PowerSmart+ Advanced Power Quality Meter Installation and Operation Manual BG0546 Rev.
LIMITED WARRANTY The manufacturer offers the customer a 24-month functional warranty on the instrument for faulty workmanship or parts from date of dispatch from the distributor. In all cases, this warranty is valid for 36 months from the date of production. This warranty is on a return to factory basis. The manufacturer does not accept liability for any damage caused by instrument malfunction.
Chapter 1 General Information Table of Contents Chapter 1 General Information......................................................... 6 Chapter 2 Installation...................................................................... 10 Mechanical Installation ................................................................................... 10 Panel Mounting .......................................................................................................... 10 DIN Rail Mounting ....................
Chapter 1 General Information Communication Ports ................................................................................................. 45 Network Address ........................................................................................................ 46 Counters Setup .......................................................................................................... 46 Control Setpoint Setup ........................................................................................
Chapter 1 General Information Remote Device Control ................................................................................. 102 Remote Relay Control............................................................................................... 103 Event Flags .............................................................................................................. 103 Device Diagnostics ...................................................................................................
Chapter 1 General Information Mechanical Installation Chapter 1 General Information The PowerSmart+ Advanced Power Quality Meter is a compact, multifunction, three-phase AC power-meter and power quality analyzer specially designed to meet the requirements of users ranging from electrical panel builders to substation operators. Bright 3-row LED display provides easy local meter readings. The display module is freely detachable and can be located at a distance of up to 1000 meters from the device.
Chapter 1 General Information Mechanical Installation • 16 data recorders; programmable data logs on a periodic basis and on any internal and external trigger • Two waveform recorders; simultaneous 6-channel AC recording in a single plot; sampling rate of 32, 64 and 128 samples per cycle; 20 pre-fault cycles; up to 30 seconds of continuous recording at a rate of 32 samples per cycle • EN50160 Power Quality recorder (EN50160 compliance statistics, EN50160 harmonics survey statistics, onboard power qua
Chapter 1 General Information Mechanical Installation Measured Parameters Parameter 1-cycle Real-time Measurements RMS Voltage per phase RMS Current per phase kW per phase kvar per phase kVA per phase Power Factor per phase Total kW Total kvar Total kVA Frequency Neutral Current Total Power Factor Voltage & Current unbalance 1-sec Average Measurements RMS Voltage per phase RMS Current per phase kW per phase kvar per phase kVA per phase Power Factor per phase Total kW Total kvar Total kVA Total Power Facto
Chapter 1 General Information Parameter Harmonic Measurements Voltage THD per phase Current THD per phase Current TDD per phase K-factor per phase Voltage harmonics per phase up to order 50 Current harmonics per phase up to order 50 Voltage harmonic angles up to order 50 Current harmonic angles up to order 50 Fundamental Component Voltage and Current per phase kW, PF per phase kvar, KVA per phase Total kW, PF Total kvar, KVA Min/Max Logging Min/Max A, V, total kW, kvar, kVA, PF Min/Max Frequency, Neutral c
Chapter 2 Installation Mechanical Installation Chapter 2 Installation Mechanical Installation Panel Mounting Figure 2-1 Dimensions 10 PowerSmart+ Advanced Power Quality Meter
Chapter 2 Installation Mechanical Installation Figure 2-2 STEP 1 (ANSI 4" round cutout): Mount the display module in cutout Figure 2-3 STEP 1 (DIN 92x92mm square cutout): Mount the display module in cutout PowerSmart+ Advanced Power Quality Meter 11
Chapter 2 Installation Mechanical Installation Figure 2-4 STEP 2: Assemble the four locating studs Figure 2-5 STEP 3: Slide and position the meter on locating studs Figure 2-6 STEP 4: Affix the meter using the thumb nuts 12 PowerSmart+ Advanced Power Quality Meter
Chapter 2 Installation Mechanical Installation DIN Rail Mounting The PowerSmart+ Advanced PQM can be mounted on a 35-mm DIN rail. The display module is mounted separately on the switchboard panel and is connected to the meter by a communication cable (see Remote Display Installation).
Chapter 2 Installation Remote Display I N S T A L L A T I O N Remote Display Installation Mechanical Installation Standard Cutouts (ANSI 4" round or DIN 92x92 mm square) Figure 2-9 Display cutout dimensions STEP 1: Insert the display module into cutout. STEP 2: Fasten washers and nut on screws.
Chapter 2 Installation Remote Display I N S T A L L A T I O N Special Cutout Figure 2-11 Panel cutout dimensions Figure 2-12 Display mounting Electrical Connection The remote display is connected to the meter via a 3-wire or 5-wire communication cable provided with two 15-pin D-type connectors.
Chapter 2 Installation Remote Display I N S T A L L A T I O N At distances of up to 100 m, the display receives power through the communication cable directly from the meter. Connect pins 1 and 8 on both sides as shown in Figure 2-13. At distances above 100 m, supply power from a separate 12V DC power source (a 12V AC/DC adapter can be used). Connect the positive wire to pin 1 and the negative wire to pin 8 as shown in Figure 2-14.
Chapter 2 Installation Electrical Installation Electrical Installation Before installation ensure that all incoming power sources are shut OFF. Failure to observe this practice can result in serious or even fatal injury and damage to equipment. Typical Installation DIGITAL INPUTS + - + 2 1 ANALOG INPUTS ANALOG OUTPUTS COM.1 RELAYS COM.
Chapter 2 Installation Electrical Installation Terminals AC Current Inputs Relay Outputs Analog Inputs/Outputs Digital Inputs 18 19 20 1 2 DIGITAL INPUTS 21 22 23 24 25 + - + 2 1 ANALOG INPUTS ANALOG OUTPUTS 26 27 28 29 1 2 RELAYS + 1 1 - 3 2 V1 S/N POWER SUPPLY 5 V2 90-264VAC 50/60Hz STANDARD 10W 85-290VDC (12) 10-16VDC LOW DC (24) 18-36VDC (48) 36-72VDC 8 V3 AC Voltage Inputs COM1 Port 11 VN COM.
Chapter 2 Installation Electrical Installation Wiring Configuration Setup Code Figure 3-wire 2-element Direct connection using 2 CTs 3dir2 2-17 4-wire Wye 3-element direct connection using 3 CTs 4Ln3 or 4LL3 2-18 4-wire Wye 3-element connection using 3 PTs, 3 CTs 4Ln3 or 4LL3 2-19 3-wire 2-element Open Delta connection using 2 PTs, 2 CTs 3OP2 2-20 4-wire Wye 2½ -element connection using 2 PTs, 3 CTs 3Ln3 or 3LL3 2-21 3-wire 2½ -element Open Delta connection using 2 PTs, 3 CTs 3OP3 2-22
Chapter 2 Installation Electrical Installation Figure 2-18 4-Wire Wye 3-Element Direct Connection Using 3 CTs. Wiring Mode = 4LL3 or 4Ln3 Figure 2-19 4-Wire Wye 3-Element Connection Using 3 PTs, 3 CTs.
Chapter 2 Installation Electrical Installation Figure 2-20 3-Wire 2-Element Open Delta Connection Using 2 PTs, 2 CTs. Wiring Mode = 3OP2 Figure 2-21 4-Wire Wye 2½-Element Connection Using 2 PTs, 3 CTs.
Chapter 2 Installation Electrical Installation Wiring Mode = 3LL3 or 3Ln3 This configuration provides accurate power measurements only if the voltages are balanced. Figure 2-22 3-Wire Open 2½-Element Delta Connection Using 2 PTs, 3 CTs.
