| Name |
Description |
Abstract |
Status |
Publication date |
Edition |
Number of pages |
Technical committee |
ICS |
| ISO/IEC 10561:1999 |
Information technology — Office equipment — Printing devices — Method for measuring throughput — Class 1 and Class 2 printers |
This International Standard specifies a method for measuring the throughput of class 1 and class 2 printers, as
defined in ISO/IEC 11160-1. This International Standard specifies three different test patterns:
· a standard business letter;
· a spreadsheet;
· a graphic pattern.
In addition, this International Standard defines a method for a performance test and one for an endurance test.
These tests are intended to measure only the printer throughput for documents in the same class as the test
patterns and not to evaluate any other printer features such as character shaping, print compressions,
network/controller performance, colour, etc. The method is relevant to class 1 and class 2 printer types (e.g. dot
matrix, daisy wheel, ink jet, thermal transfer printers) and to all configurations (e.g. tractor feed, cut sheet feed,
80-column and over 132-column print width, etc.). It is not the most suitable for comparing performance of other
classes of printing devices such as high-speed page-oriented printers or color printers.
This method is intended for use by printer manufacturers and test houses so that a common form of test result
presentation shall be obtained. It will also enable a user to make a quick and easy comparison of the printing
throughput of different printers.
|
Published |
1999-05 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 11801:1995/Cor 2:1997 |
Information technology — Generic cabling for customer premises — Technical Corrigendum 2 |
|
Withdrawn |
1997-06 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11160-1:1996 |
Information technology — Office equipment — Minimum information to be included in specification sheets — Printers — Part 1: Class 1 and Class 2 printers |
Specifies the minimum information that shall be included in the specification sheets of printers enabling users to compare the characteristics of different machines and select a suitable printer. Applies to Class 3 and Class 4 printers according annex B for an office environment.
|
Published |
1996-08 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 11160-2:1996 |
Information technology — Office equipment — Minimum information to be included in specification sheets — Printers — Part 2: Class 3 and Class 4 printers |
Specifies the minimum information that shall be included in the specification sheets of printers enabling users to compare the characteristics of different machines and select a suitable printer. Applies to Class 1 and Class 2 printers according annex A for an office environment.
|
Withdrawn |
1996-08 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 11160-2:2013 |
Information technology — Office equipment — Minimum information to be included in specification sheets — Printers — Part 2: Class 3 and Class 4 printers |
ISO/IEC 11160 is intended to facilitate users in selecting a printer which meets their requirements.
ISO/IEC 11160 specifies the minimum information to be included in the specification sheets of printers in order for users to compare the characteristics of different machines. The term "Specification Sheets" applies to documents which describe the performance characteristics of the printers to be included in instruction manuals, product brochures or on websites.
ISO/IEC 11160 applies to printers that could be operated in an office environment. Printers requiring specially equipped rooms or specially instructed operators are not considered in ISO/IEC 11160.
ISO/IEC 11160 deals with different classes of printers. ISO/IEC 11160-2:2013 accommodates Class 3 and Class 4 printers, as defined in Annex C. Detailed descriptions of Class 3 and Class 4 printers are specified in Annex A. Serial printers are classified as Class 1 or Class 2 printers as defined in Annex C and covered by ISO/IEC 11160-1.
|
Withdrawn |
2013-10 |
Edition : 2 |
Number of pages : 17 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 11160-2:2021 |
Office equipment — Minimum information to be included in specification sheets — Part 2: Class 3 and Class 4 printers |
This document specifies the minimum information to be included in the specification sheets of Class 3 and Class 4 printers in order for users to compare the characteristics of different machines. The term “specification sheets” applies to documents which describe the performance characteristics of the printers to be included in instruction manuals, product brochures or on websites.
This document applies to printers that can be operated in an office environment. Printers requiring specially equipped rooms or specially instructed operators are not considered in this document.
NOTE This document is intended to facilitate users in selecting a printer which meets their requirements. The ISO/IEC 11160 series deals with different classes of printers, such as class 3 and class 4 printers shown in Table C.1 of (Annex C). Elements for classification of printers is given in Annex A. Detailed descriptions of class 3 and class 4 printers are specified in (3.4) and (3.5). Serial printers which are classified as class 1 or class 2 printers as defined and covered in ISO/IEC 11160-1:1997, Annex C.
|
Published |
2021-07 |
Edition : 3 |
Number of pages : 19 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 13066-1:2011 |
Information technology — Interoperability with assistive technology (AT) — Part 1: Requirements and recommendations for interoperability |
Interoperability involves the ability to use assistive technology (AT) to add to or augment existing components of information technology (IT) systems. Interoperability between AT and IT is best facilitated via the use of standardized, public interfaces for all IT components.
ISO/IEC 13066-1:2011 provides a basis for designing and evaluating interoperability between IT and AT. It formalizes the layered architecture of hardware-to-hardware, hardware-to-software, and software-to-software connections that have long been implicit in the IT definitions of ISO/IEC JTC 1. It also recognizes the central role that accessibility application programming interfaces (accessibility APIs) play in aiding this interoperability.
ISO/IEC 13066-1:2011 identifies a variety of APIs that are described further in other parts of ISO/IEC 13066. These APIs can be used as frameworks to support IT-AT interoperability.
ISO/IEC 13066-1:2011 does not define or require specific technology, commands, APIs, or hardware interfaces. It defers to other existing standards and supports the development of new standards in these areas.
It identifies a variety of common accessibility APIs that are described further in other parts of ISO/IEC 13066.
|
Published |
2011-05 |
Edition : 1 |
Number of pages : 35 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
;
11.180.99
Other standards related to aids for disabled and handicapped people
|
| ISO/IEC TR 13066-2:2012 |
Information technology — Interoperability with Assistive Technology (AT) — Part 2: Windows accessibility application programming interface (API) |
ISO/IEC TR 13066-2:2012 provides information about the Microsoft® Windows® Automation Frameworks, including Microsoft Active Accessibility, User Interface (UI) Automation, and the common interfaces of these accessibility frameworks including the IAccessibleEx interface specification. It provides information on application programming interfaces (APIs) needed to use these frameworks.
A primary goal of ISO/IEC TR 13066-2:2012 is to ensure that accessible software applications can be written in such a way that they are fully compatible with the Microsoft Accessibility APIs available on the Microsoft Windows operating system.
|
Withdrawn |
2012-10 |
Edition : 1 |
Number of pages : 94 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
;
11.180.99
Other standards related to aids for disabled and handicapped people
|
| ISO/IEC TR 13066-2:2016 |
Information technology — Interoperability with assistive technology (AT) — Part 2: Windows accessibility application programming interface (API) |
ISO/IEC TR 13066-2:2016 specifies services provided in the Microsoft Windows platform to enable assistive technologies (AT) to interact with other software. One goal of this part of ISO/IEC 13066 is to define a set of application programming interfaces (APIs) for allowing software applications to enable accessible technologies on the Microsoft Windows platform. Another goal of this part of ISO/IEC 13066 is to facilitate extensibility and interoperability by enabling implementations by multiple vendors on multiple platforms.
ISO/IEC TR 13066-2:2016 is applicable to the broad range of ergonomics and how ergonomics apply to human interaction with software systems.
|
Published |
2016-02 |
Edition : 2 |
Number of pages : 88 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
;
11.180.99
Other standards related to aids for disabled and handicapped people
|
| ISO/IEC TR 13066-3:2012 |
Information technology — Interoperability with assistive technology (AT) — Part 3: IAccessible2 accessibility application programming interface (API) |
ISO/IEC TR 13066:2012 provides an overview to the structure and terminology of the IAccessible2 accessibility API.
It provides:
a description of the overall architecture and terminology of the API;
further introductory explanations regarding the content and use of the API beyond those found in Annex A of ISO/IEC 13066-1;
an overview of the main properties, including:
of user interface elements,
of how to get and set focus,
of communication mechanisms in the API;
a discussion of design considerations for the API (e.g. pointers to external sources of information on accessibility guidance related to using the API);
information on extending the API (and where this is appropriate);
an introduction to the programming interface of the API (including pointers to external sources of information).
It provides this information as an introduction to the IAccessible2 API to assist:
IT system level developers who create custom controls and/or interface to them;
AT developers involved in programming "hardware to software" and "software to software" interactions.
|
Published |
2012-09 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
;
11.180.99
Other standards related to aids for disabled and handicapped people
|
| ISO/IEC TR 13066-4:2015 |
Information technology — Interoperability with assistive technology (AT) — Part 4: Linux/UNIX graphical environments accessibility API |
ISO/IEC TR 13066-4:2015 provides an overview to the structure and terminology of the Linux/UNIX graphical environments accessibility API.
It will provide the following:
- a description of the overall architecture and terminology of the API;
- further introductory explanations regarding the content and use of the API beyond those found in ISO/IEC 13066‑1:2011, Annex A;
- an overview of the main properties, including
- of user interface elements,
- of how to get and set focus, and
- of communication mechanisms in the API;
- a discussion of design considerations for the API (e.g. pointers to external sources of information on accessibility guidance related to using the API);
- information on extending the API (and where this is appropriate);
- an introduction to the programming interface of the API (including pointers to external sources of information).
It will provide this information as an introduction to the Java API to assist the following:
- IT system level developers who create custom controls and/or interface to them;
- AT developers involved in programming "hardware to software" and "software to software" interactions.
|
Published |
2015-11 |
Edition : 1 |
Number of pages : 23 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
;
11.180.99
Other standards related to aids for disabled and handicapped people
|
| ISO/IEC TR 13066-6:2014 |
Information technology — Interoperability with Assistive Technology (AT) — Part 6: Java accessibility application programming interface (API) |
ISO/IEC TR 13066-6:2014 provides an overview to the structure and terminology of the Java accessibility application programming interface (API) It will provide:
A description of the overall architecture and terminology of the API;
Further introductory explanations regarding the content and use of the API beyond those found in Annex A of ISO/IEC 13066-1;
An overview of the main properties, including of:
user interface elements;
how to get and set focus;
of communication mechanisms in the API;
a discussion of design considerations for the API (e.g. pointers to external sources of information on accessibility guidance related to using the API);
information on extending the API (and where this is appropriate);
an introduction to the programming interface of the API (including pointers to external sources of information);
an introduction to the Java Access Bridge for Windows and the Java Access Bridge for GNOME.
