Version 2010
June
2010 Rev. 5.15
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The software program described by this user guide and the contents of the user guide itself are subject to change without notice. The described software program is licensed material and may be copied only in accordance with the terms of the license agreement. Copies made otherwise are illegal. Copies of this publication, in whole or in part, by any means, are also prohibited and illegal without express written consent of PowerCad Software Pty. Ltd. Autodesk and AutoCAD are registered trademarks of Autodesk, Inc. ® © Acrobat Reader copyright 1984-2010 Adobe Systems Incorporated. All rights reserved. Adobe and Acrobat are trademarks of Adobe Systems Incorporated. Microsoft and Windows are registered trademarks of Microsoft Corporation.
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Contents Chapter 1
Installation
Page 5
Before you install Installation on a Stand-alone Computer ® AutoCAD Configuration Register and Authorization Hardware Lock System Requirements
Chapter 2
General Information
Page 16
Overview Features Support Moving Around
Local Mode/Model Mode Chapter 3
Project
Page 25
Project Details Project Options - Supply Project Options -Standards
Chapter 4
Cables/Conduits
Page32
Cables - Main Work Screen Cable Selection Conduits – Work Screen Conduits Selection
Chapter 5
Loads
Page 45
Connected Loads Maximum Demand Screen Maximum Demand Calculation
Loads-Adding Harmonic Data Electricity Distributor Metering Upstream Diversity Chapter 6
Distribution
Page 57
Single Line Diagram Supply Transformer Distribution Network Summaries Final Sub-circuits
Chapter 7
Protection
Page 65
Power Factor correction Earth Fault-Loop impedance Co-ordination Summary
Chapter 8
Harmonics
Page 73
Loads Library Harmonics Harmonic Analyser
Chapter 9
Cost Estimate
Page 88
General Trade Prices Discount
Chapter 10
AutoCAD® Interface
Page 92
General Concept Modelling-Data input Drawing Naming Convention ® Distribution System-Defining in AutoCAD
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Chapter 11
Reports
Page 99
Report Menu Report preview Report - Final Sub-Circuit
Appendices A1
PowerCad-5 AutoCAD® Drawing Blocks
Page 105
Switchboards Luminaries Socket-Outlets Motors Appliances
Appendices A2
Standards
Page 112
Transients
Surge Protection Electrical Noise Flicker Harmonics Radio Frequency Electrical Grounding Powering Safety Telecommunications Power Quality Utility Interface Power Quality Monitoring Power Quality Problem Susceptibility Appendices A3
Glossary
Page
116
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INSTALLATION
In this Chapter
Before you install
Installation on a stand-alone computer
AutoCAD® Configuration
Registration and Authorization
Hardware Lock
System requirements
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Installation This section includes information for installing PowerCad-5 on a stand-alone computer. For multi-license network version of PowerCad-5 refer documentation shipped with the Network Manager.
Before you install 1.
(For
Win XP SP3, Vista SP1, Win 7) ensure write permission is available to the following locations: Target Folder for PowerCad-5. System Registry Windows System Folder. AutoCAD® Support Folder. (Optional)
2. 3. 4. 5.
Ensure AutoCAD® 2005 or higher is installed. (Optional) Re-boot the computer. Close all running applications. Disable virus-checking software. (Refer Virus Software Documentation for Instructions).
Installation on a Stand-alone Computer 1.
Insert the PowerCad-5 CD into the CD Rom Drive.
Auto play feature will automatically invoke the setup program. If autoplay is turned off, then manually run setup.exe. From the Start Menu, choose run, enter the CD-Rom Drive letter and Setup: Example, enter D:\setup.
2.
On the opening screen review the PowerCad Software License Agreement, you must accept this agreement to complete the installation. To accept, choose “Yes” to proceed with the installation.
3.
On the product Authorization screen, enter the Serial Number and CD Key located on the sticker on the back of the PowerCad-5 CD-Rom packaging. Choose next to proceed.
4.
On the Destination Folder page, do one of the following:
Choose ‘Next’ to accept the default destination folder. Choose ‘Browse’ to specify a different drive and folder where you wish PowerCad-5 installed. Choose any drive, folder that is on your stand-alone computer hard drive(s).
5.
Licensee Details Screen. Enter the Licensee information. Note: This information will be printed on all reports generated by PowerCad-5. Choose ‘Next”.
6.
On the SetUp Complete screen do one of the following:
Choose Finish to complete PowerCad-5 installation. Tick the check box to install Adobe Acrobat Reader 9.3 Note: Adobe Acrobat Reader 9.3 is required to view the PowerCad-5 “User Guide”. Tick the check box to launch PowerCad-5.
Note: Before launching PowerCad-5 ensures the software hard lock is connected to your computer.
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AutoCAD® Configuration (optional)
During the installation PowerCad-5 installs the following lines to the AutoCAD® acad2011.lsp file: ;;------- PowerCad-5 LISP ROUTINES VER 5.0.73.1 June 2010 -----------------------(load "C:/PowerCad-5/PowerCad-5")(PCAD-LOADARXMODULE) ;;--------------- PowerCad-5 LISP ROUTINES END -----------------------------------Note: The default route directory for the PowerCad-5 folder is “C:/”. At installation this can be changed, and the alternate path will be reflected in the acad2011.lsp file. For earlier versions of AutoCAD® the following respective auto lisp files will be changed: AutoCAD® 2005 AutoCAD® 2006 AutoCAD® 2007 AutoCAD® 2008 AutoCAD® 2009 AutoCAD® 2010
acad2005.lsp file acad2006.lsp file acad2007.lsp file acad2008.lsp file acad2009.lsp file acad2010.lsp file
PowerCad-5 AutoCAD® Menu Groups PowerCad-5 is shipped with the following AutoCAD® Menu Groups: For AutoCAD® 2005 PCAD-5_Cables_2005.mnc PCAD-5_Distribution_2005.mnc PCAD-5_Loads_2005.mnc PCAD-5_Edit_2005.mnc PCAD-5_2005.mnc To load a .mnc menu file use the Menu command under Tools, Customize. See (Fig.2) For AutoCAD® 2006 to AutoCAD® 2009 PCAD-5_Cables_2009.CUI PCAD-5_Distribution_2009.CUI PCAD-5_Loads_2009.CUI PCAD-5_Edit_2009.CUI PCAD-5_2009.CUI To load a partial CUI use the CUILOAD command For AutoCAD® 2010 & AutoCAD® 2011 PCAD-5_Cables_2011.CUIx PCAD-5_Distribution_2011.CUIx PCAD-5_Loads_2011.CUIx PCAD-5_Edit_2011.CUIx PCAD-5_2011.CUIx To load a partial CUIx use the CUILOAD command
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Set AutoCAD® Interface Options
The AutoCAD® Search Paths for PowerCad-5 menus, libaries and ARX routine items must be set. The Search Paths are set in the AutoCAD® Options dialog box. To set options: (See Fig. 1) 1. 2. 3. 4. 5. 6.
At the AutoCAD® command line type ‘Options’ then ‘Enter’ In the Options dialog box, choose the ‘Files’ tab. Expand the ‘Support File Path’ Click the ‘Add’ button to insert a new path Click the ‘Browse’ button to find the ‘C:/PowerCad-5’ path. Repeat steps 4 & 5 to define the following paths: ‘C:/PowerCad-5/Bin_Lib’ ‘C:/PowerCad-5/Menu_Lib’ ‘C:/PowerCad-5/Cad_Lib’ PowerCad-5 Support Paths
Fig. 1
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PowerCad-5 AutoCAD® 2005 Menu Groups PowerCad-5 is shipped with five compiled AutoCAD® Menu Groups: PCAD_ Distribution_2005.mnc PCAD_Loads_2005.mnc PCAD_ Cables _2005.mnc PCAD_Edit_2005.mnc PCAD _2005.mnc Menu Group PCAD_ Distribution _2005.mnc contains the PowerCad-5 AutoCAD® switchboard electrical block library and sub main cable length ARX routine menus. Menu Group PCAD_Loads_2005.mnc contains the PowerCad-5 AutoCAD® loads electrical block library menus. Menu Group PCAD_Cables_2005.mnc contains the PowerCad-5 AutoCAD® final sub circuit cable length ARX routine menus. Menu Group PCAD_Edit_2005.mnc contains the PowerCad-5 AutoCAD® ARX routine routines for editing the PowerCad-5 AutoCAD® electrical blocks. Menu Group PCAD _2005.mnc contains the PowerCad-5 AutoCAD® ARX routine routines menus for launching and updating PowerCad-5.
