electric All Rights Reserved PowerLogic Power Meter PM5350 Alarm Setup Schneider PowerLogic PM5350 Cisia tarn C E Enable Ha Frioritu Hone Select Dia Output A7 PowerLogic Power Meter PM5350 Viewing Alarm Activity and History 63230 401 203A3 09 2012 Viewing Alarm Activity and History The active alarm list holds 40 entries at a time The list works as a circular buffer replacing old entries as new entries over 40 are entered into the alarm event queue The information in the alarm event queue is volatile and reinitializes when the power meter resets The alarm history log holds 40 entries The log also works as a circular buffer replacing old entries with new entries This information is nonvolatile The Detail menu displays the following information for active and historical alarms Alarm name Date and time of the event Event pickup or dropout Phase phase the event occurred on based on power system type Value alarm trigger point Viewing Active Alarms and Alarm Counters To view active alarms or alarm counters 1 48
27. setpoint and time delay were satisfied and the maximum value reached Max2 during the alarm period The power meter has four unary alarms These alarms alert you when the meter powers on after a control power loss when the meter resets for any reason when the meter self diagnostic feature detects a problem or when the meter detects a phase rotation different than expected The power meter has four digital alarms for alarming on digital input status By default the digital alarms are active when the associated digital input is on The pickup and dropout time delays are configured in seconds Multi circuit alarms are only available for setup when Multi Circuit circuit mode is selected See Appendix E on page 77 for information on multi circuit alarms Each alarm has a priority level Use priorities to distinguish between events that require immediate action and those that do not require action See Setting Up the Energy Alarm LED on page 60 for information on configuring the alarm LED for alarm mode O 2011 2012 Schneider Electric All Rights Reserved 41 PowerLogic Power Meter PM5350 Alarm Setup 63230 401 203A3 09 2012 High priority if a high priority alarm occurs the display informs you in two ways the alarm LED on the display flashes until you acknowledge the alarm and the alarm icon blinks while the alarm is active An alarm message is displayed while the alarm is active See Viewing Unacknowledged Alarms and the
28. supported power system configurations in Multi Circuit circuit mode See Appendix E on page 7 7 for information on multi circuit power system configurations Figure 3 5 Single Phase Power System Configurations E 1PH2W LN 1PH2W LL 1PH3W LL with N Table 3 2 Single Phase ower stem Conriguration Single Phase Wiring IPHOW LN L3 LAIT fe wm Ja 1 For 1 CT systems you must configure the power meter for the phase on which the CT is installed 2011 2012 Schneider Electric All Rights Reserved 11 PowerLogic Power Meter PM5350 63230 401 203A3 Power Meter Basic Setup 09 2012 Figure 3 6 Three Phase Power System Configurations Qc ow 3PH3W Delta Corner Grounded 3PH3W Delta Ungrounded 3PH3W Wye Ungrounded 3PH3W Wye Resistance Grounded 3PH3W Dit Crnr Gnd 3PH3W DIt Ungnd 3PH3W Wye Ungnd 3PH3W Wye Res Gnd N cy x NC 3PH4W Open Delta Center Tapped 3PHAW Delta Center Tapped 3PH4W Wye Grounded 3PH4W Wye Resistance Grounded 3PH4W Opn Dit Ctr Tp SPHAW Dit Ctr Tp SPHAW Wye Gnd 3PH4W Wye Res Gnd Table 3 3 Three Phase Direct Connect P Svetem Confinuraton Number of e Voltage Connections ower System Configurati Meter Terminal Meter Terminal 3PH3W DIt Crnr Gnd I4 I3 L9 V1 V2 V3 3PH3WDIt Ungnd 3PH3W Wye Ungnd I1 12 13 B V1 V2 V3 Delta 3PH3W Wye Res Gnd 3PH3W DIt Crnr Gnd 3PH3WDIt Ungnd Delta 3PH3W Wye Ungnd 3 Vg vt Balanced 3PH3W Wye Res Gnd For 1 CT systems you must configure the po
29. the command number semaphore and parameters at the same time Table D 2 Protected Command Block Example Command Block Register 4 Monitor the meter response registers for validity and completion Table D 3 Protected Meter Response Example Meter Response Register Rak D 5 Write the semaphore back to the semaphore register to release it for another master to use 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Using the Unprotected Command Interface Using the Unprotected Command Interface The unprotected command interface allows you to issue a broadcast command to multiple meters at once The unprotected command interface ignores the semaphore register Although some applications require the unprotected command interface it is recommended that you use the protected command interface whenever possible To send a meter command using the unprotected command interface 1 Build the packet to be written to the command block 2 Write the packet as a Modbus block write enter the command number any number as the semaphore and the parameters at the same time Table D 4 Unprotected Command Block Example Command Block Register Sman 3 Monitor the meter response registers for validity and completion Table D 5 Unprotected Meter Response Example Meter Response Register Rmk O 2011 2012 Schneider Electr
30. the scale NOTE See Appendix E Power Factor Register Format on page 71 for information on using register values to determine power factor values Figure 4 1 below shows two examples of min max values Note that the minimum power factor need not be leading and the maximum power factor need not be lagging In Example A the customer is metering a substation that provides power to the utility Energy Received The minimum register value is 1 67 and the maximum is 0 9 with power factor values ranging from 0 33 leading to 0 9 lagging respectively In Example B the customer is being supplied power by the utility Energy Delivered The minimum register value is 0 8 and the maximum is 1 134 with power factor values ranging from 0 8 lagging to 0 866 leading respectively Figure 4 1 Min Max Examples Example A Example B Max PF 0 9 0 Min PF 0 8 Energy Received Energy Received Energy Delivered Energy Delivered Lagging PF Lagging PF 0 8 0 9 1 Unity E Unity Energy 1 lt itty energy Received 1434 RangeofPF Delivered Values for Range of PF Example B i Values for Example A f ve Max PF 0 866 4 Energy Delivered Leading PF 2 2 Min PF 0 33 Minimum Maximum Energy Received Leading PF 2011 2012 Schneider Electric All Rights Reserved 31 PowerLogic Power Meter PM5350 Demand Readings Demand Readings 63230 401 203A3 09 2012 The power meter provides a
31. to Ground 11 12 V2 to Ground V1 V2 V3 MULTI 1CKT WYE 11 12 I3 VN io Ground 1 Refer to the wiring diagrams in the PM5350 Multi Circuit Installation Guide part number 63230 401 205 Es m VA V3 Jl ES V3 V2 V1 V2 ES O 2011 2012 Schneider Electric All Rights Reserved 81 PowerLogic Power Meter PM5350 63230 401 203A3 Basic Setup for Multi Circuit Mode 09 2012 Setting Up Voltage Connection and CT Options The options available for voltage connections VT Connect and the number of CTs that can be selected CT on Terminal depend on the power system selected in Setting Up the Power System on page 80 To set up voltage connections and CTs in Multi Circuit mode 1 Press V to select VT Connect then press Edit 2 Press and to scroll through the Schneider PowerLogic PM5350 VT Connect options Basic Setup 3 Press OK to select the VT Circuit Mode Connect If you choose Direct Con nee skip to step 10 Multi Circuit 4 Press V to select VT Primary V Power Syster then press Edit MULTI SCET LH 5 Press and to scroll through the FUT Connect options Direct Con 6 Press OK to select VT Primary V 7 Press V to select VT Secondary V then press Edit 8 Press and to scroll through the options 9 Press OK to select VT Secondary V 10 Press V to select CT on Terminal then press Edit 11 Press and to scroll through the terminal options NOTE Options are
32. variety of demand readings Table 4 2 lists the available demand readings and their reportable ranges Table 4 2 Demand Readings Demand Readings Demand Current Average Last Complete Interval Present Incomplete Interval Predicted Peak Last Complete Interval Present Incomplete Interval Predicted Peak Demand Reactive Power 39 Total Last Complete Interval Present Incomplete Interval Predicted Peak Last Complete Interval Present Incomplete Interval Predicted Peak Demand Calculation Methods 32 Demand power is the energy accumulated during a specified period divided by the length of that period How the power meter performs this calculation depends on the method you select To be compatible with electric utility billing practices the power meter provides the following types of demand power calculations e Block Interval Demand e Synchronized Demand e Thermal Demand The default demand calculation is set to a fixed block with a 15 minute interval Block Interval Demand In the block interval demand method you select a block of time that the power meter uses for the demand calculation You choose how the power meter handles that block of time interval Three different modes are possible Sliding Block Select an interval from 1 to 60 minutes in 1 minute increments For demand intervals less than 15 minutes the value is updated every 15 seconds For demand intervals 15 minutes and greater the d
33. visual inspections tests or maintenance on this equipment disconnect all sources of electric power Assume that all circuits are live until they have been completely de energized tested and tagged Pay particular attention to the design of the power system Consider all sources of power including the possibility of backfeeding Turn off all power supplying the power meter and the equipment in which it is installed before working on it Always use a properly rated voltage sensing device to confirm that all power is off Before closing all covers and doors carefully inspect the work area for tools and objects that may have been left inside the equipment Use caution while removing or installing panels so that they do not extend into the energized bus avoid handling the panels which could cause personal injury The successful operation of this equipment depends upon proper handling installation and operation Neglecting fundamental installation requirements may lead to personal injury as well as damage to electrical equipment or other property NEVER bypass external fusing NEVER short the secondary of a PT or VT NEVER open circuit a CT use the shorting block to short circuit the leads of the CT before removing the connection from the power meter Before performing Dielectric Hi Pot or Megger testing on any equipment in which the power meter is installed disconnect all input and output wires to the power meter High voltage t
34. 00 3 3 As per IEC 61557 12 IEC 61326 1 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Power Meter Specifications Table A 1 Specifications continued Safety Europe CE as per IEC 61010 1 2nd Editiion cULus as per CAN CSA C22 2 NO 61010 1 ISA 82 02 01 IEC 61010 1 MOD UL 61010 1 U S and Canada Measurement Category Per IEC 61010 1 CAT Ill 277 V L N 480 V L L nominal CAT Il 400 V L N 690 V L L nominal Voltage Inputs Per UL 61010 1 and CSA C22 2 NO 61010 1 CAT Ill 300 V L L Current Inputs Require external Current Transformer for Insulation sensor connected CAT Ill As per IEC 61010 1 Double insulated front panel display Overvoltage Category Control Power Dielectric Withstand Protective Class Communications 2 wire 9600 19200 or 38400 baud Parity Even Odd None 1 stop bit if parity Odd or Even 2 stop bits if None Modbus RTU RS 485 Port Modbus ASCII 7 or 8 bit JBUS Update via the communication port using DLF3000 software 2 5 kVrms Firmware and Language File Update Isolation Human Machine Interface Monochrome Graphics LCD Display Backlight White LED Viewable Area w x h 67 x 62 5 mm Heartbeat Comm Green LED Activity Indicator Energy Pulse Output Active Alarm Indicator configurable Optical amber LED 590 to 635 nm 2 5 kHz Type Wavelength Maximum Pulse R
35. 10 Continue until all values are selected then press OK to enter the selected number for On Time s 11 Press A to save all external mode output selections NOTE A confirmation screen appears Press Yes to proceed or No to go back to the previous screen 12 Press to save all digital output selections 2011 2012 Schneider Electric All Rights Reserved Schneider PowerLogic PM5350 Electric Digital Output Do uU Label Digital Output bel kControl Mode External Behavior Mode Tired his Digital Output has an existing association witht Do gou warnt Te break the existing association 57 PowerLogic Power Meter PM5350 Digital Outputs 58 63230 401 203A3 09 2012 Setting Up the Digital Output in Alarm Mode 1 Press V to select Control Mode then press Edit 2 Press and to scroll through the list of control mode options 3 Press OK to select Alarm NOTE If the selected digital output is in Demand Sync mode and has a demand system association a confirmation screen appears warning that previous associations will be lost Press Yes to proceed or No to go back to the previous screen 4 Press V to select Behavior Mode then press Edit 5 Press and to select a behavior mode 6 Press OK to select a behavior mode 7 Press V to select On Time s then press Edit 8 Press to increment the active digit through the numerals 0 9 9 Press l
