Energy Management Connected Components Building Block
Contents
1. 14 Publication CC 0S0017A EN P March 2010 Powermonitor 1000 Device Configuration Chapter 1 Configure the EtherNet IP Address Follow these steps to configure the EtherNet IP address of a Powermonitor 1000 device 1 Choose Configure Opuons s Power and Energy Management Solutions Meeting the Changing Demands for Power and Energy Management Communication gt Ethernet Communications to access the Ethernet Configuration aten Bradiey Home Display Metering Information Display Status Execute Commands Configure Options Catalog Number Breakdown Go To ab com 2 Enter the default password of 0 or another valid password to access Edit mode The password appears as asterisks TIP n 3 If you don t know the password call Rockwell Automation technical support for assistance 3 Enter appropriate values in the IP Address Byte fields For this example the IP address is 10 10 10 1 for the first Powermonitor 1000 device Analog Input Date and Time Advanced User Configurable Table Communication gt RS485 Communications Powermonitor 1000 Information Ethernet Configuration Element Item Name Value Password 0 Range 0 to 9999 Address Byte 1 Range 0 to 255 10 IP Address Byte b 2 xxx bbb xxx xxx Range 0 to 255 10 IP Address Byte c 32. Range 0 to 255 10 IP Address Byte d 4 xxx xxx xxx ddd Range 0 to 255 01 5 Subnet Mask Byte a Range 0 to 255 255 6 Subnet Mask Byte b Range 0 to 255 255 7 Subnet Mask Byte Range 0 to 255 255 4 Enter the Subnet Mask and Gateway IP addresses as required 5 Click Submit to send the parameter changes to the Powermonitor 1000 device You will lose communication to the Powermonitor 1000 device You must enter the new IP TIP eee address in the Address field of your web browser re establish communication with the device 6 Browse to the new IP address from your web browser The IP address is shown on the default LCD display screen Publication CC 0S0017A EN P March 2010 15 Chapter 1 Powermonitor 1000 Device Configuration Configure Analog Inputs Follow these steps to configure the Voltage mode PT ratios and CT ratios for the Powermonitor 1000 device The Analog Input Set up Parameters table on page 17 shows the analog input parameters and example settings 2 16 choose Analog Input to display the Analog Input Configuration page Enter the default password of 0 or another Power and Energy Management Solutions Meeting the Changing Demands for Power and Energy Management D Allen Bradley Analog Input Configuration ferte Information i Element Item Name Value isplay Status D xecute Commands gt a Password onfigure Options Analo
3. AB_ETH 1110 10 10 2 Comm timeout seconds 5 Comm retries messages fi Boiler House Electric Main Power House Publication CC 0S0017A EN P March 2010 System Validation and Application Tips Chapter 2 6 For this example repeat step 1 through step 5 to copy the remaining Powermonitor 1000 devices Change the name and communication path to each device as shown in the table Note that all devices fall under the Electricity parent group except for the MCC 2 device that is under Fuels Parent Group Communication Path Electricity Production 1 AB_ETH 1 10 10 10 3 Electricity Production 2 AB_ETH 1 10 10 10 4 Electricity Shipping Receiving DC AB_ETH 1 10 10 10 5 Fuels MCC 2 AB_ETH 1 10 10 10 6 Six Powermonitor 1000 devices and one Powermonitor 3000 device appear under the appropriate groups Creating Electric Meters in RSEnergyMetrix Software C AE E Efficient Industries Plant 1 Accounting Engineering C Air 3 Electricity Boiler House 4 PM 1000 orc Data Center Electric Main This is the Powermonitor 3000 PowerHouse amp PM 1000 EH Production PM 1000 Production 4 PM 1000 Shipping ReceivingDC 4 PM 1000 EX Fuels 2 4 PM 1000 CJ Steam LI water You will now create meters for Powermonitor 1000 device
4. Publication CC 0S0017A EN P March 2010 Copyright 2010 Rockwell Automation Inc All rights reserved Printed in the U S A
5. E E reduetond F Enable auto data repopulation E Production 2 Shipping Receiving Parent group Electricity z E Utilities Device class Powermanitor 1000 EM3 on EtherNeviP B E Engineering Name C1 Air 2 3 Electricity Notes TIERE Electric Main Time zone GMT 06 00 Central Time US amp Canada C3 Fuels Time sync Daily Q Steam Device password E water Publication 0 0017 March 2010 3 Where to Start Notes 4 Publication CC 0S0017A EN P March 2010 Preface Powermonitor 1000 Device Configuration System Validation and Application Tips Frequently Asked Questions Publication 0 0017 March 2010 Table of Contents Introduction ee dear ie es 7 Conventions Used in This 8 Additional Resources v cv uh er EI Ew RR 9 Chapter 1 Introduction ser are ae y ge d 11 Before You Besin rR maids 11 What You Needse aA TUR EROR 12 Follow These DIOS Rs Ee hh 06 12 Configure a Powermonitor 1000 Device 13 Additional Resources ae FO DO ee 19 Chapter 2 S so mv oe eee Pek LOK ER WOES E ORG 21 Before You oa dto hab gos FSI eo e d 21 Whati YOU Need oce est ded obs xo D eor eoe 21 Follow stc os eM de x EUR oed d RC 22 Powermonitor 1000 Device to PanelView Component CORE DO eh Seale Exe TO E n dee ni 23 Powermonitor 1000 Device to RSEnergyMetrix Software COMMON
6. Volts Line to Neutral Real Power kW Date Time Volts Line to Line Reactive Power kVAR Real Energy Net kWh Input Count Line Currents Apparent Power kVA Reactive Energy Net kVARh kW kVAR Demand Comm Parameters Average Volts Current Total kW kVAR kVA Apparent Energy Net kVAh PowerFactor Demand Meter Diagnostic Voltage Current Unbalance Power Factor Menu Screen 1 Frequency Rotation Goto Config 24 Publication CC 0S0017A EN P March 2010 System Validation and Application Tips Chapter 2 Powermonitor 1000 Device to RSEnergyMetrix Software Configuration Overview of Devices Devices are physical entities that RSEnergyMetrix software communicates with over a network Setting up a device in RSEnergyMetrix software establishes communication and creates database definitions for the device Devices may be directly connected to the server over a network if the RSEnergyMetrix server is also on the network through an appropriate network interface and you have configured the appropriate RSLinx Classic device drivers Devices routed through a ControlLogix gateway or RSLinx Classic gateway are also considered directly connected devices Device Classes RSEnergyMetrix software uses device classes to determine how to interact with a particular device The device class includes the device family communication type and specifies whether the device has a clock that can be synchronized The device classes covered in this quick start i
