ANSI CTA-805-E-2013 Data Services on the Component Video Interfaces (Formerly ANSI CEA-805-E).pdf

1、 ANSI/CEA Standard Data Services on the Component Video Interfaces ANSI/CEA-805-E August 2013 NOTICE Consumer Electronics Association (CEA) Standards, Bulletins and other technical publications are designed to serve the public interest through eliminating misunderstandings between manufacturers and

2、purchasers, facilitating interchangeability and improvement of products, and assisting the purchaser in selecting and obtaining with minimum delay the proper product for his particular need. Existence of such Standards, Bulletins and other technical publications shall not in any respect preclude any

3、 member or nonmember of CEA from manufacturing or selling products not conforming to such Standards, Bulletins or other technical publications, nor shall the existence of such Standards, Bulletins and other technical publications preclude their voluntary use by those other than CEA members, whether

4、the standard is to be used either domestically or internationally. Standards, Bulletins and other technical publications are adopted by CEA in accordance with the American National Standards Institute (ANSI) patent policy. By such action, CEA does not assume any liability to any patent owner, nor do

5、es it assume any obligation whatever to parties adopting the Standard, Bulletin or other technical publication. This document does not purport to address all safety problems associated with its use or all applicable regulatory requirements. It is the responsibility of the user of this document to es

6、tablish appropriate safety and health practices and to determine the applicability of regulatory limitations before its use. This document is copyrighted by the Consumer Electronics Association (CEA) and may not be reproduced, in whole or part, without written permission. Federal copyright law prohi

7、bits unauthorized reproduction of this document by any means. Organizations may obtain permission to reproduce a limited number of copies by entering into a license agreement. Requests to reproduce text, data, charts, figures or other material should be made to CEA. (Formulated under the cognizance

8、of the CEA R4.8 DTV Interface Subcommittee.) Published by CONSUMER ELECTRONICS ASSOCIATION 2013 Technology however, it is envisioned that such information as described in this standard could serve as a building block for such a system. This standard was developed under the auspices of the Consumer E

9、lectronics Association (CEA) Technology Phone 800-854-7179; Fax 303-397-2740; Internet http:/ ; Email HTTH IEC Standards: Global Engineering Documents, World Headquarters, 15 Inverness Way East, Englewood, CO USA 80112-5776; Phone 800-854-7179; Fax 303-397-2740; Internet http:/; Email IEC Central O

10、ffice, 3, rue de Varemb, PO Box 131, CH-1211 Geneva 20, Switzerland; Phone +41 22 919 02 11; Fax +41 22 919 03 00; Internet http:/www.iec.ch ; Email HTpubinforiec.chTH 2.2 Informative References The following standards contain provisions that, through reference in this text, constitute informative p

11、rovisions of this standard. At the time of publication, the editions indicated were valid. CEA-2020, Other VBI Waveforms, August 2006 IEC 61880-2: (2002-09) Video System (525/60) Video and Accompanied Data Using the Vertical Blanking Interval - Part 2 525 Progressive Scan System CEA-805-E 2 ITU-R Re

12、c. BT.601-5, Studio Encoding Parameters of Digital Television for Standard 4:3 and Wide-Screen 16:9 Aspect Ratios, (10/95) ITU-R Rec. BT.709-5, Parameter Values for the HDTV Standards For Production and International Programme Exchange, (04/02) SCTE 127 2007, Carriage of Vertical Blanking Interval (

13、VBI) Data in North American Digital Television Bitstreams 2.2.1 Informative Reference Acquisition CEA Standards: Global Engineering Documents, World Headquarters, 15 Inverness Way East, Englewood, CO USA 80112-5776; Phone 800-854-7179; Fax 303-397-2740; Internet http:/ ; Email IEC Standards: Global

