Talk:SECAM

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This article has much "general" information about how television signals are modulated, which compares SECAM to other television systems. Shouldn't this information go in another article (like Broadcast television system) instead? It's very interesting and informative but I don't think it's in the right place. Neckro 02:50, 7 Oct 2004 (UTC)

Agreed, that's the best goddamn technical description of analog television signals I've ever read in my life. It's definitely worthy of an article of its own. Props to The_Anome and User:81.249.107.119. I suspect User:The_Anome simply failed to log in for that edit but who knows?? BrownstoneKnockn (talk) 02:39, 13 December 2018 (UTC)[reply]

Nonetheless, SÉCAM was partly developed for reasons of national pride.

Do we have indications of that? David.Monniaux 09:59, 14 Feb 2005 (UTC)

Many press articles of the era and recent literature about the subject document that the choice of SECAM vs PAL was a complicated political issue. Of course national pride was but one ingredient. Anorak2 04:32, 3 January 2006 (UTC)[reply]

At the time SECAM was developed, the only established colour system was NTSC. PAL was still in development and had not yet seen the light of day. At the time, SECAM was developed solely to avoid the colour problems that plague NTSC. 20.133.0.13 (talk) 07:02, 21 September 2009 (UTC)[reply]

Was that role of national pride unusual at the time? In today's context, it looks ridiculous, but at the time there were parallel and incompatible developments in the U.S., Britain, Germany, and France; only Japan, as far as I can see, had the foresight to simply adopt a standard developed elsewhere, and that is in keeping with their industrial tradition. —Preceding unsigned comment added by 80.229.144.35 (talk) 13:34, 28 February 2009 (UTC)[reply]

Ridiculous in today's context how exactly? There is a perfectly-good DVB standard from Europe, yet the US and Japan each came up with their own proprietary, incompatible systems for no better reason than the "not invented here" syndrome. The cost of patent licensing could well add as much as $US40 to the price of an ATSC-compatible TV set (and all new TV tuners in US interstate commerce have been required to have ATSC since at least 2007), benefiting Zenith, Dolby Labs and a few other companies (or their successors). The Japanese ISDB system, as a mess of DRM, is no better. So once again we have three pointless, incompatible standards. Plus ça change, plus ç'est pareil... --66.102.80.212 (talk) 16:36, 21 November 2009 (UTC)[reply]

The first colour television sets cost 5000 Francs.

This information is useless without saying something about how much was one French Franc worth in 1967. Please provide some info, be it 1967 average salary, exchange rate with 1967 US dollar, inflation-adjusted value in 2005 euros or cost of a typical black and white television set. Taw

Addition: It seems to me that saying that SECAM is only used in France at the top, and then listing a whole bunch of countries at the bottom, is a little misleading.

The previous version said

and because of frame rate differences (50 versus 60 Hz) and the requirement for compatibility with monochrome TV receivers, it was not possible for Europeans to adopt NTSC

This is not true as stated. Of course it would not have made sense to adopt the 525 lines/60 Hz system in Europe, but it would have been perfectly possible to introduce NTSC colour encoding on top of the European 625/50 systems. 625/50/NTSC signals were indeed tested in Germany and the UK, and AFAIK the UK seriously considered to introduce it as standard there. It was a matter of preference not to go for that system eventually, but to use PAL or SECAM instead. I changed the text accordingly. Anorak2 04:25, 3 January 2006 (UTC)[reply]

Addition: Someone edited my comment to the effect that the UK tested 405/25/NTSC signals. Both are true, they tested NTSC with both formats at different times. Anorak2 11:00, 4 April 2006 (UTC)[reply]

I was under the impression that accents generally aren't placed above upper-case letters in French. Is the title of this article correct? Fourohfour 13:38, 13 January 2006 (UTC)[reply]

Accents aren't required on upper case vowels, but allowed. The French version of this article uses both SÉCAM and SECAM inconsistently. But in non-French texts it's more common to omit the accent, IMHO. Regards Anorak2 17:08, 13 January 2006 (UTC)[reply]

This is a tricky issue. The accented ‘e’ comes from the second letter in the word séquential. It is customary (and, I do believe, proper) to omit all accents on capital letters in French. A Google search in French for “SECAM” (Google ignores accents) shows that “SECAM” is overwhelmingly used over “SÉCAM”, though the French language Wikipedia uses both, with the page named «Séquentiel couleur à mémoire». I do not think the page should be named “SÉCAM”, as that is not commonly used—“SECAM” should be used (as opposed to «Séquentiel couleur à mémoire», for consistency with NTSC and PAL).—Kbolino 07:39, 19 March 2006 (UTC)[reply]

The article name is SÉCAM (correctly, from the French expression). Whatever is used, it should be consistent. That is why I changed SECAM to SÉCAM in a number of instances. If anyone would write a bot to change all instances, either way, that's fine with me, but I would prefer it as it is. MH 16:39, 21 March 2006 (UTC)[reply]

It never was "proper" to drop accents in capitals. The usage was tolerated in the previous century very simply because typography (and older typewriters) couldn't handle the accents. This said, the accent-less "SECAM" is indeed in common use.

Urhixidur 12:00, 8 June 2006 (UTC)[reply]

If you want to use "É" instead of "E" in a SÉCAM, then use these keyboard stroke / keys :
Press "S". Then press ...
Alt + 0201 (it means, first press the "Alt" (Alternative/Alternate) key in your keyboard, and keep it pressing with your left hand, then press the digits 0 2 0 1 in sequence, one by one, in the right-side numeric keypad).
Then press "C", "A", "M".
Then you will get SÉCAM. To make it a linkable word (to goto this article,) use two third brackets at the beginning and end of the name, like this '''SÉCAM''', then you will get linkable SÉCAM.
If you want to link to this (English) article through URL, then use below code ...
http://en.wikipedia.org/wiki/S%C9CAM
or, http://en.wikipedia.org/wiki/S%C3%89CAM
For this type of other characters, see Windows Alt keycodes. ~ Tarikash.