36. 2 Sconces PowerLogic PM5350 kFawer Demand Current Demand a Power Demand 4 Method Tined Sliding Block Interval ming 15 Select Dia Output Hane currentDemand Method Thermal Interval ming 15 Select Dia Output Hane 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Setting Up Power and Current Demand continued 13 Press V to select Select Dig Output then press Edit 14 Press and to scroll through the digital outputs 15 Press OK to select the digital output to be associated with the demand system 16 Press A to return to the previous screen NOTE If existing associations will be lost by making the new selection a confirmation screen appears Press Yes to accept the changes and return to the previous screen Press No to keep the existing configuration and return to the previous screen Select the Digital Input PowerLogic Power Meter PM5350 Power Meter Demand Setup Schneider PowerLogic PM5350 Poser Demand Select Dig Output Digital Output DO1 If you select Input Sync Block or Input Sync Rolling Block as the demand method select the digital input to be associated with the demand system When the digital input is energized the demand interval will trigger For a valid demand interval the digital input must be energized within 5 seconds of the set interval To select the digital input 1 Press V
37. 2 Bp cL 92 TOUN A NUR UR PTUS 93 VAN KW d Ako E LT m 95 M ees 97 2011 2012 Schneider Electric All Rights Reserved lii PowerLogic Power Meter PM5350 63230 401 203A3 Table of Contents 09 2012 iv 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Chapter 1 Introduction Chapter 1 Introduction Power Meter Hardware Figure 1 1 below shows the parts of the power meter Table 1 1 describes the parts Figure 1 1 Parts of the power meter rear panel door removed B C Table 1 1 Parts of the Power Meter Number Part Description A Retainer clips Used to secure the power meter in place B onto Dower Supply Connection for control power to the power meter connector C Voltage inputs Voltage metering connections D Used for communications with a monitoring and control system can be daisy chained to multiple devices A A Qo O1 Le m Q O Digital inputs DI1 DI4 connections whetting voltage supplied by power meter G Current inputs Current metering connections Digital outputs Digital outputs DO1 and DO2 connections 2011 2012 Schneider Electric All Rights Reserved 1 PowerLogic Power Meter PM5350 63230 401 203A3 Chapter 1 Introduction 09 2012 Power Meter Parts and Accessories Table 1 2 Power Meter Models Description Model Number Power M
38. 230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Power Meter Characteristics Chapter 4 Metering Power Meter Characteristics The power meter measures currents and voltages and reports in real time the rms values for all three phases and neutral In addition the power meter calculates power factor real power reactive power and more The PM5350 is not for use on Direct Current DC circuits The power meter will incorrectly read O volts Table 4 1 lists metering characteristics of the power meter Table 4 1 Power Meter Characteristics Instantaneous rms Values Current Per phase neutral or ground average of 3 phases Average of 3 phases L L and L N 45 to 70 Hz Total and per phase signed Frequency Reactive power Total and per phase signed Total and per phase True Power Factor Total and per phase 0 000 to 1 signed four quadrant 3EIFJEJE S92 9 amp ocQiolsx io a 2 9 5 9 D 21016 Dd T S 21218 o Displacement Power Factor Total and per phase 0 000 to 1 signed four quadrant Energy Values Delivered Received Del Rec Del Rec 0 to 9 2 x 1018 Wh Reactive energy 0 to 9 2 x 1018 VARh Apparent energy 0 to 9 2 x 1018 VAh Demand Values 2 O on lt o o 2 pa Q lt Current Average Active reactive apparent power Total Maximum Demand Values Maximum current Average Total Total Total Maximum active power Maximum reactive power Maximum apparent power Pow
39. 4 Quick Read Block for Modbus Reads The Quick Read block is a block of registers mirrored from the standard register map that allows basic meter values to be gathered with a single Modbus block read This information can be found in the Application Specific Registers gt Meter Data Quick Read category of the register list For information on accessing the register list see Register List on page 64 90 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Input Output Capabilities Input Output Capabilities Monitoring for Tripped Status with a Digital Input WARNING UNINTENDED EQUIPMENT OPERATION Do not use this device for critical control or protection applications where human or equipment safety relies on the operation of the control action Do not rely solely on device data to determine if your power system is functioning correctly or meeting all applicable standards and compliances Do not use device control for time critical functions because delays can occur between the time a control action is initiated and when that action is applied Do not use digital inputs for voltage sensing applications over 36 Vdc Failure to follow these instructions can result in death serious injury or equipment damage You can monitor the tripped status of a circuit breaker with a multi level alarm by wiring the circuit breaker auxiliary contact to a digital input
40. 4 for information on changing passwords Press Meter 6 Press Dmd Use the directions in the following sections to set up power meter demand values 2011 2012 Schneider Electric All Rights Reserved 17 PowerLogic Power Meter PM5350 Power Meter Demand Setup Setting Up Power and Current Demand 18 To set up the power or current demand 1 Press V and A to scroll between Power and Current Demand Press Edit to select a demand Press Edit to select Method Press and to scroll through a list of supported demand methods 5 Press OK to select the demand method NOTE If you select Input Sync Block or Rolling Block see Select the Digital Input on page 19 6 Press V to select Interval then press Edit T Press to increment the active digit through the numerals 0 9 8 Press to enter the selected number for the active digit and move to the next digit to the left 9 Continue until all values are selected then press OK to enter the interval 10 If you selected a Rolling Block method Timed Input Sync Cmd Sync press V to select Subinterval then press Edit Otherwise proceed to Step 13 11 Press to increment the active digit through the numerals 0 9 NOTE The subinterval duration must be evenly divisible into the demand interval duration 12 Continue until all values are selected then press OK to enter the subinterval 63230 401 203A3 09 201
41. 5 ORI c cT saree ella te ae Dy ae oh oe ea 77 Monitoring Circuits with Multi Level Alarms ccccccccssseeeeeseseeeeeseeeeeeecaeeeeeeseaeeees 17 Multi Circuit Menu Overvi W coe tu eao e e doia de rat e ces Beck 79 Basic Setup for Multi Circuit Mode VV 80 Setting Up the Power Systems Meee esee eere esee tace ets eee cen ek 80 Supported Power System Configurations ccccccseeceeeceeeeeeeseeeeeeeeeaeeeeeessaeees 81 Setting Up Voltage Connection and CT Options cee cceeccceceeceeceeeeeeeeeeeseeeeeeanes 82 Metering A Re PONO HO Rc SE EMEN 84 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Glossary PowerLogic Power Meter PM5350 Table of Contents MUli GIOI FAAS vs eis Get anna taa tah Seale e bu n d PX ma eate a Cu tad a rule a o bud dd 85 Setting Up Multi Circuit Alarms ss 86 Viewing Multi Circuit Alarm Activity and History ssseeeseeeeenee 89 Multi Circuit Event Types ss 89 Multi Circuit Alarm on PB too aede iei oe cr eed eee nt sue 90 Multi Circuit Alarm Values orietur oe em oo e eo etu ar 90 Command Interface with Multi Level Alarms ccccccccccceeececeeeeeeeeeeeeeeeeeesaeeeeeeees 90 Quick Read Block for Modbus Reads 90 MOUV Output abpabililiGS i354 usi et r Me 91 Monitoring for Tripped Status with a Digital Input eeeeseeeseeeeeeeeses 91 Digital Outputs in Multi Circuit Mode Vs 9
42. 5350 63230 401 203A3 Index 09 2012 multi circuit 82 demand 17 digital input 52 digital output 56 display 21 22 load timer setpoint 16 passwords peak current demand 17 power system 10 multi circuit 80 regional settings 23 voltage connection 14 multi circuit sliding block 32 standard over under alarms setup 42 synchronized demand input 34 T TDD 37 technical support 64 THD 37 thd 37 thermal demand method 35 troubleshooting 63 U unary alarms setup 45 W wiring troubleshooting 64 98 O 2011 2012 Schneider Electric All Rights Reserved PowerLogic Power Meter PM5350 User Guide PowerLogic is a trademark of Schneider Electric Other trademarks are the property of their Schneider Electric respective owners 35 rue Joseph Monier 63230 401 203A3 09 2012 Replaces 63230 401 203A2 11 2011 92500 Rueil Malmaison France www schneider electric com 2011 2012 Schneider Electric All Rights Reserved
43. 7 for Dropout Time Delay Press V to select Enable then press Edit Press and to scroll between Yes and No Press OK to enable or disable the alarm 2011 2012 Schneider Electric All Rights Reserved PowerLogic Power Meter PM5350 Alarm Setup Schneider PowerLogic PM5350 Electric Over Current Ph Under Current Ph Over Current H Over Current Gnd Over Voltage L L Under Voltage L L a Over Current Ph aM Pickup Setpoint 4 Pickup Time Delay cz 1 Dropout Setpoint 43 PowerLogic Power Meter PM5350 Alarm Setup Setting Up 1 Second Alarms continued 17 18 19 20 21 22 23 24 25 Press V to select Priority then press Edit Press and to scroll through priority options None High Medium or Low NOTE See Alarm Priorities on page 41 for more information Press OK to set the priority Press V to select Select Digital Output then press Edit Press and to scroll through the list of digital outputs to associate with the alarm Press OK to select a digital output to be associated with the selected alarm If the selected digital output already has an association that will be lost by making the new selection a confirmation screen appears Press Yes to accept the changes and return to the previous screen Press No to keep the existing configuration in use and return to the previous screen Press A to save
44. Alarm History Log on page 49 for information on acknowledging alarms Medium priority if a medium priority alarm occurs the alarm LED and the alarm icon blink only while the alarm is active An alarm message is displayed while the alarm is active Low priority if a low priority alarm occurs the alarm LED and the alarm icon blink only while the alarm is active No alarm message is displayed No priority if an alarm is set up with no priority no visible representation appears on the display Alarms with no priority are not entered in the alarm Log If multiple alarms with different priorities are active at the same time the display shows the alarms in the order they occurred See Setting Up Alarms on page 20 for instructions on setting up alarms from the power meter display When a pickup event occurs the active alarm list appears Press Detail to see more event information See Alarm Setup on page 42 for more information Using an Alarm to Control a Relay Output Alarm Setup 42 Relays can be configured as external demand sync and alarm See the Setting Up Alarms sections in this chapter and Setting Up the Digital Output on page 56 Evaluation of all alarms is temporarily suspended while alarm setup screens are displayed Evaluation resumes immediately upon exit from alarm setup screens To set up standard alarms 1 Scroll to Maint in the menu list 2 Press Maint 3 Press Setup 4 Enter y
45. Comms LED The heartbeat comms LED flashes at a steady rate during normal operation and at a variable rate when communications is active NOTE See Heartbeat Comms LED on page 63 for more information When you complete setup for the selected feature press A to return to the previous screen If any setup changes are made a confirmation screen appears with the choice to 2011 2012 Schneider Electric All Rights Reserved 7 PowerLogic Power Meter PM5350 Operating the Display 63230 401 203A3 09 2012 save the changes or cancel Select Yes to save changes and return to the previous screen Select No to cancel the changes and return to the previous screen Figure 3 2 Confirmation screen Schneider PowerLogic PM5350 Confirmation m Save Changes If any setup parameters are invalid the Invalid Parameter s screen displays see Figure 3 3 Press A to return to the previous setup screen Figure 3 3 Invalid Parameter s screen Schneider PowerLogic PM5350 Invalid Parameter a Invalid Parametercz 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Menu Overview PowerLogic Power Meter PM5350 Menu Overview Menu items are displayed below the horizontal line at the bottom of the screen Figure 3 4 below shows the menu items of the power meter menu hierarchy in Normal circuit mode Selecting a Level 1 menu item takes you to the next screen level containing the
