BS EN 61883-1:2009:2011 Edition
$189.07
Consumer audio/video equipment. Digital interface – General
| Published By | Publication Date | Number of Pages |
| BSI | 2011 | 46 |
IEC 61883-1:2008 specifies a digital interface for consumer electronic audio/video equipment using IEEE 1394. It describes the general packet format, data flow management and connection management for audio-visual data, and also the general transmission rules for control commands. It defines a transmission protocol for audio-visual data and control commands which provides for the interconnection of digital audio and video equipment, using IEEE 1394. This third edition of IEC 61883-1 cancels and replaces the second edition, published in 2003 and it constitutes a technical revision. The significant technical changes with respect to the second edition are: – allocation of a new FMT code for the 1394 Trade Association specification ‘601 over 1394’; – Clarification of the meaning of FMT code; – harmonization of IEC 61883-1 with IEEE 1394.1 for speeds over S400. This bilingual version (2012-08) corresponds to the monolingual English version, published in 2008-02.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 6 | CONTENTS |
| 9 | 1 Scope and object 2 Normative references 3 Abbreviations |
| 10 | 4 High-performance serial bus layers 4.1 Cable physical layer 4.2 Link layer 4.3 Transaction layer 5 Minimum node capabilities 5.1 Serial bus management 5.2 Command and status registers |
| 12 | Figures Figure 1 – Configuration ROM |
| 13 | Tables Table 1 – Unit_SW_Version code assignment |
| 14 | 6 Real time data transmission protocol 6.1 Common isochronous packet (CIP) format Figure 2 – Isochronous packet |
| 15 | 6.2 Transmission of fixed-length source packet Figure 3 – CIP header |
| 16 | Figure 4 – Model of transmission of source packets Figure 5 – Two quadlets CIP header (Form_0, Form_1=0) |
| 17 | Figure 6 – Source packet header format Table 2 – Code allocation of FN |
| 18 | Table 3 – Time stamp field of source packet header Table 4 – Placing of data block sequence Table 5 – Code allocation of FMT |
| 19 | 7 Isochronous data flow management 7.1 General Table 6 – Time stamp of SYT field |
| 20 | 7.2 Plugs and plug control registers |
| 21 | 7.3 Connections Figure 7 – Plug and PR usage |
| 22 | 7.4 Plug states Figure 8 – Connections |
| 23 | Figure 9 – Plug state diagram |
| 24 | 7.5 OUTPUT_MASTER_PLUG register definition Figure 10 – oMPR format Table 7 – oMPR/iMPR/oPCR speed encoding spd and extended speed encoding xspd |
| 25 | 7.6 INPUT_MASTER_PLUG register definition 7.7 OUTPUT_PLUG_CONTROL register definition Figure 11 – iMPR format |
| 26 | Figure 12 – oPCR format |
| 27 | 7.8 INPUT_PLUG_CONTROL register definition Table 8 – oPCR overhead ID encoding |
| 28 | 7.9 Plug control register modification rules Figure 13 – iPCR format |
| 29 | 7.10 Bus reset 7.11 Plug control register access rules Figure 14 – PCR address map |
| 30 | 8 Connection management procedures (CMP) 8.1 Introduction |
| 31 | 8.2 Managing point-to-point connections Figure 15 – Point-to-point and broadcast connection counter modifications |
| 32 | Figure 16 – Establishing a point-to-point connection |
| 33 | Figure 17 – Overlaying a point-to-point connection |
| 34 | 8.3 Managing broadcast-out connections Figure 18 – Breaking a point-to-point connection |
| 35 | Figure 19 – Establishing a broadcast-out connection Figure 20 – Overlaying a broadcast-out connection |
| 36 | 8.4 Managing broadcast-in connections Figure 21 – Breaking a broadcast-out connection |
| 37 | Figure 22 – Establishing a broadcast-in connection Figure 23 – Overlaying a broadcast-in connection |
| 38 | 8.5 Managing connections after a bus reset Figure 24 – Breaking a broadcast-in connection Figure 25 – Time chart of connection management and PCR activities |
| 39 | Figure 26 – Restoring a point-to-point connection |
| 40 | 9 Function control protocol (FCP) 9.1 Introduction Figure 27 – Restoring a broadcast-out connection Figure 28 – Restoring a broadcast-in connection |
| 41 | 9.2 Asynchronous packet structure Figure 29 – Command register and response register |
| 42 | 9.3 FCP frame structure Figure 30 – Write request for data block packet of IEEE 1394 Figure 31 – Write request for data quadlet packet of IEEE 1394 |
| 43 | Figure 32 – FCP frame structure Table 9 – CTS: Command/transaction set encoding |
| 44 | Figure 33 – Vendor unique frame format |
