PowerLogic™ PM5300 Series Power and Energy Meter User Guide EAV15107 - EN03 04/2014 PQS
Safety Information Important Information 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 manual or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure.
PowerLogic™ PM5300 series user guide Table of Contents Chapter 1: Introduction Power and Energy Meter Hardware ................................................................................. 9 Parts and Accessories .................................................................................................. 9 Box Contents ................................................................................................................ 9 Firmware .....................................................
PowerLogic™ PM5300 series user guide Table of Contents Using ION Setup to view or modify configuration data ................................................... 48 Using software to view meter data .................................................................................. 48 Chapter 6: Input / Output Status input applications ................................................................................................. 49 Status input setup .....................................................
PowerLogic™ PM5300 series user guide Table of Contents Chapter 12: Verifying accuracy Testing overview ............................................................................................................ 93 Accuracy test requirements ........................................................................................ 93 Verifying accuracy test ................................................................................................... 95 Energy pulsing considerations .................
PowerLogic™ PM5300 series user guide 8 Table of Contents © 2014 Schneider Electric All Rights Reserved
PowerLogic™ PM5300 user guide Chapter 1—Introduction Chapter 1—Introduction This user guide explains how to operate and configure a PowerLogic™ PM5300 Series Power and Energy Meter.
PowerLogic™ PM5300 user guide 10 Chapter 1—Introduction © 2014 Schneider Electric All Rights Reserved
PowerLogic™ PM5300 series user guide Chapter 2—Safety Precautions Chapter 2—Safety Precautions Before You Begin Installation, wiring, testing and service must be performed in accordance with all local and national electrical codes. 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.
PowerLogic™ PM5300 series user guide Chapter 2—Safety Precautions • • • Reorient or relocate the receiving antenna. • Consult the dealer or an experienced radio/TV technician for help. Increase the separation between the equipment and receiver. Connect the equipment to an outlet on a circuit different from that to which the receiver is connected. This Class B digital apparatus complies with Canadian ICES-003.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Chapter 3—Hardware Reference This section supplements the meter’s installation sheet and provides additional information about the meter’s physical characteristics and capabilities. Models, Features and Options Table 3 –1: PM5300 Series - Models, Features and Options PM5300 Series Features and Options PM5310 PM5320 PM5330 PM5331 PM5340 PM5341 Cl 0.5S Cl 0.5S Cl 0.5S Cl 0.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Frequency Real, reactive, and apparent power (Total and per phase) True Power Factor (Total and per phase) Displacement PF (Total and per phase) Signed, Four Quadrant Signed, Four Quadrant Signed, Four Quadrant % Unbalanced I, V L-N, V L-L Energy Values* Accumulated Active, Reactive and Apparent Energy Received/Delivered; Net and absolute Demand Values* Present, Last, Predicted, Peak, and Peak Date Time Present, Last, Predicted,
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Technical Specifications Electrical Characteristics Type of measurement: True rms on three-phase (3P, 3P + N), zero blind Measurement accuracy IEC 61557-12 1 Active Energy 2 Reactive Energy 2 Active Power Reactive Power Apparent Power Current, Phase Voltage, L-N Frequency Power Factor Voltage Harmonics Voltage THD/thd Current Harmonics Current THD/thd 64 samples per cycle PMD/[SD|SS]/K70/0.5 Class 0.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Meter constant Pulse width for Digital Output Pulse frequency for Digital Output Leakage current Isolation Optical outputs Pulse width (LED) Pulse frequency Meter constant Status Inputs ON Voltage OFF Voltage Input Resistance Maximum Frequency Response Time Opto Isolation Whetting output Input Burden from 1 to 9,999,999 pulses per k_h (k_h = kWh, kVARh or kVAh depending on the energy parameter selected) 50% duty cycle 25 Hz max. 0.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Isolation 2.5 kVrms, double insulated Human Machine Interface Display type Resolution Backlight Viewable area (W x H) Keypad Indicator Heartbeat / Comm activity Energy pulse output / Active alarm indication (configurable) Wavelength Maximum pulse rate Monochrome Graphics LCD 128 x 128 White LED 67 x 62.5 mm 4-button Green LED Optical, amber LED 590 to 635 nm 2.5 kHz 1 For firmware version 1.1.1 and higher For 1A nominal CT when I > 0.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference 78.5 mm 72.00 mm 90.6 mm 107.4 mm 90 .0 96.00mm 90 .0 0° 12.8 mm 0° 96.00 mm Meter mounting This section describes how to mount the meter. Mounting the PM5300 The meter is designed to be mounted inside a 1/4-DIN panel cutout. 1. Inspect the gasket (installed around the perimeter of the front display) and make sure it is secured properly and not damaged. 