Adding the AutoCAD® 2005 PowerCad-5 Menu Groups to the AutoCAD® Menu Bar: Step 1 Start the AutoCAD® 2005 application. Open the AutoCAD® Menu Customization dialog box. See (Fig.2) Load the PCAD-5_2005.mnc menu Group. PowerCad-5 Menu Groups are located in the PowerCad-5 Menu_Lib folder: See (Fig.6)
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Step 2 Repeat step 1 to load PCAD_ Distribution_2005.mnc, PCAD_Edit_2005.mnc, PCAD_Loads_2005.mnc and the PCAD_Cables_2005.mnc menu Groups. This completes the PowerCad-5 Menu Group listing. (See Fig. 3) PowerCad-5 menu Groups listed.
Fig.3 Step 3 Load the PowerCad-5 Menu items onto the AutoCAD® Menu Bar. (See Fig. 4)
Menu Bar list PowerCad-5 Menus
Fig. 4 AutoCAD® 2005 Menu Bar with PowerCad-5 menu items (See Fig. 5)
Fig.5
AutoCAD® Menu Bar PowerCad-5 Menus items
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AutoCAD® 2011 Menu Bar with PowerCad-5 menu items (See Fig. 6)
AutoCAD® Menu Bar PowerCad-5 Menus items Fig. 6
PowerCad-5 Directory structure
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Register and Authorize PowerCad-5 The first time you start PowerCad-5 the Registration and Authorization Screen is displayed. PowerCad-5 displays the Registration and Authorization Screen for 18 activations of the application, or for 15 calendar days to allow time for you to receive your Registration Code. You can register or authorize PowerCad-5 in one of the following ways: (see Fig.8) Fax Email Post/Mail.
Fig. 8
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Registration by Fax Print a fax sheet to transmit to PowerCad Software Pty. Ltd., which contains your licensee details. (see Fig.9) To print the fax sheet Click on the “Print Fax” button.
Registration by Email Click on Register by Email tab. Save your licensee details to a file. (see Fig.9) To save your licensee details to a file Click on the “Save File” button.
Registration by Post/Mail Print a fax sheet, which contains your licensee details to post/mail to PowerCad Software Pty. Ltd. (Fig.9)
Fig.9
Software Hard lock PowerCad-5 software is supplied with an electronic hardware lock configured for a USB port. (see Fig.10)
Fig.10
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System Requirements Before you begin installing PowerCad-5 on a stand-alone computer, make sure that the computer meets the following minimum recommended requirements:
Hardware/ Software
Requirements
Comments
Windows® XP SP3 Windows® VISTA SP1 Windows® Win 7
Recommended
Pentium 2.0GHz Intel® i7 2.5MHz or higher
Recommended
2GB 4GB
Minimum Recommended
1024x764SVGA with 64 thousand colour
Recommended
Folder:
Minimum Recommended
Operating System
Processor
RAM
Video
Hard Disk 250Mb 300Mb
Pointing Device
Mouse, trackball or other device
CD-Rom
Any speed
Web Browser
Microsoft® Internet 8.0 or later
AutoCAD®
AutoCAD® 2005 AutoCAD® 2009 AutoCAD® 2010 AutoCAD® 2011
For installation only
Recommended
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GENERAL INFORMATION
In this Chapter
Overview
Features
Support
Moving Around
Local Mode/Model Mode
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Overview PowerCad-5 the leading electrical engineering design software solution for Consulting Engineers, featuring circuit breaker selection, time-current curves, single line diagram modules and harmonic modelling.
Features PowerCad-5 features: Maximum Demand to AS/NZS 3000:2007. Fault-loop Impedance to AS/NZS 3000:2007. Cable Voltage Drop Calculations. Harmonic Analysis. Single Line Diagram Export to AutoCad. Circuit Breaker Selection. Automatic Final Subcircuit Cable Sizing. Reports with Print Preview. Internet Support.
Cable Sizing to AS/NZS 3008.1. Conduit Sizing. Short Circuit calculations. Power Factor Correction. Network Resonance. Time/Current Co-ordination Curves. Substation Sizing. Direct Online Support.
Support PowerCad-5 has the following support features:
Getting Started - step by step description on how to use the major features. User Guide – in electronic format. (requires Adobe reader ver. 9.xx ) On line help – Internet – down load revisions from the PowerCad web site. (Free for first six months from date of purchase. Maintenance contract required there after.) About - version of software and contact details for PowerCad Software Pty.,Ltd. Context Sensitive On Line Help – indexes to relevant section of on line help On Screen Fly Over descriptive text boxes
To access the Help menu click on the Help in the main application menu. (See Fig.1) Click to display the PowerCad-5 Getting Started document
Click to display the PowerCad-5 Help menu
Click to display the PowerCad-5 User Guide document
Click to display the PowerCad-5 On line help
Click to display the PowerCad-5 Internet dialog box
Fig. 1
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Getting Started The PowerCad-5 Getting Started screen is displayed as default on opening the PowerCad-5 application. (See Fig.2) This is a step by step description on how to use the major features of the program and generally navigate around PowerCad-5.
Fig. 2
User Guide The PowerCad-5 User Guide is supplied in electronic form as an Adobe .PDF file. To read the PowerCad-5 User Guide click on Help in the main application menu (Fig.1) to display the Help drop down menu, then click on User Guide . ( Fig. 3) Click on item to display “User Guide”
Fig. 4
Fig. 3
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On Line Help PowerCad-5 has extensive On Line Help. From the Help menu (Fig.1) click on Contents to display the help topics. Hi-light the topic, then click display to view the topic.
( Fig.4)
Fig.4
Click on item to display “Topic”
Internet Support This dialog allows you to obtain updates and other information from the World Wide Web. (Fig.5) Shortcut: To quickly open this window click on in the Toolbar. Main Menu Command: Help | Internet Support.
Fig. 5 Pressing one of the large buttons on the right side of the dialog opens your web browser and points it to World Wide Web page associated with the button. __________________________________________________________________________________________ PowerCad-5 User Guide
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Check for Updates - Press this button to check for update packages from the PowerCad Web Site. All packages that are available for down load are listed in the table.
Down Load - Press this button after checking the check box next to each update package you want to down load. This button is disabled if no packages are selected. Depending on the total size of all the packages to down load, this operation may take some time to complete. The status bar at the bottom of the dialog keeps you informed on the progress of the down load.
Note: When this operation finishes successfully it will be necessary to reboot the computer to complete the installation of all the packages. View Latest Version Revision History - Press this button to retrieve from the PowerCad Web Site the latest version revision history information for the application. You can use this information to help you decide which update packages you need to down load. Close - Press this button to close the dialog.
About To display the version of PowerCad-5 click on the ‘Help” icon and click on the About’ to display PowerCad Software Pty. Ltd. contact details and the installed version of PowerCad-5. (Fig.6) installed version of PowerCad-5
Click on Help icon to display available support options
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Context Sensitive On Line Help The PowerCad-5 provides context sensitive help. Click on the context sensitive icon (Fig.7) to turn the cursor into an indexing device for the PowerCad-5 online help, and then Click on the screen area for which help is required.
Fig. 7
On Screen Fly Overs The PowerCad-5 has extensive on screen Fly Over descriptive text boxes. (Fig.8) To view the Fly Over descriptive text box hold the cursor over the respective item. Place cursor over item to display “Flyover” description
“Flyover” description
Fig. 8
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Moving Around PowerCad-5 displays the switchboards forming the distribution system in an “Explorer” type tree display. This display, on specific screens is fixed and is used to focus on respective switchboards for inputs and to display outputs pertaining to the respective switchboard.
Distribution network “Explorer” type tree display Fig. 9 A “Floating Tree” screen is also available which defaults to “stay on top”. This has limited input functions such as “add/edit/delete/rename switchboards. The “floating tree” screen is extremely useful to quickly navigate around the distribution network “Explorer” type Floating tree icon
“Explorer” type Floating tree display
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Local Mode/Model Mode PowerCad-5 has two modes of operation "Local Mode" and "Model Mode". The user may toggle between the two modes by clicking on the button located on the tool bar along the right-hand side of the main application window. See (Fig. 11) Click to toggle between Local Mode and Model Mode
Fig. 11 PowerCad-5 "Local Mode" acts as a ‘Smart calculator’ enabling quick calculations to be performed for single circuits/cables which are not associated with the main LV distribution Model: See (Fig. 11) Cable Screen (Opens as default) allows single cable selections. Data Screen Displays the single cable selection cable data. Conduits Screen - If the single cable is in conduit, the conduit size is automatically sized. P.F Correction Screen – Power Factor correction calculator. Time/Current Screen - Displays the cable protective device time/current curve. Fault Loop Impedance Screen - Displays the single circuit fault-loop impendence based on 80% 80% of the voltage being available for the circuit during the fault. Equivalent Circuit Screen - Displays the equivalent circuit for the fault-loop impedance……… calculation.