7. 1 10 10 10 1 Enable comm loss alarm 10 Modify other communication settings as needed For details refer to the RSEnergyMetrix software help 11 Click Save Add Device The Boiler House device appears 5 43 Devices under Electricity Efficient Industries Plant 1 Accounting Engineering C3 Air EE lectricity Boiler House Electric Main 12 If the device is connected to the network click Test Connection to verify dest Connection successful communication with the device If you see connection failed try again If the test times out check that you entered the correct communication path in step 9 and that the device is online Try to access the Powermonitor device s web page or try to ping it from the RSEnergyMetrix server Publication CC 0S0017A EN P March 2010 29 Chapter2 System Validation and Application Tips Copy Devices Follow these steps to create additional devices by using the copy function For the Efficient Industries Plant 1 example you will use the copy function to create five remaining Powermonitor 1000 devices Power House Production 1 Production 2 Shipping Receiving DC MCC2 1 Select an existing device System ll Meters II Reports Custom and then click Copy Layout Save Restore Collapse For this example select 4B system status H Groups the Boiler House device S
8. 26 Publication CC 0S0017A EN P March 2010 System Validation and Application Tips Chapter 2 6 Enter the IP address of your first 21 xl device station Station Mapping Host Name N 10 10 10 0 10 10 10 1 Delete 10 10 10 2 10 10 10 3 10 10 10 4 10 10 10 5 10 10 10 6 10 10 10 7 Driver 7 Click Add New to enter the IP address for each additional device you want to add then click OK 8 Click OK when done entering IP addresses oo e wn e n 9 Click Close to exit the Configure Drivers dialog box Publication CC 0S0017A EN P March 2010 21 Chapter2 System Validation and Application Tips Configure a Powermonitor 1000 Device Follow these steps to configure a Powermonitor 1000 device 28 1 2 Device Status Expand the Devices folder eer ee P oyster Meters Reports Custom on the System tab C ee m Layout Save j Restore RIETI amy Refresh Show all child devices system Status Navigate to and select the 8 Legend gno Tons H appropriate group or Devices E Efficient Industries Plant 1 Domain Electricity domain B E Accounting EE Engineering iq N C3 Air In this example select the pe Electricity group under the Bl Electric Main C3 Fuel Engineering subdomain Fede water Click the Add a device link From the Parent group pull 8 P P Add Device down menu choose a subdomain or group For
9. are property of their respective companies Where to Start Follow the path below to complete your connected components building block Connected Components Building Blocks publication CC QS001 Powermonitor 1000 Utiity Page Microsoft Internet Explorer Eat View Favortes Too 2 OO 34 gt 8 My Web Search 18 Coge 05 Cp oms F Check ie 5 Ar Gh Rockwell Automation Power and Energy Management Solutions Meeting the Changing Demands for Power and Energy Management Chapter 1 Powermonitor 1000 Device Configuration anen sradiey Ethernet Configuration Item Name Password Ranae 0 to 9999 pe Date and Time Byte User Confegurable Table Xx xxx Communication 255 192 IP Address Byte b xxx bbb xxx xxx Range 0 to 255 168 IP Address Byte c Range 0 to 255 uU IP Address Byte d xxoc xxx xxx ddd Range 0 to 255 peer z J system Meters Reports Custom Device Setup Layout S Resti Collap ayout Save Restore Collapse Edit IE Add JE CUT ale Date System Status C3 Groups Device Information 2 3 Devices Device Configuration 3 B Efficient Industries Plant 1 Device Viewer Chapter 2 System Validation and Application Tips amp E Accounting H Enable device E Data Center Enable real time logging
10. page Allen Bradley Element Name Value Password tent 0 Range 0 to 9999 Rc Display Metering Information Display Status New Password Execute CommanaE gt l Range 0 to 9999 ee Configure Options p Analog Input EN ET Date and Time etering Result Averaging Go To ab com Advanced IFF 0 User Configurable Table DIN 1 Communication Fog Status Input Changes 3 NO 0 1 0 18 Publication CC 0S0017A EN P March 2010 Powermonitor 1000 Device Configuration Chapter 1 2 Enter the default password of 0 or another valid password to access Edit mode Date and Time Configuration Element Item Name Password Range 0 to 9999 The password appears as asterisks pores ND TIP g If you don t know the password call Date Month Rockwell Automation technical support NORTE for assistance pend 31 Time Hour 3 Configure the date and time parameters un accordingly Range 01059 Time Seconds Range 0 to 59 4 Click Submit to send the parameter changes Time Hundredths ange 0 to to the Powermonitor 1000 device Refresh Date and Time Set up Parameters Parameter Range Default Example Settings Password 0 9999 0 0 Date Year 2001 2100 2005 Date Month 15 12 1 Date Day 1 31 0 Time Hour 0 23 0 Time Minute 0 59 0 Time Seconds 0 59 0 Time Hundreths 0 59 0 TIP For a full Powermonitor 1000 LCD screen displ
11. 526 9 You can click Current Date Time 8 26 2009 2 15 00 PM 295923 4 986952 6 537 7 to refresh the data 8 26 2009 2 00 00 PM 295885 5 986818 1 5446 8 26 2009 1 45 00 PM 295847 8 986682 5197 8 26 2009 1 30 00 PM 295808 9865521 5088 8 26 2009 1 15 00 PM 295769 6 986424 9 550 4 34 Publication CC 0S0017A EN P March 2010 Copy Meters and Tags System Validation and Application Tips Chapter 2 Meters with the same device class and tags can be copied It s a real time saver to create the first meter and its tags then use the copy function to create the rest of the meters For this example the Powermonitor 1000 electric meters all use the Real Energy Net Reactive Energy Net and Real Power Demand tags You will copy the Boiler House meter and tags to create the Power House Production 1 Production 2 and Shipping Receiving DC electric meters The tags are copied with the meter 1 Select the meter to copy System Meters Reports Custom Electricity Group Electric Main PM 3000 Boiler House PM 1000 Power House PM 1000 Production 1 PM 1000 Production 2 PM 1000 Shipping Receiving DC PM 1000 Data Center OPC Server Layout Save Restore Collapse For this example select Boiler House under the Electricity group SE Enicentngusies rants Efficient Industries Plant 1 E Accounting EE Engineering a Air 2 Electricity amp 2 Click the Meter Setup tab Domain Meter E