To do it in Linux, hold down Alt Gr, and press the ; button, followed by the compatable letter of choice, in this case "E". —The preceding unsigned comment was added by 195.137.112.253 (talk • contribs) .

Or, on Macintosh, hold down the "Option" ("Alt") key, press "e" (which "arms" the accent acute), release "Option", and press "E" (or any other letter compatible with accent acute). Et voila!

Atlant 21:41, 26 October 2006 (UTC)[reply]

Of course the French don't usually bother with accents on capital letters and particularly on 'SECAM'. 20.133.0.13 (talk) 14:25, 24 March 2009 (UTC)[reply]

On any unix-like system with a configured compose-key: Press the Compose-Key, then press E, then press single-quote. --2001:5C0:1400:A:0:0:0:435 (talk) 17:30, 20 August 2014 (UTC)[reply]

Contrary to what many people think there are no SECAM DVDs. I've called shops in France and Russia, which was the core-nations of this system, and they assured me they used PAL now with the transition from VHS to DVD. Later I bought two DVDs from each country and these was PAL that played OK on my R2 PAL player. Third proof is of course to go to Ebay and search for french and russian DVDs. Look then at the bigger backcover scans and it's written PAL on all of them. (All this confusion surrounding SECAM DVDs comes from the DVD Demystified page which is unclear on this point). After the slow death of the videocassette, SECAM is a dead system now. All SECAM countries have changed system to PAL now, except Cuba who has changed to NTSC for geographical reasons. And after the four South American countries using the local videosystems PAL-M and PAL-N, changed to NTSC with the introduction of DVD, there are only PAL and NTSC left on DVD.

Stein Sundqvist 84.210.117.113

Your whole search for "SECAM DVDs" was pointless, and you're drawing false conclusions from the answers you got. "SECAM", "PAL" and "NTSC" are strictly speaking meaningless terms when applied to digital media, because they are encoding schemes for analogue video signals. DVDs contain neither NTSC nor PAL nor SECAM signals. They contain digital information of various frame rates and pixel resolutions. The most common ones are 30 frames at 480 scan lines and 25 frames at 576 scan lines. These are commonly labelled "NTSC" and "PAL" respectively, but that does not mean they contain PAL or NTSC signals in the sense of the word. 25/576 discs could as well be commonly called "SECAM" and that would be just as correct (or wrong) as calling them "PAL discs". It is just not very common to do so. Likewhise 30/480 discs could as well be named "PAL-M" instead of "NTSC" using the same logic, it is just uncommon to do so.

Not quite right. While the terms SECAM and PAL cannot strictly be applied to DVDs, as they owe nothing to these two colour encoding standards, the term NTSC can quite correctly be applied to DVD disks of North American origin. The term 'NTSC' not only defines a colour encoding standard, it also specifies the timings of the video signal. 20.133.0.14 10:10, 5 April 2007 (UTC)[reply]

The only place where true NTSC/PAL/SECAM signals exist with DVDs is when a DVD players plays them back and converts them into an analogue signal for viewing on conventional television sets. Players sold in PAL countries will convert 25/576 discs to analogue PAL signals, players sold in SECAM countries will convert the same discs to analogue SECAM signals (at least optionally, usually they can play them in PAL too).

DVD players that outputs SECAM encoded analogue signals are extremely rare. 20.133.0.14 10:10, 5 April 2007 (UTC)[reply]

It is true that a lot of former SECAM countries (notably in former eastern europe) have converted to PAL broadcasts in the 1990s. Not all have though, for example Russia, Ukraine and certainly France continue to broadcast in SECAM.

Meanwhile broadcasts are becoming all digital. The process is already gone quite far in the UK and Germany amongst others. When this process will be finished, all analogue standards will be dead, because digital signals are neither PAL nor SECAM. They are "DVB" of which there exist three variants for satellite, terrestrial and cable distribution. The resolution of DVB remains 25/576 for the time being and will therefore remain compatible with conventional PAL and SECAM equipment (the DVB boxes output PAL or SECAM signals). Analogue signals (PAL and SECAM) will probably continue to exist in domestic equipment for compatibility for quite a while. The standard is capable of HDTV resolution too, but that is another issue.

Incidentally, Cuba was never SECAM.

Anorak2 08:18, 12 June 2006 (UTC)[reply]

Regarding the 2nd paragraph: I never heard of, or seen DVD players outputting a SECAM signal in France, but I know that at least some cable and satellite boxes can output a SECAM signal for recording on the VCR. Overall, i have the impression that Stein Sundqvist did not fully read the SECAM article, as these issues are discussed there.Adam Mirowski 17:53, 29 September 2006 (UTC)[reply]

The early Samsung DVD-709 player sold in the UK can be hard-switched between PAL and SECAM for 25fps discs. Nick Cooper 11:46, 4 February 2007 (UTC)[reply]

Theres a Samsung/Polsat digital satellite reciever with a feature to select PAL or SECAM on its Composite video output. Given that Poland used to use SECAM it is presumably intended for older TV sets. Regarding the alleged obsolecence of SECAM it will be around for as long as there is still analouge television broadcasting in any SECAM countries. After that it will be pretty much dead but the exact same can be said regarding PAL and NTSC2. 213.40.219.141 (talk) 11:03, 15 March 2009 (UTC)[reply]

SÉCAM is still used on analog cable tv, in areas where analog cable still exists. But it is sourced from digital sources. SÉCAM died on satellite AB3 the last day of 2011. — Preceding unsigned comment added by 109.209.75.71 (talk) 13:13, 30 March 2012 (UTC)[reply]

SECAM was used for TV and VCR (and VHS tapes) until the mid 1990s.