Local Mode Active
Screens Active in Local Mode
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Project/Properties
In this Chapter
Project details
Project Options- supply
Project Options- standards
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Project Details To display the Project Details screen Click on the Project Tab. By default the screen opens at the Project Details screen. (Fig.1)
Project Enter the project details, (i.e. project title, address, phone numbers, etc.) The project title, street and suburb are printed out on the PowerCad-5 reports. Click to display the project Options screen
Click tab to open the Project screen
check the tick box to include comments
Fig. 1
Client Enter the Client details, (i.e. Company name, address, phone numbers, etc.)
Company Enter the Company details, ie. Company name, address, phone numbers, etc
Comments Enter the comments. Comments are not printed out but are stored in the project file. To include the comments on reports check the tick box. (Fig. 1) __________________________________________________________________________________________ PowerCad-5 User Guide
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Project Options-Supply To open the Project Options screen Click on the Project Options icon. By default the screen opens at the Supply Tab. (Fig. 3)
Country Select the country where the project is located. PowerCad-5 automatically sets and displays the nominal Supply voltage and frequency for the locality selected.
Voltage If the locality has multiple voltages, from the drop down list select the actual voltage, then tick the check box set this voltage as the default voltage.
Country
Nominal supply voltage
Nominal supply frequency
Default tick box
Fig. 3
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Project Options-Standards To display the Project Options Standards screen Click on the Standards Tab. (Fig. 4) The Standards screen sets the standards adopted, or part thereof a standard used. PowerCad-5 adopts design data, design criteria, calculation methods, application rules etc. from standards applicable to the country set under the Supply Tab. In the case particular standards for the respective country do not cover the area of interest or PowerCad-5 at present has not incorporated the standard, an Australian standard is adopted. PowerCad-5 is continually being updated and the user should regularly check the PowerCad Web site for revisions (refer support available under chapter 2). Note: This screen is not a standards compliance statement. Standards are subject to periodic review and local ordinance rules and regulations often over rule the standards. It is the users responsibility to check the output from PowerCad-5 to ensure their design is in compliance.
Fig. 4
Design Standard Based on the country selected for the Project location (see Supply screen) PowerCad-5 automatically sets and displays the Electrical wiring installation standards totally or part thereof adopted. (Fig. 4)
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Cables Standard Based on the country selected for the Project location (see Supply screen) PowerCad-5 automatically sets and displays the cable standards totally or part thereof adopted. (Fig. 4)
Maximum Demand Method Based on the country selected for the Project location (see Supply screen) PowerCad-5 automatically sets and displays the standards adopted for the Maximum Demand calculations. ie the Diversity applied to the connected load. (Fig. 5)
Fig. 5
Calculation Mode For 3 phase installations PowerCad-5 offers either a balanced load or an unbalanced load calculation. For a balanced load calculation PowerCad-5 sums the loads for all phases then divides the total by three resulting in a Amps/phase load. For an unbalanced load calculation PowerCad-5 sums the loads in each phase then selects the larges value of the 3 phases resulting in an Amps/phase load for the highest loaded phase. For most projects always set the calculation mode to “Unbalanced”. (Fig. 5)
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CABLES/CONDUITS In this Chapter
Main Work Screen
Cable selection
Cable data
Conduits
Cable thermal stress and Joule Integral of a Short-Circuit
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Cables - Main Work Screen PowerCad-5 by default automatically opens at ‘’Distribution” Tab in ‘Model Mode’ with the cable screen displayed. (Fig. 1) Refer chapter 2 for information on ‘Model Mode’. Active, Neutral and Earth list Tabs
This screen is the main work screen for cable selections.
Earth can be switch off for Mains cables
Conductor size list
Fig. 1
Active Conductor PowerCad-5 automatically sizes the active conductor(s). (see Fig. 2) To display the Active conductor size list click on the Active Tab. PowerCad-5 automatically defaults to the Active Tab. The Active size automatically selected by PowerCad-5 can be over ridden by clicking on the new size (e.g. 25mm2 then checking the Locked check box). (Fig. 3) Active conductor is automatically sized
Parrallel cable check box
Lock Active size check box
The Neutral conductor is automatically resized
Select new Active size
Fig. 2
Fig. 3
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Neutral Conductor PowerCad-5 automatically sizes the neutral conductor. (Fig. 4) To display the Neutral conductor size list click on the Neutral Tab. For single core cables the Neutral Conductor can be set as a full size neutral conductor by ticking the Full Size check box. (Fig. 4) For single core cables the Neutral size is automatically selected by PowerCad-5 and can be over ridden by clicking on the new size (e.g. 25mm2) then checking the Locked check box. (Fig. 5) Neutral conductor automatically sized
Full Size Neutral check box
Lock Neutral size check box
Select new Active size
Fig. 4
Fig. 5
Earth Conductor PowerCad-5 automatically sizes the earth conductor. (Fig. 6) To display the Earth conductor size list click on the Earth Tab. Similar to the Active and Neutral conductors, the Earth conductor size can be manually changed and the new size locked (Fig. 7), or can be switched off for mains cables with the MEN point at the main electrical switchboard (Fig. 8). Earth switched off
Earth manually sized and locked
Earth conductor auto sized
Fig. 6
Fig. 7
Fig. 8
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Optimum Cable Size As each input is changed the optimum cable size is automatically displayed in the Cables list box located at the top right of the screen. (Fig. 9) The optimum cable size is indicated by a black right arrow on the left side of the Cables list box. The optimum cable size is based on the governing criteria of either: Current carrying capacity. Voltage drop. Fault carrying capacity.
The optimum cable is the first cable size shown in black in the Cables list box. Cables that are less than the optimum size are displayed in red in the list box and do not meet one or more of the selection criteria.
Optimum Cable size Cable size list box
Fig. 9
Cable Rating As each input is changed or a cable size is highlighted in Cable size list box PowerCad-5 dynamically displays the cable current rating, voltage drop and cable fault capacity. (Fig. 10)
Cable current Capacity
Cable Voltage Drop
Cable Fault capacity
Fig. 10
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Checking an Alternative or Existing Cable Size To check an existing cable size or an alternative size to the optimum cable for the same input conditions, cable type, configuration, insulation and conductor material, click the mouse pointer on the desired cable size listed in the Cables list box. The program will dynamically display the following: Current capacity Voltage drop Fault carrying capacity Maximum cable length.
Warning current capacity is too low
Message ICON cross turns red
High-light a smaller cable than the optimum cable
Fig. 11 Error Messages PowerCad-5 has extensive error checking. The cross on the error Message ICON located on the left hand side of all screens turns red on detection of on error. Click on the error message ICON
to view the errors displayed in Fig. 11
Error Message listing and error description
Fig. 12
Parallel Cables By default the parallel cable choices available in the Cables list box are limited. To increase the number of parallel cables available for a particular cable size, click the mouse pointer on the desired cable size listed in the Cables list box, and then check the Parallel Cables check box located above the list box. To revert back to the default cable sizes uncheck the Parallel Cables check box.
Locking an Existing Cable Size To prevent the program from always selecting the optimum cable size click the mouse pointer on the desired cable size listed in the Cables list box, and then lock it by checking the Locked check box located above the list box. To revert back to optimum cable selection uncheck the check box.
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Cable Selection Step 1. Select 1Ø or 3Ø installation. Enter the type of cable from the drop down Cable Code menu. i.e. Flat 2-core cable (see Fig. 12). Cable Code - is a number (1-6) which references the category or type of cable, (ie. Cable Code 5 refers to 3 or 4 core 0.6/1kV orange circular PVC/PVC cable).
Select Single or Three Phase installation
Select CABLE CODE
Fig. 12
Step 2. Enter the cable configuration from the drop down Configuration menu. ie. UNENCLOSED, SPACED FROM SURFACE (Fig. 13). Configuration - is a number (1-14), which references the cable configuration. (ie. Configuration 10 refers to a cable or cables buried direct in ground). Not all cable configuration types are available for all categories of cables. PowerCad-5 only displays the configuration types available for the cable code selected.
Select cable CONFIGURATION
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Step 3. Enter the cable insulation from the drop down Insulation menu. i.e. V75 (input see Fig. 14). Insulation - Select the cable insulation, for the particular cable. Not all insulation types are available for all categories of cables. PowerCad-5 only displays the insulation types available for the cable code selected.
Select cable INSULATION
Fig. 14
Step 4. Enter the cable conductor material from the drop down material menu. i.e. copper (input see Fig. 15). Conductor Material - not all material types are available for all categories of cables. PowerCad-5 only displays the material types available for the cable code and cable insulation type selected. Select cable Sheath MATERIAL
Select cable Conductor MATERIAL
Fig. 15
Select cable Load and load power factor
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Step 5. Enter the cable sheath material from the drop down Sheath material menu. i.e. PVC (input see Fig. 15). Sheath – the mechanical protective covering over the conductor insulation.