2. Insert the meter through the mounting hole. +0. - 0. 8 +0.8 - 0.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference 4. Push the middle of the clip assembly to lock the retainer in place and secure the meter. CL CL ICK ICK Meter wiring For wiring instructions and safety precautions, see the meter installation sheet that was shipped with your meter, or download a copy at www.schneider-electric.com.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference (CAT II) 250V/8A RESISTIVE 30V/5A NO NO RELAY1 RELAY2 UL: CAT III 20-347VLN/35-600VLL IEC: CAT III 20-400VLN/35-690VLL V1 V2 V3 VN 100-277VLN/415VLL ± 10% 50/60 ± 5 Hz < 11VA 125-250V ± 20% < 4W L1 40V MAX 24V 20mA MAX 36V MAX 8mA MAX L2 (30) I Modbus RS-485 I I I I I Modbus TCP/IP Link 10/100 $ $ 120 $ 0V Modbus D0 = Rx-, TxRS-485 D1 = Rx+, Tx+ Serial No.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Recommended cables Communication Make RS-485 Ethernet Belden Schneider Electric Part code Description 3105A Multi-Conductor - EIA Industrial RS-485 PLTC/CM 3106A Multi-Conductor - EIA Industrial RS-485 PLTC/CM DC6PCSRJ01-GY DIGILINK Patch Cord CAT at 6 SFTP Gray 1m DC6PCSRJ02-GY DIGILINK Patch Cord CAT 6 SFTP Gray 2m DC6PCSRJ03-GY DIGILINK Patch Cord CAT 6 SFTP Gray 3m DCECASTP4P3X DIGILINK Solid Cable CAT 5e, 4 pair, SFTP
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Wiring Diagrams 1PH 1PH2WLN 1PH2WLL - + - + ( I1 ) ( I2 ) V1 V2 V3 VN - + L N - B B L1 L2 L L1 NN L2 + L1 L2 L N -- ++ A A + ( I3 ) - + - + ( (I1I1) ) ( (I2I2) ) ( (I3I3) ) V1 V1V2 V2V3 V3VN VN - + - + - + - + A A + ( I3 ) - + ( I1 ) ( I2 ) ( I3 ) + B - + V1 V2 V3 VN A ( I1 ) ( I2 ) V1 V2 V3 VN ( I1 ) ( I2 ) ( I3 ) V1 V2 V3 VN 1PH3WLL with N - - + + B BB + + - - + + + + 3PH3W 3CT 2C
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Symbol Description 500 mA fused disconnect / circuit breaker (not supplied) Shorting block (not supplied) PT primary fuses and disconnect switch (not supplied) * Indicates wiring for a balanced system NOTE: • Clearly label the device’s disconnect circuit mechanism and install it within easy reach of the operator. • The fuses / circuit breakers must be rated for the installation voltage and sized for the available fault current.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Power system setup parameters Power system description — Meter setting Direct connect maximum Symbol # of VTs (if required) UL IEC 347 V L-N 400 V L-N 1 VT 600 V L-L 600 V L-L 1VT 347 V L-N / 600 V L-L 400 V L-N / 690 V L-L 2VT 600 V L-L 600 V L-L 2 VT 600 V L-L 600 V L-L 2 VT 600 V L-L 600 V L-L 2 VT 600 V L-L 600 V L-L 2 VT 600 V L-L 600 V L-L 2 VT 240 V L-N / 415 V L-N / 480 V L-L 240 V L-N / 415 V L-N / 480
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Power system setup parameters (continued) Power system description — Meter setting Direct connect maximum Symbol 3-phase 4-wire Delta center-tapped — 3PH4W Dlt Ctr Tp # of VTs (if required) UL IEC 240 V L-N / 415 V L-N / 480 V L-L 240 V L-N / 415 V L-N / 480 V L-L 3 VT 347 V L-N / 600 V L-L 347 V L-N / 600 V L-L 3 VT or 2 VT 347 V L-N / 600 V L-L 400 V L-N / 690 V L-L 3 VT or 2 VT 347 V L-N / 600 V L-L 347 V L-N / 600 V L-L
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Balanced system considerations In situations where you are monitoring a balanced 3-phase load, you may choose to connect only one or two CTs on the phase(s) you want to measure, and then configure the meter so it calculates the current on the unconnected current input(s). NOTE: For a balanced 4-wire Wye system, the meter’s calculations assume that there is no current flowing through the neutral conductor.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference communicate with the slave devices, an RS-232 to RS-485 converter can be used as the master device. RS-485 wiring Connect the devices on the RS-485 bus in a point-to-point configuration, with the (+) and (-) terminals from one device connected to the corresponding (+) and (-) terminals on the next device. RS-485 wiring C + 120 Ω Master Slaves C + D0 (-) D1 (+) 120 Ω RS-485 cable Use a shielded 1.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Related topics • To configure RS-485 communications, see “Setting up serial communications” on page 36. Ethernet communications The meter uses Modbus TCP protocol to communicate at data speeds up to 100 Mbps through its Ethernet communications port. Use a shielded Ethernet cable to connect the meter’s Ethernet port. Ground terminal is not available on meter, shield should be connected to Ground at the other end.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Digital output connections D1 D2 S1 S2 -/C + (60) (62) (40) (42) (57) (56) < 40Vdc LOAD < 20mA LOAD < 20mA < 40Vdc Related topics • See “Digital output applications” on page 52 for digital output use and configuration details. Status inputs The meter is equipped with two status input ports (S1 and S2). You can configure the status inputs for use in status monitoring applications.
PowerLogic™ PM5300 series user guide Chapter 3—Hardware Reference Relay output connections NO NO RELAY 1 RELAY 2 (70)(71)(73)(74) * 30 Vdc, 5A 250 Vac, 8A Cos =1 250 Vac, 6A Cos =0.4 ~= LOAD LOAD * The overcurrent protective device must be rated for the short-circuit current at the connection point.
PowerLogic™ PM5300 series user guide Chapter 4—Front panel display and meter setup Chapter 4—Front panel display and meter setup The front panel display lets you use the meter to perform various tasks such as setting up the meter, displaying data screens, acknowledging alarms, or performing resets.