• DVD players are only PAL or NTSC (DVD players sold in france are PAL as zone 2 PAL idem to UK)

what you have to know is first the french tvs were SECAM only, then they became PAL/SECAM (as were the VCRs), hence the DVD players PAL (Z2 PAL/NTSC) sold in france.

• french air tv channels (ground) are still SECAM until the end of this decade.
• modern tvs sold in france are PAL/SECAM/NTSC.
• in the early 90s game consoles sold in france were SECAM! i speak for the sega Master System (i remember the mainboard had a SECAM card). sega console packs sold in france ALWAYS had péritel cable (by default), while nintendo, sony and microsoft devices were sold with RCA with a crappy SCART adaptor (which doesn't produce RGB picture but a fuzzy shitty picture).
• digital still camera sold in france are PAL/NTSC
• cellular phones in france with video function are PAL/NTSC

as you can see SECAM is almost abandonned technology by now, and PAL is the euro standard. tv and vcr had PAL/SECAM switch option (remote control or set up), while the digital devices introduced since the late 90s have a PAL/NTSC switch option. hope it helps. Paris By Night 15:30, 4 January 2007 (UTC)[reply]

Strictly speaking, digital formats are neither PAL nor SECAM. Therefore PAL is on the way out too. DVD players, DVB boxes etc. generate an analogue signal internally only. Anorak2 14:18, 20 January 2007 (UTC)[reply]

It might also be noted that there is not a single DVD authoring program which allows the user to author 'SECAM' DVDs, it is only possible to author NTSC or PAL DVDs. With no exceptions, a DVD for the French market will be authored as PAL (and will play fine in all PAL territories). —Preceding unsigned comment added by 41.250.213.212 (talk) 15:02, 26 May 2009 (UTC)[reply]

This may be because there is no such thing as a 'SECAM' DVD. But then there is no such thing as a PAL DVD either. DVD does not use any analogue colour encoding scheme being, as the are, digital. 86.143.182.112 (talk) 09:50, 23 August 2009 (UTC)[reply]

what you didn't mention is french tvs have built-in Péritel (SCART aka EUROSCART), a cool RVB (french for RGB) connector that most of you have probably never seen. the truth is SECAM picture on a tv w/Péritel kicks ass! your RCA connector that you have on PAL/NTSC devices is actually the crappiest stuff outhere with fuzzy edges and ugly green and red pictures. actually french probably had the best (smooth and clear) picture until the HD era. a Péritel section should be created in this article to complete the overview.

gives something like RCA > S-VHS > Péritel (sécam-RGB) > HD Paris By Night 15:30, 4 January 2007 (UTC)[reply]

btw i'm not sure the russian had Péritel (SCART) connectors as it was a french technology and the russian were our ennemies during the cold war. if a russian here could confirm or infirm this, it would be useful. i think the russian had SECAM w/RCA tvs. Paris By Night 15:36, 4 January 2007 (UTC)[reply]

You are (alas) confused. First, there is no such thing as "SECAM-RGB". Thru SCART/Péritel, one can transmit different signals, notably SECAM or RGB. RGB is like the signals used between a computer and a VGA monitor and has little to do with broadcast television. Your digital-cable, satellite or digital-terrestrial box will generally produce RGB signals, and this is why it looks great on a "SECAM" television set. But the greatness results from the RGB abilitity of the set, which is independent of SECAM. It is just that since 1/1980 the French have required that all newly sold sets are really dual-standard, and can act as RGB computer monitors. BTW, to see how SECAM-thru-Péritel looks like, watch your VHS tapes. Or connect the television set to the "VCR" scart connector of the cable/satellite box, and select "SECAM" as VCR type in the menus. In this situation, whether Russians had or not SCART is irrelevant. Adam Mirowski 15:17, 7 January 2007 (UTC)[reply]

On the contrary, there is no reason to mention SCART here, I think SECAM has nothing to do with SCART, except both are originally French. I think most European TVs have built in SCART connector, regardless of TV norm used, as mentioned on SCART page. I have only seen non-SCART TVs in UK and Ireland. Saying that French had the best picture is a bit misleading, as for transmission in France the SECAM-L norm is used, which is inferior to at least East European SECAM-D/K (see broadcast television system) due to positive video modulation in SECAM-L, so at least Russia has better norm. But you could say, that in many European and non-European countries, where SCART is used, a very good picture can be obtained from VCRs and DVD players that supportes RGB output. Incidentally, I think it is not true, too. My current NTSC-J TV has no SCART but RGB and some kind of YUV device can be connected by CINCH connectors. It is not very convenient, because together with all these video and audio inputs and outputs, my TV has about 30 CINCH connectors in the back, what would be possible to unite into roughly three SCART connectors, one of which would be RGB-capable. 165.93.121.231 11:45, 23 February 2007 (UTC)[reply]

Old British and Irish televisions (until the mid 1980s) usually didn't have SCART and came with a vast array of different manufacturer-specific connections ranging from DIN plugs to RCA connectors. SCART became the norm in both countries from the late 1980s onwards and it's extremely rare to find anything other than an antique TV with out it. Satellite boxes, cable boxes, games consoles all connected via SCART until HDMI arrived. That being said, the SCART discussion is really for another article. It has nothing to do with SECAM. SCART is just a structured cabling system that was used for connecting analogue televisions and other AV devices. It was normally used to carry RGB and stereo sound on individual wires. Using it with composite video like SECAM or PAL sort of defeats the purpose of using it as you ended up with less clear pictures than component video (RGB).

