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本文(SMPTE RP 178-2004 Serial Digital Interface Checkfield for 10-Bit 4 2 2 Component and 4fsc Composite Digital Signals《10位4 2 2分量和4fsc复合数字信号的串行数字接口检验区》.pdf)为本站会员(fatcommittee260)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

SMPTE RP 178-2004 Serial Digital Interface Checkfield for 10-Bit 4 2 2 Component and 4fsc Composite Digital Signals《10位4 2 2分量和4fsc复合数字信号的串行数字接口检验区》.pdf

1、 1 Scope This practice specifies digital test signals suitable for evaluating the low-frequency response of equipment handling serial digital video signals as defined by ANSI/SMPTE 259M. These test signals are fully valid digital component video as defined in ANSI/SMPTE 125M. They are also useful di

2、gital composite video signals suitable for testing serial equipment in an out-of-service mode. Although a range of signals will produce the desired low-frequency effects, two specific signals are defined to test cable equalization and phase locked loop (PLL) lock-in, respectively. 2 Normative refere

3、nces The following standards contain provisions which, through reference in this text, constitute provisions of this practice. At the time of publication, the editions indicated were valid. All standards are subject to revision, and parties to agreements based on this practice are encouraged to inve

4、stigate the possibility of applying the most recent edition of the standards indicated below. ANSI/SMPTE 125M-1995, Television Component Video Signal 4:2:2 Bit-Parallel Digital Interface ANSI/SMPTE 259M-1997, Television 10-Bit 4:2:2 Component and 4fsc NTSC Composite Digital Signals Serial Digital In

5、terface SMPTE 244M-2003, Television System M/NTSC Composite Video Signals Bit-Parallel Digital Interface 3 General considerations Stressing of the automatic equalizer is accomplished by using a signal with the maximum number of 1s or 0s with infrequent single clock periods with the other polarity. S

6、tressing of the phase locked loop is accomplished by using a signal with a maximum low-frequency content; that is, with maximum time between transitions. 3.1 Channel coding of the serial digital signal defined by ANSI/SMPTE 259M utilizes scrambling and encoding into NRZI (non-return to zero inverted

7、) accomplished by a concatenation of the following two functions: G1(X) = X9+ X4+ 1 G2(X) = X + 1 As a result of the channel coding, long runs of 0s in the G2(X) output data can be obtained when the scrambler, G1(X), is in a certain state at the time when specific data words arrive. That certain sta

8、te will be present on a regular basis; therefore, continuous application of the specific data words will regularly produce the low-frequency effects (see annex A). 3.2 Although the longest run of parallel data 0s will occur during the EAV/SAV for component signals and the TRS-ID for composite signal

9、s, the probability of coincidence with the required scrambler state to permit either stressing condition to occur is small. The amount of low-frequency effect is so time limited that equalizers and phase locked loops are not maximally stressed. Page 1 of 5 pages RP 178-2004 Revision of RP 178-1996 C

10、opyright 2004 by THE SOCIETY OF MOTION PICTURE AND TELEVISION ENGINEERS 595 W. Hartsdale Ave., White Plains, NY 10607 (914) 761-1100 Approved November 30, 2004 SMPTE RECOMMENDED PRACTICE Serial Digital Interface Checkfield for 10-Bit 4:2:2 Component and 4fsc Composite Digital Signals RP 178-2004 Pag

11、e 2 of 5 pages 3.3 In the data portions of digital video signals (that is, all samples except the EAV, SAV, and ANC data flags), the sample values are restricted to exclude data levels 0 to 3 and 1020 to 1023 (000hto 003hand 3FChto 3FFhin the hexadecimal representation). The result of this restricti

12、on is that the longest run of 0s, at the input to the scrambler is 16, occurring when a sample of value 200his followed by a sample of value between 004hand 007h. This situation can produce up to 26 0s at the encoder output which is also not a maximally stressed case. 3.4 Other specific data words i

13、n combination with specific scrambler states can produce a repetitive low-frequency serial output signal until the next EAV or TRS-ID is received to change the state of the scrambler. It is these combinations of data words that form the basis for the test signals defined by this practice. 3.5 Becaus

14、e of the Y/C interleaved nature of the component digital signal, it is possible to obtain nearly all combinations of sample word pairs by defining a particular flat color field in a noise-free environment. It is such sample word pairs which will produce the desired low-frequency effect. Because of t

15、he non-interleaved nature of the composite digital signal, such pairs will produce a square wave at one-half the clock frequency which is not a valid signal, but may be used for out-of-service testing. 4 Checkfield data 4.1 Receiver equalizer testing is accomplished by producing a serial digital sig

16、nal with maximum dc content. Applying the sequence 300h, 198hcontinuously during the active line will produce a signal of 19 high (low) states followed by 1 low (high) state in a repetitive manner once the scrambler attains the required starting condition. Either polarity of the signal will be obtai

17、ned depending on whether the 19 bits are high or low. By producing at least one-half field of such active lines, the required starting condition, and hence desired signal, will be produced on several lines. 4.2 Since an ITU-R BT.601color black frame has an even number of 1s with no other data presen