Chapter 2 Installation Electrical Installation Figure 2-23 4-Wire 3-Element Delta Direct Connection Using 3 CTs. Wiring Mode = 4LL3 or 4Ln3 Figure 2-24 3-Wire 2½-Element Broken Delta Connection Using 2 PTs, 3 CTs.
Chapter 2 Installation 24 Electrical Installation PowerSmart+ Advanced Power Quality Meter
Chapter 2 Installation I/O Connections I/O Connections For I/O ratings, see “Technical Specifications” in Appendix A. Relay Outputs LOAD LOAD N 10A FUSE LINE 21 22 23 24 25 + - + 2 1 ANALOG INPUTS ANALOG OUTPUTS 18 19 20 1 2 DIGITAL INPUTS 26 27 28 29 1 2 RELAYS + 1 1 - 3 2 V1 S/N O 1A CT. 690V + P 5A CT. OPT.
Chapter 2 Installation I/O Connections Analog Outputs LOAD SHIELD + _ PROTECTIVE GROUND _ + 18 19 20 21 22 23 24 25 + - + 2 1 ANALOG INPUTS ANALOG OUTPUTS 1 2 DIGITAL INPUTS 26 27 28 29 1 2 RELAYS + 1 1 - 3 2 V1 S/N POWER SUPPLY 90-264VAC 50/60Hz 5 V2 STANDARD 10W 85-290VDC O 1A CT. 690V P 5A CT. OPT.
Chapter 2 Installation Communications Connections Communications Connections Several communication options are available for the PowerSmart+ Advanced: COM1 (check the label on the back of your meter): RS-232/RS-422/RS-485 56K Dial-up modem Ethernet 10/100BaseT COM2: RS-422/RS-485 The RS-232/RS-422/RS-485 port is a standard port for COM1. Other options are ordered separately.
Chapter 2 Installation POWERSMART+ ADV. RS232 MALE CON. Communications Connections IBM PC/COMPATIBLE 25-PIN DB25 FEMALE CON. POWERSMART+ ADV. IBM PC/COMPATIBLE RS232 MALE CON. RS-232 SIMPLE 3-WIRE CONNECTION 25-PIN 9-PIN DB9 FEMALE CON. RS-232 SIMPLE 3-WIRE CONNECTION 9-PIN Figure 2-29 COM1: RS-232 Cable Drawings COM1 RSRS-422/485 Connection V2 (12) 10-16VDC LOW DC (24) 18-36VDC (48) 36-72VDC 8 N S COM.
Chapter 2 Installation Communications Connections COM1 Dial Up Modem Connection AC0140 05-12001-3 Figure 2-31 COM1: Telephone Line Connection COM1 Ethernet Connection AC0139 RJ45 05-12001-4 Figure 2-32 COM1: Ethernet Connection PowerSmart+ Advanced Power Quality Meter 29
Chapter 2 Installation Communications Connections COM2 RSRS-422/485 Connection V2 (12) 10-16VDC LOW DC (24) 18-36VDC (48) 36-72VDC 8 N S COM.1 : RS-232/422/485 STANDARD ETHERNET 3 MODEM PROFIBUS ANALOG IN/OUT : +1mA + 7 0-20mA 3 0-1mA 4-20mA - 9 ATTENTION V 5 9 VN N/- 10 POWER SUPPLY COM.2 L/+ 12 RS-422/RS-485 COM.
Chapter 2 Installation Communications Connections Figure 2-33 COM2: RS-485 2 Wire Connection V2 (12) 10-16VDC LOW DC (24) 18-36VDC (48) 36-72VDC 8 COM.1 : RS-232/422/485 STANDARD ETHERNET 3 MODEM PROFIBUS V 11 VN COM.1 5 9 1 6 N S ANALOG IN/OUT : +1mA + 7 0-20mA 3 0-1mA - 9 4-20mA ATTENTION Static-Sensitive Devices Handle Only at N/Static-Safe Workstations 10 POWER SUPPLY COM.
Chapter 3 Display O P E R A T I O N S I N D I C A T O R S A N D C O N T R O L S Chapter 3 Display Operations Displayed Parameters Load Bar Graph Measurement Units Wh/varh Pulse LED Port Activity LEDs Navigation Buttons Indicators and Controls Display Diagnostics diSP Con.Err The display may indicate a connection error as shown on the left picture if it fails to establish a connection with the meter. Check the connection between the display module and the meter body.
Chapter 3 Display O P E R A T I O N S D A T A D I S P L A Y Energy Pulse LED The PowerSmart+ Advanced PQM has a red “Energy Pulse” LED. It flashes at a constant rate when a load is applied to the meter. There are two modes of LED operation: normal and test. In normal mode, the LED pulses indicate imported Wh at a rate of 1,000 pulses per kWh. In test mode, the LED pulses indicate either imported Wh, or imported (inductive) varh at a rate of 10,000 pulses per kWh/kvarh.
Chapter 3 Display D A T A O P E R A T I O N S D I S P L A Y Phase Power Readings In configurations with the neutral wire, in addition to total three-phase powers, the meter can show per-phase power readings. By default, they are disabled. See Display Setup on how to enable per-phase power readings in your meter. Fundamental Component The meter can display total power factor and active power for the fundamental component if it is enabled through the Display Setup menu.
Chapter 3 Display D A T A O P E R A T I O N S D I S P L A Y Simple Reset of Accumulated Data When the meter is not password protected, or the simple reset of data is allowed from the display regardless of the security setting (see Display Setup), the meter allows the simple “two-button’ reset of the Min/Max registers, maximum demands, energies, and counters from the data display mode without entering the reset menu: 1.
Chapter 3 Display D A T A O P E R A T I O N S D I S P L A Y Common Measurements (Main Display) H1.L2 Fundamental phase L2 powers PF (if enabled) kW/MW H1.L3 Fundamental phase L3 powers PF (if enabled) kW/MW An.In Analog inputs (optional) AI1 AI2 14 15 16 Min/Max and Max. Demands Display Press the MIN/MAX button. The MIN/MAX LED, or MAX DEMAND LED in the PowerSmart+ Advanced PQM, is illuminated when in the MIN/MAX display. Use the UP and DOWN arrow buttons to scroll through the Min/Max and Max.
Chapter 3 Display D A T A O P E R A T I O N S D I S P L A Y the UP and DOWN arrow buttons to scroll through harmonics and power quality measurements. Note that voltage harmonics readings are line-to-neutral in the 4LN3, 3LN3 and 3BLN3 wiring modes, and line-to-line in all other modes. PQ ESC 1 thd. 2 thd. 3 tdd.
Chapter 3 Display D A T A O P E R A T I O N S D I S P L A Y Along with total energies, per phase energy accumulators are displayed if phase energy calculation is enabled in the Device Options menu. ENERG 1 Y 2 3 4 5 6 7 8 9 10 11 12 13 14 Ac.En. IP. MWh rE.En. IP. Mvarh AP.En. MVAh Ac.En. EP. MWh rE.En. EP. Mvarh Ac.En. IP.L1. MWh rE.En. IP.L1. Mvarh AP.En. L1. MVAh Ac.En. IP.L2. MWh rE.En. IP.L2. Mvarh AP.En. L2. MVAh Ac.En. IP.L3. MWh rE.En. IP.L3. Mvarh AP.En. L3.
Chapter 3 Display S T A T U S O P E R A T I O N S ENERG D I S P L A Y TOU Energy Register 8 Y 8 rEG.8 trF.8 MWh Tariff 8 reading Status Display SELECT StA OPS CHG ENERG Y The meter has separate status information pages accessible through the primary device menu. The Status Display shows rarely used information that is especially helpful when connecting the meter inputs and outputs to external equipment. For information on navigating in the menus, see Using the Menus.