SCART did however have one nice feature that HDMI lacks : the ability to control the AV output of the television and automatically switch the TV to the correct input when you power up your cable box / sat box etc.--95.44.82.237 (talk) 09:32, 30 October 2013 (UTC)[reply]

You are mentioning some colour problems with PAL and NTSC, like reddish or greenish picture. I think, I can compare all three norms very well, as I have been using all three for prolonged period. I can not support your claim that PAL is worse than SECAM, but definitely NTSC is much worse. When we switched from SECAM to PAL around 1989, it was slight increase in quality, although not too big. There was definitely no problem with colors in PAL. A very old SECAM-only TVs imported from Soviet Union had some problems with colors. But, clearly that was because they were already older technology in the time of switching to PAL. Now I live in Japan, and I realized that some modern NTSC TVs have completely green or red picture as these SECAM-only TVs thrown out almost 20 years ago. There is tilt control button on remote, that should fix that, but it is usually not sufficient. For instance, my TV is very pink, and I am not able to make it green enough with that button. Some TVs here have exactly opposite problem. I must say, while there was not big difference between PAL and SECAM, the color performance of NTSC (especially with old TVs) is pathetic, compared to both PAL and SECAM. I have asked Japanese people, and they claim, that my TV is normal. Obviously, they got used to frequent color shift on TV, so it is not problem for long term users, but after one year I can still see it. 165.93.121.231 11:45, 23 February 2007 (UTC)[reply]

SCART has nothing to do with SECAM or PAL, it is just a standard for connectors and controllers. In times when remote controllers were wired, SCART was a cool feature to control a TV, but who cares now? Also, in times when computer tape streamers were expensive, a VHS with SCART connector could work as an inexpensive tape streamer, fully controlled from a computer and recording whopping 2GB of data onto one VHS cassette. AFAIK, SCART was never modified for digital, so it is a dead standard now. In some Russian TVs and VCRs SCART was used, in other it was not used. It was never part of SECAM standard. Mikus (talk) 23:26, 9 September 2008 (UTC)[reply]

I'm from Catalonia/Spain. I only want to add that as of Jan 1 2009 all DVDs, DVB decoders set-top-boxes, TVs, VHS recorders (very rare now) and game consoles have the SCART connector, it is very widely used. It surely does not have nothing to do with SECAM because we have the PAL standard. Hope it helps a little. —Preceding unsigned comment added by 88.19.238.93 (talk) 23:56, 1 January 2009 (UTC)[reply]

Does anyone have a list of which analogue video tape formats ever supported SECAM of any variant? (Digital not relevant for same reasons as DVD). Please update / correct this list:

Secam recorded onto the tape:

VHS

Beta (Betamax)

Umatic (**UmaticSP and Umatic Hi-band unknown**)

N1700 (VCR-LP)

V2000 ??

Secam not recorded onto the tape but converted to PAL or not supported at all:

SVHS

Video8

Hi8

N1500 (VCR)

SVR

CVC

V-Cord

I removed Betacam because it is neither PAL not SECAM. It uses a unique colour encoding system for the tape that is closer to SECAM than PAL (in that it only records one channel per line - the other being recovered from the previous line). Betacam equipment does exist in the SECAM variant, but doesnt fall into either list.20.133.0.14 10:10, 5 April 2007 (UTC)[reply]

Well OK, but what was important was that a SECAM recording on BetacamSP is no different to a PAL recording on BetacamSP. A SECAM BetacamSP machine is not required for successful playback of a tape recorded on a SECAM BetacamSP recorder, a PAL player will do. 81.138.156.60 14:10, 28 September 2007 (UTC)[reply]

SVR have been sold in france.

Standard VCR also did secam with the N1481.

As well as V2000. 2A01:E0A:9B1:A500:9CDC:69E2:18FF:1B26 (talk) 22:31, 9 July 2023 (UTC)[reply]

Updates welcome. Colin99 13:06, 14 October 2006 (UTC)[reply]

SVHS is not "unknown", it is already discussed in the article. N1700 did support SECAM.

I don't know what are "rare machines": up to the 1990s there were not many multistandard

VCRs. (From the marketing point of view, VCRs sold in France were cheap SECAM-only or

more expensive SECAM+PAL. Then SECAM+PAL+NTSC-mono arrived and finally the NTSC-stereo

feature was added.) Does having an internal converter count as "support", was it "rare"?

Some info at

http://www.picsound.be/services/les_formats_video_que_nous_traitons_2.html Adam Mirowski 15:19, 14 October 2006 (UTC)[reply]

By "unknown", I meant unknown to me, I was asking the question. So I've updated it in the list. Also removed "rare", it either is or isn't then (I used the rare tag because some formats such as V2000 may have supported SECAM on just one model). I've also taken some information from the web link you provided. However I would take issue with the labels of "proprietary format" which that author has stuck on almost everything including Video8! What we don't know about then is BetacamSP and N1500 in particular, and some variants of Umatic. Thanks for your help in compiling this list, when it's finally tied down it could join the main article.Colin99 23:11, 27 October 2006 (UTC)[reply]

Having read some more, I see that SVHS and Hi8 decks did not RECORD in secam. So I've altered the heading to "natively" support secam, as opposed to convert to PAL and maybe back. I see you did mention this above. So SVHS and Hi8 move to the not supported group.

The point of all this is to find what selection of video recorders would be required in order to play any tape from anywhere in the world. So "standard" PAL S-VHS and Hi8 decks will play SECAM recordings. Is this your understanding? Colin99 19:00, 2 November 2006 (UTC)[reply]

There's no such thing as SVHS or Hi8 SECAM recordings. SVHS or Hi8 machines sold in SECAM countries are PAL and produce PAL tapes. The machines "support" SECAM by transcoding it to PAL prior to recording, but that is entirely a hardware issue and not a property of the tape format. It can be done with any format capable of PAL - using an external transcoder if the VCR doesn't have one -, therefore it's meaningless to make a list of formats which "support" this method. All do. Anorak2 03:50, 4 November 2006 (UTC)[reply]

Some SVHS recorders could transcode PAL back to SECAM, even theoretically mine, except that this feature - documented in the manual - is not actually implemented in the apparatus. It is a SVHS+DVD combo and I guess they saved on costs by eliminating a pretty useless feature, given that DVD does not output SECAM.

