| Name |
Description |
Abstract |
Status |
Publication date |
Edition |
Number of pages |
Technical committee |
ICS |
| ISO/IEC 14165-114:2005 |
Information technology — Fibre Channel — Part 114: 100 MB/s Balanced copper physical interface (FC-100-DF-EL-S) |
Fibre Channel provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2, and others. This part of ISO/IEC 14165, FC-100-DF-EL-S, specifies a Media Dependent Interface for duplex Ethernet transmission of 100 MB/s--a physical layer interface for a signalling rate of 1 062,5 Mbit/s over two pairs--for operation over Class F balanced cabling channels, for up to 100 m of Category 7 balanced (twisted pair) cabling. It includes a functional description of an Ethernet physical layer for 100 MB/s transmission of low complexity that can easily be implemented by many vendors. Taking advantage of the improved transmission characteristics provided by balanced cabling channels Class F as specified in ISO/IEC 11801 (2002), it eliminates the need for implementation of the complex functions specified in ISO/IEC 8802-3 that cancel the effects of crosstalk and return loss. This provides a solution that can operate at a much lower power level, and that can be implemented at a lower cost than products that use Clause 40 of ISO/IEC 8802-3. Therefore it also has the potential for multiple ports per chip.
|
Published |
2005-04 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-115:2006 |
Information technology — Fibre Channel — Part 115: Physical Interfaces (FC-PI) |
Fibre Channel provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2 and others.
This International Standard describes the physical interface portions of a high performance serial link that supports the higher Upper Level Protocols (ULPs) associated with HIPPI, IPI, SCSI, IP and others.
|
Published |
2006-02 |
Edition : 1 |
Number of pages : 96 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-116:2005 |
Information technology — Fibre Channel — Part 116: 10 Gigabit (10GFC) |
Fibre Channel provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2, and others. This part of ISO/IEC 14165 describes signaling and physical requirements that may be utilized to transport data at a rate in excess of 10 Gbit/s.
|
Published |
2005-09 |
Edition : 1 |
Number of pages : 75 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-116:2005/Amd 1:2009 |
Information technology — Fibre Channel — Part 116: 10 Gigabit (10GFC) — Amendment 1 |
This amendment to ISO/IEC 14165-116:2005 (Fibre Channel - 10 Gigabit) corrects the definition of the clocksynchronization primitives (Clock Synchronization Word X, Clock Synchronization Word Y, and ClockSynchronization Word Z) to comply with ISO/IEC 14165-252 (Fibre Channel - Framing and Signaling-2).
|
Published |
2009-01 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-151:2017 |
Information technology — Fibre channel — Part 151: Fibre Channel BaseT (FC-BaseT) |
ISO/IEC 14165-151:2017(E) This part of ISO/IEC 14165 describes extensions to the Fibre Channel signaling and physical layer requirements defined in ISO/IEC 14165-142 to transport Fibre Channel over the commonly available 4-pair balanced copper cablings specified in ISO/IEC 11801:2002 and TIA/EIA-568-B.2-2001. This standard is one of the Fibre Channel family of standards.
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 97 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 14165-117:2007 |
Information technology — Fibre Channel — Part 117: Methodologies for jitter and signal quality (MJSQ) |
Fibre channel is a high speed serial interface using either optical or electrical connections and provides a general data transport vehicle for Upper Level Protocols (ULPs). This Technical Report provides measurement methods and specifications to be used as part of a total signal performance compliance requirement set where the phase content of the signal is involved. A more generalized concept for jitter compliance testing is developed where the phase properties of the signals at signal levels other than the nominal receiver switching point are considered as well as the phase properties at the nominal receiver detection threshold.
|
Published |
2007-09 |
Edition : 1 |
Number of pages : 233 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-122:2005 |
Information technology — Fibre Channel — Part 122: Arbitrated Loop-2 (FC-AL-2) |
Fibre Channel provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2, and others. This international standard, FC-AL-2, specifies an enhancement to the signaling protocol of the Fibre Channel Physical and Signalling Interface (FC-PH), ISO/IEC 14165-111, to support communication among two or more Ports without using the Fabric topology. It defines L_Ports that retain the functionality of Ports as specified in FC-PH. The Arbitrated Loop topology attaches multiple communicating points in a loop without requiring switches; it is a distributed topology where each L_Port includes the minimum necessary function to establish a Loop circuit. A single FL_Port connected to an Arbitrated Loop allows multiple NL_Ports to attach to a Fabric. Each L_Port may use a self-discovering procedure to find the correct operating mode without the need for external controls.
|
Published |
2005-06 |
Edition : 1 |
Number of pages : 144 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-122:2005/Amd 1:2008 |
Information technology — Fibre Channel — Part 122: Arbitrated Loop-2 (FC-AL-2) — Amendment 1 |
|
Published |
2008-08 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-131:2000 |
Information technology — Fibre Channel — Part 131: Switch Fabric Requirements (FC-SW) |
This ISO/IEC standard for FC-SW specifies tools and algorithms for interconnection and initialization of Fibre Channel switches to create a multi-switch Fibre Channel Fabric. This Standard defines an E_Port (ìExpansion Portî) that operates in a manner similar to an N_Port and F_Port, as defined in ISO/IEC 14165- 111, with additional functionality provided for interconnecting switches. This Standard also defines how ports that are capable of being an E_Port, F_Port, and/or FL_Port may discover and self-configure for their appropriate operating mode. Once a port establishes that it is connected to another switch and is operating as an E_Port, an address assignment algorithm is executed to allocate port addresses throughout the Fabric. This Standard does not define credit models and management between E_Ports for the various Classes of Service other than Class F. Broadcast and multicast services are not defined. E_Ports conforming to this Standard support Class F, and also Class 1, Class 2, and/or Class 3; support for other Classes of Service are not defined by this Standard. The method by which routing of frames is established and effected is not described.
|
Published |
2000-06 |
Edition : 1 |
Number of pages : 83 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-133:2010 |
Information technology — Fibre Channel — Part 133: Switch Fabric-3 (FC-SW-3) |
ISO/IEC 14165-133:2010(E) describes how switches communicate and interact with one another to form a Fabric of switches. It includes: a) E_Port Operation and Fabric Configuration;b) Path selection (FSPF and FSPF-Backbone);c) Bridge Port (B_Port) Operation; d) distributed server interaction and communication; e) exchange of information between Switches to support zoning; f) distribution of Event Notifications between Switches.
|
Published |
2010-02 |
Edition : 1 |
Number of pages : 222 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-141:2001 |
Information technology — Fibre Channel — Part 141: Fabric Generic Requirements (FC-FG) |
This part of ISO/IEC 14165 describes generic
requirements for a communications transport
medium called the Fabric, an entity that provides
switched interconnect between pairs of
user attachment points. Fabrics may be implemented
using one or more topologies and this
document describes requirements that are generic
across all topologies.
A companion document, ISO/IEC 14165-111,
Fibre Channel - Physical and Signaling Interface
(FC-PH), describes the physical interface,
transmission protocol, and signaling protocol of
high-performance serial links which attach user
nodes to the Fabric. The Fabric serves to extend
these serial links between pairs of attachment
points. ISO/IEC 14165-111, FC-PH also
describes features and behaviors of the Fabric
required by user nodes.
|
Published |
2001-06 |
Edition : 1 |
Number of pages : 24 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-147:2021 |
Information technology – Fibre channel — Part 147: Physical interfaces - 7 (FC-PI-7) |
This standard describes the physical interface portions of high performance optical link variants that support the higher level Fibre Channel protocols including FC-FS-4 (reference [1]) and FC-FS-5 (reference [2]).