18、t, the polarity of the equalizer stress signal would be the same on each occurrence. The stressing sequence also has an even number of 1s in each word. Therefore, in component systems, it is necessary to add an odd number of 1s to each frame. For the equalizer test signal defined in this practice, t

19、he last active sample in line 20 for 525-line systems and the last sample in line 23 for 625-line systems should be 80hinstead of the 198hwhich would otherwise be present. Designers are cautioned to ensure there is an odd number of 1s in a majority of frames if other data has been added to the signa

20、l in order to ensure both polarities of the test signal are produced. 4.3 Receiver phase locked loop testing is accomplished by producing a serial digital signal with maximum low-frequency content and minimum number of zero crossings. Applying the sequence 200h, 110hcontinuously during the active li

21、ne will produce a signal of 20 high (low) states followed by 20 low (high) states in a repetitive manner once the scrambler attains the required starting condition. By producing at least one-half field of such active lines, the required starting condition, hence desired signal, will be produced on s

22、everal lines. 4.4 The signals defined in 4.1 and 4.2 are valid component digital signals as defined by ANSI/SMPTE 125M due to the interleaved nature of component digital signals. The same values (except for the single 80hof 4.2) are used for composite digital testing of systems using the serial form

23、 of SMPTE 244M; however, the signals are not valid as they represent a square wave at one-half the clock frequency. There are sequences which represent a small amplitude signal for composite digital which could be considered valid by virtue of their amplitude being more than 20 dB below video peak s

24、ignal level. However, such signals have an average value more negative than blanking level which could disturb some systems under test. Therefore, for convenience of generation and ease of test operation, the composite digital test signals are chosen to be the same as the component digital test sign

25、als. 5 Serial digital interface (SDI) checkfield 5.1 Distribution of data in the SDI check field is shown in figure 1 for the signal standards referenced in clause 2. Specific distribution of sample values are shown in tables 1, 2, 3, and 4 for component 525/625 and composite 525/625, respectively.

26、In each field, the line where the signal changes from one test signal to the other is defined as a range rather than a specific line. RP 178-2004 Page 3 of 5 pages NOTE The alternate distribution of sample values (that is, interchanging the Y values with the Cb/Crvalues) produces the same test signa

27、l result in the serial digital signal. Use of the alternate distribution is in compliance with this recommendation and may be preferred in some applications as picture disturbances are more visible in the resulting green display colors. VERTICAL BLANKING INTERVAL FIRST HALF OF ACTIVE FIELD 300h, 198

28、h(SEE NOTE) FOR CABLE EQUALIZER TESTING SECOND HALF OF ACTIVE FIELD 200h, 110hFOR PHASE LOCKED LOOP TESTING NOTE For component signals, the last sample in the first active line of the first field is 80h(see 4.2). Figure 1 Serial digital interface checkfield Table 1 525-component SDI checkfield sampl

29、e values Line number Word numbers Sample Word value 20, 283 0 . 1436 1 . 1437 2 . 1438 4 . 1439 : : : CbY CrY 300h198h300h198h140 to 148 400 to 408 (approx mid-field) 0 . 1436 1 . 1437 2 . 1438 4 . 1439 : : : CbY CrY 200h110h200h110h263, 525 0 . 1436 1 . 1437 2 . 1438 4 . 1439 CbY CrY 200h110h200h11

30、0hNOTE Sample 1439 in line 20 is 80h(see 4.2). RP 178-2004 Page 4 of 5 pages Table 2 625-components SDI checkfield sample values Line number Word numbers Sample Word value 23, 336 CB0 . CB359 Y 1 . Y 718 CR0 . CR359 Y 2 . Y 719 : : : CbY CrY 300h198h300h198h160 to 168 470 to 478 (approx mid-field) C

31、B0 . CB359 Y 1 . Y 718 CR0 . CR359 Y 2 . Y 719 : : : CbY CrY 200h110h200h110h310, 623 CB0 . CB359 Y 1 . Y 718 CR0 . CR359 Y 2 . Y 719 CbY CrY 200h110h200h110hNOTE Sample Y 719 in line 23 is 80h(see 4.2). Table 3 525-compisute SDI checkfield sample values Line number Word numbers Word value 21, 284 0

32、 . 764 1 . 765 2 . 766 4 . 767 : : : 300h198h300h198h140 to 148 400 to 408 (approx mid-field) 0 . 764 1 . 765 2 . 766 4 . 767 : : : 200h110h200h110h262, 525 0 . 764 1 . 765 2 . 766 4 . 767 200h110h200h110hRP 178-2004 Page 5 of 5 pages Table 4 625-composite SDI checkfield sample values Line number Wo

33、rd numbers Word value 23, 336 0 . 944 1 . 945 2 . 946 4 . 947 : : : 300h198h300h198h160 to 168 470 to 478 (approx mid-field) 0 . 944 1 . 945 2 . 946 4 . 947 : : : 200h110h200h110h310, 623 0 . 944 1 . 945 2 . 946 4 . 947 200h110h200h110hAnnex A (informative) Bibliography ITU-R BT.601-5 (10/95), Studio Encoding Parameters of Digital Television for Standard 4:3 and Wide-Screen 16:9 Aspect Ratios Eguchi, Takeo. Pathological check codes for serial digital interface systems. SMPTE Journal 101(8): 553-558; August 1992.

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