It has the standard feature of transcoding NTSC to PAL: setting this on PAL tapes gives quite funny effects, as the tape speed changes and the image is warped. It prolly can transcode SECAM to PAL from SECAM tapes too, but this is hard to guess because my TV set automatically adapts to both formats and does not even say which signal it gets.

BTW, why is Video8 still in the "supported" list above. The article says it was not supported. Adam Mirowski 23:39, 4 November 2006 (UTC)[reply]

Some SVHS recorders could transcode PAL back to SECAM Sure, my point was that this is not a property of the tape format, but a feature of specific machines.

It prolly can transcode SECAM to PAL from SECAM tapes too, but this is hard to guess because my TV set automatically adapts to both formats and does not even say which signal it gets. With a trained eye you can tell SECAM by the typical artefacts it produces: red & blue noise mostly at sharp edges, like here: http://www.pembers.freeserve.co.uk/World-TV-Standards/SECAM-Flare.jpg Anorak2 10:14, 6 November 2006 (UTC)[reply]

Hmm, this picture seems to rather show the effect of a poorly constructed video overlay, in a satellite box. I never saw such problems on my VCRs when they were overlaying information on the signal and I don't think I saw them in satellite boxes either for analog secam signals for public channels. Adam Mirowski 12:26, 8 November 2006 (UTC)[reply]

It's actually an artefact of the SECAM decoding process wherever it occurs, the overlaying is not its cause (merely an example where the artefacts are very pronounced due to the sharp edges of the computer generated characters). I have those streaks on all SECAM VHS tapes I own (some from East German TV, some from France), I remember them from SECAM broadcasts wheren they were still on air here, and even nowadays I occasionally see them on PAL stations when they happen to play archived SECAM footage which must inevitebly have gone through a SECAM dedoder at some stage. Anorak2 16:46, 8 November 2006 (UTC)[reply]

Corrected Video8 as pointed out. As mentioned earlier, the point of this list is to catalogue a list of formats for which a SECAM video recorder/player is required in order to play a tape recorded in a SECAM country. I wonder now whether V2000 and N1700 machines record a SECAM signal, or if they too transcoded to PAL. Anyone know the answer? Colin99 20:05, 5 November 2006 (UTC)[reply]

According to this article, Greece uses the SECAM-B&G standard. However, according to the 2005 edition of the WRTH, Greece uses the PAL-B&G standard, not the SECAM-B&G standard. Is it right to assume that Greece made the transition from SECAM to PAL? -Daniel Blanchette 17:17, 8 August 2006 (UTC)[reply]

Greece is among the countries who migrated from SECAM to PAL. The process has been finished some time ago, they're all PAL now. Anorak2 08:55, 26 October 2006 (UTC)[reply]

I think the paragraph about dot crawl in SECAM is technically inaccurate and generally misleading. I wrote it originally (mea culpa), anonymously, together with many other parts of this article, but made wrong guesses. When I started feeling something is fishy about this stuff, I was hoping someone more qualified would correct this, but it has been almost 2 years now. If this article is supposed to become GA-class, this should be fixed.

In my current opinion SECAM is even worse at dot crawl than PAL or NTSC. I think that the complex FM spectrum prevents any miraculous comb-style intermixing of the baseband luminance signal and of the chrominance subcarriers. (BTW, the article should finally say that SECAM uses different sub-carrier frequencies for Red and Blue signals.) The old books I have do discuss the interference of both signals, and say how SECAM uses tricks to minimize the visual impact (I forgot the details since, the books are burried somewhere currently after my recent move; the presence of 2 different subcarrier frequencies might be part of that scheme). But I am not sure if this was really implemented this way, because it might not work so well. So I am afraid that in real implementations, if a color signal is transmitted, a SECAM receiver will simply cut out the top of the spectrum to get the luminance undisturbed. For B&W this is not necessary. I wonder what happens at the transmitter. I guess that the top of the luminance does not need cutting there, as the FM chrominance subcarrier is not that easily disturbed.

PAL lovers, do not rejoice too soon! I am not sure SECAM is actually worse than PAL here as far as broadcast TV is concerned. Given that PAL receivers do not have comb-filters in general, they also must plainly cut out the high-frequencies or just display the dot-crawl.

BTW, if one carefully observes the classic Philips PM5544 test pattern in PAL and SECAM versions, one can notice that the series of vertical line patterns which go denser and denser from left to right, and which allows to appreciate the horizontal resolution of the receiver is different. In SECAM, after the middle point, it goes less dense again.

That SECAM is unable to play the comb-filter trick, might be a major reason why DVD players do not output it. Indeed, whatever tricks are used, it will not offer better horizontal resolution on DVD than than on broadcast, while with PAL/NTSC and a comb-filter, one might hope to "go to 11" more easily. But then it is easier and better to just use RGB signals.

Additionally, someone has speculated that the introduction of SCART in France (compulsory for sets sold after January 1981, or maybe already January 1980), and especially the presence of RGB input had something to do with the fact that the frequency modulation of SECAM is problematic with set-top boxes. SCART has been devised around the same time as the Antiope teletext system. People probably noticed it was hard to take a SECAM signal, decode teletext and insert it back into the color signal (for subtitles) before giving it to the TV set. So they considered passing the SECAM signal unchanged but have the "fast switching" feature in SCART to insert RGB areas here and there. Adam Mirowski 16:19, 14 October 2006 (UTC)[reply]

Can't say much about the frequency considerations, but one obvious drawback concerning cross-luminance is that the SECAM carrier is always at full amplitude and thus causes distortion in all regions of the image, whereas in PAL and NTSC its amplitude is reduced to zero in non-coloured regions of the image, and therefore crosstalk is reduced. I remember watching SECAM signals on East German television, they used to completely switch off the SECAM carrier (the switching was visible) when showing black&white movies for this reason. Anorak2 18:41, 14 October 2006 (UTC)[reply]

I remember these transitions as well, but only because the "tint" of the image changed, rather than because the image was less distorted. Yesterday, I tried to visually compare two versions of a cable channel, one in SECAM, the other one digital, transmitted as RGB to the TV set. This was on a live talk-show, with a very good picture, and on a classic TV set, without any kind of digital processing, 100 Hz, etc, which can alter the picture. It appears that dot crawl is indeed visible in SECAM, along edges, but only when objects move, so it is akin to motion blur. Once people stop moving significantly, it becomes invisible and the image is not very different from the RGB signal which of course has never any problem. I still need to compare with the PAL signal generated by the set-top box instead of RGB and maybe with the SECAM signal the box can only generate on the "VCR" SCART socket. Adam Mirowski 14:45, 15 October 2006 (UTC)[reply]

I could be great to have more information on Monochrome systems : B G H, L L', D K, ...