FC-PI-7 specifies 64GFC. 32GFC and 128GFC are described in FC-PI-6 (reference [3]) and FC-PI- 6P (reference [4]), respectively.16GFC, 8GFC and 4GFC are described in FC-PI-5 (reference [5]).
|
Published |
2021-02 |
Edition : 1 |
Number of pages : 45 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-222:2005 |
Information technology — Fibre Channel — Part 222: Single-byte command code 2 mapping protocol (FC-SB-2) |
Fibre Channel provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2, and others. This part of ISO/IEC 14165 describes a communication interface between a channel and I/O control units that utilize the Single-Byte Command Code Sets (SBCCS) as implemented in a wide range of data processing systems. It employs information formats and signalling protocols that provide a uniform means for communicating with various types of I/O control units, facilitating a high bandwidth, high performance and long distance information exchange environment. The protocol, abbreviated FC-SB-2, is intended for use with ANSI X3.230, FC-PH and its subsequent enhancements which specify the Fibre Channel Physical and Signalling Interface. FC-SB-2 is one of a number of Fibre Channel protocol mappings, referred to as FC-4s. The reader should be familiar with FC-PH, Single-Byte Command Code Sets Connection (SBCON) Architecture (ANSI X3.296-1997).
|
Published |
2005-05 |
Edition : 1 |
Number of pages : 173 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-226:2020 |
Information technology — Fibre channel — Part 226: Single-byte command code sets mapping protocol - 6 (FC-SB-6) |
This standard describes a communication interface between a channel and I/O control units that utilize the Single-Byte Command Code Sets (SBCCS) as implemented in a wide range of data processing systems. It employs information formats and signaling protocols that provide a uniform means for communicating with various types of I/O control units, facilitating a high bandwidth, high performance, and long distance information exchange environment. The signaling protocols and information exchanges are defined at a layer (FC-4) to compatibly utilize the link services and other functions provided by the INCITS Fibre Channel Framing and Signaling (FC-FS-4) and the INCITS Fibre Channel Link Services (FC-LS-3) specifications. This FC-4 Upper Level Protocol is referred to as the Fibre Channel-Single-Byte-6 Command Code Sets Mapping Protocol (FC-SB-6).
This standard modifies the FC-SB-5 standard to specify enhancements and clarifications to the command-mode and transport-mode protocols to increase the efficiency and expand the capabilities of operations.
|
Published |
2020-01 |
Edition : 1 |
Number of pages : 269 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-241:2005 |
Information technology — Fibre Channel — Part 241: Backbone 2 (FC-BB-2) |
Fibre Channel provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2, and others. This part of ISO/IEC 14165 defines mappings for transporting Fibre Channel frames across the following types of backbone networks: ATM, SONET, and TCP/IP. The backbone mappings support the attachment of Fibre Channel switches using the facilities of the underlying backbone network. Details regarding the mappings of Fibre Channel to ATM and SONET are completely specified in this FC-BB-2 standard. With respect to TCP/IP, the FC-BB-2 and IETF Fibre Channel over TCP/IP specifications together describe how Fibre Channel frames are transported over a TCP/IP backbone.
|
Published |
2005-05 |
Edition : 1 |
Number of pages : 110 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-243:2012 |
Information technology — Fibre Channel — Part 243: Backbone 3 (FC-BB-3) |
ISO/IEC 14165-243:2012(E) consists of four distinct Fibre Channel
mappings resulting in the following four models:
- FC-BB-3_ATM (FC over ATM backbone network);
- FC-BB-3_SONET (FC over SONET backbone network);
- FC-BB-3_IP (FC over TCP/IP backbone network);
- FC-BB-3_GFPT (FC over SONET/SDH/OTN/PDH backbone network using
GFPT adaptation).
|
Published |
2012-12 |
Edition : 1 |
Number of pages : 139 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-246:2019 |
Information technology — Fibre channel — Part 246: Backbone — 6 (FC-BB-6) |
This standard consists of distinct Fibre Channel mappings resulting in the following models:
? FC-BB_IP (FC over TCP/IP backbone network)
? Transparent FC-BB consisting of:
? FC-BB_GFPT (FC over SONET/SDH/OTN/PDH backbone network using GFPT adaptation)
? FC-BB_PW (FC over MPLS network using PW adaptation)
? FC-BB_E (FC over Ethernet)
|
Published |
2019-12 |
Edition : 1 |
Number of pages : 211 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-251:2008 |
Information technology — Fibre Channel — Part 251: Framing and Signaling (FC-FS) |
Fibre Channel provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2, and others. This part of ISO/IEC 14165, FC-FS, describes the framing and signalling interface of a high-performance serial link for support of Fibre Channel 4s associated with upper level protocols (e.g., SCSI, IP, SBCCS, VI). It includes additional link services in support of new functions defined by the Fibre Channel family of documents and improvements and clarifications to the definitions of existing services as dictated by experience with existing implementations. This standard also defines and includes other capabilities designed to improve the performance of existing Fibre Channel products and fit those products for new applications.
|
Published |
2008-01 |
Edition : 1 |
Number of pages : 532 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-1:1999/Amd 1:2004 |
Information technology — Implementation and operation of customer premises cabling — Part 1: Administration — Amendment 1: Classes of administration |
|
Withdrawn |
2004-05 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 14165-312:2009 |
Information technology — Fibre Channel — Part 312: Avionics environment upper layer protocol MIL-STD-1553B Notice 2
(FC-AE-1553) |
ISO/IEC 14165-312:2009(E) is intended to serve as an implementation guide to maximize the likelihood of interoperability between conforming implementations. It requires features that are optional, and prohibits the use of some non-optional features in the referenced specifications. In addition it simplifies implementations and their associated documentation, testing, and support requirements.
|
Published |
2009-07 |
Edition : 1 |
Number of pages : 84 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 14165-313:2013 |
Information technology — Fibre Channel — Part 313: Avionics Environment — Anonymous Synchronous Messaging (FC-AE-ASM) |
ISO/IEC 14165-313:2013(E) defines a set of features necessary to implement a real-time fibre channel network (switched fabric or arbitrated loop) supporting the FC-AE-ASM Upper Level Protocol. Fibre Channel Avionics Environment is a group of protocols and profiles that specify Fibre Channel options for devices connected by fabric and/or loop topologies that are pertinent to their use in commercial and military aerospace industries. The primary areas of interest include avionic command, control, instrumentation, simulation, signal processing and sensor/video data distribution. These application areas are characterized by a variety of requirements, among them a need for high reliability, fault tolerance, and deterministic behavior to support real-time control/response.
|
Published |
2013-02 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 14165-314:2013 |
Information technology — Fibre Channel — Part 314: Avionics Environment — Remote Direct Memory Access (FC-AE-RDMA) |
ISO/IEC 14165-314:2013(E) defines the FC-AE-RDMA Upper Level Protocol. FC-AE-RDMA follows the SCSI-3 FCP standard in its definition of the services necessary to support low latency, low overhead communication between elements of a mission-critical avionics system. FC-AE-RDMA is intended to support bi-directional communication between two N_Ports in a constrained and carefully defined environment, typical of avionics applications. The intended
usage is avionic command, control, instrumentation, simulation, signal processing and sensor/video data distribution. These application areas are characterized by a variety of requirements, among them a need for high reliability, fault tolerance and deterministic behaviour to support real-time control/response.
|
Published |
2013-02 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-321:2009 |
Information technology — Fibre Channel — Part 321: Audio-Video (FC-AV) |
ISO/IEC 14165-321:2009(E) Fibre Channel is a high speed serial interface using either optical or electrical connections (i.e., the physical layer) at data rates currently up to 2 Gbits/s with a growth path to 10 Gbits/s, and provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2, and others. The topologies supported by Fibre Channel include point-to-point, switched fabric, and arbitrated loop. This part of ISO/IEC 14165 defines a protocol for transmitting audio-video (AV) streams using Fibre Channel Sequences and Exchanges. Fibre Channel connections used for transmitting AV streams utilize standard FC frame format and sequence/exchange hierarchy.