14、 Engineering Documents, World Headquarters, 15 Inverness Way East, Englewood, CO USA 80112-5776; Phone 800-854-7179; Fax 303-397-2740; Internet http:/ ; Email IEC Central Office, 3, rue de Varemb, PO Box 131, CH-1211 Geneva 20, Switzerland; Phone +41 22 919 02 11; Fax +41 22 919 03 00; Internet htt

15、p:/www.iec.ch ; Email HTpubinforiec.chTH ITU-R Recommendations: International Telecommunications Union, Place des Nations, CH-1211 Geneva 20, Switzerland; Phone +41 22 730 51 11; Fax +41 22 733 7256; Internet http:/www.itu.int SCTE: SCTE, 140 Philips Road, Exton, PA 19341-1318 Phone: 800-542-5040 or

16、 610-363-6888 Fax: (610) 363-5898. http:/www.scte.org/standards/Standards_Available.aspx 3 Definitions 2h Progressive horizontal line rate is twice that of Interlace h Horizontal rate for Interlace 3.1 Acronyms and Abbreviations The following acronyms and abbreviations are used within this standard:

17、 ASB Analog Source Bit AFD Active Format Description APS Analog Protection System, to control Macrovision analog copy control CEA Consumer Electronics Association CGMS-A Copy Generation Management System-Analog (applicable to all video interfaces) CRC Cyclic Redundancy Check (also referred to as Cyc

18、lic Redundancy Check Code (CRCC) CVI Analog Component Video Interface ECCI Extended Copy Control Information EIA Electronic Industries Alliance H Header Data Symbol Width HDTV High Definition Television IEC International Electrotechnical Commission lsb Least Significant Bit ITU-R ITU Radiocommunicat

19、ion Sector s Microsecond Mbps Megabits per second CEA-805-E 3 msb Most Significant Bit ns Nanosecond P Payload Data Symbol Width PAR Parity PSP Pseudo-Sync Pulse APS (“PSP” system): one element of APS that was designed to operate on analog videocassette recorders that utilize certain types of automa

20、tic gain control circuitry. Inverted split color burst APS is the other element of APS, designed to operate by inverting the phase of certain cycles of color burst signals. RCI Redistribution Control Information S Start Symbol Data Symbol Width SCTE Society of Telecommunications Engineers SDTV Stand

21、ard Definition Television T Clock Period VBI Vertical Blanking Interval 3.2 Reserved Fields Fields in this standard marked “TReservedT” shall not be assigned by the user, but shall be available for future assignment by subsequent editions of this standard. Devices using this standard are expected to

22、 disregard reserved fields for which no definition known to that unit exists. Devices using this standard are expected to disregard header values, and payloads that follow said header values, for which no definition known to that unit exists. Each bit in a non-specified field marked “TreservedT” sha

23、ll be set to the value indicated in the syntax of the related CEA-805 table until such time as the bit is defined and supported. 3.3 Bit Order Readers are cautioned that bit fields described in this standard text match bit order defined in the related CEA-805 tables. 4 Data Waveform Descriptions The

24、 data waveform is described in Section 4.1 for h (480i) or Section 4.2 for 2h (480p) for signals compliant with CEA-770.2 for Type A packets and Type B packets. Type A packets are the same as those in EIA/CEA-805. Type B packets were newly defined in CEA-805-A. Section 4.3 describes the data wavefor

25、m for HDTV (1080i and 720p) signals compliant with CEA-770.3 for Type A and Type B packets. Section 4.4 defines use of the header values. Section 4.5 defines the data payload for Type A and Type B packets. Use of Type A packets in source devices is deprecated. 4.1 Waveform for Standard Definition In

26、terlaced Signals The data waveform for 480i signals shall be as defined in CEA-770.2 Section 8.1. 4.1.1 Aspect Ratio Signaling for Standard Definition Interlaced Signals The standard method for signaling 16:9 aspect ratio in a 480i signal shall be via IEC 61880. Sink devices compliant with this stan