Maybe, but not in an article on a specific colour system. 20.133.0.13 (talk) 07:26, 21 September 2009 (UTC)[reply]

this article lacks sources, contains oriented sections (original francophobe searches about facetious english acronyms: come on, only the british speak english in europe, so don't try to generalize the old english perfidy to "other euro coutries"), titles like "why SECAM in France" etc are stupid: WHY NOT? its like the french had to use NTSC. Louis Augustin Le Prince invented motion picture film (long before Thomas Edison) and the Frères Lumière invented theaters, so the french were able to create their own system. also the french article about SECAM insists on Mitterand's role, while the english article focus on de gaulle. the french wanted to be independent from the US (cultural/economic) imperialism but were in the same time ennemies of the russian. the section reads like the french were with the chinese and the russian together against the american, this is historically false and an anglo-american view instead. the french were (and still are under chirac) against the us hegemony but they were allies against the communists (last evidence is the 1st vietnam war involving the french). the forementionned sections need to be neutralized and sourced. Paris By Night 16:45, 4 January 2007 (UTC)[reply]

Regarding the "why": it can be costly and inefficient to develop one's own original technology (but there can be some strong benefits at the end). Regarding the Russians: Business is business. It is important for a country to export, products, technology, culture, whatever. Look at all the trading done by democratic countries with commies and dictatorships. Only specific stuff is embargoed. Adam Mirowski 15:44, 7 January 2007 (UTC)[reply]

Union of Myanmar is coloured on the map as having SECAM standard, but in the text it is stated that it is having PAL standard. Not sure which exactly which is true, but either the map or the text (both for PAL and SECAM) should be changed. cheerio minidoc —The preceding unsigned comment was added by 62.99.203.19 (talk) 12:17, 22 January 2007 (UTC).[reply]

Whatever the technical reasons (EBU-related?) for not listing them there, most lay readers will be looking for Libya, Morocco and Tunisia under "Africa", not under "Europe". A similar problem applies to Syria, which again is not in Europe. Either the countries should be listed under their "layperson's understanding" region, or, if they're left where they are, there needs to be much, much better explaining of why in the section itself. 86.143.52.241 01:58, 3 June 2007 (UTC)[reply]

Indeed, the country listing is rather weird. Among other things, why would Ukraine and Mongolia be placed in Eurasia, whereas the former is fully in Europe, while the latter is fully in Asia. And Bulgaria is quite clearly not in Central Europe. Humanophage 20:12, 25 June 2007 (UTC)

Another oddity is the remark for France simulcast in PAL (ADSL). What does that mean? France certainly doesn't broadcast PAL terrestrially. "ADSL" could refer to IPTV. If so that isn't PAL either as it's a digital format. Anorak2 07:34, 26 June 2007 (UTC)[reply]

The Soviets experimented with "SECAM 4" (NIR) in the late sixties before deciding to stick with the inferior but widely established "SECAM 3". There is more on SECAM on the German Wikipedia page on SECAM (see here)but I dont have enough German to make sense of it :-(

Anyone know what SECAM 1 and 2 were (819 line experimental versions perhaps ??) ?80.229.222.48 06:26, 5 June 2007 (UTC)[reply]

SECAM 4 is similar to NTSC, except that phase modulation is omitted every other line and used with a delay line as a reference. I believe SECAM 1 and 2 used amplitude modulation instead of frequency modulation of the chroma subcarrier. Also they didn't use different subcarrier frequencies for the R-Y and B-Y signals unlike SECAM 3 83.252.128.11 09:03, 27 September 2007 (UTC)[reply]

The para about color signal insertion appears inaccurate - it's a superimposed carrier, not in "empty space". Needs fixing, you can rm tag after that. --Janke | Talk 08:55, 12 March 2008 (UTC)[reply]

I have removed the template. That section could be written a lot more clearly, but the point being made is correct. The "empty space" being referred to is the space in the frequency domain between the harmonics of the line scan rate (frequency shifted up to start at the carrier frequency). Because of the line rate repetitive nature of a television signal, the greater part of the transmitted power is in these harmonics and the space in between has very little signal. Similarly, the colour information has peaks and troughs of power occuring at the same frequency spacing. However, because there is a free choice of the exact frequency of the colour sub-carrier, it can be arranged that the peaks of the chroma signal lie exactly in the troughs of the luminance signal and vice versa. This requirement translates to the colour sub-carrier frequency must be an odd number of half line frequencies which explains why colour sub-carrier frequencies are always a strange unhandy inexact number. Of course, this is not unique to SECAM, the NTSC and PAL systems did the same trick, so it cannot be held up as an advantage of SECAM over other systems. The original concept was that luminance and chroma would be separated with comb filters which vastly reduce the artefacts of composite video systems, but this was not taken up by manufacturers prior to the digital age because it was found to be too expensive with the technology available to television manufacturers at the time. SpinningSpark 00:12, 14 September 2009 (UTC)[reply]

NTSC was considered undesirable in Europe because of its tint problem requiring an additional control, which SECAM and PAL solved. The joke was that "SECAM" stood for «System Essentially Contrary to the American Method» versus NTSC «Never Twice the Same Color» whilst «Peace At Last» could only be obtained through the PAL system

I had heard (possibly in the early 1980s) - when I hung out with video people, who were possibly early Digital TV advocates - that "SECAM" stood for Silly Europeans Continuing American mistakes - this phrase seemed to be in common use in New England at the time, as I recall.

