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Intelligence and RIAA
On May 15, 12:52 pm, John Byrns wrote:
In article . com, Peter Wieck wrote: On May 14, 10:21 am, John Byrns wrote: No, you have that exactly backwards, the RIAA recording curve reduces the groove amplitude at high frequencies, requiring a complimentary high frequency boost in playback, which increases the effects of surface noise. From: RIAA Equalization Curve for Phonograph Records By: Don Hoglund http://www.graniteaudio.com/page5.html Peter, that URL is dead, it doesn't work! That aside, it isn't clear what the point of your post is? Are you trying to say that my statement which you have quote above is wrong? If that is so just spit it out and tell me exactly what I said that is factually wrong? However, because the cutter head's movements translate the amplitude swings of the original signal into velocity - This is not true, at least historically. IIRC in the early days of electrical recording the cutters were constant amplitude below the "turnover" frequency and constant amplitude above the "turnover" frequency. This response was a result of carefully damped resonances which were inherent in the design of the cutter head. Early stereo disc cutters had a response which looked like a mountain peak with a resonance in the middle of the audio band. Aassuming these curves were velocity referenced, this would again imply constant amplitude operation in the area to the left of the mountain peak. I have no knowledge of the response of contemporary disc cutters, perhaps Iain could chime in here, but I would be very surprised if their response was anything near the perfect velocity response you assume. As a result of all this the electrical equalizers used in disc cutting produce a curve that looks nothing like the RIAA recording curve commonly presented on web sites, as they must compensate for the mechanical effects of the cutter head. You have also failed to consider the old crystal cutter heads that were used in home disc cutting setups, as well as in some semipro equipment. Even an ideal cutter head of this type would not produce a constant velocity recording from a constant amplitude input signal. the rate at which the stylus moves during its swings - low-frequency signals would be recorded with a much larger swing than high-frequency signals of the same original amplitude. So, the low frequency grooves would be much wider than the grooves on an equalized disk. This is only because you have chosen to take a velocity centric perspective, if you took the more natural groove amplitude view, you would see that the low frequency grooves would be no wider than high frequency grooves, and that in fact the amplitude of the high frequency grooves would have to be reduced, as they are in discs cut to the RIAA curve by some 12 dB, in order to prevent excessive groove velocity from occurring at high frequencies. Grooves cut with excessive velocity are difficult for playback pickups to track without creating excessive distortion. The high frequency amplitude cut incorporated into the RIAA recording curve necessitates that a complimentary high frequency boost be incorporated into the playback curve. This high frequency boost during playback decreases the signal to noise ratio of the LP by emphasizing the high frequency surface noise by some 12 dB. Peter, don't be one of the sheep, take a moment and think for yourself for once. If you can't do that at least make it clear what the point of your post was and tell me specifically what part of my previous post it is that you take issue with? Regards, John Byrns -- Surf my web pages at, http://fmamradios.com/ John: Whoops: http://www.graniteaudio.com/phono/page5.html should get you there. For the record: Whatever positions and suppositions you may take, and from whatever point of view, whichever cutting head and system, the actual subject-at-hand is the *present* RIAA Curve as practiced each day. This is presumably a fixed value both on recording and playback. That curve is at the bottom of the article. The Bass Boost and the Treble Cut on playback cross the Bass Cut and Treble Boost on recording at ~1.2Khz.... not quite what you are writing. References are at the bottom of the article. Some interesting stuff also on cartridge loading (impedance and capacitance), something that I have kept in mind for now over 30 years, and something that few of the more recent converts to vinyl do not understand. Back in the day, better components would list input capacitance at a given impedance. Some even had adjustments, and ways to vary both to a fixed value as needed. Most good TTs listed the capacitance of their cables as well. So it is not just the phono-stage but what feeds it as well that has effects on the overall results. John, sometimes your experience and history vastly overcomplicate what is a pretty simple issue. What 'should be' in the best of all possible worlds simply ain't necessarily so. Peter Wieck Wyncote, PA |
Intelligence and RIAA
On May 15, 1:08 pm, (Don Pearce) wrote:
John, my apologies. I have only just noticed that you are posting from rec.audio.tubes as your prime group. Ignore everything I wrote above - you are right and I am wrong. Just as Alice found when she stepped through the mirror into looking glass land, everything there works backwards from the real world. Don: Be careful. John is a literalist. Peter Wieck Wyncote, PA |
Intelligence and RIAA
In article ,