Chapter 4—Front panel display and meter setup PowerLogic™ PM5300 series user guide Related topics • See “Setting up the alarm / energy pulsing LED” on page 42 for details on using the front panel to switch the LED mode for alarming or energy pulsing applications. • See “Alarm / energy pulsing LED setup” on page 60 for details on using ION Setup to switch the LED mode for alarming or energy pulsing applications.
PowerLogic™ PM5300 series user guide Chapter 4—Front panel display and meter setup Menu tree This summarizes the meter screens (IEEE menus shown, with the corresponding IEC menus in parentheses — see “Setting up regional settings” on page 39).
Chapter 4—Front panel display and meter setup PowerLogic™ PM5300 series user guide Meter setup screen navigation The meter’s front panel buttons and display screen allow you to navigate and configure the meter’s setup parameters. The following illustration shows one of the meter setup screens. Basic setup screen In this example, the down arrow ( ) indicates there are more parameters below the selected option ( ). Press the down arrow button to display additional parameters.
PowerLogic™ PM5300 series user guide Chapter 4—Front panel display and meter setup Basic setup menu tree Maint Reset Meter Setup Comm Basic 1. Navigate to Maint > Setup. 2. Enter the setup password (default is “0000”), then press OK. 3. Navigate to Meter > Basic. 4. Move the cursor to point to the parameter you want to modify, then press Edit. 5. Modify the parameter as required, then press OK. 6.
Chapter 4—Front panel display and meter setup PowerLogic™ PM5300 series user guide Related topics • See “Configuring the basic setup parameters” on page 34 for meter basic setup instructions. Communications setup After wiring the meter’s serial and Ethernet communications ports, you can configure these ports so you can connect to the meter remotely and use device configuration software such as ION Setup to configure the meter.
PowerLogic™ PM5300 series user guide Chapter 4—Front panel display and meter setup Communications setup parameters Parameter Values Description Protocol Modbus The communications format used to transmit data. The protocol must be the same for all devices in a communications loop. Address 1 to 247 Set the address for this device. The address must be unique for each device in a communications loop. For Jbus protocol, set the device ID to 255.
Chapter 4—Front panel display and meter setup PowerLogic™ PM5300 series user guide Ethernet port settings Parameter Values IP Address Description The internet protocol address of your device. Contact your local network administrator for parameter values. Subnet Gateway The Ethernet IP subnetwork address of your network (subnet mask). The Ethernet IP gatway address of your network. HTTP Server Disabled Device Name N/A Controls whether your device’s webserver and webpages are active or not.
PowerLogic™ PM5300 series user guide Chapter 4—Front panel display and meter setup Display setup parameters Parameter Values Description Contrast 1-9 Increase or decrease the value to increase or decrease the display contrast. Backlight Timeout (min) 0 - 60 Set how long (in minutes) before the backlight turns off after a period of inactivity. Setting this to “0” disables the backlight timeout feature (i.e., backlight is always on).
Chapter 4—Front panel display and meter setup PowerLogic™ PM5300 series user guide protected prevents unauthorized personnel from accessing certain screens such as the diagnostics and reset screens. NOTICE LOST DATA Record your meter's screen password information in a secure location. Failure to follow these instructions can result in data loss. If you lose your password, you must return the meter for factory reconfiguration, which resets your device to its factory defaults and destroys all logged data.
PowerLogic™ PM5300 series user guide Chapter 4—Front panel display and meter setup Setting the clock The Clock setup screens allow you to set the meter’s date and time. Clock setup menu tree Maint Reset Meter Setup Comm Alarm I/O HMI Clock 1. Navigate to Maint > Setup. 2. Enter the setup password (default is “0000”), then press OK. 3. Navigate to Clock. 4. Move the cursor to point to the parameter you want to modify, then press Edit. 5. Modify the parameter as required, then press OK. 6.
Chapter 4—Front panel display and meter setup PowerLogic™ PM5300 series user guide 3. Navigate to Meter > Advan. 4. Move the cursor to point to the parameter you want to modify, then press Edit. 5. Modify the parameter as required, then press OK. 6. Move the cursor to point to the next parameter you want to modify, press Edit, make your changes, then press OK.
PowerLogic™ PM5300 series user guide Chapter 4—Front panel display and meter setup Related topics • See “Setting up the alarm / energy pulsing LED” on page 42 for details on setting up the LED for alarms. Input / output setup The meter’s input/output (I/O) ports extend the capabilities of the meter. The I/O ports can be configured using the front panel or ION Setup. Related topics • See “Input / Output” on page 49 for a comprehensive description and setup instructions using the front panel.
Chapter 4—Front panel display and meter setup PowerLogic™ PM5300 series user guide Power or current demand setup parameters (continued) Parameter Values Description Applies only to rolling block methods. Subinterval (min) 0 - 60 Define how many subintervals the demand interval should be equally divided into. Select Dig Output None, Digital Output D1, Digital Output D2 Select which digital output the end of demand interval pulse should be sent to.
PowerLogic™ PM5300 series user guide Chapter 5—Viewing Meter Data Chapter 5—Viewing Meter Data You can view meter data from the meter’s front panel display, a web browser, or through software. Viewing meter data from the front panel The Summary screen displays real-time values for average voltage and current (Vavg, Iavg), total power (Ptot) and energy consumption (E Del).
Chapter 5—Viewing Meter Data PowerLogic™ PM5300 series user guide Related topics • See “Current demand” on page 81. Volts [U-V] V L-L [U] Line-to-line voltage for each phase. V L-N [V] Line-to-neutral voltage for each phase.
