Appendix A. List of Pertinent Applicable Standards

This document is part of a series. The topic of each appendix in this series is explained below. Please use these links to access each one.

Have questions? please post it in the discussion box at the bottom of this email.

You may contact the author, Larry Joy, via email at lawrence_joy at yahoo.com.

  1. Reference Designations For Electrical And Electronics Parts And Equipment (this document)
  2. Appendix A: List of Pertinent Applicable Standards
  3. Appendix B: Class Designation Letters
  4. Appendix C: List of Nonconforming Class Letters
  5. Appendix D: System Subdivision (diagram)
  6. Appendix E: KiCad Anomalous Handling of Suffix Letters
  7. Appendix F: Scenario Questions and Answers

As a general rule you should always use the latest revision or latest issued standard.

  • Standards having to do with reference designation methods.
  • ANSI/ASME Y14.44-2008 (Reaffirmed 2014), Reference Designations for Electrical and Electronics Parts and Equipment. This standard has replaced IEEE Std 200 that has been withdrawn by the IEEE.
  • IEEE 315-1975 (includes IEEE 315A-1986), Graphic Symbols for Electrical and Electronics Diagrams (Including Reference Designation Class Designation Letters). Specifically Clause 22, Class Designation Letters is used in conjunction with ASME Y14.44 as a set. This standard is no longer ANSI approved, the IEEE does not update or support it, but the IEEE still makes it available and enforces the copyright.

The following two IEC standards are used as a set to define a Reference Designation System (RDS):

  • IEC 81346-1 Ed. 1.0 b:2009, Industrial systems, installations and equipment and industrial products – Structuring principles and reference designation – Part 1: Basic rules.Using this system you can get to a street in a city, an address on the street, a building at the address, a floor of the building, a room on the floor, a cabinet in the room, etc. It is a very extensive method and I only mention it here so that you are aware of alternative methods. Reference to IEC 113-2, IEC 60750, IEC 61346, etc. are deprecated and withdrawn.
  • IEC 81346-2 Ed. 1.0 b:2009, Industrial systems, installations and equipment and industrial products – Structuring principles and reference designations – Part 2: Classification of objects and codes for classes. This system uses two letters for everything in a class, subclass assignment. For instance the code RA stands for a resistance (resistor), reactance coil (inductor), and a diode because of the way items are classified. ATTENTION: As of this writing, 2018-07-23, I saw a notice that they are going to three letters and this will be implemented by the end of 2018.
  • Accompanying and relevant standards.
  • ANSI/ASME Y14.100-2017, Engineering Drawing Practices. This is the overarching standard and references the following standards that would apply when reference designations are used.
  • ANSI/ASME Y14.24-2012, Types and Applications of Engineering Drawings. This is where schematic diagrams and assembly drawings are defined. An assembly drawing of a printed board assembly (PBA) is the parts layout drawing.
  • ANSI/ASME Y14.34-2013, Associated Lists. Explains what information goes into a parts list (PL), that the term Bill-of-Material (BOM) is deprecated, and that reference designators can be used in place of item numbers. However, that does not preclude having an additional column with item numbers. There are two types of PLs: A separate PL is one that is separate from the assembly drawing and is its own drawing or document. An included PL is one that is included on the field of the drawing of an assembly drawing.
  • ANSI/ASME Y14.35-2014, Revision of Engineering Drawings and Associated Documents. The use of revision letters is explained, which is the method I use and recommend. The use of revision numbers is also explained.
  • Standards on graphic symbols to be used for schematic diagrams and schematic entry programs.
  • IEEE 315-1975 (includes IEEE 315A-1986), Graphic Symbols for Electrical and Electronics Diagrams (Including Reference Designation Class Designation Letters). Why Clause 22 on Class Letters was included in this standard I don’t know. The majority, or all of the rest of IEEE 315 deals with analog circuit symbols. I have seen this standard on the internet from time to time and I was able to download it once. The IEEE does enforce the copyright—be careful.
  • IEEE 315A-1986, Supplement to Graphic Symbols for Electrical and Electronics Diagrams, is a part of IEEE 315. As the title states this is not a revision but is a supplement that added new updated IEC symbols at the time. Note: Those symbols that come from the IEC are denoted with ¯IEC¯ [<* the IEC is supposed to be with an overbar and an underscore at the same time, but I can’t do it with this word processing program.]
  • IEEE 91/91a-1991 (Reaffirmed 1994), IEEE Standard Graphic Symbols for Logic Functions (Including and incorporating IEEE Std 91a-1991, Supplement to IEEE Standard Graphic Symbols for Logic Functions).
  • IEEE 991-1986 (Reaffirmed 1994), IEEE Standard for Logic Circuit Diagrams.
  • IEC 60617, Graphical Symbols for Diagrams. This standard is updated as needed as it is maintained as a database and is only available by paying a subscription fee. I recommend the use of IEC 60617, which symbols are in IEEE 315 and 315A. I have been able to find bits and pieces of IEC 60617 online, especially the symbols dealing with connectors.
  • Standards covering SI (System International, the Modern Metric System).
  • IEC 80000-[1:20]09, Quantities and units – – Part 1:General.
  • ANSI/IEEE/ASTM SI 10, American National Standard for Metric Practice.
  • NIST Special Publication 811 • 2008 Edition, Guide for the use of the International System of Units.

The IEC standard and the IEEE/ASTM standard will cost you some money. However, the NIST publication is available world wide at the <www.nist.gov> website and is a free/no-charge PDF download. This is the document that I use and always refer to.

Here are a few rules of using SI:

  • There is always a space between the number and the following letter symbol. That is “25cm” is incorrect, it should be “25 cm”. This goes for temperature also as “25ºC” and “25º C” are incorrect, it should be “25 ºC”. It is also recommended that when giving temperature in degree Fahrenheit that this rule also be followed. Thus a temperature stated as “32º F” technically could be read as “32 degrees of angle farad”.
  • No hyphens are used with SI letter symbols even as adjectives. As an example, “R7 is a 1-kΩ resistor” is incorrect, it should be, “R7 is a 1 kΩ resistor”.
  • No attachment is to be made to the unit symbol. That is “13.8 VDC” is incorrect, it should be “13.8 V dc”. [In the ISO/IEC/EN standards they use abbreviations “a.c.”, “d.c.” and “r.m.s.”. However the IEEE style guide says not to use the periods. I saw in IEC 60617 that they allow for AC and DC to be used, and I would assume that RMS is okay also.]
  • When spelled out in English, units of measure are considered common nouns and are not capitalized. Thus it is “volts”, “watts”, “ohms”, etc. and not “Volts”, “Watts”, “Ohms”.
  • Upper case “K” is the letter symbol for kelvin temperature while lower case “k” is the prefix symbol for kilo or 103. Thus a ten-thousand ohm resistor is “10 kΩ” and not “10 KΩ”. (What is a kelvin-ohm?)