It will provide this information as an introduction to the Java API to assist:
IT system level developers who create custom controls and/or interface to them;
AT developers involved in programming "hardware to software" and "software to software" interactions.
|
Published |
2014-07 |
Edition : 1 |
Number of pages : 40 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
;
11.180.99
Other standards related to aids for disabled and handicapped people
|
| ISO 13406-1:1999 |
Ergonomic requirements for work with visual displays based on flat panels — Part 1: Introduction |
|
Withdrawn |
1999-10 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
13.180
Ergonomics
;
35.180
IT terminal and other peripheral equipment
|
| ISO 13406-2:2001 |
Ergonomic requirements for work with visual displays based on flat panels — Part 2: Ergonomic requirements for flat panel displays |
|
Withdrawn |
2001-12 |
Edition : 1 |
Number of pages : 147 |
Technical Committee |
13.180
Ergonomics
;
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 14473:1999 |
Information technology — Office equipment — Minimum information to be specified for image scanners |
This International Standard is intended to facilitate user selection of an image scanner. This International Standard
specifies the minimum information that shall be included by manufacturers in their specification sheets for scanners.
This International Standard is made for the average end user. For this reason it does not describe all specifications
of scanners with special features such as double sided scanning or high speed. By insuring consistency of
specification of scanner product information, this International Standard enables the end user to make meaningful
comparisons of machine functionality and performance characteristics. The most meaningful parameters of function
and performance are specified and defined, and measures of performance are provided.
This International Standard further applies to types of scanners which are most prevalent in use, including
parameters for a scanning engine (an optomechanical physical device) and basic image processing only (those
processes include digital data output with encoded gray scale, or unencoded single bit plus halftone data). It does not
require specification of advanced application processing such as OCR, translation, vector conversion, etc. Because
scanners use both software and/or hardware to achieve some scanner functions and controls, the standard contains
some entries related to software even though the standard is primarily for scanner hardware. The manufacturer, at
his option, may include description of such additional functionality which may be provided. This standard also does
not consider image quality, nor does it provide or use related test targets.
|
Published |
1999-04 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 14755:1997 |
Information technology — Input methods to enter characters from the repertoire of ISO/IEC 10646 with a keyboard or other input device |
|
Published |
1997-08 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 15411:1999 |
Information technology — Segmented keyboard layouts |
This International Standard defines the differing requirements necessary when considering the various types of
segmented keyboards. The scope of this International Standard encompasses the three-dimensional layout of
segmented, traditional style keyboards classified as having:
a. Adjustable alphanumeric segments;
b. Fixed angle alphanumeric segments.
This International Standard covers the following keyboard areas:
- Alphanumeric area
- Function area
- Text editing area
- Numeric area
- Cursor control area
|
Published |
1999-10 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 15412:1999 |
Information technology — Portable computer keyboard layouts |
For the purposes of this International Standard, a portable computer is defined as a computer with a screen and an
attached keyboard that is capable of running on battery power for extended periods of time and is relatively easy to
transport from one location to another by a single individual.
This International Standard gives design guidance for product designers; this International Standard indicates those
requirements and recommendations contained in ISO/IEC 9995 and ISO 9241-4:1998 that are to be considered in
designing portable computers keyboards.
This International Standard strives to maintain consistency, as far as practical, between keyboards for portable
computers and desktop computers. To accomplish this goal, this International Standard has reviewed ISO/IEC 9995
and ISO 9241-4:1998 to identify those design features of these two base standards which are to be followed, which
are exempted from this International Standard and which are permitted variations.
This International Standard is intended primarily to apply to full size portable keyboards (e.g. A4). It may also apply
to other keyboards outside this scope. ISO 9241-4 contains a proposed alternative method for conformance by a
test based on user performance and subjective rating scales.
This International Standard consists of two major categories of guidelines for portable computers:
1. Layout characteristics
2. Physical (ergonomic) characteristics
|
Published |
1999-09 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC TR 15440:2005 |
Information technology — Future keyboards and other associated input devices and related entry methods |
ISO/IEC TR 15440:2005 is aimed at both the users and manufacturers, and intends to present the user requirements regarding keyboards and associated devices and methods, at time of its publication.
ISO/IEC TR 15440:2005 covers
the different input requirements catering for national and international practices and support of cultural and linguistic diversity;the recognition of requirements regarding comfort of use (for any user, including children, elderly and disabled people), and improved user productivity related to inputting data;enhancements of keyboards and related input devices and methods required for new emerging phenomena such as Internet, multimedia, virtual reality;virtual input requirements;labelling issues (soft [LCD] and hard, permanent and temporary labels), function symbols and icons.
|
Withdrawn |
2005-07 |
Edition : 3 |
Number of pages : 7 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC TR 15440:2016 |
Information technology — Future keyboards and other input devices and entry methods |
ISO/IEC TR 15440:2016 (TR) covers the following:
- different input requirements catering for national and international practices and support of cultural and linguistic diversity;
- recognition of requirements regarding comfort of use (for any user, including children, elderly and disabled people) and improved user productivity related to inputting data;
- enhancements of keyboards and related input devices and methods required for new emerging phenomena such as Internet, multimedia, virtual reality;
- virtual input requirements;
- labelling issues (soft [LCD] and hard, permanent and temporary labels), function symbols and icons.
ISO/IEC TR 15440:2016 does not cover implications of biometric input (fingerprint-based, iris-pattern-based, face-shape-based, etc.) devices for access and security.
ISO/IEC TR 15440:2016 is aimed at both the users and manufacturers and intends to present the user requirements regarding keyboards and associated devices and methods, at the time of publication of this technical report.
|
Published |
2016-02 |
Edition : 4 |
Number of pages : 25 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 11801:2000 |
Information technology — Generic cabling for customer premises |
|
Withdrawn |
2000-02 |
Edition : 2 |
Number of pages : 95 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 20007:2014 |
Information technology — Cultural and linguistic interoperability — Definitions and relationship between symbols, icons, animated icons, pictograms, characters and glyphs |
ISO/IEC TR 20007:2014 clearly defines each term related to ISO and IEC symbology in a single document and harmonizes difference of use and possible correspondence between different objects covering these concepts.
|
Published |
2014-05 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/TR 20278:2015 |
Unwanted reflections from the active and inactive areas of display surfaces visible during use |
ISO/TR 20278:2015 provides users a summary of the existing knowledge about ergonomics requirements for unwanted reflections on electronic displays. The document furthermore provides some guidance on specification of unwanted reflections.
NOTE ISO 9241 contains normative requirements related to unwanted reflections. It is possible that the information contained in this Technical Report will be used for a future update of ISO 9241.
|
Published |
2015-12 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
13.180
Ergonomics
;
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 22121-2:2023 |
Information technology — Virtual keyboards user interfaces — Part 2: On-screen keyboards with direct touch interface |
This document specifies the design and specification of on-screen keyboards (keyboards that are displayed on a screen) with direct touch interface, including those with some audio feedback.
This document specifies keyboard layouts designed for on-screen keyboards with direct touch interface and ways for interaction with them.
It is not applicable to virtual keyboards that are not displayed on a screen, and on-screen keyboards that do not provide a direct touchscreen interface such as on-screen keyboards relying on an accessory unit like a trackpad or a remote control for interactions with the user.
It is not applicable to physical keyboards that use real or adaptable keys, which can be customized to user needs, for example, with LCD display.
|
Published |
2023-03 |
Edition : 1 |
Number of pages : 28 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 23385:2022 |
Information technology — Office equipment — Method for measuring single photo printing time for digital printing devices |
This document specifies a method for measuring single photo printing time of digital photo printing devices on a wide range of print technologies. This document is applicable to digital photo printing devices that can produce photo prints on either 2” × 3” (51 mm × 76 mm), L (89 mm × 127 mm), 4” × 6” (102 mm × 152 mm), A6 (105 mm × 148 mm), A4 (210 mm × 297 mm), 8,5” × 11” (215,9 mm × 279,4 mm), 11” × 17” (279,4 mm × 431,8 mm), A3 (297 mm × 420 mm) or A3+ size sheets. Devices can be connected to either the computer system, media card or mobile devices. This document includes test setup procedure, test runtime procedure and reporting requirements for the digital single photo printing time measurements. Instant photoprint systems, which do not complete image formation at the time of paper ejection from device, are out of the scope of this document.
|
Published |
2022-07 |
Edition : 1 |
Number of pages : 17 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC 23836:2020 |
Information technology — User interfaces — Universal interface for human language selection |
This document describes the method for selection of a language in information and communication (ICT) devices. This document is intended to apply to the user interface design of ICT devices which have a function for setting the appropriate language environment when an end-user wants to initiate its operation.
|
Published |
2020-09 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO 24552:2020 |
Ergonomics — Accessible design — Accessibility of information presented on visual displays of small consumer products |
This document specifies the methods to improve accessibility of the visual display on small consumer products in order to minimize inconveniences that a variety of users including people with disabilities and the elderly can experience while using those products.
In particular, this document focusses on how to present information on small visual displays to make the product more accessible for older people and people with low vision or colour deficiency. The provision of different modalities or alternative ways of displaying information to make the product more accessible is not covered in this document. This document only covers accessibility with regard to visual presentation of information, not audio or tactile-based display methods.
NOTE 1 Accessibility of a product can be enhanced by adopting alternative means to the visual presentation of the information, which is not covered in this document. For information about alternative forms of presentation, ISO/IEC Guide 71, ISO 9241‑112 and ISO 9241‑171 can be useful.