27、dard shall tolerate IEC 61880 signals or other signals on line 20 and line 283. Sink devices should recognize that waveforms other than IEC 61880 may be present on line 20 and line 283. Sink devices compliant with this standard shall default to 4:3 output format in the absence of an IEC 61880 signal

28、 on line 20 and line 283. Other signals may be transmitted on line 20 and line 283 as described in CEA 2020. IEC 61880 is typically used to signal CGMS-A and APS in addition to aspect ratio and display format. CGMS-A and APS are also signaled in CEA-608. In order to avoid ambiguity when both means o

29、f signaling CGMS-A and APS are present, source devices should ensure that both IEC 61880 and CEA-608 carry the same, proper CGMS-A and APS signals. NOTEConditions for applying the CGMS-A and APS bits in source devices may be bound by private agreements or government regulations. Also, required behav

30、ior of sink devices detecting the CGMS-A and APS bits may be bound by private agreements or government regulations. Implementers are cautioned to read and understand all applicable agreements and regulations. CEA-805-E 4 4.2 Waveform for Standard Definition Progressive Signals The data waveform for

31、2h (480p) signals compliant with CEA-770.2 is shown in Figure 1. Dat a S ta r t S* T L u m a o n Y P B P R (P B =P R = 0 ) 0H S ta r t S y m b o l Hea d e r ( F i x e d ) P a y l o a d ( V a r i a b le Ch a r a ct e r istics ) S = S ta r t S y m b o l Dat a S y m b o l Dat a W i d th T = Clock P e r

32、 io d H = He a d e r D a ta S y m b o l W idt h P = P a y lo a d Dat a S y m b o l W idt h p 7 p n p n - 1 . . 70% p 0 p 6 p 5 p 4 p 3 p 2 p 1 h 5 h 4 h 3 h 2 h 1 h 0 S* T H* T . P * T L o g ic t o S ign a l L e v e l 80% 60% L o g ic Hi g h Dat a = 1 Dat a = 0 L o g ic L o w 10% - 5% 0 m V - 3 0 0

33、m V 7 0 0 m V 5 0 % le a d i n g e d g e Figure 1 Data Services Waveform (Standard Definition Progressive) For standard definition progressive component video interfaces, the start symbol and header have fixed characteristics as described in Table 1 and Table 2. The position of Type A packets for 48

34、0p format shall be in VBI line 41. The position of Type B packets for 480p format shall be in VBI line 40. The payload has characteristics that may vary according to the needs of particular data header definition. For example, future defined data with high data rate requirements may adopt payload sy

35、mbols having more than two signal levels and shorter data symbol periods to increase total available capacity. CEA-805-E 5 SDTV Component Interface YPB BPBRB Applicable Standard CEA-770.2 2h (480p) signals Position of data services waveform VBI line 41 (480p) Video Start lineP1P VBI line 43 (480p) S

36、tart Symbol and Header Data allocations See Figure 1 Display ClockP1P 27 MHz for 59.94 Hz 27.027 MHz for 60 Hz Start Symbol Data Symbol Width (=S) 26 clock cycles Start Symbol Position (from 0H) 156 clock cycles Header Data Symbol Width (=H) 26 clock cycles Start Symbol and Header Data Symbol Tolera

37、nce (from 0H) +/- 30 ns Start Symbol and Header Data Symbol Maximum rise/fall time (from 0H) 50 ns Header Data Bits per Symbol 1 (bi-level) Number of Header Data Symbols 6 Logical High (bit “1”) 70% white peak +10%, -10% Logical Low (bit “0”) 0% white peak (blanking level) +10%, -5% P1P Provided for

38、 informational purposes only. See applicable standard for normative text. Table 1 Key Type A Packet Waveform Characteristics (Standard Definition Progressive) SDTV Component Interface YPB BPBRB Applicable Standard CEA-770.2 2h (480p) signals Position of data waveform VBI line 40 (480p) Video Start l