12. ANON OUO OSs Ee ee TEC ERR fed 25 Configure Communication 26 Configure a Powermonitor 1000 Device 28 COPY Devices N doc hes rut duri ea 30 Creating Electric Meters in RSEnergyMetrix Software 31 Additional Resources s v dir doe Pa den decet e ced 36 Appendix A THEOCR HORIS eae e oue M aq DECEDERE A tea A SRI 37 5 Table of Contents Notes 6 Publication CC 0S0017A EN P March 2010 Introduction Publication CC 0S0017A EN P March 2010 Preface This quick start is designed to provide a way to implement and use a connected component for energy management To assist in the design and installation of your system application files and other information are provided on the Connected Components Building Blocks Overview CD publication CC QRO001 The CD provides bills of materials BOM CAD drawings for panel layout and wiring control programs Human Machine Interface HMD screens and more With these tools and the built in best practices design the system designer is free to focus on the design of their machine control and not on design overhead tasks The beginning of each chapter contains the following information Read these sections carefully before beginning work in each chapter Before You Begin This section lists the steps that must be completed and decisions that must be made before starting that chapter The chapters in this quick start do not have to be
13. E Efficient Industries Plant 1 Accounting E Data Center E Production 1 E Production 2 E Shipping Receiving E Utilities EE Engineering GO Air 2 3 Electricity Boiler House Electric Main C3 Fuels Steam E water 2 Change the name of the copied device Device Setup Device class Powe Edit Device EE omy Device Information Device Configuration Device Viewer Enable device En Enable auto data repopulation time logging Parent group E onitor 1000 EM3 on EtherNet IP Name Boiler House Notes Time zone GMT 06 00 Central Time US amp Canada Time sync Daily Device password For this example replace Copy of V Boiler House with Power House 3 Change the Communication path to match the device for this example 4 If the device will not be connected during configuration clear the Enable device checkbox to avoid timeout errors Device password Fr Password 5 Click Save Enable device Enable real time logging Enable auto data repopulation Parent group Electricity Device class Powermonitor 1000 EM3 on EtherNet IP Power House Time zone GMT 06 00 Central Time US amp Canada Time sync Daily Device Communications Communications p The Power House device E appears under Electricity rra Engineering 30
14. Energy Management Connected Components 2 Building Block Powermonitor 1000 Allen Bradley Quick Start Rockwell Allen Bradley Rockwell Software Automation Important User Information Solid state equipment has operational characteristics differing from those of electromechanical equipment Safety Guidelines for the Application Installation and Maintenance of Solid State Controls publication SGI 1 1 available from your local Rockwell Automation sales office or online at http www rockwellautomation com literature describes some important differences between solid state equipment and hard wired electromechanical devices Because of this difference and also because of the wide variety of uses for solid state equipment all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable In no event will Rockwell Automation Inc be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment The examples and diagrams in this manual are included solely for illustrative purposes Because of the many variables and requirements associated with any particular installation Rockwell Automation Inc cannot assume responsibility or liability for actual use based on the examples and diagrams No patent liability is assumed by Rockwell Automation Inc with respect to use of information circuits equipment or s
15. Locator at htto www rockwellautomation com support americas phone_en html Canada or contact your local Rockwell Automation representative New Product Satisfaction Return Rockwell Automation tests all of its products to ensure that they are fully operational when shipped from the manufacturing facility However if your product is not functioning and needs to be returned follow these procedures United States Contact your distributor You must provide a Customer Support case number call the phone number above to obtain one to your distributor to complete the return process Outside United States Please contact your local Rockwell Automation representative for the return procedure Documentation Feedback Your comments will help us serve your documentation needs better If you have any suggestions on how to improve this document complete this form publication RA DU002 available at http www rockwellautomation com literature www rockwellautomation com Power Control and Information Solutions Headquarters Americas Rockwell Automation 1201 South Second Street Milwaukee WI 53204 USA Tel 1 414 382 2000 Fax 1 414 382 4444 Europe Middle East Africa Rockwell Automation Vorstlaan Boulevard du Souverain 36 1170 Brussels Belgium Tel 32 2 663 0600 Fax 32 2 663 0640 Asia Pacific Rockwell Automation Level 14 Core F Cyberport 3 100 Cyberport Road Hong Kong Tel 852 2887 4788 Fax 852 2508 1846
