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DIN 19245-2 - GERMAN LANGUAGE - (G) MEASUREMENT AND CONTROL; PROFIBUS; PROCESS FIELD BUS; COMMUNICATION-MODEL, SERVICES FOR USER APPLICATION, PROTOCOL SPECIFICATION, CODING DATA LINK LAYER INTERFACE, MANAGEMENT Organization: DIN
GAMA - ASCB - AVIONICS STANDARD COMMUNICATIONS BUS Organization: GAMA
Date: 1996-04-15
Description: The Version C ASCB, as defined, is a complete bus network subsystem composed of redundant interconnect, control, and user interface functions.
VDI/VDE 2187 - UNIFORM USER INTERFACE FOR DIGITAL FIELD INSTRUMENTS Organization: VDI
Date: 2002-04-01
Description: One example of this is the simultaneous accessibility of sensor and actuator systems via a bus system. This requires uniform structuring, and a user interface that is based on standards which the user is familiar with.
VDI/VDE 2186 - USER INTERFACE FOR DRIVE CONTROL DEVICES Organization: VDI
Date: 2000-04-01
Description: If the described interface is integrated into a supervisory Software system (e.g. control system, field bus communication network) parts of the functions may be outsourced to the supervisory system (e.g. communication, see Section 5.3).
SAE AIR4288 - LINEAR TOKEN PASSING MULTIPLEX DATA BUS USER'S HANDBOOK Organization: SAE
Date: 2012-05-01
Description: It seeks to explain the rationale for the specified operation of the state machine which controls the protocol and offers the user an understanding of how to apply this data bus as a solution to a systems data communications problem.
CTA - EIA-693 - AUDIO/VIDEO BUS (AVBUS) PHYSICAL LAYER AND MEDIA SPECIFICATION - FORMERLY ANSI/CEA-693 Organization: CTA
Date: 1998-02-01
Description: This document contains the performance specifications necessary to implement an AudioNideo (AV) bus to carry baseband audio, video, and control signals for limited distances between consumer audio and video equipment in the home.
CTA - EIA-105.2 - DECODER INTERFACE CONTROL STANDARD - FORMERLY CEA EIA-105.2 Organization: CTA
Date: 1998-04-01
Description: The Decoder Interface allows a Decoder to utilize a Receiver's user interface to interact with the User. Specifically, two different methods are provided (User Command Interception and Addressed Remote Control) whereby commands from the Receiver's normal remote control and/or one provided especially for a Decoder can communicate directly with the Decoder.
ITU-T V.230 - GENERAL DATA COMMUNICATIONS INTERFACE LAYER 1 SPECIFICATION Organization: ITU-T
Date: 1988-11-01
Description: Applications include DTEDCE interfaces, DCE-DCE interfaces, and possible DTE-DTE interfaces (see Figure 1/V.230). The interface specification is based on the ISDN basic user-network interface defined in Recommendation I.430.
IEEE 1596 - STANDARD FOR SCALABLE COHERENT INTERFACE (SCI) - IEEE COMPUTER SOCIETY DOCUMENT Organization: IEEE
Date: 1992-03-19
Description: The CSR Architecture has become a unifying force for the latest generation of buses, encouraging VME and MULTIBUS® II users to use the CSR architecture as they interface to Futurebus+, thus facilitating a future interface to SCI as system requirements grow.
ITU-T K.23 - TYPES OF INDUCED NOISE AND DESCRIPTION OF NOISE VOLTAGE PARAMETERS FOR ISDN BASIC USER NETWORKS - STUDY GROUP V Organization: ITU-T
Date: 1988-11-01
Description: The Recommendation considers the characteristics of induced noise voltages at metallic-pair ISDN interfaces at subscriber's premises. Interface locations covered by this Recommendation are the S and T interfaces (see Recommendation I.430) as well as the 2-wire interface of the NT1.
MODUK - DEF STAN 00-18: PT 7: SUPP A - AVIONIC DATA TRANSMISSION INTERFACE SYSTEMS PART 7: UTILITIES DATA BUS STANDARD SUPPLEMENT A: SUPPLEMENT FOR AN ALTERNATIVE BUS TRANSCEIVER Organization: MODUK
Date: 1999-03-19
Description: Scope and purpose This supplement enables user and potential user of the Def Stan 00-18 (Part 7) to implement the Standard using a data bus transceiver designed for civil and commercial aircraft applications, offering reduced cost in comparison to the Def Stan 00-88 (Part7) Standard Implementation.
MODUK - DEF STAN 00-18: PT1: SEC3 - AVIONIC DATA TRANSMISSION INTERFACE SYSTEMS PART 1: GUIDE TO INTERFACE SYSTEMS SECTION 3: GUIDE TO THE SIMPLEX AND HALF DUPLEX SERIAL DIGITAL TRANSMISSION INTERFACE SYSTEMS STANDARD - ISSUE 2 (03.90) Organization: MODUK
Date: 1990-01-01
Description: Users of this guide are potentially considered to fall into the following general categories; Project Managers Equipment and Component Suppliers Constructors and System Designers The information contained in this Guide is provided to assist users of the data bus. Only that practical and descriptive detail considered to be useful is included.
SAE J2891 - AUXILIARY POWER UNIT ELECTRICAL INTERFACE REQUIREMENTS FOR CLASS EIGHT TRUCKS Organization: SAE
Date: 2015-12-01
Description: Purpose The purpose of this Recommended Practice is to provide design direction for the single phase nominal 120 VAC APU as it interfaces within the truck architecture providing power to truck sleeper cab user loads, HVAC loads, and vehicle battery charging, so that they may operate with the main propulsion engine turned off.