|
Published |
2009-11 |
Edition : 1 |
Number of pages : 99 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-331:2007 |
Information technology — Fibre Channel — Part 331: Virtual Interface (FC-VI) |
Fibre Channel is a high speed serial interface using either optical or electrical connections (i.e., the physical layer) at data rates currently up to 2 Gbits/s with a growth path to 10 Gbits/s, and provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol), ANSI/IEEE 802.2, and others. The topologies supported by Fibre Channel include point-to-point, switched fabric, and arbitrated loop. This part of ISO/IEC 14165 defines an upper-layer protocol within the domain of Fibre Channel, that is designed to permit efficient peer-to-peer or client-server messaging between nodes, and to comply with the Virtual Interface (VI) Architecture. Vendors that wish to implement devices that connect to FC-VI may follow the requirements of this and other normatively referenced standards to manufacture an FC-VI compliant device.
|
Published |
2007-07 |
Edition : 1 |
Number of pages : 288 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 14165-372:2011 |
Information technology — Fibre Channel — Part 372: Methodologies of interconnects-2 (FC-MI-2) |
ISO/IEC 14165-372:2011(E) is intended to document interoperability behaviour for Fabric elements (i.e., E_Port, F_Port, FL_Port). It includes a wide range of issues such as link initialization, error detection, error recovery, fabric operation, management capabilities, and zoning. It serves as an implementation guide, whose primary objective is to maximize the likelihood of interoperability between conforming implementations. It specifies common methodologies for both Arbitrated Loop and Switched environments. The goal of this technical report is to facilitate interoperability between devices whether they are connected in a loop or Fabric topology.
|
Published |
2011-02 |
Edition : 1 |
Number of pages : 63 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-3:2014/Cor 1:2015 |
Information technology — Implementation and operation of customer premises cabling — Part 3: Testing of optical fibre cabling — Technical Corrigendum 1 |
|
Published |
2015-03 |
Edition : 2 |
Number of pages : 1 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-414:2007 |
Information technology — Fibre Channel — Part 414: Generic Services — 4 (FC-GS-4) |
Fibre Channel provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol) and others.
This International Standard features the basic fibre channel services introduced into Framing and Signalling (FC-FS). In addition, it describes any ancillary functions and services required to support the Fibre Channel services, such as name, management, discovery, time and alias services.
|
Published |
2007-05 |
Edition : 1 |
Number of pages : 334 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-432:2022 |
Information technology — Fibre Channel — Part 432: Security Protocols – 2 (FC-SP-2) |
This document is one of the Fibre Channel family of standards. This standard describes the protocols used to implement security in a Fibre Channel fabric. This standard includes the definition of protocols to authenticate Fibre Channel entities, protocols to set up session keys, protocols to negotiate the parameters required to ensure frame-by-frame integrity and confidentiality, and protocols to establish and distribute policies across a Fibre Channel fabric.
|
Published |
2022-03 |
Edition : 1 |
Number of pages : 292 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14165-521:2009 |
Information technology — Fibre Channel — Part 521: Fabric application interface standard (FAIS) |
ISO/IEC 14165-521 defines an application programming interface (API) by which a storage application may perform the functions of one or more SCSI Targets or Initiators, and control high-performance command/data forwarding and manipulation facilities. It describes a set of functions and data structures in the C language abstracting the details of the platform from the implementation of a storage management application. The series of fibre channel publications provides a general data transport vehicle for Upper Level Protocols (ULPs) such as Intelligent Peripheral Interface (IPI) and Small Computer System Interface (SCSI) command sets, the High-Performance Parallel Interface (HIPPI) data framing, IP (Internet Protocol) and others.
|
Published |
2009-01 |
Edition : 1 |
Number of pages : 98 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14709-1:1997 |
Information technology — Configuration of Customer Premises Cabling (CPC) for applications — Part 1: Integrated Services Digital Network (ISDN) basic access |
|
Published |
1997-09 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14709-1:1997/Amd 1:2004 |
Information technology — Configuration of Customer Premises Cabling (CPC) for applications — Part 1: Integrated Services Digital Network (ISDN) basic access — Amendment 1 |
|
Published |
2004-08 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14709-2:1998 |
Information technology — Configuration of customer premises cabling (CPC) for applications — Part 2: Integrated Services Digital Network (ISDN) primary rate |
|
Published |
1998-05 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14709-2:1998/Amd 1:2005 |
Information technology — Configuration of customer premises cabling (CPC) for applications — Part 2: Integrated Services Digital Network (ISDN) primary rate — Amendment 1 |
Updates have been introduced to correspond to ISO/IEC 11801:2002 and other new editions of International Standards.
|
Published |
2005-07 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14762:2009 |
Information technology — Functional safety requirements for Home and Building Electronic Systems (HBES) |
ISO/IEC 14762:2009(E) specifies the general functional safety
requirements for HBES following the principles of the basic standard
for functional safety IEC 61508. This International Standard sets
the requirements for functional safety for Home and Building
Electronic Systems (HBES) products and systems, a multi-application
bus system where the functions are decentralised, distributed and
linked through a common communication process. The requirements may
also apply to the distributed functions of any equipment connected
in a home or building control system if no specific functional
safety standard exists for this equipment or system. This International Standard only addresses HBES products. HBES and HES products in this International Standard are for non-safety related applications.
|
Published |
2009-01 |
Edition : 1 |
Number of pages : 26 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
|
| ISO/IEC TR 14762:2001 |
Information technology — Home Control Systems — Guidelines for functional safety |
|
Withdrawn |
2001-01 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
|
| ISO/IEC 14763-1:1999 |
Information technology — Implementation and operation of customer premises cabling — Part 1: Administration |
|
Withdrawn |
1999-10 |
Edition : 1 |
Number of pages : 14 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-2:2012 |
Information technology — Implementation and operation of customer premises cabling — Part 2: Planning and installation |
ISO/IEC 14763-2:2012(E) specifies requirements for the planning, installation and operation of cabling and cabling infrastructures (including cabling, pathways, spaces, earthing and bonding) in support of generic cabling standards and associated documents. The following aspects are addressed: - specification of the installation,
- quality assurance,
- installation planning,
- installation practice,
- documentation,
- administration,
- testing,
- inspection,
- operation,
- maintenance and repair. The requirements of Clauses 5 to 14 of this standard are premises-independent and may be amended by the requirements of premises-specific Annexes. This first edition supersedes Clauses 11 and 12 of ISO/IEC 11801, published in 2002, replaces ISO/IEC 14763-1, published in 1999, its Amendment 1 (2004), ISO/IEC TR 14763-2, published in 2000, ISO/IEC 18010, published in 2002, and its Amendment 1 (2005) and constitutes a technical revision. It includes the following significant technical changes with respect to the previous edition: In addition to the supersession of parts of earlier standards and the incorporation of other standards, this standard provides much greater detail in all aspects of planning and installation with respect to ISO/IEC/TR 14763-2 and provides clearly differentiated and directed requirements and recommendations.
|
Withdrawn |
2012-02 |
Edition : 1 |
Number of pages : 128 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 14763-2:2000 |
Information technology — Implementation and operation of customer premises cabling — Part 2: Planning and installation of copper cabling |
|
Withdrawn |
2000-07 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-2:2012/Amd 1:2015 |
Information technology — Implementation and operation of customer premises cabling — Part 2: Planning and installation — Amendment 1 |
|
Withdrawn |
2015-09 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-2:2019 |
Information technology — Implementation and operation of customer premises cabling — Part 2: Planning and installation |
ISO/IEC 14763-2:2019 specifies requirements for the planning, installation and operation of telecommunications cabling and cabling infrastructures including cabling, pathways, spaces and telecommunications bonds (other than that specified in ISO/IEC 30129) in support of generic cabling standards and associated documents. The following aspects are addressed:
a) specification of the installation;
b) quality assurance;
c) installation planning;
d) installation practice;
e) documentation;
f) administration;
g) testing;
h) inspection;
i) operation;
j) maintenance;
k) repair.
The requirements and recommendations of Clauses 5 to 14 are premises-independent. Annexes C through G contain premises-specific amendments of and additions to these requirements and recommendations.
In addition, this document describes the methodology for the assessment of spaces, pathways, pathway systems and cabling (either installed or planned) in support of remote powering objectives.
This document excludes specific requirements applicable to other cabling systems (e.g. power supply cabling); however, it takes account of the effects other cabling systems may have on the installation of telecommunications cabling (and vice versa) and gives general advice.