39、ineP1P VBI line 43 (480p) Start Symbol and Header Data allocations See Figure 1 Display ClockP1P 27 MHz for 59.94 Hz 27.027 MHz for 60 Hz Start Symbol Data Symbol Width (=S) 4 clock cycles Start Symbol Position (from 0H) 156 clock cycles Header Data Symbol Width (=H) 4 clock cycles Start Symbol and

40、Header Data Symbol Tolerance (from 0H) +/- 18.5 ns Start Symbol and Header Data Symbol Maximum rise/fall time (from 0H) 37 ns Header Data Bits per Symbol 1 (bi-level) Number of Header Data Symbols 6 Logical High (bit “1”) 70% white peak +10%, -10% Logical Low (bit “0”) 0% white peak (blanking level)

41、 +10%, -5% P1P Provided for informational purposes only. See applicable standard for normative text. Table 2 Key Type B Packet Waveform Characteristics (Standard Definition Progressive) CEA-805-E 6 4.3 Waveform for High Definition Signals The data waveform for High Definition signals compliant with

42、CEA-770.3 is shown in Figure 2. Dat a S ta r t S* T L u m a o n Y P B P R (P B =P R = 0 ) 0H S ta r t S y m b o l Hea d e r ( F i x e d ) P a y l o a d ( V a r i a b le Ch a r a cte r istics ) S = S ta r t S y m b o l Dat a S y m b o l W idt h T = Clock P e r io d H = He a d e r D a ta S y m b o l W

43、 idt h P = P a y lo a d Dat a S y m b o l W idt h p 7 p n p n - 1 . . p 0 p 6 p 5 p 4 p 3 p 2 p 1 1 h 5 h 4 h 3 h 2 h 1 h 0 S* T H* T . P * T L o g ic t o S ign a l L e v e l 80% 60% L o g ic Hi g h Dat a = 1 Dat a = 0 L o g ic L o w 10 % - 5% 70% 0 m V - 3 0 0 m V 7 0 0 m V 300 mV Figure 2 Data Ser

44、vices Waveform (High Definition Progressive) For high definition component video interfaces, the start symbol and header have fixed characteristics described in Table 3 and Table 4. The position of Type A packet for 720p format shall be in VBI line 24. Position of Type B packet for 720p format shall

45、 be in VBI line 23. The position of Type A packet for 1080i format shall be in VBI lines 19 and 582. Position of Type B packet for 1080i format shall be in VBI lines 18 and 581. The payload has characteristics that may vary according to the needs of particular data header definition. For example, a

46、future defined data payload with high data rate requirements may adopt payload symbols having more than two signal levels and shorter data symbol periods to increase total available capacity. CEA-805-E 7 HDTV Component Interface YPBPR Applicable Standard CEA-770.3 Position of data services waveform

47、VBI lines 19 and 582 (1080i) or VBI line 24 (720p) Video Start lineP1P VBI lines 21 and 584 (1080i) or VBI line 26 (720p) Start Symbol and Header Data allocations See Figure 2 Display ClockP1P 74.176 MHz for 59.94 Hz 74.25 MHz for 60 Hz Start Symbol Data Symbol Width (=S) 77 clock cycles (1080i) 58

48、clock cycles (720p) Start Symbol Position (from 0H) 308 clock cycles (1080i) 232 clock cycles (720p)P2P Header Data Symbol Width (=H) 77 clock cycles (1080i) 58 clock cycles (720p) Start Symbol and Header Data Symbol Tolerance (from 0H) 30 ns Start Symbol and Header Data Symbol Maximum rise/fall tim

49、e (from 0H) 50 ns Header Data Bits per Symbol 1 (bi-level) Number of Header Data Symbols 6 Logical High (bit “1”) 70% white peak +10%, -10% Logical Low (bit “0”) 0% white peak (blanking level) +10%, -5% P1P Provided for informational purposes only. See applicable standard for normative text. P2P Note to implementers, 232 clock cycles is before active video start as per CEA-770.3, for this video format only. Table