CCIR System D is an analog broadcast television system used in Bulgaria, Latvia, Lithuania, Poland, Romania, Slovakia, Czech Republic, Hungary, Albania and the People's Republic of China, Mongolia, Kyrgyzstan, North Korea, Tajikistan, Turkmenistan, Uzbekistan, Armenia, Azerbaijan, Georgia, Kazakhstan, Moldova, Russia, Ukraine and Belarus paired with the PAL/SECAM colour. [1] [2] [3] [4]
Initially known as the I.B.T.O. 625-line system this was the first 625-line system, developed by Mark Krivosheev in 1948, [5] [6] and later associated with the SECAM and PAL color systems. Used on VHF only in most countries, it usually combined with System K on UHF. In China, it is used for both VHF and UHF. [7] [8]
The general specifications for System D are listed below: [9]
Television channels were arranged as follows: [10] [11]
Channel | Video carrier (MHz) | Audio carrier (MHz) |
---|---|---|
I | 41.75 | 48.25 |
II | 49.75 | 56.25 |
III | 59.25 | 65.75 |
IV | 77.25 | 83.75 |
1 | 145.25 | 151.75 |
2 | 153.25 | 159.75 |
3 | 161.25 | 167.75 |
4 | 169.25 | 175.75 |
5 | 177.25 | 183.75 |
6 | 185.25 | 191.75 |
7 | 193.25 | 199.75 |
8 | 201.25 | 207.75 |
9 | 209.25 | 215.75 |
Channel | Video carrier (MHz) | Audio carrier (MHz) |
---|---|---|
1 | 49.75 | 56.25 |
2 | 59.25 | 65.75 |
3 | 77.25 | 83.75 |
4 | 85.25 | 91.75 |
5 | 93.25 | 99.75 |
6 | 175.25 | 181.75 |
7 | 183.25 | 189.75 |
8 | 191.25 | 197.75 |
9 | 199.25 | 205.75 |
10 | 207.25 | 213.75 |
11 | 215.25 | 221.75 |
12 | 223.25 | 229.75 |
Channel | Frequency range (MHz) | Video carrier (MHz) | Audio carrier (MHz) | DTMB center frequency (MHz) |
---|---|---|---|---|
Band I | ||||
1 | 48.5 - 56.5 | 49.75 | 56.25 | 52.5 |
2 | 56.5 - 64.5 | 57.75 | 64.25 | 60.5 |
3 | 64.5 - 72.5 | 65.75 | 72.25 | 68.5 |
4 | 76 - 84 | 77.25 | 83.75 | 80 |
5 | 84 - 92 | 85.25 | 91.75 | 88 |
Band III | ||||
6 | 167 - 175 | 168.25 | 174.25 | 171 |
7 | 175 - 183 | 176.25 | 182.75 | 179 |
8 | 183 - 191 | 184.25 | 190.75 | 187 |
9 | 191 - 199 | 192.25 | 198.75 | 195 |
10 | 199 - 207 | 200.25 | 206.75 | 203 |
11 | 207 - 215 | 208.25 | 214.75 | 211 |
12 | 215 - 223 | 216.25 | 222.75 | 219 |
Ch | Video (MHz) | DTMB (MHz) | Audio (MHz) |
---|---|---|---|
13 | 471.25 | 474 | 477.75 |
14 | 479.25 | 482 | 485.75 |
15 | 487.25 | 490 | 493.75 |
16 | 495.25 | 498 | 501.75 |
17 | 503.25 | 506 | 509.75 |
18 | 511.25 | 514 | 517.75 |
19 | 519.25 | 522 | 525.75 |
20 | 527.25 | 530 | 533.75 |
21 | 535.25 | 538 | 541.75 |
22 | 543.25 | 546 | 549.75 |
23 | 551.25 | 554 | 557.75 |
24 | 559.25 | 562 | 565.75 |
25 | 605.25 | 610 | 611.75 |
26 | 613.25 | 618 | 619.75 |
27 | 621.25 | 626 | 627.75 |
28 | 629.25 | 634 | 635.75 |
29 | 637.25 | 642 | 643.75 |
30 | 645.25 | 650 | 651.75 |
31 | 653.25 | 658 | 659.75 |
32 | 661.25 | 666 | 667.75 |
33 | 669.25 | 674 | 675.75 |
34 | 677.25 | 682 | 683.75 |
35 | 685.25 | 690 | 691.75 |
36 | 693.25 | 698 | 699.75 |
37 | 701.25 | 706 | 707.75 |
38 | 709.25 | 714 | 715.75 |
39 | 717.25 | 722 | 723.75 |
40 | 725.25 | 730 | 731.75 |
41 | 733.25 | 738 | 739.75 |
42 | 741.25 | 746 | 747.75 |
43 | 749.25 | 754 | 755.75 |
44 | 757.25 | 762 | 763.75 |
45 | 765.25 | 770 | 771.75 |
46 | 773.25 | 778 | 779.75 |
47 | 781.25 | 786 | 787.75 |
48 | 789.25 | 794 | 795.75 |
49 | 797.25 | 802 | 803.75 |
50 | 805.25 | 810 | 811.75 |
51 | 813.25 | 818 | 819.75 |
52 | 821.25 | 826 | 827.75 |
53 | 829.25 | 834 | 835.75 |
54 | 837.25 | 842 | 843.75 |
55 | 845.25 | 850 | 851.75 |
56 | 853.25 | 858 | 859.75 |
57 | 861.25 | 866 | 867.75 |
58 | 871.25 | 874 | 877.75 |
59 | 879.25 | 882 | 885.75 |
60 | 887.25 | 890 | 893.75 |
61 | 895.25 | 898 | 901.75 |
62 | 903.25 | 906 | 909.75 |
Analog television is the original television technology that uses analog signals to transmit video and audio. In an analog television broadcast, the brightness, colors and sound are represented by amplitude, phase and frequency of an analog signal.