This document excludes those aspects of installation associated with the transmission of signals in free space between transmitters, receivers or their associated antenna systems (e.g. wireless, radio, microwave or satellite).
This document is applicable to certain hazardous environments but does not exclude additional requirements which are applicable in particular circumstances (e.g. electricity supply and electrified railways).
Safety and electromagnetic compatibility (EMC) requirements are outside the scope of this document and are covered by other standards and regulations. However, information given in this document can be of assistance in meeting these standards and regulations.
This second edition includes the following significant technical changes with respect to the previous edition: the inclusion of planning and installation practices to support remote powering over the telecommunications cabling infrastructure and the inclusion of planning and installation practices outside buildings.
|
Published |
2019-12 |
Edition : 2 |
Number of pages : 175 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-3:2006 |
Information technology — Implementation and operation of customer premises cabling — Part 3: Testing of optical fibre cabling |
This International Standard details systems and methods to inspect and test optical fibre cabling designed in accordance with ISO/IEC 11801 or equivalent standards and installed according to recommendations of ISO/IEC 14763-2.
|
Withdrawn |
2006-06 |
Edition : 1 |
Number of pages : 52 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 14763-3:2000 |
Information technology — Implementation and operation of customer premises cabling — Part 3: Acceptance testing for optical cabling |
|
Withdrawn |
2000-07 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-3:2006/Amd 1:2009 |
Information technology — Implementation and operation of customer premises cabling — Part 3: Testing of optical fibre cabling — Amendment 1 |
|
Withdrawn |
2009-11 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-3:2014 |
Information technology — Implementation and operation of customer premises cabling — Part 3: Testing of optical fibre cabling |
ISO/IEC 14763-3:2014(E) specifies systems and methods for the inspection and testing of installed optical fibre cabling designed in accordance with premises cabling standards including ISO/IEC 11801, ISO/IEC 24764, ISO/IEC 24702 and ISO/IEC 15018. The test methods refer to existing standards-based procedures where they exist. This second edition cancels and replaces the first edition published in 2006 and its Amendment 1:2009. It constitutes a technical revision. This edition includes the following changes:
- general requirements have been revised;
- OTDR characterization (6.2) and requirements for cabling interface adapters and test cords have been revised;
- enhanced three-test-cord reference method has been introduced; - information on optical time domain reflectometry (Annex C) has been revised; - examples of calculations of channel and permanent link limits (Annex G) have been revised and information regarding cleaning and inspection of fibre optic connections have been added (Annex H).
|
Published |
2014-06 |
Edition : 2 |
Number of pages : 51 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-3:2014/Amd 1:2018 |
Information technology — Implementation and operation of customer premises cabling — Part 3: Testing of optical fibre cabling — Amendment 1 |
|
Published |
2018-08 |
Edition : 2 |
Number of pages : 17 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-4:2018 |
Information technology — Implementation and operation of customer premises cabling — Part 4: Measurement of end-to-end (E2E)-Links |
ISO/IEC 14763-4:2018(E) specifies the measurement at frequencies of end-to-end links of two- and four-pair balanced cabling of 100 MHz of Class D and 250 MHz of Class E including free connectors which terminate two and four pairs in both field and laboratory conditions.
|
Withdrawn |
2018-02 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-4:2021 |
Information technology — Implementation and operation of customer premises cabling — Part 4: Measurement of end-to-end (E2E) links, modular plug terminated links (MPTLs) and direct attach cabling |
ISO/IEC 14763-4:2021(E) specifies the measurement of two- and four-pair balanced cabling of
a) end-to-end (E2E) link Class D, E and EA;
b) modular plug terminated links (MPTLs) of Class D, E, EA, F, FA and of Class I and II;
c) direct attach cabling of Class D, E, EA, F, FA and of Class I and II.
The free connectors which terminate two and four pairs in field and laboratory conditions are included.
This second edition cancels and replaces the first edition published in 2018. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
• measurement of the transmission performance of modular plug terminated link (MPTL) and direct attach cabling were added.
• Additional requirements of test head designs of E2E link were introduced.
|
Published |
2021-03 |
Edition : 2 |
Number of pages : 18 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14763-4:2021/Cor 1:2022 |
Information technology — Implementation and operation of customer premises cabling — Part 4: Measurement of end-to-end (E2E) links, modular plug terminated links (MPTLs) and direct attach cabling — Technical Corrigendum 1 |
|
Published |
2022-09 |
Edition : 2 |
Number of pages : 1 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC TR 14763-2-1:2011 |
Information technology — Implementation and operation of customer premises cabling — Part 2-1: Planning and installation - Identifiers within administration systems |
ISO/IEC 14763-2-1:2011(E) contains requirements and recommendations for identification of cabling infrastructure elements to support ISO/IEC 14763-2 and equivalent standards. The symbols and object codes specified in this Technical Report are primarily based on IEC 81346-1 and IEC 81346-2.
|
Published |
2011-10 |
Edition : 1 |
Number of pages : 25 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-112:2002 |
Information technology — Small Computer System Interface (SCSI) — Part 112: Parallel Interface-2 (SPI-2) |
This international standard defines the mechanical, electrical, timing, and protocol requirements of the
SCSI parallel interface to allow conforming devices to interoperate. The SCSI parallel interface is a local
I/O bus that may be operated over a wide range of transfer rates. The objectives of the SCSI parallel
interface are
a) To provide host computers with device independence within a class of devices. Thus, different disk
drives, tape drives, printers, optical media drives, and other devices may be added to the host
computers without requiring modifications to generic system hardware. Provision is made for the
addition of special features and functions through the use of vendor-specific options. Reserved areas
are provided for future standardization.
b) To provide compatibility such that properly conforming SCSI-2 devices may interoperate with
SCSI-3 devices given that the systems engineering is correctly done. Properly conforming SCSI-2
devices should respond in an acceptable manner to reject SCSI-3 protocol extensions. SCSI-3
protocol extensions are designed to be permissive of such rejections and thus allow the SCSI-2
devices to continue operation without requiring the use of the extension.
The interface protocol includes provision for the connection of multiple initiators (SCSI devices capable of
initiating an I/O process) and multiple targets (SCSI devices capable of responding to a request to perform
an I/O process). Distributed arbitration (i.e., bus-contention logic) is built into the architecture of SCSI. A
default priority system awards interface control to the highest priority SCSI device that is contending for
use of the bus and an optional fairness algorithm is defined.
This standard defines the physical attributes of an input/output bus for interconnecting computers and
peripheral devices.
Figure 1 is intended to show the general structure of SCSI standards. The figure is not intended to imply a
relationship such as a hierarchy, protocol stack, or system architecture.
Common Access Method
Figure 1 - General Structure of SCSI
This international standard is intended as an alternate to the SCSI-3 Parallel Interface Standard. This
international standard, in addition to containing all the information in the SCSI-3 Parallel Interface Standard
contains information and specifications for LVD and fast-40 along with many other improvements.