NOTE 2 A comprehensive catalogue of accessibility needs and strategies for accommodation for all users (not only those with visual impairments) is out of scope for this document. Readers interested in this regard can refer to ISO/IEC 29138‑1.
This document applies to various consumer products equipped with digital displays, in which the information about operation of the product is visually presented. The products are usually equipped with built-in display panels. The consumer products include those hand-held products that can be easily carried by the user or those that are not portable but equipped with small displays, though the size of the product or the display is not specified in this document.
NOTE 3 This document focusses on the accessibility of small displays, regardless of the size of the consumer product.
NOTE 4 Examples include, but are not limited to, electronic thermometers, digital cameras, air-conditioning systems, remote controllers.
This document is not applicable to those products with high flexibility or adjustability in presenting information on the display. Some examples are web- or application-based displays of ICT devices such as smart phones, smart TVs, and tablet PCs. It is not applicable to touch-based displays that have both the functions of display and control. Some examples are touch interfaces of smart watches or digital cameras. Finally, accessibility issues relating to indicating lamps/lights used for simple alerts or alarm are covered in ISO 24550 and are not considered in this document.
NOTE 5 There are many accessibility issues in the touch interface related to information presentation as well as control function and they need to be dealt with together.
It is possible that some guidance of this document is not applicable to some products, such as oral or ear thermometers, which have extremely small in-built displays.
|
Published |
2020-03 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
13.180
Ergonomics
;
35.180
IT terminal and other peripheral equipment
|
| ISO 9314-2:1989 |
Information processing systems — Fibre Distributed Data Interface (FDDI) — Part 2: Token Ring Media Access Control (MAC) |
Describes the Media Access Control (MAC), the lower sublayer of the Data Link Layer (DLL), for Fibre Distributed Data Interface (FDDI). Intended for use in a high-performance multistation network with the protocol designed to be effective at 100 Mbit/s using a Token ring architecture and fibre optics as transmission medium over distance of several kilometers in extent. References: ISO 8802-2; 8802-5; 9314-1; 9314-3.
|
Published |
1989-05 |
Edition : 1 |
Number of pages : 67 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 24757:2008 |
Information technology — Keyboard interaction model — Machine-readable keyboard description |
The goal of ISO/IEC 24757:2008 is to harmonize industry practices in matters of machine-readable keyboard descriptions (PCs, PDAs, various operating systems, etc.). It further aims to facilitate the production of interoperable drivers for the user and to better assist the user by offering a more precise mapping between the physical keyboard layout and geometrical configuration, and the logical interface available to the operating system and its applications.
ISO/IEC 24757:2008 provides a formal description format that can not only fully describe the international keyboards standards, but also the capabilities of keyboards on the current and future marketplace and their functioning with corresponding operating systems. It describes possible interactions between keys of a keyboard and standardizes the keyboard description so that it is machine-readable while staying relatively easy to interpret by human beings.
The keyboard description format is meant to be capable of describing existing capabilities of today's keyboard hardware and its associated software, plus foreseeable extensions. It relies on international standard format ISO SGML, in the form known as ISO RELAX NG, with an easy conversion to industry standard XML. Some additional functionality is covered, such as keyboards with programmable keys and keyboards with multiple key assignments such as telephone keypads.
The keyboard definition format is primarily intended to be used by the operating system, and during its boot process (e.g. in the BIOS), but can also be used for other purposes, such as reporting from the hardware of a keyboard to help the operating system configuring the keyboard driver, or to present the keyboard on screen with a user-friendly picture.
The keyboard definition format is described in four sections:
a keyboard identification and general features section, including make and model, serial number, country or region and language to which the keyboard applies, engraving language identification, and distinctive features, such as relief, or presence of lights on keys.
the hardware geometry layout, which indicates a largely known geometry layout, such as a 102-key PC keyboard. This section also gives physical information such as size of keys, and amount of pressure needed to activate keys.
the keyboard layout, which gives the actual assignment of characters to each key.
key combinations which gives combinations of keys, such as those of characters affected by dead keys.
A number of existing keyboard definition formats are described, together with a mapping between these description formats and the format defined in ISO/IEC 24757:2008.
|
Published |
2008-11 |
Edition : 1 |
Number of pages : 136 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO/IEC TR 24784:2009 |
Information technology — Keyboard layouts for alphanumeric inputs — Description of ISO/IEC 9995 issues regarding users' needs and necessary innovations |
ISO/IEC TR 24784:2009 specifies possible modifications of ISO/IEC 9995-1 to ISO/IEC 9995-8 to fulfil the changed market needs and the requirements for keyboard layouts and allocation of keycap imprints (including letters, numerals, symbols, and other markings on the keycaps) for alphanumeric and numeric input devices for all types of information and communication technology devices and systems including:
personal computers, workstations, computer terminals, visual display terminals (VDTs);
electronic typewriters and other machines with alphanumeric and numeric keyboards;
mobile computer systems and multimedia devices with hardware or virtual keyboards;
electronic document scanners and multifunction devices incorporating alphanumeric and/or numeric keyboards;
calculators, telephones and automated teller machines having alphanumeric and/or numeric keypads/keyboards.
|
Withdrawn |
2009-04 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
|
| ISO 80416-4:2005 |
Basic principles for graphical symbols for use on equipment — Part 4: Guidelines for the adaptation of graphical symbols for use on screens and displays (icons) |
ISO 80416-4:2005 provides guidelines for the adaptation of graphical symbols for use on screens and displays (icons) on a wide range of equipment, such as photocopiers, vehicle dashboards and home appliances. It also provides principles for maintaining the fidelity of icons to the original graphical symbols.
|
Published |
2005-08 |
Edition : 1 |
Number of pages : 19 |
Technical Committee |
35.180
IT terminal and other peripheral equipment
;
01.080.20
Graphical symbols for use on specific equipment
|
| ISO 2382-21:1985 |
Data processing — Vocabulary — Part 21: Interfaces between process computer systems and technical processes |
Enables the international communication in information processing. Provides selected English and French terms and their definitions in the field of the links between the technical processes and the process computer systems, especially the process interface system the process control equipment and its interaction.
|
Withdrawn |
1985-11 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
35.200
Interface and interconnection equipment
;
01.040.35
Information technology (Vocabularies)
|
| ISO 6548:1984 |
Data processing — Description of interface between process computing system and technical process |
|
Withdrawn |
1984-04 |
Edition : 1 |
Number of pages : 28 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO 6951:1986 |
Information processing — Processor system bus interface (Eurobus A) |
Provides a processor system bus interface known as Eurobus A being one of a family of interfaces for modular data acquisition, processing communication and control systems for military, industrial and other applications.
|
Published |
1986-12 |
Edition : 1 |
Number of pages : 54 |
Technical Committee |
35.160
Microprocessor systems
;
35.200
Interface and interconnection equipment
|
| ISO 9314-1:1989 |
Information processing systems — Fibre Distributed Data Interface (FDDI) — Part 1: Token Ring Physical Layer Protocol (PHY) |
Defines the Physical Layer Protocol (PHY), the upper sublayer of the Physical Layer, for Fibre Distributed Data Interface (FDDI). Intended for use in a high-performance multistation network with the protocol designed to be effective at 100 Mbit/s using a Token ring architecture and fibre optics as transmission medium over distance of several kilometers in extent. References: IOS 9314-2; 9314-3.
|
Published |
1989-04 |
Edition : 1 |
Number of pages : 31 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801:2002 |
Information technology — Generic cabling for customer premises |
|
Withdrawn |
2002-09 |
Edition : 3 |
Number of pages : 124 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-3:1990 |
Information processing systems — Fibre distributed Data Interface (FDDI) — Part 3: Physical Layer Medium Dependent (PMD) |
Defines the structure of the FDDI and specifies the functions and operations necessary to insure interoperability between conforming FDDI implementations. Provides a lot of terms, conventions and abbreviations. The annexes A to G provide important supplemental information.
|
Published |
1990-10 |
Edition : 1 |
Number of pages : 47 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-4:1999 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 4: Single Mode Fibre Physical Layer Medium Dependent (SMF-PMD) |
This part of ISO/IEC 9314 specifies the Single-mode fibre Physical Layer Medium Dependent (SMF-PMD) requirements for the Fibre Distributed Data Interface (FDDI).FDDI provides a high bandwidth (100 megabits per second) general purpose interconnection among computers and peripheral equipment using a fibre optic waveguide as the transmission medium. The FDDI may be configured to support a sustained transfer rate of approximately80 megabits (10 megabytes) per second. The FDDI may not meet the response time requirements of all unbuffered high speed devices. The FDDI establishes the connection among many stations distributed over distances of several kilometers in extent. Default values for FDDI were calculated on the basis of 1000 physical connections and a total fibre path length of 200 kilometers (see the MAC Standard – ISO/IEC 9314-2 or ISO/IEC 9314-8).The FDDI consists of:1) The Physical Layer Medium Dependent (PMD) is specified in four alternative standards:a) ISO/IEC 9314-3 (FDDI PMD) corresponding to multimode fibre (MMF) which actuallymeans "FDDI MMF-PMD".b) This standard ISO/IEC 9314-4 (SMF-PMD) which contains the requirements for singlemodefibre (SMF) physical connections between stations.c) ISO/IEC 9314-9 (FDDI LCF-PMD), an alternative lower cost multimode fibre (LCF) forshorter distances.d) ISO/IEC 9314-10 (FDDI TP-PMD), a copper twisted pair (TP) alternative.An FDDI ring can be made up of all these alternatives. (For some restrictions see 6.4).The PMD provides all services necessary to transport a suitably coded digital bit streamfrom station to station. The SMF-PMD specifies the point of interconnectionrequirements for FDDI stations and cable plants at both sides of the Media InterfaceConnector (MIC) for conforming stations utilizing single-mode fibre.SMF-PMD includes the following:i) The optical power budgets for two (2) categories of Active Output and Active InputInterfaces using single-mode fibre optic cables and optical bypass switchesii) The MIC Receptacle mechanical mating requirements including the keying featuresiii) The single-mode fibre optic cable requirementsiv) The services provided by PMD to PHY and SMT2) A Physical Layer Protocol (PHY), which provides connection between multimode or singlemodePMD and the Data Link Layer (DLL). PHY establishes clock synchronization with theupstream code-bit data stream and decodes this incoming code-bit stream into anequivalent symbol stream for use by the higher layers. PHY provides encoding anddecoding between data and control indicator symbols and code-bits, medium conditioningand initializing, the synchronization of incoming and outgoing code-bit clocks, and thedelineation of octet boundaries as required for the transmission of information to or fromhigher layers. Information to be transmitted on the interface medium is encoded by the PHYinto a grouped transmission code.3) A Data Link Layer (DLL), which controls the accessing of the medium and the generationand verification of frame check sequences to assure the proper delivery of valid data to the– 8 – 9314-4 © ISO/IEC:1999(E)higher layers. DLL also concerns itself with the generation and recognition of deviceaddresses and the peer-to-peer associations within the FDDI network. For purpose of thePHY, references to DLL are made in terms of the Media Access Control (MAC) entity, whichis the lowest sublayer of DLL.4) A Station Management (SMT), which provides the control necessary at the station level to manage the processes underway in the various FDDI layers such that a station may work cooperatively on a ring. SMT provides services such as control of configuration management, fault isolation and recovery, and scheduling procedures.This part of ISO/IEC 9314 is a supporting document to ISO/IEC 9314-1 which should be read inconjunction with it.The SMT document ISO/IEC 9314-6 should be consulted for information pertaining tosupported FDDI station and network configurations.The set of FDDI standards specifies the interfaces, functions and operations necessary toinsure interoperability between conforming FDDI implementations. This part of ISO/IEC 9314 isa functional description. Conforming implementations may employ any design technique whichdoes not violate interoperability.