Chapter 3 Display U S I N G O P E R A T I O N S T H E M E N U S Using the Menus Navigation Buttons THD/TDD ESC SELECT ENERGY ENTER The PowerSmart+ Advanced PQM has a menu-driven setup. To enter the menus, press and release the SELECT button. The SELECT button selects (highlights) an active window in which you can select or change a desired menu item. The button operates once it’s briefly pressed and released.
Chapter 3 Display U S I N G O P E R A T I O N S T H E M E N U S If authorization is not required, just press the ENTER button to move to the Main menu; otherwise you should enter a correct password to be authorized to access the meter setup. PASS 0000 PASS 0201 ENERGY ENTER To enter the password: Adjust the first digit with the UP and DOWN arrow buttons. Press the SELECT button to advance to the next digit. Adjust the remaining password digits in the same manner.
Chapter 3 Display M E N U O P E R A T I O N S SELECT bASc Pt 1.0 bASc Pt 200.0 ENERGY ENTER O P E R A T I O N S bASc Pt 200.0 THD/TDD ESC If a number represents the parameter, adjust it to the desired value with the UP and DOWN arrow buttons. When briefly pressed, the button increments or decrements the number by one. When the button is pressed continuously, the number is changed approximately twice per second.
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S Label Parameter Options Default Description Ct CT primary current 1-20,000 A 5A The primary rating of the phase current transformer d.P Power block demand period 1, 2, 3, 5, 10, 15, 20, 30, 60 min, E=external sync 30 min The length of the demand period for power demand calculations. If the external synchronization is selected, a pulse front on the digital input DI1 denotes the start of the demand interval. nd.
Chapter 3 Display M E N U O P E R A T I O N S Label Parameter Options Default O P E R A T I O N S Description P.cAL Power calculation mode rEAc (reactive power), Reactive nAct (non-active power) The method used for calculating reactive and apparent powers roLL Energy roll valueE 10.E4=10,000 10.E5=100,000 10.E6=1,000,000 10.E7=10,000,000 10.E8=100,000,000 10.E9=1,000,000,000 10.E9 The value at which energy counters roll over to zero Ph.
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S Communication Ports Prt.1 Prot rtu These two menus allow you to configure parameters for communication ports COM1 and COM2. To enter the menu, select “Prt.1” for COM1 or “Prt.2” for COM2 from the main menu, and then press the ENTER button. To select a setup option: Press the SELECT button to activate the middle window. Use the UP and DOWN arrow buttons to scroll to the desired option.
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S COM2 Settings Label Parameter Default Description Prot Communications rtu = Modbus RTU protocol ASCII = Modbus ASCII dnP3 = DNP3 Modbus RTU The communications protocol supported by the port rS Port interface 485 = RS-485 422 = RS-422 RS-485 Addr Device address Modbus: 1-247 DNP3: 0–65532 1 bAud Baud rate 300-115200 bps Data format and 7E, 8N, 8E parity dAtA Options Device network address 19200 bps The port baud rate 7
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S Use the UP and DOWN arrow buttons to enter the desired multiplier. Press ENTER to confirm your changes and to store the new settings, or press ESC to discard changes. You are returned to the upper window to select another counter or exit the menu. To exit the menu, press ESC. The following table lists available counter options. Parameter Options Default Description Pulse source None = disabled Inp.1 = DI1 Inp.
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S The following table lists available setpoint options. For a list of available setpoint triggers and actions, see Using Control Setpoints in Chapter 4. SP.1 OFF. 180 SEtP Act.1 rEL.1 Label LGC.2LGC.4 Parameter Options Logical operator OR, AND TrG.1-TrG.
Chapter 3 Display M E N U O P E R A T I O N S Label O P E R A T I O N S Parameter Zero scale Options Description Lo 0-999,999 The low engineering scale (in primary units) for the analog input corresponding to a lowest (zero) input current (0 or 4 mA) Hi Full scale 0-999,999 The high engineering scale (in primary units) for the analog input corresponding to a highest input current (1 or 20 mA) dEc.
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S Analog Expander Setup The meter can provide 16 additional analog outputs via two optional AX-8 analog expanders that are connected through a serial RS-422 interface to the meter port COM2. Each expander has its own address 0 or 1 on the serial interface. This menu allows you to assign parameters for the expanded analog outputs and to specify their scales.
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S Analog expander outputs are not operational until you globally enable the analog expander option in your meter through the Device Options menu. Timers Setup t-r t-r.1 0 The PowerSmart+ Advanced PQM is provided with four interval timers. When enabled, a timer generates periodic events in predefined intervals that can trigger setpoints to produce periodic actions like periodic data trending.
Chapter 3 Display M E N U O P E R A T I O N S Label O P E R A T I O N S Parameter Primary/Secondary volts units Options Default Description Uolt Pri, SEc Primary Selects primary or secondary units for volts display Ph.P Phase powers display mode diS, En Disabled Disables or enables phase powers in the main display Fund.
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S Setting the Device Clock hour 17.43. To enter the menu, select the “rtc” entry from the main menu and press the ENTER button. This menu allows you to set up the device clock and to configure your local time zone settings. To select a setup option, use the UP and DOWN arrow buttons from the upper window. dAtE 01.23.
Chapter 3 Display M E N U O P E R A T I O N S O P E R A T I O N S The Reset menu allows you to separately reset minimum/maximum log records, maximum demands and counters. To reset the desired registers: Highlight the middle window by pressing briefly the SELECT button. Select the desired entry by scrolling through the list with the UP and DOWN arrow buttons until the desired entry appears. Press the SELECT button briefly to highlight the lower item. Press and hold the ENTER button for 5 seconds.
Chapter 4 Power S O F T W A R E C O N F I G U R A T I O N D A T A B A S E Chapter 4 Power Software Supplemental Power Software tool can be used for configuring the PowerSmart+ Advanced PQM through communication ports, for retrieving real-time and recorded data, and for remote upgrading device firmware. For information on how to install Power Software on your PC, see the “Power Software Getting Started” guide supplied on the installation CD.
Chapter 4 Power S O F T W A R E S E T T I N G U P C O M M U N I C A T I O N S Set the device communication address you assigned to the PowerSmart+ Advanced PQM. In the “Sampling Rate” box, select a rate at which Power Software updates data on your screen when you continuously poll the device in the Power Software Data Monitor. The communication protocol and port settings in Power Software must match the settings made in your device.
Chapter 4 Power S O F T W A R E S E T T I N G U P T H E M E T E R Communicating through a DialDial-up Modem Configuring a Modem On the Connection tab, select a local modem installed on your PC. Click on Phones to add the phone number of the remote meter to the phone list. Type the phone number in the “Phone number” box, add comments if you desire, click Add, and then click OK. From the “Phone number” box on the Connection tab, select the phone number from the list, and then click OK.
Chapter 4 Power A U T H O R I Z A T I O N S O F T W A R E Select the device site from the list box on the Power Software toolbar, and then select the desired setup group from the Meter Setup menu. Click on the tab with the setup you want to create or modify, and then fill in the boxes with the desired configuration data for your device. Click the “Save as…” button to store the data to the site database. Always set up and store the Basic Setup data to the site database first.
Chapter 4 Power S O F T W A R E C O N F I G U R I N G C O M M U N I C A T I O N S I N Y O U R M E T E R Setting Up Communication Ports To enter the setup dialog, select the device site from the list box on the Power Software toolbar, select Communications Setup from the Meter Setup menu, and then click on the Serial Ports Setup tab. In the Port box, select the desired device port. To change the port settings in your meter, select desired port parameters, and then click Send.