Step 6. Enter the cable Load Maximum Demand: (input see Fig. 15) Load Max. Demand - Enter the calculated load to be carried by the cable in ampere p into this input box. Load Power Factor - Enter the calculated load power factor into this input box. Appliances other than incandescent lighting and resistive electric heaters, may have capacitive or inductive current that change the power factor (ie. compact fluorescent lighting, electric motors, H.I.D. lighting, electric welding equipment may reduce the load power factor. Refer to the standard for the minimum allowable power factor. Note: The MD can be copied the load from the "Maximum Demand Screen" by clicking the Copy Load from MD Input Screen button.
Step 7. Enter the: (Fig. 16) Cable Length (m): Derating Factor: Max.Voltage Drop (%): Input cable total route length
Input cable maximum voltage drop
Input cable derating factor
Fig. 16 Cable Length - Enter the cable length. The cable length is the distance measured along the cable between the points of connection at each end of the respective cable. Derating Factor - Enter the cable-derating factor. The cable Derating Factor is dependent on the cable installation method and the number and proximity of other power cables. Typical cable derating factors can be found in: Australian Standard AS3008 British Standard BS7671 Singapore Standard CP5 Max. Voltage Drop - Enter the maximum voltage drop. This is the maximum acceptable voltage drop over the cable length, as a percentage of the nominal supply voltage.
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Step 8. Enter the cable:
o
Air Ambient (c ): Short Circuit Time (sec): Max. Fault Level (kA): Input cable ambient air temperature
Input duration of short circuit
Input Fault level at cable Protective Device
Fig. 17 Ambient Temperature - Enter the design ambient temperature. This is the ambient temperature of the air surrounding the cable. PowerCad-5 automatically changes the default setting of this temperature when either an underground or aboveground cable installation is specified. The user can also change the ambient temperature criteria. PowerCad-5 automatically sets the temperature for both soil and ambient air based on the country setting in the ‘Projects Options Screen (refer chapter 3). Short Circuit Time - Enter the duration (expressed in seconds) of the short circuit current. This is the interrupt time of the protective device. The Short Circuit Time is a function of the cable protection device or the time for the network protection device(s) to clear the fault. i.e. the duration of the prospective fault on the cable. Max. Fault Level - Enter the maximum fault into this input box. This is the perspective fault level upstream of the cable at the protective device. PowerCad-5 calculates the perspective fault carried by the cable based on the cable impedance and the upstream prospective fault.
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Conduit – Work Screen To open the Conduit selection screen (see Fig. 18), click on the Cable/Conduits Tab then click on the Conduit Icon.
PowerCad-5 automatically takes the cable information from the Cable Selection screen. The cable size etc. can be edited from the Conduit selection screen. Conduit nominal size
Input number of circuits
Cable Active conductor size
Cable type and method of installation
Fig. 18
Conduit Sizing - Definition and Methodology PowerCad-5 adopts the following definitions and methodology in sizing conduits: A circuit comprises: 1Ø – Active, Neutral and Earth conductor. 3Ø – Actives (L1,L2,& L30), Neutral and Earth conductor.
Cable size: For Single core cables the largest conductor (Active, Neutral or Earth) size is taken as the cable size to select the conduit, and this size is applied for all circuits 2
E.g.: a 120mm single core double insulated cable with a 2 2 50mm Neutral and a 35 mm Earth conductor is run with 3 other circuits. The Cable size and number of conductors used by PowerCad-5 to size 2 the conduit is therefore15 x120mm cables requiring 150mm diameter conduit.
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Conduit Selection Step 1. Open the Cable selection screen and Select the cable. (Fig. 19) Cable installed in conduit
Cable size
Fig. 19 Note: PowerCad-5 will only display conduit sizes for cables configured as an in conduit installation. ie: Configuration codes 5, 6, 12,13, & 14 etc for installed in conduit installations
Step 2. Open the Conduit selection screen. (Fig. 20) Click on the Conduit screen Icon to open the Conduit sizing work screen. Enter number of circuits
- Input the number of cable circuits in the conduit. - Select the Conduit Type.
Conduit Screen Icon
Select the Type of Conduit
Note: In the cable screen input the required de-rating factor read from AS/NZS3008. Fig. 20
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Cable thermal stress and Joule Integral of a Short-Circuit PowerCad-5 version 5.0.72.0 utilizes the following method is to calculate the ability of the cable to with stand the prospective short-circuit current: 1.0 The K constant for the conductor is based on the calculated operating temperature of the conductor when carrying the calculated load MD and the final temperature of the conductor based on the maximum permissible operating temperature limit for the respective insulating material. Note: pre version 5.0.45 the initial operating temperature was taken as the maximum permissible operating temperature of the conductor for the respective insulating material. 2.0 The cable maximum thermal stress is calculated based on the calculated K value as per 1.0 above and the conductor cross sectional area. 3.0 The Joule integral is calculated based on the re-calculated prospective short-circuit current for the cable assuming the fault occurred at the load end of the cable and the clearance time (duration) of the short circuit. The short-circuit clearance time is a user input with the default value set to 30msec. 4.0 The correction factors for the energy dissipated by the decaying D.C. and A.C. components of the short-circuit current have each been set to unity assuming the short-circuit has a far-from generator short-circuit characteristic. Future versions of the software will use the Let-through energy curves for cables protected by currentlimiting fuses or current-limiting circuit breakers to determine the Joule integral but will default back to the method outlined in 1.0 to 4.0 above except the prospective short-circuit current for the cable will be based on the short-circuit current assuming the fault occurred near to the start of the cable run.
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Loads
In this Chapter
Connected Loads
Maximum Demand Screen
Maximum Demand Calculation
Loads-Adding Harmonic Data
Electricity Distributor Metering
Upstream Diversity
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Connected Loads PowerCad-5 requires the electrical installation connected Loads categorized into various load groups. These load groups are defined by the particular wiring rules standards nominated in the Project Options –Standards screen. (see Chapter 3.0)
For Australian Standard AS/NZS 3000 there are two Loads categories: Single and Multiple Domestic Electrical Installations. Non-Domestic Electrical Installations. For British Standard BS 7671, Singapore Standard CP5 and IEE Wiring Regulations Sixteenth Edition the Loads categories and diversity listings have been removed from the standards. If these standards are selected under the Project Options –Standards screen PowerCad-5 reverts to IEE Wiring Regulations Fourteenth Edition.
Maximum Demand Screen The PowerCad-5 Maximum Demand Input screen is the work screen for: - Inputting connected loads. - Displaying the Calculated Maximum Demand PowerCad-5 dynamically calculates the Maximum Demand as each load item is added.
Type of installation
Loads Tab
Maximum Demand
Load Add, Edit and Delete buttons
Load item Identification
Load item
Load Group
Fig. 1
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Maximum Demand Calculation Maximum demand is the maximum current, which the consumer mains or submain conductors can carry for a sustained period without overheating. PowerCad-5 calculates this maximum current based on the diversity of the connected loads. PowerCad-5 performs commercial, institutional and residential maximum demand calculations to the standard as selected in the Project Options-Standards screen.
Step 1. Open the Maximum Demand screen: (Fig. 2) - Select type of electrical installation (e.g. Non-Domestic Commercial) PowerCad-5 automatically displays the load group list to suit the type of electrical installation.
Type of Electrical Installation
Fig. 2
Step 2. Add the connected loads. (Fig. 3) For each load item: - Select the respective load group. eg LOAD GROUP D: - Double click on the load item to open the load input dialog box (e.g. Single Phase Appliances) Example: add a 30kW Variable Speed Drive PowerCad-5 automatically calculates the maximum demand for the added load item.
LOAD GROUP D
Load item input dialog box
Double click on Load Group Item
Fig. 3
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Load Group Flyover For an explanation of the respective load group, hold the cursor over the load group item to display load group description.
Add Load Item Dialog Box - Load Group D For the example, a 30kW VSD, choose the ’25 to 75kW’ Power Range, and then select the appropriate product from the product list.
Select Power Range
Select Required Product from List
True RMS current in Amps
Load power factors
Step 3. Open the Print Preview to view the Maximum Demand Summary: (Fig. 6) - Click on the Print Icon to open PowerCad-5 Reports. (Fig. 4)
- Click on the Preview button to open the print preview screen. ( Fig. 5) Print Icon
Fig. 4
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Reports Menu – Maximum Demand Connected Loads PowerCad-5 automatically ticks the appropriate report check box. Click on the Preview button to view the Maximum Demand and connected loads list.
Report check box
Print Preview button
Fig. 5
Load Group
Connected Loads Summary
Total Max Demand
Fig. 6
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Electricity Distributor Metering For Domestic installations PowerCad-5 requires the Electricity Distributor Metering (EDM) to be defined. The type of Meter tariff defined ie. Living Units, or Communal metering. PowerCad-5 sets the type of maximum demand calculation based on the type of Metering defined. The AS/NZS3000:2000 load group input list displayed is also based on the type of Metering defined. For Non-Domestic electrical installations defining the Electricity Distributor Metering (EDM) is optional. If the Electricity Distributor Metering (EDM) is defined, PowerCad-5 automatically determines the method of Metering: - Direct, or - CT Metering. The threshold between Direct and CT metering defaults to 100Amperes/phase. Defining the Electricity Distributor Metering (EDM) To define a Electricity Distributor Metering (EDM) right click on the Main Electrical Switch Board (MSB) and click on the Edit.. command to display the Edit Switch Board dialog screen. (See Fig.7 & Fig. 8)
Fig.7
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Turn Metering On
Select Meter Load type
Use the radio Buttons to lock the type of Metering and de-activate the Auto Select.