46. For pickup and dropout items High High PU High High DO High PU High DO High High PU 5 Low PU Low DO Low Low 168 PU Low Low DO press V High High DD to select the item then press Edit 9 Follow steps 5 to 7 to set pickup and drop out values NOTE Values up to 200 of the breaker rating are allowed 10 Press V and follow Steps 5 to 7 for Pickup Time Delay s 86 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Setting Up Multi Circuit Alarms continued 11 12 13 14 15 16 17 18 19 20 Press V to select Enable then press Edit Press and to scroll between Yes and No Press OK to enable or disable the alarm Press V to select Priority then press Edit Press and to scroll through priority options None Medium or Low NOTE Multi circuit alarms do not use the High priority level See Alarm Priorities on page 41 for more information Press V to select Select Dig Input then press Edit Press and to scroll through the list of digital inputs to associate with the alarm Press OK to select a digital input to be associated with the selected alarm Press V to select Select Dig Output then press Edit Follow steps 16 to 18 for Select Dig Output Press A to save all alarm selections and return to the previous screen 2011 2012 Schneider Electric All Rights Reserved Power
47. High DO lt High PU lt High High DO lt High High PU lt 200 Multi Circuit mode does not support high priority alarms 2011 2012 Schneider Electric All Rights Reserved 8 oO PowerLogic Power Meter PM5350 63230 401 203A3 Multi Circuit Alarms 09 2012 Setting Up Multi Circuit Alarms WARNING HAZARD OF UNDELIVERED NOTIFICATIONS Do not rely solely on the power meter for alarm notifications where human or equipment safety relies on successfully delivered notifications Failure to follow these instructions can result in death serious injury or equipment damage Follow the steps in Alarm Setup on page 42 to reach the alarm setup screen To set up multi circuit alarms 1 Press Multi The multi circuit alarm Select screen appears 2 Press V and A to scroll Schneider PowerLogic PM5350 through the list of multi circuit alarms 3 Press Edit to select an alarm to kHultibevelICkt 1 sj a ee For reeks MultiLewel I Ckt 2 alarms follow steps 4 to 21 For KW Demand and KW alarms skip Multilevel I Ckt 3 to step 21 Ell Demand Ckt 1 4 Press Edit to select Breaker EU Demand Ckt 2 Rating Ell Demand Ckt 3 5 Press to increment the active digit through the numerals 0 9 6 Press lt to enter the selected value for the active digit and move to the next digit to the left 7 Continue until all values are selected then press OK to enter Multilevel Oke 1 the breaker rating kBreaker Rating 8
48. Logic Power Meter PM5350 Multi Circuit Alarms Schneider PowerLogic PM5350 MuliLevell Ck ll kEnable Ha Priority Mone Select Dia Input 87 PowerLogic Power Meter PM5350 Multi Circuit Alarms Setting Up Multi Circuit Alarms continued 88 21 For KW Demand and KW alarms press Edit to select Pickup Setpoint 22 Press to increment the active digit through the numerals 0 9 23 Press to enter the selected value for the active digit and move to the next digit to the left 24 Continue until all values are selected then press OK to enter the pickup setpoint 25 Press V and follow Steps 22 to 24 for Pickup Time Delay s Dropout Setpoint and Dropout Time Delay 26 Press V and follow Steps 11 to 19 for Enable Priority Select Dig Output 27 Press A to save all alarm selections and return to the previous screen 63230 401 203A3 09 2012 Schneider Electric PowerLogic PM5350 lw Demand CEE 1 kFickup Setpoint B Pickup Time Delay tz E Dropout Setpoint 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 PowerLogic Power Meter PM5350 Viewing Multi Circuit Alarm Activity and History Multi Circuit Alarms The power meter displays any active alarm whether it is in Normal or Multi Circuit mode See Viewing Alarm Activity and History on page 48 for information on viewing active alarms alarm history and alarm counters Multi circuit alarms
49. PowerLogic Power Meter PM5350 User Guide 63230 401 203A3 09 2012 Schnpider Safety Information Important Information Please Note 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 an imminently hazardous situation which if not avoided will result in death or serious injury WARNING WARNING indicates a potentially hazardous situation which if not avoided can result in death or serious injury CAUTION CAUTION indicates a potentially hazardous situation which if not avoided can result in minor or moderate injury NOTICE NOTICE is used to address practices not related to physical injury The safety alert symbol shall not be used with this signal word Electrical equipment should be installed operated serviced and mai
50. T for 1A nominal CT when gt 0 15A 10 596 from 0 25A to 9A at COS 1 0 6 from 0 50A to 9A at COS 0 5 ind or cap IEC 62053 23 Class 2 IEC 61557 12 Class 2 For 5A nominal CT for 1A nominal CT when gt 0 15A Real Energy Measurement Accuracy Reactive Energy 2 0 from 0 25A to 9A at SINg 1 2 5 from 0 50A to 9A at SIN 0 25 ind or cap Frequency 0 05 Current Phase 0 30 Measurements taken from 45 Hz to 65 Hz 0 5A to 9A 57V to 347V and 0 5 ind to 0 5 cap power factor with a sinusoidal wave Measured Voltage with 20 to 690 Vac L L overrange and Crest Input Voltage Factor 700 Vac L L Permanent Overload 404 Vac L N Frequency Range 45 to 70 Hz CT Adjustable from 1A to 32767 A Ratings S 20 to 400 Vac L N 1A 5A Nominal Measured Current with overrange and Crest 5 mAto9A Factor Input Current Continuous 20A Withstand 10 sec hr 50A 1 sec hr 500A lt 0 024 VA at 9 A 85 to 265 Vac 4 1 VA 1 5 W typical 6 7 VA 2 7 W maximum at 120 Vac Burden 6 3 VA 2 0 W typical 8 6 VA 2 9 W maximum at 230 Vac AC Control Power 9 6 VA 3 5 W maximum at 265 Vac Ride Throuah Time 100 mS typical at 120 Vac and maximum burden g 400 mS typical at 230 Vac and maximum burden 2011 2012 Schneider Electric All Rights Reserved 65 PowerLogic Power Meter PM5350 Power Meter Specifications 66 63230 401 203A3 09 2012 Table A 1 Specifications continu
51. aint in the menu list 2 Press Maint 3 Press Reset The Resets screen appears Do gou warnt Te continue Meter values can be re initialized using the reset function Resets are grouped into global resets and single resets Use the directions in the following sections to set up power meter reset values 25 PowerLogic Power Meter PM5350 Reset the Power Meter Global Resets 26 63230 401 203A3 09 2012 Global resets include power meter reinitialization as well as resets of all values for the following items Energies e Demands e Min Max Values Alarm Logs and Counters O Counters and Timers To reinitialize the power meter Press Select to select Global Resets 2 Press Reset to select Meter Initialization 3 Enter the Energy Password then press OK 4 A confirmation screen appears Press Yes to reset the power meter Press No to return to the previous screen To reset all values for a selected item 1 Press Select to select Global Resets 2 Press V and A to scroll to the item you want to reset 3 Press Reset NOTE If you selected energies demands or min max a password is required Enter the reset password for the selected item 4 Press OK 5 A confirmation screen appears Press Yes to reset all values Press No to return to the previous screen Schneider PowerLogic PM5350 Global Resets
52. alculates and updates the demand at the end of each interval frequency number of cycles in one second GMT Greenwich Mean Time lagging current I current is lagging voltage up to 180 leading current I current is leading voltage up to 180 lagging power factor PF active and reactive power flowing in the same directions leading power factor PF active and reactive power flowing in opposite directions line to line voltages measurement of the rms line to line voltages of the circuit line to neutral voltages measurement of the rms line to neutral voltages of the circuit maximum value highest value recorded of the instantaneous quantity such as Phase A Current Phase A Voltage etc since the last reset of the minimums and maximums minimum value lowest value recorded of the instantaneous quantity such as Phase A Current Phase A Voltage etc since the last reset of the minimums and maximums multi circuit ability to meter multiple circuits with a single metering device nominal typical or average parity refers to binary numbers sent over the communications link An extra bit is added so that the number of ones in the binary number is either even or odd depending on your configuration Used to detect errors in the transmission of data O 2011 2012 Schneider Electric All Rights Reserved 93 PowerLogic Power Meter PM5350 Glossary Terms 94 63230 401 203A3 09 2012 partial interval dem
53. and equal to energy accumulated thus far in the interval divided by the length of the complete interval peak demand current highest demand current measured in amperes since the last reset of demand peak demand real power highest demand real power measured since the last reset of demand peak demand highest demand measured since the last reset of demand phase currents rms measurement in amperes of the rms current for each of the three phases of the circuit phase rotation refers to the order in which the instantaneous values of the voltages or currents of the system reach their maximum positive values Two phase rotations are possible A B C or A C B potential transformer PT also known as a voltage transformer VT power factor PF power factor is the degree to which voltage and current to a load are out of phase Total power factor is the difference between the total power your utility delivers and the portion of total power that does useful work True power factor is the ratio of real power to apparent power using the complete harmonic content of real and apparent power Calculated by dividing watts by volt amperes Displacement power factor is the cosine of the angle between the fundamental components of current and voltage which represents the time lag between fundamental voltage and current real power calculation of the real power 3 phase total and per phase real power calculated to obtain kilowatts r
54. assword is 0000 See Setting Up Passwords on page 24 for information on changing passwords 5 Press I O 6 Press D Out To set up the digital outputs 1 Press V and A to scroll through the list of digital outputs Schneider PowerLogic PM5350 2 Press Edit to select a digital ETE output M select 3 Proceed to the following Digital Output CO1 sections to configure the output Digital Qutput DOS in External Alarm or Demand Sync mode 56 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 PowerLogic Power Meter PM5350 Digital Outputs Setting Up the Digital Output in External Mode 1 Press V to select Control Mode then press Edit 2 Press and to scroll through the list of control mode options 3 Press OK to select External NOTE If the selected digital output is in Demand Sync or Alarm mode and has a demand system or alarm association a confirmation screen appears warning that previous associations will be lost Press Yes to proceed or No to go back to the previous screen 4 Press V to select Behavior Mode then press Edit 5 Press and to select a behavior mode 6 Press OK to select the behavior mode 7 Press to select On Time s then press Edit 8 Press to increment the active digit through the numerals 0 9 9 Press to enter the selected value for the active digit and move to the next digit to the left
55. at are connected by a communications cable O 2011 2012 Schneider Electric All Rights Reserved 69 PowerLogic Power Meter PM5350 63230 401 203A3 Daisy Chaining Devices to the Power Meter 09 2012 Figure B 1 Daisy chaining 2 wire devices Belden 9841 or equivalent MCT2W RS 485 Terminator 100 ohm 1 4 watt 1 resistor on the last device of the daisy chain Power Meter PM5350 or other PowerLogic 2 wire compatible devices Ifthe power meter is the last device on the daisy chain terminate it with the terminator provided e See Table B 1 for the maximum daisy chain communications distances for 2 wire devices The terminal s voltage and current ratings are compliant with the requirements of the EIA RS 485 communications standard 70 O 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Appendix C Power Factor Register Format Power Factor Register Format PowerLogic Power Meter PM5350 Power Factor Register Format Each power factor PF value occupies one floating point register The power meter display and ION software interpret the register format in all reporting or data entry fields according to the PQS Coordinate System Chart Figure C 1 The PQS Coordinate System Chart uses the power factor register value to provide information on leading or lagging power factor and current as well as energy delivered or received Power Factor PF The difference between the total power and