PowerLogic™ PM5300 series user guide Chapter 5—Viewing Meter Data PF True Per phase and total true power factor values and sign. Disp Per phase and total displacement power factor values and sign. Hz [F] Frequency (Freq), average voltage and current (Vavg, Iavg) and power factor (PF) values. THD THD Amps [I], V L-L [U], V L-N [V] THD (ratio of harmonic content to the fundamental) for current, line-to-line voltage, and line-to-neutral voltage.
Chapter 5—Viewing Meter Data PowerLogic™ PM5300 series user guide Timer Load Real-time counter that keeps track of the total number of days, hours, minutes and seconds an active load is connected to the meter inputs. Oper Real-time counter for the total number of days, hours, minutes and seconds the meter has been powered. . Maint Reset Screens to perform global or single resets. Setup Meter, Comm, Alarm, I/O, HMI, Clock Diag Info, Meter, Cl Pwr, PhAng Setup screens for meter configuration.
PowerLogic™ PM5300 series user guide Chapter 6—Input / Output Chapter 6—Input / Output This section describes the meter’s I/O (input/output) features.
Chapter 6—Input / Output PowerLogic™ PM5300 series user guide Related topics • See “Technical Specifications” on page 15 for electrical characteristics and limits for the status inputs. Status input setup The status input ports (S1 and S2) can be configured using the front panel or ION Setup software. NOTE: It is recommended you use ION Setup to configure the status inputs, as setup parameters that require text entry can only be modified using ION Setup.
PowerLogic™ PM5300 series user guide Chapter 6—Input / Output Configuring status inputs using the front panel You can use the front panel to configure the status inputs. Status input setup menu tree Maint Reset Meter Setup Comm LED Alarm S In I/O D Out HMI Relay Clock 1. Navigate to Maint > Setup. 2. Enter the setup password (default is “0”), then press OK. 3. Navigate to I/O > S In. 4. Move the cursor to point to the status input you want to set up, then press Edit. 5.
Chapter 6—Input / Output PowerLogic™ PM5300 series user guide Digital output applications Digital outputs are typically used in switching applications, for example, to provide on/off control signals for switching capacitor banks, generators, and other external devices and equipment. They can also be used in demand synchronization applications, where the meter provides pulse signals to the input of another meter to control its demand period.
PowerLogic™ PM5300 series user guide Chapter 6—Input / Output Configuring digital outputs using ION Setup You can use ION Setup to configure the digital outputs (D1 and D2). 1. Start ION Setup. 2. Connect to your meter 3. Navigate to I/O configuration > I/O Setup. 4. Select a digital output to configure and click Edit. The setup screen for that digital output is displayed. 5. Enter a descriptive name for the digital output’s Label. 6. Configure the other setup parameters as required. 7.
Chapter 6—Input / Output PowerLogic™ PM5300 series user guide Digital output setup parameters available through ION Setup (continued) Parameter Values 1. Over Current, Ph; 2. Under Current, Ph; 3. Over Current, N; 4. Over Current Gnd; 5. Over Voltage, L-L; 6. Under Voltage, L-L; 7. Over Voltage, L-N; 8. Under Voltage L-N; 9. Over kW; Description 10. Over kVAR; 11. Over kVA; 12. Lead PF, True; 13. Lag PF, True; 14. Lead PF, Disp; 15. Lag PF, Disp; 16. Over kW Dmd, Pres; 17.
PowerLogic™ PM5300 series user guide Chapter 6—Input / Output 4. Move the cursor to point to the digital output you want to set up, then press Edit. 5. Move the cursor to point to the parameter you want to modify, then press Edit. NOTE: If Edit is not displayed, it means the parameter is either read-only or can only be modified through software. 6. Modify the parameter as required, then press OK. 7.
Chapter 6—Input / Output PowerLogic™ PM5300 series user guide Digital output setup parameters available through the front panel (continued) Parameter Select Dmd System Values Power, Current 1. Over Current, Ph; 2. Under Current, Ph; 3. Over Current, N; 4. Over Current Gnd; 5. Over Voltage, L-L; 6. Under Voltage, L-L; 7. Over Voltage, L-N; 8. Under Voltage L-N; 9. Over kW; Description Applies when Control Mode is set to Demand Sync. Select the demand system to monitor. 10.
PowerLogic™ PM5300 series user guide Chapter 6—Input / Output Relay output applications Relay outputs are typically used in switching applications, for example, to provide on/off control signals for switching capacitor banks, generators, and other external devices and equipment. DANGER HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH • Apply appropriate personal protective equipment (PPE) and follow safe electrical work practices. See NFPA 70E in the USA or applicable local standards.
Chapter 6—Input / Output PowerLogic™ PM5300 series user guide Relay output setup parameters available through ION Setup (continued) Parameter Values Description • • • Behavior Mode Normal, Timed, Coil Hold On Time (s) 0 to 9999 1. Over Current, Ph; 2. Under Current, Ph; 3. Over Current, N; 4. Over Current, Gnd; 5. Over Voltage, L-L; 6. Under Voltage, L-L; 7. Over Voltage, L-N; 8. Under Voltage L-N; 9. Over kW; Normal: this mode applies when control mode is set to External or Alarm.
PowerLogic™ PM5300 series user guide Chapter 6—Input / Output Configuring relay outputs using the front panel You can use the front panel to configure the relay outputs. Relay output setup menu tree Maint Reset Meter Setup Comm LED Alarm S In I/O D Out HMI Relay Clock 1. Navigate to Maint > Setup. 2. Enter the setup password (default is “0”), then press OK. 3. Navigate to I/O > Relay. 4. Move the cursor to point to the relay output you want to set up, then press Edit. 5.