CT Metering Threshold setting
Fig.8
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Turn Metering On
CT Metering Threshold setting
Fig.9 Use the radio Buttons to lock the type of Metering and de-activate the Auto Select.
‘M’ indicates Metering has been defined on MSB
Fig.10
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Single Line Diagram- Electricity Distributor Meter (EDM) PowerCad-5 displays the Direct Metering on the Single Line Diagram. (See Fig.11)
Fig.11
Indicates Direct Metering
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Indicates CT Metering
Fig.12
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Upstream diversity PowerCad-5 Upstream Diversity setting for a switch board is used to control the proportion of the maximum demand calculated at the switch board that is propagated upstream of the switch board. Setting the upstream diversity to 0.92 for MSB-01, results in only 92% of the calculated maximum demand at MSB-01 being propagated upstream to LV-SB-01. (See Fig.13)
Fig.13 By default the Upstream Diversity setting is not applied to the spare capacity specified for a switch board. To apply the Upstream Diversity to the spare capacity check the “Apply Diversity to Spare Capacity & Planning Load” check box in the “Edit Switch Board” dialog. (See Fig.14)
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Distribution
In this Chapter
Single Line Diagram
Supply
Transformer
Distribution Network
Summaries
Final Sub-circuits
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Single Line Diagram The single line diagram screen provides two functions: See (Fig. 1)
Displays the single line diagram of the distribution network model. Allows dynamic distribution network and loads modeling from a single screen.
Fig. 1
Supply The distribution supply voltage is set in the Project Options Dialog box. The Project Options Dialog box can accessed from either the Project/Properties Tab, or directly from the Supply Icon under the Distribution Tab. See (Fig. 2). Supply Icon
Fig. 2
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Transformer With Auto MD set to active PowerCad-5 automatically calculates the maximum demand through out the distribution network and sizes the supply transformer. See (Fig. 3). When the Auto MD set to off click on the MD run icon to force PowerCad-5 to calculate the maximum demand through out the distribution network and sizes the supply transformer.
Fig. 3 PowerCad-5 automatically estimates the transformer impedance (expressed as a % per unit value).
Manual Transformer Selection Click on the User Input Data transformer selection radio button to over-ride the both the transformer size and impedance values selected.
Transformer Rating Input box
Transformer Impedance Input box
Fig. 4
Transformer Selection setting
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Distribution network model The distribution network model can be created or added to from any screen displaying the “explorer tree”, including the floating explorer tree (Fig. 5), or from the Single Line Diagram screen, See (Fig.1). Note: Only Transformers and Switchboards can be added to the distribution network model from the explorer tree. To add loads, these must be added from the maximum demand input screen located under the Loads Tab (see chapter 5).
Fig. 5
PowerCad-5 automatically draws a single line diagram (SLD) of the distribution network. See (Fig.6). To display the floating single line diagram, click on the SLD icon.
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Single Line Diagram Export to AutoCAD®
PowerCad-5 automatically launches the AutoCAD ® application, starts a new drawing then draws the Single Line Diagram of the selected switchboard. (Fig. 7)
Export to AutoCAD®
Fig. 7
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_________________________________________________________________________________________ PowerCad-5 can draw the Single Line Diagram of the selected switchboard or automatically launche the AutoCAD ® application and draw all the SLD for all switchboards forming the LV distribution network. See (Fig. 9)
Select the current Switchboard or All Switchboards Fig. 9
Summaries The Summaries screen displays the following summaries for each switchboard throught out the LV distribution network. (See Fig.10) Fault Level, Voltage Drop, Current Capacity, Circuit Protection, Earth Fault-Loop Impedance, Cable Data, Maximum Demand, Cable Pricing, Conduits, Switchboards, Swb Pricing.
Fig.10
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Fault Levels PowerCad-5 calculates the prospective fault level through out the distribution network and checks the fault rating of the respective mains and submains cable to carry the prospective fault
Volt Drop PowerCad-5 calculates the volt drop through out the distribution network.
Current Capacity PowerCad-5 sizes the mains, sub-mains and final sub-circuit cables through out the distribution network. The cable capacity for the mains and submains cables are displayed under the Current Capacity Tab.
Circuit Protection PowerCad-5 circuit protective device sizes and specification for the mains cable, and each sub-mains cable through out the distribution network are displayed under the Circuit Protective Tab.
Final Sub-Circuits The Final sub-Circuit screen displays each final sub-circuit under the respective switchboard. As the focus is placed on each final sub-circuit the respective final sub-circuit protective device time/current curve is displayed. The upstream protective device time/current curve can be switched on to display the co-ordination. (See Fig.11) The final sub-circuit properties can be edited from this screen.
Fig.11
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Protection
In this Chapter
Power Factor correction
Earth Fault-Loop impedance
Co-ordination
Summary
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Power Factor Correction PowerCad-5 displays the displacement power factor of the LV network at each switchboard. The corresponding harmonic spectrum is also displayed along with the resonant frequency. (See Fig.1) Note: PowerCad-5 approximates the resonant frequency based on the ratio of the capacitor reactance to the LV distribution system short-circuit reactance. The parallel resonance condition is displayed on the harmonic spectrum diagram as both resonant frequency and the corresponding harmonic order. This approximation is usually sufficient to evaluate whether or not there will be a significant harmonic resonance problem. It is apparent that if the resonant frequency lines up with a harmonic current produced by the load that is a significant percentage of the overall system demand current then the harmonic mitigation should be considered.
Step 5
Step 3 Step 4
Step 2
Fig.1
Step 1 Step 1 Click on the respective switchboard to focus. Step 2 Turn the shunt Capacitor Bank ‘On’ Step 3 Key in the required Power Factor. Step 4 Select the Capacitor ‘Rated Voltage’. Step 5 Select the number Capacitor load switching steps. Step 6 Add capacitor size for each step – Repeat until required PF is achieved.
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Earth Fault-Loop Impedance The Fault-loop impedance calculated by PowerCad-5 should not be confused with prospective the short circuit current. Fault-loop current is that which occurs due to a short circuit to earth. The fault loop impedance for an MEN system therefore includes the active conductor impedances from the source to the location of the short circuit fault, the protective earthing conductor impedances to the MEN link, the neutral conductor impedances to the sources and the sources impedance. The aim of considering the fault loop current is to establish the maximum value of fault loop impedance that will permit the automatic disconnection of the protective device, within the required duration, in the event of a short circuit to earth. Clause 1.7.4.3.3 (AS/NZS3000:2000) requires automatic disconnection of the supply in the event of a fault of negligible impedance occurring between an active conductor and exposed conductive part, or a protective earthing conductor. This condition is satisfied by Zs x Ia < Uo where Zs
The impedance of the fault loop comprising the source, the active conductor up to the point of the fault and the return conductor between the point of the fault and the source.
Ia
The current causing the automatic operation of the disconnecting protective device within the disconnection times required by Clause 1.7.4.3.4.
Uo
The nominal a.c. r.m.s. voltage to earth (230V)
The maximum disconnection times are given in Clause 1.7.4.3.4, and must not exceed: a) 0.4 s for final subcircuits that supply socket-outlets (< 63a) or hand-held Class 1 equipment, or portable equipment for manual movement during use. b) 5 s for other circuits including submains and final subcircuits supply fixed or stationary equipment. PowerCad-5 automatically sets the maximum disconnection times based on Clause 1.7.3.4. (See Fig.2)
Disconnect time 0.4s
Mean tripping current Ia
Fig.2
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PowerCad-5 automatically calculates the Earth Fault-Loop Impedance through out the LV distribution network at each switchboard and for each final sub-circuit. PowerCad-5 automatically sets the ‘disconnection times’ for each protective device based on the respective connected load. Disconnection times based on AS/NZS3000:2000. (See Fig.3) Note: PowerCad-5 calculates each phase and protective earth impedances ( Rsc, Xsc ) based on the respective conductor temperature due to the protective device tripping current and the demand current.
Fig.3 PowerCad-5 summarizes all Fault-Loop Impedances through out the LV distribution network via the following Tabs: External Tab, Internal/Active Conductors Tab, Internal/Protective Earthing Conductors Tab, System Tab. By default PowerCad-5 displays the External Tab.