Chapter 4 Power G E N E R A L S O F T W A R E M E T E R S E T U P The following table lists available network options. Parameter Options Device IP Address Default 192.168.0.203 Network Subnet Mask 255.255.255.0 Network Default Gateway 192.168.0.1 TCP Service Port 502 = Modbus/TCP 20000 = DNP3/TCP 502 The TCP service port can also be changed trough the COM1 serial port setup: changing the protocol for the port automatically changes the TCP port for the Ethernet.
Chapter 4 Power G E N E R A L S O F T W A R E M E T E R S E T U P The following table lists available device configuration options. Parameter Options Default Description Basic Configuration Wiring mode See Table below 4LN3 The wiring connection of the device PT ratio1 1.0-6500.0 1.
Chapter 4 Power G E N E R A L S O F T W A R E M E T E R S E T U P 1 PT Ratio is defined as a relation of the potential transformer’s primary voltage rating to its secondary rating. For example, for the 14,400 V transformer’s primary rating and 120 V secondary rating, the PT Ratio = 14400/120 = 120. Available wiring modes are listed in the following table.
Chapter 4 Power G E N E R A L S O F T W A R E Parameter Power Calculation Mode Options Default M E T E R S E T U P Description S=f(P, Q) (using reactive power), Q=f(S, P) (using non-active power) S=f(P, Q) The method used for calculating reactive and apparent powers (see “Power Calculation Modes” below) Energy Roll Value 1000.0 kWh 10000.0 kWh 100000.0 kWh 1000000.0 kWh 10000000.0 kWh 100000000.0 kWh 100000000.
Chapter 4 Power G E N E R A L S O F T W A R E M E T E R S E T U P The available options are described in the following table: Parameter Country Options Default, or country name Default Daylight savings time Disabled Enabled DST start month DST start week DST start weekday DST end month DST end week DST end weekday Time synchronization input Default Description Defines calendar setting. The default setting stands for the U.S.A. When DST is disabled, the RTC operates in standard time only.
Chapter 4 Power G E N E R A L S O F T W A R E M E T E R S E T U P Using Digital Inputs The meter is provided with two digital inputs that can trigger the alarm/control setpoints to give an alarm on input status change, or can be linked to the energy/TOU registers to count pulses from external watt meters, or gas and water meters.
Chapter 4 Power G E N E R A L S O F T W A R E M E T E R S E T U P event, or by a remote command sent through communications, and can also be linked to an internal pulse source to produce energy pulses.
Chapter 4 Power G E N E R A L S O F T W A R E Parameter Options Pulse width 20-1000 ms Default 100 ms M E T E R S E T U P Description The actual pulse width is a multiple of the 1/2-cycle time rounded to the nearest bigger value. The pause time between pulses is equal to the pulse width. Pulse source NONE NONE Links a pulse relay to the internal energy pulse source. The relay must be set into either pulse, or KYZ mode. 1.
Chapter 4 Power G E N E R A L S O F T W A R E Option AI type Range 0-1mA ±1mA 0-20mA M E T E R S E T U P Description The analog input type. When connected to the meter, shows the actual type received from the device. When working off-line, select the analog input option corresponding to your meter.
Chapter 4 Power G E N E R A L S O F T W A R E Option AO type Range 0-1mA ±1mA 0-20mA M E T E R S E T U P Description The analog output type. When connected to the meter, shows the actual AO type read from the device. When working off-line, select the analog output option corresponding to your meter. 4-20mA Output parameter See Appendix B Selects the measured parameter to be transmitted through the analog output channel.
Chapter 4 Power S O F T W A R E G E N E R A L M E T E R S E T U P If the parameter represents a signed (directional) value, you should provide only the engineering scale for the +1 mA output current. The engineering scale for the 0 mA output current is always equal to zero for all values except the signed power factor, for which it is set to 1.000 (see “Scaling Directional Power Factor” above). The device does not allow you access to this setting if the parameter is directional.
Chapter 4 Power G E N E R A L S O F T W A R E Option Output parameter Range See Appendix B M E T E R S E T U P Description Selects the measured parameter to be transmitted through the analog output channel.
Chapter 4 Power G E N E R A L S O F T W A R E M E T E R S E T U P Using Periodic Timers The PowerSmart+ Advanced PQM provides two programmable interval timers that can be used for periodic recording and triggering operations on a time basis via the Control Setpoints. When a timer interval expires, the timer generates an internal event that can trigger any setpoint (see Using Control Setpoints).
Chapter 4 Power G E N E R A L S O F T W A R E M E T E R S E T U P The available setpoint options are described in the following table. Option Range OR/AND OR, AND Trigger parameter See Appendix C Description Triggers The logical operator for the trigger The trigger parameter that is used as an argument in the logical expression Operate limit The threshold (in primary units) at which the conditional expression would be evaluated to true. Not applicable for digital triggers.
Chapter 4 Power S O F T W A R E G E N E R A L M E T E R S E T U P anyway when the trigger condition is asserted, and with the AND operator, if the setpoint should not be operated while the critical trigger is not asserted. Using Numeric Triggers For numeric (analog) triggers, a setpoint allows you to specify two thresholds for each trigger to provide hysteresis (dead band) for setpoint operations.
Chapter 4 Power S O F T W A R E G E N E R A L M E T E R S E T U P You can exercise the default setting for Setpoint #1 in your device as an example of using time triggers. The setpoint is pre-programmed for data profiling at 15-minute intervals using data logs #1 and #2. Delaying Setpoint Operations Two optional delays can be added to each setpoint to extend monitoring setpoint triggers for a longer time before making a decision on whether the expected event occurred or not.
Chapter 4 Power C O N F I G U R I N G S U M M A R Y E N E R G Y A N D T O U R E G I S T E R S S O F T W A R E Configuring Summary Energy and TOU Registers The PowerSmart+ Advanced PQM provides 8 total (summary) energy and 8 concurrent tariff energy and maximum demand registers that can be linked to any internal energy source or to any external pulse source that delivers pulses through the device digital inputs. The meter tariff structure supports 8 different tariffs using an arbitrary tariff schedule.
Chapter 4 Power C O N F I G U R I N G S U M M A R Y E N E R G Y A N D T O U R E G I S T E R S S O F T W A R E Parameter Use Profl Options Unchecked Checked Dmd Profl Default Unchecked Unchecked Enables automatic daily profiling for maximum demand registers (both total and tariff registers if TOU is enabled) Unchecked Enables daily profiling for summary registers (total of all tariffs) None The register measurement units.
Chapter 4 Power S O F T W A R E C O N F I G U R I N G S U M M A R Y E N E R G Y A N D T O U R E G I S T E R S Select the start time for each tariff change point and the corresponding active tariff number. Repeat the setup for all active profiles. The first tariff change point is fixed at 00:00 hours, and the last tariff change you specified will be in use until 00:00 hours on the next day.
Chapter 4 Power C O N F I G U R I N G S O F T W A R E R E C O R D E R S Configuring Recorders The PowerSmart+ Advanced PQM is provided with a 1-Megabyte onboard nonvolatile memory for data, event and waveform recording. Before using recorders, the device memory should be partitioned between log files. The device memory is fully configurable. You can define how much memory to allocate for each log file. If you want to change the factory settings, follow the guidelines in the section below.
Chapter 4 Power C O N F I G U R I N G S O F T W A R E Option Num. of Records Range 0-65535 R E C O R D E R S Description Allocates the file memory for predefined number of records Record size The size of the file record for a single channel or a section.