Chapter 6—Input / Output PowerLogic™ PM5300 series user guide Relay output setup parameters available through the front panel (continued) Parameter On Time (s) Values 0 to 65535 1. Description This defines the pulse width (ON time) in seconds. Over Current, Ph; 2. Under Current, Ph; 3. Over Current, N; 4. Over Current, Gnd; 5. Over Voltage, L-L; 6. Under Voltage, L-L; 7. Over Voltage, L-N; 8. Under Voltage L-N; 9. Over kW; 10. Over kVAR; 11. Over kVA; 12. Lead PF, True; 13.
PowerLogic™ PM5300 series user guide Chapter 6—Input / Output Configuring the LED or digital output for energy pulsing using ION Setup You can use the ION Setup to configure your meter’s LED or digital output for energy pulsing. 1. Start ION Setup. 2. Connect to your meter 3. Navigate to I/O configuration > Energy Pulsing. 4. Select the LED or a digital output to configure and click Edit. The setup screen is displayed. 5. Enter a descriptive name for the digital output’s Label. 6.
Chapter 6—Input / Output PowerLogic™ PM5300 series user guide 4. Move the cursor to point to the parameter you want to modify, then press Edit. Alarm / energy pulsing LED parameters available through the front panel Parameter Values Description Mode Off, Alarm, Energy Disabled turns off the LED completely. Alarm sets the LED for alarm notification. Energy sets the LED for energy pulsing. Pulse Wt.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms Chapter 7—Alarms This section describes the alarm features on PM5300 series Power and Energy meters. About Alarms The ! 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 “Alarm / energy pulsing LED setup” on page 60 for more information.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms • • Dropout Setpoint (magnitude) Dropout Time Delay (in seconds) Table 7–1: List of Standard 1-Second Over/Under Alarms Alarm Number 64 Alarm Label 01 Over Current, Phase 02 Under Current, Phase 03 Over Current, Neutral 04 Over Current, Ground 05 Over Voltage, L-L 06 Under Voltage, L-L 07 Over Voltage, L-N 08 Under Voltage L-N 09 Over kW 10 Over kVAR 11 Over kVA 12 Lead PF, True 13 Lag PF, True 14 Lead PF, Disp 15 Lag
PowerLogic™ PM5300 series user guide Chapter 7—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.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms Unary Alarms The power meter has four unary alarms. These alarms help to 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. Alarm Priorities Each alarm has a priority level.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms Setting Up 1-Second Alarms To set up a standard alarm: 1. Press 1-Sec. The 1-second alarm Select screen appears. 2. Press ▼ and ▲ to scroll through the list of standard 1– second alarms. 3. Press Edit to select an alarm to be configured. 4. Press Edit to select Pickup Setpoint. 5. Press + to increment the active digit through the numerals 0-9. 6. Press to enter the selected value for the active digit and move to the next digit to the left. 7.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms Setting Up 1-Second Alarms (continued) 17. Press ▼ to select Priority, then press Edit. 18. Press + and - to scroll through priority options None, High, Medium, or Low. NOTE: See “Alarm Priorities” on page 66 for more information. 19. Press OK to set the priority. 20. Press ▼ to select Select Digital Output, then press Edit. 21. Press + and - to scroll through the list of digital outputs to associate with the alarm. 22.
PowerLogic™ PM5300 series user guide Setting Up Unary Alarms Chapter 7—Alarms To set up unary alarms: 1. Press Unary. The unary alarm Select screen appears. 2. Press ▼ and ▲ to scroll through the list of unary alarms. 3. Press Edit to select an alarm to be configured. 4. Press Edit to select Enable. 5. Press + and - to scroll between Yes and No. 6. Press OK to enable or disable the alarm. 7. Press ▼ to select Priority. 8. Press + and - to scroll through priority options Low, None, High, or Medium.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms Setting Up Digital Alarms To set up digital alarms: 1. Press Dig. The digital alarm Select screen appears. 2. Press ▼ and ▲ to scroll through the list of digital alarms. 3. Press Edit to select an alarm to be configured. 4. Press Edit to select Pickup Setpoint, then press Edit. 5. Press + and - to scroll between On and Off. 6. Press OK to enter the pickup setpoint. 7. Press ▼ to select Pickup Time Delay, then press Edit.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms Setting Up Digital Alarms (continued) 13. Press ▼ 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 ▼ 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 66 for more information. 18. Press OK to set the priority. 19.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms Viewing Alarm Activity and History There are two types of alarm entries: primary and secondary. The primary entry identifies the alarm. The secondary entries provide pickup and dropout information. The active alarm list holds 40 entries at a time. The list works as a circular buffer, replacing old entries as new entries over 40 are entered into the alarm event queue. The information in the alarm event queue reinitializes when the power meter resets.
PowerLogic™ PM5300 series user guide Chapter 7—Alarms Viewing Unacknowledged Alarms and the Alarm History Log 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 ▲ to scroll through the list of primary alarm events. 5. Press Detail to view pickup and dropout event details. 6. Press ▼ and ▲ to scroll through the pickup and dropout event details.