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Protective Device Tripping Current PowerCad-5 displays the mean tripping current Ia of the protective device plus the maximum fault current If=U0/Zs on the protective device time/current curve. The disconnect time of the protective device is automatically set. (See Fig.4)
If=U0/Zs
Fig.4
To print or print preview the protective device time/current curve click on the Report button and select Print or Preview.
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Co-ordination PowerCad-5 displays the time/current curves for three consecutive protective devices, down stream, upstream and next upstream. The next upstream protective device display can be toggled on/off. (See Fig.5)
Lighting Final SubCircuit
Fig.5 To display other final sub-circuit protective devices, click on the respective circuit to focus and display the time/current curve. (See Fig.6)
Motor Final Sub-Circuit
Fig.6
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_________________________________________________________________________________________ To display time/current curves for all protective devices, click on the ‘Curves’ icon. (See Fig.7)
Fig.7 Summary PowerCad-5 displays a summary of the protective devices. The protective device summary screen lists each final sub-circuit protective device grouped by the respective load group. The switchboard outgoing sub-mains are listed separately (See Fig.8)
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Harmonics
In this Chapter
Loads Library
Harmonics
Harmonic Analyser
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Harmonic Loads General PowerCad-5 loads can be based on the fundamental (50Hz) RMS current value of the load or the true RMS value of the periodic current over the harmonic spectrum of the load. PowerCad-5 can handle up a Harmonic load spectrum up to the 51st order. The loads can be a combination of harmonic and non harmonic loads. Non-harmonic loads are treated as harmonic loads with only the 1st order (50Hz) specified. Each harmonic order is treated as a vector based on the load current amplitude at the respective order and the corresponding harmonic angle. Combination of harmonic loads and large numbers of non harmonic loads will result in lower calculated THD% values. i.e. If a large number of socket outlets are added without specifying the actual loads connected to the socket outlets (e.g computers, monitors etc.) then the calculated THD% value will be lower than expected. Similarly if the respective load diversities set in PowerCad-5 do not match the actual load diversities, then the predicted THD% will reflect this difference. PowerCad-5 applies the diversity to both the fundamental current and the load harmonic current.
Adding Harmonic Loads To add a load with Harmonics data open the respective load input dialog box. (See Fig.1)
Fig.1 Each PowerCad-5 load input dialog box contains a Edit Harmonics Data button:
Click on the Edit Harmonics Data button to display the Edit Harmonic Data screen. (See Fig.2)
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_________________________________________________________________________________________ The Edit Harmonic Data screen allows the user to input Harmonic data for the load from the following sources: Keyed in by hand. Paste from a document. e.g MS Excel spread sheet. User Harmonic data library. Harmonic Power Quality Analyser.
Fig.2 Keyed in by hand: 1. Enter the Fundamental current: 2. Enter the load Displacement Power Factor: 3. Check the Lead or Lag radio button: 4. Set the Harmonic Order range. i.e 1 to the 51st (# Orders) 5. Check the Current radio button the method of input for the load current.
or the Distortion% radio button
to set
6. Enter the load current values in for each Harmonic order. 7. Enter the Harmonic angle for order. 8. Save the data for future use.
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_________________________________________________________________________________________ Paste from a document: 1. Steps 1-5 as per Key in by Hand. 2. Open the source document. 3. Format the current for each Harmonic order into a single column in the source document. 4. Copy the column of data to the clipboard. 5. Alt-Tab to return to PowerCad-5 Edit Harmonics Data screen. 6. Place the cursor over the first entry box in the current data input column then right-click to display Paste column. Lift-Click on the Paste Column to paste the data. (See Fig.3) 7. Repeat steps 2 & 5 for the Harmonic angle. 8. Save the data for future use.
(See Fig.4)
Fig.3
Fig.4
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_________________________________________________________________________________________ User Harmonic data library: 1. Click on the Load button
(See Fig.5) to display the Load Harmonics Data screen.
2. Select the Harmonic data file. i.e. AC unit 42Amps.HAR Click on the Open button
(See Fig.6)
to load the selected Harmonic data file into the
PowerCad-5 Edit Harmonics Data screen. 3. Click on the OK button
to close the Edit Harmonics screen and transfer the load
into the Load input screen. (See Fig.7)
Fig.5
Fig.6
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_________________________________________________________________________________________ The completed Load Input screen now displays the True RMS current of the load and the True Power Factor. Other detail can be added such as the ID of the load, associated costs and a description of the load. (See Fig.7) The load diversity is set on the Load Input screen. PowerCad-5 defaults to AS/NZS 3000 table C2 values for Commercial installations.
Fig.7 The Edit Harmonics Data screen displays the Harmonic Wave Form and Harmonic Spectrum of the harmonic load. (See Fig.8)
Fig.8
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_________________________________________________________________________________________ Harmonic Power Quality Analyser: 1. Click on the Import button Manufacturer screen.
(See Fig.9) to display the Select Harmonic Anlyser
Fig.9
Fig.10
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User Loads Harmonic Data Library The PowerCad-5 loads library screen allows the input of Harmonic data for the load in question. (See Fig.11) The Harmonic data for the respective load item is saved as a .HAR file for future use. PowerCad-5 allows up to the 51st order. The data can added as % Current Distortion plus the corresponding Harmonic angle or as actual current plus the corresponding Harmonic angle. Harmonic data can be pasted from the clip board, column at a time. ie the current for all harmonic orders including the fundamental up to the 51st order, then add the corresponding Harmonic angle column of data from the clip board.
Save Harmonic Data
Select Max. Harmonic Order Fig.11
Add Current data via clipboard
Input Displacement Power Factor
Add Harmonic Angle data via clipboard
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Harmonic screen Distribution switchboard DB-02
DB-02 submain cable size What if? Temporarily add loads. Conductor Loss. With and without harmonics
Harmonic Order
Harmonic Angle Fig.12
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Compliance Standards/Code of Practice PowerCad-5 checks compliance through out the distribution network with the following standards and codes of practice: IEE Std 519 Hong Kong Code of Practice for Energy Efficiency of Electrical Installations. The compliance checks cover Power Distribution - Conductor Loss and Maximum Total Harmonic Distortion (THD). (See Fig.13)
Fig.13 Power Distribution - Conductor Loss: To enable Compliance check select Code of Practice.
Maximum Total Harmonic Distortion (THD): To enable Compliance check select required code of practice or Standard.
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Displays Floating Harmonic Screen The Floating Harmonics screen allows the Harmonic Spectrum, Harmonic Wave Form, Harmonic Values and Compliance details to viewed through out the distribution network. The Floating Harmonics screen displays detail for the current switch board in focus. (See Fig.14 & 15)
Fig.14
Fig.15
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Voltage THD% PowerCad-5 calculates the Voltage THD% based on the following assumptions: 1. The cable A.C resistance is constant for all orders of harmonic frequency 2. The cable reactances are directly proportional to the order of the harmonic frequency. (See Fig.16) Zc nw0 Rac jnX n : order of the harmonic X : reactance at 50 Hz.
Fig.16
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Definitions Harmonic Angle: Is the phase voltage angle (for the respective harmonic order) less the phase current angle (for the respective harmonic order). True RMS current: The RMS (root-mean-square) value of any periodic current is equal to the value of the direct current which, flowing through a resistance, produces the same heating effect in the resistance as the periodic current does.
Irms
N
Ii
2
i 1
True Power factor: Active Power (P) divided by Apparent Power (S). The true power factor includes the effects of harmonics. Harmonic currents cause true power factor to be lower than displacement power factor (DPF). Cos1 PF I 1 N
Ii
2
i 1
THD(ref. fundamental): Is the ratio of the RMS value of the harmonic content to the RMS value of the fundamental quantity expressed as a percentage of the fundamental. THD(ref. RMS): Is the ratio of the RMS value of the harmonic content to the RMS value of the fundamental quantity expressed as a percentage of the RMS value.
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Cost Estimate
In this Chapter
General
Trade Prices
Discounts
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General This module is currently under development. The screens that are active are Beta screens for trial purposes and comment.
