1. © 2012 Autodesk Building a Utility Industry Standard Library Philosophy for Substation Design Arnold Fry Manager, Transmission Standards Jared Driggers Transmission Standards

2. © 2012 Autodesk Class Summary  Find out how to customize Substation Design using a utility company standard philosophy with AutoCAD Electrical and Inventor. Learn in- depth standard techniques to configure each module to a utility platform. You will improve your drawing efficiency, accuracy, coordination, and overall productivity. The use of consistent utility standards will give you the ability to validate data very quickly. Utilize this utility standard philosophy to create a fully integrated utility library that is applicable for new and existing projects.

3. © 2012 Autodesk Class Summary  Utilizing minimal manual data input, generate and retrieve documentation such as:  Bill of Materials  Single Line  Three line  Elementary/Schematic  Wiring Diagram  Panel  Cable Lists  Asset Information

4. © 2012 Autodesk Learning Objectives At the end of this class you will be able to:  Create a standard device  Establish family  Set some Industry Standards  Able to adapt old and new station information into a Industry Standard

5. © 2012 Autodesk Duke Energy – Transmission Engineering Transmission Engineering  5 Engineering Offices (Charlotte, Raleigh, Lake Mary, Plainfield, Cincinnati) Over 4,900 Electrical Substations in 6 states

6. © 2012 Autodesk Why Standards ? Consistency Accuracy Coordination Productivity Enforced company standards

7. © 2012 Autodesk Lifecycle of Standardization

8. © 2012 Autodesk Standard Part Models Standard content How much is not enough? How much is too much? How much is enough? Putting standard libraries & catalogs to everyday use Building standard libraries & catalogs Where do the parts come from? Where can I get more?

9. © 2012 Autodesk DUKE SDS ACADE STANDARDS 2012 This presentation demonstrates the capabilities of AutoCAD Electrical for Utility Design Standards. You can use these philosophy for any utilities' standards. Installations CodesLocation CodesTag NameDescription 1

10. What Type of Drawings are Impacted with this information

11. © 2012 Autodesk

12. How the Standard Information is Applied to All Symbol Types

13. © 2012 Autodesk Installation Code The installation code is an attribute used within a device used to describe that device’s equipment name. Each project will have unique installation codes for all equipment within the station. Individual devices will not be assigned Installation codes (equipment name). Installation codes (equipment name) are actually main categories within a station that will be made up of multiple devices. Installation codes (equipment name) are not just a one-to-one relationship to major equipment. As an example, each load center in a station will be considered a unique installation code.  Examples Circuit breakers Transformers Circuit switchers Capacitor switchers Capacitors Motor operated switches (gang switches) Regulators (bus or line regulation) Load centers (yard, house, DC) Station Service systems RTU systems Communication systems Transmission Lines or Circuits Distribution Lines or Circuits Station buses Customer metering

14. © 2012 Autodesk Location Code The Location Code is an attribute within a device describing the installation code’s (equipment) physical location. The physical location can be a box, panel, meter board, cabinet, etc. Consider a differential scheme for a 12KV Bus in a Retail Station. The installation code for the 12kv bus is “12KV MAIN BUS #1”. The devices related to a 12KV MAIN BUS #1 may be located in a number of places within the station. The locations for the devices required for the Bus Differential scheme may be, “DIFFERENTIAL JCT BOX” and “PANEL #”.  Examples Yard Panel # Sec Jct Box Jct Box Building House Cabinet Switchgear

15. © 2012 Autodesk Tag Name (Wiring Device Name) TAG1 is an attribute within a parent device used by AutoCAD Electrical to tie the project together. The value of TAG1 is the actual wring device name from the panel or wiring drawing. The value of TAG1 is copied to the wiring foot prints and panel footprints in the project. AutoCAD electrical will assign a default value to the device as that device is added from the icon menu. This default component tag name shall be changed to the wiring device name once that information is known. Future is to use line and sheet based tag naming for more automatic entry and tie-in from schematic to wiring to panel.  Examples (DUKE) AA BB AB

16. © 2012 Autodesk Description 1(Device Name) DESC1 is an attribute within a device used to describe the device name. The Device Name is typically the common name associated with a relay, test switch or any other device within the project. Examples 86T 96TN TD1 62BX

17. How the Standard Information is Applied to All Symbol Types

18. © 2012 Autodesk Out of the Box  Use the ACADE “Out of the box” elements and linking them to generate standard utility common parts  Using the “Out of the box” gives you:  Less down time creating custom symbols for the whole company  Improved quality in your symbol library  Ready to use in a very short amount of time