PowerLogic™ PM5300 series user guide 74 Chapter 7—Alarms © 2014 Schneider Electric All Rights Reserved
PowerLogic™ PM5300 series user guide Chapter 8—Data Logs Chapter 8—Data Logs This chapter briefly describes the following logs of the power and energy meter: • • Alarm Log User-defined data log Logs are files stored in the non-volatile memory of the power and energy meter and are referred to as “on-board logs”. Data Logs The PM5300 series records and stores readings at regularly scheduled intervals in one independent data log. This log will be in disabled state from the factory.
PowerLogic™ PM5300 series user guide Chapter 8—Data Logs Memory Allocation for Log Files Each file in the power and energy meter has a maximum memory size. Memory is not shared between the different logs, so reducing the number of values recorded in one log will not allow more values to be stored in different log. The following table lists the memory allocated to each log. Log Type Alarm Log Data Log Max.
PowerLogic™ PM5300 series user guide Chapter 9—Measurements and calculations Chapter 9—Measurements and calculations This section describes how the meter processes measured and calculated data. Real-time readings The power and energy meter measures currents and voltages, and reports in real time the RMS (Root Mean Squared) values for all three phases and neutral. The voltage and current inputs are continuously monitored at a sampling rate of 64 points per cycle.
Chapter 9—Measurements and calculations PowerLogic™ PM5300 series user guide Power factor min/max convention The meter uses the following convention for power factor minimums and maximums: • For negative PF readings, the minimum PF value is the measurement closest to -0 for PF readings between -0 to -1. For positive PF readings, the minimum PF value is the measurement closest to +1 for PF readings between +1 to +0.
PowerLogic™ PM5300 series user guide Chapter 9—Measurements and calculations IEEE mode In IEEE mode, the PF sign is determined by the type of load (inductive or capacitive) contributing to the reactive power component of apparent power. PF sign is positive (+) for capacitive loads (leading power factor). PF sign is negative (-) for inductive loads (lagging power factor). Related topics • • To change the HMI mode, see “Setting up regional settings” on page 39.
Chapter 9—Measurements and calculations PowerLogic™ PM5300 series user guide The following illustration shows the different ways power demand is calculated using the block interval method. In this example, the interval is set to 15 minutes. Block interval demand example Demand value is the average for the last completed interval Calculation updates every 15 seconds 15-minute interval 15 30 45 60 . Time (sec) ..
PowerLogic™ PM5300 series user guide Chapter 9—Measurements and calculations choose Cmd Sync Block (command-synchronized block demand) or Cmd Sync Roll Block (command-synchronized rolling block demand). Cmd Sync Roll Blk requires that you specify a subinterval. • Clock synchronized demand: This method allows you to synchronize the demand interval to the power meter’s internal real-time clock. This helps you synchronize the demand to a particular time, typically on the hour (for example, at 12:00 am).
Chapter 9—Measurements and calculations PowerLogic™ PM5300 series user guide Predicted demand example Beginning of interval Demand for last completed interval 15-minute interval Predicted demand if load is added during interval; predicted demand increases to reflect increased demand Partial Interval Demand Predicted demand if no load is added.
PowerLogic™ PM5300 series user guide Chapter 10—Multi-tariff feature Chapter 10—Multi-tariff feature This section describes how to set up different tariffs for storing energy values in registers that correspond to each of those tariffs. An example of when this feature can be used is when a utility has set up tariff schedules with different rates based on what day or time of day energy is consumed. The meter supports configuration of up to 4 different tariffs.
Chapter 10—Multi-tariff feature PowerLogic™ PM5300 series user guide Command mode overview You can use this mode to send a Modbus command to the device which sets the active tariff. This tariff is applied to the measured energy until you send another Modbus command that sets a different tariff. Related topics • Search PM5300 Modbus register list at www.schneider-electric.com to download the Modbus map.
PowerLogic™ PM5300 series user guide Chapter 10—Multi-tariff feature Tariff creation method Your device performs validation checks as you enter tariff information; it prompts you to change the information that you have entered or set the tariff to disabled if the tariff configuration is invalid. These checks can include: • Start and end times must be different (for example, you cannot create a tariff that starts at 02:00 and also ends at 02:00).
Chapter 10—Multi-tariff feature PowerLogic™ PM5300 series user guide Configuration 2: one season for weekends, with off-peak and shoulder hours, two seasons for weekdays, with shoulder hours Tariff Type Start date End date Start time End time 1 Every day January 1 December 31 23:00 04:59 2 Weekdays May 1 September 30 05:00 22:59 3 Weekdays October 1 April 30 05:00 22:59 4 Weekends January 1 December 31 05:00 22:59 All days have a tariff applied between 23:00 and 04:59, corres
PowerLogic™ PM5300 series user guide Chapter 10—Multi-tariff feature Configuring tariffs using the front panel This section explains how to use the front panel to set up tariffs. Tariff setup menu tree Maint Reset Meter Setup Comm Basic Advan Dmd Tariff Alarm I/O HMI Clock You can change the tariff mode using the front panel. When the meter is set to command mode for tariffs, the active tariff is controlled by Modbus commands sent from your energy management system or other Modbus master.
Chapter 10—Multi-tariff feature PowerLogic™ PM5300 series user guide Time of day mode tariff setup (continued) Parameter Values Description Start Month 1 to 12 Set the month that the tariff period starts, where 1 = January, 2 = February, 3 = March, 4 = April, 5 = May, 6 = June, 7 = July, 8 = August, 9 = September, 10 = October, 11 = November, 12 = December. Start Day 1 to 31 Set the day of the Start Month that the tariff period starts.