This seems to ignore the fact that the 'color/tint' problem was solved by PAL and SECAM. —Preceding unsigned comment added by 65.185.15.204 (talk) 10:15, 25 August 2008 (UTC)[reply]

The early PAL TV that my parents bought sometime circa 1973 had a tint control. I suspect that this had something to do with the instability of valves (vacuum tubes) over time. And I heard:

PAL = “Pray and Learn” SECAM = “Suprème Effort Contre les AMericains”

I heard PAL = both "Pray And Look" and "Perfection At Last".Richard E (talk) 11:24, 17 February 2009 (UTC)[reply]

The German Telefunken company (originators of PAL) refused to licence Japanese manufacturers to produce PAL TV receivers in an attempt to prevent them from taking sales from German manufacturers (in practice European, but Telefunken was only interested in Germany). Sony managed to find a work around where they reversed the Y-R signal in alternate lines effectively converting the colour signal to a slightly unothodox NTSC signal. They then decoded it using a modified NTSC decoder. The tint control was required because they had removed the ability for the PAL system to correct differential phase distortion errors (the source of colour changes in such systems). The poor colour performance of these popular trinitron based TV sets impacted on the perception of the colour performance of PAL in general and Telefunfen were forced to reverse their edict. 20.133.0.13 (talk) 14:17, 24 March 2009 (UTC)[reply]

FWIW Jhlister (talk) —Preceding undated comment was added at 04:31, 10 February 2009 (UTC).[reply]

PAL and SECAM TVs never had tint control like NTSC to correct hue errors that occurred during transmission (because they don't).

What you might have seen: Some early colour television sets had controls to alter the overall colour balance of the picture tube. This control was not to correct some transmission error but to adjust colour according to taste ("warmer" == more red, "colder" == more blue) and could be seen in televisions of all systems. As it was more confusing rather than helpful to most consumers, it was omitted in later generations of television sets. Anorak2 (talk) 09:44, 11 February 2009 (UTC)[reply]

Some early Sony PAL televisions did have a tint control. Without researching this further, I can only recall that it had something to do with the way the single-gun Trinitron worked (and possibly avoidance of royalty payments by using a single-phase detector circuit). ProhibitOnions ^(T) 10:05, 11 February 2009 (UTC)[reply]

That is what I tried to explain. There were some televisions where you could adjust the colour balance of the picture tube according to taste. It has nothing to do with PAL. I don't know how they were labelled. Even if they used the word "tint" for these, its function was different from the NTSC tint control. Anorak2 (talk) 10:17, 11 February 2009 (UTC)[reply]

From memory, early Sony PAL sets (in the UK at least) were actually NTSC receivers with conversion on the front. Thus they had a hue/tint control. Richard E (talk) 11:25, 17 February 2009 (UTC)[reply]

Inside Akai CT-20WKD been control SECAM gray.--217.23.186.85 (talk) 17:08, 4 April 2016 (UTC)[reply]

Was SECAM ever used (even experimentally) on 819 line broadcasts ? 213.40.112.230 (talk) 11:44, 28 September 2008 (UTC)[reply]

Yes it was originally developed for the 819 system, but never used (except experimentally in the late 1950s). The 819 system remained black&white until its shutdown. Anorak2 (talk) 12:27, 1 October 2008 (UTC)[reply]

Indeed it was but it was not deployed for 2 reasons:

• The bandwidth requirements for a colour 819 system were greater than could be tolerated and would have required unnecessarily powerful transmitters
• Europe was adopting a standardised TV system of 625 lines which the French had to fall in with (though they didn't let that prevent them from using positive video modulation to prevent French citizens from receiving 'unsuitable' foreign broadcasts).

20.133.0.13 (talk) 14:23, 24 March 2009 (UTC)[reply]

This article says that SECAM stands for séquentiel couleur à mémoire. What about all the sources, going back decades, that say it stands for système électronique couleur avec memoire?

President Lethe (talk) 19:20, 8 April 2009 (UTC)[reply]

This article leads to the conclusion that SECAM is technically superior to PAL for long-distance reception. However, SECAM is prone to an annoying artifact called "SECAM flames" or "fires": if RF reception is not 100% perfect, red and blue stripes appear next to bright or oversaturated objects. There is a reference in German here [1], along with technical info and some vivid screenshots. A reference to this disadvantage should be included in the "Problems with the standard" section of the article.

I live in Greece and I remember that when the first private TV networks appeared on air (using PAL) in 1989, the state-run ERT TV, which used SECAM, couldn't stand in comparison because of the lower quality when RF transmission was weak (and it was, there are too many mountains here), so it switched to PAL three years later. SECAM was originally chosen in 1979 because of politics - allegedly due to the strong ties between Greek PM Constantine Karamanlis and French President Giscard d'Estaing (Greek source: [2]). There is also a screenshot [3] from Greek TV exposing this artifact to a lesser extend, but since it was apparently captured from VHS, it's not too reliable.--87.203.209.231 (talk) 12:37, 11 April 2009 (UTC)Yannis[reply]

I have little doubt that that comment was added by a French person. The French have always had a national pride in their inventions and always regard them as being superior to any others. They certainly develop things that are different .