|
Published |
1999-10 |
Edition : 1 |
Number of pages : 52 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-5:1995 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 5: Hybrid Ring Control (HRC) |
|
Published |
1995-02 |
Edition : 1 |
Number of pages : 108 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-6:1998 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 6: Station Management (SMT) |
This part of ISO/IEC 9314 specifies the Station Management (SMT) for the Fibre Distributed Data
Interface (FDDI).
FDDI provides a high bandwidth (100 megabits per second) general purpose interconnection among
computers and peripheral equipment using optical fibre as the transmission medium in a ring
configuration. FDDI can be configured to support a sustained transfer rate of approximately
80 megabits (10 megabytes) per second. The use of dual attachment stations with dual MACs allows
these rates to be doubled under the circumstance of a fault-free FDDI ring.
FDDI establishes the connection among many stations (nodes) distributed over distances of several
kilometres in extent. Default values for FDDI were calculated on the basis of 1 000 physical
connections and a total fibre path length of 200 km.
The FDDI consists of
a) A Physical Layer (PL), which provides the medium, connectors, optical bypassing,
and driver/receiver requirements. PL also defines encode/decode and clock
requirements as required for framing the data for transmission on the medium or to
the higher layers of the FDDI. For the purposes of this part of ISO/IEC 9314,
references to the PL are made in terms of the Physical Layer protocol (PHY) and the
Physical Layer Media Dependent (PMD) entities which are the upper and lower
sublayers of PL, respectively.
b) A Data Link Layer (DLL) which controls the accessing of the medium and the
generation and verification of frame check sequences to assure the proper delivery
of valid data to the higher layers. DLL also concerns itself with the generation and
recognition of device addresses and the peer-to-peer associations within the FDDI
network. For the purposes of this part of ISO/IEC 9314, references to the DLL are
made in terms of the Media Access Control (MAC) entity which is the lowest
sublayer of DLL.
c) A Station Management (SMT) standard, this part of ISO/IEC 9314, which provides
the control necessary at the station (node) level to manage the processes underway
in the various FDDI layers such that a station may work cooperatively as a part of
an FDDI network. SMT shall provide services such as connection management,
station insertion and removal, station initialization, configuration management, fault
isolation and recovery, communications protocol for external authority, scheduling
policies, and collection of statistics.
The definition of SMT as contained herein includes the set of services that it provides for, and receives
from, the other entities that are contained within a node. Within SMT resides both knowledge of the
uniqueness of this node and the current network structure to the extent that this node's function is
affected.
The set of International Standards for FDDI, ISO/IEC 9314, specifies the interfaces, functions and
operations necessary to insure interoperability between conforming FDDI implementations. This part
of ISO/IEC 9314 is a functional description. Conforming implementations may employ any design
technique which does not violate interoperability.
|
Published |
1998-08 |
Edition : 1 |
Number of pages : 204 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-7:1998 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 7: Physical layer Protocol (PHY-2) |
This part of ISO/IEC 9314 specifies the Physical Layer Protocol (PHY), the upper sublayer of the Physical Layer, for Fibre Distributed Data Interface (FDDI).
FDDI provides a high-bandwidth (100 Mbit/s), general-purpose interconnection among information processing systems, subsystems and peripheral equipment, using fibre optics or other transmission media. FDDI can be configured to support a sustained data transfer rate of at least 80 Mbit/s(10 Mbyte/s). FDDI provides connectivity for many nodes distributed over distances of many kilometers in extent. Certain default parameter values for FDDI (e.g. timer settings) are calculated on the basis of up to 1 000 transmission links or up to 200 km total fibre-path length (typicallycorresponding to 500 nodes and 100 km of dual fibre cable, respectively); however, the FDDI protocols can support much larger networks by increasing these parameter values.
As shown in figure 1, FDDI consists of
a) Physical Layer (PL), which is divided into two sublayers:
1) A Physical Medium Dependent (PMD), which provides the digital baseband point-to-point communication between nodes in the FDDI network. The PMD provides all services necessary to transport a suitably coded digital bit stream from node to node. The PMD defines and characterizes the fibre-optic drivers and receivers, medium-dependent code requirements, cables, connectors, power budgets, optical bypass provisions, and physicalhardware-related characteristics. It specifies the point of interconnectability for conforming FDDI attachments. The initial PMD standard defines attachment to multi-mode fibre. Alternative PMD sublayer standards are being developed for attachment to other transmission media and for mapping to Synchronous Optical Network (SONET),
2) A Physical Layer Protocol (PHY), which provides connection between the PMD and the Data Link Layer. PHY establishes clock synchronization with the upstream code-bit data stream and decodes this incoming code-bit stream into an equivalent symbol stream for use by the higher layers. PHY provides encoding and decoding between data and control indicator symbols and code bits, medium conditioning and initializing, the synchronization of incoming and outgoing code-bit clocks, and the delineation of octet boundaries as required for the transmission of information to or from higher layers. Information to be transmitted on the medium is encoded by the PHY using a group transmission code. The definition of PHY is contained in this part of ISO/IEC 9314.
b) A Data Link Layer (DLL), which is divided into two or more sublayers:
1) An optional Hybrid Ring Control (HRC), which provides multiplexing of packet and circuit switched data on the shared FDDI medium. HRC comprises two internal components, a Hybrid Multiplexer (H-MUX) and an Isochronous MAC (I-MAC). H-MUX maintains a synchronous 125 µs cycle structure and multiplexes the packet and circuit switched data streams, and I-MAC provides access to circuit switched channels,
2) A Media Access Control (MAC), which provides fair and deterministic access to the medium, address recognition, and generation and verification of frame check sequences. Its primary function is the delivery of packet data, including frame generation, repetition, and removal,
3) An optional Logical Link Control (LLC), which provides a common protocol for any required packet data adaptation services between MAC and the Network Layer. LLC is not specified by FDDI,
4) An optional Circuit Switching Multiplexer (CS-MUX), which provides a common protocol for any required circuit data adaptation services between I-MAC and the Network Layer. CS-MUX is not specified by FDDI.
c) A Station Management (SMT), which provides the coordination necessary at the node level to manage the processes under way in the various FDDI layers such that a node may work cooperatively on a ring. SMT provides services such as control of configuration management,fault isolation and recovery, and scheduling policies.
The definition of PHY as contained in this part of ISO/IEC 9314 is designed to be as independent as possible from the actual physical medium.
This part of ISO/IEC 9314 is an optional alternative to the original part of ISO/IEC 9314 on PHY (ISO 9314-1) for implementations without an (optional) HRC, and is required for implementations with an HRC. Implementations that conform to this part of ISO/IEC 9314 shall also be interoperable with implementations that conform to ISO 9314-1 if the additional capability of Hybrid mode operation (as defined in this part of ISO/IEC 9314) is not being used. Implementers are encouraged to read ISO 9314-1 in addition to this part of ISO/IEC 9314.
The set of FDDI standards specifies the interfaces, functions and operations necessary to ensure interoperability between conforming FDDI implementations. This part of ISO/IEC 9314 is a functional description. Conforming implementations may employ any design technique that is interoperable.
|
Published |
1998-10 |
Edition : 1 |
Number of pages : 46 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-8:1998 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 8: Media Access Control-2 (MAC-2) |
This part of ISO/IEC 9314 specifies the Media Access Control (MAC), the middle sublayer of the Data Link Layer (DLL), for Fibre Distributed Data Interface (FDDI).FDDI (ISO/IEC 9314) provides a high-bandwidth (100 Mbit/s), general-purpose interconnection among information processing systems, subsystems and peripheral equipment, using fibre optics or other transmission media. FDDI can be configured to support a sustained data transfer rate of at least 80 Mbit/s (10 Mbyte/s). FDDI provides connectivity for many nodes distributed over distances of many kilometres in extent. Certain default parameter values for FDDI (e.g. timer settings) are calculated on the basis of up to 1 000 transmission links or up to 200 km total fibre path length (typically corresponding to 500 nodes and 100 km of dual fibre cable, respectively); however, the FDDI protocols can support much larger networks by increasing these parameter values.