56. ate 2011 2012 Schneider Electric All Rights Reserved 67 PowerLogic Power Meter PM5350 Power Meter Specifications 68 63230 401 203A3 09 2012 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Communications Capabilities Appendix B Communications Wiring Communications Capabilities Table B 1 RS 485 Communications Distances Maximum Communication Distances Baud Rate 1 to 32 Devices 9600 8 000 2 438 19200 6 000 1 829 38400 2 500 NOTE Distances listed should be used as a guide only and cannot be guaranteed for non PowerLogic devices Refer to the master device s documentation for any additional distance limitations Daisy Chaining Devices to the Power Meter A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Do not attempt to service the power meter CT and PT or VT inputs may contain hazardous currents and voltages e Only authorized service personnel from the manufacturer should service the power meter e Shield conductors may be energized if not properly connected e Shield wire should be installed per the device s installation instructions and grounded at one end only Failure to follow these instructions will result in death or serious injury The RS 485 slave port allows the power meter to be connected in a daisy chain with up to 31 2 wire devices In this document communications link refers to a chain of devices th
57. based on the selected power system 12 Press OK to enter the terminals the CTs are on 13 Press V to select CT Primary A then press Edit 14 Press to increment the active digit through the numerals 0 9 15 Press lt to enter the selected value for the active digit and move to the next digit to the left 16 Continue until all values are selected then press OK to enter the CT Primary 82 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Basic Setup for Multi Circuit Mode Setting Up Voltage Connection and CT Options continued 17 Press V to select CT Secondary A then press Edit 18 Press and to scroll through a Schneider PowerLogic PM5350 list of CT Secondary options E Basic Setup NOTE CT Secondary options are 5A or 1A See Specifications on CT Secondary tA page 65 for accuracy level 19 Press OK to select the CT Sys Frequency Hz Secondary SA 20 Press A to return to the previous Phase Rotation screen NOTE If existing associations will be lost by making the new selection a confirmation screen appears Press Yes to accept the changes and return to the previous screen Press No to keep the existing configuration and return to the previous screen 2011 2012 Schneider Electric All Rights Reserved 83 PowerLogic Power Meter PM5350 Metering Metering 84 63230 401 203A3 09 2012
58. c All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Command Interface Appendix D Command Interface WARNING UNINTENDED EQUIPMENT OPERATION Do not use this device for critical control or protection applications where human or equipment safety relies on the operation of the control action Failure to follow these instructions can result in death serious injury or equipment damage Command Interface The command interface allows you to configure the power meter by sending specific commands using Modbus protocol Reference the online Modbus register list for meter commands results and data types For information on accessing the register list see Register List on page 64 Table D 1 Command Interface A In the Command register enter a meter command B In the Semaphore register when using the protected command interface enter the semaphore you are given see Using the Protected Command Interface on page 74 The semaphore register is not used with the unprotected command interface see Using the Unprotected Command Interface on page 75 C In the Parameters register enter all parameters for a meter command D The Status register displays 0 when the power meter receives a command Once the command is completed the status register displays the same value as the command register E The Result register indicates if the command was successful and if not what error may
59. d For 1 CT systems you must configure the power meter for the phase on which the CT is installed 2011 2012 Schneider Electric All Rights Reserved 13 PowerLogic Power Meter PM5350 63230 401 203A3 Power Meter Basic Setup 09 2012 Setting Up Voltage Connection and CT Options The options available for voltage connections VT Connect and the number of CTs that can be selected CT on Terminal are based on the power system selected in Setting Up the Power System on page 10 The CT Primary and Secondary are set in Amps A To set up voltage connections and CTs 1 Press V to select VT Connect then press Edit 2 Press and to scroll through the Schneider PowerLogic PM5350 VT Connect options aM Basic Setup 3 Press OK to select the VT Circuit Mode Connect If you choose Direct Con skip to step 8 Horrial 4 Press V to select VT Primary V Power Systen then press Edit SPH4h Wye Gnd 5 Press and to scroll through the FUT Connect options Direct Con 6 Press OK to select VT Primary V 7 Press V to select VT Secondary V then follow steps 4 to 6 to select VT Secondary 8 Press V to select CT on Terminal then press Edit Basic Setup 9 Press and to scroll through the CT on Terminal terminal options HA 10 Press OK to enter the terminal CT Primary cR the CT is on ama 11 Press V to select CT Primary A then press Edit CT Secondary 4H 12 Press to increment the acti
60. d program the PLC to issue a command to multiple meters whenever the utility meter starts a new demand interval Each time the command is issued the demand readings of each meter are calculated for the same interval When setting up this type of demand you select whether it will be command synchronized block or command synchronized rolling block demand The rolling block demand requires that you choose a subinterval When in demand sync pulse operating mode the power meter will not end a demand interval without a pulse The pulse must be received within 5 seconds of when expected If the pulse is not received in that time frame the demand system is reinitialized 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Demand Readings Thermal Demand The thermal demand method calculates the demand based on a thermal response which mimics thermal demand meters The demand calculation updates at the end of each interval You select the demand interval from 1 to 60 minutes in 1 minute increments In Figure 4 4 the interval is set to 15 minutes for illustration purposes Figure 4 4 Thermal Demand Example The interval is a window of time that moves across the timeline Last completed demand interval xk of Lead Time minutes 070 gt 15 minute next interval Calculation updates at the end of each interval Predicted Demand The power meter ca
61. e lost by making the new selection a confirmation screen appears Press Yes to accept the changes and return to the previous screen Press No to keep the existing configuration and return to the previous screen 2011 2012 Schneider Electric All Rights Reserved PowerLogic Power Meter PM5350 Power Meter HMI Setup Schneider Regional Settings Language English US Date Format TY n HHADD PowerLogic PM5350 Tine Format AMPA 23 PowerLogic Power Meter PM5350 63230 401 203A3 Power Meter Clock Setup 09 2012 Setting Up Passwords The passwords for HMI access to setup and resets are configurable Passwords must use four numeric characters The characters are from the US ASCII character set and are not translated or affected by language selection To set up a password 1 Press V and A to scroll through the passwords in the Passwords screen Schneider PowerLogic PM5350 2 Press Edit to select a TONER pasen Password 3 Press to increment the active Setup digit through the numerals 0 9 Energy Resets 4 Press to enter the selected Demand ERezetz value for the active digit and move to the next digit to the left Min Max Resets Diagnostics 5 Continue until all values are selected then press OK to set the password Power Meter Clock Setup To begin power meter clock setup 1 Scroll to Maint in the menu list 2 Press Maint 3 Press Setup 4 Enter you
62. ective equipment PPE and follow safe electrical practices For example in the United States see NFPA 70E This equipment must be installed and serviced only by qualified personnel Turn off all power supplying this equipment before working on or inside Always use a properly rated voltage sensing device to confirm that all power is off Carefully inspect the work area for tools and objects that may have been left inside the equipment Use caution while removing or installing panels so that they do not extend into the energized bus avoid handling the panels which could cause personal injury Failure to follow these instructions will result in death or serious injury Heartbeat Comms LED The heartbeat comms LED helps to troubleshoot the power meter The heartbeat comms LED works as follows Normal operation the LED flashes at a steady rate during normal operation Communications the LED flash rate changes as the communications port transmits and receives data If the LED flash rate does not change when data is sent from the host computer the power meter is not receiving requests from the host computer Hardware if the heartbeat LED remains lit and does not flash On and Off there is a hardware problem Perform a hard reset of the power meter turn Off power to the power meter then restore power to the power meter If the heartbeat LED remains lit contact your local sales representative Control power and
63. ed 15 PowerLogic Power Meter PM5350 Power Meter Advanced Setup 63230 401 203A3 09 2012 Power Meter Advanced Setup To begin power meter advanced setup 1 2 3 4 Scroll to Maint in the menu list Press Maint Press Setup Enter your setup password NOTE The default password is 0000 See Setting Up Passwords on page 24 for information on changing passwords Press Meter Press Advan Use the directions in the following sections to set up power meter advanced values Setting Up the Load Timer Setpoint There are two typical uses for the load timer setpoint Select a relatively low setpoint The timer increments when the load being metered is running This could be useful in recording machine run time for a preventive maintenance program Select a setpoint that is equal to the rating of the power system conductors The timer increments and records how long the conductors were overloaded This could be used to help determine if a circuit has the capacity to add additional load or if loads should be moved to another circuit The load timer setpoint is set in Amps A To set up the load timer setpoint 1 16 Press to select Load Timer Setpoint then press Edit Electric digit through the numerals 0 9 E z Meter Advanced m Press to enter the selected Label value for the active digit and move to the next digit to the left Power Meter Press to increment the active Sc
64. ed Electric Unack Alarms Schneider PowerLogic PM5350 Rover Current Fh Under Current Fh ser Current H ser Current Gnd ser Voltage L L Under Voltage L L Meter Reset Bz md2211 Leese AM 49 PowerLogic Power Meter PM5350 63230 401 203A3 Viewing Alarm Activity and History 09 2012 50 O 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Digital Inputs Chapter 6 Input Output Capabilities WARNING UNINTENDED EQUIPMENT OPERATION Do not use this device for critical control or protection applications where human or equipment safety relies on the operation of the control action Do not rely solely on device data to determine if your power system is functioning correctly or meeting all applicable standards and compliances Do not use device control for time critical functions because delays can occur between the time a control action is initiated and when that action is applied Do not use digital inputs for voltage sensing applications over 36 Vdc Failure to follow these instructions can result in death serious injury or equipment damage Digital inputs and outputs can be used in both Normal and Multi Circuit circuit modes See Appendix E on page 77 for input output capabilities in multi circuit mode Digital Inputs The power meter can accept four digital inputs designated DI1 DI2 DI3 and DIA A digital input detects digital signa