|
Published |
2002-05 |
Edition : 1 |
Number of pages : 203 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-113:2002 |
Information technology — Small Computer System Interface (SCSI) — Part 113: Parallel Interface-3 (SPI-3) |
This standard defines the mechanical, electrical, timing, and protocol requirements of the SCSI parallel interface to allow conforming SCSI devices to inter-operate. The SCSI parallel interface is a local I/O bus that may be operated over a wide range of transfer rates. The objectives of the SCSI parallel interface are:a) To provide host computers with device independence within a class of devices. Thus, different disk drives, tape drives, printers, optical media drives and other SCSI devices may be added to the host computers without requiring modifications to generic system hardware. Provision is made for theaddition of special features and functions through the use of vendor-specific options. Reserved areas are provided for future standardization.b) To provide compatibility such that conforming SCSI-2 and SPI-2 devices may interoperate with SPI-3 devices given that the systems engineering is correctly done. Conforming SCSI-2 and SPI-2 devices should respond in an acceptable manner to reject SPI-3 protocol extensions. SPI-3 protocolextensions are designed to be permissive of such rejections and thus allow SCSI-2 and SPI-2 devices to continue operation without requiring the use of the extensions.The interface protocol includes provision for the connection of multiple initiators (SCSI devices capable of initiating an I/O process) and multiple targets (SCSI devices capable of responding to a request to perform an I/O process). Distributed arbitration (i.e., bus-contention logic) is built into the architecture of this standard. A default priority system awards interface control to the highest priority SCSI device that is contending for use of the bus and an optional fairness algorithm is defined.This standard defines the physical attributes of an input/output bus for interconnecting computers and peripheral devices.This standard has made obsolete the following:a) The high voltage differential (HVD) option of differential driver/receivers. Implementations that useHVD should reference the SCSI Parallel Interface-2 standard (ISO/IEC 14776-112).b) The 32-bit SCSI bus width option. Implementations that use 32-bit wide buses should referencethe SCSI Parallel Interface-2 standard (ISO/IEC 14776-112).c) The SCSI configured automatically (SCAM) option. Implementations that use SCAM shouldreference the SCSI Parallel Interface-2 standard (ISO/IEC 14776-112).d) The CONTINUE TASK message and the TARGET TRANSFER DISABLE message. Implementationsthat use the CONTINUE TASK message or TARGET TRANSFER DISABLE message shouldreference the SCSI Parallel Interface-2 standard (ISO/IEC 14776-112).
|
Published |
2002-08 |
Edition : 1 |
Number of pages : 271 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 18010:2002/Amd 1:2005 |
Information technology — Pathways and spaces for customer premises cabling — Amendment 1: Multi-tenant Pathways and Spaces |
|
Withdrawn |
2005-12 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-115:2004 |
Information technology — Small Computer System Interface (SCSI) — Part 115: Parallel Interface-5 (SPI-5) |
The SCSI parallel interface (SPI) is designed to provide an efficient peer-to-peer I/O bus with the maximum number of hosts and peripherals determined by the bus width (i.e., 8 or 16). Data may be transferred asynchronously or synchronously at rates that depend on implementation. The objectives of the SCSI parallel interface are:
a) To provide host computers with device independence within a class of devices. Thus, different disk drives, tape drives, printers, optical media drives, and other SCSI devices may be added to the host computers without requiring modifications to generic system hardware.
b) To provide compatibility such that conforming SPI-2, SPI-3 devices may interoperate with SPI-5 devices given that the systems engineering is correctly done.
The interface protocol includes provision for the connection of multiple SCSI initiator ports (i.e., SCSI devices capable of initiating an I/O process) and multiple SCSI target ports (i.e., SCSI devices capable of responding to a request to perform an I/O process).
This international standard defines mechanical, electrical, timing requirements, command, and the task management delivery protocol requirements to transfer commands and data between SCSI devices attached to an SCSI parallel interface, i.e. to allow conforming SCSI devices to interoperate. It is intended to be used in conjunction with the SCSI command sets. The resulting interface facilitates the interconnection of computers and intelligent
peripherals and thus provides a common interface standard for both system integrators and suppliers of intelligent peripherals.
This standard is a functional description. Conforming implementations may employ any design technique that does not violate interoperability. This standard has made obsolete single-ended and multimode signalling alternatives. Implementations that use single-ended or multimode signalling alternatives should reference the SCSI Parallel Interface-2 standard (ISO/IEC 14776-112).
|
Published |
2004-11 |
Edition : 1 |
Number of pages : 321 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-121:2010 |
Information technology — Small Computer System Interface (SCSI) — Part 121: Passive Interconnect Performance (PIP) |
ISO/EC 14776-121:2010(E) specifies the performance requirements of the interconnect and expands the coverage to the complete assembled interconnect including connectors, uniform bulk cable, and non-uniform bulk cable. A syntax and framework is described for all types of passive interconnect. The methodology for performing the electrical measurements required to determine compliance with the performance requirements for bulk cable of several types, various assembled interconnects and printed circuit board designs is included. Details of the measurement methodology are specified to minimize the difference in measured results from different electrical testing laboratories. Details include calibration, fixturing and sample preparation, equipment, measurement procedure and data output format.
|
Published |
2010-10 |
Edition : 1 |
Number of pages : 85 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-150:2004 |
Information technology — Small Computer System Interface (SCSI) — Part 150: Serial Attached SCSI (SAS) |
The SCSI protocol is designed to provide an efficient peer-to-peer I/O bus with the maximum number of hosts and peripherals determined by the bus width (8 or 16). Data may be transferred asynchronously or synchronously at rates that depend primarily on device implementation and cable length. SCSI is an I/O interface that may be operated over a wide range of media and transfer rates.
This international standard specifies the functional requirements for the Serial Attached SCSI (SAS) physical interconnect, which is compatible with the Serial ATA physical interconnect. It also specifies three transport protocols, one to transport SCSI commands, another to transport Serial ATA commands to multiple SATA devices, and a third to support interface management. This standard is intended to be used in conjunctionwith SCSI and ATA command set standards.
|
Published |
2004-11 |
Edition : 1 |
Number of pages : 422 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-151:2010 |
Information technology — Small Computer System Interface (SCSI) — Part 151: Serial Attached SCSI - 1.1 (SAS-1.1) |
ISO/IEC 14776-151:2010(E) defines the rules for exchanging information
between SCSI devices using a serial interconnect. It defines the rules for
exchanging information between ATA hosts and ATA devices using the same serial
interconnect. It is a functional description. Conforming implementations may
employ any design technique that does not violate interoperability.
|
Published |
2010-07 |
Edition : 1 |
Number of pages : 559 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-153:2015 |
Information technology — Small Computer System Interface (SCSI) — Part 153: Serial Attached SCSI - 2.1 (SAS-2.1) |
ISO/IEC 14776-153:2015(E) defines the physical layer of the Serial Attached SCSI (SAS) interconnect.
|
Published |
2015-06 |
Edition : 1 |
Number of pages : 251 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-154:2017 |
Information technology — Small Computer System Interface (SCSI) — Part 154: Serial Attached SCSI — 3 (SAS-3) |
ISO/IEC 14776-154:2017(E) This document specifies the functional requirements for the Serial Attached SCSI (SAS) physical interconnect, which is compatible with the Serial ATA physical interconnect. The SAS Protocol Layer - 3 (SPL-3) standard documents the SAS protocol layer corresponding to the Serial Attached SCSI - 3 (SAS-3), defining the rules for exchanging information between SCSI devices using a serial interconnect.
|
Published |
2017-12 |
Edition : 1 |
Number of pages : 326 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-263:2018 |
Information technology — Small computer system interface (SCSI) — Part 263: SAS protocol layer - 3 (SPL-3) |
ISO/IEC 14776-263:2018 The SCSI family of standards provides for many different transport protocols that define the rules for exchanging information between different SCSI devices. This document defines the rules for exchanging information between SCSI devices using a serial interconnect. Other SCSI transport protocol standards define the rules for exchanging information between SCSI devices using other interconnects.
|
Published |
2018-10 |
Edition : 1 |
Number of pages : 860 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO 2160:1985 |
Petroleum products — Corrosiveness to copper — Copper strip test |
|
Withdrawn |
1985-02 |
Edition : 2 |
Number of pages : 7 |
Technical Committee |
75.080
Petroleum products in general
|
| ISO/IEC 14776-222:2005 |
Information technology — Small Computer System Interface (SCSI) — Part 222: Fibre Channel Protocol for SCSI, Second Version (FCP-2) |
The SCSI protocol is designed to provide an efficient peer-to-peer I/O bus with the maximum number of hosts and peripherals determined by the bus width (8 or 16). Data may be transferred asynchronously or synchronously at rates that depend primarily on device implementation and cable length. SCSI is an I/O interface that may be operated over a wide range of media and transfer rates. This international standard defines a Fibre Channel mapping layer (FC-4) that uses the services defined by NCITS Project 1311D, Fibre Channel Framing and Signaling Interface (FC-FS) to transmit SCSI command, data, and status information between a SCSI initiator and a SCSI target. The use of this standard enables the transmission of standard SCSI command formats, the transmission of standard SCSI data and parameter strings, and the receipt of SCSI status and sense information across the Fibre Channel using only the standard Fibre Channel frame and sequence formats. The Fibre Channel protocol operates with Fibre Channel Classes of Service 1, 2, and 3 and operates across Fibre Channel fabrics and arbitrated loops.