As shown in figure 1, ISO/IEC 9314 consists of
a) A Physical Layer (PL), which is divided into two sublayers:
1) A Physical Medium Dependent (PMD), which provides the digital baseband pointto-point communication between nodes in the FDDI network. The PMD provides all services necessary to transport a suitably coded digital bit stream from node to node. The PMD defines and characterizes the fibre-optic drivers and receivers, medium-dependent code requirements, cables, connectors, power budgets, optical bypass provisions, and physical-hardware-related characteristics. It specifies the point of interconnectability for conforming FDDI attachments. The initial PMD standard, ISO/IEC 9314-3, defines attachment to multi-mode fibre. Additional PMD sublayer standards are being developed for attachment to single-mode fibreand SONET.
2) A Physical Layer Protocol (PHY), which provides connection between the PMD and the Data Link Layer. PHY establishes clock synchronization with the upstream code-bit data stream and decodes this incoming code-bit stream into an equivalent symbol stream for use by the higher layers. PHY provides encoding and decoding between data and control indicator symbols and code bits, medium conditioning and initializing, the synchronization of incoming and outgoing code-bit clocks, and the delineation of octet boundaries as required for the transmission of informationto or from higher layers. Information to be transmitted on the medium is encoded by the PHY using a group transmission code.
b) A Data Link Layer (DLL), which is divided into two or more sublayers:
1) An optional Hybrid Ring Control (HRC), which provides multiplexing of packet and circuit switched data on the shared FDDI medium. HRC comprises two internal components, a Hybrid Multiplexer (H-MUX) and an isochronous MAC (I-MAC). H-MUX maintains a synchronous 125 µs cycle structure and multiplexes the packet and circuit switched data streams, and I-MAC provides access to circuit switched channels.
2) A Media Access Control (MAC), which provides fair and deterministic access to the medium, address recognition, and generation and verification of frame check sequences. Its primary function is the delivery of packet data, including frame generation, repetition, and removal. The definition of MAC is contained in this part of ISO/IEC 9314.
3) An optional Logical Link Control (LLC), which provides a common protocol for any required packet data adaptation services between MAC and the Network Layer. LLC is not specified by FDDI.
4) An optional Circuit Switching Multiplexer (CS-MUX), which provides a common protocol for any required circuit data adaptation services between I-MAC and the Network Layer. CS-MUX is not specified by FDDI.
c) A Station Management (SMT), which provides the control necessary at the node level to manage the processes under way in the various FDDI layers such that a node may work cooperatively on a ring. SMT provides services such as control of configuration management, fault isolation and recovery, and scheduling policies.
The MAC definition contained herein is designed to be as independent as possible from both the physical medium and the speed of operation. Concepts employed in ISO/IEC 8802-5, dealing with Token Ring MAC operation have been modified to accommodate the higher FDDI speeds, while retaining a similar set of services and facilities.
ISO/IEC 9314 specifies the interfaces, functions, and operations necessary to ensure interoperability between conforming FDDI implementations. This part of ISO/IEC 9314 provides a functional description. Conforming implementations may employ any design technique that does not violate interoperability. Implementations that conform to this part of ISO/IEC 9314 shall also be interoperable with implementations that conform to ISO 9314-2 if the additional capability of hybrid mode operation (as defined in this document) is not being used. Implementers are encouraged to consult ISO 9314-2 in addition to this part of ISO/IEC 9314.
|
Published |
1998-10 |
Edition : 1 |
Number of pages : 98 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-9:2000 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 9: Low-cost fibre physical layer medium dependent (LCF-PMD) |
|
Published |
2000-06 |
Edition : 1 |
Number of pages : 48 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-13:1998 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 13: Conformance Test Protocol Implementation Conformance Statement (CT-PICS) Proforma |
This part of ISO/IEC 9314 provides the PICS proforma for the Fibre Distributed Data Interface
(FDDI) specified in the base standards as denoted in clause 5.
|
Published |
1998-10 |
Edition : 1 |
Number of pages : 28 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-20:2001 |
Information technology — Fibre Distributed Data Interface (FDDI) — — Part 20: Abstract test suite for FDDI physical medium dependent conformance testing (FDDI PMD ATS) |
This part of ISO/IEC 9314 specifies a series of tests in order to verify conformance of FDDI stations to the requirements of ISO/IEC 9314-3:1990.
NOTE ISO/IEC 9314-3 specifies the requirements for the optical input/output port of FDDI stations as well as for cable plants. It states that a bit error rate for a station-to-station link should not exceed 2,5 × 10?10 for conforming stations connected to each other through a conforming cable plant.
|
Published |
2001-03 |
Edition : 1 |
Number of pages : 38 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-21:2000 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 21: Abstract test suite for FDDI physical layer protocol conformance testing (FDDI PHY ATS) |
This part of ISO/IEC 9314 defines a conformance test of the PHY functions in a path through an FDDI node. Figure 1 is a functional block diagram of an FDDI path. The path contains the necessary functions to repeat (that is decode and retransmit) frames through an FDDI node.
The PHY Repeat Filter is optional when there is a MAC in the repeat path. If there is no MAC in the repeat path, then the function is implemented in PHY. This test standard makes no assumption about the presence or absence of MAC on the path and is intended to operate with or without a MAC. It tests the repeat filter function wherever it is located. However, the results of some tests may be slightly different if a MAC is present.
|
Published |
2000-10 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9318-2:1990 |
Information technology — Intelligent Peripheral Interface — Part 2: Device specific command set for magnetic disk drives |
Describes the Logical Level 2 (device level) Interface for disk drives, the physical, electrical and configuration characteristics of which are in accordance with ISO/IEC 9318-1. Is to facilitate the development and utilization of a device level interface which permits the interconnection of disk slave peripherals to a controller. Complements other Intelligent Peripheral Interface standards.
|
Published |
1990-12 |
Edition : 1 |
Number of pages : 64 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801:2002/Amd 1:2008 |
Information technology — Generic cabling for customer premises — Amendment 1 |
|
Withdrawn |
2008-04 |
Edition : 3 |
Number of pages : 30 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-25:1998 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 25: Abstract test suite for FDDI — Station Management Conformance Testing (SMT-ATS) |
This part of ISO/IEC 9314 contains the Abstract Test Suites for the Fiber Distributed Data Interface
(FDDI) token ring Station Management (SMT) layer protocol. The SMT Protocol is extensive and very
complex. In the development process, the protocol was broken into six separate areas. Those areas
dealt with Physical Connection Management (PCM), Entity Coordination Management (ECM) Ring
Management (RMT), Configuration Management (CMT), Frame Based Management (FBM) and
Management Information Base (MIB).
This SMT ATS is divided along the same boundaries, with the exception that PCM and ECM are
combined. Those two concepts are tested together. The formal description language used for
Abstract Test Suite (ATS) development is Tree and Tabular Combined Notational (TTCN) and is
defined in ISO 9646Framework. TTCN is intended for higher layer protocol testing and requires the
use of discreet Protocol Data Units (PDUs). The TTCN notation is used in the test cases for RMT,
FBM and MIB. It cannot be used for PCM, ECM and CFM. These three protocols use line states as
the method of conveying information.
The TTCN (P) is similar in structure to TTCN but changes the paradigm from PDUs to line states. A
description of the concept of TTCN (P) can be found in the beginning of section 6, PCM.
|
Published |
1998-10 |
Edition : 1 |
Number of pages : 903 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9314-26:2001 |
Information technology — Fibre Distributed Data Interface (FDDI) — Part 26: Media Access Control Conformance Testing (MAC-ATS) |
This part of ISO/IEC 9314 contains the abstract test suite for the Fibre Distributed Data Interface
(FDDI) token ring Media Access Control (MAC) layer protocol. This test suite was developed
based on the principles defined in OSI Conformance Testing Methodology and Framework
(ISO/IEC 9646) and written in Tree and Tabular Combined Notation (TTCN), and intended for
testing conformance to the MAC standard (ISO/IEC 9314-2:1989) of any FDDI stations.
The test methodology is the "remote single layer test" as described in ISO/IEC 9646. The
abstract test scripts specify the MAC layer Protocol Data Units (PDU) to be exchanged
between the two MAC entities, the MAC on the tester and the MAC on the Implementation
Under Test (IUT). The tester is called the Lower Tester (LT).
The test suite does not require use of any higher layer protocols, nor does it assume
existence of Logical Link Control (LLC) layer implementation on the IUT. It expects, however,
that the Station Management (SMT) function is available on the IUT. Since MAC itself does
not originate any data frames, the tester uses SMT to test the processing capability of MAC
by sending frames to SMT and observing the SMT originated response frames.