(Don Pearce) wrote: On Tue, 15 May 2007 17:02:56 GMT, (Don Pearce) wrote: On Tue, 15 May 2007 16:52:53 GMT, John Byrns wrote: In article . com, Peter Wieck wrote: On May 14, 10:21 am, John Byrns wrote: No, you have that exactly backwards, the RIAA recording curve reduces the groove amplitude at high frequencies, requiring a complimentary high frequency boost in playback, which increases the effects of surface noise. From: RIAA Equalization Curve for Phonograph Records By: Don Hoglund http://www.graniteaudio.com/page5.html Peter, that URL is dead, it doesn't work! That aside, it isn't clear what the point of your post is? Are you trying to say that my statement which you have quote above is wrong? If that is so just spit it out and tell me exactly what I said that is factually wrong? However, because the cutter head's movements translate the amplitude swings of the original signal into velocity - This is not true, at least historically. IIRC in the early days of electrical recording the cutters were constant amplitude below the "turnover" frequency and constant amplitude above the "turnover" frequency. This response was a result of carefully damped resonances which were inherent in the design of the cutter head. Early stereo disc cutters had a response which looked like a mountain peak with a resonance in the middle of the audio band. Aassuming these curves were velocity referenced, this would again imply constant amplitude operation in the area to the left of the mountain peak. I have no knowledge of the response of contemporary disc cutters, perhaps Iain could chime in here, but I would be very surprised if their response was anything near the perfect velocity response you assume. As a result of all this the electrical equalizers used in disc cutting produce a curve that looks nothing like the RIAA recording curve commonly presented on web sites, as they must compensate for the mechanical effects of the cutter head. You have also failed to consider the old crystal cutter heads that were used in home disc cutting setups, as well as in some semipro equipment. Even an ideal cutter head of this type would not produce a constant velocity recording from a constant amplitude input signal. the rate at which the stylus moves during its swings - low-frequency signals would be recorded with a much larger swing than high-frequency signals of the same original amplitude. So, the low frequency grooves would be much wider than the grooves on an equalized disk. This is only because you have chosen to take a velocity centric perspective, if you took the more natural groove amplitude view, you would see that the low frequency grooves would be no wider than high frequency grooves, and that in fact the amplitude of the high frequency grooves would have to be reduced, as they are in discs cut to the RIAA curve by some 12 dB, in order to prevent excessive groove velocity from occurring at high frequencies. Grooves cut with excessive velocity are difficult for playback pickups to track without creating excessive distortion. The high frequency amplitude cut incorporated into the RIAA recording curve necessitates that a complimentary high frequency boost be incorporated into the playback curve. This high frequency boost during playback decreases the signal to noise ratio of the LP by emphasizing the high frequency surface noise by some 12 dB. Peter, don't be one of the sheep, take a moment and think for yourself for once. If you can't do that at least make it clear what the point of your post was and tell me specifically what part of my previous post it is that you take issue with? John, are you still insisting that RIAA playback requires high frequency boost? It doesn't. An RIAA phono preamp has a feedback mechanism that provides high frequency cut. I have designed several myself, and studied the circuits and operation of many. Had I (and every other designer on the planet) been getting it wrong all the time, our systems would be muffled and entirely without top. They are not; they play back just fine, and certainly for my own, when I play a white noise track on a test disc (recorded with standard pre-emphasis before you say anything), I recover noise which is flat within about 1dB from 30Hz to 20kHz. *Please* go and do some reading so you can back away gracefully from this ridiculous position you are placing yourself in. John, my apologies. I have only just noticed that you are posting from rec.audio.tubes as your prime group. Ignore everything I wrote above - you are right and I am wrong. Just as Alice found when she stepped through the mirror into looking glass land, everything there works backwards from the real world. Don, I don't understand what the prime group I am posting from has to do with this issue and your sudden understanding? Could you please explain? Regards, John Byrns -- Surf my web pages at, http://fmamradios.com/ |
Intelligence and RIAA
On May 15, 9:08 am, Andre Jute wrote:
Yo, Gerry, I'm a professional communicator. I say exactly what I mean, no more, no less. If you do not follow, it is because either a) I intended for you not to understand or b) you are a thicko below my horizon. You might consider that everyone else understood what I meant. The only acceptable excuse for not understanding me when I speak that plainly is that you are unfamiliar with the technicalities underlying RIAA emphasis and de-emphasis, in which case you should, rather than attack my language, say you don't understand, and you will receive a courteous explanation from the few remaining on RAT who still honour the open-door principles of the ARRL. Andre Jute Oh, I see. You would rather show off how edjumicated you are rather than be kind enough to share information and write in laymen's terms so EVERYone can understand. You are a Professional elitist snob, apparently. Rude son-of-a-bitch, too. |
Intelligence and RIAA
On Tue, 15 May 2007 17:56:32 GMT, John Byrns