Chapter 4 Power S O F T W A R E C O N F I G U R I N G R E C O R D E R S Configuring the Event Recorder To configure the Event log file: Double click on the Event Log file partition with the left mouse button. Select a partition type for your file. Select the maximum number of records you want to be recorded in the file. Click OK, then send your new setup to the meter or save to the device database.
Chapter 4 Power C O N F I G U R I N G S O F T W A R E R E C O R D E R S Select the number of parameters you want to be recorded in the file records. Select the maximum number of records you want to be recorded in the file. Click OK, and then send your new setup to the meter, or save to the device database. Highlight the data log file row with the left mouse button, and then click on the “Setup Recorder” button, or click on the “Data Recorder” tab and select the log number corresponding to your file.
Chapter 4 Power C O N F I G U R I N G S O F T W A R E No. 8 Parameter kvar Import Sliding Demand No. 16 R E C O R D E R S Parameter Frequency TOU Profile Data Log Files Data log #16 is configurable to store TOU daily profile log records on a daily basis. A TOU profile log file is organized as a multi-section file that has a separate section for each TOU energy and maximum demand register.
Chapter 4 Power C O N F I G U R I N G S O F T W A R E R E C O R D E R S Select a partition type for your file. Select the maximum number of records you want to be recorded in the file.
Chapter 4 Power S O F T W A R E C O N F I G U R I N G R E C O R D E R S Select the sampling rate for waveforms. Select the number of cycles to be recorded prior to the event, and a total number of cycles in the waveform. Add the name for your waveform log file in the “Name” box. It will appear in the waveform reports. To select the AC channels, click on the Channels button, check the boxes for channels you want to be recorded, and then click OK.
Chapter 4 Power E N 5 0 1 6 0 S O F T W A R E E V A L U A T I O N A N D R E C O R D I N G EN50160 Evaluation and Recording EN50160 Background The EN50160 European standard “Voltage characteristics of electricity supplied by public distribution systems” issued by CENELEC defines the main physical characteristics of electric energy supplied by low and medium voltage public distribution systems under normal operating conditions. The voltage characteristics are evaluated using a statistical approach.
Chapter 4 Power S O F T W A R E E N 5 0 1 6 0 E V A L U A T I O N A N D R E C O R D I N G Resources CENELEC publications: EN 50160:1999 Voltage characteristics of electricity supplied by public distribution systems IEC publications: IEC 61000-4-7:2002 Electromagnetic compatibility (EMC) – Part 4-7 Testing and measurement techniques – General guide on harmonics and interharmonics measurements and instrumentation, for power supply systems and equipment connected thereto, IEC 61000-4-15:2003 Electromagneti
Chapter 4 Power E N 5 0 1 6 0 S O F T W A R E E V A L U A T I O N A N D R E C O R D I N G recorded at the end of each evaluation period, file also contains data that may be useful for trouble-shooting power quality problems for non-compliant voltage characteristics. You can upload and view the EN50160 compliance statistics data via Power Software reports or via common Power Software data logs views.
Chapter 4 Power S O F T W A R E E N 5 0 1 6 0 E V A L U A T I O N A N D R E C O R D I N G Supply Voltage Variations This characteristic defines slow variations of steady state supply voltage magnitude. Method of Evaluation The basic supply voltage magnitude measurement is the RMS value of the steady state voltage over a period of 10 minutes under normal operating conditions. A voltage variation is not evaluated if the supply voltage crosses a voltage tolerance limit (±15% Un).
Chapter 4 Power S O F T W A R E E N 5 0 1 6 0 E V A L U A T I O N A N D R E C O R D I N G The Plt compliance limit can be changed in the meter via the EN50160 PQ Recorder setup. Voltage Dips A voltage dip is a sudden reduction of the RMS voltage below 90% of the nominal value, followed by a return to a value higher than 90% of the nominal in a time varying from 10 ms to 60 s.
Chapter 4 Power S O F T W A R E E N 5 0 1 6 0 E V A L U A T I O N A N D R E C O R D I N G Method of Evaluation A temporary overvoltage is classified as one polyphase event regardless of the shape and of the number of phases affected (as per IEC 61000-4-30). An event can begin on one phase and end on another phase. The fault magnitude is recorded separately for each phase involved.
Chapter 4 Power E N 5 0 1 6 0 S O F T W A R E E V A L U A T I O N A N D R E C O R D I N G Harmonic Voltage Method of Evaluation The basic measurements are the individual harmonic voltage distortion factors (HD) and the total harmonic distortion factor (THD) over a period of 10 minutes under normal operating conditions. Harmonic voltages are evaluated by instrumentation complying with IEC 61000-4-7. All calculations are made relative to the nominal voltage.
Chapter 4 Power S O F T W A R E E N 5 0 1 6 0 E V A L U A T I O N A N D R E C O R D I N G You can change the compliance limit for the interharmonic THD via the EN50160 PQ Recorder setup. The individual interharmonic voltage limits can be changed via the EN50160 Harmonics setup. Mains Signaling Voltage This characteristic defines the magnitude of the signal voltages used in some countries for signal transmission over public supply networks.
Chapter 4 Power E N 5 0 1 6 0 S O F T W A R E E V A L U A T I O N A N D R E C O R D I N G EN50160 Logging Options The memory allocated in your meter for the EN50160 compliance statistics and harmonics survey data is sufficient for 3-month data recording on a weekly basis. The Power Quality event log file is configured for 1000 event records. You can increase or change the size of the EN50160 data log files in your meter via the Log Memory Setup (see Configuring Device Memory).
Chapter 4 Power E N 5 0 1 6 0 S O F T W A R E Option Hysteresis, % Enabled Range 0-50.0% Default 5.0 Checked E V A L U A T I O N A N D R E C O R D I N G Description Defines the hysteresis for the PQ trigger in percent of the threshold Enables recording PQ events for specific voltage characteristics Unchecked Waveform Log On Start On End Log No.
Chapter 4 Power E N 5 0 1 6 0 S O F T W A R E E V A L U A T I O N A N D R E C O R D I N G Adjust limits you want to change. Download your setup to the device. The default EN50160 compliance limits are shown in the picture above. You can change the number of the evaluated harmonics and interharmonics via the EN50160 Advanced Setup. EN50160 Advanced Setup The EN50160 Advanced Setup allows you to configure the EN50160 evaluation options in your meter.
Chapter 4 Power C O N F I G U R I N G S O F T W A R E Option Range Default C O M M U N I C A T I O N P R O T O C O L S Description Rapid Voltage Changes Defines the maximum repetition rate in variations per hour (equal or less than) for rapid voltage changes. Voltage changes at higher rates are not classified since they will be subject for flicker.
Chapter 4 Power S O F T W A R E C O N F I G U R I N G C O M M U N I C A T I O N P R O T O C O L S Initially these registers are reserved and none of them points to an actual data register. To build your own Modbus register map: Select Protocol Setup from the Meter Setup menu and click on the Modbus Registers tab. Click on the Default button to cause the assignable registers to reference the actual default meter register 11776 (0 through 119 are not allowable register addresses for re-mapping).
Chapter 4 Power C O N F I G U R I N G S O F T W A R E C O M M U N I C A T I O N P R O T O C O L S The following table describes available DNP options. Refer to the DNP3 Data Object Library document available from the DNP User’s Group on the DNP3 object types.