65. ed Operating Range 100 to 300 Vdc 1 4 W typical 2 6 W maximum at 125 Vdc DC Control Power Burden 1 8 W typical 2 7 W maximum at 250 Vdc 3 2 W maximum at 300 Vdc Ride Through Time 50 mS typical at 125 Vdc and maximum burden Number Type 2 Mechanical Relays Output Frequency 0 5 Hz maximum 1 second ON 1 second OFF minimum times 250 Vac at 2 0 Amps 200k cycles resistive 250 Vac at 8 0 Amps 25k cycles resistive Digital Output Een cuum 250 Vac at 2 0 Amps 100k cycles COSD 0 4 g 250 Vac at 6 0 Amps 25k cycles COS 0 4 30 Vdc at 2 0 Amps 75k cycles resistive 30 Vdc at 5 0 Amps 12 5k cycles resistive ON 18 5 to 36 Vdc OFF 0 to 4 Vdc status Digital Inputs 2 Hz To minimum T minimum 250ms Mechanical Characteristics Weight 250 g IP Degree of Protection IEC 60529 Designed to IP51 front display IP30 meter body 96 x 96 x 44 mm depth of meter from housing mounting flange Dimensions W x H x D 96 x 96 x 13 mm protrusion of meter from housing mounting flange Panel Thickness 6 35 mm maximum Environmental Characteristics Meter 25 to 70 C Voltage Ratings SU 20 to 70 C emperature i P Display Display functions to 25 C with reduced performance Meter Display 40 C to 85 C Humidity Rating 5 to 9596 RH at 50 C non condensing i 3000 m Electromagnetic Compatibility Conducted Emissions FCC Part 15 Class A EN55011 Class A Harmonics IEC 61000 3 2 Flicker Emissions IEC 610
66. emand value is updated every 60 seconds The power meter displays the demand value for the last completed interval Fixed Block Select an interval from 1 to 60 minutes in 1 minute increments The power meter calculates and updates the demand at the end of each interval 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Demand Readings Rolling Block Select an interval and a subinterval The subinterval must divide evenly into the interval For example you might set three 5 minute subintervals for a 15 minute interval Demand for each completed interval is updated at each subinterval The power meter displays the demand value for the last completed interval Figure 4 2 illustrates the three ways to calculate demand power using the block method For illustration purposes the interval is set to 15 minutes Figure 4 2 Block Interval Demand Examples Calculation updates Demand value is the every 15 or 60 average for the last seconds 15 minute interval completed interval 15 30 45 60 Sliding Block Demand value is Calculation updates at the average for the last the end of the interval N completed interval 15 minute interval 15 minute interval 15 min E S lt lt a gt a Fixed Block Calculation updates at the end of a amp Demand value is the subinterval 5 minutes ei for e las completed interval 15 minute interval interva
67. en set up to trigger the execution of a task or notification when certain conditions are met An icon in the upper right corner of the power meter indicates that an alarm is active ASCII American Standard Code for Information Interchange baud rate specifies how fast data is transmitted across a network port block interval demand demand calculation method for a block of time includes sliding block fixed block or rolling block method communications link a chain of devices connected by a communications cable to a communications port current transformer CT current transformer for current inputs debounce time amount of time an input must be consistently on before the transition is accepted as valid demand average value of a quantity such as power over a specified interval of time device address used to identify a device on the Modbus communications link defines where the power meter resides in the power monitoring system energy delivered the utility delivers energy to the facility energy in energy received the utility receives energy from the facility the customer provides power to the utility energy out event the occurrence of an alarm condition such as Undervoltage Phase A configured in the power meter firmware operating system within the power meter fixed block a demand calculation method using an interval selected from 1 to 60 minutes in 1 minute increments The power meter c
68. er Quality Values Total harmonic distortion THD and thd Total demand distortion TDD Current and voltage L L and L N Maximum demand current and power password protected Energy values HMI password protected Minimum and maximum values password protected Active load timer I O Counters and timers Visualization Modes IEC and IEEE Minimum and Maximum Values All calculations are the same under both visualization modes Real power per phase total Apparent power per phase and total Reactive power per phase and total PF power factor true and displacement per phase and total Current per phase and average Voltage L L and L N per phase and average THD and thd current per phase THD and thd voltage L L and L N 2011 2012 Schneider Electric All Rights Reserved 29 PowerLogic Power Meter PM5350 63230 401 203A3 Min Max Values for Real Time Readings 09 2012 Table 4 1 Power Meter Characteristics continued Local or Remote Setup Distribution system Type 3 phase 3 or 4 wire with 1 2 or 3 CTs single phase 2 or 3 wire with 1 or 2 CTs Current transformers rating Primary 5 to 32 767 A Secondary 5A 1A Voltage transformers rating Primary 1 000 000 V max Secondary 100 110 115 120 Demand currents calculation method 1 to 60 minutes Demand power calculation method 1 to 60 minutes MODBUS RS 485 Communication protocol MODBUS RTU MODBUS ASCII JBUS Communication address 1 to 247 255 for JBUS Baud
69. esting may damage electronic components contained in the power meter The power meter should be installed in a suitable electrical enclosure Always use grounded external CTs for current inputs Failure to follow these instructions will result in death or serious injury 2011 2012 Schneider Electric All Rights Reserved 3 PowerLogic Power Meter PM5350 63230 401 203A3 Safety Precautions 09 2012 4 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Operating the Display Chapter 3 Operation Operating the Display The power meter is equipped with a large back lit LCD display It is designed to display up to six lines of information plus a row of menu options Figure 3 1 shows the different parts of the power meter display Figure 3 1 Power Meter Display A B C Schneider PowerLogic PM 350 d Electric Icon 1 Wrench Icon Maintenance or Heartbeat Icon Screen Title Icon 2 Alarm Icon Cursor Data Area Button 1 Button 2 Button 3 Button 4 Menu Area Energy Alarm LED orange TAC TOMmMIOD gt D Heartbeat Comms LED green 2011 2012 Schneider Electric All Rights Reserved 5 PowerLogic Power Meter PM5350 Operating the Display How the Buttons Work 63230 401 203A3 09 2012 Table 3 1 Button Symbols Navigation Return to the previous screen For setup screens e If setup changes are made a confirmation screen is disp
70. eter with Integrated Display PowerLogic Power Meter PM5350 METSEPM5350 Box Contents One 1 power meter e One 1 set of installation guides One 1 RS 485 Terminator MCT2W One 1 panel gasket e One 1 certificate of calibration One 1 meter mounting template Three 3 screws spare screws for CTs Firmware This user guide is written to be used with firmware version 2 00 0000 See Identifying the Firmware Version Model and Serial Number on page 61 for instructions on determining the firmware version 2 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Safety Precautions Chapter 2 Safety Precautions Before You Begin This section contains important safety precautions that must be followed before attempting to install service or maintain electrical equipment Carefully read and follow the safety precautions outlined below A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Apply appropriate personal protective equipment PPE and follow safe electrical work practices In the USA see NFPA 70E Only qualified electrical workers should install this equipment Such work should be performed only after reading this entire set of instructions NEVER work alone Do not use this device for critical control or protection applications where human or equipment safety relies on the operation of the control circuit Before performing
71. etup instructions The data being displayed is Check power meter voltage input terminals inaccurate or not what you Incorrect voltage inputs L 8 9 10 11 to verify that adequate voltage expect is present Check that all CTs and VTs are connected correctly proper polarity is observed and that Power meter is wired improperly they are energized Check shorting terminals See the recommended torque in the Wiring section of the installation manual Check to see that the power meter is correctly Power meter address is incorrect addressed See Setting Up Communications on page 20 for instructions Verify that the baud rate of the power meter matches the baud rate of all other devices on its communications link See Setting Up Communications on page 20 for instructions Power meter baud rate is incorrect Verify the power meter communications Communications lines are improperly connections Refer to the Communications connected section in the installation guide for instructions Cannot communicate with power meter from a remote personal computer Check to see that a multipoint Communications lines are improperly communications terminator is properly terminated installed See the Communications section in the installation guidee for instructions Check the route statement Refer to the SMS online help for instructions on defining route statements a mate May have been disabled by user See LEDs on page 7 T
72. ghts Reserved 53 PowerLogic Power Meter PM5350 63230 401 203A3 Digital Inputs 09 2012 Setting Up the Digital Inputs in Demand Sync Mode 1 Press V to select Control Mode then press Edit 2 Press and to scroll through Schneider PowerLogic PM5350 the list of control mode options E Digital Input DI a 3 Press OK to select Select Label Dmd System Digital Input CI1 4 Press W to select Select Dmd System then press Edit Debounce Time n 5 Press and to scroll through a 15 list of available demand Control Mode systems Denancd Sunc 6 Press OK to select a demand system Press A to save all input selections and return to the previous screen NOTE A confirmation screen appears Press Yes to a Digital Input DI proceed or No to go back to Select Dad Susten the previous screen 8 Press A to save all digital Power input selections When using a digital input for demand sync the selected demand method must be Input Synchronized Block or Input Synchronized Rolling Block and the demand interval duration and demand subinterval duration configurations must be the expected durations The demand sync pulse from the external meter must occur within 5 seconds of the expected duration to be considered a valid sync pulse 54 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Digital Outputs PowerLogic Power Meter PM5350 Digital Outpu
73. gle Resets gt Demand then select Power or Current See Reset the Power Meter on page 25 for more information You should reset peak demand after changes to basic power meter setup such as CT ratio or power system configuration The power meter calculates and stores accumulated energy values for real reactive and apparent energy Energy is stored as Delivered Received Del Rec and Del Rec You can view accumulated energy from the display The resolution of the energy value automatically changes from kWh to MWh kVAh to MVARh Energy values can be reported over communications as 64 bit signed integers The units are always Wh VARh or VAN 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Power Analysis Values Power Analysis Values The power analysis values use the following abbreviations HC Harmonic Content H4 Fundamental Content lL Maximum Demand Load The power meter provides the following power analysis values e THD Total Harmonic Distortion THD is a quick measure of the total distortion present in a waveform and is the ratio of harmonic content to the fundamental It provides a general indication of the quality of a waveform THD is calculated for both voltage and current The power meter uses the following equation to calculate THD e thd An alternate method for calculating Total Harmonic Distortion It considers the total harmonic c
74. he power meter does not contain any user serviceable parts If the power meter requires service contact your local sales representative Do not open the power meter Opening the power meter voids the warranty Incorrect route statement to power meter Getting Technical Support Please refer to the Technical Support Contacts provided in the power meter shipping carton for a list of support phone numbers by country or go to www schneider electric com then navigate to the Support area for contact information Register List To download the latest version of the power meter PM5350 Modbus register list go to www schneider electric com Type PM5350 in the search field For information on using the register list to configure the power meter with the command interface see Appendix D Command Interface on page 73 64 O 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Power Meter Specifications Appendix A Specifications Power Meter Specifications Table A 1 Specifications Electrical Characteristics RMS including harmonics on three phase AC system 3P 3P N Type of Measurement 32 samples per cycle zero blind IEC 61557 12 Class 0 5 For 5A nominal CT for 1A nominal CT when gt 0 15A 10 596 from 0 25A to 9A at COS 1 Power Phase 0 6 from 0 50A to 9A at COS 0 5 ind or cap IEC 62053 22 Class 0 58 IEC 61557 12 Class 0 5 For 5A nominal C