The testing is expected to be conducted in a controlled environment with a minimum
configuration (figure 1): a token ring with two stations, one being the LT and the other the IUT.
|
Published |
2001-04 |
Edition : 1 |
Number of pages : 70 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO 9315:1989 |
Information processing systems — Interface between flexible disk cartridge drives and their host controllers |
La présente norme internationale spécifie une unité périphérique à cartouches de disques souples et définit les besoins fonctionnels et électriques (y compris les signaux logiques), ainsi que les exigences mécaniques de l'interface pour la connexion d'unités de disques souples conformes au système hôte. Cela inclut les périphériques utilisant des supports spécifiques dans de nombreuses normes, mais n'exclut pas des périphériques utilisant d'autres types de supports. La présente norme internationale diffère d'une spécification en ce qu'elle délimite un jeu minimum d'exigences cohérent avec la compatibilité et l'interchangeabilité au niveau de l'interface. La présente norme a pour objet de faciliter l'interconnexion d'unités de disques flexibles à un système hôte par un utilisateur ayant les capacités techniques de mener des tests vérifiant le niveau fonctionnel. L'utilisateur devrait aussi voir la capacité de spécifier le système global, matériel et logiciel, qui sera unique pour cet appareil particulier, et devrait aussi pouvoir spécifier la combinaison du contrôleur pour l'application envisagée et l'utilisation finale. La présente norme internationale s'applique à la fois aux unités à disques simple et double face utilisant des enveloppes de disques de 200 mm (8 in) ou 130 mm (5,25 in). Elle ne prescrit pas de méthode d'encodage/décodage magnétique, de technique d'enregistrement ou de format servant à lire ou à éc 648rire des données. Elle ne s'applique pas aux sous-systèmes hôtes/périphériques où il n'y a pas de séparation fonctionnelle nette entre l'hôte et ses ou son périphérique. La présente norme, telle que développée à l'origine, a été spécifiquement écrite pour des unités de disques souples de 200 mm et 130 mm. La norme peut cependant s'appliquer à d'autres tailles de disques. En particulier, pour des applications à des unités de disques plus petits envisageant cette norme, il est recommandé que les unités de disques plus petits et leurs contrôleurs
|
Published |
1989-07 |
Edition : 1 |
Number of pages : 17 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9316-2:2000 |
Information technology — Small computer system interface-2 (SCSI-2) — Part 2: Common Access Method (CAM) Transport and SCSI interface module |
This International Standard defines the Common Access Method (CAM) for the Small Computer Systems Interface (SCSI). The purpose of this International Standard is to define a method whereby multiple environments may adopt a common procedure for the support of SCSI devices. The CAM provides a structured method for supporting peripherals with the software (e.g. device driver) and hardware (e.g., host bus adapter) associated with any computer.
|
Published |
2000-06 |
Edition : 1 |
Number of pages : 109 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO 9316:1989 |
Information processing systems — Small Computer System Interface (SCSI) |
|
Withdrawn |
1989-07 |
Edition : 1 |
Number of pages : 170 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9316:1995 |
Information technology — Small Computer System Interface-2 |
La présente norme internationale définit un bus d'entrées/sorties pour interconnecter des ordinateurs et des appareils périphériques. Elle définit les extensions apportées à l'ISO 9316:1989 -- Interface système pour petits ordinateurs que l'on réfère ici par SCSI-1. Elle fournit aussi une normalisation plus complète du jeu de commandes défini auparavant. Elle inclut les spécifications nécessaires des caractéristiques mécaniques, électriques et fonctionnelles de l'interface afin de permettre l'interopérabilité des appareils conformes. La présente norme internationale est référencée ici comme SCSI-2. Le terme SCSI est utilisé partout où il n'est pas nécessaire de faire une distinction entre les deux versions.
|
Published |
1995-11 |
Edition : 2 |
Number of pages : 439 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9318-3:1990 |
Information technology — Intelligent Peripheral Interface — Part 3: Device generic command set for magnetic and optical disk drives |
La présente partie de l'ISO/CEI 9318 décrit l'interface de niveau logique 3 (niveau générique) pour les unités de disques magnétiques et optiques. Voir l'article 6 de l'ISO/CEI 9318-1 pour une explication des niveaux. Les caractéristiques physiques, électriques et celles de la configuration ainsi que les protocoles de transmission de cette interface sont conformes à l'ISO/CEI 9318-1. L'interface est capable de gérer les vitesses de transfert de données de 0 à 10 Moctets/s, en fonction de la classe du contrôleur et du récepteur. L'objet de la présente partie de l'ISO/CEI 9318 est de faciliter le développement et l'utilisation d'une interface intelligente qui permet la connexion à un contrôleur de périphériques de plusieurs types tels que disques, bandes, communications. La présente partie de l'ISO/CEI 9318 ne remplace pas des normes existantes mais apporte un complément aux autres normes d'interface pour périphériques intelligents (IPI) (voir article 2). La présente partie de l'ISO/CEI 9318 fournit une définition d'une partie générique appareil, d'une famille de normes appelées «interface pour périphériques intelligents (IPI)», interface parallèle tous usages, à hautes performances. L'intention de IPI est d'isoler l'hôte (CPR), autant du point de vue matériel que logiciel, des changements dans les périphériques, en fournissant un jeu de commandes 1607 de «fonctions génériques» permettant la connexion de multiples types de périphériques (disques, bandes, imprimantes, communications). Pour assouplir la transition entre la méthode actuelle et l'approche générique, IPI supporte des jeux de commandes spécifiques à un appareil, comme celui-ci, pour aider à établir une passerelle entre les deux approches. Pour réaliser cet ensemble d'objectifs, la définition de IPI inclut des jeux de commandes spécifiques appareil et génériques appareil, utilisant tous les deux le même «bus» commun. Le jeu de commandes spécifiques appareil fournit : des
|
Published |
1990-12 |
Edition : 1 |
Number of pages : 250 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9318-4:1990 |
Information technology — Intelligent Peripheral Interface — Part 4: Device generic command set for magnetic tape drives |
La présente partie de l'ISO/CEI 9318 décrit l'interface de niveau logique 3 (niveau générique) pour les unités de bandes magnétiques. Voir l'article 6 de l'ISO/CEI 9318-1 pour une explication des niveaux. Les caractéristiques physiques, électriques et celles de la configuration ainsi que les protocoles de transmission de cette interface sont conformes à l'ISO/CEI 9318-1. L'interface est capable de gérer les vitesses de transfert de données de 0 à 10 Moctets/s, en fonction de la classe du contrôleur et du récepteur. L'objet de la présente partie de l'ISO/CEI 9318 est de faciliter le développement et l'utilisation d'une interface intelligente qui permet la connexion à un contrôleur de périphériques de plusieurs types tels que disques, imprimantes, bandes, communications. La présente partie de l'ISO/CEI 9318 ne remplace pas des normes existantes mais apporte un complément aux autres normes d'interface pour périphériques intelligents (IPI) (voir article 2). La présente partie de l'ISO/CEI 9318 fournit une définition d'une partie générique appareil, d'une famille de normes appelées «interface pour périphériques intelligents (IPI)», interface parallèle tous usages, à hautes performances. L'intention de IPI est d'isoler l'hôte (CPR), autant du point de vue matériel que logiciel, des changements dans les périphériques, en fournissant un jeu de commandes de «fonctions géné 1585riques» permettant le connexion de multiples types de périphériques (disques, imprimantes, bandes, communications). Pour assouplir la transition entre la méthode actuelle et l'approche générique, IPI supporte des jeux de commandes spécifiques à un appareil, comme celui-ci, pour aider à établir une passerelle entre les deux approches. Pour réaliser cet ensemble d'objectifs, la définition de IPI inclut des jeux de commandes spécifiques appareil et génériques appareil, utilisant tous les deux le même bus commun. Le jeu de commandes spécifiques appareil fournit : des co
|
Withdrawn |
1990-12 |
Edition : 1 |
Number of pages : 74 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 9318-4:2002 |
Information technology — Intelligent Peripheral Interface — Part 4: Device generic command set for magnetic tape drives (IPI-3 tape) |
This part of ISO/IEC 9318 describes the logical level (generic level) interface for tape drives and it provides a definition of the device-generic portion of a family of standards called the Intelligent Peripheral Interface (IPI).
The purpose of this standard is to facilitate the development and utilization of an intelligent interface which permits the interconnection of multiple peripheral types such as disk, tape and communications to a controller.
The intent of the IPI is to isolate the host (CPU), both hardware and software, from changes in peripherals by providing a "function-generic" command set to allow the connection of multiple types of peripherals (disks, printers, tapes, communications). To smooth the transition from the current methods to the generic approach, the IPI supports device-specific command sets to aid in bridging the gap between the two approaches.
To accomplish this set of goals, the design of the IPI includes device-specific and devicegeneric command sets. The device-specific command set provides:
device-oriented control;
physical data addressing;
timing critical operations;
lower device cost.
The device-generic command set provides a higher level of functionality and portability. It includes:
host/device independence;
logical data addressing;
timing independence;
command queuing capability.
A system is not restricted to the use of one level of command set or the other. It is possible that both levels of command sets will be utilized with a given system's architecture to balance such parameters as system performance, cost and peripheral availability. It is also possible for the host to provide for the migration from device-specific to device-generic levels while still retaining the same physical interface.
The IPI standards family includes the definition of a high performance, general-purpose parallel peripheral interface. However, the device-generic command set may also be transported over other non-IPI physical interfaces. ANSI X3.291:1997 contains "mappings" to the High-Performance Parallel Interface (HIPPI) and Fibre Channel (FC) as well as to the IPI Enhanced Physical Interface. The "mappings" are not contained in this document.
|
Published |
2002-12 |
Edition : 2 |
Number of pages : 61 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 10192-1:2002 |
Information technology — Home Electronic System (HES) interfaces — Part 1: Universal Interface (UI) Class 1 |
This part of ISO/IEC 10192 is one of a set of standards describing the characteristics of a
specific home control system called the Home Electronic System, HES.
This standard specifies the characteristics of the Universal Interface Class 1 that connects
devices to the home network in an HES for control applications.
This standard informs as to the usefulness of the principles of a UI and forms a basis for new
work in this field.
NOTE This standard draws upon text from IEC 60870-5-1:1990 and IEC 60870-5-2:1992.
1.2 Application
This standard specifies a generic interface for a device to connect to a home control network
via a Network Adaptor Unit. The home control network signals may be carried on the cabling
system being specified in ISO/IEC 150181.
|
Published |
2002-08 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
|
| ISO/IEC TR 10192-2:2000 |
Information technology — Home Electronic Systemes (HES) interfaces — Part 2: Simple Interfaces Type 1 |
|
Published |
2000-10 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
|
| ISO/IEC 11518-8:1999 |
Information technology — High-Performance Parallel Interface — Part 8: Mapping to asynchronous transfer mode (HIPPI-ATM) |
|
Withdrawn |
1999-02 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801:2002/Amd 1:2008/Cor 1:2008 |
Information technology — Generic cabling for customer premises — Amendment 1 — Technical Corrigendum 1 |
|
Withdrawn |
2008-09 |
Edition : 3 |
Number of pages : 4 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 10192-3:2017 |
Information technology — Home electronic system (HES) interfaces — Part 3: Modular communications interface for energy management |
ISO/IEC 10192-3:2017(E) this part of ISO/IEC 10192 specifies a Universal Communication Module (UCM) that transfers energy management data via a home network between an end device and an energy management agent (specified in ISO/IEC 15067-3) or an energy service provider. This document specifies the mechanical, electrical and logical characteristics of the interfaces of UCM to an end device and a choice of interfaces to a home communications network.