Chapter 4 Power C O N F I G U R I N G S O F T W A R E Parameter 16-bit AI Scaling 16-bit BC Scaling Re-mapping Event Points SBO Timeout 1 Time Sync Period 2 Multi Fragment Interval C O M M U N I C A T I O N P R O T O C O L S Options Default Description DNP General Options Disabled Enabled Allows scaling 16-bit analog input Enabled objects (see description below) x1, x10, x100, x1 Allows scaling 16-bit binary counter x1000 objects (see description below) Disabled Disabled Allows re-mapping event poin
Chapter 4 Power S O F T W A R E C O N F I G U R I N G C O M M U N I C A T I O N P R O T O C O L S The factory-set Class 0 point ranges are shown in the picture below. To change the factory settings and build your own Class 0 response message: Select the object and variation type for a point range. Specify the start point index and the number of points in the range. Refer to the PowerSmart+ Advanced PQM DNP3 Reference Guide for available data points.
Chapter 4 Power R E M O T E S O F T W A R E D E V I C E C O N T R O L The number of event setpoints for each static object type is specified via the DNP Options setup (see above). Notice that the device clears all event buffers and links the default set of static points to each event object type every time you change the number of points for any of the objects. To define setpoints for selected static points: Check the “Ext” box if you wish to use the extended point list.
Chapter 4 Power S O F T W A R E R E M O T E D E V I C E C O N T R O L Remote Relay Control Power Software allows you to send a command to any relay in your device or release a latched relay, except of the relays that are linked to an internal pulse source. These relays cannot be operated outside of the device. To enter the Remote Relay Control dialog, check the On-line button on the Power Software toolbar, select Device Control from the Monitor menu, and then click on the Remote Relay Control tab.
Chapter 4 Power S O F T W A R E R E M O T E D E V I C E C O N T R O L Device Diagnostics Diagnostics Device diagnostic messages may appear as a result of the PowerSmart+ Advanced PQM built-in diagnostic tests performed during a start-up and device operation. To enter the Device Diagnostics dialog, check the On-line button on the Power Software toolbar, select Device Control from the Monitor menu, and then click on the Device Diagnostics tab.
Chapter 4 Power S O F T W A R E R E M O T E D E V I C E C O N T R O L Updating the Clock To update the Real-Time Clock (RTC) in your device, check the On-line button on the Power Software toolbar, and then select RTC from the Monitor menu or click on the Real-Time Clock button on the Power Software toolbar. The RTC dialog box displays the current PC time and the time in your device. To synchronize the device clock with the PC clock, click Set.
Chapter 4 Power A D M I N I S T R A T I O N S O F T W A R E Administration Changing a Password Password Power Software allows you to remotely change the password, and enable or disable the password security check in your meter. To change the password, check the Online button, select Administration from the Monitor menu, and then select Change password. To change the password: 4. 5. 6. 7. 8. Type in a new 4-digit password. Repeat the password in the Confirm box.
Chapter 4 Power S O F T W A R E U P G R A D I N G D E V I C E F I R M W A R E Point to the firmware upgrade file for your meter, click Open, and then confirm upgrading the meter. You are asked for the password regardless of the password protection setting in your meter. Type the meter password, and click OK. If you did not change the password in the meter, enter the default password 0. Wait until Power Software completes upgrading your device.
Chapter 4 Power M O N I T O R I N G S O F T W A R E D E V I C E S Monitoring Devices Viewing Real Real-time Data Real-time data is continuously retrieved from your devices, updated on the screen at the rate you defined in the Instrument Setup, and can be recorded to a file. You can view acquired data in a tabular or in a graphical form as a data trend. For information on the real-time data monitoring and recording options, see the “Power Software Getting Started Guide”.
Chapter 4 Power S O F T W A R E R E T R I E V I N G L O G F I L E S Retrieving Log Files Retrieving Recorded Data Using Power Software, you can retrieve recorded events, data and waveforms from your meters and save them to files on your PC in the MS Access database format. Historical data can be uploaded on demand any time you need it, or periodically through the Upload Scheduler that can retrieve data automatically on a predefined schedule, for example, daily, weekly or monthly.
Chapter 4 Power V I E W I N G S O F T W A R E R E C O R D E D F I L E S Retrieving EN50160 Statistics Files on Demand To manually retrieve the EN50160 statistics files on demand, select “Upload EN50160 Compliance Stats” from the Logs menu and specify the database to which you want the data to be stored.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Filtering and Sorting Events , or click on the report window with the right To filter events, click on the Filter button mouse button and select “Filter...”. Check the causes of events you want to display, and then click OK. Event records are normally shown in the order based on the date and time of the event appearance.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Selecting Voltage Units Voltages can be displayed in primary or secondary units. To change units for your reports, click with the right mouse button on the report window, select Options, select the desired voltage units, and then click OK. Sorting Events The event records are normally shown in the order based on the date and time of the event appearance.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Linking to Waveforms When displaying the PQ report, Power Software establishes links between the events and waveform log records related to the events. PQ events, for which Power Software finds related links, are displayed in blue. To check a list of the event links, click on the colored event ID with the left mouse button. To directly move to the related waveform record, click on the corresponding list item.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S To view the event details, click on the event point with the left mouse button. To directly move to the related power quality report entry or to a waveform record, click on the corresponding list item with the left mouse button.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S The standard compliance statistics is reported within the selected time range on a daily, weekly or yearly basis depending on the observation periods stated in the EN50160 for voltage characteristics. If the time range includes a number of the observation intervals, each interval’s statistics is given in a separate row. For power frequency, both weekly and yearly compliance statistics are provided.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Select “Report Setup…” from the Reports menu, or click on the report window with the right mouse button, and then select “Report Setup…”. Click on the Change button and select a logo image file. Check the “Show” box to include your logo into a report. Type the header text in the Page Header box. Check the “Enabled” box to include the header into a report. Click on the Footer tab and type the footer text.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Viewing Data Trend To view data in a graphical form, click on the Data Trend button on the local toolbar. To change the time range for your graph, click on the Time Range button select the desired date and time range. , and then To select desired data channels for your trend, click on the trend window with the right mouse button, select “Channels”, check the channels you want displayed, and then click OK.
Chapter 4 Power V I E W I N G S O F T W A R E Click on the R E C O R D E D F I L E S button on the local toolbar to view overlapped waveforms, and click on the button to view non-overlapped waveforms. Waveform data is recorded in series that may contain many cycles of the sampled waveform. A waveform window displays up to 128 waveform cycles. If the waveform contains more cycles, the scroll bar appears under the waveform pane allowing you to scroll through the entire waveform.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Selecting Waveform Channels To select the channels you want to view on the screen, click on the waveform window with the right mouse button, select “Channels...”, check the channels you want displayed, and then click OK. Using the Marker Lines Waveform and RMS panes have two blue dashed marker lines.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S When in the overlapped waveform view, you can zoom in on a selected waveform region. Click on the waveform window with the right mouse button, click 'Zoom', point onto one of the corners of the region you want to zoom in, press and hold the left mouse button, then point to another corner of the selected region and release the mouse button.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Power Software can give you indication on whether harmonic levels in the sampled waveforms exceed compliance limits defined by the power quality standards or local regulations. To review or change harmonic limits: Click on the spectrum window with the right mouse button and select “Limits…”. Select a harmonics standard, or select “Custom” and specify your own harmonic limits.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Viewing a Spectrum Table Click on the button on the local toolbar. The spectrum table displays voltage, current, active power and reactive power harmonic components both in percent of the fundamental and in natural units, and phase angles between the harmonic voltage and current. To change a phase, click on the window with the right mouse button, select “Options...”, check the phase you want displayed, and then click OK.