16. Secondary 9 00 50 000 480 480 CT Primary 9 00 50 000 5 600 System PF Setting 0 Lead 97 89 1 High 85 98 2 Low 52 95 2 Low 2 Configure Advanced Device Parameters Follow these steps to configure advanced demand parameters for the Powermonitor 1000 device These settings include demand source demand period length and the number of demand periods to average for the demand calculation The Advanced Device Configuration Parameters table on page 18 shows the demand parameters and example settings 1 From the Configure Options menu choose Advanced to access the Advanced Configuration page 2 Enter the default password of 0 or another valid password to access Edit mode TIP The password appears as asterisks Power and Energy Management Solutions Meeting the Changing Demands for Power and Energy Management Allen Bradley Display and Configuration Monk Ethernet Configuration Element Item Name Value Display Metering Information Display Status 0 Password Ranae 0 to 9999 Execute Commonds gt Analog Input Date and Time Byte Configure Options User Configurable Table Communication p 255 192 LI i i Demand Source 0 Internal Timer 14 1 Status Input 2 2 Controller Command 3 Ethernet Broadcast Demand Period Length minutes 15 fe If you don t know the password ca
17. ay and configuration map see pages 30 32 of the Powermonitor 1000 Installation Instructions publication 1408 IN001 Additional Resources Refer to page 9 for a listing of product and information resources Publication CC 0S0017A EN P March 2010 Chapter 1 Powermonitor 1000 Device Configuration Notes 20 Publication CC 0S0017A EN P March 2010 Chapter 2 System Validation and Application Tips Introduction In this chapter you will configure the communication of your application You will learn how to connect a Powermonitor 1000 device to a PanelView Component terminal e configure RSEnergyMetrix software to properly log your Powermonitor 1000 device data Before You Begin e Review the PanelView Component User Manual publication 2711C UMO001 e Optional Install RSEnergyMetrix software Review the RSEnergyMetrix User and Installation Manual publication ENEMTX GRO001 e Configure Powermonitor 1000 devices refer to Chapter 1 Configure the PanelView Component terminal What You Need e Personal computer with Internet access for launching and using RSEnergyMetrix software e RSEnergyMetrix CD catalog number 9307 ENEMTXCD RSEnergyMetrix online help and Getting Results Guide publication ENEMTX GRO001 USB flash drive for loading the PanelView application Publication CC 0S0017A EN P March 2010 21 Chapter2 System Validation and Application Tips Follow These Steps Follow these steps
18. completed in the order in which they appear but this section defines the minimum amount of preparation required before completing the current chapter What You Need This section lists the tools that are required to complete the steps in the current chapter This includes but is not limited to hardware and software Follow These Steps This illustrates the steps in the current chapter and identifies which steps are required to complete the examples Use this Energy Management Connected Components Building Block Quick Start in conjunction with the Connected Components Building Blocks Quick Start publication CC QS001 Refer to Additional Resources on page 9 for a listing of quick starts Preface Conventions Used in This This manual uses these conventions Manual Convention Meaning Example Check or uncheck To activate or deactivate a checkbox Check Disable Keying Click Click the left mouse button once while the cursor is positioned Click Browse on object or selection Select Using the mouse to highlight a specific option Select the New Module folder Enter What you type Enter your choice gt Use this symbol to indicate the sub menu name Choose File gt Menu gt Options 8 Publication CC 0S0017A EN P March 2010 Additional Resources Resource Connected Components Building Blocks Quick Start publication 05001 Preface Description Provides information on how to select pro
19. drop connection used for data logging to RSEnergyMetrix RSPower or other software application such as HMI or controller programs Xx Length in meters equivalent Allen Bradley Patch Cable Powermonitor 1000 Device Powerronitor 1000 T lt Jed 4 2 J TIP RS 485 Wiring 2 C Shielded Cable Powermonitor 1000 firmware revision 2 13 or later is supported The Powermonitor 1000 device can be updated by using the ControlFlash utility The latest upgrade can be obtained from http www ab com PEMS downloads html 3 Verify that the Powermonitor 1000 device is configured properly for the RS 485 network This configuration was done on page 14 e PM1000 Protocol DH485 Serial Delay 5 ms e Baud Rate 19200 e Serial Address 1 e Serial Data Format 8 1 E e Intercharacter Timeout 0 e Maximum Node Address 4 Publication CC 0S0017A EN P March 2010 23 Chapter2 System Validation and Application Tips 4 Copy the PanelView Component application PM1000_C300 cha from the Component Building Block CD to the root of the USB flash drive 5 Plug the USB drive into the PanelView Component terminal The USB connection is on the back side of PanelView C300 terminal TIP The application was developed for a PanelView Component touch screen terminal only To transfer t
20. ducts and gain access to panel and wiring information Connected Component Building Blocks Overview CD publication CC QR001 Provides files for the Connected Component Building Blocks MicroLogix 1400 Programmable Controllers User Manual publication 1766 UM001 Provides information on using the MicroLogix 1400 programmable controller MicroLogix 1400 Programmable Controllers Installation Instructions publication 1766 IN001 Provides information on installing the MicroLogix 1400 programmable controller MicroLogix 1400 Programmable Controllers Instruction Set Reference Manual publication 1766 RM001 Provides information on using the MicroLogix 1400 programmable controller RSLogix 500 instruction set http www ab com Provides access to the Allen Bradley website Powermonitor 1000 User Manual publication 1408 UM001 Provides information for using the Powermonitor 1000 device Powermonitor 1000 Installation Instructions publication 1408 IN001 Provides information for installing the Powermonitor 1000 device PanelView Component Operator Terminals User Manual publication 2711C UM001 Provides information on using the PanelView Component HMI terminals PanelView Component Installation Instructions publication 2711C IN001 Provides installation information for the PanelView Component terminal RSEnergyMetrix Getting Results Guide publication ENEMTX GRO01 Prov