75. hneider PowerLogic PM5350 Load Timer Setpt tH Continue until all values are selected then press OK to set daq the load timer setpoint Pk I dmd for TOD CA 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 PowerLogic Power Meter PM5350 Power Meter Demand Setup Setting Up the Peak Current Demand Over Last Year The peak current demand over last year calculates Total Demand Distortion TDD in amperes See the TDD discussion in Power Analysis Values on page 37 for more information Enter O if you want the power meter to use metered current peak demand for this calculation The peak current demand is set in Amps A To set up the peak current demand over last year 1 Press to select Pk Current Dmd for TDD then press Edit Press to increment the active Schneider PowerLogic PM5350 Electric digit through the numerals 0 9 DT eT Meter Advanced E Press lt to enter the selected Label value for the active digit and move to the next digit to the left Power Meter Continue until all values are Load Timer Setpt KH selected then press OK to ad enter the peak current demand over last year PE I cmd for TOD CAs Power Meter Demand Setup To begin power meter demand setup 1 Scroll to Maint in the menu list 2 Press Maint 3 4 Enter your setup password Press Setup NOTE The default password is 0000 See Setting Up Passwords on page 2
76. hts Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Password Recovery Chapter 7 Maintenance and Troubleshooting Password Recovery If you lose your password contact technical support for password recovery assistance e Global PMC Tech support schneider electric com e 00 1 250 544 3010 NOTE Be sure to have your product information readily available when calling technical support Power Meter Memory The power meter uses its nonvolatile memory to retain all data and metering configuration values Under the operating temperature range specified for the power meter this nonvolatile memory has an expected life of at least 45 years NOTE Life expectancy is a function of operating conditions and does not constitute any expressed or implied warranty Identifying the Firmware Version Model and Serial Number 1 Scroll to Maint in the menu list 2 Press Maint Schneider PowerLogic PM5350 Su ieee add Information 4 Press Info kHacdael 5 Press V and to view P5358 the model firmware OS version serial number and Serial other power meter ki information Date of Manufacture 6 Press to return to the Baa aa dad maintenance screen 2011 2012 Schneider Electric All Rights Reserved 61 PowerLogic Power Meter PM5350 Downloading Firmware Additional Meter Status Information Downloading Firmware 62 Meter 1 Scroll to Maint in the menu list Press Mai
77. iation that will be lost by making the new selection a confirmation screen appears Press Yes to accept the changes and return to the previous screen Press No to keep the existing configuration in use and return to the previous screen Press A to save all alarms selections and return to the previous screen Press to save all unary alarm selections 2011 2012 Schneider Electric All Rights Reserved PowerLogic Power Meter PM5350 Alarm Setup A Hot PowerLogic PM5350 Heter Powerup Meter Reset Meter Diagnostic Phase Reversal N Meter Powerup a Enable Ho Frioritu Lou Select Dia Output Hane 45 PowerLogic Power Meter PM5350 Alarm Setup Setting Up Digital Alarms 46 To set up digital alarms 1 12 Press Dig The digital alarm Select screen appears Press and to scroll through the list of digital alarms Press Edit to select an alarm to be configured Press Edit to select Pickup Setpoint then press Edit Press and to scroll between On and Off Press OK to enter the pickup setpoint Press V to select Pickup Time Delay then press Edit NOTE If the selected digital input mode is Demand Sync or Input Metering a confirmation screen appears warning that if an alarm is enabled for this digital input the existing association will be broken Press to increment the active digit through the numerals 0 9
78. ic All Rights Reserved 75 PowerLogic Power Meter PM5350 Using the Unprotected Command Interface 76 63230 401 203A3 09 2012 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Overview Appendix E Multi Circuit Applications Overview The Multi Circuit circuit mode allows you to monitor up to three loads connected to an electrical service with a single power meter The power meter provides all standard metering quantities for each circuit independent of other circuits being monitored In multi circuit mode you can alarm on current power and power demand Multi Circuit mode allows for load management and balancing between circuits in a facility For example in a data center you can monitor each rack of servers and networking devices on a separate circuit In addition you can set up multi level alarms to monitor overcurrent and undercurrent conditions on each circuit Monitoring Circuits with Multi Level Alarms In Multi Circuit mode you can set multi level current I alarms each with five alarm levels High High High Low Low Low and Tripped Setting an alarm segmented with multiple pickup and dropout setpoints allows you to gauge gradual changes in current on each circuit You can then monitor the annunciation of multi level alarms to balance circuit loads and avoid breaker trips and overheating Example A user with a 3CKT L N system type has installed a
79. ircuit CPT Control Power Transformer CT Current Transformer D In Digital Input D Out Digital Output DMD Demand DO Drop Out F Frequency GMT Greenwich Mean Time Hz Hertz I Current I O lInput Output Imax Current maximum demand kVA Kilovolt Ampere kVAD Kilovolt Ampere demand kVAR Kilovolt Ampere reactive kVARD Kilovolt Ampere reactive demand kVARH kKilovolt Ampere reactive hour kW Kilowatt kWD Kilowatt demand kWH Kilowatthours kWH P Kilowatthours per pulse kWmax Kilowatt maximum demand Mag Magnitude Maint Maintenance Min Minimum MnMx Minimum and maximum values MSec Milliseconds MVAh Megavolt ampere hour MVARh Megavolt ampere reactive hour MWh Megawatt hour OS Operating System firmware version P Real power Pd Real power demand PF Power factor PM Power meter PQS Real reactive apparent power PQSd Real reactive apparent power demand Prim Primary PT Potential Transformer also known as VT Voltage Transformer PU Pick Up O 2011 2012 Schneider Electric All Rights Reserved 95 PowerLogic Power Meter PM5350 63230 401 203A3 Glossary Abbreviations 09 2012 Pulse Pulse output mode Pwr Power Q Reactive power Qd Reactive power demand RS Firmware reset system version S Apparent power SN Power meter serial number Sd Apparent power demand Sec Secondary Sub I Subinterval TDD Total Demand Distortion
80. layed e f editing a value exits edit mode and restores previous value Move cursor down Move the cursor one character to the left Move cursor one character to the right Sele Next Advance to next circuit reading only available in Multi Circuit circuit mode To differentiate between menu items and parameters menu items are placed in brackets For example Phase denotes a phase menu item and Phase denotes a phase parameter Each time you read press in this manual press and release the appropriate button beneath a menu item For example if you are asked to Press Phase you would press and release the button below the phase menu item Changing Values In this document item refers to a feature such as an alarm and parameter refers to an attribute of an item such as a pickup setpoint 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Operating the Display When you enter a setup screen the cursor points to the first setup item or parameter on the screen Press and to move to the item or parameter you wish to edit Press Edit to select a parameter The value to be edited is displayed in the edit field with the active digit of the setup value shown in reverse video To change a text value Press gt to enter the selected value for the active digit and move to the next digit to the right At the maximum number of digits the
81. lculates predicted demand for the end of the present interval for kW KVAR and kVA demand This prediction takes into account the energy consumption thus far within the present partial interval and the present rate of consumption The prediction is updated every second Figure 4 5 illustrates how a change in load can affect predicted demand for the interval Figure 4 5 Predicted Demand Example Beginning of interval 15 minute interval Demand Predicted demand if load is for last Partial Interval added during interval completed Demand predicted demand increases interval EN to reflect increase demand Predicted demand if no load is added Time 1 00 1 06 1 15 Change in Load 2011 2012 Schneider Electric All Rights Reserved 35 PowerLogic Power Meter PM5350 Energy Readings Peak Demand Energy Readings 36 63230 401 203A3 09 2012 In nonvolatile memory the power meter maintains a running maximum for power demand values called peak demand The peak is the highest average for each of these readings kWD kVARD and kVAD since the last reset The power meter stores the date and time when the peak demand occurred as well as the peak demand during the last incremental energy interval You can reset peak demand values from the power meter display To reset all demand values select Maint gt Reset gt Global gt Demands To reset power or current demand values select Maint gt Reset gt Sin
82. lected digital output is in Alarm mode and has an alarm association a confirmation screen appears warning that previous associations will be lost Press Yes to proceed or No to go back to the previous screen 4 Press V to select Behavior Mode then press Edit 5 Press and to select a behavior mode 6 Press OK to select a behavior mode 7 Press V to select On Time s then press Edit 8 Press to increment the active digit through the numerals 0 9 9 Press to enter the selected value for the active digit and move to the next digit to the left 10 Continue until all values are selected then press OK to enter the selected number for On Time s 11 Press V to select Select Dmd System then press Edit 12 Press and to scroll through a list of available demand systems 13 Press OK to select a demand system 14 Press A to save all demand sync mode output selections and return to the previous screen NOTE A confirmation screen appears Press Yes to proceed or No to go back to the previous screen 15 Press to save all digital output selections 2011 2012 Schneider Electric All Rights Reserved Schneider PowerLogic PM5350 Digital Output Label Digital Output Del FControl Mode Demand Sunc Behavior Mode Tired Cisitsl Cutout DO1 Demand Sunc Power 59 PowerLogic Power Meter PM5350 63230 401 203A3 Energy Alarm LED 09 2012
83. ls and is event driven For example the Off to On transition of a digital input can be used to determine circuit breaker status count pulses or count motor starts The power meter counts Off to On transitions for each input The count can be reset using the command interface see Appendix D Command Interface on page 73 or by performing a reset see Reset the Power Meter on page 25 The digital input has two operating modes e Normal Use for simple On Off digital inputs The digital inputs can be configured to activate an alarm when changing status for example from Off to On See Alarms on page 39 Demand Interval Sync Pulse Use to configure a digital input to accept a demand sync pulse from a utility demand meter See the Input Synchronized Demand section of Synchronized Demand on page 34 O 2011 2012 Schneider Electric All Rights Reserved 51 PowerLogic Power Meter PM5350 Digital Inputs Setting Up the Digital Inputs 63230 401 203A3 09 2012 To begin digital input setup 1 Scroll to Maint in the menu list 2 Press Maint 3 4 Enter your setup password Press Setup NOTE The default password is 0000 See Setting Up Passwords on page 24 for information on changing passwords 5 Press I O 6 Press D In To set up the digital inputs 1 Press V and A to scroll through the list of digital inputs Press Edit to select a digital Schneider PowerLogic PM5350 Electric
84. lue to determine in which quadrant the system is operating NOTE The Quadrant determines lead lag for power factor and current Use the register value to determine the flow of Active power a a positive value indicates Energy Delivered b a negative value indicates Energy Received Use the register value to determine power factor a ifthe register value is within 1 to 1 the register value is the power factor value b if the register value is not within 1 to 1 the power factor value is derived differently for Energy Delivered and Energy Received systems for Energy Delivered PF 2 the register value for Energy Received PF 2 the register value For example Register value 0 999 Apparent power is in Quadrant 1 current I is lagging and energy is delivered by the utility to the customer with a lagging power factor of 0 999 Register value 1 1 Apparent power is in Quadrant 2 current 1 is lagging and energy is received by the utility from the customer with a leading power factor of 0 9 PF 2 1 1 Register value 0 986 Apparent power is in Quadrant 3 current I is leading and energy is received by the utility from the customer with a lagging power factor of 0 986 Register value 1 14 Apparent power is Quadrant 4 current I is leading and energy is delivered by the utility to the customer with a leading power factor of 0 86 PF 2 1 14 2011 2012 Schneider Electri