|
Published |
2005-02 |
Edition : 1 |
Number of pages : 146 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-223:2008 |
Information technology — Small Computer System Interface (SCSI) — Part 223: Fibre Channel Protocol for SCSI, Third Version (FCP-3) |
ISO/IEC 14776-223:2008(E) describes the protocol for transmitting SCSI commands, data and status using Fibre Channel FC-FS-2 Exchanges and Information Units. It defines how the Fibre Channel services and the defined information units are used to perform the services defined by the SCSI Architecture Model-3 (SAM-3).
|
Published |
2008-05 |
Edition : 1 |
Number of pages : 121 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-224:2019 |
Information technology - Small computer system interface (SCSI) — Part 224: Fibre Channel Protocol for SCSI, fourth version (FCP-4) |
ISO/IEC 14776-224:2019(E) defines the Small computer system interface (SCSI) Fibre Channel Protocol (FCP). This standard defines how the Fibre Channel services and the defined Information Units (IUs) are used to perform the services defined by the SCSI Architecture Model - 5 (SAM-5). This fourth version includes additions and clarifications to the third version (ISO/IEC 14776-223:2008), removes information that is now contained in other standards, and describes additional error recovery capabilities for the Fibre Channel Protocol.
|
Published |
2019-10 |
Edition : 1 |
Number of pages : 133 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-232:2001 |
Information technology — Small computer system interface (SCSI) — Part 232: Serial Bus Protocol 2 (SBP-2) |
This part of ISO/IEC 14776 defines a protocol for the transport of commands and data over
High Performance Serial Bus. The transport protocol, Serial Bus Protocol 2 or SBP-2, requires
implementations to conform to the requirements of this standard as well as to
ISO/IEC 13213:1994 and permits the exchange of commands, data and status between
initiators and targets connected to Serial Bus.
|
Published |
2001-11 |
Edition : 1 |
Number of pages : 93 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-251:2014 |
Information technology — Small computer system interface (SCSI) — Part 251: USB attached SCSI (UAS) |
ISO/IEC 14776-251:2014(E) describes a SCSI transport protocol for USB-2 and USB-3 with the following properties:
a) mechanism to send commands associated with any SCSI standard to a USB device;
b) complies with SCSI Architecture Model - 4 (e.g., autosense and command queuing) and
c) other capabilities.
|
Published |
2014-04 |
Edition : 1 |
Number of pages : 46 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-253 |
Information technology — Small Computer System Interface (SCSI) — Part 253: USB attached SCSI - 3 (UAS-3) |
|
Under development |
2023-04 |
Edition : 1 |
|
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-261:2012 |
Information technology — Small Computer System Interface (SCSI) — Part 261: SAS Protocol Layer (SPL) |
ISO/IEC 14776-261:2012(E) defines the protocol layer of the Serial Attached SCSI (SAS) interconnect and three transport protocols that use the SAS interconnect:
- Serial SCSI Protocol (SSP): a mapping of SCSI supporting multiple initiators and targets;
- Serial ATA Tunneled Protocol (STP): a mapping of Serial ATA expanded to support multiple initiators and targets; and
- Serial Management Protocol (SMP): a management protocol.
|
Published |
2012-11 |
Edition : 1 |
Number of pages : 677 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-262:2017 |
Information technology — Small computer system interface (SCSI) — Part 262: SAS protocol layer - 2 (SPL-2) |
ISO/IEC 14776-262:2017(E) This standards defines the model and command set extensions to be used in conjunction with the SCSI Primary Command Set Standard - 4 (SPC-4) to facilitate operation of SCSI direct-access block devices (e.g. hard disk drives).
|
Published |
2017-02 |
Edition : 1 |
Number of pages : 785 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-412:2006 |
Information technology — Small Computer System Interface (SCSI) — Part 412: Architecture Model -2 (SAM-2) |
The Small Computer System Interface (SCSI) protocol provides an efficient peer-to-peer I/O bus with the maximuim number of hosts and peripherals determined by the bus width (8 or 16). This International Standard specifies common behaviours for SCSI devices.
|
Published |
2006-10 |
Edition : 1 |
Number of pages : 98 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-321:2002 |
Information technology — Small Computer System Interface-3 (SCSI-3) — Part 321: SCSI-3 Block Commands (SBC) |
This part of ISO/IEC 14776 defines the command set extensions to facilitate operation of SCSI
block devices.
It specifies the functional requirements for the SCSI-Block Command set (SBC). SBC permits
that SCSI block logical units, such as flexible disks, rigid disks, optical disks, etc. be attached
to computers, and it provides the definition for their use.
This standard defines a logical unit model for SCSI block logical units. Also defined are SCSI
commands that apply to SCSI block logical units.
The clause(s) of this standard pertaining to the SCSI block device class, implemented in
conjunction with the applicable clauses of ISO/IEC 14776-311, fully specify the standard
command set for SCSI block devices.
The objectives of this standard are the following:
a) permit an application client to communicate with a logical unit that declares itself to be a
direct-access device, write-once device and optical memory device in the device type field
of the INQUIRY command response data over an SCSI service delivery subsystem;
b) define commands unique to the type of SCSI block devices;
c) define commands to manage the operation of SCSI block devices;
d) define the differences between types of SCSI block devices.
Figure 1 ? SCSI standards ? General structure
Figure 1 shows the general structure of SCSI standards. The figure does not imply a
relationship such as a hierarchy, protocol stack, or system architecture. It indicates the
applicability of a standard to the implementation of a given transport.
|
Published |
2002-08 |
Edition : 1 |
Number of pages : 132 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-322:2007 |
Information technology — Small Computer System Interface (SCSI) — Part 322: SCSI Block Commands - 2 (SBC-2) |
The SCSI command set provides efficient peer-to-peer operation of input/output devices (disks, tapes, printers, etc.) by an operating system. This International Standard defines the command set extensions to facilitate operation of SCSI direct-access block devices.
|
Published |
2007-02 |
Edition : 1 |
Number of pages : 133 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-323:2017 |
Information technology — Small computer system interface (SCSI) — Part 323: SCSI Block commands — 3 (SBC-3) |
ISO/IEC 14776-323:2017, defines the model and command set extensions to be used in conjunction with the SCSI Primary Command Set standard - 4 (SPC-4) to facilitate operation of SCSI direct-access block devices (e.g. hard disk drives).
|
Published |
2017-01 |
Edition : 1 |
Number of pages : 321 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-326:2002 |
Information technology — Small Computer System Interface (SCSI) — Part 326: Reduced Block Commands (RBC) |
|
Withdrawn |
2002-08 |
Edition : 1 |
Number of pages : 36 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-326:2002/Cor 1:2009 |
Information technology — Small Computer System Interface (SCSI) — Part 326: Reduced Block Commands (RBC) — Technical Corrigendum 1 |
|
Withdrawn |
2009-11 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-326:2015 |
Information technology — Small computer system interface (SCSI) — Part 326: Reduced block commands (RBC) |
ISO/IEC 14776-326:2015(E) defines a Reduced Block Command set for logical block devices. The Reduced Block Commands along with the required SPC-2 commands and their restrictions described in this standard, fully specify the complete command set for RBC logical block devices. It provides a command set of reduced requirements and options from SCSI Block Commands (SBC) (ISO/IEC 14776-321) for block devices. The reduced command set is intended to more closely match the functionality required for simple block logical units. The specified commands place no restrictions on device performance. The initial focus of this command set was to enable rigid disks and removable media devices attached to Serial Bus and utilizing SBP-2 (ISO/IEC 14776-232) for command and control. This second edition cancels and replaces the first edition published in 2002 and constitutes a minor revision. This second edition provides additional explanations and corrects mistakes with respect to the first edition.
|
Published |
2015-09 |
Edition : 2 |
Number of pages : 37 |
Technical Committee |
35.200
Interface and interconnection equipment
|
| ISO/IEC 14776-331:2002 |
Information technology — Small Computer System Interface (SCSI) — Part 331: Stream Commands (SSC) |
This part of ISO/IEC 14776 defines the command set extensions to facilitate operation of SCSI stream devices. This standard in conjunction with ANSI INCITS 351-2001 fully specifies the standard command set for the SCSI stream device class.The objective of this standard (SSC) is to provide the following:
a) permit an application client to communicate over a SCSI service delivery subsystem, with a logical unit that declares itself to be a sequential access device or printer device in the device type field of the INQUIRY command response data;b) define commands unique to each type of SCSI stream device;c) define commands to manage the operation of SCSI stream devices; andd) define the differences between the types of SCSI stream devices.