21. er House Meter Meter type Electric Device class Poxseseeaitor 1000 EM3 appear on the Meter i Stun Setup tab Meter Setup Meter Information Type Electric M Assigned to Groups Contribution factor Device Boiler House Etectricity 100 Name Boiler House Meter Notes Time zone GMT 06 00 Central Time US amp Canada Meter T Read devicet Add ter tag For this example these Tags ead device aus anew meter ta ID Type Name Units Log Rate Address tags appear 4 Device Real Energy Net Wh 15 minutes 15 8 View S Device Reactive Energy Net kvARh 15 minutes 16 14 View 6 Device Real Power Demand KW 15 minutes 17 0 View 10 Click the Meter Data tab to verify Domain Meter Engineering Electricity Boiler House _Meter that the meter data is being Meter type Electric logged Meter Data Trend Calender Trena veter Seu Time zone GMT 05 00 Eastern Time US amp Canada Date Time 8 26 2009 2 53 PM Get Data Current Date Time p Page gt Enter Data Another way to check the data is HH 15 Min Auto Data to return to the Meter Setup tab The data will not appear until the next logging interval has occurred Reactive RealEnergy Real Power and click the Read device tags link EnergyHet Het Demand b he li f Date Time kVARh kWh kw just above the list of meter tags 8 26 2009 2 45 00 PM 295999 9 9872134 516 5 8 26 2009 2 30 00 PM 295963 4 987084 3
22. g Input Range 0 to 9999 atalog Number Breakdown Date and Time io To ab com Advanced oltage Mode uU COMMONS Taken Delta Communication Open Delta 1 2 Wye 3 Single Phase 4 Demo 5 1PTICT LL 6 1PTICT LN 2 2 PT Primary Range 1 to 50000 480 PT Secondary Range 1 to 600 480 4 CT Primary Range 5 to 50000 00 System PF Setting 0 Leading 97 to 89 valid password to access Edit mode Analog Input Configuration Element Item Name Value Password 0 Range 0 to 9999 e TIP The password appears as asterisks Voltage Mode 0 Direct Dett If you don t know the depen Deta password call Rockwell 1 4 Demo Automation technical support for gcc assistance 6 1PT1CT LN 2 2 PT Primary 3 4 Enter the value of Voltage Mode you mn 5 Secondary are using 3 Range 1 to 600 480 4 Range 51 50000 600 ange 5 to Set elements 2 3 and 4 to configure the PT and CT parameters Click Submit to send the parameter changes to the Powermonitor 1000 device Publication CC 0S0017A EN P March 2010 Powermonitor 1000 Device Configuration Chapter 1 Analog Input Set up Parameters Parameter Password Range 0 9999 Default 0 Example Settings 0 Voltage Mode 0 6 0 Direct Delta 1 Open Delta 2 Wye 3 Single Phase 4 Demo simulated results 5 1PT1CT LL 6 1PT1CT LN PT Primary 1 0 50 000 480 480 PT
23. he application to a PanelView Component HMI see the PanelView Component Quick Start publication CC QS001 Go to Config gt File Manager gt Source USB gt Selected PM1000 C300 cha file and copy it to the internal memory of the PanelView Component HMI 6 Configure the Screensaver Start up application as desired from the PanelView Component HMI settings then run the Powermonitor 1000 application file 7 Verify that the PanelView Component terminal is reading data from the Powermonitor 1000 device TIP The RS 485 TX RX status indicators should be blinking on the Powermonitor 1000 device Compare the metering values from the Powermonitor 1000 LCD display or web page against the PanelView Component terminal The start up screen has Average Line to Line Voltage Average Line Current and Total Real Power values Make sure that there are no asterisks on the PanelView Component screen An asterisk indicates e a communication error the value has more significant digits than HMI applications This flowchart shows the PanelView Component terminal screen navigation PanelView Component C300 Screens Quick Navigation for Powermonitor 1000 Device START UP SCREEN Avg Line Voltage Current Total Real Power Menu Screen 1 METERING VIF METERING POWER METERING ENERGY METERING DEMAND NEXT MENU START UP SCREEN Volts Current Freq
24. hy does it not bring up the correct display A Calibrate the touch screen on your PanelView Component HMI Detailed instructions to re calibrate the touch screen can be found in the PanelView Component HMI User Manual publication 2711C UM001 Reference page 9 2 What does Data Access Error for Alias mean When I see this error message my terminal does not refresh and the data fields are filled with A Answer Check the communication media RS 485 cable Verify proper wiring and communication protocol settings on both your PanelView Component HMI and Powermonitor 1000 device 3 I do not like the PanelView Component navigation Can I show other metering parameters on the start up screen A The PanelView Component navigation is designed with the layout as described in this quick start To customize the application you can use the PanelView Component emulator to add on or modify the application Reference the PanelView Component Building Block documentation for application development 4 How can I change the Powermonitor 1000 configuration from the PanelView Component display A The PanelView Component application is for viewing metering information only To change the Powermonitor 1000 configuration use the web page of the product or the built in Powermonitor 1000 LCD display You can also customize the PanelView Component HMI See Question 3 Publication CC 0S017A EN P March 2010 37 Appendix A Freque
25. ides information about using RSEnergyMetrix software Current Transformer Selection Matrix publication 1411 56001 Provides a selection matrix for choosing your current transformer http www rockwellautomation com knowledgebase Provides access to self service support http www rockwellautomation com components connected Publication CC 0S0017A EN P March 2010 Provides access to the Connected Components website Preface Notes 10 Publication CC 0S0017A EN P March 2010 Chapter 1 Powermonitor 1000 Device Configuration Introduction In this chapter you will learn to configure a Powermonitor 1000 device For other configuration parameters such as Wiring Mode WYE Delta Potential Current Transformer ratios Demand periods and advanced configuration you need to consult these Powermonitor 1000 publications e Bulletin 1408 Powermonitor 1000 User Manual publication 1408 UM001 e Powermonitor 1000 Unit Installation Instructions publication 1408 13001 Before You Begin Review the Energy Management Connected Component Building Blocks common folder to review important background information regarding your Powermonitor device and software package e Select hardware and wire devices Refer to the Powermonitor 1000 Unit Installation Instructions publication 1408 IN001 for reference Publication CC 0S0017A EN P March 2010 11 Chapter 1 What You Need Follow These Steps Powermon