85. ms root mean square Power meters are true rms sensing devices rolling block a selected interval and subinterval that the power meter uses for demand calculation The subinterval must divide evenly into the interval Demand is updated at each subinterval and the power meter displays the demand value for the last completed interval sliding block an interval selected from 1 to 60 minutes in 1 minute increments If the interval is between 1 and 15 minutes the demand calculation updates every 15 seconds If the interval is between 16 and 60 minutes the demand calculation updates every 60 seconds The power meter displays the demand value for the last completed interval thermal demand demand calculation based on thermal response Total Demand Distortion TDD indicates the harmonic currents between an end user and a power source Total Harmonic Distortion THD or thd indicates the degree to which the voltage or current signal is distorted in a circuit total power factor see power factor true power factor see power factor unary alarm an alarm based on singular events or specific conditions for which setpoints are not appropriate voltage transformer VT also known as a potential transformer PT 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Glossary Abbreviations Abbreviations A Ampere Amps Amperes Comms Communications CKT C
86. nt Press Diag Press Meter E oue x qm View the power meter status 6 Press A to return to the Maintenance screen Control Power 1 Scroll to Maint in the menu list Press Maint Press Diag Press Cl Pwr View control power information 6 Press A to return to the maintenance screen pu ew aos JN 63230 401 203A3 09 2012 PowerLogic PM5350 Meter a Status OK Schneider PowerLogic PM5350 Control Power M Humber Of Losses 11 Date Last Loss Ae BeBe Time Last Loss Eie ae AM The power meter supports the downloading of new firmware and language files over the communications link This requires the free DLF3000 software which is available at www schneider electric com The DLF3000 offers an extensive Help file with information on operating the software The most recent firmware and language files are also available on the website 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Troubleshooting Troubleshooting The information in Table 7 1 on page 64 describes potential problems and their possible causes It also describes checks you can perform or possible solutions for each After referring to this table if you cannot resolve the problem contact your local Schneider Electric sales representative for assistance DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH Apply appropriate personal prot
87. ntained 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 FCC Part 15 Notice This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense This Class A digital apparatus complies with Canadian ICES 003 63230 401 203A3 09 2012 Table of Contents Chapter 1 Introduction Chapter 2 Safety Precautions Chapter 3 Operation Chapter 4 Metering PowerLogic Power Meter PM5350 Table of Contents Power Meter HardWare nii ocec rode aded oa det osa o Date Ouest ese ee eS ees ee 1 Power Meter Parts and Accessories Us 2 Box COMENS cd a c
88. o tm Me eese ieu vo pem es uana entente sens 56 Setting Up the Digital Output in External Mode cccccceeceeeeeeeeeeeeeeeeeeeeeeaeees 57 Setting Up the Digital Output in Alarm Mode 58 Setting Up the Digital Output in Demand Sync Mode suseeesss 59 Energy Alam CE Dorian ioi Sd diem dd 60 setting Up the Energy Alarmi LED iiu nn eroe eem etes reet aep ea dece uis 60 melee i e M 61 Power Meter Memory Em 61 Identifying the Firmware Version Model and Serial Number 61 Additional Meter Status Information ccccccccceeseeeeeeeeeeeeeeeseeeeeesseseeeseaeeeeeseaeeees 62 ILS UC n e orm 62 Control OWS Nga nauis es M Du M M IE 62 DDOWRIoOadIDd FMW ANC esent necp idea tet PPIpguE o2 but us cu dos n Coni vb e Scion docu ues es Cacus us 62 Troubleshooting e rcp 63 Heartbeat Comms LED eessesssssssseeeeeeeene nennen nnne nnne nnn nnne nnn nn 63 Getting Technical SUDDOIT 3 4 aono nn Scot es C exuta epu ue ee de 64 Ixegisier Eis ES RU ae ane ee M rcr do dr Need 64 Power Meter Specifications iii 65 Communications Ca3pabllillGS seisis beoe nan au one london dut 69 Daisy Chaining Devices to the Power Meter 4 69 Power Factor Register FOLImial u imitant entoure 71 Command Mterlaco c 73 Using the Protected Command Interface Rs 74 Using the Unprotected Command Interface Vs 7
89. on the power meter Figure E 5 KW and KW Demand alarms cannot be associated with the tripped condition Digital inputs are event driven The power meter only registers a circuit breaker trip when there is an Off to On transition A Tripped alarm event is triggered through a contact closure and not through detection of zero current Figure E 5 Wiring a Circuit Breaker Auxiliary Contact to the Power Meter PM5350 Whetting Voltage Digital Inputs Relay Outputs HDOth HDO2H DO D1 l 4 Jc bu pi D3 Dd L1 L2 L3 load control 13 14 15 16 18 19 20 21 22 23 24 25 26 SSPE QOQON Dl RS 485 Communications 3 pole circuit breaker with auxiliary Protective Device not supplied 1 Circuit breaker will be 1 2 or 3 pole depending on your power system configuration The overcurrent protective device must be rated for the short circuit current at the connection point O 2011 2012 Schneider Electric All Rights Reserved 91 PowerLogic Power Meter PM5350 63230 401 203A3 Input Output Capabilities 09 2012 To set up a multi level alarm to monitor for circuit breaker tripped status 1 Follow the steps for setting up a multi level alarm in Setting Up Multi Circuit Alarms on page 86 Schneider PowerLogic PM5350 2 For Select Dig Input select the ENXECIIIM input that is wired to the circuit breaker auxiliary contact Enable NOTE If the selected digital input Tes is set to operate in Demand Sync Prio
90. our setup password NOTE The default password is 0000 See Setting Up Passwords on page 24 for information on changing passwords 5 Press Alarm Use the directions in the following sections to set up alarms 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Setting Up 1 Second Alarms To set up a standard alarm 1 10 11 12 13 14 15 16 Press 1 Sec The 1 second alarm Select screen appears Press V and A to scroll through the list of standard 1 second alarms Press Edit to select an alarm to be configured Press Edit to select Pickup Setpoint Press to increment the active digit through the numerals 0 9 Press to enter the selected value for the active digit and move to the next digit to the left Continue until all values are selected then press OK to enter the selected number for the pickup setpoint For power factor alarms Lead PF True Lag PF True Lead PF Disp and Lag PF Disp press Y to select PU Set Point Lead Lag then press Edit For other alarms skip to Step 12 Press and to scroll between Lead and Lag Press OK to set the pickup set point lead or lag Press V and follow Steps 4 to 7 for Pickup Time Delay and Dropout Setpoint For power factor alarms press V to select DO Set Point Lead Lag and follow Steps 10 and 11 For other alarms proceed to Step 14 Press V and follow Steps 4 to
91. pears Press Edit to select Contrast Schneider PowerLogic PM5350 Press to increment the active Display E digit through the numerals 0 9 kContrast NOTE The contrast values range between 1 and 9 4 Press OK to set the contrast Backlight Timeout cin Press V to select Backlight Timeout min then press Screen Timeout rina Edit 25 6 Press to increment the active digit through the numerals 0 9 NOTE The backlight timeout values range between 0 and 60 minutes O disables the timeout Press lt to enter the selected value for the active digit and move to the next digit to the left 8 Continue until all values are selected then press OK to set the backlight timeout 2011 2012 Schneider Electric All Rights Reserved 21 PowerLogic Power Meter PM5350 Power Meter HMI Setup Setting Up the Display continued 22 10 11 12 13 Press V to select Screen Timeout min then press Edit Press to increment the active digit through the numerals 0 9 NOTE The screen timeout values range between 0 and 60 minutes O disables the timeout Press to enter the selected value for the active digit and move to the next digit to the left Continue until all values are selected then press OK to set the screen timeout Press A to return to the previous screen NOTE If existing associations will be lost by making the new selection a confirmation screen a
92. ppears Press Yes to accept the changes and return to the previous screen Press No to keep the existing configuration and return to the previous screen 63230 401 203A3 09 2012 PowerLogic PM5350 Display D Contrast a Backlight Timeout mir 16 Screen Timeout Mins Date Format TY hM Do Time Format 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Setting Up Regional Settings To set up regional settings 1 Press Region The Regional Settings screen appears Press Edit to select Language Press and to scroll through the language options Press OK to set the language NOTE Models with communications support the download of language files with additional languages to the power meter All languages available on the power meter are listed See Downloading Firmware on page 62 for more information Press V to select Date Format then press Edit Press and to scroll through the date format options Press OK to set the date format Press V to select Time Format then press Edit Press and to scroll through the time format options Press OK to set the time format Press V to select HMI Mode then press Edit Press and to scroll through the HMI mode options Press OK to set the HMI mode Press A to return to the previous screen NOTE If existing associations will b
93. r setup password NOTE The default password is 0000 See Setting Up Passwords on page 24 for information on changing passwords 5 Press Clock The Clock setup screen appears Use the directions in the following sections to set up power meter clock values 24 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 Setting Up the Clock Reset the Power Meter 2011 2012 Schneider Electric All Rights Reserved PowerLogic Power Meter PM5350 Reset the Power Meter The power meter stores all date and time stamps in GMT If Local meter time is selected the GMT offset converts the GMT values to local date and time values for display on the HMI There is also an option to display the GMT values on the HMI To set up the clock 1 Press Edit to select Date 2 Press to increment the active digit for the first character of the date SE ot PowerLogic PM5350 Clock 3 Press to enter the selected character and move to the character to the left 4 Continue until all values are selected then press OK to set Date Ab BEL BEI Time 12 66 66 AM the date 5 Press V and follow Steps 2 to 6 to set the Time Meter Time 6 Press V to select Meter Time then press Edit 7 Press and to scroll through the meter time options 8 Press OK to set the meter time M Reset Energies eset all Energies To begin power meter reset setup 1 Scroll to M
94. rity mode the input s association with a multi level alarm will override Medium this setting The digital input will Select Dia Input return to Demand Sync mode Digital Input DI1 when association with the multi level alarm is removed See al T Edit Setting Up the Digital Inputs on page 52 for more information on input operating modes 3 Press A to save all alarm selections and return to the previous screen Digital Outputs in Multi Circuit Mode Digital outputs can be associated with all types of multi circuit alarms See Digital Outputs on page 55 for information on configuring digital outputs LEDs See Setting Up the Energy Alarm LED on page 60 to reach the LED setup screen Available multi circuit LED modes are described below e Energy Flashes at a rate proportional to the total amount of energy consumed Per circuit values are not selectable options for LED output e Alarm lf the LED is configured to flash on alarms it will not flash on multi circuit alarms because these alarms will not have a priority of High The LED will flash for any configured non multi circuit alarms e Off Turns off the LED 92 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Glossary Terms Glossary Terms accumulated energy energy accumulates as either delivered to the customer or received from the customer active alarm an alarm that has be