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Published |
2002-09 |
Edition : 1 |
Number of pages : 95 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-333:2013 |
Information technology — Small Computer System Interface (SCSI) — Part 333: SCSI Stream Commands - 3 (SSC-3) |
ISO/IEC 14776-333:2013(E) defines the command set extensions in order to facilitate operation of the sequential-access device type. It is implemented in conjunction with the requirements of the SCSI Architecture Model-4 (SAM-4) standard and the applicable clauses of the SCSI Primary Commands-4 (SPC-4) standard. It fully specifies the standard command set for the sequential-access device type.
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Published |
2013-09 |
Edition : 1 |
Number of pages : 210 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-341:2000 |
Information technology — Small Computer System Interface-3 (SCSI-3) — Part 341: Controller Commands (SCC) |
This International Standard defines the command set extensions for SCSI-3 storage array devices; commonly known as RAID devices. This standard is principally intended to be used in conjunction with, not as an alternate to, any of the SCSI-3 command standards and the SCSI-3 Architecture Model Standard (ISO/IEC IS 14776-411). The resulting commands facilitate the control and configuration of SCSI-3 storage arrays and thus provide a common command specification for both system integrators and suppliers of SCSI-3 storage array devices. The clause(s) of this standard pertaining to the SCSI-3 storage array device class, implemented in conjunction with the applicable clauses within any of the SCSI-3 command standards, shall specify the standard command set available for SCSI-3 storage arrays. The objectives of the SCSI-3 Controller Commands is to provide the following: a) Transfer commands unique to SCSI-3 Controller Command devices; b) Control commands to manage the operation of an SCSI-3 Controller Command device; c) Optional device mapping and pass-through support.
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Published |
2000-06 |
Edition : 1 |
Number of pages : 134 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-342:2000 |
Information technology — Small Computer System Interface — Part 342: Controller Commands - 2 (SCC-2) |
This International Standard defines the command set extensions for SCSI storage array devices; commonly known as RAID devices. This standard is principally intended to be used in conjunction with, not as an alternate to, any of the SCSI command standards nor to the SCSI-3 Architecture Model (ISO/IEC 14776-411) standard. This international standard is intended as an alternate to the SCSI-3 Controller Command (ISO/IEC 14776-341) standard. The resulting commands facilitate the control and configuration of SCSI storage arrays and thus provide a common command specification for both system integrators and suppliers of SCSI storage array devices.
This international standard contains all the information defined in SCSI-3 Controller Command (ISO/IEC 14776-341) standard. In addition this international standard specifies new commands and an expanded model clause.
The clause(s) of this standard pertaining to the SCSI storage array device class, implemented in conjunction with the applicable clauses within any of the SCSI command standards, shall specify the standard command set available for SCSI storage arrays.
The objective of the SCSI Controller Commands is to provide the following:
a) Transfer commands unique to SCSI Controller Command devices;
b) Control commands to manage the operation of an SCSI Controller Command device;
c) Optional device mapping and pass-through support.
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Published |
2000-06 |
Edition : 1 |
Number of pages : 178 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-351:2007 |
Information technology — Small Computer System Interface-3 (SCSI-3) — Part 351: Medium Changer Commands (SCSI-3 SMC) |
The SCSI command set provides efficient peer-to-peer operation of input/output devices (disks, tapes, printers, etc.) by an operating system.
This International Standard defines the SCSI commands and model for indepedent medium changer devices and attached medium changer functions integrated into other SCSI devices. This includes the commands and external behavioural characteristics of a device server, and the behaviour of the attached medium changer commands (SMC).
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Published |
2007-01 |
Edition : 1 |
Number of pages : 46 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-362:2006 |
Information technology — Small Computer System Interface (SCSI) — Part 362: Multimedia commands-2 (MMC-2) |
The Small Computer System Interface (SCSI) protocol is designed to
provide an efficient peer-to-peer I/O bus with the maximum number of
hosts and peripherals determined by the bus width (8 or 16).
This International Standard defines the SCSI command set extensions
to access multimedia features for all classes of SCSI devices.
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Published |
2006-04 |
Edition : 1 |
Number of pages : 311 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-372:2011 |
Information technology — Small Computer System Interface (SCSI) — Part 372: SCSI Enclosure Services - 2 (SES-2) |
ISO/IEC 14776:2011(E) documents the commands and parameters necessary to manage and sense the state of the power supplies, cooling devices, displays, indicators, individual drives, and other non-SCSI elements installed in an enclosure. The command set uses the SCSI SEND DIAGNOSTIC and RECEIVE DIAGNOSTIC RESULTS command to obtain configuration information for the enclosure and to set and sense standard bits for each type of element that may be installed in the enclosure.
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Published |
2011-10 |
Edition : 1 |
Number of pages : 109 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-381:2000 |
Information technology — Small Computer System Interface (SCSI) — Part 381: Optical Memory Card Device Commands (OMC) |
This standard defines the command set extensions to facilitate operation of optical memory card devices. The clause(s) of this standard pertaining to optical memory card device class, implemented in conjunction with the applicable clauses of the ISO/IEC 14776-311 SCSI-3 Primary Commands (SPC) and the ISO/IEC 14776-321 SCSI-3 Block Commands (SBC), fully specify the standard command set for optical memory card devices.
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Published |
2000-06 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-411:1999 |
Information technology — Small Computer System Interface-3 — Part 411: SCSI-3 Architecture Model (SCSI-3 SAM) |
This International Standard describes a reference model for the coordination of standards applicable to SCSI-3 I/O systems and a set of common behavioral requirements that are essential for the development of host software and device firmware that can interoperate with any SCSI-3 interconnect or protocol.
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Published |
1999-09 |
Edition : 1 |
Number of pages : 73 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-413:2007 |
Information technology — Small Computer System Interface (SCSI) — Part 413: SCSI Architecture Model -3 (SAM-3) |
The Small Computer System Interface (SCSI) protocol is designed to provide an efficient peer-to-peer I/O bus with the maximum number of hosts and peripherals determined by the bus width (8 or 16).
This International Standard defines a reference model that specifies the behaviour and abstract structure generic to all SCSI I/O system implementations.
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Published |
2007-02 |
Edition : 1 |
Number of pages : 110 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-414:2009 |
Information technology — Small Computer System Interface (SCSI) — Part 414: SCSI Architecture Model-4 (SAM-4) |
ISO/IEC 14776-114:2009(E) defines a reference model that specifies common behaviours for SCSI devices and an abstract structure that is generic to all SCSI I/O system implementations. This standard specifies generic requirements that pertain to SCSI implementation standards and implementation requirements.
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Published |
2009-06 |
Edition : 1 |
Number of pages : 140 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-415:2019 |
Information technology — Small computer system interface (SCSI) — Part 415: SCSI architecture model - 5 (SAM-5) |
This standard defines PHY and MAC specifications for high data rate wireless connectivity (typically over 200 Mbps) with fixed, portable, and moving devices. Data rates are high enough to satisfy a set of consumer multimedia industry needs, as well as to support emerging wireless switched point-to-point and high rate close proximity point-to-point applications.
