Session 11 Grid Tied PV Systems – Part 1 Standards and Codes October 01, 2015
Session 11 content Standards and Codes o Purpose, utility o Examples 2
Learning Outcomes Introduction to the idea of standards and codes in engineering design Recognition of the importance of standards and codes to the safe operation of PV systems 3
PV Systems - Applicable standards and codes 4 Photovoltaic systems, like all engineered systems, must meet a variety of codes and standards, especially in the area of system safety o Safety for homeowners (in residential PV systems) o Safety for utility service workers o Safety for firefighters and other first responders
PV Systems - Applicable standards and codes 5 The codes and standards applicable to PV systems also ensure several other characteristics, including: o Protection against the elements and tampering o Durability and structural integrity o Uniformity in construction and utilization
PV Systems - Applicable standards and codes 6 The American Society of Mechanical Engineers (ASME) lists these definitions on their webpage: o A Standard can be defined as a set of technical definitions and guidelines that function as instructions for designers, manufacturers, operators, or users of equipment. o Standards are written by professionals who are members of a regulating organization o They are generally voluntary and are not enforceable by law o A standard becomes a Code when it has been adopted by one or more governmental bodies and is enforceable by law, or when it has been incorporated into a business contract
PV Systems - Applicable standards and codes 7 Standards and Codes generally have these requirements. o Suitable for repetitive use o Enforceable – an auditor can easily see whether it is being followed o Definite – it contains specific instructions o Realistic – it is not excessively restrictive o Authoritative – it is technically correct o Complete o Clear o Consistent – it does not contradict other standards and codes o Focused
PV Systems - Applicable standards and codes 8 The technical issues related to connecting a PV system to the grid were essentially understood in 1999 The IEEE adopted Standard 929 in 2000 which listed performance criteria for grid-tied systems. If a PV system met the criteria of Standard 929 using inverters that were listed under UL 1741 and if it were installed in accordance with the current National Electrical Code (NEC), it automatically met all established performance criteria The IEEE adopted Standard 1547 in Among other things, it contains some revisions from Standard 929 related to PV power quality and PV disconnect issues. It is a functional standard, not a prescriptive one. That is, it specifies specific functions that must be performed, but does not tell how to satisfy the functional requirements
PV Systems - Applicable standards and codes Partial Listing of PV Standards and Codes 9
PV Systems - Applicable standards and codes Partial Listing of PV Standards and Codes, cont. 10
PV Systems - Applicable standards and codes 11 The National Electrical Code is published by the National Fire Protection Association and is updated every three years. It was first published in The current NEC to be followed is the 2014 edition, available since November, 2013 The NEC is a collection of articles pertaining to wiring methods, grounding, switches and fuses, etc., relevant to the overall electrical safety of the system It is not US law, but is mandated by state or local jurisdictions
PV Systems - Applicable standards and codes NEC Article
PV Systems - Applicable standards and codes Regulating Organizations NEC – National Electrical Code IEEE – Institute of Electrical and Electronic Engineers IEC – International Electrotechnical Commission ISO – International Organization for Standardization UL – Underwriters Laboratories ANSI – American National Standards Institutes ASCE – American Society of Civil Engineers ASTM – American Society for Testing and Materials 13
Important Resources IEEE Standards: o National Electrical Code: o ode ode 14