Trade Prices The trade prices for cables and conduits, for sites with a current maintenance agreement can be automatically updated from the PowerCad-5 web site See (Fig.2) Discount percentages can be set for cables and conduits. See (Fig.1) Price List Issue Date
Fig.1
Fig.2
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AutoCAD® Interface
In this Chapter
Naming Convention - AutoCAD® Electrical Drawing
Multiple AutoCAD® Electrical Layout Drawings
Distribution System - Defining in AutoCAD®
AutoCAD® Drawing Blocks
AutoCAD® Drawing Layers
Distribution System - Defining in AutoCAD®
Site Main Electrical Switchboard (MSB)
Running PowerCad-5 from AutoCAD®
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Naming Convention - AutoCAD® Electrical Drawing Before using PowerCad-5, an understanding of the naming convention used by PowerCad-5 is required. There are three types of files used by PowerCad-5:
PowerCad-5 project file generated by PowerCad-5 – file extension ‘.QPJ’ – file extension ‘.TXT’ PowerCad-5 data text file generated by AutoCAD® ® ® AutoCAD drawing file generated by AutoCAD – file extension ‘.DWG’
For the respective project each file must have the same name. Naming Convention: Project files: Data text files Drawing files
pppp.QPJ ppppEnn[r].TXT ppppEnn[r].DWG
Where ‘pppp’ is the project number (00001 – 9999), ‘nn’ is the drawing sheet number (01 – 99), PowerCad-5 can analyse up to 99 drawings and ‘r’ is the sheet revision letter (A – Z). The maximum number of revisions per drawing is 26. If a revision letter is present in the drawing (.DWG) or the data text (.TXT) file name, and a file with the same name without a revision exists, PowerCad-5 will only analyse data from the revised data file. Note: ‘E’ is required as part of the naming convention to indicate the drawing content is Electrical. The project file generated by PowerCad-5 (pppp.QPJ ) stores the project details and settings and the final Distribution Network design. The data text file generated by AutoCAD® (ppppEnn[r].txt ) stores the project electrical details (ie switchboards and load items) contained in each Electrical drawing file (ppppEnn[r].DWG) .
Example: Project No. 9485 Sheet No. E1 Rev. A
Associated Files: Drawing file 9485E1A.DWG Data text file 9485E1A.TXT Project file 9485.QPJ
Fig.1
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Multiple AutoCAD® Electrical Layout Drawings PowerCad-5 can read data from multiple electrical layout drawings forming the project drawing set. Drawing file names must be consistent and the file names must conform to the PowerCad-5 naming conversion. 1. 2.
Switchboards, motors and FIP must have unique names. Switchboards, motors and FIP can only appear in one drawing. Adding a switchboard, motor or FIP with the same name (ID) in multiple drawings will generate an error in PowerCad-5. If PowerCad-5 drawing blocks are inserted in paper space, only a single paper space layout can be used. For multiple paper space layouts, PowerCad-5 will only read the electrical loads data from the current paper space layout plus model space. Data in all other paper space layouts will be ignored.
3.
AutoCAD® Drawing Blocks
PowerCad-5 drawing blocks inserted into the AutoCAD® electrical layout drawing forms the distribution network configuration and electrical loads database for the project. Types of Blocks PowerCad-5 has three basic types of functional drawing blocks. 1. Switchboards The switchboard blocks define the distribution system network configuration. There are two types of switchboard blocks: Main Switchboard (i.e. MSB) Sub Switchboards/distribution boards (i.e. DB-01) 2.
Electric Loads Blocks The Electrical Loads Blocks define the electrical loads connected to the respective switchboards. (i.e. light fittings, motors etc.)
3.
Non Loads Blocks These blocks are for bill of materials and cost estimates. (i.e. light switches, smoke detectors, data points etc.) Note: The bill of materials and cost estimate module in PowerCad-5 is a beta module and is included for comments and suggestions for future development.
AutoCAD® Drawing Layers PowerCad-5 requires the following layers to be created prior to inserting the PowerCad-5 loads blocks into the AutoCAD layout drawing. PCAD_Light PCAD_Power PCAD_Smoke PCAD_Switch PCAD_Coms
Distribution System - Defining in AutoCAD® The minimum distribution network model for PowerCad-5 to calculate must include the Main Electrical Switchboard with the source set to ’Null’. PowerCad-5 checks for the existence of the Main Electrical Switchboard, and if not found terminates building the distribution network model then reports and error. See (Fig.2) Future: The term “NULL” will be replaced with the following source inputs:
TRANS - H.V./L.V. Supply Transformer GEN - L.V. Supply Generator
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Fig.2
Site Main Electrical Switchboard (MSB) PowerCad-5 automatically attaches an L.V supply transformer to the Site main electrical switchboard. Only the Site main electrical switchboard drawing block is required to be defined in the project electrical layout drawing(s).
Inserting the MSB From the PowerCad-Lib dropdown menu select SWITCHBOARDS/MAIN SWITCH BOARDS then insert the Main Electrical Switchboard into the AutoCAD® electrical drawing. See (Fig.3) DISTRIBUTION BOARD
MAIN SWITCHBOARD
Fig.3
Running PowerCad-5 from AutoCAD®
To open the PowerCad-5 application from within AutoCAD® click on “PowerCad” in the AutoCAD® menu bar and select “RUN PowerCad-5”
See (Fig.4) Both the PowerCad-5 and AutoCAD® applications can remain active. Use the task bar to switch between the two applications.
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Creating Data Files Electrical Data from the project drawing(s) must be transferred into PowerCad-5 Data text files ppppEnn[r].TXT. The PowerCad-5 Data text files are generated by: 1.0 From the drop down menu select “RUN PowerCad-5” to open the PowerCad-5 application from within AutoCAD®. The Electrical Data from the current AutoCAD® project drawing is automatically saved to a data file with the same project drawing name. E.g. 9745E2a.TXT See (Fig.4) 2.0 Or from the drop down menu select “Save Data File” to saved to a data file with the same project drawing name. E.g. 9745E2a.TXT See (Fig.4)
Open PowerCad-5 application
Save PowerCad-5 Data text file
Fig.4
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AutoCAD® Drawing Electrical Data Conversion
Run PowerCad-5 from within the AutoCAD® application (refer Fig.4). Open the ACAD Convert screen. Check that all AutoCAD® electrical project drawings are listed. PowerCad-5 builds the drawing list based on the project number. e.g. 9745 and the electrical discipline identifier “ E “ . (See Fig.5) ®
®
AutoCAD project
drawing list
Convert AutoCAD Loads data into PowerCad-5 data base
Project number
Fig.5
Data text files PowerCad-5 builds the Data text files list based on the project drawing number. e.g. 97451A.TXT (Seer Fig.6)
Fig.6
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REPORTS
In this Chapter
Report menu
Print Preview
Report - Final Sub-Circuit
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Report Menu Multiple reports. PowerCad-5 has an extensive report menu. Click on the print icon to display the PowerCad5 report menu. The report menu defaults to the reports associated with the current screen. The default reports can be unselected or additional reports added by ‘checking’ the respective check box. (Fig.1) Click on Print icon to display print menu
Check box to select additional reports
Fig.1
Report Preview PowerCad-5 Print preview controls:
Click on Preview button to preview report
First page Previous page Next page Last page
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PowerCad-5 Print Preview Screen: PowerCad-5 report PowerCad-5 report page number
Fig.3
Report – Final Sub-Circuit To print a final sub-circuit cable report:
Step 1 Click on
to pen the ‘Final sub-circuit Browser’ screen. See (Fig.4)
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Step 1 (Alternative) From the Single line Diagram floating screen, or the main Single line Diagram screen double click on the respective final sub-circuit to display final sub-circuit properties screen. See (Fig.5)
Fig.5
Step 2 Double click on the final sub-circuit load item
to display
the final sub-circuit properties screen. See (Fig.6)
Step 3 Fig.6
Step 4
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Step 3 Click on the Cable Selection Tag to display the cable properties screen. Step 4 Click on the Report button, then click on Print to print report, or Preview to display the print preview screen.
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Appendices
In this Appendix
AutoCAD Attributed Block Examples
Switchboard
Luminaire
Socket-Outlet
Motor
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SWITCHBOARDS
MAIN ELECTRICAL SWITCHBOARD
_________________________________________________________________________________________ BLOCK SYMBOL
BLOCK DATA MSB
PCAD_Switchboard
Insertion Point
OPTIONS: High Rupture Capacity Fuse Circuit Breaker
PCAD_PARENT-BOARD PCAD_DESCRIPTION PCAD_CABLE-CODE PCAD_CABLEPCAD_CONFIGURATION PCAD_CABLE-INSULATION PCAD_CABLE-LENGTH PCAD_MATERIAL PCAD_FUSE
HRC CB
Note: For a main switchboard the parent (source) is defined as a NULL
OPTIONS: Thermoplastic V-75 Insulation Thermoplastic V-90 Insulation Cross-Linked Polyethylene Insulation RADOX Fire Rated Insulation Mineral Insulated Copper Sheathed
V-75 V-90 XLPE RAD-FR MIMS
Future: The term “NULL” will be replaced with the following source inputs: TRANS - H.V./L.V. Supply Transformer GEN - L.V. Supply Generator
MSB DB-01 DB-02
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600X600 RECESSED LUMINAIRE LUMINAIRE _________________________________________________________________________________________
BLOCK SYMBOL Insertion Point
PowerCad Code F H I X E L
BLOCK DATA
PCAD_Type
B
PCAD_DESCRIPTION PCAD_LIGHT-TYPE PCAD_SWITCHBOARD PCAD_CIRCUIT PCAD_PHASE PCAD_AS3000-CODE PCAD_POWER-FACTOR PCAD_HARMONIC_DATA_FILE
Type Fluorescent H.I.D. Incandescent Exit Emergency Low Voltage
Note: 1. 2.