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Published |
2019-12 |
Edition : 1 |
Number of pages : 209 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-452:2005 |
Information technology — Small Computer System Interface (SCSI) — Part 452: SCSI Primary Commands - 2 (SPC-2) |
The SCSI protocol is designed to provide an efficient peer-to-peer I/O bus with the maximum number of hosts and peripherals determined by the bus width (8 or 16). Data may be transferred asynchronously or synchronously at rates that depend primarily on device implementation and cable length. SCSI is an I/O interface that may be operated over a wide range of media and transfer rates. The set of SCSI standards provides for many different types of SCSI devices (disks, tapes, printers, scanners and many more), and specifies the interfaces, functions, and operations necessary to ensure interoperability between conforming SCSI implementations. This standard is a functional description of a device model that is applicable to all SCSI devices, and defines the SCSI commands that are mandatory and optional for all SCSI devices. Conforming implementations may employ any design technique that does not violate interoperability.
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Published |
2005-08 |
Edition : 1 |
Number of pages : 251 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-453:2009 |
Information technology — Small computer system interface (SCSI) — Part 453: Primary commands-3 (SPC-3) |
ISO/IEC 14776-453:2009(E) defines the SCSI commands that are mandatory and optional for all SCSI devices. Support for any feature defined in this standard is optional unless otherwise stated. This standard also defines the SCSI commands that may apply to any device model.
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Published |
2009-12 |
Edition : 1 |
Number of pages : 443 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-454:2018 |
Information technology — Small computer system interface (SCSI) — Part 454: SCSI Primary Commands - 4 (SPC-4) |
ISO/IEC 14776-454:2018(E) provides for many different types of SCSI devices and specifies the interfaces, functions and operations necessary to ensure interoperability between conforming SCSI implementations. This standard defines the SCSI commands that are mandatory and optional for all SCSI devices.
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Published |
2018-04 |
Edition : 1 |
Number of pages : 911 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14776-481:2019 |
Information technology — Small computer system interface (SCSI) — Part 481: Part 481:Security Features for SCSI Commands (SFSC) |
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Published |
2019-12 |
Edition : 1 |
Number of pages : 143 |
Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14908-1:2012 |
Information technology — Control network protocol — Part 1: Protocol stack |
ISO/IEC 14908-1:2012 specifies a communication protocol for local area control networks. The protocol provides peer-to-peer communication for networked control and is suitable for implementing both peer-to-peer and master-slave control strategies. ISO/IEC 14908-1:2012 describes services in layers 2 to 7. In the layer 2 (data link layer) specification, it also describes the Medium Access Control (MAC) sublayer interface to the physical layer. The physical layer provides a choice of transmission media. The interface described in ISO/IEC 14908-1:2012 supports multiple transmission media at the physical layer. In the layer 7 specification, it includes a description of the types of messages used by applications to exchange application and network management data.
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Published |
2012-11 |
Edition : 1 |
Number of pages : 420 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
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| ISO/IEC DIS 17760-105 |
Information technology — ATA Command Set - 5 (ACS-5) — Part 105: Title missing |
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Under development |
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Edition : 1 |
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Technical Committee |
35.200
Interface and interconnection equipment
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| ISO/IEC 14908-2:2012 |
Information technology — Control network protocol — Part 2: Twisted pair communication |
ISO/IEC 14908-2:2011 specifies the control network protocol (CNP) free-topology twisted-pair channel for networked control systems in local area control networks and is used in conjunction with ISO/IEC 14908-1. The channel supports communication at 78,125 kbit/s between multiple nodes, each of which consists of a transceiver, a protocol processor, an application processor, a power supply and application electronics.
ISO/IEC 14908-2:2011 covers the complete physical layer (OSI Layer 1), including the interface to the Media Access Control (MAC) sublayer and the interface to the medium. Parameters that are controlled by other layers but control the operation of the physical layer are also specified.
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Published |
2012-02 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
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| ISO/IEC 14908-3:2012 |
Information technology — Control network protocol — Part 3: Power line channel specification |
ISO/IEC 14908-3:2011 specifies the control network Power Line (PL) channel and serves as a companion document to ISO/IEC 14908-1. It presents the information necessary for the development of a PL physical network and nodes to communicate and share information over that network.
ISO/IEC 14908-3:2011 covers the complete physical layer (OSI layer 1) including the interface to the Medium Access Control (MAC) sublayer and the interface to the medium. It includes parameters specific to the PL channel type, even though the parameters may be controlled at an OSI layer other than layer 1. ISO/IEC 14908-3:2011 also provides a set of guideline physical and electrical specifications for the power line environment as an aid in developing products for that environment.
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Published |
2012-02 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
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| ISO/IEC 14908-4:2012 |
Information technology — Control network protocol — Part 4: IP communication |
ISO/IEC 14908-4:2011 specifies the transporting of the Control Network Protocol (CNP) packets for commercial local area control networks over Internet Protocol (IP) networks using a tunnelling mechanism wherein the CNP packets are encapsulated within IP packets. It applies to both CNP nodes and CNP routers.
The purpose of ISO/IEC 14908-4:2011 is to ensure interoperability between various CNP devices that wish to use IP networks to communicate using the CNP.
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Published |
2012-02 |
Edition : 1 |
Number of pages : 52 |
Technical Committee |
35.200
Interface and interconnection equipment
;
35.240.99
IT applications in other fields
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| ISO 14915-1:2002 |
Software ergonomics for multimedia user interfaces — Part 1: Design principles and framework |
ISO 14915-1:2002 establishes design principles for multimedia user interfaces and provides a framework for handling the different considerations involved in their design. It addresses user interfaces for applications that incorporate, integrate and synchronize different media. This includes static media such as text, graphics or images, and dynamic media such as audio, animation, video or media related to other sensory modalities. Detailed design issues within a single medium (e.g. the graphical design of an animation sequence) are only addressed as far as they imply ergonomic consequences for the user.
ISO 14915-1:2002 gives requirements and recommendations for the ergonomic design of multimedia applications mainly intended for professional and vocational activities such as work or learning. It does not specifically address applications outside this area, such as entertainment, although some recommendations can also be applicable in such domains.
ISO 14915-1:2002 is applicable to software aspects related to multimedia user interfaces and does not address hardware or implementation issues. The ergonomic requirements and recommendations described in ISO 14915-1:2002 can be realized through very different techniques, e.g. the delivery system, a scripting language, or the application.
The focus of ISO 14915-1:2002 is on multimedia presentation issues. Multimodal input which uses different media such as speech in combination with pointing for entering information is not considered in the recommendations provided.
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Withdrawn |
2002-11 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
13.180
Ergonomics
;
35.200
Interface and interconnection equipment
|
| ISO 14915-2:2003 |
Software ergonomics for multimedia user interfaces — Part 2: Multimedia navigation and control |
ISO 14915-2:2003 provides recommendations and requirements for the design of multimedia user interfaces with respect to the following aspects: design of the organization of the content, navigation and media-control issues. ISO 14915-2:2003 is limited to the design of the organization of the content and does not deal with the design of the content in general. Design issues within a single medium (e.g. the lighting of a film sequence) are only addressed with respect to the ergonomic issues related to user controls.
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Published |
2003-07 |
Edition : 1 |
Number of pages : 33 |
Technical Committee |
13.180
Ergonomics
;
35.200
Interface and interconnection equipment
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| ISO 14915-3:2002 |
Software ergonomics for multimedia user interfaces — Part 3: Media selection and combination |
ISO 14915-3:2002 gives recommendations for, and guidance on, the design, selection and combination of interactive user interfaces that integrate and synchronize different media. It addresses user interfaces for applications that incorporate, integrate and synchronize different media. This includes static media such as text, graphics, images; and dynamic media such as audio, animation, video or media related to other sensory modalities. Detailed design issues within a single medium (e.g. the graphical design of an animation sequence) are only addressed as far as they imply ergonomic consequences for the user.
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Withdrawn |
2002-10 |
Edition : 1 |
Number of pages : 46 |
Technical Committee |
13.180
Ergonomics
;
35.200
Interface and interconnection equipment
|
| ISO/IEC 18010:2002 |
Information technology — Pathways and spaces for customer premises cabling |
|
Withdrawn |
2002-05 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
35.200
Interface and interconnection equipment
|