ARINC-429P1-17-2004.pdf
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1、 MARK 33 DIGITAL INFORMATION TRANSFER SYSTEM (DITS) PART 1 FUNCTIONAL DESCRIPTION, ELECTRICAL INTERFACE, LABEL ASSIGNMENTS AND WORD FORMATS ARINC SPECIFICATION 429 PART 1-17 PUBLISHED: May 17, 2004 AN DOCUMENT Prepared by AIRLINES ELECTRONIC ENGINEERING COMMITTEE Published by AERONAUTICAL RADIO, INC
2、. 2551 RIVA ROAD, ANNAPOLIS, MARYLAND 21401 This document is based on material submitted by various participants during the drafting process. Neither AEEC nor ARINC has made any determination whether these materials could be subject to valid claims of patent, copyright or other proprietary rights by
3、 third parties, and no representation or warranty, express or implied, is made in this regard. Any use of or reliance on this document shall constitute an acceptance thereof “as is” and be subject to this disclaimer. -,-,- 2004 by AERONAUTICAL RADIO, INC. 2551 Riva Road Annapolis, Maryland 21401-746
4、5 USA ARINC SPECIFICATION 429 PART 1-17 MARK 33 DIGITAL INFORMATION TRANSFER SYSTEM (DITS) PART 1 FUNCTIONAL DESCRIPTION, ELECTRICAL INTERFACE, LABEL ASSIGNMENTS AND WORD FORMATS Published: May 17, 2004 Prepared by the Airlines Electronic Engineering Committee Specification 429 Adopted by the Airlin
5、es Electronic Engineering Committee: July 21, 1977 Specification 429 Adopted by the Industry: September 15, 1977 Summary of Document Supplements Supplement Adoption Date Published Specification 429-1 April 11, 1978 June 1, 1978 Specification 429-2 December 6, 1978 March 1, 1979 Specification 429-3 A
6、ugust 31, 1979 November 1, 1979 Specification 429-4 June 17, 1980 August 1, 1980 Specification 429-5 March 12, 1981 April 4, 1981 Specification 429-6 December 9, 1981 January 22, 1982 Specification 429-7 November 4, 1982 January 3, 1983 Specification 429-8 November 4, 1983 December 3, 1984 Specifica
7、tion 429-9 October 11, 1984 April 30, 1985 Specification 429-10 November 7, 1985 November 17, 1986 Specification 429-11 June 15, 1988 July 22, 1988 Specification 429-12 October 25, 1989 July 1, 1990 Specification 429-13 October 8, 1991 December 30, 1991 Specification 429-14 November 4, 1992 January
8、4, 1993 Specification 429-15 April 18, 1995 September 1, 1995 Specification 429-16 November 14, 2000 September 27, 2001 Specification 429-17 May 5, 2004 May 17, 2004 A description of the changes introduced by each supplement is included on goldenrod paper at the end of this document. -,-,- ii FOREWO
9、RD Aeronautical Radio, Inc., the AEEC, and ARINC Standards Aeronautical Radio, Inc. (ARINC) was incorporated in 1929 by four fledgling airlines in the United States as a privately-owned company dedicated to serving the communications needs of the air transport industry. Today, the major U.S. airline
10、s remain the Companys principal shareholders. Other shareholders include a number of non-U.S. airlines and other aircraft operators. ARINC sponsors aviation industry committees and participates in related industry activities that benefit aviation at large by providing technical leadership and guidan
11、ce and frequency management. These activities directly support airline goals: promote safety, efficiency, regularity, and cost-effectiveness in aircraft operations. The Airlines Electronic Engineering Committee (AEEC) is an international body of airline technical professionals that leads the develop
12、ment of technical standards for airborne electronic equipment- including avionics and in-flight entertainment equipment-used in commercial, military, and business aviation. The AEEC establishes consensus-based, voluntary form, fit, function, and interface standards that are published by ARINC and ar
13、e known as ARINC Standards. The use of ARINC Standards results in substantial benefits to airlines by allowing avionics interchangeability and commonality and reducing avionics cost by promoting competition. There are three classes of ARINC Standards: a) ARINC Characteristics Define the form, fit, f
14、unction, and interfaces of avionics and other airline electronic equipment. ARINC Characteristics indicate to prospective manufacturers of airline electronic equipment the considered and coordinated opinion of the airline technical community concerning the requisites of new equipment including stand
15、ardized physical and electrical characteristics to foster interchangeability and competition. b) ARINC Specifications Are principally used to define either the physical packaging or mounting of avionics equipment, data communication standards, or a high-level computer language. c) ARINC Reports Prov
16、ide guidelines or general information found by the airlines to be good practices, often related to avionics maintenance and support. The release of an ARINC Standard does not obligate any airline or ARINC to purchase equipment so described, nor does it establish or indicate recognition or the existe
17、nce of an operational requirement for such equipment, nor does it constitute endorsement of any manufacturers product designed or built to meet the ARINC Standard. In order to facilitate the continuous product improvement of this ARINC Standard, two items are included in the back of this volume: a)
18、An Errata Report solicits any corrections to the text or diagrams in this ARINC Standard. b) An ARINC IA Project Initiation/Modification (APIM) form solicits any recommendations for addition of substantive material to this volume which would be the subject of a new Supplement. -,-,- ARINC SPECIFICAT
19、ION 429 TABLE OF CONTENTS ITEM SUBJECT PAGE 1.0 INTRODUCTION 1 1.1 Purpose of this Document 1 1.2 Organization of ARINC Specification 429 1 1.3 Relationship to ARINC Specification 419 1 1.4 “Mark 33 Digital Information Transfer System” Basic Philosophy 1 1.4.1 Numeric Data Transfer 1 1.4.2 ISO Alpha
20、bet No. 5 Data Transfer 1 1.4.3 Graphic Data Transfer 1 2.0 DIGITAL INFORMATION TRANSFER SYSTEM STANDARDS 2 2.1 Message Related Elements 2 2.1.1 Direction of Information Flow 2 2.1.2 Information Element 2 2.1.3 Information Identifier 2 2.1.4 Source/Destination Identifier 3 2.1.5 Sign/Status Matrix 3
21、 2.1.5.1 BCD Numeric 4 2.1.5.2 BNR Numeric Data Words 4 2.1.5.3 Discrete Data Words 5 2.1.6 Data Standards 5 2.2 Electrically Related Elements 6 2.2.1 Transmission System Interconnect 6 2.2.2 Modulation 6 2.2.3 Voltage Levels 6 2.2.3.1 Transmitter Voltage Levels 6 2.2.3.2 Receiver Voltage Levels 7 2
22、.2.4 Impedance Levels 7 2.2.4.1 Transmitter Output Impedance 7 2.2.4.2 Receiver Input Impedance 7 2.2.5 Fault Tolerance 7 2.2.5.1 Receiver External Fault Voltage Tolerance 7 2.2.5.2 Transmitter External Fault Voltage 8 2.2.5.3 Transmitter External Fault Load Tolerance 8 2.2.6 Fault Isolation 8 2.2.6
23、.1 Receiver Fault Isolation 8 2.2.6.2 Transmitter Fault Isolation 8 2.3 Logic Related Elements 8 2.3.1 Digital Language 8 2.3.1.1 Numeric Data 8 2.3.1.2 Discretes 8 2.3.1.3 Maintenance Data (General Purpose) 8 2.3.1.4 AIM Data 8 2.3.1.5 File Data Transfer 8 2.3.1.5.1 Bit-Oriented Protocol Determinat
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