19. © 2012 Autodesk Picture This… Creating a Standard on the information in the symbol and what is means, you can adapt from any legacy to a standard set of ACADE symbols. ie: IEEE IEEE is already a prebuilt option within the ACADE tool and ready to use out of the box day one. Once utility agreed upon symbols are decided on then get Autodesk to create to utility standards IEEE STANDARD

20. © 2012 Autodesk

21. Aux. Relays and Assembly codes Any AR device with pin assignments will be listed in a manufacturer specific pin list table. Assembly codes are used to associate like items together, as for example a relay base comes along when the relay is selected as the material item Family + Associated cat number + TID

22. © 2012 Autodesk Microprocessor Relays For all microprocessor relays, the power supply will be the parent. Relay inputs shall clearly indicate the relay’s primary use (INST), name (DESC1), input number (state), and purpose of the input (DESC2). Relay outputs shall clearly indicate the relay’s primary use (INST), name (DESC1), output number (state), and purpose of the output (DESC2). Normally Open (1), Normally Closed (2) and Form C (3) outputs will follow AutoCAD Electrical standard pin assignments. AutoCAD Electrical allows the user a method of identifying pins which may not be normally open (NO) or normally closed (NC) as found on general relays. A user defined terminal starting with “4” as been established and will be utilized for various terminal types. PROTECTIVE RELAY PINLIST TYPE LEGEND OUTPUTS 1 -NORMALLY OPEN CONTACTS 2- NORMALLY CLOSED CONTACTS 3 -FORM C CONTACTS 4S -SPECIAL OUTPUTS (TRANSISTORS) INPUTS 4N- INDIVIDUAL CONTROL INPUTS 4NM-CONTROL INPUTS WITH A COMMONTERMINAL 4V -VOLTAGE ELEMENT INPUTS 4C -CURRENT ELEMENT INPUTS SPECIAL 4CM -COMMUNICATION / CLOCK TERMINALS 4PB -PUSHBUTTONS 4LT -LIGHTS/LEDS 4DC -DC MONITOR

23. © 2012 Autodesk Switches Any SW device with pin assignments will be listed in a manufacturer specific pin list table. Switch assemblies can be purchased with an assortment of arrangements. AutoCAD Electrical allows the user a method of identifying Pins which may not be normally open (NO) or normally closed (NC) as found on general relays. A user defined terminal starting with “4” as been established and will be utilized for various test switch types. All single test switch assemblies will have the PINLIST pins identified with 4A plus an identifier for the type of blade. An example of a single test switch assembly would be an ABB FT-1 10-blade test switch.  Test switch types: P = potential blades S = current shorting blades T = current test jack position. Multi-switch assemblies such as the ABB FT-19R will have the PINLIST pins identified with 4A, 4B, or 4C, plus an identifier for the type of blade. PINLIST TYPE LEGEND 4AP - SW 1 POSITION POTENTIAL BLADE 4BP -SW 2 POSITION POTENTIAL BLADE 4CP - SW 3 POSITION POTENTIAL BLADE 4AS - SW 1 POSITION SHORTING BLADE 4BS - SW 2 POSITION SHORTING BLADE 4CS - SW 3 POSITION SHORTING BLADE 4AT - SW 1 POSITION TEST JACK BLADE 4BT - SW 2 POSITION TEST JACK BLADE 4CT - SW 3 POSITION TEST JACK BLADE

24. © 2012 Autodesk Some Numbers Based on a current SDS designer input *After putting standards in place for symbol information and Greenfield (New) only

25. Why have a Utility Standard Philosophy?

26. © 2012 Autodesk Benefits of an Industry User Group  Create a single LARGE voice  Greater impact when dealing with Autodesk for enhancements to the software packages & tools  Develop industry based standards  Share success & failure experiences  Share training  Share tips & tricks  See how others are accomplishing the same tasks  Share library parts & assemblies

27. © 2012 Autodesk

28. Autodesk, AutoCAD* [*if/when mentioned in the pertinent material, followed by an alphabetical list of all other trademarks mentioned in the material] are registered trademarks or trademarks of Autodesk, Inc., and/or its subsidiaries and/or affiliates in the USA and/or other countries. All other brand names, product names, or trademarks belong to their respective holders. Autodesk reserves the right to alter product and services offerings, and specifications and pricing at any time without notice, and is not responsible for typographical or graphical errors that may appear in this document. © 2012 Autodesk, Inc. All rights reserved.