wrote: In article , (Don Pearce) wrote: On Tue, 15 May 2007 17:02:56 GMT, (Don Pearce) wrote: On Tue, 15 May 2007 16:52:53 GMT, John Byrns wrote: In article . com, Peter Wieck wrote: On May 14, 10:21 am, John Byrns wrote: No, you have that exactly backwards, the RIAA recording curve reduces the groove amplitude at high frequencies, requiring a complimentary high frequency boost in playback, which increases the effects of surface noise. From: RIAA Equalization Curve for Phonograph Records By: Don Hoglund http://www.graniteaudio.com/page5.html Peter, that URL is dead, it doesn't work! That aside, it isn't clear what the point of your post is? Are you trying to say that my statement which you have quote above is wrong? If that is so just spit it out and tell me exactly what I said that is factually wrong? However, because the cutter head's movements translate the amplitude swings of the original signal into velocity - This is not true, at least historically. IIRC in the early days of electrical recording the cutters were constant amplitude below the "turnover" frequency and constant amplitude above the "turnover" frequency. This response was a result of carefully damped resonances which were inherent in the design of the cutter head. Early stereo disc cutters had a response which looked like a mountain peak with a resonance in the middle of the audio band. Aassuming these curves were velocity referenced, this would again imply constant amplitude operation in the area to the left of the mountain peak. I have no knowledge of the response of contemporary disc cutters, perhaps Iain could chime in here, but I would be very surprised if their response was anything near the perfect velocity response you assume. As a result of all this the electrical equalizers used in disc cutting produce a curve that looks nothing like the RIAA recording curve commonly presented on web sites, as they must compensate for the mechanical effects of the cutter head. You have also failed to consider the old crystal cutter heads that were used in home disc cutting setups, as well as in some semipro equipment. Even an ideal cutter head of this type would not produce a constant velocity recording from a constant amplitude input signal. the rate at which the stylus moves during its swings - low-frequency signals would be recorded with a much larger swing than high-frequency signals of the same original amplitude. So, the low frequency grooves would be much wider than the grooves on an equalized disk. This is only because you have chosen to take a velocity centric perspective, if you took the more natural groove amplitude view, you would see that the low frequency grooves would be no wider than high frequency grooves, and that in fact the amplitude of the high frequency grooves would have to be reduced, as they are in discs cut to the RIAA curve by some 12 dB, in order to prevent excessive groove velocity from occurring at high frequencies. Grooves cut with excessive velocity are difficult for playback pickups to track without creating excessive distortion. The high frequency amplitude cut incorporated into the RIAA recording curve necessitates that a complimentary high frequency boost be incorporated into the playback curve. This high frequency boost during playback decreases the signal to noise ratio of the LP by emphasizing the high frequency surface noise by some 12 dB. Peter, don't be one of the sheep, take a moment and think for yourself for once. If you can't do that at least make it clear what the point of your post was and tell me specifically what part of my previous post it is that you take issue with? John, are you still insisting that RIAA playback requires high frequency boost? It doesn't. An RIAA phono preamp has a feedback mechanism that provides high frequency cut. I have designed several myself, and studied the circuits and operation of many. Had I (and every other designer on the planet) been getting it wrong all the time, our systems would be muffled and entirely without top. They are not; they play back just fine, and certainly for my own, when I play a white noise track on a test disc (recorded with standard pre-emphasis before you say anything), I recover noise which is flat within about 1dB from 30Hz to 20kHz. *Please* go and do some reading so you can back away gracefully from this ridiculous position you are placing yourself in. John, my apologies. I have only just noticed that you are posting from rec.audio.tubes as your prime group. Ignore everything I wrote above - you are right and I am wrong. Just as Alice found when she stepped through the mirror into looking glass land, everything there works backwards from the real world. Don, I don't understand what the prime group I am posting from has to do with this issue and your sudden understanding? Could you please explain? Regards, John Byrns Don't worry, John. Peter just put me straight. d -- Pearce Consulting http://www.pearce.uk.com |
Intelligence and RIAA
On May 15, 9:20 am, Eeyore
wrote: Andre Jute wrote: Yo, Gerry, I'm a professional communicator. You mean windbag. Graham Precisely! |
Intelligence and RIAA
John Byrns said: John, my apologies. I have only just noticed that you are posting from rec.audio.tubes as your prime group. Ignore everything I wrote above - you are right and I am wrong. Just as Alice found when she stepped through the mirror into looking glass land, everything there works backwards from the real world. Don, I don't understand what the prime group I am posting from has to do with this issue and your sudden understanding? Could you please explain? He say you toobies live in Bizarro world. Him stay, you go home! Har! -- Krooscience: The antidote to education, experience, and excellence. |
Intelligence and RIAA
In article ,
Sander deWaal wrote: (Don Pearce) said: Did you know there are 2.5 * 10^29 Barns in a square Rod, though? Hah! Did you know the average snail travels 3 furlongs per fortnight? Bet you didn't! ;-) Well, I just looked it up, and they do 0.03mph - which is about 80 furlongs per fortnight. You have slow snails! We feed 'em beer, so they're mostly running around in circles. Lucky Lager was especially good for that. Stephen |
Intelligence and RIAA
Gerry wrote:
On May 15, 9:08 am, Andre Jute wrote: Yo, Gerry, I'm a professional communicator. I say exactly what I mean, no more, no less. I see, said Alice. -- Nick |
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