IEC 62680-1-3 - UNIVERSAL SERIAL BUS INTERFACES FOR DATA AND POWER - PART 1-3: UNIVERSAL SERIAL BUS INTERFACES - COMMON COMPONENTS - USB TYPE-CTM CABLE AND CONNECTOR SPECIFICATION - EDITION 1.0 Organization: IEC
Date: 2016-08-01
Description: The USB Type-C Cable and Connector Specification is guided by the following principles: • Enable new and exciting host and device form-factors where size, industrial design and style are important parameters • Work seamlessly with existing USB host and device silicon solutions • Enhance ease of use for connecting USB devices with a focus on minimizing user confusion for plug and cable orientation The USB Type-C Cable and Connector Specification defines a new receptacle, plug, cable and detection mechanisms that are compatible with existing USB interface electrical and functional specifications. This specification covers the following aspects that are needed to produce and use this new USB cable/connector solution in newer platforms and devices, and that interoperate with existing platforms and devices: • USB Type-C receptacles, including electro-mechanical definition and performance requirements  • USB Type-C plugs and cable assemblies, including electro-mechanical definition and performance requirements • USB Type-C to legacy cable assemblies and adapters • USB Type-C-based device detection and interface configuration, including support for legacy connections • USB Power Delivery optimized for the USB Type-C connector T he USB Type-C Cable and Connector Specification defines a standardized mechanism that supports Alternate Modes, such as repurposing the connector for docking-specific applications.
NEMA - NTCIP 1204 - NATIONAL TRANSPORTATION COMMUNICATIONS FOR ITS PROTOCOL - ENVIRONMENTAL SENSOR STATION (ESS) INTERFACE PROTOCOL - VERSION 03; INCLUDES ERRATA 9/2014 Organization: NEMA
Date: 2009-10-01
Description: NTCIP 1204 v03 standardizes the communications interface by identifying the various operational needs of the users (Section 2) and subsequently identifying the necessary requirements (Section 3) that support each need.
IEC 60488-2 - STANDARD DIGITAL INTERFACE FOR PROGRAMMABLE INSTRUMENTATION PART 2: CODES, FORMATS, PROTOCOLS AND COMMON COMMANDS - EDITION 1.0 Organization: IEC
Date: 2004-05-01
Description: This standard specifies a set of codes and formats to be used by devices connected via the IEEE 488.1 bus. This standard also defines communication protocols necessary to effect application independent device-dependent message exchanges and further defines common commands and characteristics useful in instrument system applications.
MODUK - DEF STAN 00-18: PT 1: SEC 2 - AVIONIC DATA TRANSMISSION INTERFACE SYSTEMS PART 1: GUIDE TO INTERFACE SYSTEMS SECTION 2: GUIDE TO THE SERIAL, TIME DIVISION, COMMAND/RESPONSE MULTIPLEX DATA BUS STANDARD - ISSUE 2 (11.91); CORRIGENDUM Organization: MODUK
Date: 1991-11-08
Description: Scope and purpose This guide is intended to provide users and potential users of the Defence Standard Serial, Time Division, CommandDtesponse Multiplex Data Bus (Def Stan 00-18 (Part 2)) with an understanding of its background, characteristics and potential. considered to fall into the following general categories: Users of this guide are Project Managers Equipment and Component Suppliers Constructors and System Designers The information in this guide has been generated by the Avionics Systems Standardisation Committee (ASSC) Electrical Data Transmission Working Group.
MODUK - DEF STAN 00-18: PT 2: SUPP B - AVIONIC DATA TRANSMISSION INTERFACE SYSTEMS PART 2: SERIAL, TIME DIVISION, COMMAND/RESPONSE MULTIPLEX DATA BUS SUPPLEMENT B: FIBRE OPTIC SUPPLEMENT FOR A SINGLE TRANSMISSIVE STAR - ISSUE 1 (11.90) Organization: MODUK
Date: 1990-01-01
Description: Scope and purpose This supplement is to enable users and potential users of the Def Stan 00-18 (Part 2) to implement the Standard using a fibre optic single transmissive star.
MODUK - DEF STAN 00-18: PT 2: SUPP A - AVIONIC DATA TRANSMISSION INTERFACE SYSTEMS PART 2: SERIAL, TIME DIVISION, COMMAND/RESPONSE MULTIPLEX DATA BUS SUPPLEMENT A: FIBRE OPTIC SUPPLEMENT FOR A POINT TO POINT LINK - ISSUE 1 (11.90) Organization: MODUK
Date: 1990-01-01
Description: Scope and purpose This supplement is to enable users and potential users of the Def Stan 00-18 (Part 2) to implement the Standard using a fibre optic point to point link.
MODUK - DEF STAN 00-18: PT 2: SUPP D - AVIONIC DATA TRANSMISSION INTERFACE SYSTEMS PART 2: SERIAL, TIME DIVISION, COMMAND/RESPONSE MULTIPLEX DATA BUS SUPPLEMENT D: FIBRE OPTIC SUPPLEMENT FOR A MULTI-LOCAL TRANSMISSIVE STAR - ISSUE 1 (11.90) Organization: MODUK
Date: 1990-01-01
Description: Scope and purpose This supplement is to enable users and potential users of the Def Stan 00-18 (Part 2) to implement the Standard using a fibre optic multiple local star.

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