PowerCad Luminaire (F) is locked for this block and set to invisible. For electrical design data for this block is stored in a .HAR file located under the c:\PowerCad-5\Lib\HAR_BIN directory.
DB-01
B
Load Group
A
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10A SOCKET OUTLET SOCKET OUTLET _________________________________________________________________________________________
BLOCK SYMBOL
BLOCK DATA 2
Type
Insertion Point
OPTIONS: Single Socket Outlet Double Socket Outlet
Note:
2
If an appliance is not connected, PowerCad-5 applies the load group B(ii) loading and diversity rules.
Note: If the number of outlets is set as a single socket, then the appliance defined for socket 2 is ignored.
Applicances 15in Monitor 17in Monitor 19in Monitor 300Mhz PC without Screen
PCAD_DESCRIPTION PCAD_SWITCHBOARD PCAD_CIRCUIT PCAD_PHASE PCAD_AS3000-CODE PCAD_STD_LIB_FIT_ID PCAD_STD_LIB_FIT_ID_B PCAD_STD_LIB_FIT_ID_MAN PCAD_STD_LIB_FIT_ID_MAN_B
If an appliance is connected and the load is less than the B(ii) loading the PowerCad-5 applies the the load group B(ii) loading and diversity rules.
Lib ID 1 4 5
DB-01
6 2
Load Group
B.(ii)
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SINGLE PHASE MOTOR MOTOR _________________________________________________________________________________________
BLOCK SYMBOL
BLOCK DATA Insertion point at circle centre
M OPTIONS: High Rupture Capacity Fuse Circuit Breaker
OPTIONS: Thermoplastic V-75 Insulation Thermoplastic V-90 Insulation Cross-Linked Polyethylene Insulation RADOX Fire Rated Insulation Mineral Insulated Copper Sheathed
HRC CB
V-75 V-90 XLPE RAD-FR MIMS
M
PCAD_DESCRIPTION PCAD_SWITCHBOARD PCAD_CIRCUIT PCAD_PHASE PCAD_AS3000-CODE PCAD_UNIT-ID PCAD_CABLE-LENGTH PCAD_DERATING-FACTOR PCAD_CABLE-CODE PCAD_CABLE-CONFIGURATION PCAD_CABLE-INSULATION PCAD_CABLE-SIZE PCAD_FUSE PCAD_MATERIAL PCAD_HARMONIC_DATA_FILE
DB-01
Note: 1.
For electrical design data for this block is stored in a .HAR file located under the c:\PowerCad-5\Lib\HAR_BIN directory.
Load Group
M
D
Motor 240V Single Phase Block Name PC240_1-1Kw_Motor_M_File.dwg Default Harmonic File 1-10Kw_Motor.Har __________________________________________________________________________________________ PowerCad-5 User Guide
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Appendices A2
In this Appendix
Standards
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STANDARDS Transients Standards The standards for transient issues are set by the American National Standards Institute (ANSI) and the Institute of Electrical and Electronics Engineers (IEEE). They are: IEEE Standard C62, and IEEE Standard 587.
Surge Protection Standards Recommended practices on Surge Voltages in Low Voltage AC Power Circuits are set by: ANSI Standard C62.41 IEEE Standard 587 (same as ANSI C62.41) Underwriters Laboratories: UL 1449 Standards for Safety: Transient Voltage Surge Suppressors FIPS Publication 94: Guideline on Electrical Power for ADP Installations 9/83, National Fire Protection Agency Publication 78: Lightning Protection Code for Buildings.
Electrical Noise Standards Standards for Radio Frequency (and other forms of electrical noise) are covered by: FIPS Publication 94: Guidelines on Electrical Power for ADP Installations 9/83, IEEE Standard 518: Guide for the Installation of Electrical Equipment to Minimize Electrical Noise Inputs to Controllers from External Sources.
Flicker Standards The standard for Flicker is contained in: IEEE Standard 446: Recommendations for Industrial and Commercial Power System Emergency Power
Harmonics Standards The standards covering Harmonics and Harmonic Distortion are set forth in: ANSI C57.11, IEEE Recommended Practice for Establishing Transformer Capability When Supplying Non-sinusoidal Load Currents, IEEE Standard 519: Recommended Practice and Requirements for Harmonic Control in Electric Power Systems, IEEE Standard 1001: Recommended Practice for Interfacing Dispersed Storage and Generation
Radio Frequency Standards Standards for Radio Frequency (and other forms of electrical noise) are covered by: FIPS Publication 94: Guideline on Electrical Power for ADP Installations 9/83 IEEE Standard P1100: Guide for Powering and Grounding Sensitive Equipment, IEEE Standard P1159: On the Monitoring and Definition of Electric Power Quality.
Electrical Grounding Standards The standard for Electrical Grounding is covered in: FIPS Publication 94: Guideline on Electrical Power for ADP Installations 9/83 IEEE Standard P1100: Guide for Powering and Grounding Sensitive Equipment NFPA Publication 70: The National Electric Code IEEE Standard 141: IEEE Industrial Electric Power Systems IEEE Standard 142: IEEE Industrial and Commercial Power System Grounding.
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Powering Standards Standards for Powering include: IEEE Standard P1250: Guide on Equipment Sensitive to Momentary Voltage ANSI C84.1: Voltage Ratings for Power Systems and Equipment IEEE Standard P1100: Guide for Powering and Grounding Sensitive Equipment IEEE Standard 141: Industrial Electric Power Systems IEEE Standard 142: Industrial and Commercial Power System Grounding.
Safety Standards Safety standards are included in: NFPA Publication 70: The National Electric Code, NFPA Publication 75: Protection of Electronic Computer Data Processing Equipment.
Telecommunications Power Quality Standards Telecommunications standards are covered by: FIPS Publication 94: Guidelines on Electrical Power for ADP Installations 9/83 IEEE Standard P487: Wire Line Communication Protection in Power Stations.
Utility Interface Standards The standards for Utility Interfacing appear in: IEEE Standard 1001: Recommended Practice for Interfacing Dispersed Storage and Generation IEEE Standard 929: Interconnection Practices for Photo-voltaic Systems IEEE Standard 1035: Test Procedures for Interconnecting Static Power Converters.
Power Quality Monitoring Standards The standards for Power Quality Monitoring are: IEEE Standard P1100: Guide for Powering and Grounding Sensitive Equipment IEEE Standard P1159: Monitoring and Definition of Electric Power Quality.
Power Quality Problem Susceptibility Standards The standards for Power Quality Problem Susceptibility appear in: IEEE Standard P1100: Guide for Powering and Grounding Sensitive Equipment IEEE Standard P1250: Guide on Equipment Sensitive to Momentary Voltage Disturbances
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Appendices A3
In this Appendix
Glossary
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Glossary DPF Displacement Power Factor. DPF is used to measure the effect of inductive (motor, transformer) and capacitive loads on the efficiency of an AC distribution system. Such loads have a reactive component (see VARs) which must be taken into account when sizing system capacity, but they are still linear loads (current is drawn as a sine wave). DPF therefore does not include the effect of non-linear harmonic currents. However, a low DPF will be a major cause of a low PF (Total Power Factor), and would indicate the need for corrective measures.
PF Power Factor or Total Power Factor. Active Power divided by Apparent Power. PF is a measurement of the efficiency of an AC power transmission and distribution system, including the effects of harmonics. Harmonic currents cause PF to be lower than DPF.
% THD-F Percent Total Harmonic Distortion-Fundamental reference. This reading represents the ratio of the harmonic components of voltage (or current) to the voltage (or current) of the fundamental alone. All measurements are true-rms.
% THD-R Percent Total Harmonic Distortion-RMS reference. This reading represents the ratio of the harmonic components of voltage (or current) to the total voltage (or current), including the fundamental and all harmonics. All measurements are true-rms
(k)W (kilo) Watts. Active power, also known as Real/True Power. Watts measure that portion of electrical power which does work, which by definition includes heat losses.
(k)VA (kilo) Volt-Amperes. Apparent power. VA is computed by taking the product of the rms values of voltage and current. It is a measure of the total electrical power capacity of a distribution system or component equipment. In addition to Watts, it includes the contributions of VARs and harmonic currents. This term is of interest because utility and facility engineers must size their system equipment in VA, in effect providing the currentcarrying capacity to handle the worst-case situation.
(k)VAR (kilo)Volt-Amps Reactive. Reactive Power. VARs are the reactive component of VA (Apparent Power), caused by a phase shift between AC current and voltage in inductors (coils) and capacitors. In inductors, current lags voltage (in time), while in capacitors, current leads voltage. VARs are typically first present in a distribution system as a result of inductive loads such as motors, reactors and transformers. VARs are then used in sizing power factor correction capacitors, which are used to offset the effects of these inductive loads.
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