26. itor 1000 device Product manuals Bulletin 1408 Powermonitor 1000 User Manual publication 1408 UM001 Powermonitor 1000 Unit Installation Instructions publication 1408 INOO1 PanelView Component User Manual publication 2711C UMOO1 Powermonitor 1000 Device Configuration PanelView Component HMI terminal RSLogix 500 and RSEnergyMetrix software Current transformers and potential transformers if required refer to the Powermonitor 1000 User Manual publication 1408 UM001 Follow these paths to configure the Powermonitor device and PanelView Component device in your energy system Configure a Powermonitor 1000 Device Configure a Powermonitor 1000 Device page 13 Configure RS 485 page 14 Configure the EtherNet IP Address page 15 Configure Analog Inputs page 16 Configure Advanced Device Parameters page 17 Configure the Date and Time page 18 Publication CC 0S0017A EN P March 2010 Powermonitor 1000 Device Configuration Chapter 1 Configure a Powermonitor 1000 Device This section shows you how to configure parameters of a Powermonitor 1000 device by using its internal Display and Configuration web page Certain settings are needed for the Powermonitor 1000 device to meter accurately communicate correctly and work with RSEnergyMetrix software properly You will set the network configuration Voltage
27. ll Range 0 to 99 15 Rockwell Automation technical support Number of Demand Periods Range 1 to 15 fi for assistance Publication CC 0S0017A EN P March 2010 Chapter 1 Powermonitor 1000 Device Configuration 3 Set appropriate values for the demand parameters elements 14 15 and 16 For this example accept the default parameters as shown 4 Click Submit to send the parameter changes to the Powermonitor 1000 device Advanced Device Configuration Parameters Parameter Range Default Example Settings Password 0 9999 0 0 0 3 0 Internal Timer Demand Source Status Input 2 0 0 2 Controller Command 3 Ethernet Demand Broadcast Demand Period Length 0 99 min 15 min 15 Number of Demand Periods 1 15 1 1 Forced Demand Sync Delay 0 90 s 10 Demand Broadcast Master Select 0 1 0 Broadcast Port Number Ethernet Setup 300 400 300 Configure the Date and Time Follow these steps to configure the date and time for the Powermonitor 1000 device The Date and Time Set up Parameters table on page 19 shows the date and time parameters and example settings 1 From the Configure Options m I I Power and Energy Management Solutions menu choose Date and Time to Meeting the Changing Demands for Power and Energy Management access the Date and Time Powermonitor 1000 Display and Configuration Configuration
28. mode PT and CT ratios demand values and the date and time Your application may require additional configuration TIP Network configuration is provided for the Powermonitor 1000 device on the Ethernet network For other communication options refer to the Powermonitor 1000 Unit Installation Instructions publication 1408 IN001 Follow these steps to configure Powermonitor 1000 device parameters 1 Launch the Internet browser on your computer 2 In the Address field type the IP address of your Powermonitor 1000 device The default IP address is 192 168 254 xxx where is the unit s ID The default address simplifies the task of making the initial connection to the unit from a personal computer Address http 192 168 254 23 ar E Bookmarks 7 Check amp al Translate AutoFill 4 Nr Qut va TIP You can check the IP address of the Powermonitor 1000 device from its display or by using RSLinx Classic software and configuring an EtherNet IP driver workstation SIMPL3 AB ETHIP 1 Ethernet 2 192 168 1 7 Powermonitor1000 1408 EM3A ENT Series A Publication CC 0S0017A EN P March 2010 13 Chapter 1 Powermonitor 1000 Device Configuration Configure RS 485 Follow these steps to configure RS 485 in a Powermonitor 1000 device 1 Choose Configure Options gt Communication gt RS 485 Communications to access the RS 485 Configuration page Power and Energ
29. nclude a Powermonitor 1000 device For a complete list of device classes refer to RSEnergyMetrix Getting Results Guide publication ENEMTX GROOI e RSEnergyMetrix Online Help provided with RSEnergyMetrix software Publication CC 0S0017A EN P March 2010 25 Chapter2 System Validation and Application Tips Configure Communication Drivers Before setting up devices you need to configure the drivers required for communication This example uses the RSLinx Classic Ethernet driver for the Powermonitor 1000 device Configure the RSLinx Ethernet Driver Follow these steps to configure the RSLinx Classic Ethernet driver 1 Open RSLinx Classic software by clicking its icon in the Windows system tray SysTray 3 0 9 2 From the Communications menu gt 7 choose Configure Drivers SC RSI Imc Classic Gateway File Edt wew 10 Station DDEJOPC Security Window Help uj amp 5 Configure Shortcuts Configure Client Applications Configure CIP Options Configure Gateway Driver Diagnostics CIP Diagnostics Gateway Diagnostics 3 From the Available Driver Configure Drivers Types pull down menu choose Ethernet Devices aT Za Help Configured Derwers Name and Description Status 4 Click Add New nn 5 Click OK to accept the default RRR driver AB_ETH 1 Choose a name for the new driver 15 characters maximum Cancel AB ETH 1 _ ed