PowerLogic™ PM5300 series user guide Chapter 11—Power quality Chapter 11—Power quality This section describes the meter’s power quality features and how to access power quality data. The meter measures voltage and current harmonics up to the 31st harmonic, and calculates Total Harmonic Distortion (THD) and Total Demand Distortion (TDD and tdd). Harmonics overview Harmonics are integer multiples of the fundamental frequency of the power system.
Chapter 11—Power quality PowerLogic™ PM5300 series user guide THD and thd calculations The meter supports two methods of calculating total harmonic distortion: THD and thd. THD is a quick measure of the total distortion present in a waveform and is the ratio of harmonic content to the fundamental. The meter uses the following equation to calculate THD: HC THD = -------- 100 H1 Where H1 is equal to the fundamental harmonic. thd is an alternate method for calculating total harmonic distortion.
PowerLogic™ PM5300 series user guide Chapter 11—Power quality Example: 13th to 21st harmonics for line-to-neutral voltage Phase A Phase B Phase C The vertical axis of the harmonics graph indicates the harmonic’s magnitude as a percentage of the fundamental harmonic, and is scaled based on the largest harmonic displayed. At the top of each vertical bar is a marker that shows the maximum value of the harmonic.
Chapter 11—Power quality PowerLogic™ PM5300 series user guide Related topics 92 • See “Front panel display and meter setup” on page 31 for front panel menu navigation details. • Search PM5300 Modbus register list at www.schneider-electric.com to download the Modbus map.
PowerLogic™ PM5300 series user guide Chapter 12—Verifying accuracy Chapter 12—Verifying accuracy All meters are tested and verified at the factory in accordance with International Electrotechnical Commission (IEC) and American National Standards Institute (ANSI) standards. Your digital power meter does not require re-calibration. However, in some installations a final accuracy verification of the meters is required, especially if the meters will be used for revenue or billing applications.
Chapter 12—Verifying accuracy PowerLogic™ PM5300 series user guide A warm-up time of 30 minutes is recommended before beginning energy accuracy verification testing. At the factory, the meters are warmed up to their typical operating temperature before calibration to help ensure that the meters will reach their optimal accuracy at operating temperature. Most high precision electronic equipment requires a warm up time before it reaches its specified performance levels.
PowerLogic™ PM5300 series user guide Chapter 12—Verifying accuracy Verifying accuracy test The following are guidelines for testing the meter; your meter shop may have specific testing methods. DANGER HAZARD OF ELECTRIC SHOCK, EXPLOSION OR ARC FLASH • Apply appropriate personal protective equipment (PPE) and follow safe electrical work practices. See NFPA 70E in the USA or applicable local standards. • Turn off all power supplying this device before working on it.
Chapter 12—Verifying accuracy PowerLogic™ PM5300 series user guide 6. Depending on the method selected for counting the energy pulses, configure the meter’s alarm / energy LED or one of the digital outputs to perform energy pulsing. Set the meter’s energy pulse constant so it is in sync with the reference test equipment. 7. Perform accuracy verification on the test points. Run each test point for at least 30 seconds to allow the test bench equipment to read an adequate number of pulses.
PowerLogic™ PM5300 series user guide Chapter 12—Verifying accuracy Where: • • EM = energy measured by the meter under test ES = energy measured by the reference device or energy standard. NOTE: If accuracy verification reveals inaccuracies in your meter, they may be caused by typical sources of test errors. If there are no sources of test errors present, please contact your local Schneider Electric representative.
Chapter 12—Verifying accuracy PowerLogic™ PM5300 series user guide (Maximum pulse frequency)- = 3600 25- = 0.009 kW Maximum Ptot = 3600 -----------------------------------------------------------------------------------------------------------Kmax 9,999,999 Test points The meter should be tested at full and light loads and at lagging (inductive) power factors to help ensure testing over the entire range of the meter. The test amperage and voltage input rating are labeled on the meter.
PowerLogic™ PM5300 series user guide Chapter 13—Meter resets Chapter 13—Meter resets Reset commands clear the meter’s onboard data logs and related registers. Meter resets are typically performed after you make changes to the meter’s basic setup parameters (such as power system, frequency, or PT/CT settings), to clear invalid or obsolete data in preparation for putting the meter into active service. The meter reset commands are grouped into two categories: Global Resets and Single Resets.
Chapter 13—Meter resets PowerLogic™ PM5300 series user guide 5. Press Yes to confirm the reset or No to cancel and return to the previous screen. Single resets Single resets allow you to clear data only in a specific register or register type. 1. Navigate to Maint > Reset. 2. Move the cursor to point to Single Reset, then press Select. 3. Move the cursor to point to the parameter you want to reset, then press Reset.
PowerLogic™ PM5300 series user guide Chapter 13—Meter resets Alarm counter options (continued) Alarm counter Option Description Over kW Power Over kVAR Select which alarm counter register to reset from the power alarm condition counters. Over kVA Lead PF, True Power Factor Lag PF, True Lead PF, Disp Select which alarm counter register to reset from the power factor alarm condition counters.
Chapter 13—Meter resets 102 PowerLogic™ PM5300 series user guide © 2014 Schneider Electric All Rights Reserved
PowerLogic™ PM5300 User Guide Chapter 14—Maintenance and Upgrades Chapter 14—Maintenance and Upgrades Chapter 14 — Maintenance and Troubleshooting Password Recovery Alarms If you lose your password, contact technical support for password recovery assistance: • • Global-PMC-Tech-support@schneider-electric.com (00) + 1 (250) 544-3010 NOTE: Be sure to include your power meter’s serial number in your e-mail or have it readily available when calling technical support.