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 86 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
|
| ISO/IEC 10192-4-1:2022 |
Information technology — Home electronic system (HES) interfaces — Part 4-1: Common user interface and cluster-to-cluster interface to support interworking among home cluster systems — Architecture |
This document specifies an architecture for home cluster systems and for interworking among them. It specifies a cluster-to-cluster interface to enable interworking among home cluster systems and interoperability among the applications supported by these cluster systems as well as a common user interface to these cluster-system applications. This common user interface provides input and output methods for user information exchange to access, monitor and control applications running on home cluster systems.
|
Published |
2022-03 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11002:2008 |
Information technology — Multipath management API |
ISO/IEC 11002:2008(E) is an Application Programming Interface (API) which provides management interfaces as defined in ISO/IEC 14776-453 (Information technology - Small computer system interface (SCSI) - Part 453: Primary commands-3 (SPC-3)) and common vendor-specific extensions to the standard capabilities. ISO/IEC 11002 relates to SCSI multipathing features and excludes multipathing between interconnect devices (such as Fibre Channel switches) and transport specific multipathing (such as iSCSI multiple connections per session).
|
Published |
2008-07 |
Edition : 1 |
Number of pages : 78 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11518-1:1995 |
Information technology — High-Performance Parallel Interface — Part 1: Mechanical, electrical and signalling protocol specification (HIPPI-PH) |
Provides the mechanical, electrical and signalling protocol specifications for an efficient simplex high-performance point-to-point interface between pieces of data-processing equipment. Facilitates the development and use of computer systems by providing a common interface at the physical and data framing layers. Provides an efficient interconnection between computers, high-performance display systems, and high-performance, intelligent block-transfer peripherals.
|
Published |
1995-06 |
Edition : 1 |
Number of pages : 44 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11518-2:1996 |
Information technology — High-Performance Parallel Interface — Part 2: Framing Protocol (HIPPI-FP) |
|
Withdrawn |
1996-06 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11518-2:2000 |
Information technology — High-Performance Parallel Interface — Part 2: Framing Protocol (HIPPI-FP) |
This part of ISO/IEC 11518 provides data framing for a high-performance point-to-point interface between data-processing equipment. This part of ISO/IEC 11518 does not protect against certain errors that might be introduced by intermediate devices interconnecting multiple HIPPI-PHs. The purpose of this part of ISO/IEC 11518 is to facilitate the development and use of the HIPPI in computer systems by providing common data framing. It provides an efficient framing protocol for interconnections between computers, high-performance display systems, and high-performance, intelligent block-transfer peripherals.
|
Published |
2000-10 |
Edition : 2 |
Number of pages : 29 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11518-3:1996 |
Information technology — High-Performance Parallel Interface — Part 3: Encapsulation of ISO/IEC 8802-2 (IEEE Std 802.2) Logical Link Control Protocol Data Units (HIPPI-LE) |
Defines the HIPPI-LE Protocol Data Unit (PDU) format and interface for transporting ISO/IEC 8802-2 Logical Link Control PDUs over HIPPI.
|
Published |
1996-06 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11518-6:1996 |
Information technology — High-Performance Parallel Interface — Part 6: Physical Switch Control (HIPPI-SC) |
|
Withdrawn |
1996-06 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11518-6:2000 |
Information technology — High-Performance Parallel Interface — Part 6: Physical Switch Control (HIPPI-SC) |
This part of ISO/IEC 11518 specifies a control for physical layer switches using the HighPerformance Parallel Interface (HIPPI), a high-performance point-to-point interface between data-processing equipment. This part of ISO/IEC 11518 does not protect against errors introduced by intermediate devices interconnecting multiple HIPPI-PHs.
The purpose of this part of ISO/IEC 11518 is to facilitate the development and use of the HIPPI in computer systems by providing common physical switch control. It provides switch control structures for physical layer switches interconnecting computers, high-performance display systems, and high-performance, intelligent block-transfer peripherals. This part of ISO/IEC 11518 also applies to point-to-point HIPPI topologies.
|
Published |
2000-10 |
Edition : 2 |
Number of pages : 23 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11518-9:1999 |
Information technology — High-Performance Parallel Interface — Part 9: Serial specification (HIPPI-Serial) |
This part of ISO/IEC 11518 specifies a physical level interface for transmitting digital data at 800 Mbit/s or 1 600 Mbit/s serially over fibre-optic cables across distances of up to 10 km. The signalling sequences and protocol used are compatible with HIPPI-PH, ISO/IEC 11518-1, which is limited to 25 m distances. HIPPI-Serial may be integrated as a host's native interface, or used as an external extender for HIPPI-PH ports
Specifications are included for:
? the encoding and serialisation of the parallel data;
? the sequence of signals required for link reset;
? the timing and optical requirements of the serial signals;
? 32-bit (800 Mbit/s, 100 MByte/s) and 64-bit (1 600 Mbit/s, 200 MByte/s) operation;
? simplex and dual simplex operation.
|
Published |
1999-04 |
Edition : 1 |
Number of pages : 30 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11518-10:2001 |
Information technology — High-Performance Parallel Interface — Part 10: 6400 Mbit/s Physical Layer (HIPPI-6400-PH) |
This part of ISO/IEC 11518 specifies a physical-level, point-to-point, full-duplex, link interface for reliable, flow-controlled transmission of user data at 6 400 Mbit/s per direction, across distances of up to 1 km. A parallel copper cable interface for distances of up to 40 m is specified. Connections to a separate longer-distance optical interface are provided. Small fixed-size micropackets provide an efficient, low-latency structure for small transfers, and a component for large transfers.
Specifications are included for:
? automatic retransmission to correct flawed data;
? the format of a small data transfer unit called a micropacket;
? a message structure that includes routing information for network applications;
? end-to-end, as well as link-to-link, checksums;
? the timing requirements of the parallel signals;
? a parallel interface using copper coaxial cable;
? connections to a separate local optical interface;
? a link-level protocol tuned for a maximum distance of 1 km.
|
Published |
2001-03 |
Edition : 1 |
Number of pages : 68 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-1:2017 |
Information technology — Generic cabling for customer premises — Part 1: General requirements |
ISO/IEC 11801-1:2017(E) This document specifies a multi-vendor cabling system which may be implemented with material from single or multiple sources. This part of ISO/IEC 11801 defines requirements that are common to the other parts of the ISO/IEC 11801 series. Cabling specified by this document supports a wide range of services including voice, data, and video that may also incorporate the supply of power.
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 149 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-1:2017/Cor 1:2018 |
Information technology — Generic cabling for customer premises — Part 1: General requirements — Technical Corrigendum 1 |
|
Published |
2018-04 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-2:2017 |
Information technology — Generic cabling for customer premises — Part 2: Office premises |
ISO/IEC 11801-2:2017(E) This document specifies generic cabling within and between the buildings of office premises, or office spaces within other types of building. Additionally those premises can include industrial spaces (for which generic cabling is specified in ISO/IEC 11801-3) or data centre spaces (for which generic cabling is specified in ISO/IEC 11801-5).
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-2:2017/Cor 1:2018 |
Information technology — Generic cabling for customer premises — Part 2: Office premises — Technical Corrigendum 1 |
|
Withdrawn |
2018-04 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-3:2017 |
Information technology — Generic cabling for customer premises — Part 3: Industrial premises |
ISO/IEC 11801-3:2017(E) This document specifies generic cabling, which is critical for providing robust services to the automation islands in industrial premises, or industrial spaces within other types of building. Additionally those premises can include office spaces (for which generic cabling is specified in ISO/IEC 11801-2) or data centre spaces (for which generic cabling is specified in ISO/IEC 11801-5).
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 34 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-3:2017/Amd 1:2021 |
Information technology — Generic cabling for customer premises — Part 3: Industrial premises — Amendment 1 |
|
Published |
2021-04 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-3:2017/Cor 1:2018 |
Information technology — Generic cabling for customer premises — Part 3: Industrial premises — Technical Corrigendum 1 |
|
Published |
2018-04 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-4:2017 |
Information technology — Generic cabling for customer premises — Part 4: Single-tenant homes |
ISO/IEC 11801-4:2017(E) This document specifies generic cabling within a home and provides users with:
- an application independent system capable of supporting a wide range of applications in a range of installation and operating environments;
- a flexible scheme such that modifications are both easy and economical;
- a multi-vendor supply chain within an open market for cabling components.
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 27 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-5:2017 |
Information technology — Generic cabling for customer premises — Part 5: Data centres |
ISO/IEC 11801-5:2017(E) This document specifies generic cabling within and to the computer room spaces of data centre premises, or computer room spaces within other types of building. Additionally those premises can include office spaces (for which generic cabling is specified in ISO/IEC 11801-2) or industrial spaces (for which generic cabling is specified in ISO/IEC 11801-3).
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 52 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-5:2017/Cor 1:2018 |
Information technology — Generic cabling for customer premises — Part 5: Data centres — Technical Corrigendum 1 |
|
Published |
2018-04 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-6:2017 |
Information technology — Generic cabling for customer premises — Part 6: Distributed building services |
ISO/IEC 11801-6:2017(E) This part of ISO/IEC 11801 specifies generic cabling within premises that comprise single or multiple buildings on a campus. It covers balanced cabling and optical fibre cabling.