Chapter 4 Power S O F T W A R E V I E W I N G R E C O R D E D F I L E S Check the sites your want to see displayed. Click on the “Channels” button and select channels for each site. Click OK. To change the channels, click on the waveform window with the right mouse button and select “Channels...”.
Chapter 4 Power C O M T R A D E A N D P Q D I F C O N V E R T E R S S O F T W A R E COMTRADE and PQDIF Converters The COMTRADE and PQDIF file converters allow you to convert retrieved waveforms into COMTRADE or PQDIF file format, and data log tables – into PQDIF format. Manual Converting To manually convert your waveforms or a data log into COMTRADE or PQDIF format: Click on the Export button on the Power Software toolbar.
Chapter 4 Power S O F T W A R E C O M T R A D E A N D P Q D I F C O N V E R T E R S Automatic Converting Power Software allows you to automatically convert waveform and data logs into COMTRADE or PQDIF format at the time you upload data from your devices via the Upload Scheduler. To automatically convert your waveform or data log tables into COMTRADE or PQDIF format: Open the Upload Scheduler. Highlight a desired device site with the left mouse button, and then click on the Export button.
Appendix A Technical Specifications Appendix A Technical Specifications Environmental Conditions Operating temperature: -20°C to 60°C (-4°F to 140°F) Storage temperature: -25°C to 80°C (-13°F to 176°F) Humidity: 0 to 95% non-condensing Construction Dimensions see Figure 2-1 Weight: 1.23kg (2.7 lb.) Materials Case enclosure: plastic PC/ABS blend Display body: plastic PC/ABS blend Front panel: plastic PC PCB.: FR4 (UL94-V0) Terminals: PBT (UL94-V0) Connectors-Plug-in type: Polyamide PA6.
Appendix A Technical Specifications Overload withstand: 15A RMS continuous, 300A RMS for 1 second Relay Outputs 2 relays rated at 3A/250 VAC; 3A/30 VDC, 2 contacts (SPST Form A) Wire size: 14 AWG (up to 1.5 mm2) Galvanic isolation: Between contacts and coil: 2000 VAC 1 min Between open contacts: 1000 VAC Operate time: 10 ms max. Release time: 5 ms max. Update time: 1 cycle Digital Inputs 2 Digital Inputs Dry Contacts 2 Wire size: 14 AWG (up to 1.
Appendix A Technical Specifications Communication Ports COM1 (Optional modules) Serial EIA RS-232 optically isolated port Isolation: 2,000 V RMS Connector type: DB9 female. Baud rate: up to 115.2 kbps. Supported protocols: Modbus RTU and Modbus ASCII, DNP3 (with firmware V25.2.01 and later). RS-422/RS-485 optically isolated port Isolation: 2,000 V RMS Connector type: DB9 female. Baud rate: up to 115.2 kbps. Supported protocols: Modbus RTU and Modbus ASCII, DNP3 (with firmware V25.2.01 and later).
Appendix A Technical Specifications Distance: up to 1000 m (3200 feet) Standards Compliance Meet Accuracy per ANSI C12.20 –1998 UL File no.
Appendix A Technical Specifications Measurement Specifications Parameter Voltage Full Scale @ Input Range 120VxPT @ 120V Accuracy % % FS Conditions Reading 0.2 0.01 10% to 120% FS 400VxPT @ 690V Range 0 to 1,150,000 V Starting voltage 1.5% FS @ 120V 1.5% FS @ 690V Line current CT 0.2 0.02 1% - 200% FS 0 to 40,000 A Active power 0.36×PT×CT @ 120V 0.2 0.02 |PF| ≥ 0.5 1 -10,000,000 kW to 0.3 0.04 |PF| ≤ 0.9 1 -10,000,000 kvar to 0.2 0.02 |PF| ≥ 0.5 1 0 to 10,000,000 kVA 0.
Appendix B Parameters for A N A L O G O U T P U T Appendix B Parameters for Analog Output The following table lists parameters that can be provided on the meter’s analog outputs and on the external analog expander outputs. Display Code nonE Designation NONE rt.U1 rt.U2 rt.U3 rt.U12 rt.U23 rt.U31 rt.C1 rt.C2 rt.C3 V1/12 RT 1 V2/23 RT 1 V3/31 RT 1 V12 RT V23 RT V31 RT I1 RT I2 RT I3 RT rt.Ac.P rt.rE.P rt.AP.P rt.PF rt.PF.LG rt.PF.Ld rt.U.AG rt.UL.AG rt.C.
Appendix C Setpoint Triggers A N D A C T I O N S Appendix C Setpoint Triggers and Actions Setpoint Triggers 132 Display Code nonE NONE Designation St1.On St2.On St1.OFF St2.OFF STAT STAT STAT STAT rL1.On rL2.On rL1.OFF rL2.OFF RELAY #1 RELAY #2 RELAY #1 RELAY #2 POS.Ph.r nEG.Ph.r Pq.E POS PHASE REVERSAL NEG PHASE REVERSAL PQ EVENT A.In1.Hi A.In2.Hi A.In1.Lo A.In1.Lo HI AI1 HI AI2 LO AI1 LO AI2 rtHi.C1 rtHi.C2 rtHi.C3 rtLo.C1 rtLo.C2 rtLo.
Appendix C Setpoint Triggers A N D A C T I O N S Display Code ArHi. S ArPF.LG ArPF.Ld Designation HI kVA AVR HI PF LAG AVR HI PF LEAD AVR ArnEU.C ArHi.Fr ArLo.Fr ArHU.Ub ArHC.Ub HI In AVR HI FREQ RT LO FREQ RT HI V UNB% RT HI I UNB% RT Hi d.U1 Hi d.U2 Hi d.U3 Hi d.C1 Hi d.C2 Hi d.C3 Hi d.P.i Hi d.P.E Hi d.q.i Hi d.q.i Hi d. S HiSd.P.i HiSd.P.E HiSd.q.i HiSd.q.i HiSd. S HiAd.P.i HiAd.P.E HiAd.q.i HiAd.q.i HiAd. S HiPd.P.i HiPd.P.E HiPd.q.i HiPd.q.i HiPd.
Appendix C Setpoint Triggers A N D A C T I O N S Display Code Mon M.dAY hour Min SEc Designation MONTH DAY OF MONTH HOURS MINUTES SECONDS FG1.On … FG8.OFF EVENT FLAG 1 ON … EVENT FLAG 8 OFF SP1.On … SP16.
Appendix C Setpoint Triggers A N D A C T I O N S Display Code FLG2.OFF FLG3.OFF FLG4.
Appendix D Parameters for M O N I T O R I N G A N D D A T A Appendix D Parameters for Monitoring and Data Logging The following table lists parameters measured by the meter that are available for data logging and monitoring through communications. The left column shows data abbreviations used in Power Software. Parameter groups are highlighted in bold.