PowerLogic™ PM5300 series user guide Chapter 14—Maintenance and Upgrades Additional Meter Status Information Meter 1. Scroll to [Maint] in the menu list. 2. Press [Maint]. 3. Press [Diag]. 4. Press [Meter]. 5. View the power meter status. ▲ 6. Press to return to the Maintenance screen. Control Power 1. Scroll to [Maint] in the menu list. 2. Press [Maint]. 3. Press [Diag]. 4. Press [Cl Pwr]. 5. View control Power information. ▲ 6. Press to return to the Maintenance screen.
PowerLogic™ PM5300 User Guide Chapter 14—Maintenance and Upgrades Troubleshooting The information in Table 14–1 on page 106 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.
PowerLogic™ PM5300 series user guide Chapter 14—Maintenance and Upgrades Table 14–1: Troubleshooting Potential Problem Possible Cause Possible Solution Go to [Maint] > [Diag]. Event messages When the maintenance (wrench) icon The maintenance (wrench) display to indicate the reason the icon is is illuminated, it indicates an event icon is illuminated on the illuminated. Note these event messages and has occurred which may require power meter display. call the Technical Support or contact your attention.
Chapter 15—MID Compliance This section applies only to PM5331/PM5341(referred to in the section as the meter) and contains descriptions and procedures that supplement the meter installation sheet. The information contained here supports the meter’s declaration of compliance with the Measuring Instruments Directive (2004/22/EC).
Chapter 15—MID Compliance PowerLogic™ PM5300 series Intended use Indoor use only, permanently mounted in residential, commercial or light industrial applications, where levels of vibration and shock are of low significance Mechanical environment M1 Electromagnetic (EMC) environment E2 Active Accuracy Class (kWh) C(kWh) System types (for MID-compliant applications) • • Voltage at voltage terminals 3-phase 4-wire Wye grounded 3-phase 3-wire Wye ungrounded 3-phase 4-wire Wye grounded 3 x 63.
PowerLogic™ PM5300 series Chapter 15—MID Compliance Related topics • See “Meter mounting” on page 18 and “Meter wiring” on page 19 for additional information. Installing the terminal covers The voltage and current terminal covers help prevent tampering with the meter’s voltage and current measurement inputs. The terminal covers enclose the terminals, the conductor fixing screws and a suitable length of the external conductors and their insulation.
Chapter 15—MID Compliance PowerLogic™ PM5300 series Related topics • See “Front panel display and meter setup” on page 31 for detailed information on front panel menu navigation, LED indicators and display screen notification icons. Meter firmware version You can access information about the meter’s OS and RS firmware versions by navigating to Maint > Diag > Info.
PowerLogic™ PM5300 series Chapter 15—MID Compliance Lock-protected functions Menu Sub-menu Lock-protected function Global Resets • • Meter Initialization (all) Energies Single Resets • • Energy Multi-Tariff Resets Setting up the PM5331/PM5341 You must configure all the lock-protected setup parameters before locking the meter. When the meter is locked, those setup parameters cannot be edited. Basic setup menu See “Configuring the basic setup parameters” on page 34 to perform basic setup.
Chapter 15—MID Compliance PowerLogic™ PM5300 series Locking or unlocking the meter After you initialize the meter, you must lock it in order to conform to MID standards. 1. Navigate to Maint > Setup > Meter >Lock. 2. Press Edit to activate or deactivate the lock. 3. Enter your lock password. NOTE: The default password is 0000. To set up a new password see “Setting up lock password” on page 112. 4. Press + and - to scroll between Active and Inactive. 5. Press OK to select the option. 6.
PowerLogic™ PM5300 series user guide Glossary Glossary Terms accumulated energy—energy accumulates as either delivered to the customer or received from the customer. active alarm—an alarm that has been 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 (!).
PowerLogic™ PM5300 series user guide Glossary partial interval demand—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.
PowerLogic™ PM5300 series user guide Glossary Abbreviations A—Ampere Amps—Amperes Comms—Communications 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—Input/Output Imax—Current maximum demand k_h— kWh, kVARh or kVAh depending on the energy parameter selected kVA—Kilovolt-Ampere kVAD—Kilovolt-Ampere demand kVAR—Kilovolt-Ampere reactive kVARD—Kilovolt-Ampere reactive demand kVARH—Ki
PowerLogic™ PM5300 series user guide Glossary 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 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 116 © 2014 Schneider Electric
PowerLogic™ PM5300 series user guide Index A I advanced setup 41 alarm icon 66 LED 66 alarm LED 63 alarm Log 76 alarms 63 digital 65 setup 70 icon 63 LED 63 list of standard over/under 64 priorities 66 setup 66 digital 70 standard over/under 67 unary 69 standard over/under 63 setup 67 unary 66 setup 69 viewing activity 72 viewing history 72 icon B P block interval demand method alarm 63, 66 input synchronized demand 80 inputs accepting pulse from another meter LED 16 F firmware 9 functions and c
PowerLogic™ PM5300 series user guide 118 Index © 2014 Schneider Electric All Rights Reserved
PowerLogic and Schneider Electric are trademarks or registered trademarks of Schneider Electric in France, the USA and other countries. • This product must be installed, connected and used in compliance with prevailing standards and/or installation regulations. • If this product is used in a manner not specified by the manufacturer, the protection provided by the product may be impaired. Schneider Electric 35, rue Joseph Monier CS 30323 F - 92506 Rueil Malmaison Cedex www.schneider-electric.