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 37 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-6:2017/Cor 1:2018 |
Information technology — Generic cabling for customer premises — Part 6: Distributed building services — Technical Corrigendum 1 |
|
Published |
2018-04 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 11801-9901:2014 |
Information technology — Generic cabling systems for customer premises — Part 9901: Guidance for balanced cabling in support of at least 40 Gbit/s data transmission |
ISO/IEC TR 11801:2014(E) covers the following channel descriptions constructed from components with a nominal impedance of 100:
- Class I: 30 m channel based on upcoming Category 8.1 components. This channel provides increased margin compared to ISO/IEC 11801, Class EA channels, and an upper frequency limit of 1 600 MHz (2 000 MHz (ffs);
- Class II: 30 m channel based on upcoming Category 8.2 components. This channel provides increased margin compared to ISO/IEC 11801, Class FA channels, and an upper frequency limit of 1 600 MHz (2 000 MHz ffs);
- Channels based on Category 6A components of ISO/IEC 11801, length corrected to 30 m;
- Channels based on Category 7A components of ISO/IEC 11801, length corrected to 30 m;
- Channels based on Category 6A components of ISO/IEC 11801, length corrected to 30 m, characterized beyond the current upper frequency;
- Channels based on Category 7A components of ISO/IEC 11801, length corrected to 30 m, characterized beyond the current upper frequency.
|
Published |
2014-10 |
Edition : 1 |
Number of pages : 46 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 11801-9902:2017 |
Information technology — Generic cabling for customer premises — Part 9902: Specifications for End-to-end link configurations |
ISO/IEC TR 11801-9902:2017(E) This Technical Report provides definitions for, and examples of, cabling implementations described as end-to-end (E2E) links. The document also provides performance specifications to support Class D and Class E balanced cabling channels of ISO/IEC 11801-1. These specifications amend those channel specifications of ISO/IEC 11801-1 by including the impact of the free connectors in accordance with the interfaces specified in ISO/IEC 11801-3 used to terminate the E2E link. Test methods are provided in ISO/IEC 14763-4.
|
Published |
2017-06 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TS 11801-9903:2021 |
Information technology — Generic cabling systems for customer premises — Part 9903: Matrix modelling of channels and links |
ISO/IEC 11801-9903:2021 (E) establishes a matrix-model for formulating limits for mixed mode parameters within and between two pairs of balanced cabling. This is for the purpose of supporting new, improved balanced cabling channel and link specifications.
|
Published |
2021-03 |
Edition : 1 |
Number of pages : 48 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 11801-9903:2015 |
Information technology — Generic cabling systems for customer premises — Part 9903: Matrix modelling of channels and links |
ISO/IEC TR 11801-9903:2015(E) establishes a matrix-model for formulating limits for differential mode parameters for return loss, insertion loss, and near and far end crosstalk, within and between
two pairs of balanced cabling. This is for the purpose of supporting new, improved balanced cabling channel and link specifications, which are expected to be included in the next edition of ISO/IEC
11801.
|
Withdrawn |
2015-10 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 11801-9904:2017 |
Information technology — Generic cabling systems for customer premises — Part 9904: Guidelines for the use of installed cabling to support 2,5GBASE -T and 5GBASE -T applications |
ISO/IEC TR 11801-9904:2017(E) This technical report provides guidance on whether installed Class D and Class E channels specified in ISO/IEC 11801:2002 will support 2,5GBASE-T and 5GBASE-T. It also provides mitigation procedures to improve the perfomance of Class D and Class E channels to the point where these applications are supported. Higher classes according to ISO/IEC 11801:2002 will support 2,5GBASE-T and 5GBASE-T without mitigation up to 100 m.
|
Published |
2017-05 |
Edition : 1 |
Number of pages : 23 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 11801-9905:2018 |
Information technology — Generic cabling systems for customer premises — Part 9905: Guidelines for the use of installed cabling to support 25GBASE-T application |
ISO/IEC TR 11801-9905:2018(E) This technical report provides guidance on whether installed Class D and Class E channels specified in ISO/IEC 11801:2002 will support 2,5GBASE-T and 5GBASE-T. It also provides mitigation procedures to improve the performance of Class D and Class E channels to the point where these applications are supported. Higher classes according to ISO/IEC 11801:2002 will support 2,5GBASE-T and 5GBASE-T without mitigation up to 100 m.
|
Published |
2018-02 |
Edition : 1 |
Number of pages : 32 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 11801-9906:2020 |
Information technology — Generic cabling for customer premises — Part 9906: Balanced 1-pair cabling channels up to 600 MHz for single pair Ethernet (SPE) |
ISO/IEC TR 11801-9906:2020(E) covers channel specifications, for channels constructed from balanced 1 pair cabling components, primarily intended for use in industrial automation and process control applications.
The channel specifications are consistent with corresponding IEEE 802.3 single-pair Ethernet (SPE) applications and are referenced from link segment specifications in the following IEEE SPE physical layer specifications:
• ISO/IEC/IEEE 8802-3:2017/AMD4, 1 000 Mb/s: 1000BASE T1 Type A, = 15 m, 1000BASE T1 Type B, = 40 m;
• ISO/IEC/IEEE 8802-3:2017/AMD1, 100 Mb/s: 100BASE T1, = 15 m;
• IEEE 802.3cg, 10 Mb/s: 10BASE T1S, = 15 m; 10BASE T1L, = 1 000 m.
The channel component specifications are referenced according to corresponding IEC balanced 1 pair cable and connector specifications.
Channel specifications include IL, RL, TCL, coupling attenuation, and alien crosstalk parameters specifications.
Channel EMC related specifications include electromagnetic isolation levels E1, E2 and E3, which are defined according to the MICE standard environmental characterization system specified in ISO/IEC 11801-1
|
Published |
2020-02 |
Edition : 1 |
Number of pages : 38 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 11801-9907:2019 |
Information technology — Generic cabling systems for customer premises — Part 9907: Specifications for direct attach cabling |
ISO/IEC TR 11801-9907:2019(E), which is a Technical Report, provides definitions for, and examples of, direct attach cabling configurations. This document provides performance specifications for Classes D, E, EA, F, FA, I and II direct attach cabling by reference to ISO/IEC 11801-1.
Informative limits for Class I direct attach cabling to support 5 m short reach mode application according to ISO/IEC/IEEE 8802 3:2017/AMD3, i.e. 25GBASE-T and 40GBASE-T, are provided in Annex A.
Test methods will be provided in the second edition of ISO/IEC 14763-4.
Direct attach cabling connects two pieces of equipment, it has connectors at each end, and no intermediate connecting hardware.
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Published |
2019-07 |
Edition : 1 |
Number of pages : 17 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-9908:2020 |
Information technology — Generic cabling systems for customer premises — Part 9908: Guidance for the support of higher speed applications over optical fibre channels |
ISO/IEC TR 11801-9908:2020 (E) which is a Technical Report, provides a listing of the data centre application options currently available or in process of standardization utilizing duplex and parallel optical fibre channels. It also identifies migration considerations when upgrading to higher speed applications.
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Published |
2020-05 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 11801-9909:2020 |
Information technology — Generic cabling systems for customer premises — Part 9909: Evaluation of balanced cabling in support of 25 Gbit/s for reach greater than 30 metres |
ISO/IEC TR 11801-9909:2020, which is a Technical Report, covers evaluation and recommendations for achieving extended reach, greater than 30 m, for 25 Gbit/s applications over balanced cabling channels.
This document covers channel reference implementations, based on Category 8.1 and Category 8.2, 2 000 MHz, components.
The channel and component category specifications covered in this document are not intended to be normative.
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Published |
2020-06 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801-9910:2020 |
Information technology – Generic cabling for customer premises — Part 9910: Specifications for modular plug terminated link cabling |
ISO/IEC TR 11801-9910:2020, which is a Technical Report, provides definitions for, and examples of, modular plug terminated link configurations.
This document provides performance specifications for Classes D, E, EA, F, FA, I and II modular plug terminated links.
Test methods are provided in Clause 8 and are specified in ISO/IEC 14763-4
|
Published |
2020-06 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801:1995 |
Information technology — Generic cabling for customer premises |
Specifies generic cabling for use within commercial premises, which may comprise single or multiple buildings on a campus. Specifies: the structure and miniumum configuration for generic cabling; implementation requirements; performance requirements for individual cabling links and conformance requirements and verification procedures.
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Withdrawn |
1995-06 |
Edition : 1 |
Number of pages : 126 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11801:1995/Amd 1:1999 |
Information technology — Generic cabling for customer premises — Amendment 1 |
|
Withdrawn |
1999-02 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 11989:2010 |
Information technology — iSCSI Management API |
ISO/IEC 11989:2010(E) specifies an Application Programming Interface (API) that provides interfaces to discover and manage iSCSI resources on a system. This International Standard is applicable to vendors who deliver drivers that provide iSCSI resources to a system.
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Published |
2010-03 |
Edition : 1 |
Number of pages : 187 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 12075:1994 |
Information technology — Customer premises cabling — Planning and installation guide to support ISO/IEC 8802-5 token ring stations |
The purpose is to supplement the token ring standard ISO/IEC 8802-5. Therefore, includes a description and recommended values of characteristics of the appropriate elements within a token ring network, the cabling system topology with recommended distances, transmission requirements of suitable medium for 4 and 16 Mbit/s token rings, guidelines for the design, planning and installation of cabling systems to support 4 and 16 Mbit/s token rings, guidance on documentation and labelling to support token rings. All cabling recommendations specifically refer to using 150 shielded twisted pair lobe cabling.
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Withdrawn |
1994-05 |
Edition : 1 |
Number of pages : 34 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 13187:2011 |
Information technology — Server management command line protocol (SM CLP) specification |
ISO/IEC 13187:2011(E) lays out the general framework for the
Server Management Command Line Protocol (SM CLP). This standard is intended to
guide developers of implementations of the SM CLP and may also be used as a
reference by system administrators and other users of SM CLP implementations.
It was prepared by SNIA (Storage Networking Industry Association), was adopted,
under the fast track procedure.
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Published |
2011-07 |
Edition : 1 |
Number of pages : 152 |
Technical Committee |
35.200
Interface and interconnection equipment
|