Appendix D Parameters for M O N I T O R I N G A N D D A T A Designat ion I3 TDD V12 V23 V31 RT TOTAL kW kvar kVA PF PF LAG PF LEAD kW IMP kW EXP kvar IMP kvar EXP V AVG V LL AVG I AVG RT AUX In FREQ V UNB% I UNB% AVR PHASE V1 V2 V3 I1 I2 I3 kW L1 kW L2 kW L3 kvar L1 kvar L2 kvar L3 kVA L1 kVA L2 kVA L3 PF L1 PF L2 PF L3 V1 THD V2 THD V3 THD I1 THD I2 THD I3 THD I1 KF I2 KF I3 KF I1 TDD I2 TDD I3 TDD V12 V23 V31 AVR TOTAL kW kvar kVA PF PF LAG PF LEAD Description I3 Current TDD V12 Voltage V23 Voltage V3
Appendix D Parameters for M O N I T O R I N G A N D D A T A Designat ion kW IMP kW EXP kvar IMP kvar EXP V AVG V LL AVG I AVG AVR AUX In FREQ V UNB% I UNB% RMS (10-min) V1 V2 V3 V ZERO-SEQ I ZERO-SEQ V UNB% I UNB% HRM TOT (10-min) V1 THD V2 THD V3 THD I1 THD I2 THD I3 THD V1 THD/I V2 THD/I V3 THD/I I1 TDD I2 TDD I3 TDD PHASORS V1 Mag V2 Mag V3 Mag I1 Mag I2 Mag I3 Mag V1 Ang V2 Ang V3 Ang I1 Ang I2 Ang I3 Ang DEMANDS V1 DMD V2 DMD V3 DMD I1 DMD I2 DMD I3 DMD kW IMP BD kvar IMP BD kVA BD kW IMP SD kvar IM
Appendix D Parameters for M O N I T O R I N G A N D D A T A Designat ion kVA ACC DMD kW IMP PRD DMD kvar IMP PRD DMD kVA PRD DMD PF IMP@kVA MXDMD kW EXP BD kvar EXP BD kW EXP SD kvar EXP SD kW EXP ACC DMD kvar EXP ACC DMD kW EXP PRD DMD kvar EXP PRD DMD HRM DMD V1 THD DMD V2 THD DMD V3 THD DMD I1 THD DMD I2 THD DMD I3 THD DMD I1 TDD DMD I2 TDD DMD I3 TDD DMD SUMM ACC DMD SUM REG1 ACC DMD SUM REG2 ACC DMD … SUM REG8 ACC DMD SUMM BLK DMD SUM REG1 BLK DMD SUM REG2 BLK DMD … SUM REG8 BLK DMD SUMM SW DMD SUM
Appendix D Parameters for M O N I T O R I N G A N D D A T A Designat ion %HD V2 V2 %HD01 V2 %HD02 … V2 %HD50 %HD V3 V3 %HD01 V3 %HD02 … V3 %HD50 %HD I1 I1 %HD01 I1 %HD02 … I1 %HD50 %HD I2 I2 %HD01 I2 %HD02 … I2 %HD50 %HD I3 I3 %HD01 I3 %HD02 … I3 %HD50 ANG V1 V1 H01 ANG V1 H02 ANG … V1 H50 ANG ANG V2 V2 H01 ANG V2 H02 ANG … V2 H50 ANG ANG V3 V3 H01 ANG V3 H02 ANG … V3 H50 ANG ANG I1 I1 H01 ANG I1 H02 ANG … I1 H50 ANG ANG I2 I2 H01 ANG I2 H02 ANG … I2 H50 ANG ANG I3 I3 H01 ANG I3 H02 ANG … I3 H50 ANG H1 P
Appendix D Parameters for M O N I T O R I N G A N D D A T A Designat ion kW L2 H01 kW L3 H01 kvar L1 H01 kvar L2 H01 kvar L3 H01 kVA L1 H01 kVA L2 H01 kVA L3 H01 PF L1 H01 PF L2 H01 PF L3 H01 HRM TOT POW kW H01 kvar H01 kVA H01 PF H01 FLICKER V1 Pst V2 Pst V3 Pst V1 Plt V2 Plt V3 Plt MIN PHASE V1 MIN V2 MIN V3 MIN I1 MIN I2 MIN I3 MIN V1 THD MIN V2 THD MIN V3 THD MIN I1 THD MIN I2 THD MIN I3 THD MIN I1 KF MIN I2 KF MIN I3 KF MIN I1 TDD MIN I2 TDD MIN I3 TDD MIN MIN TOTAL kW MIN kvar MIN kVA MIN PF MIN MI
Appendix D Parameters for M O N I T O R I N G A N D D A T A Designat ion I1 KF MAX I2 KF MAX I3 KF MAX I1 TDD MAX I2 TDD MAX I3 TDD MAX MAX TOTAL kW MAX kvar MAX kVA MAX PF MAX MAX AUX In MAX FREQ MAX MAX DMD V1 DMD MAX V2 DMD MAX V3 DMD MAX I1 DMD MAX I2 DMD MAX I3 DMD MAX kW IMP SD MAX kW EXP SD MAX kvar IMP SD MAX kvar EXP SD MAX kVA SD MAX MAX HRM DMD V1 THD DMD MAX V2 THD DMD MAX V3 THD DMD MAX I1 THD DMD MAX I2 THD DMD MAX I3 THD DMD MAX I1 TDD DMD MAX I2 TDD DMD MAX I3 TDD DMD MAX MAX SUMMARY DMD
Appendix D Parameters for M O N I T O R I N G A N D D A T A Designat ion TOU REG3 TOU REG3 TRF1 TOU REG3 TRF2 … TOU REG3 TRF8 TOU REG4 TOU REG4 TRF1 TOU REG4 TRF2 … TOU REG4 TRF8 TOU REG5 TOU REG5 TRF1 TOU REG5 TRF2 … TOU REG5 TRF8 TOU REG6 TOU REG6 TRF1 TOU REG6 TRF2 … TOU REG6 TRF8 TOU REG7 TOU REG7 TRF1 TOU REG7 TRF2 … TOU REG7 TRF8 TOU REG8 TOU REG8 TRF1 TOU REG8 TRF2 … TOU REG8 TRF8 TOU MAX DMD REG1 DMD1 TRF1 MAX DMD1 TRF2 MAX … DMD1 TRF8 MAX TOU MAX DMD REG2 DMD2 TRF1 MAX DMD2 TRF2 MAX … DMD2 TRF8
Appendix D Parameters for M O N I T O R I N G A N D D A T A Designat ion TOU MAX DMD REG8 DMD8 TRF1 MAX DMD8 TRF2 MAX … DMD8 TRF8 MAX Description TOU Maximum Demand Register #8 Tariff #1 register Tariff #2 register … Tariff #8 register 1 In 4LN3, 4LL3, 3LN3, 3LL3, 3BLN3 and 3BLL3 wiring modes, the voltages will be line-toneutral; for any other wiring mode, they will be line-to-line voltages.
Appendix E EN50160 Statistics L O G F I L E S Appendix E EN50160 Statistics Log Files The following table lists the EN50160 evaluation parameters recorded by the meter in the EN50160 statistics data log files. The second column shows data abbreviations used in the Power Software data log reports. Data log files’ sections are highlighted by a bold font. EN50160 Compliance Statistics Log (Data Log #9) Field No.
Appendix E EN50160 Statistics L O G F I L E S Field No.
Appendix E EN50160 Statistics L O G F I L E S Field No.
Appendix E EN50160 Statistics L O G F I L E S Field No.
Appendix F Data Scales Appendix F Data Scales The maximum values for volts, amps and power in the PowerSmart+ Advanced PQM setup and in communications are limited by the voltage and current scale settings. See Device Options in Chapter 4 on how to change the voltage scale in your meter. The following table defines the meter data scales.
Appendix G Device Diagnostic Appendix G C O D E S Device Diagnostic Codes Diagnostic Code Description Reason 2 Memory/Data fault Hardware failure 3 Hardware watchdog reset Hardware failure 5 CPU exception Hardware failure 6 Run-time software error Hardware failure 7 Software watchdog timeout Hardware failure 8 Power Down/Up Normal power-up sequence 9 Warm restart External restart via communications or by firmware upgrade 10 Configuration reset Corrupted setup data has been repl
Appendix G Device Diagnostic C O D E S PowerSmart+ Advanced Power Quality Meter 151