95. s and alarm parameters are listed below Table E 4 List of Multi Circuit Alarms Alarm Label Alarm Parameters Breaker Rating High High PU High High DO i U Value Options Amps Percent of circuit breaker rating MultiLevel Ckt 1 MultiLevel Ckt 2 MultiLevel Ckt 3 Seconds Disable default or enable None default medium low None Dig Input DI1 Dig Input DI2 Dig Input DI3 Dig Input DIA None Dig Output D01 Dig Output D02 Dig Output D01 amp D02 Kilowatts Select Dig Input Select Dig Output Pickup Setpoint Pickup Time Delay Seconds Dropout Setpoint Kilowatts KW Demand Ckt 1 KW Demand Ckt 2 KW Demand Ckt 3 Dropout Time Delay Seconds Disable default or enable None default medium low None Dig Output D01 Dig Output D02 Dig Output Select Dig Output D01 amp D02 Pickup Setpoint Kilowatts KW Ckt 1 Dropout POL Kilowatts KW Ckt 2 Dropout Time Delay KW Ckt 3 Disable default or enable None default medium low None Dig Output D01 Dig Output D02 Dig Output Select Dig Output D01 amp D02 Ulm U Um u m u rir rir iri ir om as 5 m as 2 2lo60 9 9 9 9 qa amp i aG A oO mo xi2 2 2 55 5 AE c ee EE gr o lt O TD lt 9 9jlelolo c Eg g d 89 3 3 o vl 3 o olo c Jg oj x z D D Y Y lt lt 1 For multi level alarms pickup and dropout values cannot overlap 0 lt Low Low PU lt Low Low DO lt Low PU lt Low DO lt
96. t q to enter the selected value for the active digit and move to the next digit to the left 10 Continue until all values are selected then press OK to enter the selected number for On Time s 11 Press V to select Select Alarms then press Edit 12 Press V and A to scroll through a list of available alarms NOTE The digital output behavior mode must be Timed or Coil Hold to turn on when a unary alarm event occurs 13 Press Select to select an alarm NOTE Any number of alarms can be associated with a digital output An X appears next to the selected item s Press Select to remove an association 14 Press A to save all alarm mode output selections and return to the previous screen NOTE A confirmation screen appears Press Yes to proceed or No to go back to the previous screen 15 Press to save all digital output selections So Digital Output DO Bg Label Digital Output Del PowerLogic PM5350 uer Current FH Under Current Fh uer Current H uer Current Gnd uer Uoltage L L Under Voltage L L 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 09 2012 PowerLogic Power Meter PM5350 Digital Outputs Setting Up the Digital Output in Demand Sync Mode 1 Press V to select Control Mode then press Edit 2 Press and to scroll through the list of control mode options 3 Press OK to select Demand Sync NOTE If the se
97. the portion of total power that does the useful work The ratio of Active P power to Apparent S power KW kVA e True Power Factor Includes harmonic content Displacement Power Factor Excludes harmonic content The cosine of the angle between the fundamental values of current to voltage Leading PF Active P and Reactive Q power flowing in opposite directions Lagging PF Active and Reactive power flowing in the same directions e Leading Current I Current is leading voltage up to 180 e Lagging Current I Current is lagging voltage up to 180 The PQS Coordinate System chart quadrants are based on Active and Reactive power from the point of view of a utility Whether or not a connected facility or substation is consuming or providing energy it is assumed that the utility considers it the load Figure C 1 PQS Coordinate System Chart 2011 2012 Schneider Electric All Rights Reserved 2 lt PF lt 1 0 Quad 2 1 999999 Leading PF Lagging Inductive Load PF 2 register value 1 lt PF lt 0 Quad 3 Lagging PF Leading Capacitive Load 0 001000 O lt PF lt 1 Quad 1 Lagging PF Lagging Inductive Load 1 lt PF lt 2 Quad 4 Leading PF Leading Capacitive Load PF 2 register value 71 PowerLogic Power Meter PM5350 Power Factor Register Format 72 63230 401 203A3 09 2012 To determine power factor Get the register value Use the register va
98. to select Select Dig Input then press Edit 2 Press and to scroll through the digital inputs 3 Press OK to select the digital input to be associated with the demand system 4 Press A to return to the previous screen NOTE If existing associations will be lost by making the new selection a confirmation screen appears Press Yes to accept the changes and return to the previous screen Press No to keep the existing configuration and return to the previous screen 2011 2012 Schneider Electric All Rights Reserved Schneider PowerLogic PM5350 Current Demand Select Dra Input Digital Input DIL 19 PowerLogic Power Meter PM5350 Power Meter Comms Setup 63230 401 203A3 09 2012 Power Meter Comms Setup To 1 2 3 4 9 begin power meter comms setup Scroll to Maint in the menu list Press Maint Press Setup Enter your setup password NOTE The default password is 0000 See Setting Up Passwords on page 24 for information on changing passwords Press Comm The Comms Setup screen appears Use the directions in the following sections to set up power meter communications values Setting Up Communications To 1 10 11 12 13 Setting Up Alarms set up communications Press to select Protocol then press Edit Press and to scroll through Schneider PowerLogic PM5350 Electric the protocol options P P Comm Part
99. ts The power meter has two relay outputs DO1 and DO2 The relay outputs have three control modes e External The default setting The output is controlled by a command sent over the communications link e Alarm The output is controlled by the power meter in response to an alarm condition Multiple alarms can be associated with the same output simultaneously Demand Sync The output signals the end of a demand interval The relay outputs have a limited number of operations that depend on the load being switched Review the relay specifications Power Meter Specifications on page 65 to verify they are suitable for your application Depending on the selected control mode the following behavior modes are available for the relay outputs e Normal External The output turns on when the energize command is received and turns off when the de energize command is received Alarm The output turns on when an alarm is activated and turns off when it is deactivated e Timed External The output turns on when the energize command is received and turns off after a user configurable time Alarm The output turns on when an alarm is activated and turns off after a user configurable time The alarm may still be active after the output has turned off Demand Sync The output turns on at the end of the associated demand interval and stays on for a user configurable time Coil Hold
100. ua LLL i LUI Due Ma ies 2 iur PH 2 Before Y OU Belli senken eaae habete DA D acl Oe ductam ee at oe 3 Operating the Display esse 5 HOW the BURONS VVOTK det o M 6 Changing Valu S sensas ER a T 6 ve c 7 LEDS an cha a Ras Shag Sade E T Energy Alan LVE Disses a de di de a T Hearbeat Comms LED a2 o eeu ed a aed es E eat onl 7 Men OVC II E ER N a i 9 Setting Up the Power Meter us pe roro ane diet none ee nee 10 Power Meter Basic Setup iii 10 Setting Up the Power System se 10 Supported Power System Configurations 0cccccseeeeceeeeeeeeeeeeeeeeeeseeeeeeeeeaeeeees 11 Setting Up Voltage Connection and CT Options ce ecccceececeeeeeeeeeeeesaeeeesaees 14 Setting Up the System Frequency ss 15 Setting Up the Phase Rotation RL 15 Power Meter Advanced Setup iii 16 Setting Up the Load Timer Setpoint 4 16 Setting Up the Peak Current Demand Over Last Year sseeseeeeeese 17 Power Meter Demand Setup is 17 Setting Up Power and Current Demand Vs 18 Select the Digital Input seseeeessseseseseeeeeeneeennn nennen nnn nnns 19 Power Meter COMMS S pia taie nine nn 20 Setting Up Communications iii 20 Setting UDpAIGEIS dece ei ces e ts DM LA Art fe he 20 smesso 21 Power Meter AMSG resin cons aepo cuna aee vei ne
101. urrent and the total rms content rather than fundamental content in the calculation The power meter calculates thd for both voltage and current The power meter uses the following equation to calculate thd e TDD Total Demand Distortion TDD evaluates the harmonic currents between an end user and a power source The harmonic values are based on a point of common coupling PCC which is a common point where each user receives power from the power source The power meter uses the following equation to calculate TDD Ho t HC t HC TDD x 100 rn O 2011 2012 Schneider Electric All Rights Reserved 37 PowerLogic Power Meter PM5350 Power Analysis Values 38 63230 401 203A3 09 2012 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 About Alarms Chapter 5 Alarms WARNING HAZARD OF UNDELIVERED NOTIFICATIONS Do not rely solely on the power meter for alarm notifications where human or equipment safety relies on successfully delivered notifications Failure to follow these instructions can result in death serious injury or equipment damage About Alarms The A icon appears in the upper right corner of the meter display when an alarm is active If the energy alarm LED has been configured for alarms the energy alarm LED flashes when an alarm is active See Setting Up the Energy Alarm LED on page 60 for more information
102. ve digit through the numerals 0 9 13 Press to enter the selected value for the active digit and move to the next digit to the left 14 Continue until all values are selected then press OK to enter the CT Primary 15 Press to select CT Secondary A then press Edit 16 Press and to scroll through a list of CT Secondary options NOTE CT Secondary options are 5A or 1A See Specifications on page 65 for accuracy level 17 Press OK to select the CT Secondary 14 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 Power Meter Basic Setup Setting Up the System Frequency The system frequency is limited to 50 Hz or 60 Hz To set up the system frequency 1 Press V to select System Frequency then press Edit 2 Press and to scroll between Schneider PowerLogic PM5350 apa GOMZ Basic Setup 3 Press OK to select the system CT Secondary cA frequency 2 Sys Frequency iHz eB Phase Rotation Setting Up the Phase Rotation The phase rotation is limited to ABC or CBA To set up the phase rotation 1 Press V to select Phase Rotation then press Edit PowerLogic PM5350 Basic Setup 2 Press and to scroll between Schneider ABC and CBA 3 Press OK to select the phase rotation CT Secondary tA Sys Frequency Hz ei kFhaze Fotation 2011 2012 Schneider Electric All Rights Reserv
103. wer meter for the phase on which the CT is installed Voltage Connections Power System Configuration Number of O s O g Three Phase Wiring Wires Qty Meter Terminal Meter Terminal Three Phase Wiring 3PH4W Opn Dit Ctr Tp 3PH4W Dit Ctr Tp 3PH4W Wye Gnd 4 3 I1 12 13 4 V1 V2 V3 Vn Delta 3PH4W Wye Res Gnd 3PH4W Opn Dit Ctr Tp 3PH4W Dit Ctr Tp 3PH4W Wye Gnd 4 3 I1 12 I3 4 V1 V2 V3 Vn Wye 3PH4W Wye Res Gnd 3PH4W Opn Dit Ctr Tp 3PH4W Dit Ctr Tp 1 Wye 3PH4W Wye Gnd a 1 11 4 V1 V2 V3 Vn Balanced 3PH4W Wye Res Gnd For 1 CT systems you must configure the power meter for the phase on which the CT is installed 12 2011 2012 Schneider Electric All Rights Reserved 63230 401 203A3 PowerLogic Power Meter PM5350 09 2012 Power Meter Basic Setup Table 3 4 Three Phase with VTs Numberot CTs Voltage Connections Power System Configuration y g Wires Qty Meter Terminal Meter Terminal Three Phase Wiring 3PH3W DIt Crnr Gnd 2 11 13 2 V1 V3 Delta 3PHWDIt Ungnd ESS V2 to Ground 3PH3W Wye Ungnd V1 V3 3PH3W Wye Res Gnd I1 12 13 V2 to Ground Delta 3PH3W DIt Crnr Gnd 3PH3WDIt Ungnd V1 V3 Delta 3PH3W Wye Ungnd V2 to Ground Balanced 3PH3W Wye Res Gnd 3PHAW Opn Dit Ctr Tp Vn to Ground 3PHAW Dit Ctr Tp V1 V3 3PH4W Wye Res Gnd 2 I1 I2 13 3 VAE Wye Vn to Ground 3PHAW Opn Dit Ctr Tp 3PH4W Dit Ctr Tp 4 41 4 3 V1 V2 V3 Wye 3PH4W Wye Gnd Vn to Ground Balanced 3PH4W Wye Res Gn
104. x ce x E eroe ve oe ev EM NE REIS 21 Seting Up Me DIS Olay eai ei Coe op En EE Ebo E HP E UHR N CA oe Au 21 Setting Up Regional Seins A RE pret Puce ee ade uei E s tuos qe es 23 SEWING UP PASSWONTS Le 24 Power Meter Clock Setup oeste radin tem dede tee 24 Setting UDANE CloGK 2 d ee at opem uo ie ost Re esu hex cu it 25 Reset the Power Meter cccccsscccseccseseceenceceseeceueeceececsececeeesseessaeessueesueesseeesseessaass 25 Glopal RESES mm RC XX E 26 SAC RS SRI ide cuve ao anne s Au ee ed UMLAND ED REEL 27 Power Meter Characteristics ss 29 MODBUS RGA Toro MET e a T TT 30 BIanrciRe enam Dd 30 Benrzilisiels cT Q 30 Min Max Values for Real Time Readings 30 Power Factor Min Max Conventions si 31 Demand RE AGING S metson a a E ors a easels a nd ences 32 Demand Calculation Methods ss 32 Block Interval Demandes Rs Ree 32 Synchronized Demand ss 34 MGT IM AIG IAIN suite e it peto Ne Heu 35 Predicted Demand PP eects 35 PeaK DEMANDO C u M 36 Energy Redding Sossen e eb oedeu a rub sans UIS ete ui tennis 36 2011 2012 Schneider Electric All Rights Reserved i PowerLogic Power Meter PM5350 Table of Contents Chapter 5 Chapter 6 Chapter 7 Appendix A Appendix B
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