NTSC is the first American standard for analog television, published in 1941. In 1961, it was assigned the designation System M. It is also known as EIA standard 170.
Phase Alternating Line (PAL) is a colour encoding system for analog television. It was one of three major analogue colour television standards, the others being NTSC and SECAM. In most countries it was broadcast at 625 lines, 50 fields per second, and associated with CCIR analogue broadcast television systems B, D, G, H, I or K. The articles on analog broadcast television systems further describe frame rates, image resolution, and audio modulation.
SECAM, also written SÉCAM, is an analog color television system that was used in France, Russia and some other countries or territories of Europe and Africa. It was one of three major analog color television standards, the others being PAL and NTSC. Like PAL, a SECAM picture is also made up of 625 interlaced lines and is displayed at a rate of 25 frames per second. However, due to the way SECAM processes color information, it is not compatible with the German PAL video format standard. This page primarily discusses the SECAM colour encoding system. The articles on broadcast television systems and analog television further describe frame rates, image resolution, and audio modulation. SECAM video is composite video because the luminance and chrominance are transmitted together as one signal.
ITU-R Recommendation BT.601, more commonly known by the abbreviations Rec. 601 or BT.601, is a standard originally issued in 1982 by the CCIR for encoding interlaced analog video signals in digital video form. It includes methods of encoding 525-line 60 Hz and 625-line 50 Hz signals, both with an active region covering 720 luminance samples and 360 chrominance samples per line. The color encoding system is known as YCbCr 4:2:2.
Broadcasttelevision systems are the encoding or formatting systems for the transmission and reception of terrestrial television signals.
The following tables show the frequencies assigned to broadcast television channels in various regions of the world, along with the ITU letter designator for the system used. The frequencies shown are for the analogue video and audio carriers. The channel itself occupies several megahertz of bandwidth. For example, North American channel 1 occupies the spectrum from 44 to 50 MHz. See Broadcast television systems for a table of signal characteristics, including bandwidth, by ITU letter designator.
576i is a standard-definition digital video mode, originally used for digitizing analogue television in most countries of the world where the utility frequency for electric power distribution is 50 Hz. Because of its close association with the legacy colour encoding systems, it is often referred to as PAL, PAL/SECAM or SECAM when compared to its 60 Hz NTSC-colour-encoded counterpart, 480i.
The 405-line monochrome analogue television broadcasting system was the first fully electronic television system to be used in regular broadcasting. The number of television lines influences the image resolution, or quality of the picture.
PAL-M is the analogue colour TV system used in Brazil since early 1972, making it the first South American country to broadcast in colour.
CCIR System M, sometimes called 525–line, monochrome NTSC, NTSC-M, or CCIR-M, is the analog broadcast television system approved by the FCC for use in the United States since July 1, 1941, replacing the 441-line TV system introduced in 1938. System M comprises a total of 525 interlaced lines of video, of which 486 contain the image information, at 30 frames per second. Video is amplitude modulated and audio is frequency modulated, with a total bandwidth of 6 MHz for each channel, including a guard band.
CCIR System B was the 625-line VHF analog broadcast television system which at its peak was adopted by more than one hundred countries, either with PAL or SECAM colour. It is usually associated with CCIR System G for UHF broadcasts.
625-line is a late 1940s European analog standard-definition television resolution standard. It consists of a 625-line raster, with 576 lines carrying the visible image at 25 interlaced frames per second. It was eventually adopted by countries using 50 Hz utility frequency as regular TV broadcasts resumed after World War II. With the introduction of color television in the 1960s, it became associated with the PAL and SECAM analog color systems.
CCIR System G, also known as the "Gerber Standard", is an analog broadcast television system used in sixty countries around the world for UHF channels. System G is generally associated with System B for VHF.
CCIR System H is an analog broadcast television system used in Belgium, Bosnia and Herzegovina, Croatia, Malta, Slovenia and Liberia on UHF bands, paired with System B on VHF. It was associated with PAL colour.
CCIR System A was the 405-line analog broadcast television system adopted in the UK and Ireland. System A service started in 1936 and was discontinued in 1985.
CCIR System I is an analogue broadcast television system. It was first used in the Republic of Ireland starting in December 1961 as the 625-line broadcasting standard to be used on VHF Band I and Band III, sharing Band III with 405-line System A signals radiated in the north and east of the country. The Republic of Ireland has (slowly) extended its use of System I onto the UHF bands.
CCIR System N is an analog broadcast television system introduced in 1951 and adopted by Argentina, Paraguay and Uruguay, paired with the PAL color system (PAL-N) since 1980. It was also used briefly in Brazil and Venezuela.
CCIR System L is an analog broadcast television system used in France, Luxembourg, Monaco and Chausey. It was the last system to use positive video modulation and AM sound.
CCIR System K is an analog broadcast television system used in countries that adopted CCIR System D on VHF, and in Benin, Guinea, Republic of the Congo, Togo, Senegal, Burkina Faso, Burundi, Ivory Coast, Gabon, Comoros, Democratic Republic of the Congo, Madagascar, Mali, Nigeria, Réunion, Rwanda, Chad, Central African Republic, French Polynesia, New Caledonia, Wallis and Futuna, Guadeloupe, Martinique, Saint Pierre and Miquelon and French Guiana.