30. ngineering Electricit Boiler House _Meter Meter type Electric Meter Data Trend Calendar Trer ED 3 Click Copy Meter Setup Delete Meter Information A copy of the meter is created under the selected group with the name Copy of Boiler House Tyne Electric Device None Boiler House Meter Meter Notes Time zone Meter Tags ID Type Name 44 Derived Real Energy Net 45 Derived Real Power Demand 49 Derived Reactive Energy Net Publication CC 0S0017A EN P March 2010 M Assigned to Groups Contribution factor gt Electricity 100 Add a new meter taq Log Rate Address 15 minutes View 15 minutes View 15 minutes View 35 Chapter2 System Validation and Application Tips DomainiMeter Engineering Electricity Copy of Boiler House Meter 4 Change the device to Power Meter type Electric Device class Powermonitor 1000 EM3 House Meter Data ll Trend Calendar Trend lI Meter Setup Edit Meter 5 Change the meter name to ED u e Power House Meter Meter Information 6 Click Save Ears DT Device Power House Eeetricity 100 N Hi Met The copied meter and its tags TA eee eee are created under the Electricity Notes S group with the new name Time zone KGMT 06 00 Central Time US amp Canady 7 Repeat step 1 through step 6 copy the rest of the Powermonitor 1000 elec
31. not change these autofill values Changing the values may prevent logging of the tag or cause incorrect data to be logged The log rate is set to the default log rate of the meter s assigned group It is typically the utility demand interval rate Refer to the RSEnergyMetrix software help before changing the log rate or maximum consumption per hour 6 Click Save Publication CC 0S0017A EN P March 2010 Notes entra e US amp Canada Read device tags Add a new meter tag Units Loa Rate Address 7 Add a Meter Tag P a EO Sae Cancel we Meter tag type Device Real Energy Net x Meter tag name JRealEneryyNet Value type RealEnersyNet 1 Log rate fs Number of demand periods Address es i Tag format Powermonitor 1000 Double Float v Unit Kh Number of decimals to display i Scale fi offset 0 Log delta reading Rollover value 1000000006 Trend log parameter B Max consumption per hour 33 Chapter2 System Validation and Application Tips 7 Click Add when the screen Return to meter screens refreshes Meter Tag Setup a Gs CN 8 Repeat step 4 through step 7 to add the remaining tags e Reactive Energy Net Real Power Demand These are typical tags for electric meters 9 When done click the Return to meter screens link or the meter tag Return to meter screens The tags just entered Domain Meter Engineering Electricity Boil
32. ntly Asked Questions 5 I see some of the data for the metering parameters but it shows on the least significant digit What is causing that A The metering parameter in the PanelView Component application is programmed with a fixed number of digits Your data value is outside of the fixed digits You need to customize the PanelView Component application for your specific situation 38 Publication CC 0S017A EN P March 2010 Rockwell Automation Support Rockwell Automation provides technical information on the Web to assist you in using its products At http www rockwellautomation com support you can find technical manuals a knowledge base of FAQs technical and application notes sample code and links to software service packs and a MySupport feature that you can customize to make the best use of these tools For an additional level of technical phone support for installation configuration and troubleshooting we offer TechConnect support programs For more information contact your local distributor or Rockwell Automation representative or visit http www rockwellautomation com support Installation Assistance If you experience an anomoly within the first 24 hours of installation review the information that is contained in this manual You can contact Customer Support for initial help in getting your product up and running United States or Canada 1 440 646 3434 Outside United States or Use the Worldwide
33. oftware described in this manual Reproduction of the contents of this manual in whole or in part without written permission of Rockwell Automation Inc is prohibited Throughout this manual when necessary we use notes to make you aware of safety considerations Identifies information about practices or circumstances that can cause an explosion in a hazardous environment which may lead to personal injury or death property damage or economic loss IMPORTANT Identifies information that is critical for successful application and understanding of the product ATTENTION Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss Attentions help you identify a hazard avoid a hazard and recognize the consequence SHOCK HAZARD Labels may be on or inside the equipment for example a drive or motor to alert people that dangerous voltage may be present BURN HAZARD Labels may be on or inside the equipment for example a drive or motor to alert people that surfaces may reach dangerous temperatures A A A A Rockwell Automation Allen Bradley Rockwell Software Powermonitor 1000 Powermonitor 3000 PanelView Component ControlLogix RSLogix 500 RSEnergyMetrix RSLinx Classic RSPower and TechConnect are either trademarks or registered trademarks of Rockwell Automation Inc Trademarks not belonging to Rockwell Automation
34. rm the meter was G3 Devices created in the correct group Efficient Industries Plant 1 Accounting E Engineering C3 Air Boiler House IB Electric Main Publication CC 0S0017A EN P March 2010 Assign Meter lags to a Powerm You will now assign tags to a Powe System Validation and Application Tips Chapter 2 onitor 1000 Electric Meter rmonitor 1000 electric meter For this example Real Energy Net Reactive Energy Net and Real Power Demand are assigned to the Boiler House Meter 1 Select the meter to assign tags For this example select Boiler Click the Meter Setup tab Click the Add a new meter tag link System Meters Reports l Custom Layout Save Restore Collapse House Meter E _Efficient Industries Plant 1 EE Efficient Industries Plant 1 E Accounting Engineering CJ Air 2 3 Electricity amp Domain Meter Engineering Electricity Boiler House Meter Meter type Electric Device class Powe itor 1000 EM3 Meter Data Trend Calendar Trgfi Meter Setup Meter Setup Meter Information Device Boiler House gt Electricity 100 Name Boiler House Meter Time zone lt Meter Tags Twe Verify that the Meter tag type is Device From the Meter tag type pull down menu choose Real Energy Net For a Powermonitor device the rest of the settings are autofilled Do