The reality is that from a transmission and reception standpoint, both SECAM and PAL have both their advantages and disadvantages with little to choose between them. The inabiliy to easily process SECAM video in the studio has swung most TV authorities in favour of PAL. It is interesting to note that the basic principle of SECAM (recording one colour signal per line) have cropped up in other TV systems. The professional BetaCam system does this as well as the European version of the DV digital video format. 86.143.182.112 (talk) 10:02, 23 August 2009 (UTC)[reply]

The professional Betacam system does no such thing. It records the two colour difference signals for every line, by time compessing them by a factor of 2:1 then recording both sequentially on each line. Wmck (talk) 18:35, 28 December 2014 (UTC)[reply]

Not to mention the ubiquitous DVD. 86.166.69.208 (talk) 17:50, 29 January 2011 (UTC)[reply]

Interesting to note how you managed to answer a point nearly four years before it was made.

European versions of Betacam and DVD (not to mention DV tape) only record one colour difference signal per line. This is because the vertical colour resolution of both PAL and SECAM (the formats to which the signals were originally designed to be converted for playing or transmission) only feature half the vertical colour resolution of the original NTSC system and consequently, there nothing to be gained by recording both colour difference signals on each line. So called NTSC DVD discs as well as DV tapes record both colour difference signals but at half the horizontal resolution compared with so called PAL discs and tapes. 86.146.209.237 (talk) 16:26, 24 June 2020 (UTC)[reply]

Various countries (mostly former Eastern bloc but elsewhere too) migrated from SECAM to PAL particularly during the 1990's. Was this always for technical reasons or did politics play a role and were there not protests from owners of oler (SECAM only) sets who could now only watch in B&W ? 84.13.206.199 (talk) 00:54, 18 February 2012 (UTC)[reply]

Uhm, anyone notice that the image on the top left is either wrong, or has the wrong caption (PAL)? — Preceding unsigned comment added by 82.139.196.68 (talk) 09:34, 22 April 2012 (UTC)[reply]

If you consider not the VHS machines but only the recorded tapes as such - is then MESECAM the same as PAL?

What I mean is: if you put a PAL VHS tape in a MESECAM VHS machine (that's set to MESECAM mode), would you get a correct color playback on a SECAM TV set? Also, if you put a MESECAM VHS tape in a PAL machine (that's set to PAL mode if applicable), would you get a correct color playback on a PAL TV set?

Thanks for clarifying this! -- 92.226.89.102 (talk) 00:29, 31 October 2012 (UTC)[reply]

No, the MESECAM VHS format for recording SECAM is not directly compatible with PAL equipment, although some PAL VHS machines - particularly those made by Panasonic (e.g. the F55 and F77) - were "unofficially" MESECAM compliant. In other words, although there was no mention of MESECAM on the machine (i.e. under the VHS symbol) or in its manual, it would nonetheless record in MESECAM from a SECAM source, and play back correctly to a SECAM compatible TV set. Nick Cooper (talk) 11:28, 4 August 2014 (UTC)[reply]

Venezuela never used SECAM standards in color television. From the beginnings of TV in my country, TV stations only could broadcast in the N-Monochrome Standard (625 lines, 50 Hz and frequency bands for TV broadcasting in All-America). Then, the mains frequency was 50 Hz. In the period 1963-1968, the mains frequency was changed to 60 Hz and the monochrome standard changed to M Standard, in consequence. The first experimental color TV broadcastings in my country began in 1969. Later, the Venezuela government adopted the NTSC-M color standard by its compatibility with the old programs recorded in monochrome and the TV set introduced via smuggling for some users.

--Ramjar (talk) 03:50, 4 August 2014 (UTC)[reply]

This insertion is possible because the spectrum of the monochrome TV signal is not continuous (for most typical video content), hence empty space exists which can be utilized. This typical lack of continuity results from the discrete nature of the signal, which is divided into frames and lines. (Strictly speaking, monochrome video does use the full spectrum, if arbitrary and unconstrained movement of subjects and/or cameras is permitted. Therefore, all of these color systems compromise luma quality to some extent in exchange for the addition of color—i.e. all of these color signals look worse at some time or other than they would if the color signal were absent.)

This lengthy explanation confuses me, so I suspect it does others as well. Perhaps it can be simplified?

I was under the impression that the frequency was related to resolution. That is, higher frequency components of the signal represent smaller features on the display, or at least more rapid change of those features along a given horizontal line. Is that correct?

If so, it would see that this statement could be simplified this way:

"The original frequency allocation for each channel of monochrome TV signal provides considerable bandwidth. On most television sets of the era, the highest frequency portions of this signal, corresponding to rapid changes in intensity (and thus resolution), cannot be displayed due to limitations of the hardware.

Color systems take advantage of this by using these high-frequency portions of the channel to send the color signal instead of additional luminescence. On a black and white television this results in a slight randomization of the signal, but on most sets this is too small to be seen. On a color set, this information is extracted into separate circuitry and used to decode the color signal."

Maury Markowitz (talk) 21:01, 22 December 2016 (UTC)[reply]

@ZagrebFilmFan1951: China never used SECAM in formal broadcasting, you can google it simply, and both of China and former Yugoslavia adopted PAL. please stop adding them to this article without sources, otherwise they'll need to be removed again. --Corchorifolius (talk) 14:17, 18 July 2023 (UTC)[reply]

I've added to the article an official source for SECAM users in the late 1990s (Recommendation ITU-R BT.470-6 - Conventional Television Systems, Appendix 1 To Annex 1)^[1]. China and Yugoslavia are listed as PAL. 4throck (talk) 14:55, 18 July 2023 (UTC) 4throck (talk) 14:55, 18 July 2023 (UTC)[reply]

What about replacing it with CCIR Rep.624-3^[2] (1986)? which was the report file before the migration to PAL. Corchorifolius (talk) 09:35, 25 July 2023 (UTC)[reply]

Thanks for the reference! I think it's best to mention both reports, the article will be more complete that way. 4throck (talk) 12:00, 25 July 2023 (UTC)[reply]

Is any instance of SECAM usage in following countries that removed in from the Countries and territories that use SECAM section are true or false?: Djibouti, Equatorial Guinea, Lebanon and Liberia. HarmonZach (talk) 00:25, 13 January 2024 (UTC)[reply]