Design Standards

The American National Standards Institute (ANSI /ˈænsi/ AN-see) is a private non-profit organization that oversees the development of voluntary consensus standards for products, services, processes, systems, and personnel in the United States.[3]The organization also coordinates U.S. standards with international standards so that American products can be used worldwide.

ANSI accredits standards that are developed by representatives of other standards organizationsgovernment agenciesconsumer groups, companies, and others. These standards ensure that the characteristics and performance of products are consistent, that people use the same definitions and terms, and that products are tested the same way. ANSI also accredits organizations that carry out product or personnel certification in accordance with requirements defined in international standards.[4]

The organization’s headquarters are in Washington, D.C. ANSI’s operations office is located in New York City. The ANSI annual operating budget is funded by the sale of publications, membership dues and fees, accreditation services, fee-based programs, and international standards programs.

“Design to Standards” means to design items with generally accepted and uniform procedures, dimensions or materials.

Benefits
Product standardization is a technique in engineering design that aim to reduce the number of different parts within a product. The benefits are:

lower supply chain costs
product platforms
faster product design
The supply chain costs are simple to reason:

less variety of supplier, less supplier in numbers
less stock keeping units (SKU)
more economics of scale
less variety of production operations
Product platforms are enabled through:

standardized parts can be re-utilized across a product family
standardized parts can be re-utilized across product generations
The product design process becomes faster because:

standardized parts can be pulled from an engineering database
already standardized parts do not need to be designed again
Standards[edit]
Standardization can occur through two ways

industry standard setter
company standards

Process

Although ANSI itself does not develop standards, the Institute oversees the development and use of standards by accrediting the procedures of standards developing organizations. ANSI accreditation signifies that the procedures used by standards developing organizations meet the Institute’s requirements for openness, balance, consensus, and due process.

ANSI also designates specific standards as American National Standards, or ANS, when the Institute determines that the standards were developed in an environment that is equitable, accessible and responsive to the requirements of various stakeholders.[8]

Voluntary consensus standards quicken the market acceptance of products while making clear how to improve the safety of those products for the protection of consumers. There are approximately 9,500 American National Standards that carry the ANSI designation.

The American National Standards process involves:

  • consensus by a group that is open to representatives from all interested parties
  • broad-based public review and comment on draft standards
  • consideration of and response to comments
  • incorporation of submitted changes that meet the same consensus requirements into a draft standard
  • availability of an appeal by any participant alleging that these principles were not respected during the standards-development process.

In addition to facilitating the formation of standards in the United States, ANSI promotes the use of U.S. standards internationally, advocates U.S. policy and technical positions in international and regional standards organizations, and encourages the adoption of international standards as national standards where appropriate.

The Institute is the official U.S. representative to the two major international standards organizations, the International Organization for Standardization (ISO), as a founding member,[9] and the International Electrotechnical Commission (IEC), via the U.S. National Committee (USNC). ANSI participates in almost the entire technical program of both the ISO and the IEC, and administers many key committees and subgroups. In many instances, U.S. standards are taken forward to ISO and IEC, through ANSI or the USNC, where they are adopted in whole or in part as international standards.

Adoption of ISO and IEC standards as American standards increased from 0.2% in 1986 to 15.5% in May 2012.[10]

Standards panels

The Institute administers nine standards panels:[11]

  • ANSI Homeland Defense and Security Standardization Collaborative (HDSSC)
  • ANSI Nanotechnology Standards Panel (ANSI-NSP)
  • ID Theft Prevention and ID Management Standards Panel (IDSP)
  • ANSI Energy Efficiency Standardization Coordination Collaborative (EESCC)
  • Nuclear Energy Standards Coordination Collaborative (NESCC)
  • Electric Vehicles Standards Panel (EVSP)
  • ANSI-NAM Network on Chemical Regulation
  • ANSI Biofuels Standards Coordination Panel
  • Healthcare Information Technology Standards Panel (HITSP)

Each of the panels works to identify, coordinate, and harmonize voluntary standards relevant to these areas.

In 2009, ANSI and the National Institute of Standards and Technology (NIST) formed the Nuclear Energy Standards Coordination Collaborative (NESCC). NESCC is a joint initiative to identify and respond to the current need for standards in the nuclear industry.

American national standards

  • The ASA (as for American Standards Association) photographic exposure system, originally defined in ASA Z38.2.1 (since 1943) and ASA PH2.5 (since 1954), together with the DIN system (DIN 4512 since 1934), became the basis for the ISO system (since 1974), currently used worldwide (ISO 6ISO 2240ISO 5800ISO 12232).
  • A standard for the set of values used to represent characters in digital computers. The ANSI code standard extended the previously created ASCII seven bit code standard (ASA X3.4-1963), with additional codes for European alphabets (see also Extended Binary Coded Decimal Interchange Code or EBCDIC). In Microsoft Windows, the phrase “ANSI” refers to the Windows ANSI code pages (even though they are not ANSI standards).[12] Most of these are fixed width, though some characters for ideographic languages are variable width. Since these characters are based on a draft of the ISO-8859 series, some of Microsoft’s symbols are visually very similar to the ISO symbols, leading many to falsely assume that they are identical.
  • The first computer programming language standard was “American Standard Fortran” (informally known as “FORTRAN 66”), approved in March 1966 and published as ASA X3.9-1966.
  • The programming language COBOL had ANSI standards in 1968, 1974, and 1985. The COBOL 2002 standard was issued by ISO.
  • The original standard implementation of the C programming language was standardized as ANSI X3.159-1989, becoming the well-known ANSI C.
  • The X3J13 committee was created in 1986 to formalize the ongoing consolidation of Common Lisp,[13] culminating in 1994 with the publication of ANSI’s first object-oriented programming standard.[14]
  • A popular Unified Thread Standard for nuts and bolts is ANSI/ASME B1.1 which was defined in 1935, 1949, 1989, and 2003.
  • The ANSI-NSF International standards used for commercial kitchens, such as restaurants, cafeterias, delis, etc.
  • The ANSI/APSP (Association of Pool & Spa Professionals) standards used for pools, spas, hot tubs, barriers, and suction entrapment avoidance.
  • The ANSI/HI (Hydraulic Institute) standards used for pumps.
  • The ANSI for eye protection is Z87.1, which gives a specific impact resistance rating to the eyewear. This standard is commonly used for shop glasses, shooting glasses, and many other examples of protective eyewear.
  • The ANSI paper sizes (ANSI/ASME Y14.1).

See also