35. s EEE and assign tags to those meters Publication CC 0S0017A EN P March 2010 Production 1 PM 1000 Production 2 PM 1000 Shipping Receiving DC PM 1000 31 Chapter2 System Validation and Application Tips Create a Powermonitor 1000 Electric Meter Follow these steps to create a Powermonitor 1000 electric meter 1 Navigate to and select a Click the Meters tab on Click the Add new From the Type pull down menu Click the Meters tab Domain Meter Engineering Electricity Sveter meters pReports Layout Save Restore Collapse group to assign the meter For this example select z E Efficient Industries Plant 1 Meters 1 So d WE E Accounting E E Engineering Domain Electricity Engineering subdomain Add a new meter the right CJ Steam C3 Water meter link Select the Parent group For this example select Add a Meter Electricity Cancel Meter Information choose the meter type For this example choose Electric Ku a Type Electric 7 From the Device pull down DOE menu choose the device Name Boiler House Meter 2 associated with meter Notes E For this example choose Time zone GMT 06 00 Central Time US amp Canada Boiler House 8 Enter a meter name 10 32 For this example enter Boiler House Meter Click Save Confi
36. this example choose Electricity Enable device Iv Enable real time logging Enable auto data repopulation Check the boxes as shown Parent group Electricity 7 The checkboxes vary by Device class Powermonitor 1000 EM3 on EtherNetIP device type Name Boiler House Not If the device will not be connected during Time zone GMT 085 00 Central Time US amp Canada Time sync Daily configuration clear the Enable Device password lt Device password applies only to the device checkbox to avoid Powermonitors The default of zero matches timeout errors ES the default power monitor password Communications path _ 1 10 10 10 1 Prom the Device class P ull Comm timeout seconds s down menu choose a device For this example choose Max messages Powermonitor 1000 EM3 on Enable comm loss alarm EtherNet IP Enter a name for the device For this example enter Boiler House Enter the Time zone and Time sync interval Devices with internal clocks may be time synched such as Powermonitor devices and controllers Publication CC 0S0017A EN P March 2010 System Validation and Application Tips Chapter 2 9 Enter the communication path to the device Communications path AETHMO10101 Comm timeout seconds 5 For this example the Comm retries 2 communication path to the first Max messages 1 Powermonitor 1000 EM3 device is AB_ETH
37. to verify that communication is occurring between your devices Powermonitor 1000 Device to PanelView Component Configuration PanelView Component C300 Screens Quick Navigation for Powermonitor 1000 Device Powermonitor 1000 Device to RSEnergyMetrix Software Configuration Configure Communication Drivers page 26 22 Configure a Powermonitor 1000 Device Copy Devices Creating Electric Meters in RSEnergyMetrix Software Create a Powermonitor 1000 Electric Meter Assign Meter Tags to a Powermonitor 1000 Electric Meter Copy Meters and Tags page 35 Publication CC 0S0017A EN P March 2010 System Validation and Application Tips Chapter 2 Powermonitor 1000 Device to PanelView Component Configuration Loading Powermonitor 1000 Standalone Application to a PanelView Component Terminal Follow these steps to download the Powermonitor 1000 device preconfigured PanelView Component project to 3 inch touch terminal 1 Power up the PanelView Component 3 inch terminal and Powermonitor 1000 device TIP The PanelView Component terminal is powered with a 24V DC supply The PanelView Component HMI power wiring is illustrated in the Connected Building Block CD 2 Verify that the PanelView Component terminal is connected to the Powermointor 1000 device over the RS 485 network 1585J M8TBJM xx Customer supplied Ethernet switch or fiber to Ethernet network or Ethernet
38. tric meters The Real Energy Net Reactive Energy Net and Real Power Demand tags are automatically copied with each device 8 Change the device name and meter name as shown in the table Meter Parent Group Device Name Production 1 Electricity Production 1 Production 1 Meter Production 2 Electricity Production 2 Production 2 Meter Shipping Receiving DC Electricity Shipping Receiving DC Shipping Receiving DC Meter For this example the electric meter listing looks s weiss Repons Custom He this Layout Save Restore Collapse 5 E Efficient Industries Plant 1 Ej Accounting B Engineering CD Air TIP Remember that the device class must be the SES ERI Boiler House Meter same in the source and copied meters otherwise the meter tag addressing will be incorrect in the copied meter amp Data Center Meter S Electric Main Meter SJ Power House Meter amp Production 1 Meter Copied Meters amp Production 2 Meter Shipping Receiving DC Meter H Fuels amp CJ Steam Additional Resources Refer to page 9 for a listing of product and information resources 36 Publication CC 0S0017A EN P March 2010 Appendix A Frequently Asked Questions Introduction This appendix provides some frequently asked questions regarding using a Powermonitor 1000 device and a PanelView Component HMI terminal 1 When I click the Navigation links in the PanelView Component HMI w
39. y Management Solutions Meeting the Changing Demands for Power and Energy Management Allen Bradley Display Metering Information gt Display Status gt Execute Commands Configure Options 7 Analog Input Catalog Number Breakdown Date and Time Go To ab com Advanced User Configurable Table Setup Communication gt RS485 Communications Ethernet Communications Powermonitor 1000 Information 2 Enter the default password of 0 or another valid password to access Edit mode 3 Enter the following parameter values in the RS 485 Configuration table This configuration is used for a PanelView Component 3 inch application PM1000 Protocol DH485 _ Serial Delay 5 ms Element Item Name Value Password a Range 0 to 9999 5 Baud Rate 19200 Protocol Setting 0 DF1 Half Duplex Slave 1 DF1 Full Duplex 1 2 Modbus RTU SI Serial Address 1 a Pm 4 DH485 4 Serial Data Format 8 1 E Serial Delay Sms Range 1 to 15 5 Intercharacter Timeout 0 05150 oo 4 19200 5 38400 6 57600 4 DF1 Modbus DH485 Address 4 Range 1 to 247 for DF 1 Modbus 0 31 for DH485 1 Data Format 0 parity 8 data 1 stop 5 1 Odd parity 8 data 1 stop 2 Even parity 8 data 1 stop Only 2 for DH485 2 Intercharacter Timeout ms 6 0 3 5 characters Range 0 to 6553 ms 7 Maximum Node Address Range 1 31 8 Reserved Range 0
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